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Comment:Merge all recent enhancements from trunk.
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SHA1:a15c49aed09a6f431022bc73aa98b04165649192
User & Date: drh 2016-04-21 15:35:21
Context
2016-04-29
15:52
Merge enhancements from trunk, and in particular the TEMP file deferred I/O enhancements. check-in: 81b76901 user: drh tags: apple-osx
2016-04-21
15:35
Merge all recent enhancements from trunk. check-in: a15c49ae user: drh tags: apple-osx
02:27
Add the SQLITE_DBCONFIG_ENABLE_LOAD_EXTENSION method for enabling sqlite3_load_extension() while leaving the load_extension() SQL function disabled. check-in: c4f165c4 user: drh tags: trunk
2016-03-29
10:30
Merge 3.12.0 changes. check-in: eef55744 user: drh tags: apple-osx
Changes
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Changes to Makefile.in.

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# will run on the target platform.  (BCC and TCC are usually the
# same unless your are cross-compiling.)  Separate CC and CFLAGS macros
# are provide so that these aspects of the build process can be changed
# on the "make" command-line.  Ex:  "make CC=clang CFLAGS=-fsanitize=undefined"
#
CC = @CC@
CFLAGS = @CPPFLAGS@ @CFLAGS@
TCC = $(CC) $(CFLAGS) -I. -I${TOP}/src -I${TOP}/ext/rtree -I${TOP}/ext/fts3


# Define this for the autoconf-based build, so that the code knows it can
# include the generated config.h
# 
TCC += -D_HAVE_SQLITE_CONFIG_H -DBUILD_sqlite

# Define -DNDEBUG to compile without debugging (i.e., for production usage)
................................................................................
TEMP_STORE = -DSQLITE_TEMP_STORE=@TEMP_STORE@

# Enable/disable loadable extensions, and other optional features
# based on configuration. (-DSQLITE_OMIT*, -DSQLITE_ENABLE*).  
# The same set of OMIT and ENABLE flags should be passed to the 
# LEMON parser generator and the mkkeywordhash tool as well.
OPT_FEATURE_FLAGS = @OPT_FEATURE_FLAGS@


TCC += $(OPT_FEATURE_FLAGS)

# Add in any optional parameters specified on the make commane line
# ie.  make "OPTS=-DSQLITE_ENABLE_FOO=1 -DSQLITE_OMIT_FOO=1".
TCC += $(OPTS)

................................................................................
         func.lo global.lo hash.lo \
         icu.lo insert.lo json1.lo legacy.lo loadext.lo \
         main.lo malloc.lo mem0.lo mem1.lo mem2.lo mem3.lo mem5.lo \
         memjournal.lo \
         mutex.lo mutex_noop.lo mutex_unix.lo mutex_w32.lo \
         notify.lo opcodes.lo os.lo os_unix.lo os_win.lo \
         pager.lo parse.lo pcache.lo pcache1.lo pragma.lo prepare.lo printf.lo \
         random.lo resolve.lo rowset.lo rtree.lo select.lo sqlite3rbu.lo status.lo \

         table.lo threads.lo tokenize.lo treeview.lo trigger.lo \
         update.lo util.lo vacuum.lo \
         vdbe.lo vdbeapi.lo vdbeaux.lo vdbeblob.lo vdbemem.lo vdbesort.lo \
         vdbetrace.lo wal.lo walker.lo where.lo wherecode.lo whereexpr.lo \
         utf.lo vtab.lo

# Object files for the amalgamation.
................................................................................
  $(TOP)/ext/icu/sqliteicu.h \
  $(TOP)/ext/icu/icu.c
SRC += \
  $(TOP)/ext/rtree/rtree.h \
  $(TOP)/ext/rtree/rtree.c
SRC += \
  $(TOP)/ext/sqlrr/sqlrr.h \
  $(TOP)/ext/sqlrr/sqlrr.c \




  $(TOP)/ext/rbu/sqlite3rbu.h \
  $(TOP)/ext/rbu/sqlite3rbu.c
SRC += \
  $(TOP)/ext/misc/json1.c



# Generated source code files
#
SRC += \
  keywordhash.h \
  opcodes.c \
  opcodes.h \
................................................................................
  $(TOP)/src/test_syscall.c \
  $(TOP)/src/test_tclvar.c \
  $(TOP)/src/test_thread.c \
  $(TOP)/src/test_vfs.c \
  $(TOP)/src/test_windirent.c \
  $(TOP)/src/test_wsd.c       \
  $(TOP)/ext/fts3/fts3_term.c \
  $(TOP)/ext/fts3/fts3_test.c \

  $(TOP)/ext/rbu/test_rbu.c 

# Statically linked extensions
#
TESTSRC += \
  $(TOP)/ext/misc/amatch.c \
  $(TOP)/ext/misc/closure.c \
................................................................................
  parse.c \
  $(TOP)/ext/fts3/fts3.c \
  $(TOP)/ext/fts3/fts3_aux.c \
  $(TOP)/ext/fts3/fts3_expr.c \
  $(TOP)/ext/fts3/fts3_term.c \
  $(TOP)/ext/fts3/fts3_tokenizer.c \
  $(TOP)/ext/fts3/fts3_write.c \
  $(TOP)/ext/async/sqlite3async.c


# Header files used by all library source files.
#
HDR = \
   $(TOP)/src/btree.h \
   $(TOP)/src/btreeInt.h \
   $(TOP)/src/hash.h \
................................................................................
	mv vdbe.new tsrc/vdbe.c
	cp fts5.c fts5.h tsrc
	touch .target_source

sqlite3.c:	.target_source $(TOP)/tool/mksqlite3c.tcl
	$(TCLSH_CMD) $(TOP)/tool/mksqlite3c.tcl
	cp tsrc/shell.c tsrc/sqlite3ext.h .


sqlite3ext.h:	.target_source
	cp tsrc/sqlite3ext.h .

tclsqlite3.c:	sqlite3.c
	echo '#ifndef USE_SYSTEM_SQLITE' >tclsqlite3.c
	cat sqlite3.c >>tclsqlite3.c
................................................................................

fts3_write.lo:	$(TOP)/ext/fts3/fts3_write.c $(HDR) $(EXTHDR)
	$(LTCOMPILE) -DSQLITE_CORE -c $(TOP)/ext/fts3/fts3_write.c

rtree.lo:	$(TOP)/ext/rtree/rtree.c $(HDR) $(EXTHDR)
	$(LTCOMPILE) -DSQLITE_CORE -c $(TOP)/ext/rtree/rtree.c




json1.lo:	$(TOP)/ext/misc/json1.c
	$(LTCOMPILE) -DSQLITE_CORE -c $(TOP)/ext/misc/json1.c

# FTS5 things
#
FTS5_SRC = \
   $(TOP)/ext/fts5/fts5.h \
................................................................................

showjournal$(TEXE):	$(TOP)/tool/showjournal.c sqlite3.lo
	$(LTLINK) -o $@ $(TOP)/tool/showjournal.c sqlite3.lo $(TLIBS)

showwal$(TEXE):	$(TOP)/tool/showwal.c sqlite3.lo
	$(LTLINK) -o $@ $(TOP)/tool/showwal.c sqlite3.lo $(TLIBS)




rollback-test$(TEXE):	$(TOP)/tool/rollback-test.c sqlite3.lo
	$(LTLINK) -o $@ $(TOP)/tool/rollback-test.c sqlite3.lo $(TLIBS)

LogEst$(TEXE):	$(TOP)/tool/logest.c sqlite3.h
	$(LTLINK) -I. -o $@ $(TOP)/tool/logest.c

wordcount$(TEXE):	$(TOP)/test/wordcount.c sqlite3.c
................................................................................
	$(LTLINK) $(TOP)/tool/loadfts.c libsqlite3.la -o $@ $(TLIBS)

# This target will fail if the SQLite amalgamation contains any exported
# symbols that do not begin with "sqlite3_". It is run as part of the
# releasetest.tcl script.
#
checksymbols: sqlite3.lo
	nm -g --defined-only sqlite3.o | grep -v " sqlite3_" ; test $$? -ne 0
	echo '0 errors out of 1 tests'

# Build the amalgamation-autoconf package.  The amalamgation-tarball target builds
# a tarball named for the version number.  Ex:  sqlite-autoconf-3110000.tar.gz.
# The snapshot-tarball target builds a tarball named by the SHA1 hash
#
amalgamation-tarball: sqlite3.c
................................................................................
clean:	
	rm -f *.lo *.la *.o sqlite3$(TEXE) libsqlite3.la
	rm -f sqlite3.h opcodes.*
	rm -rf .libs .deps
	rm -f lemon$(BEXE) lempar.c parse.* sqlite*.tar.gz
	rm -f mkkeywordhash$(BEXE) keywordhash.h
	rm -f *.da *.bb *.bbg gmon.out
	rm -rf quota2a quota2b quota2c
	rm -rf tsrc .target_source
	rm -f tclsqlite3$(TEXE)
	rm -f testfixture$(TEXE) test.db
	rm -f LogEst$(TEXE) fts3view$(TEXE) rollback-test$(TEXE) showdb$(TEXE)
	rm -f showjournal$(TEXE) showstat4$(TEXE) showwal$(TEXE) speedtest1$(TEXE)
	rm -f wordcount$(TEXE)
	rm -f sqlite3.dll sqlite3.lib sqlite3.exp sqlite3.def
	rm -f sqlite3.c
	rm -f sqlite3rc.h
	rm -f shell.c sqlite3ext.h
	rm -f sqlite3_analyzer$(TEXE) sqlite3_analyzer.c
	rm -f sqlite-*-output.vsix
	rm -f mptester mptester.exe







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# will run on the target platform.  (BCC and TCC are usually the
# same unless your are cross-compiling.)  Separate CC and CFLAGS macros
# are provide so that these aspects of the build process can be changed
# on the "make" command-line.  Ex:  "make CC=clang CFLAGS=-fsanitize=undefined"
#
CC = @CC@
CFLAGS = @CPPFLAGS@ @CFLAGS@
TCC = ${CC} ${CFLAGS} -I. -I${TOP}/src -I${TOP}/ext/rtree -I${TOP}/ext/icu
TCC += -I${TOP}/ext/fts3 -I${TOP}/ext/async -I${TOP}/ext/session

# Define this for the autoconf-based build, so that the code knows it can
# include the generated config.h
# 
TCC += -D_HAVE_SQLITE_CONFIG_H -DBUILD_sqlite

# Define -DNDEBUG to compile without debugging (i.e., for production usage)
................................................................................
TEMP_STORE = -DSQLITE_TEMP_STORE=@TEMP_STORE@

# Enable/disable loadable extensions, and other optional features
# based on configuration. (-DSQLITE_OMIT*, -DSQLITE_ENABLE*).  
# The same set of OMIT and ENABLE flags should be passed to the 
# LEMON parser generator and the mkkeywordhash tool as well.
OPT_FEATURE_FLAGS = @OPT_FEATURE_FLAGS@
OPT_FEATURE_FLAGS += -DSQLITE_ENABLE_SESSION -DSQLITE_ENABLE_PREUPDATE_HOOK

TCC += $(OPT_FEATURE_FLAGS)

# Add in any optional parameters specified on the make commane line
# ie.  make "OPTS=-DSQLITE_ENABLE_FOO=1 -DSQLITE_OMIT_FOO=1".
TCC += $(OPTS)

................................................................................
         func.lo global.lo hash.lo \
         icu.lo insert.lo json1.lo legacy.lo loadext.lo \
         main.lo malloc.lo mem0.lo mem1.lo mem2.lo mem3.lo mem5.lo \
         memjournal.lo \
         mutex.lo mutex_noop.lo mutex_unix.lo mutex_w32.lo \
         notify.lo opcodes.lo os.lo os_unix.lo os_win.lo \
         pager.lo parse.lo pcache.lo pcache1.lo pragma.lo prepare.lo printf.lo \
         random.lo resolve.lo rowset.lo rtree.lo \
         sqlite3session.lo select.lo sqlite3rbu.lo status.lo \
         table.lo threads.lo tokenize.lo treeview.lo trigger.lo \
         update.lo util.lo vacuum.lo \
         vdbe.lo vdbeapi.lo vdbeaux.lo vdbeblob.lo vdbemem.lo vdbesort.lo \
         vdbetrace.lo wal.lo walker.lo where.lo wherecode.lo whereexpr.lo \
         utf.lo vtab.lo

# Object files for the amalgamation.
................................................................................
  $(TOP)/ext/icu/sqliteicu.h \
  $(TOP)/ext/icu/icu.c
SRC += \
  $(TOP)/ext/rtree/rtree.h \
  $(TOP)/ext/rtree/rtree.c
SRC += \
  $(TOP)/ext/sqlrr/sqlrr.h \
  $(TOP)/ext/sqlrr/sqlrr.c
SRC += \
  $(TOP)/ext/session/sqlite3session.c \
  $(TOP)/ext/session/sqlite3session.h
SRC += \
  $(TOP)/ext/rbu/sqlite3rbu.h \
  $(TOP)/ext/rbu/sqlite3rbu.c
SRC += \
  $(TOP)/ext/misc/json1.c



# Generated source code files
#
SRC += \
  keywordhash.h \
  opcodes.c \
  opcodes.h \
................................................................................
  $(TOP)/src/test_syscall.c \
  $(TOP)/src/test_tclvar.c \
  $(TOP)/src/test_thread.c \
  $(TOP)/src/test_vfs.c \
  $(TOP)/src/test_windirent.c \
  $(TOP)/src/test_wsd.c       \
  $(TOP)/ext/fts3/fts3_term.c \
  $(TOP)/ext/fts3/fts3_test.c  \
  $(TOP)/ext/session/test_session.c \
  $(TOP)/ext/rbu/test_rbu.c 

# Statically linked extensions
#
TESTSRC += \
  $(TOP)/ext/misc/amatch.c \
  $(TOP)/ext/misc/closure.c \
................................................................................
  parse.c \
  $(TOP)/ext/fts3/fts3.c \
  $(TOP)/ext/fts3/fts3_aux.c \
  $(TOP)/ext/fts3/fts3_expr.c \
  $(TOP)/ext/fts3/fts3_term.c \
  $(TOP)/ext/fts3/fts3_tokenizer.c \
  $(TOP)/ext/fts3/fts3_write.c \
  $(TOP)/ext/async/sqlite3async.c \
  $(TOP)/ext/session/sqlite3session.c 

# Header files used by all library source files.
#
HDR = \
   $(TOP)/src/btree.h \
   $(TOP)/src/btreeInt.h \
   $(TOP)/src/hash.h \
................................................................................
	mv vdbe.new tsrc/vdbe.c
	cp fts5.c fts5.h tsrc
	touch .target_source

sqlite3.c:	.target_source $(TOP)/tool/mksqlite3c.tcl
	$(TCLSH_CMD) $(TOP)/tool/mksqlite3c.tcl
	cp tsrc/shell.c tsrc/sqlite3ext.h .
	cp $(TOP)/ext/session/sqlite3session.h .

sqlite3ext.h:	.target_source
	cp tsrc/sqlite3ext.h .

tclsqlite3.c:	sqlite3.c
	echo '#ifndef USE_SYSTEM_SQLITE' >tclsqlite3.c
	cat sqlite3.c >>tclsqlite3.c
................................................................................

fts3_write.lo:	$(TOP)/ext/fts3/fts3_write.c $(HDR) $(EXTHDR)
	$(LTCOMPILE) -DSQLITE_CORE -c $(TOP)/ext/fts3/fts3_write.c

rtree.lo:	$(TOP)/ext/rtree/rtree.c $(HDR) $(EXTHDR)
	$(LTCOMPILE) -DSQLITE_CORE -c $(TOP)/ext/rtree/rtree.c

sqlite3session.lo:	$(TOP)/ext/session/sqlite3session.c $(HDR) $(EXTHDR)
	$(LTCOMPILE) -DSQLITE_CORE -c $(TOP)/ext/session/sqlite3session.c

json1.lo:	$(TOP)/ext/misc/json1.c
	$(LTCOMPILE) -DSQLITE_CORE -c $(TOP)/ext/misc/json1.c

# FTS5 things
#
FTS5_SRC = \
   $(TOP)/ext/fts5/fts5.h \
................................................................................

showjournal$(TEXE):	$(TOP)/tool/showjournal.c sqlite3.lo
	$(LTLINK) -o $@ $(TOP)/tool/showjournal.c sqlite3.lo $(TLIBS)

showwal$(TEXE):	$(TOP)/tool/showwal.c sqlite3.lo
	$(LTLINK) -o $@ $(TOP)/tool/showwal.c sqlite3.lo $(TLIBS)

changeset$(TEXE):	$(TOP)/ext/session/changeset.c sqlite3.lo
	$(LTLINK) -o $@ $(TOP)/ext/session/changeset.c sqlite3.lo $(TLIBS)

rollback-test$(TEXE):	$(TOP)/tool/rollback-test.c sqlite3.lo
	$(LTLINK) -o $@ $(TOP)/tool/rollback-test.c sqlite3.lo $(TLIBS)

LogEst$(TEXE):	$(TOP)/tool/logest.c sqlite3.h
	$(LTLINK) -I. -o $@ $(TOP)/tool/logest.c

wordcount$(TEXE):	$(TOP)/test/wordcount.c sqlite3.c
................................................................................
	$(LTLINK) $(TOP)/tool/loadfts.c libsqlite3.la -o $@ $(TLIBS)

# This target will fail if the SQLite amalgamation contains any exported
# symbols that do not begin with "sqlite3_". It is run as part of the
# releasetest.tcl script.
#
checksymbols: sqlite3.lo
	nm -g --defined-only sqlite3.o | egrep -v ' sqlite3(changeset|session)?_' ; test $$? -ne 0
	echo '0 errors out of 1 tests'

# Build the amalgamation-autoconf package.  The amalamgation-tarball target builds
# a tarball named for the version number.  Ex:  sqlite-autoconf-3110000.tar.gz.
# The snapshot-tarball target builds a tarball named by the SHA1 hash
#
amalgamation-tarball: sqlite3.c
................................................................................
clean:	
	rm -f *.lo *.la *.o sqlite3$(TEXE) libsqlite3.la
	rm -f sqlite3.h opcodes.*
	rm -rf .libs .deps
	rm -f lemon$(BEXE) lempar.c parse.* sqlite*.tar.gz
	rm -f mkkeywordhash$(BEXE) keywordhash.h
	rm -f *.da *.bb *.bbg gmon.out

	rm -rf tsrc .target_source
	rm -f tclsqlite3$(TEXE)
	rm -f testfixture$(TEXE) test.db
	rm -f LogEst$(TEXE) fts3view$(TEXE) rollback-test$(TEXE) showdb$(TEXE)
	rm -f showjournal$(TEXE) showstat4$(TEXE) showwal$(TEXE) speedtest1$(TEXE)
	rm -f wordcount$(TEXE) changeset$(TEXE)
	rm -f sqlite3.dll sqlite3.lib sqlite3.exp sqlite3.def
	rm -f sqlite3.c
	rm -f sqlite3rc.h
	rm -f shell.c sqlite3ext.h
	rm -f sqlite3_analyzer$(TEXE) sqlite3_analyzer.c
	rm -f sqlite-*-output.vsix
	rm -f mptester mptester.exe

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# These are the "standard" SQLite compilation options used when compiling for
# the Windows platform.
#
!IFNDEF OPT_FEATURE_FLAGS
OPT_FEATURE_FLAGS = $(OPT_FEATURE_FLAGS) -DSQLITE_ENABLE_FTS3=1
OPT_FEATURE_FLAGS = $(OPT_FEATURE_FLAGS) -DSQLITE_ENABLE_RTREE=1
OPT_FEATURE_FLAGS = $(OPT_FEATURE_FLAGS) -DSQLITE_ENABLE_COLUMN_METADATA=1


!ENDIF

# These are the "extended" SQLite compilation options used when compiling for
# the Windows 10 platform.
#
!IFNDEF EXT_FEATURE_FLAGS
!IF $(FOR_WIN10)!=0
................................................................................
# builds, we need to make sure the compiler can find these.
#
!IF $(USE_AMALGAMATION)==0
TCC = $(TCC) -I$(TOP)\ext\fts3
RCC = $(RCC) -I$(TOP)\ext\fts3
TCC = $(TCC) -I$(TOP)\ext\rtree
RCC = $(RCC) -I$(TOP)\ext\rtree


!ENDIF

# The mksqlite3c.tcl script accepts some options on the command
# line.  When compiling with debugging enabled, some of these
# options are necessary in order to allow debugging symbols to
# work correctly with Visual Studio when using the amalgamation.
#
................................................................................
         func.lo global.lo hash.lo \
         icu.lo insert.lo legacy.lo loadext.lo \
         main.lo malloc.lo mem0.lo mem1.lo mem2.lo mem3.lo mem5.lo \
         memjournal.lo \
         mutex.lo mutex_noop.lo mutex_unix.lo mutex_w32.lo \
         notify.lo opcodes.lo os.lo os_unix.lo os_win.lo \
         pager.lo pcache.lo pcache1.lo pragma.lo prepare.lo printf.lo \
         random.lo resolve.lo rowset.lo rtree.lo select.lo sqlite3rbu.lo status.lo \

         table.lo threads.lo tokenize.lo treeview.lo trigger.lo \
         update.lo util.lo vacuum.lo \
         vdbeapi.lo vdbeaux.lo vdbeblob.lo vdbemem.lo vdbesort.lo \
         vdbetrace.lo wal.lo walker.lo where.lo wherecode.lo whereexpr.lo \
         utf.lo vtab.lo
# <</mark>>

................................................................................
  $(TOP)\ext\fts3\fts3_tokenizer1.c \
  $(TOP)\ext\fts3\fts3_tokenize_vtab.c \
  $(TOP)\ext\fts3\fts3_unicode.c \
  $(TOP)\ext\fts3\fts3_unicode2.c \
  $(TOP)\ext\fts3\fts3_write.c \
  $(TOP)\ext\icu\icu.c \
  $(TOP)\ext\rtree\rtree.c \

  $(TOP)\ext\rbu\sqlite3rbu.c \
  $(TOP)\ext\misc\json1.c

# Extension header files, part 1.
#
SRC08 = \
  $(TOP)\ext\fts1\fts1.h \
................................................................................
SRC09 = \
  $(TOP)\ext\fts3\fts3.h \
  $(TOP)\ext\fts3\fts3Int.h \
  $(TOP)\ext\fts3\fts3_hash.h \
  $(TOP)\ext\fts3\fts3_tokenizer.h \
  $(TOP)\ext\icu\sqliteicu.h \
  $(TOP)\ext\rtree\rtree.h \
  $(TOP)\ext\rbu\sqlite3rbu.h


# Generated source code files
#
SRC10 = \
  opcodes.c \
  parse.c

................................................................................
  $(TOP)\src\test_tclvar.c \
  $(TOP)\src\test_thread.c \
  $(TOP)\src\test_vfs.c \
  $(TOP)\src\test_windirent.c \
  $(TOP)\src\test_wsd.c \
  $(TOP)\ext\fts3\fts3_term.c \
  $(TOP)\ext\fts3\fts3_test.c \
  $(TOP)\ext\rbu\test_rbu.c


# Statically linked extensions.
#
TESTEXT = \
  $(TOP)\ext\misc\amatch.c \
  $(TOP)\ext\misc\closure.c \
  $(TOP)\ext\misc\eval.c \
................................................................................
  $(TOP)\ext\misc\regexp.c \
  $(TOP)\ext\misc\series.c \
  $(TOP)\ext\misc\spellfix.c \
  $(TOP)\ext\misc\totype.c \
  $(TOP)\ext\misc\wholenumber.c

# Source code to the library files needed by the test fixture

#
TESTSRC2 = \
  $(SRC00) \
  $(SRC01) \
  $(SRC06) \
  $(SRC07) \
  $(SRC10) \
................................................................................
  $(TOP)\ext\fts3\fts3_tokenizer.h
EXTHDR = $(EXTHDR) \
  $(TOP)\ext\rtree\rtree.h
EXTHDR = $(EXTHDR) \
  $(TOP)\ext\icu\sqliteicu.h
EXTHDR = $(EXTHDR) \
  $(TOP)\ext\rtree\sqlite3rtree.h



# executables needed for testing
#
TESTPROGS = \
  testfixture.exe \
  $(SQLITE3EXE) \
  sqlite3_analyzer.exe \
................................................................................
	$(TCLSH_CMD) $(TOP)\tool\vdbe-compress.tcl $(OPTS) < tsrc\vdbe.c > vdbe.new
	move vdbe.new tsrc\vdbe.c
	echo > .target_source

sqlite3.c:	.target_source sqlite3ext.h $(TOP)\tool\mksqlite3c.tcl
	$(TCLSH_CMD) $(TOP)\tool\mksqlite3c.tcl $(MKSQLITE3C_ARGS)
	copy tsrc\shell.c .


sqlite3-all.c:	sqlite3.c $(TOP)\tool\split-sqlite3c.tcl
	$(TCLSH_CMD) $(TOP)\tool\split-sqlite3c.tcl
# <</mark>>

# Rule to build the amalgamation
#
................................................................................

fts3_write.lo:	$(TOP)\ext\fts3\fts3_write.c $(HDR) $(EXTHDR)
	$(LTCOMPILE) $(CORE_COMPILE_OPTS) $(NO_WARN) -DSQLITE_CORE -c $(TOP)\ext\fts3\fts3_write.c

rtree.lo:	$(TOP)\ext\rtree\rtree.c $(HDR) $(EXTHDR)
	$(LTCOMPILE) $(CORE_COMPILE_OPTS) $(NO_WARN) -DSQLITE_CORE -c $(TOP)\ext\rtree\rtree.c




# FTS5 things
#
FTS5_SRC = \
   $(TOP)\ext\fts5\fts5.h \
   $(TOP)\ext\fts5\fts5Int.h \
   $(TOP)\ext\fts5\fts5_aux.c \
   $(TOP)\ext\fts5\fts5_buffer.c \
................................................................................
	$(LTLINK) $(NO_WARN) -DSQLITE_THREADSAFE=0 -DSQLITE_OMIT_LOAD_EXTENSION -Fe$@ \
		$(TOP)\tool\showjournal.c $(SQLITE3C) /link $(LDFLAGS) $(LTLINKOPTS)

showwal.exe:	$(TOP)\tool\showwal.c $(SQLITE3C) $(SQLITE3H)
	$(LTLINK) $(NO_WARN) -DSQLITE_THREADSAFE=0 -DSQLITE_OMIT_LOAD_EXTENSION -Fe$@ \
		$(TOP)\tool\showwal.c $(SQLITE3C) /link $(LDFLAGS) $(LTLINKOPTS)





fts3view.exe:	$(TOP)\ext\fts3\tool\fts3view.c $(SQLITE3C) $(SQLITE3H)
	$(LTLINK) $(NO_WARN) -DSQLITE_THREADSAFE=0 -DSQLITE_OMIT_LOAD_EXTENSION -Fe$@ \
		$(TOP)\ext\fts3\tool\fts3view.c $(SQLITE3C) /link $(LDFLAGS) $(LTLINKOPTS)

rollback-test.exe:	$(TOP)\tool\rollback-test.c $(SQLITE3C) $(SQLITE3H)
	$(LTLINK) $(NO_WARN) -DSQLITE_THREADSAFE=0 -DSQLITE_OMIT_LOAD_EXTENSION -Fe$@ \
		$(TOP)\tool\rollback-test.c $(SQLITE3C) /link $(LDFLAGS) $(LTLINKOPTS)
................................................................................
	del /Q sqlite3.c sqlite3.h 2>NUL
	del /Q opcodes.c opcodes.h 2>NUL
	del /Q lemon.* lempar.c parse.* 2>NUL
	del /Q mkkeywordhash.* keywordhash.h 2>NUL
	del /Q notasharedlib.* 2>NUL
	-rmdir /Q/S .deps 2>NUL
	-rmdir /Q/S .libs 2>NUL
	-rmdir /Q/S quota2a 2>NUL
	-rmdir /Q/S quota2b 2>NUL
	-rmdir /Q/S quota2c 2>NUL
	-rmdir /Q/S tsrc 2>NUL
	del /Q .target_source 2>NUL
	del /Q tclsqlite3.exe 2>NUL
	del /Q testloadext.dll 2>NUL
	del /Q testfixture.exe test.db 2>NUL
	del /Q LogEst.exe fts3view.exe rollback-test.exe showdb.exe 2>NUL

	del /Q showjournal.exe showstat4.exe showwal.exe speedtest1.exe 2>NUL
	del /Q mptester.exe wordcount.exe rbu.exe srcck1.exe 2>NUL
	del /Q sqlite3.c sqlite3-*.c 2>NUL
	del /Q sqlite3rc.h 2>NUL
	del /Q shell.c sqlite3ext.h 2>NUL
	del /Q sqlite3_analyzer.exe sqlite3_analyzer.c 2>NUL
	del /Q sqlite-*-output.vsix 2>NUL
	del /Q fuzzershell.exe fuzzcheck.exe sqldiff.exe 2>NUL
	del /Q fts5.* fts5parse.* 2>NUL
# <</mark>>







>
>







 







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>







 







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# These are the "standard" SQLite compilation options used when compiling for
# the Windows platform.
#
!IFNDEF OPT_FEATURE_FLAGS
OPT_FEATURE_FLAGS = $(OPT_FEATURE_FLAGS) -DSQLITE_ENABLE_FTS3=1
OPT_FEATURE_FLAGS = $(OPT_FEATURE_FLAGS) -DSQLITE_ENABLE_RTREE=1
OPT_FEATURE_FLAGS = $(OPT_FEATURE_FLAGS) -DSQLITE_ENABLE_COLUMN_METADATA=1
OPT_FEATURE_FLAGS = $(OPT_FEATURE_FLAGS) -DSQLITE_ENABLE_SESSION=1
OPT_FEATURE_FLAGS = $(OPT_FEATURE_FLAGS) -DSQLITE_ENABLE_PREUPDATE_HOOK=1
!ENDIF

# These are the "extended" SQLite compilation options used when compiling for
# the Windows 10 platform.
#
!IFNDEF EXT_FEATURE_FLAGS
!IF $(FOR_WIN10)!=0
................................................................................
# builds, we need to make sure the compiler can find these.
#
!IF $(USE_AMALGAMATION)==0
TCC = $(TCC) -I$(TOP)\ext\fts3
RCC = $(RCC) -I$(TOP)\ext\fts3
TCC = $(TCC) -I$(TOP)\ext\rtree
RCC = $(RCC) -I$(TOP)\ext\rtree
TCC = $(TCC) -I$(TOP)\ext\session
RCC = $(RCC) -I$(TOP)\ext\session
!ENDIF

# The mksqlite3c.tcl script accepts some options on the command
# line.  When compiling with debugging enabled, some of these
# options are necessary in order to allow debugging symbols to
# work correctly with Visual Studio when using the amalgamation.
#
................................................................................
         func.lo global.lo hash.lo \
         icu.lo insert.lo legacy.lo loadext.lo \
         main.lo malloc.lo mem0.lo mem1.lo mem2.lo mem3.lo mem5.lo \
         memjournal.lo \
         mutex.lo mutex_noop.lo mutex_unix.lo mutex_w32.lo \
         notify.lo opcodes.lo os.lo os_unix.lo os_win.lo \
         pager.lo pcache.lo pcache1.lo pragma.lo prepare.lo printf.lo \
         random.lo resolve.lo rowset.lo rtree.lo \
         sqlite3session.lo select.lo sqlite3rbu.lo status.lo \
         table.lo threads.lo tokenize.lo treeview.lo trigger.lo \
         update.lo util.lo vacuum.lo \
         vdbeapi.lo vdbeaux.lo vdbeblob.lo vdbemem.lo vdbesort.lo \
         vdbetrace.lo wal.lo walker.lo where.lo wherecode.lo whereexpr.lo \
         utf.lo vtab.lo
# <</mark>>

................................................................................
  $(TOP)\ext\fts3\fts3_tokenizer1.c \
  $(TOP)\ext\fts3\fts3_tokenize_vtab.c \
  $(TOP)\ext\fts3\fts3_unicode.c \
  $(TOP)\ext\fts3\fts3_unicode2.c \
  $(TOP)\ext\fts3\fts3_write.c \
  $(TOP)\ext\icu\icu.c \
  $(TOP)\ext\rtree\rtree.c \
  $(TOP)\ext\session\sqlite3session.c \
  $(TOP)\ext\rbu\sqlite3rbu.c \
  $(TOP)\ext\misc\json1.c

# Extension header files, part 1.
#
SRC08 = \
  $(TOP)\ext\fts1\fts1.h \
................................................................................
SRC09 = \
  $(TOP)\ext\fts3\fts3.h \
  $(TOP)\ext\fts3\fts3Int.h \
  $(TOP)\ext\fts3\fts3_hash.h \
  $(TOP)\ext\fts3\fts3_tokenizer.h \
  $(TOP)\ext\icu\sqliteicu.h \
  $(TOP)\ext\rtree\rtree.h \
  $(TOP)\ext\rbu\sqlite3rbu.h \
  $(TOP)\ext\session\sqlite3session.h

# Generated source code files
#
SRC10 = \
  opcodes.c \
  parse.c

................................................................................
  $(TOP)\src\test_tclvar.c \
  $(TOP)\src\test_thread.c \
  $(TOP)\src\test_vfs.c \
  $(TOP)\src\test_windirent.c \
  $(TOP)\src\test_wsd.c \
  $(TOP)\ext\fts3\fts3_term.c \
  $(TOP)\ext\fts3\fts3_test.c \
  $(TOP)\ext\rbu\test_rbu.c \
  $(TOP)\ext\session\test_session.c

# Statically linked extensions.
#
TESTEXT = \
  $(TOP)\ext\misc\amatch.c \
  $(TOP)\ext\misc\closure.c \
  $(TOP)\ext\misc\eval.c \
................................................................................
  $(TOP)\ext\misc\regexp.c \
  $(TOP)\ext\misc\series.c \
  $(TOP)\ext\misc\spellfix.c \
  $(TOP)\ext\misc\totype.c \
  $(TOP)\ext\misc\wholenumber.c

# Source code to the library files needed by the test fixture
# (non-amalgamation)
#
TESTSRC2 = \
  $(SRC00) \
  $(SRC01) \
  $(SRC06) \
  $(SRC07) \
  $(SRC10) \
................................................................................
  $(TOP)\ext\fts3\fts3_tokenizer.h
EXTHDR = $(EXTHDR) \
  $(TOP)\ext\rtree\rtree.h
EXTHDR = $(EXTHDR) \
  $(TOP)\ext\icu\sqliteicu.h
EXTHDR = $(EXTHDR) \
  $(TOP)\ext\rtree\sqlite3rtree.h
EXTHDR = $(EXTHDR) \
  $(TOP)\ext\session\sqlite3session.h

# executables needed for testing
#
TESTPROGS = \
  testfixture.exe \
  $(SQLITE3EXE) \
  sqlite3_analyzer.exe \
................................................................................
	$(TCLSH_CMD) $(TOP)\tool\vdbe-compress.tcl $(OPTS) < tsrc\vdbe.c > vdbe.new
	move vdbe.new tsrc\vdbe.c
	echo > .target_source

sqlite3.c:	.target_source sqlite3ext.h $(TOP)\tool\mksqlite3c.tcl
	$(TCLSH_CMD) $(TOP)\tool\mksqlite3c.tcl $(MKSQLITE3C_ARGS)
	copy tsrc\shell.c .
	copy $(TOP)\ext\session\sqlite3session.h .

sqlite3-all.c:	sqlite3.c $(TOP)\tool\split-sqlite3c.tcl
	$(TCLSH_CMD) $(TOP)\tool\split-sqlite3c.tcl
# <</mark>>

# Rule to build the amalgamation
#
................................................................................

fts3_write.lo:	$(TOP)\ext\fts3\fts3_write.c $(HDR) $(EXTHDR)
	$(LTCOMPILE) $(CORE_COMPILE_OPTS) $(NO_WARN) -DSQLITE_CORE -c $(TOP)\ext\fts3\fts3_write.c

rtree.lo:	$(TOP)\ext\rtree\rtree.c $(HDR) $(EXTHDR)
	$(LTCOMPILE) $(CORE_COMPILE_OPTS) $(NO_WARN) -DSQLITE_CORE -c $(TOP)\ext\rtree\rtree.c

sqlite3session.lo:	$(TOP)\ext\session\sqlite3session.c $(HDR) $(EXTHDR)
	$(LTCOMPILE) $(CORE_COMPILE_OPTS) $(NO_WARN) -DSQLITE_CORE -c $(TOP)\ext\session\sqlite3session.c

# FTS5 things
#
FTS5_SRC = \
   $(TOP)\ext\fts5\fts5.h \
   $(TOP)\ext\fts5\fts5Int.h \
   $(TOP)\ext\fts5\fts5_aux.c \
   $(TOP)\ext\fts5\fts5_buffer.c \
................................................................................
	$(LTLINK) $(NO_WARN) -DSQLITE_THREADSAFE=0 -DSQLITE_OMIT_LOAD_EXTENSION -Fe$@ \
		$(TOP)\tool\showjournal.c $(SQLITE3C) /link $(LDFLAGS) $(LTLINKOPTS)

showwal.exe:	$(TOP)\tool\showwal.c $(SQLITE3C) $(SQLITE3H)
	$(LTLINK) $(NO_WARN) -DSQLITE_THREADSAFE=0 -DSQLITE_OMIT_LOAD_EXTENSION -Fe$@ \
		$(TOP)\tool\showwal.c $(SQLITE3C) /link $(LDFLAGS) $(LTLINKOPTS)

changeset.exe:	$(TOP)\ext\session\changeset.c $(SQLITE3C)
	$(LTLINK) $(NO_WARN) -DSQLITE_THREADSAFE=0 -DSQLITE_OMIT_LOAD_EXTENSION -Fe$@ \
		$(TOP)\ext\session\changeset.c $(SQLITE3C) /link $(LDFLAGS) $(LTLINKOPTS)

fts3view.exe:	$(TOP)\ext\fts3\tool\fts3view.c $(SQLITE3C) $(SQLITE3H)
	$(LTLINK) $(NO_WARN) -DSQLITE_THREADSAFE=0 -DSQLITE_OMIT_LOAD_EXTENSION -Fe$@ \
		$(TOP)\ext\fts3\tool\fts3view.c $(SQLITE3C) /link $(LDFLAGS) $(LTLINKOPTS)

rollback-test.exe:	$(TOP)\tool\rollback-test.c $(SQLITE3C) $(SQLITE3H)
	$(LTLINK) $(NO_WARN) -DSQLITE_THREADSAFE=0 -DSQLITE_OMIT_LOAD_EXTENSION -Fe$@ \
		$(TOP)\tool\rollback-test.c $(SQLITE3C) /link $(LDFLAGS) $(LTLINKOPTS)
................................................................................
	del /Q sqlite3.c sqlite3.h 2>NUL
	del /Q opcodes.c opcodes.h 2>NUL
	del /Q lemon.* lempar.c parse.* 2>NUL
	del /Q mkkeywordhash.* keywordhash.h 2>NUL
	del /Q notasharedlib.* 2>NUL
	-rmdir /Q/S .deps 2>NUL
	-rmdir /Q/S .libs 2>NUL



	-rmdir /Q/S tsrc 2>NUL
	del /Q .target_source 2>NUL
	del /Q tclsqlite3.exe 2>NUL
	del /Q testloadext.dll 2>NUL
	del /Q testfixture.exe test.db 2>NUL
	del /Q LogEst.exe fts3view.exe rollback-test.exe showdb.exe 2>NUL
	del /Q changeset.exe 2>NUL
	del /Q showjournal.exe showstat4.exe showwal.exe speedtest1.exe 2>NUL
	del /Q mptester.exe wordcount.exe rbu.exe srcck1.exe 2>NUL
	del /Q sqlite3.c sqlite3-*.c 2>NUL
	del /Q sqlite3rc.h 2>NUL
	del /Q shell.c sqlite3ext.h sqlite3session.h 2>NUL
	del /Q sqlite3_analyzer.exe sqlite3_analyzer.c 2>NUL
	del /Q sqlite-*-output.vsix 2>NUL
	del /Q fuzzershell.exe fuzzcheck.exe sqldiff.exe 2>NUL
	del /Q fts5.* fts5parse.* 2>NUL
# <</mark>>

Changes to VERSION.

1
3.12.0
|
1
3.13.0

Changes to autoconf/Makefile.msc.

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# These are the "standard" SQLite compilation options used when compiling for
# the Windows platform.
#
!IFNDEF OPT_FEATURE_FLAGS
OPT_FEATURE_FLAGS = $(OPT_FEATURE_FLAGS) -DSQLITE_ENABLE_FTS3=1
OPT_FEATURE_FLAGS = $(OPT_FEATURE_FLAGS) -DSQLITE_ENABLE_RTREE=1
OPT_FEATURE_FLAGS = $(OPT_FEATURE_FLAGS) -DSQLITE_ENABLE_COLUMN_METADATA=1


!ENDIF

# These are the "extended" SQLite compilation options used when compiling for
# the Windows 10 platform.
#
!IFNDEF EXT_FEATURE_FLAGS
!IF $(FOR_WIN10)!=0







>
>







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# These are the "standard" SQLite compilation options used when compiling for
# the Windows platform.
#
!IFNDEF OPT_FEATURE_FLAGS
OPT_FEATURE_FLAGS = $(OPT_FEATURE_FLAGS) -DSQLITE_ENABLE_FTS3=1
OPT_FEATURE_FLAGS = $(OPT_FEATURE_FLAGS) -DSQLITE_ENABLE_RTREE=1
OPT_FEATURE_FLAGS = $(OPT_FEATURE_FLAGS) -DSQLITE_ENABLE_COLUMN_METADATA=1
OPT_FEATURE_FLAGS = $(OPT_FEATURE_FLAGS) -DSQLITE_ENABLE_SESSION=1
OPT_FEATURE_FLAGS = $(OPT_FEATURE_FLAGS) -DSQLITE_ENABLE_PREUPDATE_HOOK=1
!ENDIF

# These are the "extended" SQLite compilation options used when compiling for
# the Windows 10 platform.
#
!IFNDEF EXT_FEATURE_FLAGS
!IF $(FOR_WIN10)!=0

Changes to configure.

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#! /bin/sh
# Guess values for system-dependent variables and create Makefiles.
# Generated by GNU Autoconf 2.69 for sqlite 3.12.0.
#
#
# Copyright (C) 1992-1996, 1998-2012 Free Software Foundation, Inc.
#
#
# This configure script is free software; the Free Software Foundation
# gives unlimited permission to copy, distribute and modify it.
................................................................................
subdirs=
MFLAGS=
MAKEFLAGS=

# Identity of this package.
PACKAGE_NAME='sqlite'
PACKAGE_TARNAME='sqlite'
PACKAGE_VERSION='3.12.0'
PACKAGE_STRING='sqlite 3.12.0'
PACKAGE_BUGREPORT=''
PACKAGE_URL=''

# Factoring default headers for most tests.
ac_includes_default="\
#include <stdio.h>
#ifdef HAVE_SYS_TYPES_H
................................................................................
#
# Report the --help message.
#
if test "$ac_init_help" = "long"; then
  # Omit some internal or obsolete options to make the list less imposing.
  # This message is too long to be a string in the A/UX 3.1 sh.
  cat <<_ACEOF
\`configure' configures sqlite 3.12.0 to adapt to many kinds of systems.

Usage: $0 [OPTION]... [VAR=VALUE]...

To assign environment variables (e.g., CC, CFLAGS...), specify them as
VAR=VALUE.  See below for descriptions of some of the useful variables.

Defaults for the options are specified in brackets.
................................................................................
  --build=BUILD     configure for building on BUILD [guessed]
  --host=HOST       cross-compile to build programs to run on HOST [BUILD]
_ACEOF
fi

if test -n "$ac_init_help"; then
  case $ac_init_help in
     short | recursive ) echo "Configuration of sqlite 3.12.0:";;
   esac
  cat <<\_ACEOF

Optional Features:
  --disable-option-checking  ignore unrecognized --enable/--with options
  --disable-FEATURE       do not include FEATURE (same as --enable-FEATURE=no)
  --enable-FEATURE[=ARG]  include FEATURE [ARG=yes]
................................................................................
    cd "$ac_pwd" || { ac_status=$?; break; }
  done
fi

test -n "$ac_init_help" && exit $ac_status
if $ac_init_version; then
  cat <<\_ACEOF
sqlite configure 3.12.0
generated by GNU Autoconf 2.69

Copyright (C) 2012 Free Software Foundation, Inc.
This configure script is free software; the Free Software Foundation
gives unlimited permission to copy, distribute and modify it.
_ACEOF
  exit
................................................................................
  eval $as_lineno_stack; ${as_lineno_stack:+:} unset as_lineno

} # ac_fn_c_check_header_mongrel
cat >config.log <<_ACEOF
This file contains any messages produced by compilers while
running configure, to aid debugging if configure makes a mistake.

It was created by sqlite $as_me 3.12.0, which was
generated by GNU Autoconf 2.69.  Invocation command line was

  $ $0 $@

_ACEOF
exec 5>>config.log
{
................................................................................
test $as_write_fail = 0 && chmod +x $CONFIG_STATUS || ac_write_fail=1

cat >>$CONFIG_STATUS <<\_ACEOF || ac_write_fail=1
# Save the log message, to keep $0 and so on meaningful, and to
# report actual input values of CONFIG_FILES etc. instead of their
# values after options handling.
ac_log="
This file was extended by sqlite $as_me 3.12.0, which was
generated by GNU Autoconf 2.69.  Invocation command line was

  CONFIG_FILES    = $CONFIG_FILES
  CONFIG_HEADERS  = $CONFIG_HEADERS
  CONFIG_LINKS    = $CONFIG_LINKS
  CONFIG_COMMANDS = $CONFIG_COMMANDS
  $ $0 $@
................................................................................

Report bugs to the package provider."

_ACEOF
cat >>$CONFIG_STATUS <<_ACEOF || ac_write_fail=1
ac_cs_config="`$as_echo "$ac_configure_args" | sed 's/^ //; s/[\\""\`\$]/\\\\&/g'`"
ac_cs_version="\\
sqlite config.status 3.12.0
configured by $0, generated by GNU Autoconf 2.69,
  with options \\"\$ac_cs_config\\"

Copyright (C) 2012 Free Software Foundation, Inc.
This config.status script is free software; the Free Software Foundation
gives unlimited permission to copy, distribute and modify it."



|







 







|
|







 







|







 







|







 







|







 







|







 







|







 







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1
2
3
4
5
6
7
8
9
10
...
722
723
724
725
726
727
728
729
730
731
732
733
734
735
736
737
....
1456
1457
1458
1459
1460
1461
1462
1463
1464
1465
1466
1467
1468
1469
1470
....
1521
1522
1523
1524
1525
1526
1527
1528
1529
1530
1531
1532
1533
1534
1535
....
1642
1643
1644
1645
1646
1647
1648
1649
1650
1651
1652
1653
1654
1655
1656
....
2061
2062
2063
2064
2065
2066
2067
2068
2069
2070
2071
2072
2073
2074
2075
.....
12075
12076
12077
12078
12079
12080
12081
12082
12083
12084
12085
12086
12087
12088
12089
.....
12141
12142
12143
12144
12145
12146
12147
12148
12149
12150
12151
12152
12153
12154
12155
#! /bin/sh
# Guess values for system-dependent variables and create Makefiles.
# Generated by GNU Autoconf 2.69 for sqlite 3.13.0.
#
#
# Copyright (C) 1992-1996, 1998-2012 Free Software Foundation, Inc.
#
#
# This configure script is free software; the Free Software Foundation
# gives unlimited permission to copy, distribute and modify it.
................................................................................
subdirs=
MFLAGS=
MAKEFLAGS=

# Identity of this package.
PACKAGE_NAME='sqlite'
PACKAGE_TARNAME='sqlite'
PACKAGE_VERSION='3.13.0'
PACKAGE_STRING='sqlite 3.13.0'
PACKAGE_BUGREPORT=''
PACKAGE_URL=''

# Factoring default headers for most tests.
ac_includes_default="\
#include <stdio.h>
#ifdef HAVE_SYS_TYPES_H
................................................................................
#
# Report the --help message.
#
if test "$ac_init_help" = "long"; then
  # Omit some internal or obsolete options to make the list less imposing.
  # This message is too long to be a string in the A/UX 3.1 sh.
  cat <<_ACEOF
\`configure' configures sqlite 3.13.0 to adapt to many kinds of systems.

Usage: $0 [OPTION]... [VAR=VALUE]...

To assign environment variables (e.g., CC, CFLAGS...), specify them as
VAR=VALUE.  See below for descriptions of some of the useful variables.

Defaults for the options are specified in brackets.
................................................................................
  --build=BUILD     configure for building on BUILD [guessed]
  --host=HOST       cross-compile to build programs to run on HOST [BUILD]
_ACEOF
fi

if test -n "$ac_init_help"; then
  case $ac_init_help in
     short | recursive ) echo "Configuration of sqlite 3.13.0:";;
   esac
  cat <<\_ACEOF

Optional Features:
  --disable-option-checking  ignore unrecognized --enable/--with options
  --disable-FEATURE       do not include FEATURE (same as --enable-FEATURE=no)
  --enable-FEATURE[=ARG]  include FEATURE [ARG=yes]
................................................................................
    cd "$ac_pwd" || { ac_status=$?; break; }
  done
fi

test -n "$ac_init_help" && exit $ac_status
if $ac_init_version; then
  cat <<\_ACEOF
sqlite configure 3.13.0
generated by GNU Autoconf 2.69

Copyright (C) 2012 Free Software Foundation, Inc.
This configure script is free software; the Free Software Foundation
gives unlimited permission to copy, distribute and modify it.
_ACEOF
  exit
................................................................................
  eval $as_lineno_stack; ${as_lineno_stack:+:} unset as_lineno

} # ac_fn_c_check_header_mongrel
cat >config.log <<_ACEOF
This file contains any messages produced by compilers while
running configure, to aid debugging if configure makes a mistake.

It was created by sqlite $as_me 3.13.0, which was
generated by GNU Autoconf 2.69.  Invocation command line was

  $ $0 $@

_ACEOF
exec 5>>config.log
{
................................................................................
test $as_write_fail = 0 && chmod +x $CONFIG_STATUS || ac_write_fail=1

cat >>$CONFIG_STATUS <<\_ACEOF || ac_write_fail=1
# Save the log message, to keep $0 and so on meaningful, and to
# report actual input values of CONFIG_FILES etc. instead of their
# values after options handling.
ac_log="
This file was extended by sqlite $as_me 3.13.0, which was
generated by GNU Autoconf 2.69.  Invocation command line was

  CONFIG_FILES    = $CONFIG_FILES
  CONFIG_HEADERS  = $CONFIG_HEADERS
  CONFIG_LINKS    = $CONFIG_LINKS
  CONFIG_COMMANDS = $CONFIG_COMMANDS
  $ $0 $@
................................................................................

Report bugs to the package provider."

_ACEOF
cat >>$CONFIG_STATUS <<_ACEOF || ac_write_fail=1
ac_cs_config="`$as_echo "$ac_configure_args" | sed 's/^ //; s/[\\""\`\$]/\\\\&/g'`"
ac_cs_version="\\
sqlite config.status 3.13.0
configured by $0, generated by GNU Autoconf 2.69,
  with options \\"\$ac_cs_config\\"

Copyright (C) 2012 Free Software Foundation, Inc.
This config.status script is free software; the Free Software Foundation
gives unlimited permission to copy, distribute and modify it."

Changes to ext/fts3/fts3_test.c.

454
455
456
457
458
459
460
461
462
463
464
465
466
467
468
      rc = SQLITE_NOMEM;
    }else{
      int i;

      if( pCsr->iLangid & 0x00000001 ){
        for(i=0; i<nToken; i++) pCsr->aBuffer[i] = pToken[i];
      }else{
        for(i=0; i<nToken; i++) pCsr->aBuffer[i] = testTolower(pToken[i]);
      }
      pCsr->iToken++;
      pCsr->iInput = (int)(p - pCsr->aInput);

      *ppToken = pCsr->aBuffer;
      *pnBytes = nToken;
      *piStartOffset = (int)(pToken - pCsr->aInput);







|







454
455
456
457
458
459
460
461
462
463
464
465
466
467
468
      rc = SQLITE_NOMEM;
    }else{
      int i;

      if( pCsr->iLangid & 0x00000001 ){
        for(i=0; i<nToken; i++) pCsr->aBuffer[i] = pToken[i];
      }else{
        for(i=0; i<nToken; i++) pCsr->aBuffer[i] = (char)testTolower(pToken[i]);
      }
      pCsr->iToken++;
      pCsr->iInput = (int)(p - pCsr->aInput);

      *ppToken = pCsr->aBuffer;
      *pnBytes = nToken;
      *piStartOffset = (int)(pToken - pCsr->aInput);

Changes to ext/fts3/tool/fts3view.c.

394
395
396
397
398
399
400
401
402

403
404
405
406
407
408
409
           "         WHERE (a.blockid BETWEEN b.start_block"
                                       " AND b.leaves_end_block)"
           "           AND (b.level%%1024)==%d)",
           pgsz-45, zTab, zTab, i);
    if( sqlite3_step(pStmt)==SQLITE_ROW
     && (nLeaf = sqlite3_column_int(pStmt, 0))>0
    ){
      nIdx = sqlite3_column_int(pStmt, 5);
      sqlite3_int64 sz;

      printf("For level %d:\n", i);
      printf("  Number of indexes...................... %9d\n", nIdx);
      printf("  Number of leaf segments................ %9d\n", nLeaf);
      if( nIdx>1 ){
        printf("  Average leaf segments per index........ %11.1f\n",
               (double)nLeaf/(double)nIdx);
      }







<

>







394
395
396
397
398
399
400

401
402
403
404
405
406
407
408
409
           "         WHERE (a.blockid BETWEEN b.start_block"
                                       " AND b.leaves_end_block)"
           "           AND (b.level%%1024)==%d)",
           pgsz-45, zTab, zTab, i);
    if( sqlite3_step(pStmt)==SQLITE_ROW
     && (nLeaf = sqlite3_column_int(pStmt, 0))>0
    ){

      sqlite3_int64 sz;
      nIdx = sqlite3_column_int(pStmt, 5);
      printf("For level %d:\n", i);
      printf("  Number of indexes...................... %9d\n", nIdx);
      printf("  Number of leaf segments................ %9d\n", nLeaf);
      if( nIdx>1 ){
        printf("  Average leaf segments per index........ %11.1f\n",
               (double)nLeaf/(double)nIdx);
      }

Changes to ext/fts5/fts5_hash.c.

341
342
343
344
345
346
347
348
349
350
351
352
353
354
355
356
357
358
359
    }else{
      /* Append a new column value, if necessary */
      assert( iCol>=p->iCol );
      if( iCol!=p->iCol ){
        if( pHash->eDetail==FTS5_DETAIL_FULL ){
          pPtr[p->nData++] = 0x01;
          p->nData += sqlite3Fts5PutVarint(&pPtr[p->nData], iCol);
          p->iCol = iCol;
          p->iPos = 0;
        }else{
          bNew = 1;
          p->iCol = iPos = iCol;
        }
      }

      /* Append the new position offset, if necessary */
      if( bNew ){
        p->nData += sqlite3Fts5PutVarint(&pPtr[p->nData], iPos - p->iPos + 2);
        p->iPos = iPos;







|



|







341
342
343
344
345
346
347
348
349
350
351
352
353
354
355
356
357
358
359
    }else{
      /* Append a new column value, if necessary */
      assert( iCol>=p->iCol );
      if( iCol!=p->iCol ){
        if( pHash->eDetail==FTS5_DETAIL_FULL ){
          pPtr[p->nData++] = 0x01;
          p->nData += sqlite3Fts5PutVarint(&pPtr[p->nData], iCol);
          p->iCol = (i16)iCol;
          p->iPos = 0;
        }else{
          bNew = 1;
          p->iCol = (i16)(iPos = iCol);
        }
      }

      /* Append the new position offset, if necessary */
      if( bNew ){
        p->nData += sqlite3Fts5PutVarint(&pPtr[p->nData], iPos - p->iPos + 2);
        p->iPos = iPos;

Changes to ext/fts5/fts5_index.c.

3240
3241
3242
3243
3244
3245
3246
3247
3248
3249
3250
3251
3252
3253
3254
    while( a<pEnd ){
      iPrev += (int)a++[0] - 2;
      while( *aiCol<iPrev ){
        aiCol++;
        if( aiCol==aiColEnd ) goto setoutputs_col_out;
      }
      if( *aiCol==iPrev ){
        *aOut++ = (iPrev - iPrevOut) + 2;
        iPrevOut = iPrev;
      }
    }

setoutputs_col_out:
    pIter->base.pData = pIter->poslist.p;
    pIter->base.nData = aOut - pIter->poslist.p;







|







3240
3241
3242
3243
3244
3245
3246
3247
3248
3249
3250
3251
3252
3253
3254
    while( a<pEnd ){
      iPrev += (int)a++[0] - 2;
      while( *aiCol<iPrev ){
        aiCol++;
        if( aiCol==aiColEnd ) goto setoutputs_col_out;
      }
      if( *aiCol==iPrev ){
        *aOut++ = (u8)((iPrev - iPrevOut) + 2);
        iPrevOut = iPrev;
      }
    }

setoutputs_col_out:
    pIter->base.pData = pIter->poslist.p;
    pIter->base.nData = aOut - pIter->poslist.p;

Changes to ext/icu/icu.c.

350
351
352
353
354
355
356
357
358
359
360
361

362
363
364
365

366
367
368
369
370
371
372
...
382
383
384
385
386
387
388
389
390
391
392
393

394

395
396



397

398
399
400
401

402
403
404
405
406
407
408
**
**     lower('I', 'en_us') -> 'i'
**     lower('I', 'tr_tr') -> 'ı' (small dotless i)
**
** http://www.icu-project.org/userguide/posix.html#case_mappings
*/
static void icuCaseFunc16(sqlite3_context *p, int nArg, sqlite3_value **apArg){
  const UChar *zInput;
  UChar *zOutput = 0;
  int nInput;
  int nOut;
  int cnt;

  UErrorCode status;
  const char *zLocale = 0;

  assert(nArg==1 || nArg==2);

  if( nArg==2 ){
    zLocale = (const char *)sqlite3_value_text(apArg[1]);
  }

  zInput = sqlite3_value_text16(apArg[0]);
  if( !zInput ){
    return;
................................................................................
    if( zNew==0 ){
      sqlite3_free(zOutput);
      sqlite3_result_error_nomem(p);
      return;
    }
    zOutput = zNew;
    status = U_ZERO_ERROR;
    if( sqlite3_user_data(p) ){
      nOut = 2*u_strToUpper(zOutput,nOut/2,zInput,nInput/2,zLocale,&status);
    }else{
      nOut = 2*u_strToLower(zOutput,nOut/2,zInput,nInput/2,zLocale,&status);
    }

    if( !U_SUCCESS(status) ){

      if( status==U_BUFFER_OVERFLOW_ERROR ) continue;
      icuFunctionError(p,



          sqlite3_user_data(p) ? "u_strToUpper" : "u_strToLower", status);

      return;
    }
  }
  sqlite3_result_text16(p, zOutput, nOut, xFree);

}

/*
** Collation sequence destructor function. The pCtx argument points to
** a UCollator structure previously allocated using ucol_open().
*/
static void icuCollationDel(void *pCtx){







|
|
|
|

>




>







 







|




>
|
>
|
<
>
>
>
|
>
|
|
<
<
>







350
351
352
353
354
355
356
357
358
359
360
361
362
363
364
365
366
367
368
369
370
371
372
373
374
...
384
385
386
387
388
389
390
391
392
393
394
395
396
397
398
399

400
401
402
403
404
405
406


407
408
409
410
411
412
413
414
**
**     lower('I', 'en_us') -> 'i'
**     lower('I', 'tr_tr') -> 'ı' (small dotless i)
**
** http://www.icu-project.org/userguide/posix.html#case_mappings
*/
static void icuCaseFunc16(sqlite3_context *p, int nArg, sqlite3_value **apArg){
  const UChar *zInput;            /* Pointer to input string */
  UChar *zOutput = 0;             /* Pointer to output buffer */
  int nInput;                     /* Size of utf-16 input string in bytes */
  int nOut;                       /* Size of output buffer in bytes */
  int cnt;
  int bToUpper;                   /* True for toupper(), false for tolower() */
  UErrorCode status;
  const char *zLocale = 0;

  assert(nArg==1 || nArg==2);
  bToUpper = (sqlite3_user_data(p)!=0);
  if( nArg==2 ){
    zLocale = (const char *)sqlite3_value_text(apArg[1]);
  }

  zInput = sqlite3_value_text16(apArg[0]);
  if( !zInput ){
    return;
................................................................................
    if( zNew==0 ){
      sqlite3_free(zOutput);
      sqlite3_result_error_nomem(p);
      return;
    }
    zOutput = zNew;
    status = U_ZERO_ERROR;
    if( bToUpper ){
      nOut = 2*u_strToUpper(zOutput,nOut/2,zInput,nInput/2,zLocale,&status);
    }else{
      nOut = 2*u_strToLower(zOutput,nOut/2,zInput,nInput/2,zLocale,&status);
    }

    if( U_SUCCESS(status) ){
      sqlite3_result_text16(p, zOutput, nOut, xFree);
    }else if( status==U_BUFFER_OVERFLOW_ERROR ){

      assert( cnt==0 );
      continue;
    }else{
      icuFunctionError(p, bToUpper ? "u_strToUpper" : "u_strToLower", status);
    }
    return;
  }


  assert( 0 );     /* Unreachable */
}

/*
** Collation sequence destructor function. The pCtx argument points to
** a UCollator structure previously allocated using ucol_open().
*/
static void icuCollationDel(void *pCtx){

Changes to ext/misc/amatch.c.

621
622
623
624
625
626
627
628
629
630
631
632
633
634
635
636
637
638
....
1077
1078
1079
1080
1081
1082
1083
1084
1085
1086
1087
1088
1089
1090
1091
....
1158
1159
1160
1161
1162
1163
1164
1165
1166
1167
1168
1169
1170
1171
1172
  {
    pRule = sqlite3_malloc( sizeof(*pRule) + nFrom + nTo );
    if( pRule==0 ){
      rc = SQLITE_NOMEM;
    }else{
      memset(pRule, 0, sizeof(*pRule));
      pRule->zFrom = &pRule->zTo[nTo+1];
      pRule->nFrom = nFrom;
      memcpy(pRule->zFrom, zFrom, nFrom+1);
      memcpy(pRule->zTo, zTo, nTo+1);
      pRule->nTo = nTo;
      pRule->rCost = rCost;
      pRule->iLang = (int)iLang;
    }
  }

  *ppRule = pRule;
  return rc;
................................................................................
  }
  pWord = sqlite3_malloc( sizeof(*pWord) + nBase + nTail - 1 );
  if( pWord==0 ) return;
  memset(pWord, 0, sizeof(*pWord));
  pWord->rCost = rCost;
  pWord->iSeq = pCur->nWord++;
  amatchWriteCost(pWord);
  pWord->nMatch = nMatch;
  pWord->pNext = pCur->pAllWords;
  pCur->pAllWords = pWord;
  pWord->sCost.zKey = pWord->zCost;
  pWord->sCost.pWord = pWord;
  pOther = amatchAvlInsert(&pCur->pCost, &pWord->sCost);
  assert( pOther==0 ); (void)pOther;
  pWord->sWord.zKey = pWord->zWord;
................................................................................
#ifdef AMATCH_TRACE_1
    printf("PROCESS [%s][%.*s^%s] %d (\"%s\" \"%s\")\n",
       pWord->zWord+2, pWord->nMatch, pCur->zInput, pCur->zInput+pWord->nMatch,
       pWord->rCost, pWord->zWord, pWord->zCost);
#endif
    nWord = (int)strlen(pWord->zWord+2);
    if( nWord+20>nBuf ){
      nBuf = nWord+100;
      zBuf = sqlite3_realloc(zBuf, nBuf);
      if( zBuf==0 ) return SQLITE_NOMEM;
    }
    amatchStrcpy(zBuf, pWord->zWord+2);
    zNext[0] = 0;
    zNextIn[0] = pCur->zInput[pWord->nMatch];
    if( zNextIn[0] ){







|


|







 







|







 







|







621
622
623
624
625
626
627
628
629
630
631
632
633
634
635
636
637
638
....
1077
1078
1079
1080
1081
1082
1083
1084
1085
1086
1087
1088
1089
1090
1091
....
1158
1159
1160
1161
1162
1163
1164
1165
1166
1167
1168
1169
1170
1171
1172
  {
    pRule = sqlite3_malloc( sizeof(*pRule) + nFrom + nTo );
    if( pRule==0 ){
      rc = SQLITE_NOMEM;
    }else{
      memset(pRule, 0, sizeof(*pRule));
      pRule->zFrom = &pRule->zTo[nTo+1];
      pRule->nFrom = (amatch_len)nFrom;
      memcpy(pRule->zFrom, zFrom, nFrom+1);
      memcpy(pRule->zTo, zTo, nTo+1);
      pRule->nTo = (amatch_len)nTo;
      pRule->rCost = rCost;
      pRule->iLang = (int)iLang;
    }
  }

  *ppRule = pRule;
  return rc;
................................................................................
  }
  pWord = sqlite3_malloc( sizeof(*pWord) + nBase + nTail - 1 );
  if( pWord==0 ) return;
  memset(pWord, 0, sizeof(*pWord));
  pWord->rCost = rCost;
  pWord->iSeq = pCur->nWord++;
  amatchWriteCost(pWord);
  pWord->nMatch = (short)nMatch;
  pWord->pNext = pCur->pAllWords;
  pCur->pAllWords = pWord;
  pWord->sCost.zKey = pWord->zCost;
  pWord->sCost.pWord = pWord;
  pOther = amatchAvlInsert(&pCur->pCost, &pWord->sCost);
  assert( pOther==0 ); (void)pOther;
  pWord->sWord.zKey = pWord->zWord;
................................................................................
#ifdef AMATCH_TRACE_1
    printf("PROCESS [%s][%.*s^%s] %d (\"%s\" \"%s\")\n",
       pWord->zWord+2, pWord->nMatch, pCur->zInput, pCur->zInput+pWord->nMatch,
       pWord->rCost, pWord->zWord, pWord->zCost);
#endif
    nWord = (int)strlen(pWord->zWord+2);
    if( nWord+20>nBuf ){
      nBuf = (char)(nWord+100);
      zBuf = sqlite3_realloc(zBuf, nBuf);
      if( zBuf==0 ) return SQLITE_NOMEM;
    }
    amatchStrcpy(zBuf, pWord->zWord+2);
    zNext[0] = 0;
    zNextIn[0] = pCur->zInput[pWord->nMatch];
    if( zNextIn[0] ){

Changes to ext/misc/fuzzer.c.

340
341
342
343
344
345
346
347
348
349
350
351
352
353
354
355
356
357
    pRule = sqlite3_malloc( sizeof(*pRule) + nFrom + nTo );
    if( pRule==0 ){
      rc = SQLITE_NOMEM;
    }else{
      memset(pRule, 0, sizeof(*pRule));
      pRule->zFrom = pRule->zTo;
      pRule->zFrom += nTo + 1;
      pRule->nFrom = nFrom;
      memcpy(pRule->zFrom, zFrom, nFrom+1);
      memcpy(pRule->zTo, zTo, nTo+1);
      pRule->nTo = nTo;
      pRule->rCost = nCost;
      pRule->iRuleset = (int)iRuleset;
    }
  }

  *ppRule = pRule;
  return rc;







|


|







340
341
342
343
344
345
346
347
348
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350
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352
353
354
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    pRule = sqlite3_malloc( sizeof(*pRule) + nFrom + nTo );
    if( pRule==0 ){
      rc = SQLITE_NOMEM;
    }else{
      memset(pRule, 0, sizeof(*pRule));
      pRule->zFrom = pRule->zTo;
      pRule->zFrom += nTo + 1;
      pRule->nFrom = (fuzzer_len)nFrom;
      memcpy(pRule->zFrom, zFrom, nFrom+1);
      memcpy(pRule->zTo, zTo, nTo+1);
      pRule->nTo = (fuzzer_len)nTo;
      pRule->rCost = nCost;
      pRule->iRuleset = (int)iRuleset;
    }
  }

  *ppRule = pRule;
  return rc;

Changes to ext/misc/regexp.c.

132
133
134
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136
137
138
139
140
141
142
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146
...
354
355
356
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364
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...
673
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686
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688
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  unsigned nAlloc;            /* Slots allocated for aOp[] and aArg[] */
};

/* Add a state to the given state set if it is not already there */
static void re_add_state(ReStateSet *pSet, int newState){
  unsigned i;
  for(i=0; i<pSet->nState; i++) if( pSet->aState[i]==newState ) return;
  pSet->aState[pSet->nState++] = newState;
}

/* Extract the next unicode character from *pzIn and return it.  Advance
** *pzIn to the first byte past the end of the character returned.  To
** be clear:  this routine converts utf8 to unicode.  This routine is 
** optimized for the common case where the next character is a single byte.
*/
................................................................................
  int i;
  if( p->nAlloc<=p->nState && re_resize(p, p->nAlloc*2) ) return 0;
  for(i=p->nState; i>iBefore; i--){
    p->aOp[i] = p->aOp[i-1];
    p->aArg[i] = p->aArg[i-1];
  }
  p->nState++;
  p->aOp[iBefore] = op;
  p->aArg[iBefore] = arg;
  return iBefore;
}

/* Append a new opcode and argument to the end of the RE under construction.
*/
static int re_append(ReCompiled *p, int op, int arg){
................................................................................
  ** regex engine over the string.  Do not worry able trying to match
  ** unicode characters beyond plane 0 - those are very rare and this is
  ** just an optimization. */
  if( pRe->aOp[0]==RE_OP_ANYSTAR ){
    for(j=0, i=1; j<sizeof(pRe->zInit)-2 && pRe->aOp[i]==RE_OP_MATCH; i++){
      unsigned x = pRe->aArg[i];
      if( x<=127 ){
        pRe->zInit[j++] = x;
      }else if( x<=0xfff ){
        pRe->zInit[j++] = 0xc0 | (x>>6);
        pRe->zInit[j++] = 0x80 | (x&0x3f);
      }else if( x<=0xffff ){
        pRe->zInit[j++] = 0xd0 | (x>>12);
        pRe->zInit[j++] = 0x80 | ((x>>6)&0x3f);
        pRe->zInit[j++] = 0x80 | (x&0x3f);
      }else{
        break;
      }
    }
    if( j>0 && pRe->zInit[j-1]==0 ) j--;







|







 







|







 







|

|


|







132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
...
354
355
356
357
358
359
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361
362
363
364
365
366
367
368
...
673
674
675
676
677
678
679
680
681
682
683
684
685
686
687
688
689
690
691
692
  unsigned nAlloc;            /* Slots allocated for aOp[] and aArg[] */
};

/* Add a state to the given state set if it is not already there */
static void re_add_state(ReStateSet *pSet, int newState){
  unsigned i;
  for(i=0; i<pSet->nState; i++) if( pSet->aState[i]==newState ) return;
  pSet->aState[pSet->nState++] = (ReStateNumber)newState;
}

/* Extract the next unicode character from *pzIn and return it.  Advance
** *pzIn to the first byte past the end of the character returned.  To
** be clear:  this routine converts utf8 to unicode.  This routine is 
** optimized for the common case where the next character is a single byte.
*/
................................................................................
  int i;
  if( p->nAlloc<=p->nState && re_resize(p, p->nAlloc*2) ) return 0;
  for(i=p->nState; i>iBefore; i--){
    p->aOp[i] = p->aOp[i-1];
    p->aArg[i] = p->aArg[i-1];
  }
  p->nState++;
  p->aOp[iBefore] = (char)op;
  p->aArg[iBefore] = arg;
  return iBefore;
}

/* Append a new opcode and argument to the end of the RE under construction.
*/
static int re_append(ReCompiled *p, int op, int arg){
................................................................................
  ** regex engine over the string.  Do not worry able trying to match
  ** unicode characters beyond plane 0 - those are very rare and this is
  ** just an optimization. */
  if( pRe->aOp[0]==RE_OP_ANYSTAR ){
    for(j=0, i=1; j<sizeof(pRe->zInit)-2 && pRe->aOp[i]==RE_OP_MATCH; i++){
      unsigned x = pRe->aArg[i];
      if( x<=127 ){
        pRe->zInit[j++] = (unsigned char)x;
      }else if( x<=0xfff ){
        pRe->zInit[j++] = (unsigned char)(0xc0 | (x>>6));
        pRe->zInit[j++] = 0x80 | (x&0x3f);
      }else if( x<=0xffff ){
        pRe->zInit[j++] = (unsigned char)(0xd0 | (x>>12));
        pRe->zInit[j++] = 0x80 | ((x>>6)&0x3f);
        pRe->zInit[j++] = 0x80 | (x&0x3f);
      }else{
        break;
      }
    }
    if( j>0 && pRe->zInit[j-1]==0 ) j--;

Changes to ext/misc/spellfix.c.

386
387
388
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390
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398
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400
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402
403
404
405
406
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408
...
416
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420
421
422
423
424
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427
428
429
430
431
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433
434
435
436
437
438
439
...
472
473
474
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476
477
478
479
480
481
482
483
484
485
486
...
707
708
709
710
711
712
713
714
715
716
717
718
719
720
721
722
723
....
1612
1613
1614
1615
1616
1617
1618
1619
1620
1621
1622
1623
1624
1625
1626
  }
  for(nB=0; zB[nB]; nB++){
    if( zB[nB]&0x80 ) return -2;
  }

  /* Special processing if either string is empty */
  if( nA==0 ){
    cBprev = dc;
    for(xB=res=0; (cB = zB[xB])!=0; xB++){
      res += insertOrDeleteCost(cBprev, cB, zB[xB+1])/FINAL_INS_COST_DIV;
      cBprev = cB;
    }
    return res;
  }
  if( nB==0 ){
    cAprev = dc;
    for(xA=res=0; (cA = zA[xA])!=0; xA++){
      res += insertOrDeleteCost(cAprev, cA, zA[xA+1]);
      cAprev = cA;
    }
    return res;
  }

................................................................................
    m = toFree = sqlite3_malloc64( (nB+1)*5*sizeof(m[0])/4 );
    if( m==0 ) return -3;
  }
  cx = (char*)&m[nB+1];

  /* Compute the Wagner edit distance */
  m[0] = 0;
  cx[0] = dc;
  cBprev = dc;
  for(xB=1; xB<=nB; xB++){
    cBnext = zB[xB];
    cB = zB[xB-1];
    cx[xB] = cB;
    m[xB] = m[xB-1] + insertOrDeleteCost(cBprev, cB, cBnext);
    cBprev = cB;
  }
  cAprev = dc;
  for(xA=1; xA<=nA; xA++){
    int lastA = (xA==nA);
    cA = zA[xA-1];
    cAnext = zA[xA];
    if( cA=='*' && lastA ) break;
    d = m[0];
    dc = cx[0];
................................................................................
             insCost, delCost, subCost, totalCost, ncx?ncx:' ');
#endif

      /* Update the matrix */
      d = m[xB];
      dc = cx[xB];
      m[xB] = totalCost;
      cx[xB] = ncx;
      cBprev = cB;
    }
    cAprev = cA;
  }

  /* Free the wagner matrix and return the result */
  if( cA=='*' ){
................................................................................
      pLang->iSubCost = iCost;
    }else{
      EditDist3Cost *pCost;
      int nExtra = nFrom + nTo - 4;
      if( nExtra<0 ) nExtra = 0;
      pCost = sqlite3_malloc64( sizeof(*pCost) + nExtra );
      if( pCost==0 ){ rc = SQLITE_NOMEM; break; }
      pCost->nFrom = nFrom;
      pCost->nTo = nTo;
      pCost->iCost = iCost;
      memcpy(pCost->a, zFrom, nFrom);
      memcpy(pCost->a + nFrom, zTo, nTo);
      pCost->pNext = pLang->pCost;
      pLang->pCost = pCost; 
    }
  }
  rc2 = sqlite3_finalize(pStmt);
................................................................................
  if( zOut==0 ) return 0;
  nOut = 0;
  while( nIn>0 ){
    c = utf8Read(zIn, nIn, &sz);
    zIn += sz;
    nIn -= sz;
    if( c<=127 ){
      zOut[nOut++] = c;
    }else{
      int xTop, xBtm, x;
      xTop = sizeof(translit)/sizeof(translit[0]) - 1;
      xBtm = 0;
      while( xTop>=xBtm ){
        x = (xTop + xBtm)/2;
        if( translit[x].cFrom==c ){







|







|







 







|
|







|







 







|







 







|
|
|







 







|







386
387
388
389
390
391
392
393
394
395
396
397
398
399
400
401
402
403
404
405
406
407
408
...
416
417
418
419
420
421
422
423
424
425
426
427
428
429
430
431
432
433
434
435
436
437
438
439
...
472
473
474
475
476
477
478
479
480
481
482
483
484
485
486
...
707
708
709
710
711
712
713
714
715
716
717
718
719
720
721
722
723
....
1612
1613
1614
1615
1616
1617
1618
1619
1620
1621
1622
1623
1624
1625
1626
  }
  for(nB=0; zB[nB]; nB++){
    if( zB[nB]&0x80 ) return -2;
  }

  /* Special processing if either string is empty */
  if( nA==0 ){
    cBprev = (char)dc;
    for(xB=res=0; (cB = zB[xB])!=0; xB++){
      res += insertOrDeleteCost(cBprev, cB, zB[xB+1])/FINAL_INS_COST_DIV;
      cBprev = cB;
    }
    return res;
  }
  if( nB==0 ){
    cAprev = (char)dc;
    for(xA=res=0; (cA = zA[xA])!=0; xA++){
      res += insertOrDeleteCost(cAprev, cA, zA[xA+1]);
      cAprev = cA;
    }
    return res;
  }

................................................................................
    m = toFree = sqlite3_malloc64( (nB+1)*5*sizeof(m[0])/4 );
    if( m==0 ) return -3;
  }
  cx = (char*)&m[nB+1];

  /* Compute the Wagner edit distance */
  m[0] = 0;
  cx[0] = (char)dc;
  cBprev = (char)dc;
  for(xB=1; xB<=nB; xB++){
    cBnext = zB[xB];
    cB = zB[xB-1];
    cx[xB] = cB;
    m[xB] = m[xB-1] + insertOrDeleteCost(cBprev, cB, cBnext);
    cBprev = cB;
  }
  cAprev = (char)dc;
  for(xA=1; xA<=nA; xA++){
    int lastA = (xA==nA);
    cA = zA[xA-1];
    cAnext = zA[xA];
    if( cA=='*' && lastA ) break;
    d = m[0];
    dc = cx[0];
................................................................................
             insCost, delCost, subCost, totalCost, ncx?ncx:' ');
#endif

      /* Update the matrix */
      d = m[xB];
      dc = cx[xB];
      m[xB] = totalCost;
      cx[xB] = (char)ncx;
      cBprev = cB;
    }
    cAprev = cA;
  }

  /* Free the wagner matrix and return the result */
  if( cA=='*' ){
................................................................................
      pLang->iSubCost = iCost;
    }else{
      EditDist3Cost *pCost;
      int nExtra = nFrom + nTo - 4;
      if( nExtra<0 ) nExtra = 0;
      pCost = sqlite3_malloc64( sizeof(*pCost) + nExtra );
      if( pCost==0 ){ rc = SQLITE_NOMEM; break; }
      pCost->nFrom = (u8)nFrom;
      pCost->nTo = (u8)nTo;
      pCost->iCost = (u16)iCost;
      memcpy(pCost->a, zFrom, nFrom);
      memcpy(pCost->a + nFrom, zTo, nTo);
      pCost->pNext = pLang->pCost;
      pLang->pCost = pCost; 
    }
  }
  rc2 = sqlite3_finalize(pStmt);
................................................................................
  if( zOut==0 ) return 0;
  nOut = 0;
  while( nIn>0 ){
    c = utf8Read(zIn, nIn, &sz);
    zIn += sz;
    nIn -= sz;
    if( c<=127 ){
      zOut[nOut++] = (unsigned char)c;
    }else{
      int xTop, xBtm, x;
      xTop = sizeof(translit)/sizeof(translit[0]) - 1;
      xBtm = 0;
      while( xTop>=xBtm ){
        x = (xTop + xBtm)/2;
        if( translit[x].cFrom==c ){

Changes to ext/rbu/sqlite3rbu.c.

3352
3353
3354
3355
3356
3357
3358
3359
3360
3361
3362
3363
3364
3365
3366
/*
** If the error code currently stored in the RBU handle is SQLITE_CONSTRAINT,
** then edit any error message string so as to remove all occurrences of
** the pattern "rbu_imp_[0-9]*".
*/
static void rbuEditErrmsg(sqlite3rbu *p){
  if( p->rc==SQLITE_CONSTRAINT && p->zErrmsg ){
    int i;
    size_t nErrmsg = strlen(p->zErrmsg);
    for(i=0; i<(nErrmsg-8); i++){
      if( memcmp(&p->zErrmsg[i], "rbu_imp_", 8)==0 ){
        int nDel = 8;
        while( p->zErrmsg[i+nDel]>='0' && p->zErrmsg[i+nDel]<='9' ) nDel++;
        memmove(&p->zErrmsg[i], &p->zErrmsg[i+nDel], nErrmsg + 1 - i - nDel);
        nErrmsg -= nDel;







|







3352
3353
3354
3355
3356
3357
3358
3359
3360
3361
3362
3363
3364
3365
3366
/*
** If the error code currently stored in the RBU handle is SQLITE_CONSTRAINT,
** then edit any error message string so as to remove all occurrences of
** the pattern "rbu_imp_[0-9]*".
*/
static void rbuEditErrmsg(sqlite3rbu *p){
  if( p->rc==SQLITE_CONSTRAINT && p->zErrmsg ){
    unsigned int i;
    size_t nErrmsg = strlen(p->zErrmsg);
    for(i=0; i<(nErrmsg-8); i++){
      if( memcmp(&p->zErrmsg[i], "rbu_imp_", 8)==0 ){
        int nDel = 8;
        while( p->zErrmsg[i+nDel]>='0' && p->zErrmsg[i+nDel]<='9' ) nDel++;
        memmove(&p->zErrmsg[i], &p->zErrmsg[i+nDel], nErrmsg + 1 - i - nDel);
        nErrmsg -= nDel;

Added ext/session/changeset.c.

































































































































































































































































































































































































































































































































































































































































































































































































































































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/*
** 2014-08-18
**
** The author disclaims copyright to this source code.  In place of
** a legal notice, here is a blessing:
**
**    May you do good and not evil.
**    May you find forgiveness for yourself and forgive others.
**    May you share freely, never taking more than you give.
**
*************************************************************************
** This file contains code to implement the "changeset" command line
** utility for displaying and transforming changesets generated by
** the Sessions extension.
*/
#include "sqlite3.h"
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <assert.h>
#include <ctype.h>


/*
** Show a usage message on stderr then quit.
*/
static void usage(const char *argv0){
  fprintf(stderr, "Usage: %s FILENAME COMMAND ...\n", argv0);
  fprintf(stderr,
    "COMMANDs:\n"
    "   apply DB           Apply the changeset to database file DB\n"
    "   concat FILE2 OUT   Concatenate FILENAME and FILE2 into OUT\n"
    "   dump               Show the complete content of the changeset\n"
    "   invert OUT         Write an inverted changeset into file OUT\n"
    "   sql                Give a pseudo-SQL rendering of the changeset\n"
  );
  exit(1);
}

/*
** Read the content of a disk file into an in-memory buffer
*/
static void readFile(const char *zFilename, int *pSz, void **ppBuf){
  FILE *f;
  int sz;
  void *pBuf;
  f = fopen(zFilename, "rb");
  if( f==0 ){
    fprintf(stderr, "cannot open \"%s\" for reading\n", zFilename);
    exit(1);
  }
  fseek(f, 0, SEEK_END);
  sz = (int)ftell(f);
  rewind(f);
  pBuf = sqlite3_malloc( sz ? sz : 1 );
  if( pBuf==0 ){
    fprintf(stderr, "cannot allocate %d to hold content of \"%s\"\n",
            sz, zFilename);
    exit(1);
  }
  if( sz>0 ){
    if( fread(pBuf, sz, 1, f)!=1 ){
      fprintf(stderr, "cannot read all %d bytes of \"%s\"\n", sz, zFilename);
      exit(1);
    }
    fclose(f);
  }
  *pSz = sz;
  *ppBuf = pBuf;
}

/* Array for converting from half-bytes (nybbles) into ASCII hex
** digits. */
static const char hexdigits[] = {
  '0', '1', '2', '3', '4', '5', '6', '7',
  '8', '9', 'a', 'b', 'c', 'd', 'e', 'f' 
};

/*
** Render an sqlite3_value as an SQL string.
*/
static void renderValue(sqlite3_value *pVal){
  switch( sqlite3_value_type(pVal) ){
    case SQLITE_FLOAT: {
      double r1;
      char zBuf[50];
      r1 = sqlite3_value_double(pVal);
      sqlite3_snprintf(sizeof(zBuf), zBuf, "%!.15g", r1);
      printf("%s", zBuf);
      break;
    }
    case SQLITE_INTEGER: {
      printf("%lld", sqlite3_value_int64(pVal));
      break;
    }
    case SQLITE_BLOB: {
      char const *zBlob = sqlite3_value_blob(pVal);
      int nBlob = sqlite3_value_bytes(pVal);
      int i;
      printf("x'");
      for(i=0; i<nBlob; i++){
        putchar(hexdigits[(zBlob[i]>>4)&0x0F]);
        putchar(hexdigits[(zBlob[i])&0x0F]);
      }
      putchar('\'');
      break;
    }
    case SQLITE_TEXT: {
      const unsigned char *zArg = sqlite3_value_text(pVal);
      putchar('\'');
      while( zArg[0] ){
        putchar(zArg[0]);
        if( zArg[0]=='\'' ) putchar(zArg[0]);
        zArg++;
      }
      putchar('\'');
      break;
    }
    default: {
      assert( sqlite3_value_type(pVal)==SQLITE_NULL );
      printf("NULL");
      break;
    }
  }
}

/*
** Number of conflicts seen
*/
static int nConflict = 0;

/*
** The conflict callback
*/
static int conflictCallback(
  void *pCtx,
  int eConflict,
  sqlite3_changeset_iter *pIter
){
  int op, bIndirect, nCol, i;
  const char *zTab;
  unsigned char *abPK;
  const char *zType = "";
  const char *zOp = "";
  const char *zSep = " ";

  nConflict++;
  sqlite3changeset_op(pIter, &zTab, &nCol, &op, &bIndirect);
  sqlite3changeset_pk(pIter, &abPK, 0);
  switch( eConflict ){
    case SQLITE_CHANGESET_DATA:         zType = "DATA";         break;
    case SQLITE_CHANGESET_NOTFOUND:     zType = "NOTFOUND";     break;
    case SQLITE_CHANGESET_CONFLICT:     zType = "PRIMARY KEY";  break;
    case SQLITE_CHANGESET_FOREIGN_KEY:  zType = "FOREIGN KEY";  break;
    case SQLITE_CHANGESET_CONSTRAINT:   zType = "CONSTRAINT";   break;
  }
  switch( op ){
    case SQLITE_UPDATE:     zOp = "UPDATE of";     break;
    case SQLITE_INSERT:     zOp = "INSERT into";   break;
    case SQLITE_DELETE:     zOp = "DELETE from";   break;
  }
  printf("%s conflict on %s table %s with primary key", zType, zOp, zTab);
  for(i=0; i<nCol; i++){
    sqlite3_value *pVal;
    if( abPK[i]==0 ) continue;
    printf("%s", zSep);
    if( op==SQLITE_INSERT ){
      sqlite3changeset_new(pIter, i, &pVal);
    }else{
      sqlite3changeset_old(pIter, i, &pVal);
    }
    renderValue(pVal);
    zSep = ",";
  }
  printf("\n");
  return SQLITE_CHANGESET_OMIT;
}

int main(int argc, char **argv){
  int sz, rc;
  void *pBuf = 0;
  if( argc<3 ) usage(argv[0]);
  readFile(argv[1], &sz, &pBuf);

  /* changeset FILENAME apply DB
  ** Apply the changeset in FILENAME to the database file DB
  */
  if( strcmp(argv[2],"apply")==0 ){
    sqlite3 *db;
    if( argc!=4 ) usage(argv[0]);
    rc = sqlite3_open(argv[3], &db);
    if( rc!=SQLITE_OK ){
      fprintf(stderr, "unable to open database file \"%s\": %s\n",
              argv[3], sqlite3_errmsg(db));
      sqlite3_close(db);
      exit(1);
    }
    sqlite3_exec(db, "BEGIN", 0, 0, 0);
    nConflict = 0;
    rc = sqlite3changeset_apply(db, sz, pBuf, 0, conflictCallback, 0);
    if( rc ){
      fprintf(stderr, "sqlite3changeset_apply() returned %d\n", rc);
    }
    if( nConflict ){
      fprintf(stderr, "%d conflicts - no changes applied\n", nConflict);
      sqlite3_exec(db, "ROLLBACK", 0, 0, 0);
    }else if( rc ){
      fprintf(stderr, "sqlite3changeset_apply() returns %d "
                      "- no changes applied\n", rc);
      sqlite3_exec(db, "ROLLBACK", 0, 0, 0);
    }else{
      sqlite3_exec(db, "COMMIT", 0, 0, 0);
    }
    sqlite3_close(db);
  }else

  /* changeset FILENAME concat FILE2 OUT
  ** Add changeset FILE2 onto the end of the changeset in FILENAME
  ** and write the result into OUT.
  */
  if( strcmp(argv[2],"concat")==0 ){
    int szB;
    void *pB;
    int szOut;
    void *pOutBuf;
    FILE *out;
    const char *zOut = argv[4];
    if( argc!=5 ) usage(argv[0]);
    out = fopen(zOut, "wb");
    if( out==0 ){
      fprintf(stderr, "cannot open \"%s\" for writing\n", zOut);
      exit(1);
    }
    readFile(argv[3], &szB, &pB);
    rc = sqlite3changeset_concat(sz, pBuf, szB, pB, &szOut, &pOutBuf);
    if( rc!=SQLITE_OK ){
      fprintf(stderr, "sqlite3changeset_concat() returns %d\n", rc);
    }else if( szOut>0 && fwrite(pOutBuf, szOut, 1, out)!=1 ){
      fprintf(stderr, "unable to write all %d bytes of output to \"%s\"\n",
              szOut, zOut);
    }
    fclose(out);
    sqlite3_free(pOutBuf);
    sqlite3_free(pB);
  }else

  /* changeset FILENAME dump
  ** Show the complete content of the changeset in FILENAME
  */
  if( strcmp(argv[2],"dump")==0 ){
    int cnt = 0;
    int i;
    sqlite3_changeset_iter *pIter;
    rc = sqlite3changeset_start(&pIter, sz, pBuf);
    if( rc!=SQLITE_OK ){
      fprintf(stderr, "sqlite3changeset_start() returns %d\n", rc);
      exit(1);
    }
    while( sqlite3changeset_next(pIter)==SQLITE_ROW ){
      int op, bIndirect, nCol;
      const char *zTab;
      unsigned char *abPK;
      sqlite3changeset_op(pIter, &zTab, &nCol, &op, &bIndirect);
      cnt++;
      printf("%d: %s table=[%s] indirect=%d nColumn=%d\n",
             cnt, op==SQLITE_INSERT ? "INSERT" :
                       op==SQLITE_UPDATE ? "UPDATE" : "DELETE",
             zTab, bIndirect, nCol);
      sqlite3changeset_pk(pIter, &abPK, 0);
      for(i=0; i<nCol; i++){
        sqlite3_value *pVal;
        pVal = 0;
        sqlite3changeset_old(pIter, i, &pVal);
        if( pVal ){
          printf("    old[%d]%s = ", i, abPK[i] ? "pk" : "  ");
          renderValue(pVal);
          printf("\n");
        }
        pVal = 0;
        sqlite3changeset_new(pIter, i, &pVal);
        if( pVal ){
          printf("    new[%d]%s = ", i, abPK[i] ? "pk" : "  ");
          renderValue(pVal);
          printf("\n");
        }
      }
    }
    sqlite3changeset_finalize(pIter);
  }else

  /* changeset FILENAME invert OUT
  ** Invert the changes in FILENAME and writes the result on OUT
  */
  if( strcmp(argv[2],"invert")==0 ){
    FILE *out;
    int szOut = 0;
    void *pOutBuf = 0;
    const char *zOut = argv[3];
    if( argc!=4 ) usage(argv[0]);
    out = fopen(zOut, "wb");
    if( out==0 ){
      fprintf(stderr, "cannot open \"%s\" for writing\n", zOut);
      exit(1);
    }
    rc = sqlite3changeset_invert(sz, pBuf, &szOut, &pOutBuf);
    if( rc!=SQLITE_OK ){
      fprintf(stderr, "sqlite3changeset_invert() returns %d\n", rc);
    }else if( szOut>0 && fwrite(pOutBuf, szOut, 1, out)!=1 ){
      fprintf(stderr, "unable to write all %d bytes of output to \"%s\"\n",
              szOut, zOut);
    }
    fclose(out);
    sqlite3_free(pOutBuf);
  }else

  /* changeset FILE sql
  ** Show the content of the changeset as pseudo-SQL
  */
  if( strcmp(argv[2],"sql")==0 ){
    int cnt = 0;
    char *zPrevTab = 0;
    char *zSQLTabName = 0;
    sqlite3_changeset_iter *pIter = 0;
    rc = sqlite3changeset_start(&pIter, sz, pBuf);
    if( rc!=SQLITE_OK ){
      fprintf(stderr, "sqlite3changeset_start() returns %d\n", rc);
      exit(1);
    }
    printf("BEGIN;\n");
    while( sqlite3changeset_next(pIter)==SQLITE_ROW ){
      int op, bIndirect, nCol;
      const char *zTab;
      sqlite3changeset_op(pIter, &zTab, &nCol, &op, &bIndirect);
      cnt++;
      if( zPrevTab==0 || strcmp(zPrevTab,zTab)!=0 ){
        sqlite3_free(zPrevTab);
        sqlite3_free(zSQLTabName);
        zPrevTab = sqlite3_mprintf("%s", zTab);
        if( !isalnum(zTab[0]) || sqlite3_strglob("*[^a-zA-Z0-9]*",zTab)==0 ){
          zSQLTabName = sqlite3_mprintf("\"%w\"", zTab);
        }else{
          zSQLTabName = sqlite3_mprintf("%s", zTab);
        }
        printf("/****** Changes for table %s ***************/\n", zSQLTabName);
      }
      switch( op ){
        case SQLITE_DELETE: {
          unsigned char *abPK;
          int i;
          const char *zSep = " ";
          sqlite3changeset_pk(pIter, &abPK, 0);
          printf("/* %d */ DELETE FROM %s WHERE", cnt, zSQLTabName);
          for(i=0; i<nCol; i++){
            sqlite3_value *pVal;
            if( abPK[i]==0 ) continue;
            printf("%sc%d=", zSep, i+1);
            zSep = " AND ";
            sqlite3changeset_old(pIter, i, &pVal);
            renderValue(pVal);
          }
          printf(";\n");
          break;
        }
        case SQLITE_UPDATE: {
          unsigned char *abPK;
          int i;
          const char *zSep = " ";
          sqlite3changeset_pk(pIter, &abPK, 0);
          printf("/* %d */ UPDATE %s SET", cnt, zSQLTabName);
          for(i=0; i<nCol; i++){
            sqlite3_value *pVal = 0;
            sqlite3changeset_new(pIter, i, &pVal);
            if( pVal ){
              printf("%sc%d=", zSep, i+1);
              zSep = ", ";
              renderValue(pVal);
            }
          }
          printf(" WHERE");
          zSep = " ";
          for(i=0; i<nCol; i++){
            sqlite3_value *pVal;
            if( abPK[i]==0 ) continue;
            printf("%sc%d=", zSep, i+1);
            zSep = " AND ";
            sqlite3changeset_old(pIter, i, &pVal);
            renderValue(pVal);
          }
          printf(";\n");
          break;
        }
        case SQLITE_INSERT: {
          int i;
          printf("/* %d */ INSERT INTO %s VALUES", cnt, zSQLTabName);
          for(i=0; i<nCol; i++){
            sqlite3_value *pVal;
            printf("%c", i==0 ? '(' : ',');
            sqlite3changeset_new(pIter, i, &pVal);
            renderValue(pVal);
          }
          printf(");\n");
          break;
        }
      }
    }
    printf("COMMIT;\n");
    sqlite3changeset_finalize(pIter);
    sqlite3_free(zPrevTab);
    sqlite3_free(zSQLTabName);
  }else

  /* If nothing else matches, show the usage comment */
  usage(argv[0]);
  sqlite3_free(pBuf);
  return 0; 
}

Added ext/session/session1.test.



























































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































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# 2011 March 07
#
# The author disclaims copyright to this source code.  In place of
# a legal notice, here is a blessing:
#
#    May you do good and not evil.
#    May you find forgiveness for yourself and forgive others.
#    May you share freely, never taking more than you give.
#
#***********************************************************************
# This file implements regression tests for SQLite library.
#

if {![info exists testdir]} {
  set testdir [file join [file dirname [info script]] .. .. test]
} 
source [file join [file dirname [info script]] session_common.tcl]
source $testdir/tester.tcl
ifcapable !session {finish_test; return}

set testprefix session1

do_execsql_test 1.0 {
  CREATE TABLE t1(x PRIMARY KEY, y);
  INSERT INTO t1 VALUES('abc', 'def');
}

#-------------------------------------------------------------------------
# Test creating, attaching tables to and deleting session objects.
#
do_test 1.1 { sqlite3session S db main } {S}
do_test 1.2 { S delete } {}
do_test 1.3 { sqlite3session S db main } {S}
do_test 1.4 { S attach t1 } {}
do_test 1.5 { S delete } {}
do_test 1.6 { sqlite3session S db main } {S}
do_test 1.7 { S attach t1 ; S attach t2 ; S attach t3 } {}
do_test 1.8 { S attach t1 ; S attach t2 ; S attach t3 } {}
do_test 1.9 { S delete } {}
do_test 1.10 {
  sqlite3session S db main
  S attach t1
  execsql { INSERT INTO t1 VALUES('ghi', 'jkl') }
} {}
do_test 1.11 { S delete } {}
do_test 1.12 {
  sqlite3session S db main
  S attach t1
  execsql { INSERT INTO t1 VALUES('mno', 'pqr') }
  execsql { UPDATE t1 SET x = 111 WHERE rowid = 1 }
  execsql { DELETE FROM t1 WHERE rowid = 2 }
} {}
do_test 1.13 {
  S changeset
  S delete
} {}

#-------------------------------------------------------------------------
# Simple changeset tests. Also test the sqlite3changeset_invert() 
# function.
#
do_test 2.1.1 {
  execsql { DELETE FROM t1 }
  sqlite3session S db main
  S attach t1
  execsql { INSERT INTO t1 VALUES(1, 'Sukhothai') }
  execsql { INSERT INTO t1 VALUES(2, 'Ayutthaya') }
  execsql { INSERT INTO t1 VALUES(3, 'Thonburi') }
} {}
do_changeset_test 2.1.2 S {
  {INSERT t1 0 X. {} {i 1 t Sukhothai}}
  {INSERT t1 0 X. {} {i 2 t Ayutthaya}}
  {INSERT t1 0 X. {} {i 3 t Thonburi}}
}
do_changeset_invert_test 2.1.3 S {
  {DELETE t1 0 X. {i 1 t Sukhothai} {}}
  {DELETE t1 0 X. {i 2 t Ayutthaya} {}}
  {DELETE t1 0 X. {i 3 t Thonburi} {}}
}
do_test 2.1.4 { S delete } {}

do_test 2.2.1 {
  sqlite3session S db main
  S attach t1
  execsql { DELETE FROM t1 WHERE 1 }
} {}
do_changeset_test 2.2.2 S {
  {DELETE t1 0 X. {i 1 t Sukhothai} {}}
  {DELETE t1 0 X. {i 2 t Ayutthaya} {}}
  {DELETE t1 0 X. {i 3 t Thonburi} {}}
}
do_changeset_invert_test 2.2.3 S {
  {INSERT t1 0 X. {} {i 1 t Sukhothai}}
  {INSERT t1 0 X. {} {i 2 t Ayutthaya}}
  {INSERT t1 0 X. {} {i 3 t Thonburi}}
}
do_test 2.2.4 { S delete } {}

do_test 2.3.1 {
  execsql { DELETE FROM t1 }
  sqlite3session S db main
  execsql { INSERT INTO t1 VALUES(1, 'Sukhothai') }
  execsql { INSERT INTO t1 VALUES(2, 'Ayutthaya') }
  execsql { INSERT INTO t1 VALUES(3, 'Thonburi') }
  S attach t1
  execsql { 
    UPDATE t1 SET x = 10 WHERE x = 1;
    UPDATE t1 SET y = 'Surin' WHERE x = 2;
    UPDATE t1 SET x = 20, y = 'Thapae' WHERE x = 3;
  }
} {}

do_changeset_test 2.3.2 S {
  {INSERT t1 0 X. {} {i 10 t Sukhothai}} 
  {DELETE t1 0 X. {i 1 t Sukhothai} {}} 
  {UPDATE t1 0 X. {i 2 t Ayutthaya} {{} {} t Surin}} 
  {DELETE t1 0 X. {i 3 t Thonburi} {}} 
  {INSERT t1 0 X. {} {i 20 t Thapae}} 
}

do_changeset_invert_test 2.3.3 S {
  {DELETE t1 0 X. {i 10 t Sukhothai} {}} 
  {INSERT t1 0 X. {} {i 1 t Sukhothai}} 
  {UPDATE t1 0 X. {i 2 t Surin} {{} {} t Ayutthaya}} 
  {INSERT t1 0 X. {} {i 3 t Thonburi}} 
  {DELETE t1 0 X. {i 20 t Thapae} {}}
}
do_test 2.3.4 { S delete } {}

do_test 2.4.1 {
  sqlite3session S db main
  S attach t1
  execsql { INSERT INTO t1 VALUES(100, 'Bangkok') }
  execsql { DELETE FROM t1 WHERE x = 100 }
} {}
do_changeset_test 2.4.2 S {}
do_changeset_invert_test 2.4.3 S {}
do_test 2.4.4 { S delete } {}

#-------------------------------------------------------------------------
# Test the application of simple changesets. These tests also test that
# the conflict callback is invoked correctly. For these tests, the 
# conflict callback always returns OMIT.
#
db close
forcedelete test.db test.db2
sqlite3 db test.db
sqlite3 db2 test.db2

proc xConflict {args} { 
  lappend ::xConflict $args
  return "" 
}

proc bgerror {args} { set ::background_error $args }

proc do_conflict_test {tn args} {
  set O(-tables)    [list]
  set O(-sql)       [list]
  set O(-conflicts) [list]

  array set V $args
  foreach key [array names V] {
    if {![info exists O($key)]} {error "no such option: $key"}
  }
  array set O $args

  sqlite3session S db main
  foreach t $O(-tables) { S attach $t }
  execsql $O(-sql)
  set ::xConflict [list]
  sqlite3changeset_apply db2 [S changeset] xConflict

  set conflicts [list]
  foreach c $O(-conflicts) {
    lappend conflicts $c
  }

  after 1 {set go 1}
  vwait go

  uplevel do_test $tn [list { set ::xConflict }] [list $conflicts]
  S delete
}

proc do_db2_test {testname sql {result {}}} {
  uplevel do_test $testname [list "execsql {$sql} db2"] [list [list {*}$result]]
}

# Test INSERT changesets.
#
do_test 3.1.0 {
  execsql { CREATE TABLE t1(a PRIMARY KEY, b NOT NULL) } db2
  execsql { 
    CREATE TABLE t1(a PRIMARY KEY, b);
    INSERT INTO t1 VALUES(1, 'one');
    INSERT INTO t1 VALUES(2, 'two');
  } db 
} {}
do_db2_test 3.1.1 "INSERT INTO t1 VALUES(6, 'VI')"
do_conflict_test 3.1.2 -tables t1 -sql {
  INSERT INTO t1 VALUES(3, 'three');
  INSERT INTO t1 VALUES(4, 'four');
  INSERT INTO t1 VALUES(5, 'five');
  INSERT INTO t1 VALUES(6, 'six');
  INSERT INTO t1 VALUES(7, 'seven');
  INSERT INTO t1 VALUES(8, NULL);
} -conflicts {
  {INSERT t1 CONFLICT {i 6 t six} {i 6 t VI}}
  {INSERT t1 CONSTRAINT {i 8 n {}}}
}

do_db2_test 3.1.3 "SELECT * FROM t1" {
  6 VI 3 three 4 four 5 five 7 seven
}
do_execsql_test 3.1.4 "SELECT * FROM t1" {
  1 one 2 two 3 three 4 four 5 five 6 six 7 seven 8 {}
}

# Test DELETE changesets.
#
do_execsql_test 3.2.1 {
  PRAGMA foreign_keys = on;
  CREATE TABLE t2(a PRIMARY KEY, b);
  CREATE TABLE t3(c, d REFERENCES t2);
  INSERT INTO t2 VALUES(1, 'one');
  INSERT INTO t2 VALUES(2, 'two');
  INSERT INTO t2 VALUES(3, 'three');
  INSERT INTO t2 VALUES(4, 'four');
}
do_db2_test 3.2.2 {
  PRAGMA foreign_keys = on;
  CREATE TABLE t2(a PRIMARY KEY, b);
  CREATE TABLE t3(c, d REFERENCES t2);
  INSERT INTO t2 VALUES(1, 'one');
  INSERT INTO t2 VALUES(2, 'two');
  INSERT INTO t2 VALUES(4, 'five');
  INSERT INTO t3 VALUES('i', 1);
}
do_conflict_test 3.2.3 -tables t2 -sql {
  DELETE FROM t2 WHERE a = 1;
  DELETE FROM t2 WHERE a = 2;
  DELETE FROM t2 WHERE a = 3;
  DELETE FROM t2 WHERE a = 4;
} -conflicts {
  {DELETE t2 NOTFOUND {i 3 t three}}
  {DELETE t2 DATA {i 4 t four} {i 4 t five}}
  {FOREIGN_KEY 1}
}
do_execsql_test 3.2.4 "SELECT * FROM t2" {}
do_db2_test     3.2.5 "SELECT * FROM t2" {4 five}

# Test UPDATE changesets.
#
do_execsql_test 3.3.1 {
  CREATE TABLE t4(a, b, c, PRIMARY KEY(b, c));
  INSERT INTO t4 VALUES(1, 2, 3);
  INSERT INTO t4 VALUES(4, 5, 6);
  INSERT INTO t4 VALUES(7, 8, 9);
  INSERT INTO t4 VALUES(10, 11, 12);
}
do_db2_test 3.3.2 {
  CREATE TABLE t4(a NOT NULL, b, c, PRIMARY KEY(b, c));
  INSERT INTO t4 VALUES(0, 2, 3);
  INSERT INTO t4 VALUES(4, 5, 7);
  INSERT INTO t4 VALUES(7, 8, 9);
  INSERT INTO t4 VALUES(10, 11, 12);
}
do_conflict_test 3.3.3 -tables t4 -sql {
  UPDATE t4 SET a = -1 WHERE b = 2;
  UPDATE t4 SET a = -1 WHERE b = 5;
  UPDATE t4 SET a = NULL WHERE c = 9;
  UPDATE t4 SET a = 'x' WHERE b = 11;
} -conflicts {
  {UPDATE t4 DATA {i 1 i 2 i 3} {i -1 {} {} {} {}} {i 0 i 2 i 3}}
  {UPDATE t4 NOTFOUND {i 4 i 5 i 6} {i -1 {} {} {} {}}}
  {UPDATE t4 CONSTRAINT {i 7 i 8 i 9} {n {} {} {} {} {}}}
}
do_db2_test     3.3.4 { SELECT * FROM t4 } {0 2 3 4 5 7 7 8 9 x 11 12}
do_execsql_test 3.3.5 { SELECT * FROM t4 } {-1 2 3 -1 5 6 {} 8 9 x 11 12}

#-------------------------------------------------------------------------
# This next block of tests verifies that values returned by the conflict
# handler are intepreted correctly.
#

proc test_reset {} {
  db close
  db2 close
  forcedelete test.db test.db2
  sqlite3 db test.db
  sqlite3 db2 test.db2
}

proc xConflict {args} {
  lappend ::xConflict $args
  return $::conflict_return
}

foreach {tn conflict_return after} {
  1 OMIT      {1 2 value1   4 5 7       10 x x}
  2 REPLACE   {1 2 value1   4 5 value2  10 8 9}
} {
  test_reset

  do_test 4.$tn.1 {
    foreach db {db db2} {
      execsql { 
        CREATE TABLE t1(a, b, c, PRIMARY KEY(a));
        INSERT INTO t1 VALUES(1, 2, 3);
        INSERT INTO t1 VALUES(4, 5, 6);
        INSERT INTO t1 VALUES(7, 8, 9);
      } $db
    }
    execsql { 
      REPLACE INTO t1 VALUES(4, 5, 7);
      REPLACE INTO t1 VALUES(10, 'x', 'x');
    } db2
  } {}

  do_conflict_test 4.$tn.2 -tables t1 -sql {
    UPDATE t1 SET c = 'value1' WHERE a = 1;       -- no conflict
    UPDATE t1 SET c = 'value2' WHERE a = 4;       -- DATA conflict
    UPDATE t1 SET a = 10 WHERE a = 7;             -- CONFLICT conflict
  } -conflicts {
    {INSERT t1 CONFLICT {i 10 i 8 i 9} {i 10 t x t x}}
    {UPDATE t1 DATA {i 4 {} {} i 6} {{} {} {} {} t value2} {i 4 i 5 i 7}}
  }

  do_db2_test 4.$tn.3 "SELECT * FROM t1 ORDER BY a" $after
}

foreach {tn conflict_return} {
  1 OMIT
  2 REPLACE
} {
  test_reset

  do_test 5.$tn.1 {
    # Create an identical schema in both databases.
    set schema {
      CREATE TABLE "'foolish name'"(x, y, z, PRIMARY KEY(x, y));
    }
    execsql $schema db
    execsql $schema db2

    # Add some rows to [db2]. These rows will cause conflicts later
    # on when the changeset from [db] is applied to it.
    execsql { 
      INSERT INTO "'foolish name'" VALUES('one', 'one', 'ii');
      INSERT INTO "'foolish name'" VALUES('one', 'two', 'i');
      INSERT INTO "'foolish name'" VALUES('two', 'two', 'ii');
    } db2

  } {}

  do_conflict_test 5.$tn.2 -tables {{'foolish name'}} -sql {
    INSERT INTO "'foolish name'" VALUES('one', 'two', 2);
  } -conflicts {
    {INSERT {'foolish name'} CONFLICT {t one t two i 2} {t one t two t i}}
  }

  set res(REPLACE) {one one ii one two 2 two two ii}
  set res(OMIT)    {one one ii one two i two two ii}
  do_db2_test 5.$tn.3 {
    SELECT * FROM "'foolish name'" ORDER BY x, y
  } $res($conflict_return)


  do_test 5.$tn.1 {
    set schema {
      CREATE TABLE d1("z""z" PRIMARY KEY, y);
      INSERT INTO d1 VALUES(1, 'one');
      INSERT INTO d1 VALUES(2, 'two');
    }
    execsql $schema db
    execsql $schema db2

    execsql { 
      UPDATE d1 SET y = 'TWO' WHERE "z""z" = 2;
    } db2

  } {}

  do_conflict_test 5.$tn.2 -tables d1 -sql {
    DELETE FROM d1 WHERE "z""z" = 2;
  } -conflicts {
    {DELETE d1 DATA {i 2 t two} {i 2 t TWO}}
  }

  set res(REPLACE) {1 one}
  set res(OMIT)    {1 one 2 TWO}
  do_db2_test 5.$tn.3 "SELECT * FROM d1" $res($conflict_return)
}

#-------------------------------------------------------------------------
# Test that two tables can be monitored by a single session object.
#
test_reset
set schema {
  CREATE TABLE t1(a COLLATE nocase PRIMARY KEY, b);
  CREATE TABLE t2(a, b PRIMARY KEY);
}
do_test 6.0 {
  execsql $schema db
  execsql $schema db2
  execsql {
    INSERT INTO t1 VALUES('a', 'b');
    INSERT INTO t2 VALUES('a', 'b');
  } db2
} {}

set conflict_return ""
do_conflict_test 6.1 -tables {t1 t2} -sql {
  INSERT INTO t1 VALUES('1', '2');
  INSERT INTO t1 VALUES('A', 'B');
  INSERT INTO t2 VALUES('A', 'B');
} -conflicts {
  {INSERT t1 CONFLICT {t A t B} {t a t b}}
}

do_db2_test 6.2 "SELECT * FROM t1" {a b 1 2}
do_db2_test 6.3 "SELECT * FROM t2" {a b A B}

#-------------------------------------------------------------------------
# Test that session objects are not confused by changes to table in
# other databases.
#
catch { db2 close }
drop_all_tables
forcedelete test.db2
do_iterator_test 7.1 * {
  ATTACH 'test.db2' AS aux;
  CREATE TABLE main.t1(x PRIMARY KEY, y);
  CREATE TABLE aux.t1(x PRIMARY KEY, y);

  INSERT INTO main.t1 VALUES('one', 1);
  INSERT INTO main.t1 VALUES('two', 2);
  INSERT INTO aux.t1 VALUES('three', 3);
  INSERT INTO aux.t1 VALUES('four', 4);
} {
  {INSERT t1 0 X. {} {t two i 2}} 
  {INSERT t1 0 X. {} {t one i 1}}
}

#-------------------------------------------------------------------------
# Test the sqlite3session_isempty() function.
#
do_test 8.1 {
  execsql {
    CREATE TABLE t5(x PRIMARY KEY, y);
    CREATE TABLE t6(x PRIMARY KEY, y);
    INSERT INTO t5 VALUES('a', 'b');
    INSERT INTO t6 VALUES('a', 'b');
  }
  sqlite3session S db main
  S attach *

  S isempty
} {1}
do_test 8.2 {
  execsql { DELETE FROM t5 }
  S isempty
} {0}
do_test 8.3 {
  S delete
  sqlite3session S db main
  S attach t5
  execsql { DELETE FROM t5 }
  S isempty
} {1}
do_test 8.4 { S delete } {}

do_test 8.5 {
  sqlite3session S db main
  S attach t5
  S attach t6
  execsql { INSERT INTO t5 VALUES(1, 2) }
  S isempty
} {0}

do_test 8.6 {
  S delete
  sqlite3session S db main
  S attach t5
  S attach t6
  execsql { INSERT INTO t6 VALUES(1, 2) }
  S isempty
} {0}
do_test 8.7 { S delete } {}

#-------------------------------------------------------------------------
#
do_execsql_test 9.1 {
  CREATE TABLE t7(a, b, c, d, e PRIMARY KEY, f, g);
  INSERT INTO t7 VALUES(1, 1, 1, 1, 1, 1, 1);
}
do_test 9.2 { 
  sqlite3session S db main 
  S attach *
  execsql { UPDATE t7 SET b=2, d=2 }
} {}
do_changeset_test 9.2 S {{UPDATE t7 0 ....X.. {{} {} i 1 {} {} i 1 i 1 {} {} {} {}} {{} {} i 2 {} {} i 2 {} {} {} {} {} {}}}}
S delete
catch { db2 close }
 
#-------------------------------------------------------------------------
# Test a really long table name.
#
reset_db
set tblname [string repeat tblname123 100]
do_test 10.1.1 {
  execsql "
    CREATE TABLE $tblname (a PRIMARY KEY, b);
    INSERT INTO $tblname VALUES('xyz', 'def');
  "
  sqlite3session S db main
  S attach $tblname
  execsql " 
    INSERT INTO $tblname VALUES('uvw', 'abc');
    DELETE FROM $tblname WHERE a = 'xyz';
  "
} {}
breakpoint
do_changeset_test 10.1.2 S "
  {INSERT $tblname 0 X. {} {t uvw t abc}}
  {DELETE $tblname 0 X. {t xyz t def} {}}
"
do_test 10.1.4 { S delete } {}

#---------------------------------------------------------------
reset_db
do_execsql_test 11.1 {
  CREATE TABLE t1(a, b);
}
do_test 11.2 {
  sqlite3session S db main
  S attach t1
  execsql {
    INSERT INTO t1 VALUES(1, 2);
  }
  S changeset
} {}

S delete


#-------------------------------------------------------------------------
# Test a really long table name.
#
reset_db
set tblname [string repeat tblname123 100]
do_test 10.1.1 {
  execsql "
    CREATE TABLE $tblname (a PRIMARY KEY, b);
    INSERT INTO $tblname VALUES('xyz', 'def');
  "
  sqlite3session S db main
  S attach $tblname
  execsql " 
    INSERT INTO $tblname VALUES('uvw', 'abc');
    DELETE FROM $tblname WHERE a = 'xyz';
  "
} {}
breakpoint
do_changeset_test 10.1.2 S "
  {INSERT $tblname 0 X. {} {t uvw t abc}}
  {DELETE $tblname 0 X. {t xyz t def} {}}
"
do_test 10.1.4 { S delete } {}


finish_test

Added ext/session/session2.test.































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































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# 2011 Mar 16
#
# The author disclaims copyright to this source code.  In place of
# a legal notice, here is a blessing:
#
#    May you do good and not evil.
#    May you find forgiveness for yourself and forgive others.
#    May you share freely, never taking more than you give.
#
#***********************************************************************
#
# The focus of this file is testing the session module.
#

if {![info exists testdir]} {
  set testdir [file join [file dirname [info script]] .. .. test]
} 
source [file join [file dirname [info script]] session_common.tcl]
source $testdir/tester.tcl
ifcapable !session {finish_test; return}

set testprefix session2

proc test_reset {} {
  catch { db close }
  catch { db2 close }
  forcedelete test.db test.db2
  sqlite3 db test.db
  sqlite3 db2 test.db2
}

##########################################################################
# End of proc definitions. Start of tests.
##########################################################################

test_reset
do_execsql_test 1.0 { 
  CREATE TABLE t1(a PRIMARY KEY, b);
  INSERT INTO t1 VALUES('i', 'one');
}
do_iterator_test 1.1 t1 {
  DELETE FROM t1 WHERE a = 'i';
  INSERT INTO t1 VALUES('ii', 'two');
} {
  {DELETE t1 0 X. {t i t one} {}} 
  {INSERT t1 0 X. {} {t ii t two}}
}

do_iterator_test 1.2 t1 {
  INSERT INTO t1 VALUES(1.5, 99.9)
} {
  {INSERT t1 0 X. {} {f 1.5 f 99.9}}
}

do_iterator_test 1.3 t1 {
  UPDATE t1 SET b = 100.1 WHERE a = 1.5;
  UPDATE t1 SET b = 99.9 WHERE a = 1.5;
} { }

do_iterator_test 1.4 t1 {
  UPDATE t1 SET b = 100.1 WHERE a = 1.5;
} {
  {UPDATE t1 0 X. {f 1.5 f 99.9} {{} {} f 100.1}}
}


# Execute each of the following blocks of SQL on database [db1]. Collect
# changes using a session object. Apply the resulting changeset to
# database [db2]. Then check that the contents of the two databases are
# identical.
#

set set_of_tests {
  1 { INSERT INTO %T1% VALUES(1, 2) } 

  2 {
    INSERT INTO %T2% VALUES(1, NULL);
    INSERT INTO %T2% VALUES(2, NULL);
    INSERT INTO %T2% VALUES(3, NULL);
    DELETE FROM %T2% WHERE a = 2;
    INSERT INTO %T2% VALUES(4, NULL);
    UPDATE %T2% SET b=0 WHERE b=1;
  } 

  3 { INSERT INTO %T3% SELECT *, NULL FROM %T2% }

  4 {
    INSERT INTO %T3% SELECT a||a, b||b, NULL FROM %T3%;
    DELETE FROM %T3% WHERE rowid%2;
  }

  5 { UPDATE %T3% SET c = a||b }

  6 { UPDATE %T1% SET a = 32 }

  7 { 
    INSERT INTO %T1% SELECT randomblob(32), randomblob(32) FROM %T1%; 
    INSERT INTO %T1% SELECT randomblob(32), randomblob(32) FROM %T1%; 
    INSERT INTO %T1% SELECT randomblob(32), randomblob(32) FROM %T1%; 
    INSERT INTO %T1% SELECT randomblob(32), randomblob(32) FROM %T1%; 
    INSERT INTO %T1% SELECT randomblob(32), randomblob(32) FROM %T1%; 
    INSERT INTO %T1% SELECT randomblob(32), randomblob(32) FROM %T1%; 
    INSERT INTO %T1% SELECT randomblob(32), randomblob(32) FROM %T1%; 
    INSERT INTO %T1% SELECT randomblob(32), randomblob(32) FROM %T1%; 
    INSERT INTO %T1% SELECT randomblob(32), randomblob(32) FROM %T1%; 
    INSERT INTO %T1% SELECT randomblob(32), randomblob(32) FROM %T1%; 
    INSERT INTO %T1% SELECT randomblob(32), randomblob(32) FROM %T1%; 
    DELETE FROM %T1% WHERE (rowid%3)==0;
  }

  8 {
    BEGIN;
      INSERT INTO %T1% SELECT randomblob(32), randomblob(32) FROM %T1%;
    ROLLBACK;
  }
  9 {
    BEGIN;
      UPDATE %T1% SET b = 'xxx';
    ROLLBACK;
  }
  10 {
    BEGIN;
      DELETE FROM %T1% WHERE 1;
    ROLLBACK;
  }
  11 {
    INSERT INTO %T1% VALUES(randomblob(21000), randomblob(0));
    INSERT INTO %T1% VALUES(1.5, 1.5);
    INSERT INTO %T1% VALUES(4.56, -99.999999999999999999999);
  }
  12 {
    INSERT INTO %T2% VALUES(NULL, NULL);
  }

  13 {
    DELETE FROM %T1% WHERE 1;

    -- Insert many rows with real primary keys. Enough to force the session
    -- objects hash table to resize. 
    INSERT INTO %T1% VALUES(0.1, 0.1);
    INSERT INTO %T1% SELECT a+0.1, b+0.1 FROM %T1%;
    INSERT INTO %T1% SELECT a+0.2, b+0.2 FROM %T1%;
    INSERT INTO %T1% SELECT a+0.4, b+0.4 FROM %T1%;
    INSERT INTO %T1% SELECT a+0.8, b+0.8 FROM %T1%;
    INSERT INTO %T1% SELECT a+1.6, b+1.6 FROM %T1%;
    INSERT INTO %T1% SELECT a+3.2, b+3.2 FROM %T1%;
    INSERT INTO %T1% SELECT a+6.4, b+6.4 FROM %T1%;
    INSERT INTO %T1% SELECT a+12.8, b+12.8 FROM %T1%;
    INSERT INTO %T1% SELECT a+25.6, b+25.6 FROM %T1%;
    INSERT INTO %T1% SELECT a+51.2, b+51.2 FROM %T1%;
    INSERT INTO %T1% SELECT a+102.4, b+102.4 FROM %T1%;
    INSERT INTO %T1% SELECT a+204.8, b+204.8 FROM %T1%;
  }

  14 {
    DELETE FROM %T1% WHERE 1;
  }

  15 {
    INSERT INTO %T1% VALUES(1, 1);
    INSERT INTO %T1% SELECT a+2, b+2 FROM %T1%;
    INSERT INTO %T1% SELECT a+4, b+4 FROM %T1%;
    INSERT INTO %T1% SELECT a+8, b+8 FROM %T1%;
    INSERT INTO %T1% SELECT a+256, b+256 FROM %T1%;
  }

  16 {
    INSERT INTO %T4% VALUES('abc', 'def');
    INSERT INTO %T4% VALUES('def', 'abc');
  }
  17 { UPDATE %T4% SET b = 1 }

  18 { DELETE FROM %T4% WHERE 1 }

  19 { 
    INSERT INTO t1 VALUES('', '');
    INSERT INTO t1 VALUES(X'', X'');
  }
  20 { 
    DELETE FROM t1;
    INSERT INTO t1 VALUES('', NULL);
  }
}

test_reset
do_common_sql {
  CREATE TABLE t1(a PRIMARY KEY, b);
  CREATE TABLE t2(a, b INTEGER PRIMARY KEY);
  CREATE TABLE t3(a, b, c, PRIMARY KEY(a, b));
  CREATE TABLE t4(a, b, PRIMARY KEY(b, a));
}

foreach {tn sql} [string map {%T1% t1 %T2% t2 %T3% t3 %T4% t4} $set_of_tests] {
  do_then_apply_sql $sql
  do_test 2.$tn { compare_db db db2 } {}
}

# The following block of tests is similar to the last, except that the
# session object is recording changes made to an attached database. The
# main database contains a table of the same name as the table being
# modified within the attached db.
#
test_reset
forcedelete test.db3
sqlite3 db3 test.db3
do_test 3.0 {
  execsql {
    ATTACH 'test.db3' AS 'aux';
    CREATE TABLE t1(a, b PRIMARY KEY);
    CREATE TABLE t2(x, y, z);
    CREATE TABLE t3(a);

    CREATE TABLE aux.t1(a PRIMARY KEY, b);
    CREATE TABLE aux.t2(a, b INTEGER PRIMARY KEY);
    CREATE TABLE aux.t3(a, b, c, PRIMARY KEY(a, b));
    CREATE TABLE aux.t4(a, b, PRIMARY KEY(b, a));
  }
  execsql {
    CREATE TABLE t1(a PRIMARY KEY, b);
    CREATE TABLE t2(a, b INTEGER PRIMARY KEY);
    CREATE TABLE t3(a, b, c, PRIMARY KEY(a, b));
    CREATE TABLE t4(a, b, PRIMARY KEY(b, a));
  } db2
} {}

proc xTrace {args} { puts $args }

foreach {tn sql} [
  string map {%T1% aux.t1 %T2% aux.t2 %T3% aux.t3 %T4% aux.t4} $set_of_tests
] {
  do_then_apply_sql $sql aux
  do_test 3.$tn { compare_db db2 db3 } {}
}
catch {db3 close}


#-------------------------------------------------------------------------
# The following tests verify that NULL values in primary key columns are
# handled correctly by the session module.
#
test_reset
do_execsql_test 4.0 {
  CREATE TABLE t1(a PRIMARY KEY);
  CREATE TABLE t2(a, b, c, PRIMARY KEY(c, b));
  CREATE TABLE t3(a, b INTEGER PRIMARY KEY);
}

foreach {tn sql changeset} {
  1 {
    INSERT INTO t1 VALUES(123);
    INSERT INTO t1 VALUES(NULL);
    INSERT INTO t1 VALUES(456);
  } {
    {INSERT t1 0 X {} {i 456}} 
    {INSERT t1 0 X {} {i 123}}
  }

  2 {
    UPDATE t1 SET a = NULL;
  } {
    {DELETE t1 0 X {i 456} {}}
    {DELETE t1 0 X {i 123} {}}
  }

  3 { DELETE FROM t1 } { }

  4 { 
    INSERT INTO t3 VALUES(NULL, NULL)
  } {
    {INSERT t3 0 .X {} {n {} i 1}} 
  }

  5 { INSERT INTO t2 VALUES(1, 2, NULL) }    { }
  6 { INSERT INTO t2 VALUES(1, NULL, 3) }    { }
  7 { INSERT INTO t2 VALUES(1, NULL, NULL) } { }
  8 { INSERT INTO t2 VALUES(1, 2, 3) }    { {INSERT t2 0 .XX {} {i 1 i 2 i 3}} }
  9 { DELETE FROM t2 WHERE 1 }            { {DELETE t2 0 .XX {i 1 i 2 i 3} {}} }

} {
  do_iterator_test 4.$tn {t1 t2 t3} $sql $changeset
}


#-------------------------------------------------------------------------
# Test that if NULL is passed to sqlite3session_attach(), all database
# tables are attached to the session object.
#
test_reset
do_execsql_test 5.0 {
  CREATE TABLE t1(a PRIMARY KEY);
  CREATE TABLE t2(x, y PRIMARY KEY);
}

foreach {tn sql changeset} {
  1 { INSERT INTO t1 VALUES(35) }     { {INSERT t1 0 X {} {i 35}} }
  2 { INSERT INTO t2 VALUES(36, 37) } { {INSERT t2 0 .X {} {i 36 i 37}} }
  3 { 
    DELETE FROM t1 WHERE 1;
    UPDATE t2 SET x = 34;
  } { 
    {DELETE t1 0 X {i 35} {}}
    {UPDATE t2 0 .X {i 36 i 37} {i 34 {} {}}}
  }
} {
  do_iterator_test 5.$tn * $sql $changeset
}

#-------------------------------------------------------------------------
# The next block of tests verify that the "indirect" flag is set 
# correctly within changesets. The indirect flag is set for a change
# if either of the following are true:
#
#   * The sqlite3session_indirect() API has been used to set the session
#     indirect flag to true, or
#   * The change was made by a trigger.
#
# If the same row is updated more than once during a session, then the 
# change is considered indirect only if all changes meet the criteria 
# above.
#
test_reset
db function indirect [list S indirect]

do_execsql_test 6.0 {
  CREATE TABLE t1(a PRIMARY KEY, b, c);

  CREATE TABLE t2(x PRIMARY KEY, y);
  CREATE TRIGGER AFTER INSERT ON t2 WHEN new.x%2 BEGIN
    INSERT INTO t2 VALUES(new.x+1, NULL);
  END;
}

do_iterator_test 6.1.1 * {
  INSERT INTO t1 VALUES(1, 'one', 'i');
  SELECT indirect(1);
  INSERT INTO t1 VALUES(2, 'two', 'ii');
  SELECT indirect(0);
  INSERT INTO t1 VALUES(3, 'three', 'iii');
} {
  {INSERT t1 0 X.. {} {i 1 t one t i}}
  {INSERT t1 1 X.. {} {i 2 t two t ii}}
  {INSERT t1 0 X.. {} {i 3 t three t iii}}
}

do_iterator_test 6.1.2 * {
  SELECT indirect(1);
  UPDATE t1 SET c = 'I' WHERE a = 1;
  SELECT indirect(0);
} {
  {UPDATE t1 1 X.. {i 1 {} {} t i} {{} {} {} {} t I}}
}
do_iterator_test 6.1.3 * {
  SELECT indirect(1);
  UPDATE t1 SET c = '.' WHERE a = 1;
  SELECT indirect(0);
  UPDATE t1 SET c = 'o' WHERE a = 1;
} {
  {UPDATE t1 0 X.. {i 1 {} {} t I} {{} {} {} {} t o}}
}
do_iterator_test 6.1.4 * {
  SELECT indirect(0);
  UPDATE t1 SET c = 'x' WHERE a = 1;
  SELECT indirect(1);
  UPDATE t1 SET c = 'i' WHERE a = 1;
} {
  {UPDATE t1 0 X.. {i 1 {} {} t o} {{} {} {} {} t i}}
}
do_iterator_test 6.1.4 * {
  SELECT indirect(1);
  UPDATE t1 SET c = 'y' WHERE a = 1;
  SELECT indirect(1);
  UPDATE t1 SET c = 'I' WHERE a = 1;
} {
  {UPDATE t1 1 X.. {i 1 {} {} t i} {{} {} {} {} t I}}
}

do_iterator_test 6.1.5 * {
  INSERT INTO t2 VALUES(1, 'x');
} {
  {INSERT t2 0 X. {} {i 1 t x}}
  {INSERT t2 1 X. {} {i 2 n {}}}
}

do_iterator_test 6.1.6 * {
  SELECT indirect(1);
  INSERT INTO t2 VALUES(3, 'x');
  SELECT indirect(0);
  UPDATE t2 SET y = 'y' WHERE x>2;
} {
  {INSERT t2 0 X. {} {i 3 t y}}
  {INSERT t2 0 X. {} {i 4 t y}}
}

do_iterator_test 6.1.7 * {
  SELECT indirect(1);
  DELETE FROM t2 WHERE x = 4;
  SELECT indirect(0);
  INSERT INTO t2 VALUES(4, 'new');
} {
  {UPDATE t2 0 X. {i 4 t y} {{} {} t new}}
}

do_iterator_test 6.1.8 * {
  CREATE TABLE t3(a, b PRIMARY KEY);
  CREATE TABLE t4(a, b PRIMARY KEY);
  CREATE TRIGGER t4t AFTER UPDATE ON t4 BEGIN
    UPDATE t3 SET a = new.a WHERE b = new.b;
  END;

  SELECT indirect(1);
  INSERT INTO t3 VALUES('one', 1);
  INSERT INTO t4 VALUES('one', 1);
  SELECT indirect(0);
  UPDATE t4 SET a = 'two' WHERE b = 1;
} {
  {INSERT t3 1 .X {} {t two i 1}}
  {INSERT t4 0 .X {} {t two i 1}} 
}

sqlite3session S db main
do_execsql_test 6.2.1 {
  SELECT indirect(0);
  SELECT indirect(-1);
  SELECT indirect(45);
  SELECT indirect(-100);
} {0 0 1 1}
S delete

#-------------------------------------------------------------------------
# Test that if a conflict-handler that has been passed either NOTFOUND or
# CONSTRAINT returns REPLACE - the sqlite3changeset_apply() call returns
# MISUSE and rolls back any changes made so far.
#
#   7.1.*: NOTFOUND conflict-callback.
#   7.2.*: CONSTRAINT conflict-callback.
#
proc xConflict {args} {return REPLACE}
test_reset

do_execsql_test 7.1.1 {
  CREATE TABLE t1(a PRIMARY KEY, b);
  INSERT INTO t1 VALUES(1, 'one');
  INSERT INTO t1 VALUES(2, 'two');
}
do_test 7.1.2 {
  execsql {
    CREATE TABLE t1(a PRIMARY KEY, b NOT NULL);
    INSERT INTO t1 VALUES(1, 'one');
  } db2
} {}
do_test 7.1.3 {
  set changeset [changeset_from_sql {
    UPDATE t1 SET b = 'five' WHERE a = 1;
    UPDATE t1 SET b = 'six' WHERE a = 2;
  }]
  set x [list]
  sqlite3session_foreach c $changeset { lappend x $c }
  set x
} [list \
  {UPDATE t1 0 X. {i 1 t one} {{} {} t five}} \
  {UPDATE t1 0 X. {i 2 t two} {{} {} t six}}  \
]
do_test 7.1.4 {
  list [catch {sqlite3changeset_apply db2 $changeset xConflict} msg] $msg
} {1 SQLITE_MISUSE}
do_test 7.1.5 { execsql { SELECT * FROM t1 } db2 } {1 one}

do_test 7.2.1 {
  set changeset [changeset_from_sql { UPDATE t1 SET b = NULL WHERE a = 1 }]

  set x [list]
  sqlite3session_foreach c $changeset { lappend x $c }
  set x
} [list \
  {UPDATE t1 0 X. {i 1 t five} {{} {} n {}}} \
]
do_test 7.2.2 {
  list [catch {sqlite3changeset_apply db2 $changeset xConflict} msg] $msg
} {1 SQLITE_MISUSE}
do_test 7.2.3 { execsql { SELECT * FROM t1 } db2 } {1 one}

#-------------------------------------------------------------------------
# Test that if a conflict-handler returns ABORT, application of the 
# changeset is rolled back and the sqlite3changeset_apply() method returns
# SQLITE_ABORT.
#
# Also test that the same thing happens if a conflict handler returns an
# unrecognized integer value. Except, in this case SQLITE_MISUSE is returned
# instead of SQLITE_ABORT.
#
foreach {tn conflict_return apply_return} {
  1    ABORT   SQLITE_ABORT
  2    567     SQLITE_MISUSE
} {
  test_reset
  proc xConflict {args} [list return $conflict_return]

  do_test 8.$tn.0 {
    do_common_sql { 
      CREATE TABLE t1(x, y, PRIMARY KEY(x, y));
      INSERT INTO t1 VALUES('x', 'y');
    }
    execsql { INSERT INTO t1 VALUES('w', 'w') }

    set changeset [changeset_from_sql { DELETE FROM t1 WHERE 1 }]

    set x [list]
    sqlite3session_foreach c $changeset { lappend x $c }
    set x
  } [list \
    {DELETE t1 0 XX {t w t w} {}} \
    {DELETE t1 0 XX {t x t y} {}} \
  ]

  do_test 8.$tn.1 {
    list [catch {sqlite3changeset_apply db2 $changeset xConflict} msg] $msg
  } [list 1 $apply_return]

  do_test 8.$tn.2 {
    execsql {SELECT * FROM t1} db2
  } {x y}
}


#-------------------------------------------------------------------------
# Try to cause an infinite loop as follows:
#
#   1. Have a changeset insert a row that causes a CONFLICT callback,
#   2. Have the conflict handler return REPLACE,
#   3. After the session module deletes the conflicting row, have a trigger
#      re-insert it.
#   4. Goto step 1...
#
# This doesn't work, as the second invocation of the conflict handler is a
# CONSTRAINT, not a CONFLICT. There is at most one CONFLICT callback for
# each change in the changeset.
#
test_reset
proc xConflict {type args} { 
  if {$type == "CONFLICT"} { return REPLACE }
  return OMIT
}
do_test 9.1 {
  execsql {
    CREATE TABLE t1(a PRIMARY KEY, b);
  }
  execsql {
    CREATE TABLE t1(a PRIMARY KEY, b);
    INSERT INTO t1 VALUES('x', 2);
    CREATE TRIGGER tr1 AFTER DELETE ON t1 BEGIN
      INSERT INTO t1 VALUES(old.a, old.b);
    END;
  } db2
} {}
do_test 9.2 {
  set changeset [changeset_from_sql { INSERT INTO t1 VALUES('x', 1) }]
  sqlite3changeset_apply db2 $changeset xConflict
} {}
do_test 9.3 {
  execsql { SELECT * FROM t1 } db2
} {x 2}

#-------------------------------------------------------------------------
#
test_reset
db function enable [list S enable]

do_common_sql {
  CREATE TABLE t1(a PRIMARY KEY, b);
  INSERT INTO t1 VALUES('x', 'X');
}

do_iterator_test 10.1 t1 {
  INSERT INTO t1 VALUES('y', 'Y');
  SELECT enable(0);
  INSERT INTO t1 VALUES('z', 'Z');
  SELECT enable(1);
} {
  {INSERT t1 0 X. {} {t y t Y}}
}

sqlite3session S db main
do_execsql_test 10.2 {
  SELECT enable(0);
  SELECT enable(-1);
  SELECT enable(1);
  SELECT enable(-1);
} {0 0 1 1}
S delete

finish_test

Added ext/session/session3.test.







































































































































































































































































































































































































































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# 2011 March 24
#
# The author disclaims copyright to this source code.  In place of
# a legal notice, here is a blessing:
#
#    May you do good and not evil.
#    May you find forgiveness for yourself and forgive others.
#    May you share freely, never taking more than you give.
#
#***********************************************************************
# This file implements regression tests for the session module. More
# specifically, it focuses on testing the session modules response to
# database schema modifications and mismatches.
# 

if {![info exists testdir]} {
  set testdir [file join [file dirname [info script]] .. .. test]
} 
source [file join [file dirname [info script]] session_common.tcl]
source $testdir/tester.tcl
ifcapable !session {finish_test; return}

set testprefix session3

#-------------------------------------------------------------------------
# These tests - session3-1.* - verify that the session module behaves
# correctly when confronted with a schema mismatch when applying a 
# changeset (in function sqlite3changeset_apply()).
#
#   session3-1.1.*: Table does not exist in target db.
#   session3-1.2.*: Table has wrong number of columns in target db.
#   session3-1.3.*: Table has wrong PK columns in target db.
#
db close
sqlite3_shutdown
test_sqlite3_log log
sqlite3 db test.db

proc log {code msg} { lappend ::log $code $msg }

forcedelete test.db2
sqlite3 db2 test.db2

do_execsql_test 1.0 {
  CREATE TABLE t1(a PRIMARY KEY, b);
}
do_test 1.1 {
  set ::log {}
  do_then_apply_sql {
    INSERT INTO t1 VALUES(1, 2);
    INSERT INTO t1 VALUES(3, 4);
  }
  set ::log
} {SQLITE_SCHEMA {sqlite3changeset_apply(): no such table: t1}}

do_test 1.2.0 {
  execsql { CREATE TABLE t1(a PRIMARY KEY, b, c) } db2
} {}
do_test 1.2.1 {
  set ::log {}
  do_then_apply_sql {
    INSERT INTO t1 VALUES(5, 6);
    INSERT INTO t1 VALUES(7, 8);
  }
  set ::log
} {SQLITE_SCHEMA {sqlite3changeset_apply(): table t1 has 3 columns, expected 2}}

do_test 1.3.0 {
  execsql { 
    DROP TABLE t1;
    CREATE TABLE t1(a, b PRIMARY KEY);
  } db2
} {}
do_test 1.3.1 {
  set ::log {}
  do_then_apply_sql {
    INSERT INTO t1 VALUES(9, 10);
    INSERT INTO t1 VALUES(11, 12);
  }
  set ::log
} {SQLITE_SCHEMA {sqlite3changeset_apply(): primary key mismatch for table t1}}

#-------------------------------------------------------------------------
# These tests - session3-2.* - verify that the session module behaves
# correctly when the schema of an attached table is modified during the
# session.
#
#   session3-2.1.*: Table is dropped midway through the session.
#   session3-2.2.*: Table is dropped and recreated with a different # cols.
#   session3-2.3.*: Table is dropped and recreated with a different PK.
#
# In all of these scenarios, the call to sqlite3session_changeset() will
# return SQLITE_SCHEMA. Also:
#   
#   session3-2.4.*: Table is dropped and recreated with an identical schema.
#                   In this case sqlite3session_changeset() returns SQLITE_OK.
#

do_test 2.1 {
  execsql { CREATE TABLE t2(a, b PRIMARY KEY) }
  sqlite3session S db main
  S attach t2
  execsql {
    INSERT INTO t2 VALUES(1, 2);
    DROP TABLE t2;
  }
  list [catch { S changeset } msg] $msg
} {1 SQLITE_SCHEMA}

do_test 2.2.1 {
  S delete
  sqlite3session S db main
  execsql { CREATE TABLE t2(a, b PRIMARY KEY, c) }
  S attach t2
  execsql {
    INSERT INTO t2 VALUES(1, 2, 3);
    DROP TABLE t2;
    CREATE TABLE t2(a, b PRIMARY KEY);
  }
  list [catch { S changeset } msg] $msg
} {1 SQLITE_SCHEMA}
do_test 2.2.2 {
  S delete
  sqlite3session S db main
  execsql { 
    DROP TABLE t2;
    CREATE TABLE t2(a, b PRIMARY KEY, c);
  }
  S attach t2
  execsql {
    INSERT INTO t2 VALUES(1, 2, 3);
    DROP TABLE t2;
    CREATE TABLE t2(a, b PRIMARY KEY, c, d);
  }
  list [catch { S changeset } msg] $msg
} {1 SQLITE_SCHEMA}
do_test 2.2.3 {
  S delete
  sqlite3session S db main
  execsql { 
    DROP TABLE t2;
    CREATE TABLE t2(a, b PRIMARY KEY, c);
  }
  S attach t2
  execsql {
    INSERT INTO t2 VALUES(1, 2, 3);
    DROP TABLE t2;
    CREATE TABLE t2(a, b PRIMARY KEY);
    INSERT INTO t2 VALUES(4, 5);
  }
  list [catch { S changeset } msg] $msg
} {1 SQLITE_SCHEMA}
do_test 2.2.4 {
  S delete
  sqlite3session S db main
  execsql { 
    DROP TABLE t2;
    CREATE TABLE t2(a, b PRIMARY KEY, c);
  }
  S attach t2
  execsql {
    INSERT INTO t2 VALUES(1, 2, 3);
    DROP TABLE t2;
    CREATE TABLE t2(a, b PRIMARY KEY, c, d);
    INSERT INTO t2 VALUES(4, 5, 6, 7);
  }
  list [catch { S changeset } msg] $msg
} {1 SQLITE_SCHEMA}

do_test 2.3 {
  S delete
  sqlite3session S db main
  execsql { 
    DROP TABLE t2;
    CREATE TABLE t2(a, b PRIMARY KEY);
  }
  S attach t2
  execsql {
    INSERT INTO t2 VALUES(1, 2);
    DROP TABLE t2;
    CREATE TABLE t2(a PRIMARY KEY, b);
  }
  list [catch { S changeset } msg] $msg
} {1 SQLITE_SCHEMA}

do_test 2.4 {
  S delete
  sqlite3session S db main
  execsql { 
    DROP TABLE t2;
    CREATE TABLE t2(a, b PRIMARY KEY);
  }
  S attach t2
  execsql {
    INSERT INTO t2 VALUES(1, 2);
    DROP TABLE t2;
    CREATE TABLE t2(a, b PRIMARY KEY);
  }
  list [catch { S changeset } msg] $msg
} {0 {}}

S delete


catch { db close }
catch { db2 close }
sqlite3_shutdown
test_sqlite3_log
sqlite3_initialize

finish_test

Added ext/session/session4.test.









































































































































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# 2011 March 25
#
# The author disclaims copyright to this source code.  In place of
# a legal notice, here is a blessing:
#
#    May you do good and not evil.
#    May you find forgiveness for yourself and forgive others.
#    May you share freely, never taking more than you give.
#
#***********************************************************************
# This file implements regression tests for the session module. 
# 

if {![info exists testdir]} {
  set testdir [file join [file dirname [info script]] .. .. test]
} 
source [file join [file dirname [info script]] session_common.tcl]
source $testdir/tester.tcl
ifcapable !session {finish_test; return}

set testprefix session4

do_test 1.0 {
  execsql {
    CREATE TABLE x(a, b, c, d, e, PRIMARY KEY(c, e));
    INSERT INTO x VALUES(65.21, X'28B0', 16.35, NULL, 'doers');
    INSERT INTO x VALUES(NULL, 78.49, 2, X'60', -66);
    INSERT INTO x VALUES('cathedral', NULL, 35, NULL, X'B220937E80A2D8');
    INSERT INTO x VALUES(NULL, 'masking', -91.37, NULL, X'596D');
    INSERT INTO x VALUES(19, 'domains', 'espouse', -94, 'throw');
  }

  sqlite3session S db main
  set changeset [changeset_from_sql {
    DELETE FROM x WHERE e = -66;
    UPDATE x SET a = 'parameterizable', b = 31.8 WHERE c = 35;
    INSERT INTO x VALUES(-75.61, -17, 16.85, NULL, X'D73DB02678');
  }]
  set {} {}
} {}


# This currently causes crashes. sqlite3changeset_invert() does not handle
# corrupt changesets well.
if 0 {
  do_test 1.1 {
    for {set i 0} {$i < [string length $changeset]} {incr i} {
      set before [string range $changeset 0 [expr $i-1]]
      set after  [string range $changeset [expr $i+1] end]
      for {set j 10} {$j < 260} {incr j} {
        set x [binary format "a*ca*" $before $j $after]
        catch { sqlite3changeset_invert $x }
      }
    }
  } {}
}

do_test 1.2 {
  set x [binary format "ca*" 0 [string range $changeset 1 end]]
  list [catch { sqlite3changeset_invert $x } msg] $msg
} {1 SQLITE_CORRUPT}

do_test 1.3 {
  set x [binary format "ca*" 0 [string range $changeset 1 end]]
  list [catch { sqlite3changeset_apply db $x xConflict } msg] $msg
} {1 SQLITE_CORRUPT}

finish_test

Added ext/session/session5.test.

















































































































































































































































































































































































































































































































































































































































































































































































































































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# 2011 April 13
#
# The author disclaims copyright to this source code.  In place of
# a legal notice, here is a blessing:
#
#    May you do good and not evil.
#    May you find forgiveness for yourself and forgive others.
#    May you share freely, never taking more than you give.
#
#***********************************************************************
# This file implements regression tests for the session module. 
# Specifically, for the sqlite3changeset_concat() command.
# 

if {![info exists testdir]} {
  set testdir [file join [file dirname [info script]] .. .. test]
} 
source [file join [file dirname [info script]] session_common.tcl]
source $testdir/tester.tcl
ifcapable !session {finish_test; return}

set testprefix session5

# Organization of tests:
#
#   session5-1.*: Simple tests to check the concat() function produces 
#                 correct results.
#
#   session5-2.*: More complicated tests.
#   
#   session5-3.*: Schema mismatch errors.
#
#   session5-4.*: Test the concat cases that indicate that the database
#                 was modified in between recording of the two changesets
#                 being concatenated (i.e. two changesets that INSERT rows
#                 with the same PK values).
#

proc do_concat_test {tn args} {

  set subtest 0
  foreach sql $args {
    incr subtest
    sqlite3session S db main ; S attach *
    execsql $sql

    set c [S changeset]
    if {[info commands s_prev] != ""} {
      set c_concat [sqlite3changeset_concat $c_prev $c]
      set c_two [s_prev changeset]
      s_prev delete

      set h_concat [changeset_to_list $c_concat]
      set h_two [changeset_to_list $c_two]

      do_test $tn.$subtest [list set {} $h_concat] $h_two
    }
    set c_prev $c
    rename S s_prev
  }

  catch { s_prev delete }
}

#-------------------------------------------------------------------------
# Test cases session5-1.* - simple tests.
#
do_execsql_test 1.0 {
  CREATE TABLE t1(a PRIMARY KEY, b);
}

do_concat_test 1.1.1 {
  INSERT INTO t1 VALUES(1, 'one');
} {
  INSERT INTO t1 VALUES(2, 'two');
}

do_concat_test 1.1.2 {
  UPDATE t1 SET b = 'five' WHERE a = 1;
} {
  UPDATE t1 SET b = 'six' WHERE a = 2;
}

do_concat_test 1.1.3 {
  DELETE FROM t1 WHERE a = 1;
} {
  DELETE FROM t1 WHERE a = 2;
}


# 1.2.1:    INSERT + DELETE                     -> (none)
# 1.2.2:    INSERT + UPDATE                     -> INSERT
#
# 1.2.3:    DELETE + INSERT (matching data)     -> (none)
# 1.2.4:    DELETE + INSERT (non-matching data) -> UPDATE
#
# 1.2.5:    UPDATE + UPDATE (matching data)     -> (none)
# 1.2.6:    UPDATE + UPDATE (non-matching data) -> UPDATE
# 1.2.7:    UPDATE + DELETE                     -> DELETE
#
do_concat_test 1.2.1 {
  INSERT INTO t1 VALUES('x', 'y');
} {
  DELETE FROM t1 WHERE a = 'x';
}
do_concat_test 1.2.2 {
  INSERT INTO t1 VALUES(5.0, 'five');
} {
  UPDATE t1 SET b = 'six' WHERE a = 5.0;
}

do_execsql_test 1.2.3.1 "INSERT INTO t1 VALUES('I', 'one')"
do_concat_test 1.2.3.2 {
  DELETE FROM t1 WHERE a = 'I';
} {
  INSERT INTO t1 VALUES('I', 'one');
}
do_concat_test 1.2.4 {
  DELETE FROM t1 WHERE a = 'I';
} {
  INSERT INTO t1 VALUES('I', 'two');
}
do_concat_test 1.2.5 {
  UPDATE t1 SET b = 'five' WHERE a = 'I';
} {
  UPDATE t1 SET b = 'two' WHERE a = 'I';
}
do_concat_test 1.2.6 {
  UPDATE t1 SET b = 'six' WHERE a = 'I';
} {
  UPDATE t1 SET b = 'seven' WHERE a = 'I';
}
do_concat_test 1.2.7 {
  UPDATE t1 SET b = 'eight' WHERE a = 'I';
} {
  DELETE FROM t1 WHERE a = 'I';
}


#-------------------------------------------------------------------------
# Test cases session5-2.* - more complex tests.
#
db function indirect indirect 
proc indirect {{x -1}} {
  S indirect $x
  s_prev indirect $x
}
do_concat_test 2.1 {
  CREATE TABLE abc(a, b, c PRIMARY KEY);
  INSERT INTO abc VALUES(NULL, NULL, 1);
  INSERT INTO abc VALUES('abcdefghijkl', NULL, 2);
} {
  DELETE FROM abc WHERE c = 1;
  UPDATE abc SET c = 1 WHERE c = 2;
} {
  INSERT INTO abc VALUES('abcdefghijkl', NULL, 2);
  INSERT INTO abc VALUES(1.0, 2.0, 3);
} {
  UPDATE abc SET a = a-1;
} {
  CREATE TABLE def(d, e, f, PRIMARY KEY(e, f));
  INSERT INTO def VALUES('x', randomblob(11000), 67);
  INSERT INTO def SELECT d, e, f+1 FROM def;
  INSERT INTO def SELECT d, e, f+2 FROM def;
  INSERT INTO def SELECT d, e, f+4 FROM def;
} {
  DELETE FROM def WHERE rowid>4;
} { 
  INSERT INTO def SELECT d, e, f+4 FROM def; 
} {
  INSERT INTO abc VALUES(22, 44, -1);
} { 
  UPDATE abc SET c=-2 WHERE c=-1;
  UPDATE abc SET c=-3 WHERE c=-2;
} {
  UPDATE abc SET c=-4 WHERE c=-3;
} {
  UPDATE abc SET a=a+1 WHERE c=-3;
  UPDATE abc SET a=a+1 WHERE c=-3;
} {
  UPDATE abc SET a=a+1 WHERE c=-3;
  UPDATE abc SET a=a+1 WHERE c=-3;
} {
  INSERT INTO abc VALUES('one', 'two', 'three');
} {
  SELECT indirect(1);
  UPDATE abc SET a='one point five' WHERE c = 'three';
} {
  SELECT indirect(0);
  UPDATE abc SET a='one point six' WHERE c = 'three';
} {
  CREATE TABLE x1(a, b, PRIMARY KEY(a));
  SELECT indirect(1);
  INSERT INTO x1 VALUES(1, 2);
} {
  SELECT indirect(1);
  UPDATE x1 SET b = 3 WHERE a = 1;
}

catch {db close}
forcedelete test.db
sqlite3 db test.db
do_concat_test 2.2 {
  CREATE TABLE t1(a, b, PRIMARY KEY(b));
  CREATE TABLE t2(a PRIMARY KEY, b);
  INSERT INTO t1 VALUES('string', 1);
  INSERT INTO t1 VALUES(4, 2);
  INSERT INTO t1 VALUES(X'FFAAFFAAFFAA', 3);
} {
  INSERT INTO t2 VALUES('one', 'two');
  INSERT INTO t2 VALUES(1, NULL);
  UPDATE t1 SET a = 5 WHERE a = 2;
} {
  DELETE FROM t2 WHERE a = 1;
  UPDATE t1 SET a = 4 WHERE a = 2;
  INSERT INTO t2 VALUES('x', 'y');
}

do_test 2.3.0 {
  catch {db close}
  forcedelete test.db
  sqlite3 db test.db
 
  set sql1 ""
  set sql2 ""
  for {set i 1} {$i < 120} {incr i} {
    append sql1 "INSERT INTO x1 VALUES($i*4, $i);"
  }
  for {set i 1} {$i < 120} {incr i} {
    append sql2 "DELETE FROM x1 WHERE a = $i*4;"
  }
  set {} {}
} {}
do_concat_test 2.3 {
  CREATE TABLE x1(a PRIMARY KEY, b)
} $sql1 $sql2 $sql1 $sql2

do_concat_test 2.4 {
  CREATE TABLE x2(a PRIMARY KEY, b);
  CREATE TABLE x3(a PRIMARY KEY, b);

  INSERT INTO x2 VALUES('a', 'b');
  INSERT INTO x2 VALUES('x', 'y');
  INSERT INTO x3 VALUES('a', 'b');
} {
  INSERT INTO x2 VALUES('c', 'd');
  INSERT INTO x3 VALUES('e', 'f');
  INSERT INTO x3 VALUES('x', 'y');
}

do_concat_test 2.5 {
  UPDATE x3 SET b = 'Y' WHERE a = 'x'
} {
  DELETE FROM x3 WHERE a = 'x'
} {
  DELETE FROM x2 WHERE a = 'a'
} {
  INSERT INTO x2 VALUES('a', 'B');
}

for {set k 1} {$k <=10} {incr k} {
  do_test 2.6.$k.1 {
    drop_all_tables
    set sql1 ""
    set sql2 ""
    for {set i 1} {$i < 120} {incr i} {
      append sql1 "INSERT INTO x1 VALUES(randomblob(20+(random()%10)), $i);"
    }
    for {set i 1} {$i < 120} {incr i} {
      append sql2 "DELETE FROM x1 WHERE rowid = $i;"
    }
    set {} {}
  } {}
  do_concat_test 2.6.$k {
    CREATE TABLE x1(a PRIMARY KEY, b)
  } $sql1 $sql2 $sql1 $sql2
}

for {set k 1} {$k <=10} {incr k} {
  do_test 2.7.$k.1 {
    drop_all_tables
    set sql1 ""
    set sql2 ""
    for {set i 1} {$i < 120} {incr i} {
      append sql1 {
        INSERT INTO x1 VALUES(
         CASE WHEN random()%2 THEN random() ELSE randomblob(20+random()%10) END,
         CASE WHEN random()%2 THEN random() ELSE randomblob(20+random()%10) END
        );
      }
    }
    for {set i 1} {$i < 120} {incr i} {
      append sql2 "DELETE FROM x1 WHERE rowid = $i;"
    }
    set {} {}
  } {}
  do_concat_test 2.7.$k {
    CREATE TABLE x1(a PRIMARY KEY, b)
  } $sql1 $sql2 $sql1 $sql2
}


#-------------------------------------------------------------------------
# Test that schema incompatibilities are detected correctly.
#
#   session5-3.1: Incompatible number of columns.
#   session5-3.2: Incompatible PK definition.
#

do_test 3.1 {
  db close
  forcedelete test.db
  sqlite3 db test.db

  execsql { CREATE TABLE t1(a PRIMARY KEY, b) }
  set c1 [changeset_from_sql { INSERT INTO t1 VALUES(1, 2) }]
  execsql { 
    DROP TABLE t1;
    CREATE TABLE t1(a PRIMARY KEY, b, c);
  }
  set c2 [changeset_from_sql { INSERT INTO t1 VALUES(2, 3, 4) }]

  list [catch { sqlite3changeset_concat $c1 $c2 } msg] $msg
} {1 SQLITE_SCHEMA}

do_test 3.2 {
  db close
  forcedelete test.db
  sqlite3 db test.db

  execsql { CREATE TABLE t1(a PRIMARY KEY, b) }
  set c1 [changeset_from_sql { INSERT INTO t1 VALUES(1, 2) }]
  execsql { 
    DROP TABLE t1;
    CREATE TABLE t1(a, b PRIMARY KEY);
  }
  set c2 [changeset_from_sql { INSERT INTO t1 VALUES(2, 3) }]

  list [catch { sqlite3changeset_concat $c1 $c2 } msg] $msg
} {1 SQLITE_SCHEMA}

#-------------------------------------------------------------------------
# Test that concat() handles these properly:
#
#   session5-4.1: INSERT + INSERT
#   session5-4.2: UPDATE + INSERT
#   session5-4.3: DELETE + UPDATE
#   session5-4.4: DELETE + DELETE
#

proc do_concat_test2 {tn sql1 sqlX sql2 expected} {
  sqlite3session S db main ; S attach *
  execsql $sql1
  set ::c1 [S changeset]
  S delete

  execsql $sqlX

  sqlite3session S db main ; S attach *
  execsql $sql2
  set ::c2 [S changeset]
  S delete

  uplevel do_test $tn [list {
    changeset_to_list [sqlite3changeset_concat $::c1 $::c2]
  }] [list [normalize_list $expected]]
}

drop_all_tables db
do_concat_test2 4.1 {
  CREATE TABLE t1(a PRIMARY KEY, b);
  INSERT INTO t1 VALUES('key', 'value');
} {
  DELETE FROM t1 WHERE a = 'key';
} {
  INSERT INTO t1 VALUES('key', 'xxx');
} {
  {INSERT t1 0 X. {} {t key t value}}
}
do_concat_test2 4.2 {
  UPDATE t1 SET b = 'yyy';
} {
  DELETE FROM t1 WHERE a = 'key';
} {
  INSERT INTO t1 VALUES('key', 'value');
} {
  {UPDATE t1 0 X. {t key t xxx} {{} {} t yyy}}
}
do_concat_test2 4.3 {
  DELETE FROM t1 WHERE a = 'key';
} {
  INSERT INTO t1 VALUES('key', 'www');
} {
  UPDATE t1 SET b = 'valueX' WHERE a = 'key';
} {
  {DELETE t1 0 X. {t key t value} {}}
}
do_concat_test2 4.4 {
  DELETE FROM t1 WHERE a = 'key';
} {
  INSERT INTO t1 VALUES('key', 'ttt');
} {
  DELETE FROM t1 WHERE a = 'key';
} {
  {DELETE t1 0 X. {t key t valueX} {}}
}

finish_test

Added ext/session/session6.test.





















































































































































































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# 2011 July 11
#
# The author disclaims copyright to this source code.  In place of
# a legal notice, here is a blessing:
#
#    May you do good and not evil.
#    May you find forgiveness for yourself and forgive others.
#    May you share freely, never taking more than you give.
#
#***********************************************************************
# This file implements regression tests for SQLite sessions extension.
# Specifically, it tests that sessions work when the database is modified
# using incremental blob handles.
#

if {![info exists testdir]} {
  set testdir [file join [file dirname [info script]] .. .. test]
} 
source [file join [file dirname [info script]] session_common.tcl]
source $testdir/tester.tcl
ifcapable !session {finish_test; return}

set testprefix session6

proc do_then_apply_tcl {tcl {dbname main}} {
  proc xConflict args { return "OMIT" }
  set rc [catch {
    sqlite3session S db $dbname
    db eval "SELECT name FROM $dbname.sqlite_master WHERE type = 'table'" {
      S attach $name
    }
    eval $tcl
    sqlite3changeset_apply db2 [S changeset] xConflict
  } msg]

  catch { S delete }
  if {$rc} {error $msg}
}

test_sqlite3_log x
proc x {args} {puts $args}

forcedelete test.db2
sqlite3 db2 test.db2

do_common_sql {
  CREATE TABLE t1(a PRIMARY KEY, b);
  CREATE TABLE t2(c PRIMARY KEY, d);
}

# Test a blob update.
#
do_test 1.1 {
  do_then_apply_tcl {
    db eval { INSERT INTO t1 VALUES(1, 'helloworld') }
    db eval { INSERT INTO t2 VALUES(2, 'onetwothree') }
  }
  compare_db db db2
} {}
do_test 1.2 {
  do_then_apply_tcl {
    set fd [db incrblob t1 b 1]
    puts -nonewline $fd 1234567890
    close $fd
  }
  compare_db db db2
} {}

# Test an attached database.
#
do_test 2.1 {
  forcedelete test.db3
  file copy test.db2 test.db3
  execsql { ATTACH 'test.db3' AS aux; }

  do_then_apply_tcl {
    set fd [db incrblob aux t2 d 1]
    puts -nonewline $fd fourfivesix
    close $fd
  } aux

  sqlite3 db3 test.db3
  compare_db db2 db3
} {}


db3 close
db2 close

finish_test

Added ext/session/session8.test.























































































































































































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# 2011 July 13
#
# The author disclaims copyright to this source code.  In place of
# a legal notice, here is a blessing:
#
#    May you do good and not evil.
#    May you find forgiveness for yourself and forgive others.
#    May you share freely, never taking more than you give.
#
#***********************************************************************
# This file implements regression tests for SQLite library.
#

if {![info exists testdir]} {
  set testdir [file join [file dirname [info script]] .. .. test]
} 
source [file join [file dirname [info script]] session_common.tcl]
source $testdir/tester.tcl
ifcapable !session {finish_test; return}

set testprefix session8

proc noop {args} {}

# Like [dbcksum] in tester.tcl. Except this version is not sensitive
# to changes in the value of implicit IPK columns.
#
proc udbcksum {db dbname} {
  if {$dbname=="temp"} {
    set master sqlite_temp_master
  } else {
    set master $dbname.sqlite_master
  }
  set alltab [$db eval "SELECT name FROM $master WHERE type='table'"]
  set txt [$db eval "SELECT * FROM $master"]\n
  foreach tab $alltab {
    append txt [lsort [$db eval "SELECT * FROM $dbname.$tab"]]\n
  }
  return [md5 $txt]
}

proc do_then_undo {tn sql} {
  set ck1 [udbcksum db main]

  sqlite3session S db main
  S attach *
  db eval $sql

  set ck2 [udbcksum db main]
  
  set invert [sqlite3changeset_invert [S changeset]]
  S delete
  sqlite3changeset_apply db $invert noop

  set ck3 [udbcksum db main]

  set a [expr {$ck1==$ck2}]
  set b [expr {$ck1==$ck3}]
  uplevel [list do_test $tn.1 "set {} $a" 0]
  uplevel [list do_test $tn.2 "set {} $b" 1]
}

do_execsql_test 1.1 {
  CREATE TABLE t1(a PRIMARY KEY, b);
  INSERT INTO t1 VALUES(1, 2);
  INSERT INTO t1 VALUES("abc", "xyz");
}
do_then_undo 1.2 { INSERT INTO t1 VALUES(3, 4); }
do_then_undo 1.3 { DELETE FROM t1 WHERE b=2; }
do_then_undo 1.4 { UPDATE t1 SET b = 3 WHERE a = 1; }

do_execsql_test 2.1 {
  CREATE TABLE t2(a, b PRIMARY KEY);
  INSERT INTO t2 VALUES(1, 2);
  INSERT INTO t2 VALUES('abc', 'xyz');
}
do_then_undo 1.2 { INSERT INTO t2 VALUES(3, 4); }
do_then_undo 1.3 { DELETE FROM t2 WHERE b=2; }
do_then_undo 1.4 { UPDATE t1 SET a = '123' WHERE b = 'xyz'; }

do_execsql_test 3.1 {
  CREATE TABLE t3(a, b, c, d, e, PRIMARY KEY(c, e));
  INSERT INTO t3 VALUES('x', 45, 0.0, 'abcdef', 12);
  INSERT INTO t3 VALUES(45, 0.0, 'abcdef', 12, 'x');
  INSERT INTO t3 VALUES(0.0, 'abcdef', 12, 'x', 45);
}

do_then_undo 3.2 { UPDATE t3 SET b=b||b WHERE e!='x' }
do_then_undo 3.3 { UPDATE t3 SET a = 46 }

finish_test

Added ext/session/session9.test.































































































































































































































































































































































































































































































































































































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# 2013 July 04
#
# The author disclaims copyright to this source code.  In place of
# a legal notice, here is a blessing:
#
#    May you do good and not evil.
#    May you find forgiveness for yourself and forgive others.
#    May you share freely, never taking more than you give.
#
#***********************************************************************
#
# This file tests that the sessions module handles foreign key constraint
# violations when applying changesets as required.
#

if {![info exists testdir]} {
  set testdir [file join [file dirname [info script]] .. .. test]
} 
source [file join [file dirname [info script]] session_common.tcl]
source $testdir/tester.tcl
ifcapable !session {finish_test; return}
set testprefix session9


#--------------------------------------------------------------------
# Basic tests.
#
proc populate_db {} {
  drop_all_tables
  execsql {
    PRAGMA foreign_keys = 1;
    CREATE TABLE p1(a PRIMARY KEY, b);
    CREATE TABLE c1(a PRIMARY KEY, b REFERENCES p1);
    CREATE TABLE c2(a PRIMARY KEY, 
        b REFERENCES p1 DEFERRABLE INITIALLY DEFERRED
    );

    INSERT INTO p1 VALUES(1, 'one');
    INSERT INTO p1 VALUES(2, 'two');
    INSERT INTO p1 VALUES(3, 'three');
    INSERT INTO p1 VALUES(4, 'four');
  }
}

proc capture_changeset {sql} {
  sqlite3session S db main

  foreach t [db eval {SELECT name FROM sqlite_master WHERE type='table'}] {
    S attach $t
  }
  execsql $sql
  set ret [S changeset]
  S delete

  return $ret
}

do_test 1.1 {
  populate_db
  set cc [capture_changeset {
    INSERT INTO c1 VALUES('ii', 2);
    INSERT INTO c2 VALUES('iii', 3);
  }]
  set {} {}
} {}

proc xConflict {args} {
  lappend ::xConflict {*}$args
  return $::conflictret
}

foreach {tn delrow trans conflictargs conflictret} {
  1   2 0 {FOREIGN_KEY 1} OMIT
  2   3 0 {FOREIGN_KEY 1} OMIT
  3   2 1 {FOREIGN_KEY 1} OMIT
  4   3 1 {FOREIGN_KEY 1} OMIT
  5   2 0 {FOREIGN_KEY 1} ABORT
  6   3 0 {FOREIGN_KEY 1} ABORT
  7   2 1 {FOREIGN_KEY 1} ABORT
  8   3 1 {FOREIGN_KEY 1} ABORT
} {

  set A(OMIT)  {0 {}}
  set A(ABORT) {1 SQLITE_CONSTRAINT}
  do_test 1.2.$tn.1 {
    populate_db
    execsql { DELETE FROM p1 WHERE a=($delrow+0) }
    if {$trans} { execsql BEGIN }

    set ::xConflict [list]
    list [catch {sqlite3changeset_apply db $::cc xConflict} msg] $msg
  } $A($conflictret)

  do_test 1.2.$tn.2 { set ::xConflict } $conflictargs

  set A(OMIT)  {1 1}
  set A(ABORT) {0 0}
  do_test 1.2.$tn.3 {
    execsql { SELECT count(*) FROM c1 UNION ALL SELECT count(*) FROM c2 }
  } $A($conflictret)

  do_test 1.2.$tn.4 { expr ![sqlite3_get_autocommit db] } $trans
  do_test 1.2.$tn.5 {
    if { $trans } { execsql COMMIT }
  } {}
}

#--------------------------------------------------------------------
# Test that closing a transaction clears the defer_foreign_keys flag.
#
foreach {tn open noclose close} {
  1 BEGIN {} COMMIT
  2 BEGIN {} ROLLBACK

  3 {SAVEPOINT one} {}                {RELEASE one}
  4 {SAVEPOINT one} {ROLLBACK TO one} {RELEASE one}
} {
  execsql $open
  do_execsql_test 2.$tn.1 { PRAGMA defer_foreign_keys } {0}

  do_execsql_test 2.$tn.2 {
    PRAGMA defer_foreign_keys = 1;
    PRAGMA defer_foreign_keys;
  } {1}

  execsql $noclose
  do_execsql_test 2.$tn.3 { PRAGMA defer_foreign_keys } {1}

  execsql $close
  do_execsql_test 2.$tn.4 { PRAGMA defer_foreign_keys } {0}
}

#--------------------------------------------------------------------
# Test that a cyclic relationship can be inserted and deleted.
#
# This situation does not come up in practice, but testing it serves to 
# show that it does not matter which order parent and child keys 
# are processed in internally when applying a changeset.
#
drop_all_tables

do_execsql_test 3.1 {
  CREATE TABLE t1(a PRIMARY KEY, b);
  CREATE TABLE t2(x PRIMARY KEY, y);
}

# Create changesets as follows:
# 
#   $cc1    - Insert a row into t1.
#   $cc2    - Insert a row into t2.
#   $cc     - Combination of $cc1 and $cc2.
#
#   $ccdel1 - Delete the row from t1.
#   $ccdel2 - Delete the row from t2.
#   $ccdel  - Combination of $cc1 and $cc2.
#
do_test 3.2 {
  set cc1 [capture_changeset {
    INSERT INTO t1 VALUES('one', 'value one');
  }]
  set ccdel1 [capture_changeset { DELETE FROM t1; }]
  set cc2 [capture_changeset {
    INSERT INTO t2 VALUES('value one', 'one');
  }]
  set ccdel2 [capture_changeset { DELETE FROM t2; }]
  set cc [capture_changeset {
    INSERT INTO t1 VALUES('one', 'value one');
    INSERT INTO t2 VALUES('value one', 'one');
  }]
  set ccdel [capture_changeset {
    DELETE FROM t1;
    DELETE FROM t2;
  }]
  set {} {}
} {}

# Now modify the database schema to create a cyclic foreign key dependency
# between tables t1 and t2. This means that although changesets $cc and
# $ccdel can be applied, none of the others may without violating the
# foreign key constraints. 
# 
do_test 3.3 {

  drop_all_tables
  execsql {
    CREATE TABLE t1(a PRIMARY KEY, b REFERENCES t2);
    CREATE TABLE t2(x PRIMARY KEY, y REFERENCES t1);
  }


  proc conflict_handler {args} { return "ABORT" }
  sqlite3changeset_apply db $cc conflict_handler

  execsql {
    SELECT * FROM t1;
    SELECT * FROM t2;
  }
} {one {value one} {value one} one}

do_test 3.3.1 {
  list [catch {sqlite3changeset_apply db $::ccdel1 conflict_handler} msg] $msg
} {1 SQLITE_CONSTRAINT}

do_test 3.3.2 {
  list [catch {sqlite3changeset_apply db $::ccdel2 conflict_handler} msg] $msg
} {1 SQLITE_CONSTRAINT}

do_test 3.3.4.1 {
  list [catch {sqlite3changeset_apply db $::ccdel conflict_handler} msg] $msg
} {0 {}}
do_execsql_test 3.3.4.2 {
  SELECT * FROM t1;
  SELECT * FROM t2;
} {}

do_test 3.5.1 {
  list [catch {sqlite3changeset_apply db $::cc1 conflict_handler} msg] $msg
} {1 SQLITE_CONSTRAINT}
do_test 3.5.2 {
  list [catch {sqlite3changeset_apply db $::cc2 conflict_handler} msg] $msg
} {1 SQLITE_CONSTRAINT}

#--------------------------------------------------------------------
# Test that if a change that affects FK processing is not applied 
# due to a separate constraint, SQLite does not get confused and
# increment FK counters anyway.
#
drop_all_tables
do_execsql_test 4.1 {
  CREATE TABLE p1(x PRIMARY KEY, y);
  CREATE TABLE c1(a PRIMARY KEY, b REFERENCES p1);
  INSERT INTO p1 VALUES(1,1);
}

do_execsql_test 4.2.1 {
  BEGIN;
    PRAGMA defer_foreign_keys = 1;
    INSERT INTO c1 VALUES('x', 'x');
}
do_catchsql_test 4.2.2 { COMMIT } {1 {FOREIGN KEY constraint failed}}
do_catchsql_test 4.2.3 { ROLLBACK } {0 {}}

do_execsql_test 4.3.1 {
  BEGIN;
    PRAGMA defer_foreign_keys = 1;
    INSERT INTO c1 VALUES(1, 1);
}
do_catchsql_test 4.3.2 { 
  INSERT INTO c1 VALUES(1, 'x') 
} {1 {UNIQUE constraint failed: c1.a}}

do_catchsql_test 4.3.3 { COMMIT } {0 {}}
do_catchsql_test 4.3.4 { BEGIN ; COMMIT } {0 {}}

#--------------------------------------------------------------------
# Test that if a DELETE change cannot be applied due to an 
# SQLITE_CONSTRAINT error thrown by a trigger program, things do not
# go awry.

drop_all_tables
reset_db
do_execsql_test 5.1 {
  CREATE TABLE x1(x PRIMARY KEY, y);
  CREATE TABLE x2(x PRIMARY KEY, y);
  INSERT INTO x2 VALUES(1, 1);
  INSERT INTO x1 VALUES(1, 1);
}

set ::cc [changeset_from_sql { DELETE FROM x1; }]

do_execsql_test 5.2 {
  INSERT INTO x1 VALUES(1, 1);
  CREATE TRIGGER tr1 AFTER DELETE ON x1 BEGIN
    INSERT INTO x2 VALUES(old.x, old.y);
  END;
} {}

proc conflict_handler {args} { return "ABORT" }
do_test 5.3 {
  list [catch {sqlite3changeset_apply db $::cc conflict_handler} msg] $msg
} {1 SQLITE_ABORT}

do_execsql_test 5.4 {
  SELECT * FROM X1;
} {1 1}

finish_test

Added ext/session/sessionA.test.





















































































































































































































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# 2013 July 04
#
# The author disclaims copyright to this source code.  In place of
# a legal notice, here is a blessing:
#
#    May you do good and not evil.
#    May you find forgiveness for yourself and forgive others.
#    May you share freely, never taking more than you give.
#
#***********************************************************************
#
# This file tests that filter callbacks work as required.
#

if {![info exists testdir]} {
  set testdir [file join [file dirname [info script]] .. .. test]
} 
source [file join [file dirname [info script]] session_common.tcl]
source $testdir/tester.tcl
ifcapable !session {finish_test; return}
set testprefix sessionA


forcedelete test.db2
sqlite3 db2 test.db2
foreach {tn db} {1 db 2 db2} {
  do_test 1.$tn.1 {
    execsql {
      CREATE TABLE t1(a PRIMARY KEY, b);
      CREATE TABLE t2(a PRIMARY KEY, b);
      CREATE TABLE t3(a PRIMARY KEY, b);
    } $db
  } {}
}

proc tbl_filter {zTbl} {
  return $::table_filter($zTbl)
}

do_test 2.1 {
  set ::table_filter(t1) 1
  set ::table_filter(t2) 0
  set ::table_filter(t3) 1

  sqlite3session S db main
  S table_filter tbl_filter 

  execsql {
    INSERT INTO t1 VALUES('a', 'b');
    INSERT INTO t2 VALUES('c', 'd');
    INSERT INTO t3 VALUES('e', 'f');
  }

  set changeset [S changeset]
  S delete
  sqlite3changeset_apply db2 $changeset xConflict

  execsql {
    SELECT * FROM t1;
    SELECT * FROM t2;
    SELECT * FROM t3;
  } db2
} {a b e f}

#-------------------------------------------------------------------------
# Test that filter callbacks passed to sqlite3changeset_apply() are 
# invoked correctly.
#
reset_db
do_execsql_test 3.1 {
  CREATE TABLE t1(a PRIMARY KEY, b);
  CREATE TABLE t2(x PRIMARY KEY, y);
}

do_test 3.2 {
  execsql BEGIN
  set ::cs [changeset_from_sql { 
    INSERT INTO t1 VALUES(1, 2);
    INSERT INTO t2 VALUES('x', 'y');
  }]
  execsql ROLLBACK
  set {} {}
} {}

proc filter {x y} { 
  return [string equal $x $y] 
}

do_test 3.3 {
  sqlite3changeset_apply db $::cs {} [list filter t1]
  execsql {
    SELECT * FROM t1;
    SELECT * FROM t2;
  }
} {1 2}

do_test 3.4 {
  execsql { DELETE FROM t1 }
  sqlite3changeset_apply db $::cs {} [list filter t2]
  execsql {
    SELECT * FROM t1;
    SELECT * FROM t2;
  }
} {x y}

finish_test

Added ext/session/sessionB.test.

























































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































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# 2014 August 16
#
# The author disclaims copyright to this source code.  In place of
# a legal notice, here is a blessing:
#
#    May you do good and not evil.
#    May you find forgiveness for yourself and forgive others.
#    May you share freely, never taking more than you give.
#
#***********************************************************************
#
# This file implements regression tests for sessions SQLite extension.
# Specifically, this file contains tests for "patchset" changes.
#

if {![info exists testdir]} {
  set testdir [file join [file dirname [info script]] .. .. test]
} 
source [file join [file dirname [info script]] session_common.tcl]
source $testdir/tester.tcl
ifcapable !session {finish_test; return}

set testprefix sessionB

#
# 1.*: Test that the blobs returned by the session_patchset() API are 
#      as expected. Also the sqlite3_changeset_iter functions.
#
# 2.*: Test that patchset blobs are handled by sqlite3changeset_apply().
#
# 3.*: Test that sqlite3changeset_invert() works with patchset blobs. 
#      Correct behaviour is to return SQLITE_CORRUPT.

proc do_sql2patchset_test {tn sql res} {
  sqlite3session S db main
  S attach *
  execsql $sql
  uplevel [list do_patchset_test $tn S $res]
  S delete
}

#-------------------------------------------------------------------------
# Run simple tests of the _patchset() API.
#
do_execsql_test 1.0 {
  CREATE TABLE t1(a, b, c, d, PRIMARY KEY(d, a));
  INSERT INTO t1 VALUES(1, 2, 3, 4);
  INSERT INTO t1 VALUES(5, 6, 7, 8);
  INSERT INTO t1 VALUES(9, 10, 11, 12);
}

do_test 1.1 {
  sqlite3session S db main
  S attach t1
  execsql {
    INSERT INTO t1 VALUES('w', 'x', 'y', 'z');
    DELETE FROM t1 WHERE d=4;
    UPDATE t1 SET c = 14 WHERE a=5;
  }
} {}

do_patchset_test 1.2 S {
  {UPDATE t1 0 X..X {i 5 {} {} {} {} i 8} {{} {} {} {} i 14 {} {}}}
  {INSERT t1 0 X..X {} {t w t x t y t z}}
  {DELETE t1 0 X..X {i 1 {} {} {} {} i 4} {}}
}

do_test 1.3 {
  S delete
} {}

do_sql2patchset_test 1.4 {
  DELETE FROM t1;
} {
  {DELETE t1 0 X..X {i 5 {} {} {} {} i 8} {}}
  {DELETE t1 0 X..X {t w {} {} {} {} t z} {}}
  {DELETE t1 0 X..X {i 9 {} {} {} {} i 12} {}}
}

do_sql2patchset_test 1.5 {
  INSERT INTO t1 VALUES(X'61626364', NULL, NULL, 4.2);
  INSERT INTO t1 VALUES(4.2, NULL, NULL, X'61626364');
} {
  {INSERT t1 0 X..X {} {f 4.2 n {} n {} b abcd}} 
  {INSERT t1 0 X..X {} {b abcd n {} n {} f 4.2}}
}

do_sql2patchset_test 1.6 {
  UPDATE t1 SET b=45 WHERE typeof(a)=='blob';
  UPDATE t1 SET c='zzzz' WHERE typeof(a)!='blob';
} {
  {UPDATE t1 0 X..X {f 4.2 {} {} {} {} b abcd} {{} {} {} {} t zzzz {} {}}}
  {UPDATE t1 0 X..X {b abcd {} {} {} {} f 4.2} {{} {} i 45 {} {} {} {}}}
}

do_sql2patchset_test 1.7 {
  UPDATE t1 SET b='xyz' WHERE typeof(a)=='blob';
  UPDATE t1 SET c='xyz' WHERE typeof(a)!='blob';
  UPDATE t1 SET b=45 WHERE typeof(a)=='blob';
  UPDATE t1 SET c='zzzz' WHERE typeof(a)!='blob';
} {
}

do_sql2patchset_test 1.8 {
  DELETE FROM t1;
} {
  {DELETE t1 0 X..X {f 4.2 {} {} {} {} b abcd} {}} 
  {DELETE t1 0 X..X {b abcd {} {} {} {} f 4.2} {}}
}

#-------------------------------------------------------------------------
# Run simple tests of _apply() with patchset objects.
#
reset_db

proc noop {args} { error $args }
proc exec_rollback_replay {sql} {
  sqlite3session S db main
  S attach *
  execsql BEGIN
  execsql $sql
  set patchset [S patchset]
  S delete
  execsql ROLLBACK
  sqlite3changeset_apply db $patchset noop
}

do_execsql_test 2.0 {
  CREATE TABLE t2(a, b, c, d, PRIMARY KEY(b,c));
  CREATE TABLE t3(w, x, y, z, PRIMARY KEY(w));
}

do_test 2.1 {
  exec_rollback_replay {
    INSERT INTO t2 VALUES(1, 2, 3, 4);
    INSERT INTO t2 VALUES('w', 'x', 'y', 'z');
  }
  execsql { SELECT * FROM t2 }
} {1 2 3 4 w x y z}

do_test 2.2 {
  exec_rollback_replay {
    DELETE FROM t2 WHERE a=1;
    UPDATE t2 SET d = 'a';
  }
  execsql { SELECT * FROM t2 }
} {w x y a}

#-------------------------------------------------------------------------
# sqlite3changeset_invert()
#
reset_db

do_execsql_test 3.1 { CREATE TABLE t1(x PRIMARY KEY, y) }
do_test 3.2 {
  sqlite3session S db main
  S attach *
  execsql { INSERT INTO t1 VALUES(1, 2) }
  set patchset [S patchset]
  S delete
  list [catch { sqlite3changeset_invert $patchset } msg] [set msg]
} {1 SQLITE_CORRUPT}


#-------------------------------------------------------------------------
# sqlite3changeset_concat()
#
reset_db

proc do_patchconcat_test {tn args} {
  set bRevert 0
  if {[lindex $args 0] == "-revert"} {
    set bRevert 1
    set args [lrange $args 1 end]
  }
  set nSql [expr [llength $args]-1]
  set res [lindex $args $nSql]
  set patchlist [list]

  execsql BEGIN
  if {$bRevert} { execsql { SAVEPOINT x } }
  foreach sql [lrange $args 0 end-1] {
    sqlite3session S db main
    S attach *
    execsql $sql
    lappend patchlist [S patchset]
    S delete
    if {$bRevert} { execsql { ROLLBACK TO x } }
  }
  execsql ROLLBACK

  set patch [lindex $patchlist 0]
  foreach p [lrange $patchlist 1 end] {
    set patch [sqlite3changeset_concat $patch $p]
  }

  set x [list]
  sqlite3session_foreach c $patch { lappend x $c }

  uplevel [list do_test $tn [list set {} $x] [list {*}$res]]
}

do_execsql_test 4.1.1 {
  CREATE TABLE t1(x PRIMARY KEY, y, z);
}
do_patchconcat_test 4.1.2 {
  INSERT INTO t1 VALUES(1, 2, 3);
} {
  INSERT INTO t1 VALUES(4, 5, 6);
} {
  {INSERT t1 0 X.. {} {i 1 i 2 i 3}} 
  {INSERT t1 0 X.. {} {i 4 i 5 i 6}}
}

do_execsql_test 4.2.1 {
  INSERT INTO t1 VALUES(1, 2, 3);
  INSERT INTO t1 VALUES(4, 5, 6);
}

do_patchconcat_test 4.2.2 {
  UPDATE t1 SET z = 'abc' WHERE x=1
} {
  UPDATE t1 SET z = 'def' WHERE x=4
} {
  {UPDATE t1 0 X.. {i 1 {} {} {} {}} {{} {} {} {} t abc}} 
  {UPDATE t1 0 X.. {i 4 {} {} {} {}} {{} {} {} {} t def}}
}

do_patchconcat_test 4.2.3 {
  DELETE FROM t1 WHERE x=1;
} {
  DELETE FROM t1 WHERE x=4;
} {
  {DELETE t1 0 X.. {i 1 {} {} {} {}} {}} 
  {DELETE t1 0 X.. {i 4 {} {} {} {}} {}}
}


do_execsql_test 4.3.1 {
  CREATE TABLE t2(a, b, c, d, PRIMARY KEY(c, b));
  INSERT INTO t2 VALUES('.', 1, 1, '.');
  INSERT INTO t2 VALUES('.', 1, 2, '.');
  INSERT INTO t2 VALUES('.', 2, 1, '.');
  INSERT INTO t2 VALUES('.', 2, 2, '.');
}

# INSERT + INSERT 
do_patchconcat_test 4.3.2 -revert {
  INSERT INTO t2 VALUES('a', 'a', 'a', 'a');
} {
  INSERT INTO t2 VALUES('b', 'a', 'a', 'b');
} {
  {INSERT t2 0 .XX. {} {t a t a t a t a}}
}

# INSERT + DELETE 
do_patchconcat_test 4.3.3 {
  INSERT INTO t2 VALUES('a', 'a', 'a', 'a');
} {
  DELETE FROM t2 WHERE c = 'a';
} {
}

# INSERT + UPDATE
do_patchconcat_test 4.3.4 {
  INSERT INTO t2 VALUES('a', 'a', 'a', 'a');
} {
  UPDATE t2 SET d = 'b' WHERE c='a';
} {
  {INSERT t2 0 .XX. {} {t a t a t a t b}}
}

# UPDATE + UPDATE
do_patchconcat_test 4.3.5 {
  UPDATE t2 SET a = 'a' WHERE c=1 AND b=2;
} {
  UPDATE t2 SET d = 'd' WHERE c=1 AND b=2;
} {
  {UPDATE t2 0 .XX. {{} {} i 2 i 1 {} {}} {t a {} {} {} {} t d}}
}

# UPDATE + DELETE
do_patchconcat_test 4.3.6 {
  UPDATE t2 SET a = 'a' WHERE c=1 AND b=2;
} {
  DELETE FROM t2 WHERE c=1 AND b=2;
} {
  {DELETE t2 0 .XX. {{} {} i 2 i 1 {} {}} {}}
}

# DELETE + INSERT
do_patchconcat_test 4.3.7 {
  DELETE FROM t2 WHERE b=1;
} {
  INSERT INTO t2 VALUES('x', 1, 2, '.');
} {
  {DELETE t2 0 .XX. {{} {} i 1 i 1 {} {}} {}} 
  {UPDATE t2 0 .XX. {{} {} i 1 i 2 {} {}} {t x {} {} {} {} t .}}
}

# DELETE + UPDATE
do_patchconcat_test 4.3.8 -revert {
  DELETE FROM t2 WHERE b=1 AND c=2;
} {
  UPDATE t2 SET a=5 WHERE b=1 AND c=2;
} {
  {DELETE t2 0 .XX. {{} {} i 1 i 2 {} {}} {}} 
}

# DELETE + UPDATE
do_patchconcat_test 4.3.9 -revert {
  DELETE FROM t2 WHERE b=1 AND c=2;
} {
  DELETE FROM t2 WHERE b=1;
} {
  {DELETE t2 0 .XX. {{} {} i 1 i 1 {} {}} {}} 
  {DELETE t2 0 .XX. {{} {} i 1 i 2 {} {}} {}} 
}

#-------------------------------------------------------------------------
# More rigorous testing of the _patchset(), _apply and _concat() APIs.
#
# The inputs to each test are a populate database and a list of DML 
# statements. This test determines that the final database is the same
# if:
# 
#   1) the statements are executed directly on the database.
#
#   2) a single patchset is collected while executing the statements and
#      then applied to a copy of the original database file.
#
#   3) individual patchsets are collected for statement while executing
#      them and concatenated together before being applied to a copy of
#      the original database. The concatenation is done in a couple of
#      different ways - linear, pairwise etc.
#
# All tests, as it happens, are run with both changesets and patchsets.
# But the focus is on patchset capabilities.
#

# Return a checksum of the contents of the database file. Implicit IPK
# columns are not included in the checksum - just modifying rowids does
# not change the database checksum.
#
proc databasecksum {db} {
  set alltab [$db eval {SELECT name FROM sqlite_master WHERE type='table'}]
  foreach tab $alltab {
    $db eval "SELECT * FROM $tab LIMIT 1" res { }
    set slist [list]
    foreach col [lsort $res(*)] {
      lappend slist "quote($col)"
    }
    set sql "SELECT [join $slist ,] FROM $tab"
    append txt "[lsort [$db eval $sql]]\n"
  }
  return [md5 $txt]
}

proc do_patchset_test {tn tstcmd lSql} {
  if {$tstcmd != "patchset" && $tstcmd != "changeset"} {
    error "have $tstcmd: must be patchset or changeset"
  }

  foreach fname {test.db2 test.db3 test.db4 test.db5} {
    forcedelete $fname
    forcecopy test.db $fname
  }

  # Execute the SQL statements on [db]. Collect a patchset for each 
  # individual statement, as well as a single patchset for the entire 
  # operation.
  sqlite3session S db main
  S attach *
  foreach sql $lSql { 
    sqlite3session T db main
    T attach *
    db eval $sql 
    lappend lPatch [T $tstcmd]
    T delete
  }
  set patchset [S $tstcmd]
  S delete

  # Calculate a checksum for the final database.
  set cksum [databasecksum db]

  # 1. Apply the single large patchset to test.db2
  sqlite3 db2 test.db2
  sqlite3changeset_apply db2 $patchset noop
  uplevel [list do_test $tn.1 { databasecksum db2 } $cksum ]
  db2 close
  
  # 2. Apply each of the single-statement patchsets to test.db3
  sqlite3 db2 test.db3
  foreach p $lPatch {
    sqlite3changeset_apply db2 $p noop
  }
  uplevel [list do_test $tn.2 { databasecksum db2 } $cksum ]
  db2 close

  # 3. Concatenate all single-statement patchsets into a single large
  #    patchset, then apply it to test.db4.
  #
  sqlite3 db2 test.db4
  set big ""
  foreach p $lPatch {
    set big [sqlite3changeset_concat $big $p]
  }
  sqlite3changeset_apply db2 $big noop
  uplevel [list do_test $tn.3 { databasecksum db2 } $cksum ]
  db2 close

  # 4. Concatenate all single-statement patchsets pairwise into a single
  #    large patchset, then apply it to test.db5. Pairwise concatenation:
  #
  #         a b c d e f g h i j k
  #      -> {a b} {c d} {e f} {g h} {i j} k
  #      -> {a b c d} {e f g h} {i j k}
  #      -> {a b c d e f g h} {i j k}
  #      -> {a b c d e f g h i j k}
  #      -> APPLY!
  #
  sqlite3 db2 test.db5
  set L $lPatch
  while {[llength $L] > 1} {
    set O [list]
    for {set i 0} {$i < [llength $L]} {incr i 2} {
      if {$i==[llength $L]-1} {
        lappend O [lindex $L $i]
      } else {
        set i1 [expr $i+1]
        lappend O [sqlite3changeset_concat [lindex $L $i] [lindex $L $i1]]
      }
    }
    set L $O
  }
  sqlite3changeset_apply db2 [lindex $L 0] noop
  uplevel [list do_test $tn.4 { databasecksum db2 } $cksum ]
  db2 close
}

proc do_patchset_changeset_test {tn initsql args} {
  foreach tstcmd {patchset changeset} {
    reset_db
    execsql $initsql
    set x 0
    foreach sql $args {
      incr x
      set lSql [split $sql ";"]
      uplevel [list do_patchset_test $tn.$tstcmd.$x $tstcmd $lSql]
    }
  }
}

do_patchset_changeset_test 5.1 {
  CREATE TABLE t1(a PRIMARY KEY, b, c);
  INSERT INTO t1 VALUES(1, 2, 3);
} {
  INSERT INTO t1 VALUES(4, 5, 6);
  DELETE FROM t1 WHERE a=1;
} {
  INSERT INTO t1 VALUES(7, 8, 9);
  UPDATE t1 SET c = 5;
  INSERT INTO t1 VALUES(10, 11, 12);
  UPDATE t1 SET c = 6;
  INSERT INTO t1 VALUES(13, 14, 15);
} {
  UPDATE t1 SET c=c+1;
  DELETE FROM t1 WHERE (a%2);
} 

do_patchset_changeset_test 5.2 {
  CREATE TABLE t1(a PRIMARY KEY, b, c);
  CREATE TABLE t2(a, b, c, d, PRIMARY KEY(c, b));
} {
  INSERT INTO t1 VALUES(x'00', 0, 'zero');
  INSERT INTO t1 VALUES(x'01', 1, 'one');
  INSERT INTO t1 VALUES(x'02', 4, 'four');
  INSERT INTO t1 VALUES(x'03', 9, 'nine');
  INSERT INTO t1 VALUES(x'04', 16, 'sixteen');
  INSERT INTO t1 VALUES(x'05', 25, 'twenty-five');
} {
  UPDATE t1 SET a = b WHERE b<=4;
  INSERT INTO t2 SELECT NULL, * FROM t1;
  DELETE FROM t1 WHERE b=25;
} {
  DELETE FROM t2;
  INSERT INTO t2 SELECT NULL, * FROM t1;
  DELETE FROM t1;
  INSERT INTO t1 SELECT b, c, d FROM t2;
  UPDATE t1 SET b = b+1;
  UPDATE t1 SET b = b+1;
  UPDATE t1 SET b = b+1;
}

set initsql { CREATE TABLE t1(a, b, c, PRIMARY KEY(c, b)); }
for {set i 0} {$i < 1000} {incr i} {
  append insert "INSERT INTO t1 VALUES($i, $i, $i);"
  append delete "DELETE FROM t1 WHERE b=$i;"
}
do_patchset_changeset_test 5.3 \
  $initsql $insert $delete     \
  $insert $delete              \
  "$insert $delete"            \
  $delete


finish_test

Added ext/session/sessionC.test.













































































































































































































































































































































































































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# 2014 August 16
#
# The author disclaims copyright to this source code.  In place of
# a legal notice, here is a blessing:
#
#    May you do good and not evil.
#    May you find forgiveness for yourself and forgive others.
#    May you share freely, never taking more than you give.
#
#***********************************************************************
#
#

if {![info exists testdir]} {
  set testdir [file join [file dirname [info script]] .. .. test]
} 
source [file join [file dirname [info script]] session_common.tcl]
source $testdir/tester.tcl
ifcapable !session {finish_test; return}

set testprefix sessionC

#-------------------------------------------------------------------------
# Test the outcome of a DELETE operation made as part of applying a
# changeset failing with SQLITE_CONSTRAINT. This may happen if an
# ON DELETE RESTRICT foreign key action is triggered, or if a trigger
# program raises a constraint somehow.
#
# UPDATE: The above is no longer true, as "PRAGMA defer_foreign_keys"
# now disables "RESTRICT" processing. The test below has been rewritten 
# to use a trigger instead of a foreign key to test this case.
#
do_execsql_test 1.0 {
  PRAGMA foreign_keys = 1;

  CREATE TABLE p(a PRIMARY KEY, b, c);
  CREATE TABLE c(d PRIMARY KEY, e /* REFERENCES p ON DELETE RESTRICT */);

  CREATE TRIGGER restrict_trig BEFORE DELETE ON p BEGIN
    SELECT raise(ABORT, 'error!') FROM c WHERE e=old.a;
  END;

  INSERT INTO p VALUES('one', 1, 1);
  INSERT INTO p VALUES('two', 2, 2);
  INSERT INTO p VALUES('three', 3, 3);

  INSERT INTO c VALUES(1, 'one');
  INSERT INTO c VALUES(3, 'three');
}

do_test 1.1 {
  execsql BEGIN
  set C [changeset_from_sql {
    INSERT INTO c VALUES(4, 'one');
    DELETE FROM p WHERE a='two';
  }]
  execsql ROLLBACK
  execsql {
    INSERT INTO c VALUES(2, 'two');
  }
} {}

do_test 1.2.1 {
  proc xConflict {args} { return "ABORT" }
  catch { sqlite3changeset_apply db $C xConflict } msg
  set msg
} {SQLITE_ABORT}
do_execsql_test 1.2.2 { SELECT * FROM c } {1 one 3 three 2 two}

do_test 1.3.1 {
  proc xConflict {args} { return "OMIT" }
  catch { sqlite3changeset_apply db $C xConflict } msg
  set msg
} {}
do_execsql_test 1.3.2 { SELECT * FROM c } {1 one 3 three 2 two 4 one}
do_execsql_test 1.3.3 { 
  SELECT * FROM p;
} {one 1 1 two 2 2 three 3 3}


#-------------------------------------------------------------------------
# Test that concatenating a changeset with a patchset does not work.
# Any attempt to do so returns SQLITE_ERROR.
#
reset_db
do_execsql_test 2.0 {
  CREATE TABLE x1(t, v PRIMARY KEY);
  INSERT INTO x1 VALUES(12, 55);
  INSERT INTO x1 VALUES(55, 14);
}

do_test 2.1 {
  execsql BEGIN

  sqlite3session S1 db main
  S1 attach *
  execsql {
    UPDATE x1 SET t=13 WHERE v=55;
    INSERT INTO x1 VALUES(99, 123);
  }
  set patchset [S1 patchset]
  S1 delete

  sqlite3session S1 db main
  S1 attach *
  execsql {
    UPDATE x1 SET t=56 WHERE v=14;
    INSERT INTO x1 VALUES(22, 998);
  }
  set changeset [S1 changeset]
  S1 delete

  execsql ROLLBACK
} {}

do_test 2.2 {
  set rc [catch { sqlite3changeset_concat $patchset $changeset } msg]
  list $rc $msg
} {1 SQLITE_ERROR}

do_test 2.3 {
  set rc [catch { sqlite3changeset_concat $changeset $patchset } msg]
  list $rc $msg
} {1 SQLITE_ERROR}

do_test 2.4 {
  set rc [catch { sqlite3changeset_concat {} $patchset } msg]
  list $rc $msg
} [list 0 $patchset]

do_test 2.5 {
  set rc [catch { sqlite3changeset_concat $patchset {} } msg]
  list $rc $msg
} [list 0 $patchset]

do_test 2.6 {
  set rc [catch { sqlite3changeset_concat {} $changeset } msg]
  list $rc $msg
} [list 0 $changeset]

do_test 2.7 {
  set rc [catch { sqlite3changeset_concat $changeset {} } msg]
  list $rc $msg
} [list 0 $changeset]

do_test 2.8 {
  set rc [catch { sqlite3changeset_concat {} {} } msg]
  list $rc $msg
} [list 0 {}]


#-------------------------------------------------------------------------
# Test that the xFilter argument to sqlite3changeset_apply() works.
#
reset_db
do_execsql_test 3.0 {
  CREATE TABLE t1(a PRIMARY KEY, b);
  CREATE TABLE t2(a PRIMARY KEY, b);
  CREATE TABLE t3(a PRIMARY KEY, b);
}
do_test 3.1 {
  execsql BEGIN
  set changeset [changeset_from_sql {
    INSERT INTO t1 VALUES(1, 1);
    INSERT INTO t2 VALUES(2, 2);
    INSERT INTO t3 VALUES(3, 3);
  }]
  execsql ROLLBACK
} {}
do_test 3.2 {
  proc xFilter {zName} {
    if {$zName == "t1"} { return 1 }
    return 0
  }
  sqlite3changeset_apply db $changeset noop xFilter
  execsql {
    SELECT * FROM t1;
    SELECT * FROM t2;
    SELECT * FROM t3;
  }
} {1 1}
do_test 3.3 {
  proc xFilter {zName} {
    if {$zName == "t3"} { return 1 }
    return 0
  }
  sqlite3changeset_apply db $changeset noop xFilter
  execsql {
    SELECT * FROM t1;
    SELECT * FROM t2;
    SELECT * FROM t3;
  }
} {1 1 3 3}



finish_test

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# 2014 August 16
#
# The author disclaims copyright to this source code.  In place of
# a legal notice, here is a blessing:
#
#    May you do good and not evil.
#    May you find forgiveness for yourself and forgive others.
#    May you share freely, never taking more than you give.
#
#***********************************************************************
# This file focuses on the sqlite3session_diff() function.
#

if {![info exists testdir]} {
  set testdir [file join [file dirname [info script]] .. .. test]
} 
source [file join [file dirname [info script]] session_common.tcl]
source $testdir/tester.tcl
ifcapable !session {finish_test; return}

set testprefix sessionD

proc scksum {db dbname} {

  if {$dbname=="temp"} {
    set master sqlite_temp_master
  } else {
    set master $dbname.sqlite_master
  }

  set alltab [$db eval "SELECT name FROM $master WHERE type='table'"]
  set txt [$db eval "SELECT * FROM $master ORDER BY type,name,sql"]
  foreach tab $alltab {
    set cols [list]
    db eval "PRAGMA $dbname.table_info = $tab" x { 
      lappend cols "quote($x(name))" 
    }
    set cols [join $cols ,]
    append txt [db eval "SELECT $cols FROM $tab ORDER BY $cols"]
  }
  return [md5 $txt]
}

proc do_diff_test {tn setup} {
  reset_db
  forcedelete test.db2
  execsql { ATTACH 'test.db2' AS aux }
  execsql $setup

  sqlite3session S db main
  foreach tbl [db eval {SELECT name FROM sqlite_master WHERE type='table'}] {
    S attach $tbl
    S diff aux $tbl
  }

  set C [S changeset]
  S delete

  sqlite3 db2 test.db2
  sqlite3changeset_apply db2 $C ""
  uplevel do_test $tn.1 [list {execsql { PRAGMA integrity_check } db2}] ok
  db2 close

  set cksum [scksum db main]
  uplevel do_test $tn.2 [list {scksum db aux}] [list $cksum]
}

# Ensure that the diff produced by comparing the current contents of [db]
# with itself is empty.
proc do_empty_diff_test {tn} {
  forcedelete test.db2
  forcecopy test.db test.db2

  execsql { ATTACH 'test.db2' AS aux }
  sqlite3session S db main
  foreach tbl [db eval {SELECT name FROM sqlite_master WHERE type='table'}] {
    S attach $tbl
    S diff aux $tbl
  }

  set ::C [S changeset]
  S delete

  uplevel [list do_test $tn {string length $::C} 0]
}


forcedelete test.db2
do_execsql_test 1.0 {
  CREATE TABLE t2(a PRIMARY KEY, b);
  INSERT INTO t2 VALUES(1, 'one');
  INSERT INTO t2 VALUES(2, 'two');

  ATTACH 'test.db2' AS aux;
  CREATE TABLE aux.t2(a PRIMARY KEY, b);
}

do_test 1.1 {
  sqlite3session S db main
  S attach t2
  S diff aux t2
  set C [S changeset]
  S delete
} {}

do_test 1.2 {
  sqlite3 db2 test.db2
  sqlite3changeset_apply db2 $C ""
  db2 close
  db eval { SELECT * FROM aux.t2 }
} {1 one 2 two}

do_diff_test 2.1 {
  CREATE TABLE aux.t1(x, y, PRIMARY KEY(y));
  CREATE TABLE t1(x, y, PRIMARY KEY(y));

  INSERT INTO t1 VALUES(1, 2);
  INSERT INTO t1 VALUES(NULL, 'xyz');
  INSERT INTO t1 VALUES(4.5, 5.5);
}

do_diff_test 2.2 {
  CREATE TABLE aux.t1(x, y, PRIMARY KEY(y));
  CREATE TABLE t1(x, y, PRIMARY KEY(y));

  INSERT INTO aux.t1 VALUES(1, 2);
  INSERT INTO aux.t1 VALUES(NULL, 'xyz');
  INSERT INTO aux.t1 VALUES(4.5, 5.5);
}

do_diff_test 2.3 {
  CREATE TABLE aux.t1(a PRIMARY KEY, b TEXT);
  CREATE TABLE t1(a PRIMARY KEY, b TEXT);

  INSERT INTO aux.t1 VALUES(1, 'one');
  INSERT INTO aux.t1 VALUES(2, 'two');
  INSERT INTO aux.t1 VALUES(3, 'three');

  INSERT INTO t1 VALUES(1, 'I');
  INSERT INTO t1 VALUES(2, 'two');
  INSERT INTO t1 VALUES(3, 'III');
}

do_diff_test 2.4 {
  CREATE TABLE aux.t1(a, b, c, d, PRIMARY KEY(c, b, a));
  CREATE TABLE t1(a, b, c, d, PRIMARY KEY(c, b, a));

  INSERT INTO t1 VALUES('hvkzyipambwdqlvwv','',-458331.50,X'DA51ED5E84');
  INSERT INTO t1 VALUES(X'C5C6B5DD','jjxrath',40917,830244);
  INSERT INTO t1 VALUES(-204877.54,X'1704C253D5F3AFA8',155120.88,NULL);
  INSERT INTO t1 
  VALUES('ckmqmzoeuvxisxqy',X'EB5A5D3A1DD22FD1','tidhjcbvbppdt',-642987.37);
  INSERT INTO t1 VALUES(-851726,-161992,-469943,-159541);
  INSERT INTO t1 VALUES(X'4A6A667F858938',185083,X'7A',NULL);

  INSERT INTO aux.t1 VALUES(415075.74,'auawczkb',X'',X'57B4FAAF2595');
  INSERT INTO aux.t1 VALUES(727637,711560,-181340,'hphuo');
  INSERT INTO aux.t1 
  VALUES(-921322.81,662959,'lvlgwdgxaurr','ajjrzrbhqflsutnymgc');
  INSERT INTO aux.t1 VALUES(-146061,-377892,X'4E','gepvpvvuhszpxabbb');
  INSERT INTO aux.t1 VALUES(-851726,-161992,-469943,-159541);
  INSERT INTO aux.t1 VALUES(X'4A6A667F858938',185083,X'7A',NULL);
  INSERT INTO aux.t1 VALUES(-204877.54,X'1704C253D5F3AFA8',155120.88, 4);
  INSERT INTO aux.t1 
  VALUES('ckmqmzoeuvxisxqy',X'EB5A5D3A1DD22FD1','tidgtsplhjcbvbppdt',-642987.3);
}

reset_db
do_execsql_test 3.0 {
  CREATE TABLE t1(a, b, c, PRIMARY KEY(a));
  INSERT INTO t1 VALUES(1, 2, 3);
  INSERT INTO t1 VALUES(4, 5, 6);
  INSERT INTO t1 VALUES(7, 8, 9);

  CREATE TABLE t2(a, b, c, PRIMARY KEY(a, b));
  INSERT INTO t2 VALUES(1, 2, 3);
  INSERT INTO t2 VALUES(4, 5, 6);
  INSERT INTO t2 VALUES(7, 8, 9);

  CREATE TABLE t3(a, b, c, PRIMARY KEY(a, b, c));
  INSERT INTO t3 VALUES(1, 2, 3);
  INSERT INTO t3 VALUES(4, 5, 6);
  INSERT INTO t3 VALUES(7, 8, 9);
}
do_empty_diff_test 3.1


#-------------------------------------------------------------------------
# Test some error cases:
# 
#   1) schema mismatches between the two dbs, and 
#   2) tables with no primary keys. This is not actually an error, but
#      should not add any changes to the session object.
#
reset_db
forcedelete test.db2
do_execsql_test 4.0 {
  ATTACH 'test.db2' AS ixua;
  CREATE TABLE ixua.t1(a, b, c);
  CREATE TABLE main.t1(a, b, c);
  INSERT INTO main.t1 VALUES(1, 2, 3);

  CREATE TABLE ixua.t2(a PRIMARY KEY, b, c);
  CREATE TABLE main.t2(a PRIMARY KEY, b, x);
}

do_test 4.1.1 {
  sqlite3session S db main
  S attach t1
  list [catch { S diff ixua t1 } msg] $msg
} {0 {}}
do_test 4.1.2 {
  string length [S changeset]
} {0}
S delete

do_test 4.2.2 {
  sqlite3session S db main
  S attach t2
  list [catch { S diff ixua t2 } msg] $msg
} {1 {SQLITE_SCHEMA - table schemas do not match}}
S delete

finish_test

Added ext/session/sessionE.test.











































































































































































































































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# 2015 June 02
#
# The author disclaims copyright to this source code.  In place of
# a legal notice, here is a blessing:
#
#    May you do good and not evil.
#    May you find forgiveness for yourself and forgive others.
#    May you share freely, never taking more than you give.
#
#***********************************************************************
#
# This file implements regression tests for the sessions module.
# Specifically, it tests that operations on tables without primary keys
# are ignored.
#



if {![info exists testdir]} {
  set testdir [file join [file dirname [info script]] .. .. test]
} 
source [file join [file dirname [info script]] session_common.tcl]
source $testdir/tester.tcl
ifcapable !session {finish_test; return}
set testprefix sessionE

#
# Test plan:
#
#    1.*: Test that non-PK tables are not auto-attached.
#    2.*: Test that explicitly attaching a non-PK table is a no-op.
#    3.*: Test that sqlite3session_diff() on a non-PK table is a no-op.
#


#--------------------------------------------------------------------------
reset_db
do_execsql_test 1.0 {
  CREATE TABLE t1(a, b);
  CREATE TABLE t2(a PRIMARY KEY, b);
}
do_test 1.1 {
  sqlite3session S db main
  S attach *
  breakpoint
  execsql {
    INSERT INTO t1 VALUES(1, 2);
    INSERT INTO t2 VALUES(1, 2);
  }
} {}
do_changeset_test 1.2 S {
  {INSERT t2 0 X. {} {i 1 i 2}}
}
S delete

reset_db
do_execsql_test 2.0 {
  CREATE TABLE t1(a, b);
  CREATE TABLE t2(a PRIMARY KEY, b);
}
do_test 2.1 {
  sqlite3session S db main
  S attach t1
  S attach t2
  breakpoint
  execsql {
    INSERT INTO t1 VALUES(3, 4);
    INSERT INTO t2 VALUES(3, 4);
    INSERT INTO t1 VALUES(5, 6);
    INSERT INTO t2 VALUES(5, 6);
  }
} {}
do_changeset_test 2.2 S {
  {INSERT t2 0 X. {} {i 3 i 4}}
  {INSERT t2 0 X. {} {i 5 i 6}}
}
S delete

reset_db
forcedelete test.db2
do_execsql_test 3.0 {
  ATTACH 'test.db2' AS aux;
  CREATE TABLE aux.t1(a, b);
  CREATE TABLE aux.t2(a PRIMARY KEY, b);

  CREATE TABLE t1(a, b);
  CREATE TABLE t2(a PRIMARY KEY, b);

  INSERT INTO t1 VALUES(1, 2);
  INSERT INTO t2 VALUES(3, 4);
}
do_test 3.1 {
  sqlite3session S db main
  S attach t1
  S diff aux t1

  S attach t2
  S diff aux t2
} {}
do_changeset_test 3.2 S {
  {INSERT t2 0 X. {} {i 3 i 4}}
}
do_execsql_test 3.3 {
  INSERT INTO t1 VALUES(5, 6);
  INSERT INTO t2 VALUES(7, 8);
}
do_changeset_test 3.4 S {
  {INSERT t2 0 X. {} {i 3 i 4}}
  {INSERT t2 0 X. {} {i 7 i 8}}
}


S delete

finish_test


Added ext/session/sessionF.test.















































































































































































































































































































































































































































































































































































































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# 2015 June 02
#
# The author disclaims copyright to this source code.  In place of
# a legal notice, here is a blessing:
#
#    May you do good and not evil.
#    May you find forgiveness for yourself and forgive others.
#    May you share freely, never taking more than you give.
#
#***********************************************************************
#
# This file implements regression tests for the sessions module.
# Specifically, it tests that tables appear in the correct order
# within changesets and patchsets.
#



if {![info exists testdir]} {
  set testdir [file join [file dirname [info script]] .. .. test]
} 
source [file join [file dirname [info script]] session_common.tcl]
source $testdir/tester.tcl
ifcapable !session {finish_test; return}
set testprefix sessionF

#
# Test plan:
#
#    1.*: Test that sqlite3session_changeset() and sqlite3session_patchset()
#         output tables in the right order.
#
#    2.*: Test that sqlite3session_invert() does not modify the order of
#         tables within a changeset.
#
#    3.*: Test that sqlite3session_concat outputs tables in the right order.
#

# Create a db schema to use.
#
do_execsql_test 1.0 {
  CREATE TABLE t3(e PRIMARY KEY, f);
  CREATE TABLE t1(a PRIMARY KEY, b);
  CREATE TABLE t2(c PRIMARY KEY, d);
}

#-----------------------------------------------------------------------
# 1.* - changeset() and patchset().
#

foreach {tn setup result} {
  1 {
    S attach *
  } {
    {INSERT t2 0 X. {} {i 2 t two}} 
    {INSERT t1 0 X. {} {i 1 t one}} 
    {INSERT t3 0 X. {} {i 3 t three}}
  }

  2 {
    S attach t1
    S attach *
  } {
    {INSERT t1 0 X. {} {i 1 t one}} 
    {INSERT t2 0 X. {} {i 2 t two}} 
    {INSERT t3 0 X. {} {i 3 t three}}
  }

  3 {
    S attach t3
    S attach t2
    S attach t1
  } {
    {INSERT t3 0 X. {} {i 3 t three}}
    {INSERT t2 0 X. {} {i 2 t two}} 
    {INSERT t1 0 X. {} {i 1 t one}} 
  }
} {
  execsql {
    DELETE FROM t1;
    DELETE FROM t2;
    DELETE FROM t3;
  }
  sqlite3session S db main
  eval $setup

  do_execsql_test 1.$tn.1 {
    INSERT INTO t2 VALUES(2, 'two');
    INSERT INTO t1 VALUES(1, 'one');
    INSERT INTO t3 VALUES(3, 'three');
  }

  do_changeset_test 1.1.$tn.2 S $result
  do_patchset_test  1.1.$tn.3 S $result

  S delete
}

foreach {tn setup result} {
  1 {
    S attach *
  } {
    {INSERT t2 0 X. {} {i 4 t four}} 
    {INSERT t2 0 X. {} {i 5 t five}}
    {INSERT t1 0 X. {} {i 1 t one}} 
    {INSERT t3 0 X. {} {i 6 t six}}
  }

  2 {
    S attach t1
    S attach *
  } {
    {INSERT t1 0 X. {} {i 1 t one}} 
    {INSERT t2 0 X. {} {i 4 t four}} 
    {INSERT t2 0 X. {} {i 5 t five}}
    {INSERT t3 0 X. {} {i 6 t six}}
  }

  3 {
    S attach t3
    S attach t2
    S attach t1
  } {
    {INSERT t3 0 X. {} {i 6 t six}}
    {INSERT t2 0 X. {} {i 4 t four}} 
    {INSERT t2 0 X. {} {i 5 t five}}
    {INSERT t1 0 X. {} {i 1 t one}} 
  }
} {
  execsql {
    DELETE FROM t1;
    DELETE FROM t2;
    DELETE FROM t3;
  }
  sqlite3session S db main
  eval $setup

  do_execsql_test 1.$tn.1 {
    INSERT INTO t2 VALUES(2, 'two');
    INSERT INTO t1 VALUES(1, 'one');
    DELETE FROM t2;
    INSERT INTO t2 VALUES(4, 'four');
    INSERT INTO t2 VALUES(5, 'five');
    INSERT INTO t3 VALUES(6, 'six');
  }

  do_changeset_test 1.2.$tn.2 S $result
  do_patchset_test 1.2.$tn.2 S $result

  S delete
}

#-------------------------------------------------------------------------
# 2.* - invert()
#

foreach {tn setup result} {
  1 {
    S attach *
  } {
    {DELETE t2 0 X. {i 4 t four} {}} 
    {DELETE t2 0 X. {i 5 t five} {}} 
    {DELETE t1 0 X. {i 1 t one} {}}
    {DELETE t3 0 X. {i 6 t six} {}} 
  }

  2 {
    S attach t1
    S attach *
  } {
    {DELETE t1 0 X. {i 1 t one} {}}
    {DELETE t2 0 X. {i 4 t four} {}} 
    {DELETE t2 0 X. {i 5 t five} {}} 
    {DELETE t3 0 X. {i 6 t six} {}} 
  }

  3 {
    S attach t3
    S attach t2
    S attach t1
  } {
    {DELETE t3 0 X. {i 6 t six} {}} 
    {DELETE t2 0 X. {i 4 t four} {}} 
    {DELETE t2 0 X. {i 5 t five} {}} 
    {DELETE t1 0 X. {i 1 t one} {}}
  }
} {
  execsql {
    DELETE FROM t1;
    DELETE FROM t2;
    DELETE FROM t3;
  }
  sqlite3session S db main
  eval $setup

  do_execsql_test 1.$tn.1 {
    INSERT INTO t2 VALUES(2, 'two');
    INSERT INTO t1 VALUES(1, 'one');
    DELETE FROM t2;
    INSERT INTO t2 VALUES(4, 'four');
    INSERT INTO t2 VALUES(5, 'five');
    INSERT INTO t3 VALUES(6, 'six');
  }

  do_changeset_invert_test 2.$tn.2 S $result

  S delete
}

#-------------------------------------------------------------------------
# 3.* - concat()
#
foreach {tn setup1 sql1 setup2 sql2 result} {
  1 {
    S attach *
  } {
    INSERT INTO t1 VALUES(1, 'one');
    INSERT INTO t2 VALUES(2, 'two');
  } {
    S attach t2
    S attach t1
  } {
    INSERT INTO t1 VALUES(3, 'three');
    INSERT INTO t2 VALUES(4, 'four');
  } {
    {INSERT t1 0 X. {} {i 1 t one}} 
    {INSERT t1 0 X. {} {i 3 t three}} 
    {INSERT t2 0 X. {} {i 2 t two}}
    {INSERT t2 0 X. {} {i 4 t four}}
  }

  1 {
    S attach t2
    S attach t1
  } {
    INSERT INTO t1 VALUES(1, 'one');
    INSERT INTO t2 VALUES(2, 'two');
  } {
    S attach *
  } {
    INSERT INTO t1 VALUES(3, 'three');
    INSERT INTO t2 VALUES(4, 'four');
  } {
    {INSERT t2 0 X. {} {i 2 t two}}
    {INSERT t2 0 X. {} {i 4 t four}}
    {INSERT t1 0 X. {} {i 1 t one}} 
    {INSERT t1 0 X. {} {i 3 t three}} 
  }

  1 {
    S attach *
  } {
    INSERT INTO t2 VALUES(2, 'two');
  } {
    S attach *
  } {
    INSERT INTO t1 VALUES(3, 'three');
    INSERT INTO t2 VALUES(4, 'four');
    INSERT INTO t3 VALUES(5, 'five');
  } {
    {INSERT t2 0 X. {} {i 2 t two}}
    {INSERT t2 0 X. {} {i 4 t four}}
    {INSERT t1 0 X. {} {i 3 t three}} 
    {INSERT t3 0 X. {} {i 5 t five}} 
  }

} {
  execsql {
    DELETE FROM t1;
    DELETE FROM t2;
    DELETE FROM t3;
  }
  sqlite3session S db main
  eval $setup1
  execsql $sql1
  set c1 [S changeset]
  S delete

  sqlite3session S db main
  eval $setup2
  execsql $sql2
  set c2 [S changeset]
  S delete

  set res [list]
  sqlite3session_foreach x [sqlite3changeset_concat $c1 $c2] {
    lappend res $x
  }

  do_test 3.$tn { set res } [list {*}$result]
}


finish_test

Added ext/session/sessionG.test.



































































































































































































































































































































































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# 2016 March 30
#
# The author disclaims copyright to this source code.  In place of
# a legal notice, here is a blessing:
#
#    May you do good and not evil.
#    May you find forgiveness for yourself and forgive others.
#    May you share freely, never taking more than you give.
#
#***********************************************************************
#
# This file implements regression tests for the sessions module.
# Specifically, it tests that UNIQUE constraints are dealt with correctly.
#



if {![info exists testdir]} {
  set testdir [file join [file dirname [info script]] .. .. test]
} 
source [file join [file dirname [info script]] session_common.tcl]
source $testdir/tester.tcl
ifcapable !session {finish_test; return}
set testprefix sessionG


forcedelete test.db2
sqlite3 db2 test.db2

do_test 1.0 {
  do_common_sql {
    CREATE TABLE t1(a PRIMARY KEY, b UNIQUE);
    INSERT INTO t1 VALUES(1, 'one');
    INSERT INTO t1 VALUES(2, 'two');
    INSERT INTO t1 VALUES(3, 'three');
  }
  do_then_apply_sql {
    DELETE FROM t1 WHERE a=1;
    INSERT INTO t1 VALUES(4, 'one');
  }
  compare_db db db2
} {}

do_test 1.1 {
  do_then_apply_sql {
    DELETE FROM t1 WHERE a=4;
    INSERT INTO t1 VALUES(1, 'one');
  }
  compare_db db db2
} {}

do_test 1.2 {
  execsql { INSERT INTO t1 VALUES(5, 'five') } db2
  do_then_apply_sql {
    INSERT INTO t1 VALUES(11, 'eleven');
    INSERT INTO t1 VALUES(12, 'five');
  }
  execsql { SELECT * FROM t1 } db2
} {2 two 3 three 1 one 5 five 11 eleven}

do_test 1.3 {
  execsql { SELECT * FROM t1 }
} {2 two 3 three 1 one 11 eleven 12 five}

#-------------------------------------------------------------------------
#
reset_db
db2 close
forcedelete test.db2
sqlite3 db2 test.db2

do_test 2.1 {
  do_common_sql {
    CREATE TABLE t1(a PRIMARY KEY, b UNIQUE, c UNIQUE);
    INSERT INTO t1 VALUES(1, 1, 1);
    INSERT INTO t1 VALUES(2, 2, 2);
    INSERT INTO t1 VALUES(3, 3, 3);
  }
} {}

do_test 2.2.1 {
  # It is not possible to apply the changeset generated by the following
  # SQL, as none of the three updated rows may be updated as part of the
  # first pass.
  do_then_apply_sql {
    UPDATE t1 SET b=0 WHERE a=1;
    UPDATE t1 SET b=1 WHERE a=2;
    UPDATE t1 SET b=2 WHERE a=3;
    UPDATE t1 SET b=3 WHERE a=1;
  }
  db2 eval { SELECT a, b FROM t1 }
} {1 1 2 2 3 3}
do_test 2.2.2 { db eval { SELECT a, b FROM t1 } } {1 3 2 1 3 2}

#-------------------------------------------------------------------------
#
reset_db
db2 close
forcedelete test.db2
sqlite3 db2 test.db2

do_test 3.1 {
  do_common_sql {
    CREATE TABLE t1(a PRIMARY KEY, b UNIQUE, c UNIQUE);
    INSERT INTO t1 VALUES(1, 1, 1);
    INSERT INTO t1 VALUES(2, 2, 2);
    INSERT INTO t1 VALUES(3, 3, 3);
  }
} {}

do_test 3.3 {
  do_then_apply_sql {
    UPDATE t1 SET b=4 WHERE a=3;
    UPDATE t1 SET b=3 WHERE a=2;
    UPDATE t1 SET b=2 WHERE a=1;
  }
  compare_db db db2
} {}

do_test 3.4 {
  do_then_apply_sql {
    UPDATE t1 SET b=1 WHERE a=1;
    UPDATE t1 SET b=2 WHERE a=2;
    UPDATE t1 SET b=3 WHERE a=3;
  }
  compare_db db db2
} {}

#-------------------------------------------------------------------------
#
reset_db
db2 close
forcedelete test.db2
sqlite3 db2 test.db2

do_test 4.1 {
  do_common_sql {
    CREATE TABLE t1(a PRIMARY KEY, b UNIQUE);
    INSERT INTO t1 VALUES(1, 1);
    INSERT INTO t1 VALUES(2, 2);
    INSERT INTO t1 VALUES(3, 3);

    CREATE TABLE t2(a PRIMARY KEY, b UNIQUE);
    INSERT INTO t2 VALUES(1, 1);
    INSERT INTO t2 VALUES(2, 2);
    INSERT INTO t2 VALUES(3, 3);
  }
} {}

do_test 4.2 {
  do_then_apply_sql {
    UPDATE t1 SET b=4 WHERE a=3;
    UPDATE t1 SET b=3 WHERE a=2;
    UPDATE t1 SET b=2 WHERE a=1;

    UPDATE t2 SET b=0 WHERE a=1;
    UPDATE t2 SET b=1 WHERE a=2;
    UPDATE t2 SET b=2 WHERE a=3;
  }
  compare_db db db2
} {}

do_test 4.3 {
  do_then_apply_sql {
    UPDATE t1 SET b=1 WHERE a=1;
    UPDATE t1 SET b=2 WHERE a=2;
    UPDATE t1 SET b=3 WHERE a=3;

    UPDATE t2 SET b=3 WHERE a=3;
    UPDATE t2 SET b=2 WHERE a=2;
    UPDATE t2 SET b=1 WHERE a=1;
  }
  compare_db db db2
} {}

finish_test

Added ext/session/session_common.tcl.















































































































































































































































































































































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proc do_changeset_test {tn session res} {
  set r [list]
  foreach x $res {lappend r $x}
  uplevel do_test $tn [list [subst -nocommands {
    set x [list]
    sqlite3session_foreach c [$session changeset] { lappend x [set c] }
    set x
  }]] [list $r]
}

proc do_patchset_test {tn session res} {
  set r [list]
  foreach x $res {lappend r $x}
  uplevel do_test $tn [list [subst -nocommands {
    set x [list]
    sqlite3session_foreach c [$session patchset] { lappend x [set c] }
    set x
  }]] [list $r]
}


proc do_changeset_invert_test {tn session res} {
  set r [list]
  foreach x $res {lappend r $x}
  uplevel do_test $tn [list [subst -nocommands {
    set x [list]
    set changeset [sqlite3changeset_invert [$session changeset]]
    sqlite3session_foreach c [set changeset] { lappend x [set c] }
    set x
  }]] [list $r]
}


proc do_conflict_test {tn args} {
  proc xConflict {args} { 
    lappend ::xConflict $args
    return "" 
  }
  proc bgerror {args} { set ::background_error $args }


  set O(-tables)    [list]
  set O(-sql)       [list]
  set O(-conflicts) [list]

  array set V $args
  foreach key [array names V] {
    if {![info exists O($key)]} {error "no such option: $key"}
  }
  array set O $args

  sqlite3session S db main
  foreach t $O(-tables) { S attach $t }
  execsql $O(-sql)

  set ::xConflict [list]
  sqlite3changeset_apply db2 [S changeset] xConflict

  set conflicts [list]
  foreach c $O(-conflicts) {
    lappend conflicts $c
  }

  after 1 {set go 1}
  vwait go

  uplevel do_test $tn [list { set ::xConflict }] [list $conflicts]
  S delete
}

proc do_common_sql {sql} {
  execsql $sql db
  execsql $sql db2
}

proc changeset_from_sql {sql {dbname main}} {
  set rc [catch {
    sqlite3session S db $dbname
    db eval "SELECT name FROM $dbname.sqlite_master WHERE type = 'table'" {
      S attach $name
    }
    db eval $sql
    S changeset
  } changeset]
  catch { S delete }

  if {$rc} {
    error $changeset
  }
  return $changeset
}

proc do_then_apply_sql {sql {dbname main}} {
  proc xConflict args { return "OMIT" }
  set rc [catch {
    sqlite3session S db $dbname
    db eval "SELECT name FROM $dbname.sqlite_master WHERE type = 'table'" {
      S attach $name
    }
    db eval $sql
    sqlite3changeset_apply db2 [S changeset] xConflict
  } msg]

  catch { S delete }

  if {$rc} {error $msg}
}

proc do_iterator_test {tn tbl_list sql res} {
  sqlite3session S db main
  if {[llength $tbl_list]==0} { S attach * }
  foreach t $tbl_list {S attach $t}

  execsql $sql

  set r [list]
  foreach v $res { lappend r $v }

  set x [list]
  sqlite3session_foreach c [S changeset] { lappend x $c }
  uplevel do_test $tn [list [list set {} $x]] [list $r]

  S delete
}

# Compare the contents of all tables in [db1] and [db2]. Throw an error if 
# they are not identical, or return an empty string if they are.
#
proc compare_db {db1 db2} {

  set sql {SELECT name FROM sqlite_master WHERE type = 'table' ORDER BY name}
  set lot1 [$db1 eval $sql]
  set lot2 [$db2 eval $sql]

  if {$lot1 != $lot2} { 
    puts $lot1
    puts $lot2
    error "databases contain different tables" 
  }

  foreach tbl $lot1 {
    set col1 [list]
    set col2 [list]

    $db1 eval "PRAGMA table_info = $tbl" { lappend col1 $name }
    $db2 eval "PRAGMA table_info = $tbl" { lappend col2 $name }
    if {$col1 != $col2} { error "table $tbl schema mismatch" }

    set sql "SELECT * FROM $tbl ORDER BY [join $col1 ,]"
    set data1 [$db1 eval $sql]
    set data2 [$db2 eval $sql]
    if {$data1 != $data2} { 
      puts "$data1"
      puts "$data2"
      error "table $tbl data mismatch" 
    }
  }

  return ""
}

proc changeset_to_list {c} {
  set list [list]
  sqlite3session_foreach elem $c { lappend list $elem }
  lsort $list
}

Added ext/session/sessionfault.test.

























































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































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# 2011 Mar 21
#
# The author disclaims copyright to this source code.  In place of
# a legal notice, here is a blessing:
#
#    May you do good and not evil.
#    May you find forgiveness for yourself and forgive others.
#    May you share freely, never taking more than you give.
#
#***********************************************************************
#
# The focus of this file is testing the session module.
#

if {![info exists testdir]} {
  set testdir [file join [file dirname [info script]] .. .. test]
} 
source [file join [file dirname [info script]] session_common.tcl]
source $testdir/tester.tcl

set testprefix sessionfault

forcedelete test.db2
sqlite3 db2 test.db2
do_common_sql {
  CREATE TABLE t1(a, b, c, PRIMARY KEY(a, b));
  INSERT INTO t1 VALUES(1, 2, 3);
  INSERT INTO t1 VALUES(4, 5, 6);
}
faultsim_save_and_close
db2 close

#-------------------------------------------------------------------------
# Test OOM error handling when collecting and applying a simple changeset.
#
# Test 1.1 attaches tables individually by name to the session object. 
# Whereas test 1.2 passes NULL to sqlite3session_attach() to attach all
# tables.
#
do_faultsim_test 1.1 -faults oom-* -prep {
  catch {db2 close}
  catch {db close}
  faultsim_restore_and_reopen
  sqlite3 db2 test.db2
} -body {
  do_then_apply_sql {
    INSERT INTO t1 VALUES('a string value', 8, 9);
    UPDATE t1 SET c = 10 WHERE a = 1;
    DELETE FROM t1 WHERE a = 4;
  }
} -test {
  faultsim_test_result {0 {}} {1 SQLITE_NOMEM}
  faultsim_integrity_check
  if {$testrc==0} { compare_db db db2 }
}

do_faultsim_test 1.2 -faults oom-* -prep {
  catch {db2 close}
  catch {db close}
  faultsim_restore_and_reopen
} -body {
  sqlite3session S db main
  S attach *
  execsql {
    INSERT INTO t1 VALUES('a string value', 8, 9);
    UPDATE t1 SET c = 10 WHERE a = 1;
    DELETE FROM t1 WHERE a = 4;
  }
  set ::changeset [S changeset]
  set {} {}
} -test {
  catch { S delete }
  faultsim_test_result {0 {}} {1 SQLITE_NOMEM}
  faultsim_integrity_check
  if {$testrc==0} { 
    proc xConflict {args} { return "OMIT" }
    sqlite3 db2 test.db2
    sqlite3changeset_apply db2 $::changeset xConflict
    compare_db db db2 
  }
}

#-------------------------------------------------------------------------
# The following block of tests - 2.* - are designed to check 
# the handling of faults in the sqlite3changeset_apply() function.
#
catch {db close}
catch {db2 close}
forcedelete test.db2 test.db
sqlite3 db2 test.db2
sqlite3 db test.db
do_common_sql {
  CREATE TABLE t1(a, b, c, PRIMARY KEY(a, b));
  INSERT INTO t1 VALUES('apple', 'orange', 'pear');

  CREATE TABLE t2(x PRIMARY KEY, y);
}
db2 close
faultsim_save_and_close


foreach {tn conflict_policy sql sql2} {
  1 OMIT { INSERT INTO t1 VALUES('one text', 'two text', X'00ff00') } {}
  2 OMIT { DELETE FROM t1 WHERE a = 'apple' }                         {}
  3 OMIT { UPDATE t1 SET c = 'banana' WHERE b = 'orange' }            {}
  4 REPLACE { INSERT INTO t2 VALUES('keyvalue', 'value 1') } {
    INSERT INTO t2 VALUES('keyvalue', 'value 2');
  }
} {
  proc xConflict args [list return $conflict_policy]

  do_faultsim_test 2.$tn -faults oom-transient -prep {
    catch {db2 close}
    catch {db close}
    faultsim_restore_and_reopen
    set ::changeset [changeset_from_sql $::sql]
    sqlite3 db2 test.db2
    sqlite3_db_config_lookaside db2 0 0 0
    execsql $::sql2 db2
  } -body {
    sqlite3changeset_apply db2 $::changeset xConflict
  } -test {
    faultsim_test_result {0 {}} {1 SQLITE_NOMEM}
    faultsim_integrity_check
    if {$testrc==0} { compare_db db db2 }
  }
}

#-------------------------------------------------------------------------
# This test case is designed so that a malloc() failure occurs while
# resizing the session object hash-table from 256 to 512 buckets. This
# is not an error, just a sub-optimal condition.
#
do_faultsim_test 3 -faults oom-* -prep {
  catch {db2 close}
  catch {db close}
  faultsim_restore_and_reopen
  sqlite3 db2 test.db2

  sqlite3session S db main
  S attach t1
  execsql { BEGIN }
  for {set i 0} {$i < 125} {incr i} {
    execsql {INSERT INTO t1 VALUES(10+$i, 10+$i, 10+$i)}
  }
} -body {
  for {set i 125} {$i < 133} {incr i} {
    execsql {INSERT INTO t1 VALUES(10+$i, 10+$i, 1-+$i)}
  }
  S changeset
  set {} {}
} -test {
  faultsim_test_result {0 {}} {1 SQLITE_NOMEM}
  if {$testrc==0} { 
    sqlite3changeset_apply db2 [S changeset] xConflict
    compare_db db db2 
  }
  catch { S delete }
  faultsim_integrity_check
}

catch { db close }
catch { db2 close }
forcedelete test.db2 test.db
sqlite3 db2 test.db2
sqlite3 db test.db

proc xConflict {op tbl type args} {
  if { $type=="CONFLICT" || $type=="DATA" } {
    return "REPLACE"
  }
  return "OMIT"
}

do_test 4.0 {
  execsql {
    PRAGMA encoding = 'utf16';
    CREATE TABLE t1(a PRIMARY KEY, b);
    INSERT INTO t1 VALUES(5, 32);
  }
  execsql {
    PRAGMA encoding = 'utf16';
    CREATE TABLE t1(a PRIMARY KEY, b NOT NULL);
    INSERT INTO t1 VALUES(1, 2);
    INSERT INTO t1 VALUES(2, 4);
    INSERT INTO t1 VALUES(4, 16);
  } db2
} {}

faultsim_save_and_close
db2 close

do_faultsim_test 4 -faults oom-* -prep {
  catch {db2 close}
  catch {db close}
  faultsim_restore_and_reopen
  sqlite3 db2 test.db2
  sqlite3session S db main
  S attach t1
  execsql {
    INSERT INTO t1 VALUES(1, 45);
    INSERT INTO t1 VALUES(2, 55);
    INSERT INTO t1 VALUES(3, 55);
    UPDATE t1 SET a = 4 WHERE a = 5;
  }
} -body {
  sqlite3changeset_apply db2 [S changeset] xConflict
} -test {
  catch { S delete }
  faultsim_test_result {0 {}} {1 SQLITE_NOMEM}
  if {$testrc==0} { compare_db db db2 }
}

#-------------------------------------------------------------------------
# This block of tests verifies that OOM faults in the 
# sqlite3changeset_invert() function are handled correctly.
#
catch {db close}
catch {db2 close}
forcedelete test.db
sqlite3 db test.db
execsql {
  CREATE TABLE t1(a, b, PRIMARY KEY(b));
  CREATE TABLE t2(a PRIMARY KEY, b);
  INSERT INTO t1 VALUES('string', 1);
  INSERT INTO t1 VALUES(4, 2);
  INSERT INTO t1 VALUES(X'FFAAFFAAFFAA', 3);
}
set changeset [changeset_from_sql {
  INSERT INTO t1 VALUES('xxx', 'yyy');
  DELETE FROM t1 WHERE a = 'string';
  UPDATE t1 SET a = 20 WHERE b = 2;
}]
db close

do_faultsim_test 5.1 -faults oom* -body {
  set ::inverse [sqlite3changeset_invert $::changeset]
  set {} {}
} -test {
  faultsim_test_result {0 {}} {1 SQLITE_NOMEM}
  if {$testrc==0} {
    set x [list]
    sqlite3session_foreach c $::inverse { lappend x $c }
    foreach c {
        {DELETE t1 0 .X {t xxx t yyy} {}} 
        {INSERT t1 0 .X {} {t string i 1}} 
        {UPDATE t1 0 .X {i 20 i 2} {i 4 {} {}}}
    } { lappend y $c }
    if {$x != $y} { error "changeset no good" }
  }
}

catch {db close}
catch {db2 close}
forcedelete test.db
sqlite3 db test.db
execsql {
  CREATE TABLE t2(a PRIMARY KEY, b);
  INSERT INTO t2 VALUES(1, 'abc');
  INSERT INTO t2 VALUES(2, 'def');
}
set changeset [changeset_from_sql {
  UPDATE t2 SET b = (b || b || b || b);
  UPDATE t2 SET b = (b || b || b || b);
  UPDATE t2 SET b = (b || b || b || b);
  UPDATE t2 SET b = (b || b || b || b);
}]
db close
set abc [string repeat abc 256]
set def [string repeat def 256]

do_faultsim_test 5.2 -faults oom-tra* -body {
  set ::inverse [sqlite3changeset_invert $::changeset]
  set {} {}
} -test {
  faultsim_test_result {0 {}} {1 SQLITE_NOMEM}
  if {$testrc==0} {
    set x [list]
    sqlite3session_foreach c $::inverse { lappend x $c }
    foreach c "
        {UPDATE t2 0 X. {i 1 t $::abc} {{} {} t abc}}
        {UPDATE t2 0 X. {i 2 t $::def} {{} {} t def}}
    " { lappend y $c }
    if {$x != $y} { error "changeset no good" }
  }
}

catch {db close}
catch {db2 close}
forcedelete test.db
sqlite3 db test.db
set abc [string repeat abc 256]
set def [string repeat def 256]
execsql "
  CREATE TABLE t2(a PRIMARY KEY, b);
  INSERT INTO t2 VALUES(1, '$abc');
"
set changeset [changeset_from_sql "
  INSERT INTO t2 VALUES(2, '$def');
  DELETE FROM t2 WHERE a = 1;
"]
db close

do_faultsim_test 5.3 -faults oom-tra* -body {
  set ::inverse [sqlite3changeset_invert $::changeset]
  set {} {}
} -test {
  faultsim_test_result {0 {}} {1 SQLITE_NOMEM}
  if {$testrc==0} {
    set x [list]
    sqlite3session_foreach c $::inverse { lappend x $c }
    foreach c "
        {INSERT t2 0 X. {} {i 1 t $::abc}}
        {DELETE t2 0 X. {i 2 t $::def} {}}
    " { lappend y $c }
    if {$x != $y} { error "changeset no good" }
  }
}

#-------------------------------------------------------------------------
# Test that OOM errors in sqlite3changeset_concat() are handled correctly.
#
catch {db close}
forcedelete test.db
sqlite3 db test.db
do_execsql_test 5.prep1 {
  CREATE TABLE t1(a, b, PRIMARY KEY(b));
  CREATE TABLE t2(a PRIMARY KEY, b);
  INSERT INTO t1 VALUES('string', 1);
  INSERT INTO t1 VALUES(4, 2);
  INSERT INTO t1 VALUES(X'FFAAFFAAFFAA', 3);
}

do_test 6.prep2 {
  sqlite3session M db main
  M attach *
  set ::c2 [changeset_from_sql {
    INSERT INTO t2 VALUES(randomblob(1000), randomblob(1000));
    INSERT INTO t2 VALUES('one', 'two');
    INSERT INTO t2 VALUES(1, NULL);
    UPDATE t1 SET a = 5 WHERE a = 2;
  }]
  set ::c1 [changeset_from_sql {
    DELETE FROM t2 WHERE a = 1;
    UPDATE t1 SET a = 4 WHERE a = 2;
    INSERT INTO t2 VALUES('x', 'y');
  }]
  set ::total [changeset_to_list [M changeset]]
  M delete
} {}

do_faultsim_test 6 -faults oom-* -body {
  set ::result [sqlite3changeset_concat $::c1 $::c2]
  set {} {}
} -test {
  faultsim_test_result {0 {}} {1 SQLITE_NOMEM}
  if {$testrc==0} {
    set v [changeset_to_list $::result]
    if {$v != $::total} { error "result no good" }
  }
}

faultsim_delete_and_reopen
do_execsql_test 7.prep1 {
  CREATE TABLE t1(a, b, PRIMARY KEY(a));
}
faultsim_save_and_close

set res [list]
for {set ::i 0} {$::i < 480} {incr ::i 4} {
  lappend res "INSERT t1 0 X. {} {i $::i i $::i}"
}
set res [lsort $res]
do_faultsim_test 7 -faults oom-transient -prep {
  catch { S delete }
  faultsim_restore_and_reopen
  sqlite3session S db main
  S attach *
} -body {
  for {set ::i 0} {$::i < 480} {incr ::i 4} {
    execsql {INSERT INTO t1 VALUES($::i, $::i)}
  }
} -test {
  faultsim_test_result {0 {}} {1 SQLITE_NOMEM}
  if {$testrc==0} {
    set cres [list [catch {changeset_to_list [S changeset]} msg] $msg]
    S delete
    if {$cres != "1 SQLITE_NOMEM" && $cres != "0 {$::res}"} {
      error "Expected {0 $::res} Got {$cres}"
    }
  } else {
    catch { S changeset }
    catch { S delete }
  }
}

faultsim_delete_and_reopen
do_test 8.prep {
  sqlite3session S db main
  S attach *
  execsql { 
    CREATE TABLE t1(a, b, PRIMARY KEY(a)); 
    INSERT INTO t1 VALUES(1, 2);
    INSERT INTO t1 VALUES(3, 4);
    INSERT INTO t1 VALUES(5, 6);
  }
  set ::changeset [S changeset]
  S delete
} {}

set expected [normalize_list {
  {INSERT t1 0 X. {} {i 1 i 2}} 
  {INSERT t1 0 X. {} {i 3 i 4}} 
  {INSERT t1 0 X. {} {i 5 i 6}}
}]
do_faultsim_test 8.1 -faults oom* -body {
  set ::res [list]
  sqlite3session_foreach -next v $::changeset { lappend ::res $v }
  normalize_list $::res
} -test {
  faultsim_test_result [list 0 $::expected] {1 SQLITE_NOMEM}
}
do_faultsim_test 8.2 -faults oom* -body {
  set ::res [list]
  sqlite3session_foreach v $::changeset { lappend ::res $v }
  normalize_list $::res
} -test {
  faultsim_test_result [list 0 $::expected] {1 SQLITE_NOMEM}
}

faultsim_delete_and_reopen
do_test 9.1.prep {
  execsql { 
    PRAGMA encoding = 'utf16';
    CREATE TABLE t1(a PRIMARY KEY, b);
  }
} {}
faultsim_save_and_close

set answers [list {0 {}} {1 SQLITE_NOMEM} \
                  {1 {callback requested query abort}} \
                  {1 {abort due to ROLLBACK}}]
do_faultsim_test 9.1 -faults oom-transient -prep {
  catch { unset ::c }
  faultsim_restore_and_reopen
  sqlite3session S db main
  S attach *
} -body {
  execsql {
    INSERT INTO t1 VALUES('abcdefghijklmnopqrstuv', 'ABCDEFGHIJKLMNOPQRSTUV');
  }
  set ::c [S changeset]
  set {} {}
} -test {
  S delete
  eval faultsim_test_result $::answers
  if {[info exists ::c]} {
    set expected [normalize_list {
      {INSERT t1 0 X. {} {t abcdefghijklmnopqrstuv t ABCDEFGHIJKLMNOPQRSTUV}}
    }]
    if { [changeset_to_list $::c] != $expected } {
      error "changeset mismatch"
    }
  }
}

faultsim_delete_and_reopen
do_test 9.2.prep {
  execsql { 
    PRAGMA encoding = 'utf16';
    CREATE TABLE t1(a PRIMARY KEY, b);
    INSERT INTO t1 VALUES('abcdefghij', 'ABCDEFGHIJKLMNOPQRSTUV');
  }
} {}
faultsim_save_and_close

set answers [list {0 {}} {1 SQLITE_NOMEM} \
                  {1 {callback requested query abort}} \
                  {1 {abort due to ROLLBACK}}]
do_faultsim_test 9.2 -faults oom-transient -prep {
  catch { unset ::c }
  faultsim_restore_and_reopen
  sqlite3session S db main
  S attach *
} -body {
  execsql {
    UPDATE t1 SET b = 'xyz';
  }
  set ::c [S changeset]
  set {} {}
} -test {
  S delete
  eval faultsim_test_result $::answers
  if {[info exists ::c]} {
    set expected [normalize_list {
      {UPDATE t1 0 X. {t abcdefghij t ABCDEFGHIJKLMNOPQRSTUV} {{} {} t xyz}}
    }]
    if { [changeset_to_list $::c] != $expected } {
      error "changeset mismatch"
    }
  }
}

#-------------------------------------------------------------------------
# Test that if a conflict-handler encounters an OOM in 
# sqlite3_value_text() but goes on to return SQLITE_CHANGESET_REPLACE
# anyway, the OOM is picked up by the sessions module.
set bigstr [string repeat abcdefghij 100]
faultsim_delete_and_reopen
do_test 10.prep.1  {
  execsql {
    CREATE TABLE t1(a PRIMARY KEY, b);
    INSERT INTO t1 VALUES($bigstr, $bigstr);
  }

  sqlite3session S db main
  S attach *
  execsql { UPDATE t1 SET b = b||'x' }
  set C [S changeset]
  S delete
  execsql { UPDATE t1 SET b = b||'xyz' }
} {}
faultsim_save_and_close

faultsim_restore_and_reopen
do_test 10.prep.2  {
  proc xConflict {args} { return "ABORT" }
  list [catch { sqlite3changeset_apply db $C xConflict } msg] $msg
} {1 SQLITE_ABORT}
do_execsql_test 10.prep.3 { SELECT b=$bigstr||'x' FROM t1 } 0
do_test 10.prep.4  {
  proc xConflict {args} { return "REPLACE" }
  list [catch { sqlite3changeset_apply db $C xConflict } msg] $msg
} {0 {}}
do_execsql_test 10.prep.5 { SELECT b=$bigstr||'x' FROM t1 } 1
db close

do_faultsim_test 10 -faults oom-tra* -prep {
  faultsim_restore_and_reopen
} -body {
  sqlite3changeset_apply_replace_all db $::C 
} -test {
  faultsim_test_result {0 {}} {1 SQLITE_NOMEM}
  if {$testrc==0} {
    if {[db one {SELECT b=$bigstr||'x' FROM t1}]==0} {
      error "data does not look right"
    }
  }
}

#-------------------------------------------------------------------------
# Test an OOM with an sqlite3changeset_apply() filter callback.
#
reset_db
do_test 11.prep {
  execsql {
    CREATE TABLE t1(a PRIMARY KEY, b);
    CREATE TABLE t2(x PRIMARY KEY, y);
    BEGIN;
  }

  set ::cs [changeset_from_sql { 
    INSERT INTO t1 VALUES(1, 2);
    INSERT INTO t2 VALUES('x', 'y');
  }]

  execsql ROLLBACK
  set {} {}
} {}

proc filter {x} { return [string equal t1 $x] } 
faultsim_save_and_close

do_faultsim_test 11 -faults oom-tra* -prep {
  faultsim_restore_and_reopen
} -body {
  sqlite3changeset_apply db $::cs {} filter
} -test {
  faultsim_test_result {0 {}} {1 SQLITE_NOMEM}
  if {$testrc==0} {
    if {[db eval {SELECT * FROM t1 UNION ALL SELECT * FROM t2}] != "1 2"} {
      error "data does not look right"
    }
  }
}


finish_test

Added ext/session/sessionfault2.test.





















































































































































































































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# 2016 March 31
#
# The author disclaims copyright to this source code.  In place of
# a legal notice, here is a blessing:
#
#    May you do good and not evil.
#    May you find forgiveness for yourself and forgive others.
#    May you share freely, never taking more than you give.
#
#***********************************************************************
#
# The focus of this file is testing the session module.
#

if {![info exists testdir]} {
  set testdir [file join [file dirname [info script]] .. .. test]
} 
source [file join [file dirname [info script]] session_common.tcl]
source $testdir/tester.tcl
set testprefix sessionfault2

do_execsql_test 1.0.0 {
  CREATE TABLE t1(a PRIMARY KEY, b UNIQUE);
  INSERT INTO t1 VALUES(1, 1);
  INSERT INTO t1 VALUES(2, 2);
  INSERT INTO t1 VALUES(3, 3);

  CREATE TABLE t2(a PRIMARY KEY, b UNIQUE);
  INSERT INTO t2 VALUES(1, 1);
  INSERT INTO t2 VALUES(2, 2);
  INSERT INTO t2 VALUES(3, 3);
}
faultsim_save_and_close

faultsim_restore_and_reopen
do_test 1.0.1 {
  set ::C [changeset_from_sql {
    UPDATE t1 SET b=4 WHERE a=3;
    UPDATE t1 SET b=3 WHERE a=2;
    UPDATE t1 SET b=2 WHERE a=1;
    UPDATE t2 SET b=0 WHERE a=1;
    UPDATE t2 SET b=1 WHERE a=2;
    UPDATE t2 SET b=2 WHERE a=3;
  }]
  set {} {}
} {}

proc xConflict args { return "OMIT" }

do_faultsim_test 1 -faults oom-p* -prep {
  faultsim_restore_and_reopen
} -body {
  sqlite3changeset_apply db $::C xConflict
} -test {
  faultsim_test_result {0 {}} {1 SQLITE_NOMEM}
  faultsim_integrity_check

  catch { db eval ROLLBACK }
  set res [db eval {
    SELECT * FROM t1;
    SELECT * FROM t2;
  }]

  if {$testrc==0} {
    if {$res != "1 2 2 3 3 4 1 0 2 1 3 2"} { error "data error" }
  } else {
    if {
         $res != "1 2 2 3 3 4 1 0 2 1 3 2"
      && $res != "1 1 2 2 3 3 1 1 2 2 3 3"
    } { error "data error!! $res" }
  }
}

#-------------------------------------------------------------------------
# OOM when applying a changeset for which one of the tables has a name
# 99 bytes in size. This happens to cause an extra malloc in within the
# sessions_strm permutation.
#
reset_db
set nm [string repeat t 99]
do_execsql_test 2.0.0 [string map "%TBL% $nm" {
  CREATE TABLE %TBL%(a PRIMARY KEY, b UNIQUE);
}]
faultsim_save_and_close

faultsim_restore_and_reopen
do_test 1.0.1 {
  set ::C [changeset_from_sql [string map "%TBL% $nm" {
    INSERT INTO %TBL% VALUES(1, 2);
    INSERT INTO %TBL% VALUES(3, 4);
  }]]
  set {} {}
} {}

proc xConflict args { return "OMIT" }
do_faultsim_test 2 -faults oom-p* -prep {
  faultsim_restore_and_reopen
} -body {
  sqlite3changeset_apply db $::C xConflict
} -test {
  faultsim_test_result {0 {}} {1 SQLITE_NOMEM}
  faultsim_integrity_check
}

finish_test

Added ext/session/sqlite3session.c.










































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































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#if defined(SQLITE_ENABLE_SESSION) && defined(SQLITE_ENABLE_PREUPDATE_HOOK)
#include "sqlite3session.h"
#include <assert.h>
#include <string.h>

#ifndef SQLITE_AMALGAMATION
# include "sqliteInt.h"
# include "vdbeInt.h"
#endif

typedef struct SessionTable SessionTable;
typedef struct SessionChange SessionChange;
typedef struct SessionBuffer SessionBuffer;
typedef struct SessionInput SessionInput;

/*
** Minimum chunk size used by streaming versions of functions.
*/
#ifndef SESSIONS_STRM_CHUNK_SIZE
# ifdef SQLITE_TEST
#   define SESSIONS_STRM_CHUNK_SIZE 64
# else
#   define SESSIONS_STRM_CHUNK_SIZE 1024
# endif
#endif

typedef struct SessionHook SessionHook;
struct SessionHook {
  void *pCtx;
  int (*xOld)(void*,int,sqlite3_value**);
  int (*xNew)(void*,int,sqlite3_value**);
  int (*xCount)(void*);
  int (*xDepth)(void*);
};

/*
** Session handle structure.
*/
struct sqlite3_session {
  sqlite3 *db;                    /* Database handle session is attached to */
  char *zDb;                      /* Name of database session is attached to */
  int bEnable;                    /* True if currently recording */
  int bIndirect;                  /* True if all changes are indirect */
  int bAutoAttach;                /* True to auto-attach tables */
  int rc;                         /* Non-zero if an error has occurred */
  void *pFilterCtx;               /* First argument to pass to xTableFilter */
  int (*xTableFilter)(void *pCtx, const char *zTab);
  sqlite3_session *pNext;         /* Next session object on same db. */
  SessionTable *pTable;           /* List of attached tables */
  SessionHook hook;               /* APIs to grab new and old data with */
};

/*
** Instances of this structure are used to build strings or binary records.
*/
struct SessionBuffer {
  u8 *aBuf;                       /* Pointer to changeset buffer */
  int nBuf;                       /* Size of buffer aBuf */
  int nAlloc;                     /* Size of allocation containing aBuf */
};

/*
** An object of this type is used internally as an abstraction for 
** input data. Input data may be supplied either as a single large buffer
** (e.g. sqlite3changeset_start()) or using a stream function (e.g.
**  sqlite3changeset_start_strm()).
*/
struct SessionInput {
  int bNoDiscard;                 /* If true, discard no data */
  int iCurrent;                   /* Offset in aData[] of current change */
  int iNext;                      /* Offset in aData[] of next change */
  u8 *aData;                      /* Pointer to buffer containing changeset */
  int nData;                      /* Number of bytes in aData */

  SessionBuffer buf;              /* Current read buffer */
  int (*xInput)(void*, void*, int*);        /* Input stream call (or NULL) */
  void *pIn;                                /* First argument to xInput */
  int bEof;                       /* Set to true after xInput finished */
};

/*
** Structure for changeset iterators.
*/
struct sqlite3_changeset_iter {
  SessionInput in;                /* Input buffer or stream */
  SessionBuffer tblhdr;           /* Buffer to hold apValue/zTab/abPK/ */
  int bPatchset;                  /* True if this is a patchset */
  int rc;                         /* Iterator error code */
  sqlite3_stmt *pConflict;        /* Points to conflicting row, if any */
  char *zTab;                     /* Current table */
  int nCol;                       /* Number of columns in zTab */
  int op;                         /* Current operation */
  int bIndirect;                  /* True if current change was indirect */
  u8 *abPK;                       /* Primary key array */
  sqlite3_value **apValue;        /* old.* and new.* values */
};

/*
** Each session object maintains a set of the following structures, one
** for each table the session object is monitoring. The structures are
** stored in a linked list starting at sqlite3_session.pTable.
**
** The keys of the SessionTable.aChange[] hash table are all rows that have
** been modified in any way since the session object was attached to the
** table.
**
** The data associated with each hash-table entry is a structure containing
** a subset of the initial values that the modified row contained at the
** start of the session. Or no initial values if the row was inserted.
*/
struct SessionTable {
  SessionTable *pNext;
  char *zName;                    /* Local name of table */
  int nCol;                       /* Number of columns in table zName */
  const char **azCol;             /* Column names */
  u8 *abPK;                       /* Array of primary key flags */
  int nEntry;                     /* Total number of entries in hash table */
  int nChange;                    /* Size of apChange[] array */
  SessionChange **apChange;       /* Hash table buckets */
};

/* 
** RECORD FORMAT:
**
** The following record format is similar to (but not compatible with) that 
** used in SQLite database files. This format is used as part of the 
** change-set binary format, and so must be architecture independent.
**
** Unlike the SQLite database record format, each field is self-contained -
** there is no separation of header and data. Each field begins with a
** single byte describing its type, as follows:
**
**       0x00: Undefined value.
**       0x01: Integer value.
**       0x02: Real value.
**       0x03: Text value.
**       0x04: Blob value.
**       0x05: SQL NULL value.
**
** Note that the above match the definitions of SQLITE_INTEGER, SQLITE_TEXT
** and so on in sqlite3.h. For undefined and NULL values, the field consists
** only of the single type byte. For other types of values, the type byte
** is followed by:
**
**   Text values:
**     A varint containing the number of bytes in the value (encoded using
**     UTF-8). Followed by a buffer containing the UTF-8 representation
**     of the text value. There is no nul terminator.
**
**   Blob values:
**     A varint containing the number of bytes in the value, followed by
**     a buffer containing the value itself.
**
**   Integer values:
**     An 8-byte big-endian integer value.
**
**   Real values:
**     An 8-byte big-endian IEEE 754-2008 real value.
**
** Varint values are encoded in the same way as varints in the SQLite 
** record format.
**
** CHANGESET FORMAT:
**
** A changeset is a collection of DELETE, UPDATE and INSERT operations on
** one or more tables. Operations on a single table are grouped together,
** but may occur in any order (i.e. deletes, updates and inserts are all
** mixed together).
**
** Each group of changes begins with a table header:
**
**   1 byte: Constant 0x54 (capital 'T')
**   Varint: Number of columns in the table.
**   nCol bytes: 0x01 for PK columns, 0x00 otherwise.
**   N bytes: Unqualified table name (encoded using UTF-8). Nul-terminated.
**
** Followed by one or more changes to the table.
**
**   1 byte: Either SQLITE_INSERT (0x12), UPDATE (0x17) or DELETE (0x09).
**   1 byte: The "indirect-change" flag.
**   old.* record: (delete and update only)
**   new.* record: (insert and update only)
**
** The "old.*" and "new.*" records, if present, are N field records in the
** format described above under "RECORD FORMAT", where N is the number of
** columns in the table. The i'th field of each record is associated with
** the i'th column of the table, counting from left to right in the order
** in which columns were declared in the CREATE TABLE statement.
**
** The new.* record that is part of each INSERT change contains the values
** that make up the new row. Similarly, the old.* record that is part of each
** DELETE change contains the values that made up the row that was deleted 
** from the database. In the changeset format, the records that are part
** of INSERT or DELETE changes never contain any undefined (type byte 0x00)
** fields.
**
** Within the old.* record associated with an UPDATE change, all fields
** associated with table columns that are not PRIMARY KEY columns and are
** not modified by the UPDATE change are set to "undefined". Other fields
** are set to the values that made up the row before the UPDATE that the
** change records took place. Within the new.* record, fields associated 
** with table columns modified by the UPDATE change contain the new 
** values. Fields associated with table columns that are not modified
** are set to "undefined".
**
** PATCHSET FORMAT:
**
** A patchset is also a collection of changes. It is similar to a changeset,
** but leaves undefined those fields that are not useful if no conflict
** resolution is required when applying the changeset.
**
** Each group of changes begins with a table header:
**
**   1 byte: Constant 0x50 (capital 'P')
**   Varint: Number of columns in the table.
**   nCol bytes: 0x01 for PK columns, 0x00 otherwise.
**   N bytes: Unqualified table name (encoded using UTF-8). Nul-terminated.
**
** Followed by one or more changes to the table.
**
**   1 byte: Either SQLITE_INSERT (0x12), UPDATE (0x17) or DELETE (0x09).
**   1 byte: The "indirect-change" flag.
**   single record: (PK fields for DELETE, PK and modified fields for UPDATE,
**                   full record for INSERT).
**
** As in the changeset format, each field of the single record that is part
** of a patchset change is associated with the correspondingly positioned
** table column, counting from left to right within the CREATE TABLE 
** statement.
**
** For a DELETE change, all fields within the record except those associated
** with PRIMARY KEY columns are set to "undefined". The PRIMARY KEY fields
** contain the values identifying the row to delete.
**
** For an UPDATE change, all fields except those associated with PRIMARY KEY
** columns and columns that are modified by the UPDATE are set to "undefined".
** PRIMARY KEY fields contain the values identifying the table row to update,
** and fields associated with modified columns contain the new column values.
**
** The records associated with INSERT changes are in the same format as for
** changesets. It is not possible for a record associated with an INSERT
** change to contain a field set to "undefined".
*/

/*
** For each row modified during a session, there exists a single instance of
** this structure stored in a SessionTable.aChange[] hash table.
*/
struct SessionChange {
  int op;                         /* One of UPDATE, DELETE, INSERT */
  int bIndirect;                  /* True if this change is "indirect" */
  int nRecord;                    /* Number of bytes in buffer aRecord[] */
  u8 *aRecord;                    /* Buffer containing old.* record */
  SessionChange *pNext;           /* For hash-table collisions */
};

/*
** Write a varint with value iVal into the buffer at aBuf. Return the 
** number of bytes written.
*/
static int sessionVarintPut(u8 *aBuf, int iVal){
  return putVarint32(aBuf, iVal);
}

/*
** Return the number of bytes required to store value iVal as a varint.
*/
static int sessionVarintLen(int iVal){
  return sqlite3VarintLen(iVal);
}

/*
** Read a varint value from aBuf[] into *piVal. Return the number of 
** bytes read.
*/
static int sessionVarintGet(u8 *aBuf, int *piVal){
  return getVarint32(aBuf, *piVal);
}

/*
** Read a 64-bit big-endian integer value from buffer aRec[]. Return
** the value read.
*/
static sqlite3_int64 sessionGetI64(u8 *aRec){
  return (((sqlite3_int64)aRec[0]) << 56)
       + (((sqlite3_int64)aRec[1]) << 48)
       + (((sqlite3_int64)aRec[2]) << 40)
       + (((sqlite3_int64)aRec[3]) << 32)
       + (((sqlite3_int64)aRec[4]) << 24)
       + (((sqlite3_int64)aRec[5]) << 16)
       + (((sqlite3_int64)aRec[6]) <<  8)
       + (((sqlite3_int64)aRec[7]) <<  0);
}

/*
** Write a 64-bit big-endian integer value to the buffer aBuf[].
*/
static void sessionPutI64(u8 *aBuf, sqlite3_int64 i){
  aBuf[0] = (i>>56) & 0xFF;
  aBuf[1] = (i>>48) & 0xFF;
  aBuf[2] = (i>>40) & 0xFF;
  aBuf[3] = (i>>32) & 0xFF;
  aBuf[4] = (i>>24) & 0xFF;
  aBuf[5] = (i>>16) & 0xFF;
  aBuf[6] = (i>> 8) & 0xFF;
  aBuf[7] = (i>> 0) & 0xFF;
}

/*
** This function is used to serialize the contents of value pValue (see
** comment titled "RECORD FORMAT" above).
**
** If it is non-NULL, the serialized form of the value is written to 
** buffer aBuf. *pnWrite is set to the number of bytes written before
** returning. Or, if aBuf is NULL, the only thing this function does is
** set *pnWrite.
**
** If no error occurs, SQLITE_OK is returned. Or, if an OOM error occurs
** within a call to sqlite3_value_text() (may fail if the db is utf-16)) 
** SQLITE_NOMEM is returned.
*/
static int sessionSerializeValue(
  u8 *aBuf,                       /* If non-NULL, write serialized value here */
  sqlite3_value *pValue,          /* Value to serialize */
  int *pnWrite                    /* IN/OUT: Increment by bytes written */
){
  int nByte;                      /* Size of serialized value in bytes */

  if( pValue ){
    int eType;                    /* Value type (SQLITE_NULL, TEXT etc.) */
  
    eType = sqlite3_value_type(pValue);
    if( aBuf ) aBuf[0] = eType;
  
    switch( eType ){
      case SQLITE_NULL: 
        nByte = 1;
        break;
  
      case SQLITE_INTEGER: 
      case SQLITE_FLOAT:
        if( aBuf ){
          /* TODO: SQLite does something special to deal with mixed-endian
          ** floating point values (e.g. ARM7). This code probably should
          ** too.  */
          u64 i;
          if( eType==SQLITE_INTEGER ){
            i = (u64)sqlite3_value_int64(pValue);
          }else{
            double r;
            assert( sizeof(double)==8 && sizeof(u64)==8 );
            r = sqlite3_value_double(pValue);
            memcpy(&i, &r, 8);
          }
          sessionPutI64(&aBuf[1], i);
        }
        nByte = 9; 
        break;
  
      default: {
        u8 *z;
        int n;
        int nVarint;
  
        assert( eType==SQLITE_TEXT || eType==SQLITE_BLOB );
        if( eType==SQLITE_TEXT ){
          z = (u8 *)sqlite3_value_text(pValue);
        }else{
          z = (u8 *)sqlite3_value_blob(pValue);
        }
        n = sqlite3_value_bytes(pValue);
        if( z==0 && (eType!=SQLITE_BLOB || n>0) ) return SQLITE_NOMEM;
        nVarint = sessionVarintLen(n);
  
        if( aBuf ){
          sessionVarintPut(&aBuf[1], n);
          memcpy(&aBuf[nVarint + 1], eType==SQLITE_TEXT ? 
              sqlite3_value_text(pValue) : sqlite3_value_blob(pValue), n
          );
        }
  
        nByte = 1 + nVarint + n;
        break;
      }
    }
  }else{
    nByte = 1;
    if( aBuf ) aBuf[0] = '\0';
  }

  if( pnWrite ) *pnWrite += nByte;
  return SQLITE_OK;
}


/*
** This macro is used to calculate hash key values for data structures. In
** order to use this macro, the entire data structure must be represented
** as a series of unsigned integers. In order to calculate a hash-key value
** for a data structure represented as three such integers, the macro may
** then be used as follows:
**
**    int hash_key_value;
**    hash_key_value = HASH_APPEND(0, <value 1>);
**    hash_key_value = HASH_APPEND(hash_key_value, <value 2>);
**    hash_key_value = HASH_APPEND(hash_key_value, <value 3>);
**
** In practice, the data structures this macro is used for are the primary
** key values of modified rows.
*/
#define HASH_APPEND(hash, add) ((hash) << 3) ^ (hash) ^ (unsigned int)(add)

/*
** Append the hash of the 64-bit integer passed as the second argument to the
** hash-key value passed as the first. Return the new hash-key value.
*/
static unsigned int sessionHashAppendI64(unsigned int h, i64 i){
  h = HASH_APPEND(h, i & 0xFFFFFFFF);
  return HASH_APPEND(h, (i>>32)&0xFFFFFFFF);
}

/*
** Append the hash of the blob passed via the second and third arguments to 
** the hash-key value passed as the first. Return the new hash-key value.
*/
static unsigned int sessionHashAppendBlob(unsigned int h, int n, const u8 *z){
  int i;
  for(i=0; i<n; i++) h = HASH_APPEND(h, z[i]);
  return h;
}

/*
** Append the hash of the data type passed as the second argument to the
** hash-key value passed as the first. Return the new hash-key value.
*/
static unsigned int sessionHashAppendType(unsigned int h, int eType){
  return HASH_APPEND(h, eType);
}

/*
** This function may only be called from within a pre-update callback.
** It calculates a hash based on the primary key values of the old.* or 
** new.* row currently available and, assuming no error occurs, writes it to
** *piHash before returning. If the primary key contains one or more NULL
** values, *pbNullPK is set to true before returning.
**
** If an error occurs, an SQLite error code is returned and the final values
** of *piHash asn *pbNullPK are undefined. Otherwise, SQLITE_OK is returned
** and the output variables are set as described above.
*/
static int sessionPreupdateHash(
  sqlite3_session *pSession,      /* Session object that owns pTab */
  SessionTable *pTab,             /* Session table handle */
  int bNew,                       /* True to hash the new.* PK */
  int *piHash,                    /* OUT: Hash value */
  int *pbNullPK                   /* OUT: True if there are NULL values in PK */
){
  unsigned int h = 0;             /* Hash value to return */
  int i;                          /* Used to iterate through columns */

  assert( *pbNullPK==0 );
  assert( pTab->nCol==pSession->hook.xCount(pSession->hook.pCtx) );
  for(i=0; i<pTab->nCol; i++){
    if( pTab->abPK[i] ){
      int rc;
      int eType;
      sqlite3_value *pVal;

      if( bNew ){
        rc = pSession->hook.xNew(pSession->hook.pCtx, i, &pVal);
      }else{
        rc = pSession->hook.xOld(pSession->hook.pCtx, i, &pVal);
      }
      if( rc!=SQLITE_OK ) return rc;

      eType = sqlite3_value_type(pVal);
      h = sessionHashAppendType(h, eType);
      if( eType==SQLITE_INTEGER || eType==SQLITE_FLOAT ){
        i64 iVal;
        if( eType==SQLITE_INTEGER ){
          iVal = sqlite3_value_int64(pVal);
        }else{
          double rVal = sqlite3_value_double(pVal);
          assert( sizeof(iVal)==8 && sizeof(rVal)==8 );
          memcpy(&iVal, &rVal, 8);
        }
        h = sessionHashAppendI64(h, iVal);
      }else if( eType==SQLITE_TEXT || eType==SQLITE_BLOB ){
        const u8 *z;
        int n;
        if( eType==SQLITE_TEXT ){
          z = (const u8 *)sqlite3_value_text(pVal);
        }else{
          z = (const u8 *)sqlite3_value_blob(pVal);
        }
        n = sqlite3_value_bytes(pVal);
        if( !z && (eType!=SQLITE_BLOB || n>0) ) return SQLITE_NOMEM;
        h = sessionHashAppendBlob(h, n, z);
      }else{
        assert( eType==SQLITE_NULL );
        *pbNullPK = 1;
      }
    }
  }

  *piHash = (h % pTab->nChange);
  return SQLITE_OK;
}

/*
** The buffer that the argument points to contains a serialized SQL value.
** Return the number of bytes of space occupied by the value (including
** the type byte).
*/
static int sessionSerialLen(u8 *a){
  int e = *a;
  int n;
  if( e==0 ) return 1;
  if( e==SQLITE_NULL ) return 1;
  if( e==SQLITE_INTEGER || e==SQLITE_FLOAT ) return 9;
  return sessionVarintGet(&a[1], &n) + 1 + n;
}

/*
** Based on the primary key values stored in change aRecord, calculate a
** hash key. Assume the has table has nBucket buckets. The hash keys
** calculated by this function are compatible with those calculated by
** sessionPreupdateHash().
**
** The bPkOnly argument is non-zero if the record at aRecord[] is from
** a patchset DELETE. In this case the non-PK fields are omitted entirely.
*/
static unsigned int sessionChangeHash(
  SessionTable *pTab,             /* Table handle */
  int bPkOnly,                    /* Record consists of PK fields only */
  u8 *aRecord,                    /* Change record */
  int nBucket                     /* Assume this many buckets in hash table */
){
  unsigned int h = 0;             /* Value to return */
  int i;                          /* Used to iterate through columns */
  u8 *a = aRecord;                /* Used to iterate through change record */

  for(i=0; i<pTab->nCol; i++){
    int eType = *a;
    int isPK = pTab->abPK[i];
    if( bPkOnly && isPK==0 ) continue;

    /* It is not possible for eType to be SQLITE_NULL here. The session 
    ** module does not record changes for rows with NULL values stored in
    ** primary key columns. */
    assert( eType==SQLITE_INTEGER || eType==SQLITE_FLOAT 
         || eType==SQLITE_TEXT || eType==SQLITE_BLOB 
         || eType==SQLITE_NULL || eType==0 
    );
    assert( !isPK || (eType!=0 && eType!=SQLITE_NULL) );

    if( isPK ){
      a++;
      h = sessionHashAppendType(h, eType);
      if( eType==SQLITE_INTEGER || eType==SQLITE_FLOAT ){
        h = sessionHashAppendI64(h, sessionGetI64(a));
        a += 8;
      }else{
        int n; 
        a += sessionVarintGet(a, &n);
        h = sessionHashAppendBlob(h, n, a);
        a += n;
      }
    }else{
      a += sessionSerialLen(a);
    }
  }
  return (h % nBucket);
}

/*
** Arguments aLeft and aRight are pointers to change records for table pTab.
** This function returns true if the two records apply to the same row (i.e.
** have the same values stored in the primary key columns), or false 
** otherwise.
*/
static int sessionChangeEqual(
  SessionTable *pTab,             /* Table used for PK definition */
  int bLeftPkOnly,                /* True if aLeft[] contains PK fields only */
  u8 *aLeft,                      /* Change record */
  int bRightPkOnly,               /* True if aRight[] contains PK fields only */
  u8 *aRight                      /* Change record */
){
  u8 *a1 = aLeft;                 /* Cursor to iterate through aLeft */
  u8 *a2 = aRight;                /* Cursor to iterate through aRight */
  int iCol;                       /* Used to iterate through table columns */

  for(iCol=0; iCol<pTab->nCol; iCol++){
    int n1 = sessionSerialLen(a1);
    int n2 = sessionSerialLen(a2);

    if( pTab->abPK[iCol] && (n1!=n2 || memcmp(a1, a2, n1)) ){
      return 0;
    }
    if( pTab->abPK[iCol] || bLeftPkOnly==0 ) a1 += n1;
    if( pTab->abPK[iCol] || bRightPkOnly==0 ) a2 += n2;
  }

  return 1;
}

/*
** Arguments aLeft and aRight both point to buffers containing change
** records with nCol columns. This function "merges" the two records into
** a single records which is written to the buffer at *paOut. *paOut is
** then set to point to one byte after the last byte written before 
** returning.
**
** The merging of records is done as follows: For each column, if the 
** aRight record contains a value for the column, copy the value from
** their. Otherwise, if aLeft contains a value, copy it. If neither
** record contains a value for a given column, then neither does the
** output record.
*/
static void sessionMergeRecord(
  u8 **paOut, 
  int nCol,
  u8 *aLeft,
  u8 *aRight
){
  u8 *a1 = aLeft;                 /* Cursor used to iterate through aLeft */
  u8 *a2 = aRight;                /* Cursor used to iterate through aRight */
  u8 *aOut = *paOut;              /* Output cursor */
  int iCol;                       /* Used to iterate from 0 to nCol */

  for(iCol=0; iCol<nCol; iCol++){
    int n1 = sessionSerialLen(a1);
    int n2 = sessionSerialLen(a2);
    if( *a2 ){
      memcpy(aOut, a2, n2);
      aOut += n2;
    }else{
      memcpy(aOut, a1, n1);
      aOut += n1;
    }
    a1 += n1;
    a2 += n2;
  }

  *paOut = aOut;
}

/*
** This is a helper function used by sessionMergeUpdate().
**
** When this function is called, both *paOne and *paTwo point to a value 
** within a change record. Before it returns, both have been advanced so 
** as to point to the next value in the record.
**
** If, when this function is called, *paTwo points to a valid value (i.e.
** *paTwo[0] is not 0x00 - the "no value" placeholder), a copy of the *paTwo
** pointer is returned and *pnVal is set to the number of bytes in the 
** serialized value. Otherwise, a copy of *paOne is returned and *pnVal
** set to the number of bytes in the value at *paOne. If *paOne points
** to the "no value" placeholder, *pnVal is set to 1. In other words:
**
**   if( *paTwo is valid ) return *paTwo;
**   return *paOne;
**
*/
static u8 *sessionMergeValue(
  u8 **paOne,                     /* IN/OUT: Left-hand buffer pointer */
  u8 **paTwo,                     /* IN/OUT: Right-hand buffer pointer */
  int *pnVal                      /* OUT: Bytes in returned value */
){
  u8 *a1 = *paOne;
  u8 *a2 = *paTwo;
  u8 *pRet = 0;
  int n1;

  assert( a1 );
  if( a2 ){
    int n2 = sessionSerialLen(a2);
    if( *a2 ){
      *pnVal = n2;
      pRet = a2;
    }
    *paTwo = &a2[n2];
  }

  n1 = sessionSerialLen(a1);
  if( pRet==0 ){
    *pnVal = n1;
    pRet = a1;
  }
  *paOne = &a1[n1];

  return pRet;
}

/*
** This function is used by changeset_concat() to merge two UPDATE changes
** on the same row.
*/
static int sessionMergeUpdate(
  u8 **paOut,                     /* IN/OUT: Pointer to output buffer */
  SessionTable *pTab,             /* Table change pertains to */
  int bPatchset,                  /* True if records are patchset records */
  u8 *aOldRecord1,                /* old.* record for first change */
  u8 *aOldRecord2,                /* old.* record for second change */
  u8 *aNewRecord1,                /* new.* record for first change */
  u8 *aNewRecord2                 /* new.* record for second change */
){
  u8 *aOld1 = aOldRecord1;
  u8 *aOld2 = aOldRecord2;
  u8 *aNew1 = aNewRecord1;
  u8 *aNew2 = aNewRecord2;

  u8 *aOut = *paOut;
  int i;

  if( bPatchset==0 ){
    int bRequired = 0;

    assert( aOldRecord1 && aNewRecord1 );

    /* Write the old.* vector first. */
    for(i=0; i<pTab->nCol; i++){
      int nOld;
      u8 *aOld;
      int nNew;
      u8 *aNew;

      aOld = sessionMergeValue(&aOld1, &aOld2, &nOld);
      aNew = sessionMergeValue(&aNew1, &aNew2, &nNew);
      if( pTab->abPK[i] || nOld!=nNew || memcmp(aOld, aNew, nNew) ){
        if( pTab->abPK[i]==0 ) bRequired = 1;
        memcpy(aOut, aOld, nOld);
        aOut += nOld;
      }else{
        *(aOut++) = '\0';
      }
    }

    if( !bRequired ) return 0;
  }

  /* Write the new.* vector */
  aOld1 = aOldRecord1;
  aOld2 = aOldRecord2;
  aNew1 = aNewRecord1;
  aNew2 = aNewRecord2;
  for(i=0; i<pTab->nCol; i++){
    int nOld;
    u8 *aOld;
    int nNew;
    u8 *aNew;

    aOld = sessionMergeValue(&aOld1, &aOld2, &nOld);
    aNew = sessionMergeValue(&aNew1, &aNew2, &nNew);
    if( bPatchset==0 
     && (pTab->abPK[i] || (nOld==nNew && 0==memcmp(aOld, aNew, nNew))) 
    ){
      *(aOut++) = '\0';
    }else{
      memcpy(aOut, aNew, nNew);
      aOut += nNew;
    }
  }

  *paOut = aOut;
  return 1;
}

/*
** This function is only called from within a pre-update-hook callback.
** It determines if the current pre-update-hook change affects the same row
** as the change stored in argument pChange. If so, it returns true. Otherwise
** if the pre-update-hook does not affect the same row as pChange, it returns
** false.
*/
static int sessionPreupdateEqual(
  sqlite3_session *pSession,      /* Session object that owns SessionTable */
  SessionTable *pTab,             /* Table associated with change */
  SessionChange *pChange,         /* Change to compare to */
  int op                          /* Current pre-update operation */
){
  int iCol;                       /* Used to iterate through columns */
  u8 *a = pChange->aRecord;       /* Cursor used to scan change record */

  assert( op==SQLITE_INSERT || op==SQLITE_UPDATE || op==SQLITE_DELETE );
  for(iCol=0; iCol<pTab->nCol; iCol++){
    if( !pTab->abPK[iCol] ){
      a += sessionSerialLen(a);
    }else{
      sqlite3_value *pVal;        /* Value returned by preupdate_new/old */
      int rc;                     /* Error code from preupdate_new/old */
      int eType = *a++;           /* Type of value from change record */

      /* The following calls to preupdate_new() and preupdate_old() can not
      ** fail. This is because they cache their return values, and by the
      ** time control flows to here they have already been called once from
      ** within sessionPreupdateHash(). The first two asserts below verify
      ** this (that the method has already been called). */
      if( op==SQLITE_INSERT ){
        /* assert( db->pPreUpdate->pNewUnpacked || db->pPreUpdate->aNew ); */
        rc = pSession->hook.xNew(pSession->hook.pCtx, iCol, &pVal);
      }else{
        /* assert( db->pPreUpdate->pUnpacked ); */
        rc = pSession->hook.xOld(pSession->hook.pCtx, iCol, &pVal);
      }
      assert( rc==SQLITE_OK );
      if( sqlite3_value_type(pVal)!=eType ) return 0;

      /* A SessionChange object never has a NULL value in a PK column */
      assert( eType==SQLITE_INTEGER || eType==SQLITE_FLOAT
           || eType==SQLITE_BLOB    || eType==SQLITE_TEXT
      );

      if( eType==SQLITE_INTEGER || eType==SQLITE_FLOAT ){
        i64 iVal = sessionGetI64(a);
        a += 8;
        if( eType==SQLITE_INTEGER ){
          if( sqlite3_value_int64(pVal)!=iVal ) return 0;
        }else{
          double rVal;
          assert( sizeof(iVal)==8 && sizeof(rVal)==8 );
          memcpy(&rVal, &iVal, 8);
          if( sqlite3_value_double(pVal)!=rVal ) return 0;
        }
      }else{
        int n;
        const u8 *z;
        a += sessionVarintGet(a, &n);
        if( sqlite3_value_bytes(pVal)!=n ) return 0;
        if( eType==SQLITE_TEXT ){
          z = sqlite3_value_text(pVal);
        }else{
          z = sqlite3_value_blob(pVal);
        }
        if( memcmp(a, z, n) ) return 0;
        a += n;
        break;
      }
    }
  }

  return 1;
}

/*
** If required, grow the hash table used to store changes on table pTab 
** (part of the session pSession). If a fatal OOM error occurs, set the
** session object to failed and return SQLITE_ERROR. Otherwise, return
** SQLITE_OK.
**
** It is possible that a non-fatal OOM error occurs in this function. In
** that case the hash-table does not grow, but SQLITE_OK is returned anyway.
** Growing the hash table in this case is a performance optimization only,
** it is not required for correct operation.
*/
static int sessionGrowHash(int bPatchset, SessionTable *pTab){
  if( pTab->nChange==0 || pTab->nEntry>=(pTab->nChange/2) ){
    int i;
    SessionChange **apNew;
    int nNew = (pTab->nChange ? pTab->nChange : 128) * 2;

    apNew = (SessionChange **)sqlite3_malloc(sizeof(SessionChange *) * nNew);
    if( apNew==0 ){
      if( pTab->nChange==0 ){
        return SQLITE_ERROR;
      }
      return SQLITE_OK;
    }
    memset(apNew, 0, sizeof(SessionChange *) * nNew);

    for(i=0; i<pTab->nChange; i++){
      SessionChange *p;
      SessionChange *pNext;
      for(p=pTab->apChange[i]; p; p=pNext){
        int bPkOnly = (p->op==SQLITE_DELETE && bPatchset);
        int iHash = sessionChangeHash(pTab, bPkOnly, p->aRecord, nNew);
        pNext = p->pNext;
        p->pNext = apNew[iHash];
        apNew[iHash] = p;
      }
    }

    sqlite3_free(pTab->apChange);
    pTab->nChange = nNew;
    pTab->apChange = apNew;
  }

  return SQLITE_OK;
}

/*
** This function queries the database for the names of the columns of table
** zThis, in schema zDb. It is expected that the table has nCol columns. If
** not, SQLITE_SCHEMA is returned and none of the output variables are
** populated.
**
** Otherwise, if they are not NULL, variable *pnCol is set to the number
** of columns in the database table and variable *pzTab is set to point to a
** nul-terminated copy of the table name. *pazCol (if not NULL) is set to
** point to an array of pointers to column names. And *pabPK (again, if not
** NULL) is set to point to an array of booleans - true if the corresponding
** column is part of the primary key.
**
** For example, if the table is declared as:
**
**     CREATE TABLE tbl1(w, x, y, z, PRIMARY KEY(w, z));
**
** Then the four output variables are populated as follows:
**
**     *pnCol  = 4
**     *pzTab  = "tbl1"
**     *pazCol = {"w", "x", "y", "z"}
**     *pabPK  = {1, 0, 0, 1}
**
** All returned buffers are part of the same single allocation, which must
** be freed using sqlite3_free() by the caller. If pazCol was not NULL, then
** pointer *pazCol should be freed to release all memory. Otherwise, pointer
** *pabPK. It is illegal for both pazCol and pabPK to be NULL.
*/
static int sessionTableInfo(
  sqlite3 *db,                    /* Database connection */
  const char *zDb,                /* Name of attached database (e.g. "main") */
  const char *zThis,              /* Table name */
  int *pnCol,                     /* OUT: number of columns */
  const char **pzTab,             /* OUT: Copy of zThis */
  const char ***pazCol,           /* OUT: Array of column names for table */
  u8 **pabPK                      /* OUT: Array of booleans - true for PK col */
){
  char *zPragma;
  sqlite3_stmt *pStmt;
  int rc;
  int nByte;
  int nDbCol = 0;
  int nThis;
  int i;
  u8 *pAlloc = 0;
  char **azCol = 0;
  u8 *abPK = 0;

  assert( pazCol && pabPK );

  nThis = sqlite3Strlen30(zThis);
  zPragma = sqlite3_mprintf("PRAGMA '%q'.table_info('%q')", zDb, zThis);
  if( !zPragma ) return SQLITE_NOMEM;

  rc = sqlite3_prepare_v2(db, zPragma, -1, &pStmt, 0);
  sqlite3_free(zPragma);
  if( rc!=SQLITE_OK ) return rc;

  nByte = nThis + 1;
  while( SQLITE_ROW==sqlite3_step(pStmt) ){
    nByte += sqlite3_column_bytes(pStmt, 1);
    nDbCol++;
  }
  rc = sqlite3_reset(pStmt);

  if( rc==SQLITE_OK ){
    nByte += nDbCol * (sizeof(const char *) + sizeof(u8) + 1);
    pAlloc = sqlite3_malloc(nByte);
    if( pAlloc==0 ){
      rc = SQLITE_NOMEM;
    }
  }
  if( rc==SQLITE_OK ){
    azCol = (char **)pAlloc;
    pAlloc = (u8 *)&azCol[nDbCol];
    abPK = (u8 *)pAlloc;
    pAlloc = &abPK[nDbCol];
    if( pzTab ){
      memcpy(pAlloc, zThis, nThis+1);
      *pzTab = (char *)pAlloc;
      pAlloc += nThis+1;
    }
  
    i = 0;
    while( SQLITE_ROW==sqlite3_step(pStmt) ){
      int nName = sqlite3_column_bytes(pStmt, 1);
      const unsigned char *zName = sqlite3_column_text(pStmt, 1);
      if( zName==0 ) break;
      memcpy(pAlloc, zName, nName+1);
      azCol[i] = (char *)pAlloc;
      pAlloc += nName+1;
      abPK[i] = sqlite3_column_int(pStmt, 5);
      i++;
    }
    rc = sqlite3_reset(pStmt);
  
  }

  /* If successful, populate the output variables. Otherwise, zero them and
  ** free any allocation made. An error code will be returned in this case.
  */
  if( rc==SQLITE_OK ){
    *pazCol = (const char **)azCol;
    *pabPK = abPK;
    *pnCol = nDbCol;
  }else{
    *pazCol = 0;
    *pabPK = 0;
    *pnCol = 0;
    if( pzTab ) *pzTab = 0;
    sqlite3_free(azCol);
  }
  sqlite3_finalize(pStmt);
  return rc;
}

/*
** This function is only called from within a pre-update handler for a
** write to table pTab, part of session pSession. If this is the first
** write to this table, initalize the SessionTable.nCol, azCol[] and
** abPK[] arrays accordingly.
**
** If an error occurs, an error code is stored in sqlite3_session.rc and
** non-zero returned. Or, if no error occurs but the table has no primary
** key, sqlite3_session.rc is left set to SQLITE_OK and non-zero returned to
** indicate that updates on this table should be ignored. SessionTable.abPK 
** is set to NULL in this case.
*/
static int sessionInitTable(sqlite3_session *pSession, SessionTable *pTab){
  if( pTab->nCol==0 ){
    u8 *abPK;
    assert( pTab->azCol==0 || pTab->abPK==0 );
    pSession->rc = sessionTableInfo(pSession->db, pSession->zDb, 
        pTab->zName, &pTab->nCol, 0, &pTab->azCol, &abPK
    );
    if( pSession->rc==SQLITE_OK ){
      int i;
      for(i=0; i<pTab->nCol; i++){
        if( abPK[i] ){
          pTab->abPK = abPK;
          break;
        }
      }
    }
  }
  return (pSession->rc || pTab->abPK==0);
}

/*
** This function is only called from with a pre-update-hook reporting a 
** change on table pTab (attached to session pSession). The type of change
** (UPDATE, INSERT, DELETE) is specified by the first argument.
**
** Unless one is already present or an error occurs, an entry is added
** to the changed-rows hash table associated with table pTab.
*/
static void sessionPreupdateOneChange(
  int op,                         /* One of SQLITE_UPDATE, INSERT, DELETE */
  sqlite3_session *pSession,      /* Session object pTab is attached to */
  SessionTable *pTab              /* Table that change applies to */
){
  int iHash; 
  int bNull = 0; 
  int rc = SQLITE_OK;

  if( pSession->rc ) return;

  /* Load table details if required */
  if( sessionInitTable(pSession, pTab) ) return;

  /* Check the number of columns in this xPreUpdate call matches the 
  ** number of columns in the table.  */
  if( pTab->nCol!=pSession->hook.xCount(pSession->hook.pCtx) ){
    pSession->rc = SQLITE_SCHEMA;
    return;
  }

  /* Grow the hash table if required */
  if( sessionGrowHash(0, pTab) ){
    pSession->rc = SQLITE_NOMEM;
    return;
  }

  /* Calculate the hash-key for this change. If the primary key of the row
  ** includes a NULL value, exit early. Such changes are ignored by the
  ** session module. */
  rc = sessionPreupdateHash(pSession, pTab, op==SQLITE_INSERT, &iHash, &bNull);
  if( rc!=SQLITE_OK ) goto error_out;

  if( bNull==0 ){
    /* Search the hash table for an existing record for this row. */
    SessionChange *pC;
    for(pC=pTab->apChange[iHash]; pC; pC=pC->pNext){
      if( sessionPreupdateEqual(pSession, pTab, pC, op) ) break;
    }

    if( pC==0 ){
      /* Create a new change object containing all the old values (if
      ** this is an SQLITE_UPDATE or SQLITE_DELETE), or just the PK
      ** values (if this is an INSERT). */
      SessionChange *pChange; /* New change object */
      int nByte;              /* Number of bytes to allocate */
      int i;                  /* Used to iterate through columns */
  
      assert( rc==SQLITE_OK );
      pTab->nEntry++;
  
      /* Figure out how large an allocation is required */
      nByte = sizeof(SessionChange);
      for(i=0; i<pTab->nCol; i++){
        sqlite3_value *p = 0;
        if( op!=SQLITE_INSERT ){
          TESTONLY(int trc = ) pSession->hook.xOld(pSession->hook.pCtx, i, &p);
          assert( trc==SQLITE_OK );
        }else if( pTab->abPK[i] ){
          TESTONLY(int trc = ) pSession->hook.xNew(pSession->hook.pCtx, i, &p);
          assert( trc==SQLITE_OK );
        }

        /* This may fail if SQLite value p contains a utf-16 string that must
        ** be converted to utf-8 and an OOM error occurs while doing so. */
        rc = sessionSerializeValue(0, p, &nByte);
        if( rc!=SQLITE_OK ) goto error_out;
      }
  
      /* Allocate the change object */
      pChange = (SessionChange *)sqlite3_malloc(nByte);
      if( !pChange ){
        rc = SQLITE_NOMEM;
        goto error_out;
      }else{
        memset(pChange, 0, sizeof(SessionChange));
        pChange->aRecord = (u8 *)&pChange[1];
      }
  
      /* Populate the change object. None of the preupdate_old(),
      ** preupdate_new() or SerializeValue() calls below may fail as all
      ** required values and encodings have already been cached in memory.
      ** It is not possible for an OOM to occur in this block. */
      nByte = 0;
      for(i=0; i<pTab->nCol; i++){
        sqlite3_value *p = 0;
        if( op!=SQLITE_INSERT ){
          pSession->hook.xOld(pSession->hook.pCtx, i, &p);
        }else if( pTab->abPK[i] ){
          pSession->hook.xNew(pSession->hook.pCtx, i, &p);
        }
        sessionSerializeValue(&pChange->aRecord[nByte], p, &nByte);
      }

      /* Add the change to the hash-table */
      if( pSession->bIndirect || pSession->hook.xDepth(pSession->hook.pCtx) ){
        pChange->bIndirect = 1;
      }
      pChange->nRecord = nByte;
      pChange->op = op;
      pChange->pNext = pTab->apChange[iHash];
      pTab->apChange[iHash] = pChange;

    }else if( pC->bIndirect ){
      /* If the existing change is considered "indirect", but this current
      ** change is "direct", mark the change object as direct. */
      if( pSession->hook.xDepth(pSession->hook.pCtx)==0 
       && pSession->bIndirect==0 
      ){
        pC->bIndirect = 0;
      }
    }
  }

  /* If an error has occurred, mark the session object as failed. */
 error_out:
  if( rc!=SQLITE_OK ){
    pSession->rc = rc;
  }
}

static int sessionFindTable(
  sqlite3_session *pSession, 
  const char *zName,
  SessionTable **ppTab
){
  int rc = SQLITE_OK;
  int nName = sqlite3Strlen30(zName);
  SessionTable *pRet;

  /* Search for an existing table */
  for(pRet=pSession->pTable; pRet; pRet=pRet->pNext){
    if( 0==sqlite3_strnicmp(pRet->zName, zName, nName+1) ) break;
  }

  if( pRet==0 && pSession->bAutoAttach ){
    /* If there is a table-filter configured, invoke it. If it returns 0,
    ** do not automatically add the new table. */
    if( pSession->xTableFilter==0
     || pSession->xTableFilter(pSession->pFilterCtx, zName) 
    ){
      rc = sqlite3session_attach(pSession, zName);
      if( rc==SQLITE_OK ){
        for(pRet=pSession->pTable; pRet->pNext; pRet=pRet->pNext);
        assert( 0==sqlite3_strnicmp(pRet->zName, zName, nName+1) );
      }
    }
  }

  assert( rc==SQLITE_OK || pRet==0 );
  *ppTab = pRet;
  return rc;
}

/*
** The 'pre-update' hook registered by this module with SQLite databases.
*/
static void xPreUpdate(
  void *pCtx,                     /* Copy of third arg to preupdate_hook() */
  sqlite3 *db,                    /* Database handle */
  int op,                         /* SQLITE_UPDATE, DELETE or INSERT */
  char const *zDb,                /* Database name */
  char const *zName,              /* Table name */
  sqlite3_int64 iKey1,            /* Rowid of row about to be deleted/updated */
  sqlite3_int64 iKey2             /* New rowid value (for a rowid UPDATE) */
){
  sqlite3_session *pSession;
  int nDb = sqlite3Strlen30(zDb);

  assert( sqlite3_mutex_held(db->mutex) );

  for(pSession=(sqlite3_session *)pCtx; pSession; pSession=pSession->pNext){
    SessionTable *pTab;

    /* If this session is attached to a different database ("main", "temp" 
    ** etc.), or if it is not currently enabled, there is nothing to do. Skip 
    ** to the next session object attached to this database. */
    if( pSession->bEnable==0 ) continue;
    if( pSession->rc ) continue;
    if( sqlite3_strnicmp(zDb, pSession->zDb, nDb+1) ) continue;

    pSession->rc = sessionFindTable(pSession, zName, &pTab);
    if( pTab ){
      assert( pSession->rc==SQLITE_OK );
      sessionPreupdateOneChange(op, pSession, pTab);
      if( op==SQLITE_UPDATE ){
        sessionPreupdateOneChange(SQLITE_INSERT, pSession, pTab);
      }
    }
  }
}

/*
** The pre-update hook implementations.
*/
static int sessionPreupdateOld(void *pCtx, int iVal, sqlite3_value **ppVal){
  return sqlite3_preupdate_old((sqlite3*)pCtx, iVal, ppVal);
}
static int sessionPreupdateNew(void *pCtx, int iVal, sqlite3_value **ppVal){
  return sqlite3_preupdate_new((sqlite3*)pCtx, iVal, ppVal);
}
static int sessionPreupdateCount(void *pCtx){
  return sqlite3_preupdate_count((sqlite3*)pCtx);
}
static int sessionPreupdateDepth(void *pCtx){
  return sqlite3_preupdate_depth((sqlite3*)pCtx);
}

/*
** Install the pre-update hooks on the session object passed as the only
** argument.
*/
static void sessionPreupdateHooks(
  sqlite3_session *pSession
){
  pSession->hook.pCtx = (void*)pSession->db;
  pSession->hook.xOld = sessionPreupdateOld;
  pSession->hook.xNew = sessionPreupdateNew;
  pSession->hook.xCount = sessionPreupdateCount;
  pSession->hook.xDepth = sessionPreupdateDepth;
}

typedef struct SessionDiffCtx SessionDiffCtx;
struct SessionDiffCtx {
  sqlite3_stmt *pStmt;
  int nOldOff;
};

/*
** The diff hook implementations.
*/
static int sessionDiffOld(void *pCtx, int iVal, sqlite3_value **ppVal){
  SessionDiffCtx *p = (SessionDiffCtx*)pCtx;
  *ppVal = sqlite3_column_value(p->pStmt, iVal+p->nOldOff);
  return SQLITE_OK;
}
static int sessionDiffNew(void *pCtx, int iVal, sqlite3_value **ppVal){
  SessionDiffCtx *p = (SessionDiffCtx*)pCtx;
  *ppVal = sqlite3_column_value(p->pStmt, iVal);
   return SQLITE_OK;
}
static int sessionDiffCount(void *pCtx){
  SessionDiffCtx *p = (SessionDiffCtx*)pCtx;
  return p->nOldOff ? p->nOldOff : sqlite3_column_count(p->pStmt);
}
static int sessionDiffDepth(void *pCtx){
  return 0;
}

/*
** Install the diff hooks on the session object passed as the only
** argument.
*/
static void sessionDiffHooks(
  sqlite3_session *pSession,
  SessionDiffCtx *pDiffCtx
){
  pSession->hook.pCtx = (void*)pDiffCtx;
  pSession->hook.xOld = sessionDiffOld;
  pSession->hook.xNew = sessionDiffNew;
  pSession->hook.xCount = sessionDiffCount;
  pSession->hook.xDepth = sessionDiffDepth;
}

static char *sessionExprComparePK(
  int nCol,
  const char *zDb1, const char *zDb2, 
  const char *zTab,
  const char **azCol, u8 *abPK
){
  int i;
  const char *zSep = "";
  char *zRet = 0;

  for(i=0; i<nCol; i++){
    if( abPK[i] ){
      zRet = sqlite3_mprintf("%z%s\"%w\".\"%w\".\"%w\"=\"%w\".\"%w\".\"%w\"",
          zRet, zSep, zDb1, zTab, azCol[i], zDb2, zTab, azCol[i]
      );
      zSep = " AND ";
      if( zRet==0 ) break;
    }
  }

  return zRet;
}

static char *sessionExprCompareOther(
  int nCol,
  const char *zDb1, const char *zDb2, 
  const char *zTab,
  const char **azCol, u8 *abPK
){
  int i;
  const char *zSep = "";
  char *zRet = 0;
  int bHave = 0;

  for(i=0; i<nCol; i++){
    if( abPK[i]==0 ){
      bHave = 1;
      zRet = sqlite3_mprintf(
          "%z%s\"%w\".\"%w\".\"%w\" IS NOT \"%w\".\"%w\".\"%w\"",
          zRet, zSep, zDb1, zTab, azCol[i], zDb2, zTab, azCol[i]
      );
      zSep = " OR ";
      if( zRet==0 ) break;
    }
  }

  if( bHave==0 ){
    assert( zRet==0 );
    zRet = sqlite3_mprintf("0");
  }

  return zRet;
}

static char *sessionSelectFindNew(
  int nCol,
  const char *zDb1,      /* Pick rows in this db only */
  const char *zDb2,      /* But not in this one */
  const char *zTbl,      /* Table name */
  const char *zExpr
){
  char *zRet = sqlite3_mprintf(
      "SELECT * FROM \"%w\".\"%w\" WHERE NOT EXISTS ("
      "  SELECT 1 FROM \"%w\".\"%w\" WHERE %s"
      ")",
      zDb1, zTbl, zDb2, zTbl, zExpr
  );
  return zRet;
}

static int sessionDiffFindNew(
  int op,
  sqlite3_session *pSession,
  SessionTable *pTab,
  const char *zDb1,
  const char *zDb2,
  char *zExpr
){
  int rc = SQLITE_OK;
  char *zStmt = sessionSelectFindNew(pTab->nCol, zDb1, zDb2, pTab->zName,zExpr);

  if( zStmt==0 ){
    rc = SQLITE_NOMEM;
  }else{
    sqlite3_stmt *pStmt;
    rc = sqlite3_prepare(pSession->db, zStmt, -1, &pStmt, 0);
    if( rc==SQLITE_OK ){
      SessionDiffCtx *pDiffCtx = (SessionDiffCtx*)pSession->hook.pCtx;
      pDiffCtx->pStmt = pStmt;
      pDiffCtx->nOldOff = 0;
      while( SQLITE_ROW==sqlite3_step(pStmt) ){
        sessionPreupdateOneChange(op, pSession, pTab);
      }
      rc = sqlite3_finalize(pStmt);
    }
    sqlite3_free(zStmt);
  }

  return rc;
}

static int sessionDiffFindModified(
  sqlite3_session *pSession, 
  SessionTable *pTab, 
  const char *zFrom, 
  const char *zExpr
){
  int rc = SQLITE_OK;

  char *zExpr2 = sessionExprCompareOther(pTab->nCol,
      pSession->zDb, zFrom, pTab->zName, pTab->azCol, pTab->abPK
  );
  if( zExpr2==0 ){
    rc = SQLITE_NOMEM;
  }else{
    char *zStmt = sqlite3_mprintf(
        "SELECT * FROM \"%w\".\"%w\", \"%w\".\"%w\" WHERE %s AND (%z)",
        pSession->zDb, pTab->zName, zFrom, pTab->zName, zExpr, zExpr2
    );
    if( zStmt==0 ){
      rc = SQLITE_NOMEM;
    }else{
      sqlite3_stmt *pStmt;
      rc = sqlite3_prepare(pSession->db, zStmt, -1, &pStmt, 0);

      if( rc==SQLITE_OK ){
        SessionDiffCtx *pDiffCtx = (SessionDiffCtx*)pSession->hook.pCtx;
        pDiffCtx->pStmt = pStmt;
        pDiffCtx->nOldOff = pTab->nCol;
        while( SQLITE_ROW==sqlite3_step(pStmt) ){
          sessionPreupdateOneChange(SQLITE_UPDATE, pSession, pTab);
        }
        rc = sqlite3_finalize(pStmt);
      }
      sqlite3_free(zStmt);
    }
  }

  return rc;
}

int sqlite3session_diff(
  sqlite3_session *pSession,
  const char *zFrom,
  const char *zTbl,
  char **pzErrMsg
){
  const char *zDb = pSession->zDb;
  int rc = pSession->rc;
  SessionDiffCtx d;

  memset(&d, 0, sizeof(d));
  sessionDiffHooks(pSession, &d);

  sqlite3_mutex_enter(sqlite3_db_mutex(pSession->db));
  if( pzErrMsg ) *pzErrMsg = 0;
  if( rc==SQLITE_OK ){
    char *zExpr = 0;
    sqlite3 *db = pSession->db;
    SessionTable *pTo;            /* Table zTbl */

    /* Locate and if necessary initialize the target table object */
    rc = sessionFindTable(pSession, zTbl, &pTo);
    if( pTo==0 ) goto diff_out;
    if( sessionInitTable(pSession, pTo) ){
      rc = pSession->rc;
      goto diff_out;
    }

    /* Check the table schemas match */
    if( rc==SQLITE_OK ){
      int bHasPk = 0;
      int bMismatch = 0;
      int nCol;                   /* Columns in zFrom.zTbl */
      u8 *abPK;
      const char **azCol = 0;
      rc = sessionTableInfo(db, zFrom, zTbl, &nCol, 0, &azCol, &abPK);
      if( rc==SQLITE_OK ){
        if( pTo->nCol!=nCol ){
          bMismatch = 1;
        }else{
          int i;
          for(i=0; i<nCol; i++){
            if( pTo->abPK[i]!=abPK[i] ) bMismatch = 1;
            if( sqlite3_stricmp(azCol[i], pTo->azCol[i]) ) bMismatch = 1;
            if( abPK[i] ) bHasPk = 1;
          }
        }

      }
      sqlite3_free((char*)azCol);
      if( bMismatch ){
        *pzErrMsg = sqlite3_mprintf("table schemas do not match");
        rc = SQLITE_SCHEMA;
      }
      if( bHasPk==0 ){
        /* Ignore tables with no primary keys */
        goto diff_out;
      }
    }

    if( rc==SQLITE_OK ){
      zExpr = sessionExprComparePK(pTo->nCol, 
          zDb, zFrom, pTo->zName, pTo->azCol, pTo->abPK
      );
    }

    /* Find new rows */
    if( rc==SQLITE_OK ){
      rc = sessionDiffFindNew(SQLITE_INSERT, pSession, pTo, zDb, zFrom, zExpr);
    }

    /* Find old rows */
    if( rc==SQLITE_OK ){
      rc = sessionDiffFindNew(SQLITE_DELETE, pSession, pTo, zFrom, zDb, zExpr);
    }

    /* Find modified rows */
    if( rc==SQLITE_OK ){
      rc = sessionDiffFindModified(pSession, pTo, zFrom, zExpr);
    }

    sqlite3_free(zExpr);
  }

 diff_out:
  sessionPreupdateHooks(pSession);
  sqlite3_mutex_leave(sqlite3_db_mutex(pSession->db));
  return rc;
}

/*
** Create a session object. This session object will record changes to
** database zDb attached to connection db.
*/
int sqlite3session_create(
  sqlite3 *db,                    /* Database handle */
  const char *zDb,                /* Name of db (e.g. "main") */
  sqlite3_session **ppSession     /* OUT: New session object */
){
  sqlite3_session *pNew;          /* Newly allocated session object */
  sqlite3_session *pOld;          /* Session object already attached to db */
  int nDb = sqlite3Strlen30(zDb); /* Length of zDb in bytes */

  /* Zero the output value in case an error occurs. */
  *ppSession = 0;

  /* Allocate and populate the new session object. */
  pNew = (sqlite3_session *)sqlite3_malloc(sizeof(sqlite3_session) + nDb + 1);
  if( !pNew ) return SQLITE_NOMEM;
  memset(pNew, 0, sizeof(sqlite3_session));
  pNew->db = db;
  pNew->zDb = (char *)&pNew[1];
  pNew->bEnable = 1;
  memcpy(pNew->zDb, zDb, nDb+1);
  sessionPreupdateHooks(pNew);

  /* Add the new session object to the linked list of session objects 
  ** attached to database handle $db. Do this under the cover of the db
  ** handle mutex.  */
  sqlite3_mutex_enter(sqlite3_db_mutex(db));
  pOld = (sqlite3_session*)sqlite3_preupdate_hook(db, xPreUpdate, (void*)pNew);
  pNew->pNext = pOld;
  sqlite3_mutex_leave(sqlite3_db_mutex(db));

  *ppSession = pNew;
  return SQLITE_OK;
}

/*
** Free the list of table objects passed as the first argument. The contents
** of the changed-rows hash tables are also deleted.
*/
static void sessionDeleteTable(SessionTable *pList){
  SessionTable *pNext;
  SessionTable *pTab;

  for(pTab=pList; pTab; pTab=pNext){
    int i;
    pNext = pTab->pNext;
    for(i=0; i<pTab->nChange; i++){
      SessionChange *p;
      SessionChange *pNextChange;
      for(p=pTab->apChange[i]; p; p=pNextChange){
        pNextChange = p->pNext;
        sqlite3_free(p);
      }
    }
    sqlite3_free((char*)pTab->azCol);  /* cast works around VC++ bug */
    sqlite3_free(pTab->apChange);
    sqlite3_free(pTab);
  }
}

/*
** Delete a session object previously allocated using sqlite3session_create().
*/
void sqlite3session_delete(sqlite3_session *pSession){
  sqlite3 *db = pSession->db;
  sqlite3_session *pHead;
  sqlite3_session **pp;

  /* Unlink the session from the linked list of sessions attached to the
  ** database handle. Hold the db mutex while doing so.  */
  sqlite3_mutex_enter(sqlite3_db_mutex(db));
  pHead = (sqlite3_session*)sqlite3_preupdate_hook(db, 0, 0);
  for(pp=&pHead; ALWAYS((*pp)!=0); pp=&((*pp)->pNext)){
    if( (*pp)==pSession ){
      *pp = (*pp)->pNext;
      if( pHead ) sqlite3_preupdate_hook(db, xPreUpdate, (void*)pHead);
      break;
    }
  }
  sqlite3_mutex_leave(sqlite3_db_mutex(db));

  /* Delete all attached table objects. And the contents of their 
  ** associated hash-tables. */
  sessionDeleteTable(pSession->pTable);

  /* Free the session object itself. */
  sqlite3_free(pSession);
}

/*
** Set a table filter on a Session Object.
*/
void sqlite3session_table_filter(
  sqlite3_session *pSession, 
  int(*xFilter)(void*, const char*),
  void *pCtx                      /* First argument passed to xFilter */
){
  pSession->bAutoAttach = 1;
  pSession->pFilterCtx = pCtx;
  pSession->xTableFilter = xFilter;
}

/*
** Attach a table to a session. All subsequent changes made to the table
** while the session object is enabled will be recorded.
**
** Only tables that have a PRIMARY KEY defined may be attached. It does
** not matter if the PRIMARY KEY is an "INTEGER PRIMARY KEY" (rowid alias)
** or not.
*/
int sqlite3session_attach(
  sqlite3_session *pSession,      /* Session object */
  const char *zName               /* Table name */
){
  int rc = SQLITE_OK;
  sqlite3_mutex_enter(sqlite3_db_mutex(pSession->db));

  if( !zName ){
    pSession->bAutoAttach = 1;
  }else{
    SessionTable *pTab;           /* New table object (if required) */
    int nName;                    /* Number of bytes in string zName */

    /* First search for an existing entry. If one is found, this call is
    ** a no-op. Return early. */
    nName = sqlite3Strlen30(zName);
    for(pTab=pSession->pTable; pTab; pTab=pTab->pNext){
      if( 0==sqlite3_strnicmp(pTab->zName, zName, nName+1) ) break;
    }

    if( !pTab ){
      /* Allocate new SessionTable object. */
      pTab = (SessionTable *)sqlite3_malloc(sizeof(SessionTable) + nName + 1);
      if( !pTab ){
        rc = SQLITE_NOMEM;
      }else{
        /* Populate the new SessionTable object and link it into the list.
        ** The new object must be linked onto the end of the list, not 
        ** simply added to the start of it in order to ensure that tables
        ** appear in the correct order when a changeset or patchset is
        ** eventually generated. */
        SessionTable **ppTab;
        memset(pTab, 0, sizeof(SessionTable));
        pTab->zName = (char *)&pTab[1];
        memcpy(pTab->zName, zName, nName+1);
        for(ppTab=&pSession->pTable; *ppTab; ppTab=&(*ppTab)->pNext);
        *ppTab = pTab;
      }
    }
  }

  sqlite3_mutex_leave(sqlite3_db_mutex(pSession->db));
  return rc;
}

/*
** Ensure that there is room in the buffer to append nByte bytes of data.
** If not, use sqlite3_realloc() to grow the buffer so that there is.
**
** If successful, return zero. Otherwise, if an OOM condition is encountered,
** set *pRc to SQLITE_NOMEM and return non-zero.
*/
static int sessionBufferGrow(SessionBuffer *p, int nByte, int *pRc){
  if( *pRc==SQLITE_OK && p->nAlloc-p->nBuf<nByte ){
    u8 *aNew;
    int nNew = p->nAlloc ? p->nAlloc : 128;
    do {
      nNew = nNew*2;
    }while( nNew<(p->nBuf+nByte) );

    aNew = (u8 *)sqlite3_realloc(p->aBuf, nNew);
    if( 0==aNew ){
      *pRc = SQLITE_NOMEM;
    }else{
      p->aBuf = aNew;
      p->nAlloc = nNew;
    }
  }
  return (*pRc!=SQLITE_OK);
}

/*
** Append the value passed as the second argument to the buffer passed
** as the first.
**
** This function is a no-op if *pRc is non-zero when it is called.
** Otherwise, if an error occurs, *pRc is set to an SQLite error code
** before returning.
*/
static void sessionAppendValue(SessionBuffer *p, sqlite3_value *pVal, int *pRc){
  int rc = *pRc;
  if( rc==SQLITE_OK ){
    int nByte = 0;
    rc = sessionSerializeValue(0, pVal, &nByte);
    sessionBufferGrow(p, nByte, &rc);
    if( rc==SQLITE_OK ){
      rc = sessionSerializeValue(&p->aBuf[p->nBuf], pVal, 0);
      p->nBuf += nByte;
    }else{
      *pRc = rc;
    }
  }
}

/*
** This function is a no-op if *pRc is other than SQLITE_OK when it is 
** called. Otherwise, append a single byte to the buffer. 
**
** If an OOM condition is encountered, set *pRc to SQLITE_NOMEM before
** returning.
*/
static void sessionAppendByte(SessionBuffer *p, u8 v, int *pRc){
  if( 0==sessionBufferGrow(p, 1, pRc) ){
    p->aBuf[p->nBuf++] = v;
  }
}

/*
** This function is a no-op if *pRc is other than SQLITE_OK when it is 
** called. Otherwise, append a single varint to the buffer. 
**
** If an OOM condition is encountered, set *pRc to SQLITE_NOMEM before
** returning.
*/
static void sessionAppendVarint(SessionBuffer *p, int v, int *pRc){
  if( 0==sessionBufferGrow(p, 9, pRc) ){
    p->nBuf += sessionVarintPut(&p->aBuf[p->nBuf], v);
  }
}

/*
** This function is a no-op if *pRc is other than SQLITE_OK when it is 
** called. Otherwise, append a blob of data to the buffer. 
**
** If an OOM condition is encountered, set *pRc to SQLITE_NOMEM before
** returning.
*/
static void sessionAppendBlob(
  SessionBuffer *p, 
  const u8 *aBlob, 
  int nBlob, 
  int *pRc
){
  if( 0==sessionBufferGrow(p, nBlob, pRc) ){
    memcpy(&p->aBuf[p->nBuf], aBlob, nBlob);
    p->nBuf += nBlob;
  }
}

/*
** This function is a no-op if *pRc is other than SQLITE_OK when it is 
** called. Otherwise, append a string to the buffer. All bytes in the string
** up to (but not including) the nul-terminator are written to the buffer.
**
** If an OOM condition is encountered, set *pRc to SQLITE_NOMEM before
** returning.
*/
static void sessionAppendStr(
  SessionBuffer *p, 
  const char *zStr, 
  int *pRc
){
  int nStr = sqlite3Strlen30(zStr);
  if( 0==sessionBufferGrow(p, nStr, pRc) ){
    memcpy(&p->aBuf[p->nBuf], zStr, nStr);
    p->nBuf += nStr;
  }
}

/*
** This function is a no-op if *pRc is other than SQLITE_OK when it is 
** called. Otherwise, append the string representation of integer iVal
** to the buffer. No nul-terminator is written.
**
** If an OOM condition is encountered, set *pRc to SQLITE_NOMEM before
** returning.
*/
static void sessionAppendInteger(
  SessionBuffer *p,               /* Buffer to append to */
  int iVal,                       /* Value to write the string rep. of */
  int *pRc                        /* IN/OUT: Error code */
){
  char aBuf[24];
  sqlite3_snprintf(sizeof(aBuf)-1, aBuf, "%d", iVal);
  sessionAppendStr(p, aBuf, pRc);
}

/*
** This function is a no-op if *pRc is other than SQLITE_OK when it is 
** called. Otherwise, append the string zStr enclosed in quotes (") and
** with any embedded quote characters escaped to the buffer. No 
** nul-terminator byte is written.
**
** If an OOM condition is encountered, set *pRc to SQLITE_NOMEM before
** returning.
*/
static void sessionAppendIdent(
  SessionBuffer *p,               /* Buffer to a append to */
  const char *zStr,               /* String to quote, escape and append */
  int *pRc                        /* IN/OUT: Error code */
){
  int nStr = sqlite3Strlen30(zStr)*2 + 2 + 1;
  if( 0==sessionBufferGrow(p, nStr, pRc) ){
    char *zOut = (char *)&p->aBuf[p->nBuf];
    const char *zIn = zStr;
    *zOut++ = '"';
    while( *zIn ){
      if( *zIn=='"' ) *zOut++ = '"';
      *zOut++ = *(zIn++);
    }
    *zOut++ = '"';
    p->nBuf = (int)((u8 *)zOut - p->aBuf);
  }
}

/*
** This function is a no-op if *pRc is other than SQLITE_OK when it is
** called. Otherwse, it appends the serialized version of the value stored
** in column iCol of the row that SQL statement pStmt currently points
** to to the buffer.
*/
static void sessionAppendCol(
  SessionBuffer *p,               /* Buffer to append to */
  sqlite3_stmt *pStmt,            /* Handle pointing to row containing value */
  int iCol,                       /* Column to read value from */
  int *pRc                        /* IN/OUT: Error code */
){
  if( *pRc==SQLITE_OK ){
    int eType = sqlite3_column_type(pStmt, iCol);
    sessionAppendByte(p, (u8)eType, pRc);
    if( eType==SQLITE_INTEGER || eType==SQLITE_FLOAT ){
      sqlite3_int64 i;
      u8 aBuf[8];
      if( eType==SQLITE_INTEGER ){
        i = sqlite3_column_int64(pStmt, iCol);
      }else{
        double r = sqlite3_column_double(pStmt, iCol);
        memcpy(&i, &r, 8);
      }
      sessionPutI64(aBuf, i);
      sessionAppendBlob(p, aBuf, 8, pRc);
    }
    if( eType==SQLITE_BLOB || eType==SQLITE_TEXT ){
      u8 *z;
      int nByte;
      if( eType==SQLITE_BLOB ){
        z = (u8 *)sqlite3_column_blob(pStmt, iCol);
      }else{
        z = (u8 *)sqlite3_column_text(pStmt, iCol);
      }
      nByte = sqlite3_column_bytes(pStmt, iCol);
      if( z || (eType==SQLITE_BLOB && nByte==0) ){
        sessionAppendVarint(p, nByte, pRc);
        sessionAppendBlob(p, z, nByte, pRc);
      }else{
        *pRc = SQLITE_NOMEM;
      }
    }
  }
}

/*
**
** This function appends an update change to the buffer (see the comments 
** under "CHANGESET FORMAT" at the top of the file). An update change 
** consists of:
**
**   1 byte:  SQLITE_UPDATE (0x17)
**   n bytes: old.* record (see RECORD FORMAT)
**   m bytes: new.* record (see RECORD FORMAT)
**
** The SessionChange object passed as the third argument contains the
** values that were stored in the row when the session began (the old.*
** values). The statement handle passed as the second argument points
** at the current version of the row (the new.* values).
**
** If all of the old.* values are equal to their corresponding new.* value
** (i.e. nothing has changed), then no data at all is appended to the buffer.
**
** Otherwise, the old.* record contains all primary key values and the 
** original values of any fields that have been modified. The new.* record 
** contains the new values of only those fields that have been modified.
*/ 
static int sessionAppendUpdate(
  SessionBuffer *pBuf,            /* Buffer to append to */
  int bPatchset,                  /* True for "patchset", 0 for "changeset" */
  sqlite3_stmt *pStmt,            /* Statement handle pointing at new row */
  SessionChange *p,               /* Object containing old values */
  u8 *abPK                        /* Boolean array - true for PK columns */
){
  int rc = SQLITE_OK;
  SessionBuffer buf2 = {0,0,0}; /* Buffer to accumulate new.* record in */
  int bNoop = 1;                /* Set to zero if any values are modified */
  int nRewind = pBuf->nBuf;     /* Set to zero if any values are modified */
  int i;                        /* Used to iterate through columns */
  u8 *pCsr = p->aRecord;        /* Used to iterate through old.* values */

  sessionAppendByte(pBuf, SQLITE_UPDATE, &rc);
  sessionAppendByte(pBuf, p->bIndirect, &rc);
  for(i=0; i<sqlite3_column_count(pStmt); i++){
    int bChanged = 0;
    int nAdvance;
    int eType = *pCsr;
    switch( eType ){
      case SQLITE_NULL:
        nAdvance = 1;
        if( sqlite3_column_type(pStmt, i)!=SQLITE_NULL ){
          bChanged = 1;
        }
        break;

      case SQLITE_FLOAT:
      case SQLITE_INTEGER: {
        nAdvance = 9;
        if( eType==sqlite3_column_type(pStmt, i) ){
          sqlite3_int64 iVal = sessionGetI64(&pCsr[1]);
          if( eType==SQLITE_INTEGER ){
            if( iVal==sqlite3_column_int64(pStmt, i) ) break;
          }else{
            double dVal;
            memcpy(&dVal, &iVal, 8);
            if( dVal==sqlite3_column_double(pStmt, i) ) break;
          }
        }
        bChanged = 1;
        break;
      }

      default: {
        int nByte;
        int nHdr = 1 + sessionVarintGet(&pCsr[1], &nByte);
        assert( eType==SQLITE_TEXT || eType==SQLITE_BLOB );
        nAdvance = nHdr + nByte;
        if( eType==sqlite3_column_type(pStmt, i) 
         && nByte==sqlite3_column_bytes(pStmt, i) 
         && 0==memcmp(&pCsr[nHdr], sqlite3_column_blob(pStmt, i), nByte)
        ){
          break;
        }
        bChanged = 1;
      }
    }

    /* If at least one field has been modified, this is not a no-op. */
    if( bChanged ) bNoop = 0;

    /* Add a field to the old.* record. This is omitted if this modules is
    ** currently generating a patchset. */
    if( bPatchset==0 ){
      if( bChanged || abPK[i] ){
        sessionAppendBlob(pBuf, pCsr, nAdvance, &rc);
      }else{
        sessionAppendByte(pBuf, 0, &rc);
      }
    }

    /* Add a field to the new.* record. Or the only record if currently
    ** generating a patchset.  */
    if( bChanged || (bPatchset && abPK[i]) ){
      sessionAppendCol(&buf2, pStmt, i, &rc);
    }else{
      sessionAppendByte(&buf2, 0, &rc);
    }

    pCsr += nAdvance;
  }

  if( bNoop ){
    pBuf->nBuf = nRewind;
  }else{
    sessionAppendBlob(pBuf, buf2.aBuf, buf2.nBuf, &rc);
  }
  sqlite3_free(buf2.aBuf);

  return rc;
}

/*
** Append a DELETE change to the buffer passed as the first argument. Use
** the changeset format if argument bPatchset is zero, or the patchset
** format otherwise.
*/
static int sessionAppendDelete(
  SessionBuffer *pBuf,            /* Buffer to append to */
  int bPatchset,                  /* True for "patchset", 0 for "changeset" */
  SessionChange *p,               /* Object containing old values */
  int nCol,                       /* Number of columns in table */
  u8 *abPK                        /* Boolean array - true for PK columns */
){
  int rc = SQLITE_OK;

  sessionAppendByte(pBuf, SQLITE_DELETE, &rc);
  sessionAppendByte(pBuf, p->bIndirect, &rc);

  if( bPatchset==0 ){
    sessionAppendBlob(pBuf, p->aRecord, p->nRecord, &rc);
  }else{
    int i;
    u8 *a = p->aRecord;
    for(i=0; i<nCol; i++){
      u8 *pStart = a;
      int eType = *a++;

      switch( eType ){
        case 0:
        case SQLITE_NULL:
          assert( abPK[i]==0 );
          break;

        case SQLITE_FLOAT:
        case SQLITE_INTEGER:
          a += 8;
          break;

        default: {
          int n;
          a += sessionVarintGet(a, &n);
          a += n;
          break;
        }
      }
      if( abPK[i] ){
        sessionAppendBlob(pBuf, pStart, (int)(a-pStart), &rc);
      }
    }
    assert( (a - p->aRecord)==p->nRecord );
  }

  return rc;
}

/*
** Formulate and prepare a SELECT statement to retrieve a row from table
** zTab in database zDb based on its primary key. i.e.
**
**   SELECT * FROM zDb.zTab WHERE pk1 = ? AND pk2 = ? AND ...
*/
static int sessionSelectStmt(
  sqlite3 *db,                    /* Database handle */
  const char *zDb,                /* Database name */
  const char *zTab,               /* Table name */
  int nCol,                       /* Number of columns in table */
  const char **azCol,             /* Names of table columns */
  u8 *abPK,                       /* PRIMARY KEY  array */
  sqlite3_stmt **ppStmt           /* OUT: Prepared SELECT statement */
){
  int rc = SQLITE_OK;
  int i;
  const char *zSep = "";
  SessionBuffer buf = {0, 0, 0};

  sessionAppendStr(&buf, "SELECT * FROM ", &rc);
  sessionAppendIdent(&buf, zDb, &rc);
  sessionAppendStr(&buf, ".", &rc);
  sessionAppendIdent(&buf, zTab, &rc);
  sessionAppendStr(&buf, " WHERE ", &rc);
  for(i=0; i<nCol; i++){
    if( abPK[i] ){
      sessionAppendStr(&buf, zSep, &rc);
      sessionAppendIdent(&buf, azCol[i], &rc);
      sessionAppendStr(&buf, " = ?", &rc);
      sessionAppendInteger(&buf, i+1, &rc);
      zSep = " AND ";
    }
  }
  if( rc==SQLITE_OK ){
    rc = sqlite3_prepare_v2(db, (char *)buf.aBuf, buf.nBuf, ppStmt, 0);
  }
  sqlite3_free(buf.aBuf);
  return rc;
}

/*
** Bind the PRIMARY KEY values from the change passed in argument pChange
** to the SELECT statement passed as the first argument. The SELECT statement
** is as prepared by function sessionSelectStmt().
**
** Return SQLITE_OK if all PK values are successfully bound, or an SQLite
** error code (e.g. SQLITE_NOMEM) otherwise.
*/
static int sessionSelectBind(
  sqlite3_stmt *pSelect,          /* SELECT from sessionSelectStmt() */
  int nCol,                       /* Number of columns in table */
  u8 *abPK,                       /* PRIMARY KEY array */
  SessionChange *pChange          /* Change structure */
){
  int i;
  int rc = SQLITE_OK;
  u8 *a = pChange->aRecord;

  for(i=0; i<nCol && rc==SQLITE_OK; i++){
    int eType = *a++;

    switch( eType ){
      case 0:
      case SQLITE_NULL:
        assert( abPK[i]==0 );
        break;

      case SQLITE_INTEGER: {
        if( abPK[i] ){
          i64 iVal = sessionGetI64(a);
          rc = sqlite3_bind_int64(pSelect, i+1, iVal);
        }
        a += 8;
        break;
      }

      case SQLITE_FLOAT: {
        if( abPK[i] ){
          double rVal;
          i64 iVal = sessionGetI64(a);
          memcpy(&rVal, &iVal, 8);
          rc = sqlite3_bind_double(pSelect, i+1, rVal);
        }
        a += 8;
        break;
      }

      case SQLITE_TEXT: {
        int n;
        a += sessionVarintGet(a, &n);
        if( abPK[i] ){
          rc = sqlite3_bind_text(pSelect, i+1, (char *)a, n, SQLITE_TRANSIENT);
        }
        a += n;
        break;
      }

      default: {
        int n;
        assert( eType==SQLITE_BLOB );
        a += sessionVarintGet(a, &n);
        if( abPK[i] ){
          rc = sqlite3_bind_blob(pSelect, i+1, a, n, SQLITE_TRANSIENT);
        }
        a += n;
        break;
      }
    }
  }

  return rc;
}

/*
** This function is a no-op if *pRc is set to other than SQLITE_OK when it
** is called. Otherwise, append a serialized table header (part of the binary 
** changeset format) to buffer *pBuf. If an error occurs, set *pRc to an
** SQLite error code before returning.
*/
static void sessionAppendTableHdr(
  SessionBuffer *pBuf,            /* Append header to this buffer */
  int bPatchset,                  /* Use the patchset format if true */
  SessionTable *pTab,             /* Table object to append header for */
  int *pRc                        /* IN/OUT: Error code */
){
  /* Write a table header */
  sessionAppendByte(pBuf, (bPatchset ? 'P' : 'T'), pRc);
  sessionAppendVarint(pBuf, pTab->nCol, pRc);
  sessionAppendBlob(pBuf, pTab->abPK, pTab->nCol, pRc);
  sessionAppendBlob(pBuf, (u8 *)pTab->zName, (int)strlen(pTab->zName)+1, pRc);
}

/*
** Generate either a changeset (if argument bPatchset is zero) or a patchset
** (if it is non-zero) based on the current contents of the session object
** passed as the first argument.
**
** If no error occurs, SQLITE_OK is returned and the new changeset/patchset
** stored in output variables *pnChangeset and *ppChangeset. Or, if an error
** occurs, an SQLite error code is returned and both output variables set 
** to 0.
*/
static int sessionGenerateChangeset(
  sqlite3_session *pSession,      /* Session object */
  int bPatchset,                  /* True for patchset, false for changeset */
  int (*xOutput)(void *pOut, const void *pData, int nData),
  void *pOut,                     /* First argument for xOutput */
  int *pnChangeset,               /* OUT: Size of buffer at *ppChangeset */
  void **ppChangeset              /* OUT: Buffer containing changeset */
){
  sqlite3 *db = pSession->db;     /* Source database handle */
  SessionTable *pTab;             /* Used to iterate through attached tables */
  SessionBuffer buf = {0,0,0};    /* Buffer in which to accumlate changeset */
  int rc;                         /* Return code */

  assert( xOutput==0 || (pnChangeset==0 && ppChangeset==0 ) );

  /* Zero the output variables in case an error occurs. If this session
  ** object is already in the error state (sqlite3_session.rc != SQLITE_OK),
  ** this call will be a no-op.  */
  if( xOutput==0 ){
    *pnChangeset = 0;
    *ppChangeset = 0;
  }

  if( pSession->rc ) return pSession->rc;
  rc = sqlite3_exec(pSession->db, "SAVEPOINT changeset", 0, 0, 0);
  if( rc!=SQLITE_OK ) return rc;

  sqlite3_mutex_enter(sqlite3_db_mutex(db));

  for(pTab=pSession->pTable; rc==SQLITE_OK && pTab; pTab=pTab->pNext){
    if( pTab->nEntry ){
      const char *zName = pTab->zName;
      int nCol;                   /* Number of columns in table */
      u8 *abPK;                   /* Primary key array */
      const char **azCol = 0;     /* Table columns */
      int i;                      /* Used to iterate through hash buckets */
      sqlite3_stmt *pSel = 0;     /* SELECT statement to query table pTab */
      int nRewind = buf.nBuf;     /* Initial size of write buffer */
      int nNoop;                  /* Size of buffer after writing tbl header */

      /* Check the table schema is still Ok. */
      rc = sessionTableInfo(db, pSession->zDb, zName, &nCol, 0, &azCol, &abPK);
      if( !rc && (pTab->nCol!=nCol || memcmp(abPK, pTab->abPK, nCol)) ){
        rc = SQLITE_SCHEMA;
      }

      /* Write a table header */
      sessionAppendTableHdr(&buf, bPatchset, pTab, &rc);

      /* Build and compile a statement to execute: */
      if( rc==SQLITE_OK ){
        rc = sessionSelectStmt(
            db, pSession->zDb, zName, nCol, azCol, abPK, &pSel);
      }

      nNoop = buf.nBuf;
      for(i=0; i<pTab->nChange && rc==SQLITE_OK; i++){
        SessionChange *p;         /* Used to iterate through changes */

        for(p=pTab->apChange[i]; rc==SQLITE_OK && p; p=p->pNext){
          rc = sessionSelectBind(pSel, nCol, abPK, p);
          if( rc!=SQLITE_OK ) continue;
          if( sqlite3_step(pSel)==SQLITE_ROW ){
            if( p->op==SQLITE_INSERT ){
              int iCol;
              sessionAppendByte(&buf, SQLITE_INSERT, &rc);
              sessionAppendByte(&buf, p->bIndirect, &rc);
              for(iCol=0; iCol<nCol; iCol++){
                sessionAppendCol(&buf, pSel, iCol, &rc);
              }
            }else{
              rc = sessionAppendUpdate(&buf, bPatchset, pSel, p, abPK);
            }
          }else if( p->op!=SQLITE_INSERT ){
            rc = sessionAppendDelete(&buf, bPatchset, p, nCol, abPK);
          }
          if( rc==SQLITE_OK ){
            rc = sqlite3_reset(pSel);
          }

          /* If the buffer is now larger than SESSIONS_STRM_CHUNK_SIZE, pass
          ** its contents to the xOutput() callback. */
          if( xOutput 
           && rc==SQLITE_OK 
           && buf.nBuf>nNoop 
           && buf.nBuf>SESSIONS_STRM_CHUNK_SIZE 
          ){
            rc = xOutput(pOut, (void*)buf.aBuf, buf.nBuf);
            nNoop = -1;
            buf.nBuf = 0;
          }

        }
      }

      sqlite3_finalize(pSel);
      if( buf.nBuf==nNoop ){
        buf.nBuf = nRewind;
      }
      sqlite3_free((char*)azCol);  /* cast works around VC++ bug */
    }
  }

  if( rc==SQLITE_OK ){
    if( xOutput==0 ){
      *pnChangeset = buf.nBuf;
      *ppChangeset = buf.aBuf;
      buf.aBuf = 0;
    }else if( buf.nBuf>0 ){
      rc = xOutput(pOut, (void*)buf.aBuf, buf.nBuf);
    }
  }

  sqlite3_free(buf.aBuf);
  sqlite3_exec(db, "RELEASE changeset", 0, 0, 0);
  sqlite3_mutex_leave(sqlite3_db_mutex(db));
  return rc;
}

/*
** Obtain a changeset object containing all changes recorded by the 
** session object passed as the first argument.
**
** It is the responsibility of the caller to eventually free the buffer 
** using sqlite3_free().
*/
int sqlite3session_changeset(
  sqlite3_session *pSession,      /* Session object */
  int *pnChangeset,               /* OUT: Size of buffer at *ppChangeset */
  void **ppChangeset              /* OUT: Buffer containing changeset */
){
  return sessionGenerateChangeset(pSession, 0, 0, 0, pnChangeset, ppChangeset);
}

/*
** Streaming version of sqlite3session_changeset().
*/
int sqlite3session_changeset_strm(
  sqlite3_session *pSession,
  int (*xOutput)(void *pOut, const void *pData, int nData),
  void *pOut
){
  return sessionGenerateChangeset(pSession, 0, xOutput, pOut, 0, 0);
}

/*
** Streaming version of sqlite3session_patchset().
*/
int sqlite3session_patchset_strm(
  sqlite3_session *pSession,
  int (*xOutput)(void *pOut, const void *pData, int nData),
  void *pOut
){
  return sessionGenerateChangeset(pSession, 1, xOutput, pOut, 0, 0);
}

/*
** Obtain a patchset object containing all changes recorded by the 
** session object passed as the first argument.
**
** It is the responsibility of the caller to eventually free the buffer 
** using sqlite3_free().
*/
int sqlite3session_patchset(
  sqlite3_session *pSession,      /* Session object */
  int *pnPatchset,                /* OUT: Size of buffer at *ppChangeset */
  void **ppPatchset               /* OUT: Buffer containing changeset */
){
  return sessionGenerateChangeset(pSession, 1, 0, 0, pnPatchset, ppPatchset);
}

/*
** Enable or disable the session object passed as the first argument.
*/
int sqlite3session_enable(sqlite3_session *pSession, int bEnable){
  int ret;
  sqlite3_mutex_enter(sqlite3_db_mutex(pSession->db));
  if( bEnable>=0 ){
    pSession->bEnable = bEnable;
  }
  ret = pSession->bEnable;
  sqlite3_mutex_leave(sqlite3_db_mutex(pSession->db));
  return ret;
}

/*
** Enable or disable the session object passed as the first argument.
*/
int sqlite3session_indirect(sqlite3_session *pSession, int bIndirect){
  int ret;
  sqlite3_mutex_enter(sqlite3_db_mutex(pSession->db));
  if( bIndirect>=0 ){
    pSession->bIndirect = bIndirect;
  }
  ret = pSession->bIndirect;
  sqlite3_mutex_leave(sqlite3_db_mutex(pSession->db));
  return ret;
}

/*
** Return true if there have been no changes to monitored tables recorded
** by the session object passed as the only argument.
*/
int sqlite3session_isempty(sqlite3_session *pSession){
  int ret = 0;
  SessionTable *pTab;

  sqlite3_mutex_enter(sqlite3_db_mutex(pSession->db));
  for(pTab=pSession->pTable; pTab && ret==0; pTab=pTab->pNext){
    ret = (pTab->nEntry>0);
  }
  sqlite3_mutex_leave(sqlite3_db_mutex(pSession->db));

  return (ret==0);
}

/*
** Do the work for either sqlite3changeset_start() or start_strm().
*/
static int sessionChangesetStart(
  sqlite3_changeset_iter **pp,    /* OUT: Changeset iterator handle */
  int (*xInput)(void *pIn, void *pData, int *pnData),
  void *pIn,
  int nChangeset,                 /* Size of buffer pChangeset in bytes */
  void *pChangeset                /* Pointer to buffer containing changeset */
){
  sqlite3_changeset_iter *pRet;   /* Iterator to return */
  int nByte;                      /* Number of bytes to allocate for iterator */

  assert( xInput==0 || (pChangeset==0 && nChangeset==0) );

  /* Zero the output variable in case an error occurs. */
  *pp = 0;

  /* Allocate and initialize the iterator structure. */
  nByte = sizeof(sqlite3_changeset_iter);
  pRet = (sqlite3_changeset_iter *)sqlite3_malloc(nByte);
  if( !pRet ) return SQLITE_NOMEM;
  memset(pRet, 0, sizeof(sqlite3_changeset_iter));
  pRet->in.aData = (u8 *)pChangeset;
  pRet->in.nData = nChangeset;
  pRet->in.xInput = xInput;
  pRet->in.pIn = pIn;
  pRet->in.bEof = (xInput ? 0 : 1);

  /* Populate the output variable and return success. */
  *pp = pRet;
  return SQLITE_OK;
}

/*
** Create an iterator used to iterate through the contents of a changeset.
*/
int sqlite3changeset_start(
  sqlite3_changeset_iter **pp,    /* OUT: Changeset iterator handle */
  int nChangeset,                 /* Size of buffer pChangeset in bytes */
  void *pChangeset                /* Pointer to buffer containing changeset */
){
  return sessionChangesetStart(pp, 0, 0, nChangeset, pChangeset);
}

/*
** Streaming version of sqlite3changeset_start().
*/
int sqlite3changeset_start_strm(
  sqlite3_changeset_iter **pp,    /* OUT: Changeset iterator handle */
  int (*xInput)(void *pIn, void *pData, int *pnData),
  void *pIn
){
  return sessionChangesetStart(pp, xInput, pIn, 0, 0);
}

/*
** If the SessionInput object passed as the only argument is a streaming
** object and the buffer is full, discard some data to free up space.
*/
static void sessionDiscardData(SessionInput *pIn){
  if( pIn->bEof && pIn->xInput && pIn->iNext>=SESSIONS_STRM_CHUNK_SIZE ){
    int nMove = pIn->buf.nBuf - pIn->iNext;
    assert( nMove>=0 );
    if( nMove>0 ){
      memmove(pIn->buf.aBuf, &pIn->buf.aBuf[pIn->iNext], nMove);
    }
    pIn->buf.nBuf -= pIn->iNext;
    pIn->iNext = 0;
    pIn->nData = pIn->buf.nBuf;
  }
}

/*
** Ensure that there are at least nByte bytes available in the buffer. Or,
** if there are not nByte bytes remaining in the input, that all available
** data is in the buffer.
**
** Return an SQLite error code if an error occurs, or SQLITE_OK otherwise.
*/
static int sessionInputBuffer(SessionInput *pIn, int nByte){
  int rc = SQLITE_OK;
  if( pIn->xInput ){
    while( !pIn->bEof && (pIn->iNext+nByte)>=pIn->nData && rc==SQLITE_OK ){
      int nNew = SESSIONS_STRM_CHUNK_SIZE;

      if( pIn->bNoDiscard==0 ) sessionDiscardData(pIn);
      if( SQLITE_OK==sessionBufferGrow(&pIn->buf, nNew, &rc) ){
        rc = pIn->xInput(pIn->pIn, &pIn->buf.aBuf[pIn->buf.nBuf], &nNew);
        if( nNew==0 ){
          pIn->bEof = 1;
        }else{
          pIn->buf.nBuf += nNew;
        }
      }

      pIn->aData = pIn->buf.aBuf;
      pIn->nData = pIn->buf.nBuf;
    }
  }
  return rc;
}

/*
** When this function is called, *ppRec points to the start of a record
** that contains nCol values. This function advances the pointer *ppRec
** until it points to the byte immediately following that record.
*/
static void sessionSkipRecord(
  u8 **ppRec,                     /* IN/OUT: Record pointer */
  int nCol                        /* Number of values in record */
){
  u8 *aRec = *ppRec;
  int i;
  for(i=0; i<nCol; i++){
    int eType = *aRec++;
    if( eType==SQLITE_TEXT || eType==SQLITE_BLOB ){
      int nByte;
      aRec += sessionVarintGet((u8*)aRec, &nByte);
      aRec += nByte;
    }else if( eType==SQLITE_INTEGER || eType==SQLITE_FLOAT ){
      aRec += 8;
    }
  }

  *ppRec = aRec;
}

/*
** This function sets the value of the sqlite3_value object passed as the
** first argument to a copy of the string or blob held in the aData[] 
** buffer. SQLITE_OK is returned if successful, or SQLITE_NOMEM if an OOM
** error occurs.
*/
static int sessionValueSetStr(
  sqlite3_value *pVal,            /* Set the value of this object */
  u8 *aData,                      /* Buffer containing string or blob data */
  int nData,                      /* Size of buffer aData[] in bytes */
  u8 enc                          /* String encoding (0 for blobs) */
){
  /* In theory this code could just pass SQLITE_TRANSIENT as the final
  ** argument to sqlite3ValueSetStr() and have the copy created 
  ** automatically. But doing so makes it difficult to detect any OOM
  ** error. Hence the code to create the copy externally. */
  u8 *aCopy = sqlite3_malloc(nData+1);
  if( aCopy==0 ) return SQLITE_NOMEM;
  memcpy(aCopy, aData, nData);
  sqlite3ValueSetStr(pVal, nData, (char*)aCopy, enc, sqlite3_free);
  return SQLITE_OK;
}

/*
** Deserialize a single record from a buffer in memory. See "RECORD FORMAT"
** for details.
**
** When this function is called, *paChange points to the start of the record
** to deserialize. Assuming no error occurs, *paChange is set to point to
** one byte after the end of the same record before this function returns.
** If the argument abPK is NULL, then the record contains nCol values. Or,
** if abPK is other than NULL, then the record contains only the PK fields
** (in other words, it is a patchset DELETE record).
**
** If successful, each element of the apOut[] array (allocated by the caller)
** is set to point to an sqlite3_value object containing the value read
** from the corresponding position in the record. If that value is not
** included in the record (i.e. because the record is part of an UPDATE change
** and the field was not modified), the corresponding element of apOut[] is
** set to NULL.
**
** It is the responsibility of the caller to free all sqlite_value structures
** using sqlite3_free().
**
** If an error occurs, an SQLite error code (e.g. SQLITE_NOMEM) is returned.
** The apOut[] array may have been partially populated in this case.
*/
static int sessionReadRecord(
  SessionInput *pIn,              /* Input data */
  int nCol,                       /* Number of values in record */
  u8 *abPK,                       /* Array of primary key flags, or NULL */
  sqlite3_value **apOut           /* Write values to this array */
){
  int i;                          /* Used to iterate through columns */
  int rc = SQLITE_OK;

  for(i=0; i<nCol && rc==SQLITE_OK; i++){
    int eType = 0;                /* Type of value (SQLITE_NULL, TEXT etc.) */
    if( abPK && abPK[i]==0 ) continue;
    rc = sessionInputBuffer(pIn, 9);
    if( rc==SQLITE_OK ){
      eType = pIn->aData[pIn->iNext++];
    }

    assert( apOut[i]==0 );
    if( eType ){
      apOut[i] = sqlite3ValueNew(0);
      if( !apOut[i] ) rc = SQLITE_NOMEM;
    }

    if( rc==SQLITE_OK ){
      u8 *aVal = &pIn->aData[pIn->iNext];
      if( eType==SQLITE_TEXT || eType==SQLITE_BLOB ){
        int nByte;
        pIn->iNext += sessionVarintGet(aVal, &nByte);
        rc = sessionInputBuffer(pIn, nByte);
        if( rc==SQLITE_OK ){
          u8 enc = (eType==SQLITE_TEXT ? SQLITE_UTF8 : 0);
          rc = sessionValueSetStr(apOut[i],&pIn->aData[pIn->iNext],nByte,enc);
        }
        pIn->iNext += nByte;
      }
      if( eType==SQLITE_INTEGER || eType==SQLITE_FLOAT ){
        sqlite3_int64 v = sessionGetI64(aVal);
        if( eType==SQLITE_INTEGER ){
          sqlite3VdbeMemSetInt64(apOut[i], v);
        }else{
          double d;
          memcpy(&d, &v, 8);
          sqlite3VdbeMemSetDouble(apOut[i], d);
        }
        pIn->iNext += 8;
      }
    }
  }

  return rc;
}

/*
** The input pointer currently points to the second byte of a table-header.
** Specifically, to the following:
**
**   + number of columns in table (varint)
**   + array of PK flags (1 byte per column),
**   + table name (nul terminated).
**
** This function ensures that all of the above is present in the input 
** buffer (i.e. that it can be accessed without any calls to xInput()).
** If successful, SQLITE_OK is returned. Otherwise, an SQLite error code.
** The input pointer is not moved.
*/
static int sessionChangesetBufferTblhdr(SessionInput *pIn, int *pnByte){
  int rc = SQLITE_OK;
  int nCol = 0;
  int nRead = 0;

  rc = sessionInputBuffer(pIn, 9);
  if( rc==SQLITE_OK ){
    nRead += sessionVarintGet(&pIn->aData[pIn->iNext + nRead], &nCol);
    rc = sessionInputBuffer(pIn, nRead+nCol+100);
    nRead += nCol;
  }

  while( rc==SQLITE_OK ){
    while( (pIn->iNext + nRead)<pIn->nData && pIn->aData[pIn->iNext + nRead] ){
      nRead++;
    }
    if( (pIn->iNext + nRead)<pIn->nData ) break;
    rc = sessionInputBuffer(pIn, nRead + 100);
  }
  *pnByte = nRead+1;
  return rc;
}

/*
** The input pointer currently points to the first byte of the first field
** of a record consisting of nCol columns. This function ensures the entire
** record is buffered. It does not move the input pointer.
**
** If successful, SQLITE_OK is returned and *pnByte is set to the size of
** the record in bytes. Otherwise, an SQLite error code is returned. The
** final value of *pnByte is undefined in this case.
*/
static int sessionChangesetBufferRecord(
  SessionInput *pIn,              /* Input data */
  int nCol,                       /* Number of columns in record */
  int *pnByte                     /* OUT: Size of record in bytes */
){
  int rc = SQLITE_OK;
  int nByte = 0;
  int i;
  for(i=0; rc==SQLITE_OK && i<nCol; i++){
    int eType;
    rc = sessionInputBuffer(pIn, nByte + 10);
    if( rc==SQLITE_OK ){
      eType = pIn->aData[pIn->iNext + nByte++];
      if( eType==SQLITE_TEXT || eType==SQLITE_BLOB ){
        int n;
        nByte += sessionVarintGet(&pIn->aData[pIn->iNext+nByte], &n);
        nByte += n;
        rc = sessionInputBuffer(pIn, nByte);
      }else if( eType==SQLITE_INTEGER || eType==SQLITE_FLOAT ){
        nByte += 8;
      }
    }
  }
  *pnByte = nByte;
  return rc;
}

/*
** The input pointer currently points to the second byte of a table-header.
** Specifically, to the following:
**
**   + number of columns in table (varint)
**   + array of PK flags (1 byte per column),
**   + table name (nul terminated).
**
** This function decodes the table-header and populates the p->nCol, 
** p->zTab and p->abPK[] variables accordingly. The p->apValue[] array is 
** also allocated or resized according to the new value of p->nCol. The
** input pointer is left pointing to the byte following the table header.
**
** If successful, SQLITE_OK is returned. Otherwise, an SQLite error code
** is returned and the final values of the various fields enumerated above
** are undefined.
*/
static int sessionChangesetReadTblhdr(sqlite3_changeset_iter *p){
  int rc;
  int nCopy;
  assert( p->rc==SQLITE_OK );

  rc = sessionChangesetBufferTblhdr(&p->in, &nCopy);
  if( rc==SQLITE_OK ){
    int nByte;
    int nVarint;
    nVarint = sessionVarintGet(&p->in.aData[p->in.iNext], &p->nCol);
    nCopy -= nVarint;
    p->in.iNext += nVarint;
    nByte = p->nCol * sizeof(sqlite3_value*) * 2 + nCopy;
    p->tblhdr.nBuf = 0;
    sessionBufferGrow(&p->tblhdr, nByte, &rc);
  }

  if( rc==SQLITE_OK ){
    int iPK = sizeof(sqlite3_value*)*p->nCol*2;
    memset(p->tblhdr.aBuf, 0, iPK);
    memcpy(&p->tblhdr.aBuf[iPK], &p->in.aData[p->in.iNext], nCopy);
    p->in.iNext += nCopy;
  }

  p->apValue = (sqlite3_value**)p->tblhdr.aBuf;
  p->abPK = (u8*)&p->apValue[p->nCol*2];
  p->zTab = (char*)&p->abPK[p->nCol];
  return (p->rc = rc);
}

/*
** Advance the changeset iterator to the next change.
**
** If both paRec and pnRec are NULL, then this function works like the public
** API sqlite3changeset_next(). If SQLITE_ROW is returned, then the
** sqlite3changeset_new() and old() APIs may be used to query for values.
**
** Otherwise, if paRec and pnRec are not NULL, then a pointer to the change
** record is written to *paRec before returning and the number of bytes in
** the record to *pnRec.
**
** Either way, this function returns SQLITE_ROW if the iterator is 
** successfully advanced to the next change in the changeset, an SQLite 
** error code if an error occurs, or SQLITE_DONE if there are no further 
** changes in the changeset.
*/
static int sessionChangesetNext(
  sqlite3_changeset_iter *p,      /* Changeset iterator */
  u8 **paRec,                     /* If non-NULL, store record pointer here */
  int *pnRec                      /* If non-NULL, store size of record here */
){
  int i;
  u8 op;

  assert( (paRec==0 && pnRec==0) || (paRec && pnRec) );

  /* If the iterator is in the error-state, return immediately. */
  if( p->rc!=SQLITE_OK ) return p->rc;

  /* Free the current contents of p->apValue[], if any. */
  if( p->apValue ){
    for(i=0; i<p->nCol*2; i++){
      sqlite3ValueFree(p->apValue[i]);
    }
    memset(p->apValue, 0, sizeof(sqlite3_value*)*p->nCol*2);
  }

  /* Make sure the buffer contains at least 10 bytes of input data, or all
  ** remaining data if there are less than 10 bytes available. This is
  ** sufficient either for the 'T' or 'P' byte and the varint that follows
  ** it, or for the two single byte values otherwise. */
  p->rc = sessionInputBuffer(&p->in, 2);
  if( p->rc!=SQLITE_OK ) return p->rc;

  /* If the iterator is already at the end of the changeset, return DONE. */
  if( p->in.iNext>=p->in.nData ){
    return SQLITE_DONE;
  }

  sessionDiscardData(&p->in);
  p->in.iCurrent = p->in.iNext;

  op = p->in.aData[p->in.iNext++];
  if( op=='T' || op=='P' ){
    p->bPatchset = (op=='P');
    if( sessionChangesetReadTblhdr(p) ) return p->rc;
    if( (p->rc = sessionInputBuffer(&p->in, 2)) ) return p->rc;
    p->in.iCurrent = p->in.iNext;
    op = p->in.aData[p->in.iNext++];
  }

  p->op = op;
  p->bIndirect = p->in.aData[p->in.iNext++];
  if( p->op!=SQLITE_UPDATE && p->op!=SQLITE_DELETE && p->op!=SQLITE_INSERT ){
    return (p->rc = SQLITE_CORRUPT_BKPT);
  }

  if( paRec ){ 
    int nVal;                     /* Number of values to buffer */
    if( p->bPatchset==0 && op==SQLITE_UPDATE ){
      nVal = p->nCol * 2;
    }else if( p->bPatchset && op==SQLITE_DELETE ){
      nVal = 0;
      for(i=0; i<p->nCol; i++) if( p->abPK[i] ) nVal++;
    }else{
      nVal = p->nCol;
    }
    p->rc = sessionChangesetBufferRecord(&p->in, nVal, pnRec);
    if( p->rc!=SQLITE_OK ) return p->rc;
    *paRec = &p->in.aData[p->in.iNext];
    p->in.iNext += *pnRec;
  }else{

    /* If this is an UPDATE or DELETE, read the old.* record. */
    if( p->op!=SQLITE_INSERT && (p->bPatchset==0 || p->op==SQLITE_DELETE) ){
      u8 *abPK = p->bPatchset ? p->abPK : 0;
      p->rc = sessionReadRecord(&p->in, p->nCol, abPK, p->apValue);
      if( p->rc!=SQLITE_OK ) return p->rc;
    }

    /* If this is an INSERT or UPDATE, read the new.* record. */
    if( p->op!=SQLITE_DELETE ){
      p->rc = sessionReadRecord(&p->in, p->nCol, 0, &p->apValue[p->nCol]);
      if( p->rc!=SQLITE_OK ) return p->rc;
    }

    if( p->bPatchset && p->op==SQLITE_UPDATE ){
      /* If this is an UPDATE that is part of a patchset, then all PK and
      ** modified fields are present in the new.* record. The old.* record
      ** is currently completely empty. This block shifts the PK fields from
      ** new.* to old.*, to accommodate the code that reads these arrays.  */
      for(i=0; i<p->nCol; i++){
        assert( p->apValue[i]==0 );
        assert( p->abPK[i]==0 || p->apValue[i+p->nCol] );
        if( p->abPK[i] ){
          p->apValue[i] = p->apValue[i+p->nCol];
          p->apValue[i+p->nCol] = 0;
        }
      }
    }
  }

  return SQLITE_ROW;
}

/*
** Advance an iterator created by sqlite3changeset_start() to the next
** change in the changeset. This function may return SQLITE_ROW, SQLITE_DONE
** or SQLITE_CORRUPT.
**
** This function may not be called on iterators passed to a conflict handler
** callback by changeset_apply().
*/
int sqlite3changeset_next(sqlite3_changeset_iter *p){
  return sessionChangesetNext(p, 0, 0);
}

/*
** The following function extracts information on the current change
** from a changeset iterator. It may only be called after changeset_next()
** has returned SQLITE_ROW.
*/
int sqlite3changeset_op(
  sqlite3_changeset_iter *pIter,  /* Iterator handle */
  const char **pzTab,             /* OUT: Pointer to table name */
  int *pnCol,                     /* OUT: Number of columns in table */
  int *pOp,                       /* OUT: SQLITE_INSERT, DELETE or UPDATE */
  int *pbIndirect                 /* OUT: True if change is indirect */
){
  *pOp = pIter->op;
  *pnCol = pIter->nCol;
  *pzTab = pIter->zTab;
  if( pbIndirect ) *pbIndirect = pIter->bIndirect;
  return SQLITE_OK;
}

/*
** Return information regarding the PRIMARY KEY and number of columns in
** the database table affected by the change that pIter currently points
** to. This function may only be called after changeset_next() returns
** SQLITE_ROW.
*/
int sqlite3changeset_pk(
  sqlite3_changeset_iter *pIter,  /* Iterator object */
  unsigned char **pabPK,          /* OUT: Array of boolean - true for PK cols */
  int *pnCol                      /* OUT: Number of entries in output array */
){
  *pabPK = pIter->abPK;
  if( pnCol ) *pnCol = pIter->nCol;
  return SQLITE_OK;
}

/*
** This function may only be called while the iterator is pointing to an
** SQLITE_UPDATE or SQLITE_DELETE change (see sqlite3changeset_op()).
** Otherwise, SQLITE_MISUSE is returned.
**
** It sets *ppValue to point to an sqlite3_value structure containing the
** iVal'th value in the old.* record. Or, if that particular value is not
** included in the record (because the change is an UPDATE and the field
** was not modified and is not a PK column), set *ppValue to NULL.
**
** If value iVal is out-of-range, SQLITE_RANGE is returned and *ppValue is
** not modified. Otherwise, SQLITE_OK.
*/
int sqlite3changeset_old(
  sqlite3_changeset_iter *pIter,  /* Changeset iterator */
  int iVal,                       /* Index of old.* value to retrieve */
  sqlite3_value **ppValue         /* OUT: Old value (or NULL pointer) */
){
  if( pIter->op!=SQLITE_UPDATE && pIter->op!=SQLITE_DELETE ){
    return SQLITE_MISUSE;
  }
  if( iVal<0 || iVal>=pIter->nCol ){
    return SQLITE_RANGE;
  }
  *ppValue = pIter->apValue[iVal];
  return SQLITE_OK;
}

/*
** This function may only be called while the iterator is pointing to an
** SQLITE_UPDATE or SQLITE_INSERT change (see sqlite3changeset_op()).
** Otherwise, SQLITE_MISUSE is returned.
**
** It sets *ppValue to point to an sqlite3_value structure containing the
** iVal'th value in the new.* record. Or, if that particular value is not
** included in the record (because the change is an UPDATE and the field
** was not modified), set *ppValue to NULL.
**
** If value iVal is out-of-range, SQLITE_RANGE is returned and *ppValue is
** not modified. Otherwise, SQLITE_OK.
*/
int sqlite3changeset_new(
  sqlite3_changeset_iter *pIter,  /* Changeset iterator */
  int iVal,                       /* Index of new.* value to retrieve */
  sqlite3_value **ppValue         /* OUT: New value (or NULL pointer) */
){
  if( pIter->op!=SQLITE_UPDATE && pIter->op!=SQLITE_INSERT ){
    return SQLITE_MISUSE;
  }
  if( iVal<0 || iVal>=pIter->nCol ){
    return SQLITE_RANGE;
  }
  *ppValue = pIter->apValue[pIter->nCol+iVal];
  return SQLITE_OK;
}

/*
** The following two macros are used internally. They are similar to the
** sqlite3changeset_new() and sqlite3changeset_old() functions, except that
** they omit all error checking and return a pointer to the requested value.
*/
#define sessionChangesetNew(pIter, iVal) (pIter)->apValue[(pIter)->nCol+(iVal)]
#define sessionChangesetOld(pIter, iVal) (pIter)->apValue[(iVal)]

/*
** This function may only be called with a changeset iterator that has been
** passed to an SQLITE_CHANGESET_DATA or SQLITE_CHANGESET_CONFLICT 
** conflict-handler function. Otherwise, SQLITE_MISUSE is returned.
**
** If successful, *ppValue is set to point to an sqlite3_value structure
** containing the iVal'th value of the conflicting record.
**
** If value iVal is out-of-range or some other error occurs, an SQLite error
** code is returned. Otherwise, SQLITE_OK.
*/
int sqlite3changeset_conflict(
  sqlite3_changeset_iter *pIter,  /* Changeset iterator */
  int iVal,                       /* Index of conflict record value to fetch */
  sqlite3_value **ppValue         /* OUT: Value from conflicting row */
){
  if( !pIter->pConflict ){
    return SQLITE_MISUSE;
  }
  if( iVal<0 || iVal>=sqlite3_column_count(pIter->pConflict) ){
    return SQLITE_RANGE;
  }
  *ppValue = sqlite3_column_value(pIter->pConflict, iVal);
  return SQLITE_OK;
}

/*
** This function may only be called with an iterator passed to an
** SQLITE_CHANGESET_FOREIGN_KEY conflict handler callback. In this case
** it sets the output variable to the total number of known foreign key
** violations in the destination database and returns SQLITE_OK.
**
** In all other cases this function returns SQLITE_MISUSE.
*/
int sqlite3changeset_fk_conflicts(
  sqlite3_changeset_iter *pIter,  /* Changeset iterator */
  int *pnOut                      /* OUT: Number of FK violations */
){
  if( pIter->pConflict || pIter->apValue ){
    return SQLITE_MISUSE;
  }
  *pnOut = pIter->nCol;
  return SQLITE_OK;
}


/*
** Finalize an iterator allocated with sqlite3changeset_start().
**
** This function may not be called on iterators passed to a conflict handler
** callback by changeset_apply().
*/
int sqlite3changeset_finalize(sqlite3_changeset_iter *p){
  int rc = SQLITE_OK;
  if( p ){
    int i;                        /* Used to iterate through p->apValue[] */
    rc = p->rc;
    if( p->apValue ){
      for(i=0; i<p->nCol*2; i++) sqlite3ValueFree(p->apValue[i]);
    }
    sqlite3_free(p->tblhdr.aBuf);
    sqlite3_free(p->in.buf.aBuf);
    sqlite3_free(p);
  }
  return rc;
}

static int sessionChangesetInvert(
  SessionInput *pInput,           /* Input changeset */
  int (*xOutput)(void *pOut, const void *pData, int nData),
  void *pOut,
  int *pnInverted,                /* OUT: Number of bytes in output changeset */
  void **ppInverted               /* OUT: Inverse of pChangeset */
){
  int rc = SQLITE_OK;             /* Return value */
  SessionBuffer sOut;             /* Output buffer */
  int nCol = 0;                   /* Number of cols in current table */
  u8 *abPK = 0;                   /* PK array for current table */
  sqlite3_value **apVal = 0;      /* Space for values for UPDATE inversion */
  SessionBuffer sPK = {0, 0, 0};  /* PK array for current table */

  /* Initialize the output buffer */
  memset(&sOut, 0, sizeof(SessionBuffer));

  /* Zero the output variables in case an error occurs. */
  if( ppInverted ){
    *ppInverted = 0;
    *pnInverted = 0;
  }

  while( 1 ){
    u8 eType;

    /* Test for EOF. */
    if( (rc = sessionInputBuffer(pInput, 2)) ) goto finished_invert;
    if( pInput->iNext>=pInput->nData ) break;
    eType = pInput->aData[pInput->iNext];

    switch( eType ){
      case 'T': {
        /* A 'table' record consists of:
        **
        **   * A constant 'T' character,
        **   * Number of columns in said table (a varint),
        **   * An array of nCol bytes (sPK),
        **   * A nul-terminated table name.
        */
        int nByte;
        int nVar;
        pInput->iNext++;
        if( (rc = sessionChangesetBufferTblhdr(pInput, &nByte)) ){
          goto finished_invert;
        }
        nVar = sessionVarintGet(&pInput->aData[pInput->iNext], &nCol);
        sPK.nBuf = 0;
        sessionAppendBlob(&sPK, &pInput->aData[pInput->iNext+nVar], nCol, &rc);
        sessionAppendByte(&sOut, eType, &rc);
        sessionAppendBlob(&sOut, &pInput->aData[pInput->iNext], nByte, &rc);
        if( rc ) goto finished_invert;

        pInput->iNext += nByte;
        sqlite3_free(apVal);
        apVal = 0;
        abPK = sPK.aBuf;
        break;
      }

      case SQLITE_INSERT:
      case SQLITE_DELETE: {
        int nByte;
        int bIndirect = pInput->aData[pInput->iNext+1];
        int eType2 = (eType==SQLITE_DELETE ? SQLITE_INSERT : SQLITE_DELETE);
        pInput->iNext += 2;
        assert( rc==SQLITE_OK );
        rc = sessionChangesetBufferRecord(pInput, nCol, &nByte);
        sessionAppendByte(&sOut, eType2, &rc);
        sessionAppendByte(&sOut, bIndirect, &rc);
        sessionAppendBlob(&sOut, &pInput->aData[pInput->iNext], nByte, &rc);
        pInput->iNext += nByte;
        if( rc ) goto finished_invert;
        break;
      }

      case SQLITE_UPDATE: {
        int iCol;

        if( 0==apVal ){
          apVal = (sqlite3_value **)sqlite3_malloc(sizeof(apVal[0])*nCol*2);
          if( 0==apVal ){
            rc = SQLITE_NOMEM;
            goto finished_invert;
          }
          memset(apVal, 0, sizeof(apVal[0])*nCol*2);
        }

        /* Write the header for the new UPDATE change. Same as the original. */
        sessionAppendByte(&sOut, eType, &rc);
        sessionAppendByte(&sOut, pInput->aData[pInput->iNext+1], &rc);

        /* Read the old.* and new.* records for the update change. */
        pInput->iNext += 2;
        rc = sessionReadRecord(pInput, nCol, 0, &apVal[0]);
        if( rc==SQLITE_OK ){
          rc = sessionReadRecord(pInput, nCol, 0, &apVal[nCol]);
        }

        /* Write the new old.* record. Consists of the PK columns from the
        ** original old.* record, and the other values from the original
        ** new.* record. */
        for(iCol=0; iCol<nCol; iCol++){
          sqlite3_value *pVal = apVal[iCol + (abPK[iCol] ? 0 : nCol)];
          sessionAppendValue(&sOut, pVal, &rc);
        }

        /* Write the new new.* record. Consists of a copy of all values
        ** from the original old.* record, except for the PK columns, which
        ** are set to "undefined". */
        for(iCol=0; iCol<nCol; iCol++){
          sqlite3_value *pVal = (abPK[iCol] ? 0 : apVal[iCol]);
          sessionAppendValue(&sOut, pVal, &rc);
        }

        for(iCol=0; iCol<nCol*2; iCol++){
          sqlite3ValueFree(apVal[iCol]);
        }
        memset(apVal, 0, sizeof(apVal[0])*nCol*2);
        if( rc!=SQLITE_OK ){
          goto finished_invert;
        }

        break;
      }

      default:
        rc = SQLITE_CORRUPT_BKPT;
        goto finished_invert;
    }

    assert( rc==SQLITE_OK );
    if( xOutput && sOut.nBuf>=SESSIONS_STRM_CHUNK_SIZE ){
      rc = xOutput(pOut, sOut.aBuf, sOut.nBuf);
      sOut.nBuf = 0;
      if( rc!=SQLITE_OK ) goto finished_invert;
    }
  }

  assert( rc==SQLITE_OK );
  if( pnInverted ){
    *pnInverted = sOut.nBuf;
    *ppInverted = sOut.aBuf;
    sOut.aBuf = 0;
  }else if( sOut.nBuf>0 ){
    rc = xOutput(pOut, sOut.aBuf, sOut.nBuf);
  }

 finished_invert:
  sqlite3_free(sOut.aBuf);
  sqlite3_free(apVal);
  sqlite3_free(sPK.aBuf);
  return rc;
}


/*
** Invert a changeset object.
*/
int sqlite3changeset_invert(
  int nChangeset,                 /* Number of bytes in input */
  const void *pChangeset,         /* Input changeset */
  int *pnInverted,                /* OUT: Number of bytes in output changeset */
  void **ppInverted               /* OUT: Inverse of pChangeset */
){
  SessionInput sInput;

  /* Set up the input stream */
  memset(&sInput, 0, sizeof(SessionInput));
  sInput.nData = nChangeset;
  sInput.aData = (u8*)pChangeset;

  return sessionChangesetInvert(&sInput, 0, 0, pnInverted, ppInverted);
}

/*
** Streaming version of sqlite3changeset_invert().
*/
int sqlite3changeset_invert_strm(
  int (*xInput)(void *pIn, void *pData, int *pnData),
  void *pIn,
  int (*xOutput)(void *pOut, const void *pData, int nData),
  void *pOut
){
  SessionInput sInput;
  int rc;

  /* Set up the input stream */
  memset(&sInput, 0, sizeof(SessionInput));
  sInput.xInput = xInput;
  sInput.pIn = pIn;

  rc = sessionChangesetInvert(&sInput, xOutput, pOut, 0, 0);
  sqlite3_free(sInput.buf.aBuf);
  return rc;
}

typedef struct SessionApplyCtx SessionApplyCtx;
struct SessionApplyCtx {
  sqlite3 *db;
  sqlite3_stmt *pDelete;          /* DELETE statement */
  sqlite3_stmt *pUpdate;          /* UPDATE statement */
  sqlite3_stmt *pInsert;          /* INSERT statement */
  sqlite3_stmt *pSelect;          /* SELECT statement */
  int nCol;                       /* Size of azCol[] and abPK[] arrays */
  const char **azCol;             /* Array of column names */
  u8 *abPK;                       /* Boolean array - true if column is in PK */

  int bDeferConstraints;          /* True to defer constraints */
  SessionBuffer constraints;      /* Deferred constraints are stored here */
};

/*
** Formulate a statement to DELETE a row from database db. Assuming a table
** structure like this:
**
**     CREATE TABLE x(a, b, c, d, PRIMARY KEY(a, c));
**
** The DELETE statement looks like this:
**
**     DELETE FROM x WHERE a = :1 AND c = :3 AND (:5 OR b IS :2 AND d IS :4)
**
** Variable :5 (nCol+1) is a boolean. It should be set to 0 if we require
** matching b and d values, or 1 otherwise. The second case comes up if the
** conflict handler is invoked with NOTFOUND and returns CHANGESET_REPLACE.
**
** If successful, SQLITE_OK is returned and SessionApplyCtx.pDelete is left
** pointing to the prepared version of the SQL statement.
*/
static int sessionDeleteRow(
  sqlite3 *db,                    /* Database handle */
  const char *zTab,               /* Table name */
  SessionApplyCtx *p              /* Session changeset-apply context */
){
  int i;
  const char *zSep = "";
  int rc = SQLITE_OK;
  SessionBuffer buf = {0, 0, 0};
  int nPk = 0;

  sessionAppendStr(&buf, "DELETE FROM ", &rc);
  sessionAppendIdent(&buf, zTab, &rc);
  sessionAppendStr(&buf, " WHERE ", &rc);

  for(i=0; i<p->nCol; i++){
    if( p->abPK[i] ){
      nPk++;
      sessionAppendStr(&buf, zSep, &rc);
      sessionAppendIdent(&buf, p->azCol[i], &rc);
      sessionAppendStr(&buf, " = ?", &rc);
      sessionAppendInteger(&buf, i+1, &rc);
      zSep = " AND ";
    }
  }

  if( nPk<p->nCol ){
    sessionAppendStr(&buf, " AND (?", &rc);
    sessionAppendInteger(&buf, p->nCol+1, &rc);
    sessionAppendStr(&buf, " OR ", &rc);

    zSep = "";
    for(i=0; i<p->nCol; i++){
      if( !p->abPK[i] ){
        sessionAppendStr(&buf, zSep, &rc);
        sessionAppendIdent(&buf, p->azCol[i], &rc);
        sessionAppendStr(&buf, " IS ?", &rc);
        sessionAppendInteger(&buf, i+1, &rc);
        zSep = "AND ";
      }
    }
    sessionAppendStr(&buf, ")", &rc);
  }

  if( rc==SQLITE_OK ){
    rc = sqlite3_prepare_v2(db, (char *)buf.aBuf, buf.nBuf, &p->pDelete, 0);
  }
  sqlite3_free(buf.aBuf);

  return rc;
}

/*
** Formulate and prepare a statement to UPDATE a row from database db. 
** Assuming a table structure like this:
**
**     CREATE TABLE x(a, b, c, d, PRIMARY KEY(a, c));
**
** The UPDATE statement looks like this:
**
**     UPDATE x SET
**     a = CASE WHEN ?2  THEN ?3  ELSE a END,
**     b = CASE WHEN ?5  THEN ?6  ELSE b END,
**     c = CASE WHEN ?8  THEN ?9  ELSE c END,
**     d = CASE WHEN ?11 THEN ?12 ELSE d END
**     WHERE a = ?1 AND c = ?7 AND (?13 OR 
**       (?5==0 OR b IS ?4) AND (?11==0 OR d IS ?10) AND
**     )
**
** For each column in the table, there are three variables to bind:
**
**     ?(i*3+1)    The old.* value of the column, if any.
**     ?(i*3+2)    A boolean flag indicating that the value is being modified.
**     ?(i*3+3)    The new.* value of the column, if any.
**
** Also, a boolean flag that, if set to true, causes the statement to update
** a row even if the non-PK values do not match. This is required if the
** conflict-handler is invoked with CHANGESET_DATA and returns
** CHANGESET_REPLACE. This is variable "?(nCol*3+1)".
**
** If successful, SQLITE_OK is returned and SessionApplyCtx.pUpdate is left
** pointing to the prepared version of the SQL statement.
*/
static int sessionUpdateRow(
  sqlite3 *db,                    /* Database handle */
  const char *zTab,               /* Table name */
  SessionApplyCtx *p              /* Session changeset-apply context */
){
  int rc = SQLITE_OK;
  int i;
  const char *zSep = "";
  SessionBuffer buf = {0, 0, 0};

  /* Append "UPDATE tbl SET " */
  sessionAppendStr(&buf, "UPDATE ", &rc);
  sessionAppendIdent(&buf, zTab, &rc);
  sessionAppendStr(&buf, " SET ", &rc);

  /* Append the assignments */
  for(i=0; i<p->nCol; i++){
    sessionAppendStr(&buf, zSep, &rc);
    sessionAppendIdent(&buf, p->azCol[i], &rc);
    sessionAppendStr(&buf, " = CASE WHEN ?", &rc);
    sessionAppendInteger(&buf, i*3+2, &rc);
    sessionAppendStr(&buf, " THEN ?", &rc);
    sessionAppendInteger(&buf, i*3+3, &rc);
    sessionAppendStr(&buf, " ELSE ", &rc);
    sessionAppendIdent(&buf, p->azCol[i], &rc);
    sessionAppendStr(&buf, " END", &rc);
    zSep = ", ";
  }

  /* Append the PK part of the WHERE clause */
  sessionAppendStr(&buf, " WHERE ", &rc);
  for(i=0; i<p->nCol; i++){
    if( p->abPK[i] ){
      sessionAppendIdent(&buf, p->azCol[i], &rc);
      sessionAppendStr(&buf, " = ?", &rc);
      sessionAppendInteger(&buf, i*3+1, &rc);
      sessionAppendStr(&buf, " AND ", &rc);
    }
  }

  /* Append the non-PK part of the WHERE clause */
  sessionAppendStr(&buf, " (?", &rc);
  sessionAppendInteger(&buf, p->nCol*3+1, &rc);
  sessionAppendStr(&buf, " OR 1", &rc);
  for(i=0; i<p->nCol; i++){
    if( !p->abPK[i] ){
      sessionAppendStr(&buf, " AND (?", &rc);
      sessionAppendInteger(&buf, i*3+2, &rc);
      sessionAppendStr(&buf, "=0 OR ", &rc);
      sessionAppendIdent(&buf, p->azCol[i], &rc);
      sessionAppendStr(&buf, " IS ?", &rc);
      sessionAppendInteger(&buf, i*3+1, &rc);
      sessionAppendStr(&buf, ")", &rc);
    }
  }
  sessionAppendStr(&buf, ")", &rc);

  if( rc==SQLITE_OK ){
    rc = sqlite3_prepare_v2(db, (char *)buf.aBuf, buf.nBuf, &p->pUpdate, 0);
  }
  sqlite3_free(buf.aBuf);

  return rc;
}

/*
** Formulate and prepare an SQL statement to query table zTab by primary
** key. Assuming the following table structure:
**
**     CREATE TABLE x(a, b, c, d, PRIMARY KEY(a, c));
**
** The SELECT statement looks like this:
**
**     SELECT * FROM x WHERE a = ?1 AND c = ?3
**
** If successful, SQLITE_OK is returned and SessionApplyCtx.pSelect is left
** pointing to the prepared version of the SQL statement.
*/
static int sessionSelectRow(
  sqlite3 *db,                    /* Database handle */
  const char *zTab,               /* Table name */
  SessionApplyCtx *p              /* Session changeset-apply context */
){
  return sessionSelectStmt(
      db, "main", zTab, p->nCol, p->azCol, p->abPK, &p->pSelect);
}

/*
** Formulate and prepare an INSERT statement to add a record to table zTab.
** For example:
**
**     INSERT INTO main."zTab" VALUES(?1, ?2, ?3 ...);
**
** If successful, SQLITE_OK is returned and SessionApplyCtx.pInsert is left
** pointing to the prepared version of the SQL statement.
*/
static int sessionInsertRow(
  sqlite3 *db,                    /* Database handle */
  const char *zTab,               /* Table name */
  SessionApplyCtx *p              /* Session changeset-apply context */
){
  int rc = SQLITE_OK;
  int i;
  SessionBuffer buf = {0, 0, 0};

  sessionAppendStr(&buf, "INSERT INTO main.", &rc);
  sessionAppendIdent(&buf, zTab, &rc);
  sessionAppendStr(&buf, " VALUES(?", &rc);
  for(i=1; i<p->nCol; i++){
    sessionAppendStr(&buf, ", ?", &rc);
  }
  sessionAppendStr(&buf, ")", &rc);

  if( rc==SQLITE_OK ){
    rc = sqlite3_prepare_v2(db, (char *)buf.aBuf, buf.nBuf, &p->pInsert, 0);
  }
  sqlite3_free(buf.aBuf);
  return rc;
}

/*
** A wrapper around sqlite3_bind_value() that detects an extra problem. 
** See comments in the body of this function for details.
*/
static int sessionBindValue(
  sqlite3_stmt *pStmt,            /* Statement to bind value to */
  int i,                          /* Parameter number to bind to */
  sqlite3_value *pVal             /* Value to bind */
){
  int eType = sqlite3_value_type(pVal);
  /* COVERAGE: The (pVal->z==0) branch is never true using current versions
  ** of SQLite. If a malloc fails in an sqlite3_value_xxx() function, either
  ** the (pVal->z) variable remains as it was or the type of the value is
  ** set to SQLITE_NULL.  */
  if( (eType==SQLITE_TEXT || eType==SQLITE_BLOB) && pVal->z==0 ){
    /* This condition occurs when an earlier OOM in a call to
    ** sqlite3_value_text() or sqlite3_value_blob() (perhaps from within
    ** a conflict-handler) has zeroed the pVal->z pointer. Return NOMEM. */
    return SQLITE_NOMEM;
  }
  return sqlite3_bind_value(pStmt, i, pVal);
}

/*
** Iterator pIter must point to an SQLITE_INSERT entry. This function 
** transfers new.* values from the current iterator entry to statement
** pStmt. The table being inserted into has nCol columns.
**
** New.* value $i from the iterator is bound to variable ($i+1) of 
** statement pStmt. If parameter abPK is NULL, all values from 0 to (nCol-1)
** are transfered to the statement. Otherwise, if abPK is not NULL, it points
** to an array nCol elements in size. In this case only those values for 
** which abPK[$i] is true are read from the iterator and bound to the 
** statement.
**
** An SQLite error code is returned if an error occurs. Otherwise, SQLITE_OK.
*/
static int sessionBindRow(
  sqlite3_changeset_iter *pIter,  /* Iterator to read values from */
  int(*xValue)(sqlite3_changeset_iter *, int, sqlite3_value **),
  int nCol,                       /* Number of columns */
  u8 *abPK,                       /* If not NULL, bind only if true */
  sqlite3_stmt *pStmt             /* Bind values to this statement */
){
  int i;
  int rc = SQLITE_OK;

  /* Neither sqlite3changeset_old or sqlite3changeset_new can fail if the
  ** argument iterator points to a suitable entry. Make sure that xValue 
  ** is one of these to guarantee that it is safe to ignore the return 
  ** in the code below. */
  assert( xValue==sqlite3changeset_old || xValue==sqlite3changeset_new );

  for(i=0; rc==SQLITE_OK && i<nCol; i++){
    if( !abPK || abPK[i] ){
      sqlite3_value *pVal;
      (void)xValue(pIter, i, &pVal);
      rc = sessionBindValue(pStmt, i+1, pVal);
    }
  }
  return rc;
}

/*
** SQL statement pSelect is as generated by the sessionSelectRow() function.
** This function binds the primary key values from the change that changeset
** iterator pIter points to to the SELECT and attempts to seek to the table
** entry. If a row is found, the SELECT statement left pointing at the row 
** and SQLITE_ROW is returned. Otherwise, if no row is found and no error
** has occured, the statement is reset and SQLITE_OK is returned. If an
** error occurs, the statement is reset and an SQLite error code is returned.
**
** If this function returns SQLITE_ROW, the caller must eventually reset() 
** statement pSelect. If any other value is returned, the statement does
** not require a reset().
**
** If the iterator currently points to an INSERT record, bind values from the
** new.* record to the SELECT statement. Or, if it points to a DELETE or
** UPDATE, bind values from the old.* record. 
*/
static int sessionSeekToRow(
  sqlite3 *db,                    /* Database handle */
  sqlite3_changeset_iter *pIter,  /* Changeset iterator */
  u8 *abPK,                       /* Primary key flags array */
  sqlite3_stmt *pSelect           /* SELECT statement from sessionSelectRow() */
){
  int rc;                         /* Return code */
  int nCol;                       /* Number of columns in table */
  int op;                         /* Changset operation (SQLITE_UPDATE etc.) */
  const char *zDummy;             /* Unused */

  sqlite3changeset_op(pIter, &zDummy, &nCol, &op, 0);
  rc = sessionBindRow(pIter, 
      op==SQLITE_INSERT ? sqlite3changeset_new : sqlite3changeset_old,
      nCol, abPK, pSelect
  );

  if( rc==SQLITE_OK ){
    rc = sqlite3_step(pSelect);
    if( rc!=SQLITE_ROW ) rc = sqlite3_reset(pSelect);
  }

  return rc;
}

/*
** Invoke the conflict handler for the change that the changeset iterator
** currently points to.
**
** Argument eType must be either CHANGESET_DATA or CHANGESET_CONFLICT.
** If argument pbReplace is NULL, then the type of conflict handler invoked
** depends solely on eType, as follows:
**
**    eType value                 Value passed to xConflict
**    -------------------------------------------------
**    CHANGESET_DATA              CHANGESET_NOTFOUND
**    CHANGESET_CONFLICT          CHANGESET_CONSTRAINT
**
** Or, if pbReplace is not NULL, then an attempt is made to find an existing
** record with the same primary key as the record about to be deleted, updated
** or inserted. If such a record can be found, it is available to the conflict
** handler as the "conflicting" record. In this case the type of conflict
** handler invoked is as follows:
**
**    eType value         PK Record found?   Value passed to xConflict
**    ----------------------------------------------------------------
**    CHANGESET_DATA      Yes                CHANGESET_DATA
**    CHANGESET_DATA      No                 CHANGESET_NOTFOUND
**    CHANGESET_CONFLICT  Yes                CHANGESET_CONFLICT
**    CHANGESET_CONFLICT  No                 CHANGESET_CONSTRAINT
**
** If pbReplace is not NULL, and a record with a matching PK is found, and
** the conflict handler function returns SQLITE_CHANGESET_REPLACE, *pbReplace
** is set to non-zero before returning SQLITE_OK.
**
** If the conflict handler returns SQLITE_CHANGESET_ABORT, SQLITE_ABORT is
** returned. Or, if the conflict handler returns an invalid value, 
** SQLITE_MISUSE. If the conflict handler returns SQLITE_CHANGESET_OMIT,
** this function returns SQLITE_OK.
*/
static int sessionConflictHandler(
  int eType,                      /* Either CHANGESET_DATA or CONFLICT */
  SessionApplyCtx *p,             /* changeset_apply() context */
  sqlite3_changeset_iter *pIter,  /* Changeset iterator */
  int(*xConflict)(void *, int, sqlite3_changeset_iter*),
  void *pCtx,                     /* First argument for conflict handler */
  int *pbReplace                  /* OUT: Set to true if PK row is found */
){
  int res = 0;                    /* Value returned by conflict handler */
  int rc;
  int nCol;
  int op;
  const char *zDummy;

  sqlite3changeset_op(pIter, &zDummy, &nCol, &op, 0);

  assert( eType==SQLITE_CHANGESET_CONFLICT || eType==SQLITE_CHANGESET_DATA );
  assert( SQLITE_CHANGESET_CONFLICT+1==SQLITE_CHANGESET_CONSTRAINT );
  assert( SQLITE_CHANGESET_DATA+1==SQLITE_CHANGESET_NOTFOUND );

  /* Bind the new.* PRIMARY KEY values to the SELECT statement. */
  if( pbReplace ){
    rc = sessionSeekToRow(p->db, pIter, p->abPK, p->pSelect);
  }else{
    rc = SQLITE_OK;
  }

  if( rc==SQLITE_ROW ){
    /* There exists another row with the new.* primary key. */
    pIter->pConflict = p->pSelect;
    res = xConflict(pCtx, eType, pIter);
    pIter->pConflict = 0;
    rc = sqlite3_reset(p->pSelect);
  }else if( rc==SQLITE_OK ){
    if( p->bDeferConstraints && eType==SQLITE_CHANGESET_CONFLICT ){
      /* Instead of invoking the conflict handler, append the change blob
      ** to the SessionApplyCtx.constraints buffer. */
      u8 *aBlob = &pIter->in.aData[pIter->in.iCurrent];
      int nBlob = pIter->in.iNext - pIter->in.iCurrent;
      sessionAppendBlob(&p->constraints, aBlob, nBlob, &rc);
      res = SQLITE_CHANGESET_OMIT;
    }else{
      /* No other row with the new.* primary key. */
      res = xConflict(pCtx, eType+1, pIter);
      if( res==SQLITE_CHANGESET_REPLACE ) rc = SQLITE_MISUSE;
    }
  }

  if( rc==SQLITE_OK ){
    switch( res ){
      case SQLITE_CHANGESET_REPLACE:
        assert( pbReplace );
        *pbReplace = 1;
        break;

      case SQLITE_CHANGESET_OMIT:
        break;

      case SQLITE_CHANGESET_ABORT:
        rc = SQLITE_ABORT;
        break;

      default:
        rc = SQLITE_MISUSE;
        break;
    }
  }

  return rc;
}

/*
** Attempt to apply the change that the iterator passed as the first argument
** currently points to to the database. If a conflict is encountered, invoke
** the conflict handler callback.
**
** If argument pbRetry is NULL, then ignore any CHANGESET_DATA conflict. If
** one is encountered, update or delete the row with the matching primary key
** instead. Or, if pbRetry is not NULL and a CHANGESET_DATA conflict occurs,
** invoke the conflict handler. If it returns CHANGESET_REPLACE, set *pbRetry
** to true before returning. In this case the caller will invoke this function
** again, this time with pbRetry set to NULL.
**
** If argument pbReplace is NULL and a CHANGESET_CONFLICT conflict is 
** encountered invoke the conflict handler with CHANGESET_CONSTRAINT instead.
** Or, if pbReplace is not NULL, invoke it with CHANGESET_CONFLICT. If such
** an invocation returns SQLITE_CHANGESET_REPLACE, set *pbReplace to true
** before retrying. In this case the caller attempts to remove the conflicting
** row before invoking this function again, this time with pbReplace set 
** to NULL.
**
** If any conflict handler returns SQLITE_CHANGESET_ABORT, this function
** returns SQLITE_ABORT. Otherwise, if no error occurs, SQLITE_OK is 
** returned.
*/
static int sessionApplyOneOp(
  sqlite3_changeset_iter *pIter,  /* Changeset iterator */
  SessionApplyCtx *p,             /* changeset_apply() context */
  int(*xConflict)(void *, int, sqlite3_changeset_iter *),
  void *pCtx,                     /* First argument for the conflict handler */
  int *pbReplace,                 /* OUT: True to remove PK row and retry */
  int *pbRetry                    /* OUT: True to retry. */
){
  const char *zDummy;
  int op;
  int nCol;
  int rc = SQLITE_OK;

  assert( p->pDelete && p->pUpdate && p->pInsert && p->pSelect );
  assert( p->azCol && p->abPK );
  assert( !pbReplace || *pbReplace==0 );

  sqlite3changeset_op(pIter, &zDummy, &nCol, &op, 0);

  if( op==SQLITE_DELETE ){

    /* Bind values to the DELETE statement. If conflict handling is required,
    ** bind values for all columns and set bound variable (nCol+1) to true.
    ** Or, if conflict handling is not required, bind just the PK column
    ** values and, if it exists, set (nCol+1) to false. Conflict handling
    ** is not required if:
    **
    **   * this is a patchset, or
    **   * (pbRetry==0), or
    **   * all columns of the table are PK columns (in this case there is
    **     no (nCol+1) variable to bind to).
    */
    u8 *abPK = (pIter->bPatchset ? p->abPK : 0);
    rc = sessionBindRow(pIter, sqlite3changeset_old, nCol, abPK, p->pDelete);
    if( rc==SQLITE_OK && sqlite3_bind_parameter_count(p->pDelete)>nCol ){
      rc = sqlite3_bind_int(p->pDelete, nCol+1, (pbRetry==0 || abPK));
    }
    if( rc!=SQLITE_OK ) return rc;

    sqlite3_step(p->pDelete);
    rc = sqlite3_reset(p->pDelete);
    if( rc==SQLITE_OK && sqlite3_changes(p->db)==0 ){
      rc = sessionConflictHandler(
          SQLITE_CHANGESET_DATA, p, pIter, xConflict, pCtx, pbRetry
      );
    }else if( (rc&0xff)==SQLITE_CONSTRAINT ){
      rc = sessionConflictHandler(
          SQLITE_CHANGESET_CONFLICT, p, pIter, xConflict, pCtx, 0
      );
    }

  }else if( op==SQLITE_UPDATE ){
    int i;

    /* Bind values to the UPDATE statement. */
    for(i=0; rc==SQLITE_OK && i<nCol; i++){
      sqlite3_value *pOld = sessionChangesetOld(pIter, i);
      sqlite3_value *pNew = sessionChangesetNew(pIter, i);

      sqlite3_bind_int(p->pUpdate, i*3+2, !!pNew);
      if( pOld ){
        rc = sessionBindValue(p->pUpdate, i*3+1, pOld);
      }
      if( rc==SQLITE_OK && pNew ){
        rc = sessionBindValue(p->pUpdate, i*3+3, pNew);
      }
    }
    if( rc==SQLITE_OK ){
      sqlite3_bind_int(p->pUpdate, nCol*3+1, pbRetry==0 || pIter->bPatchset);
    }
    if( rc!=SQLITE_OK ) return rc;

    /* Attempt the UPDATE. In the case of a NOTFOUND or DATA conflict,
    ** the result will be SQLITE_OK with 0 rows modified. */
    sqlite3_step(p->pUpdate);
    rc = sqlite3_reset(p->pUpdate);

    if( rc==SQLITE_OK && sqlite3_changes(p->db)==0 ){
      /* A NOTFOUND or DATA error. Search the table to see if it contains
      ** a row with a matching primary key. If so, this is a DATA conflict.
      ** Otherwise, if there is no primary key match, it is a NOTFOUND. */

      rc = sessionConflictHandler(
          SQLITE_CHANGESET_DATA, p, pIter, xConflict, pCtx, pbRetry
      );

    }else if( (rc&0xff)==SQLITE_CONSTRAINT ){
      /* This is always a CONSTRAINT conflict. */
      rc = sessionConflictHandler(
          SQLITE_CHANGESET_CONFLICT, p, pIter, xConflict, pCtx, 0
      );
    }

  }else{
    assert( op==SQLITE_INSERT );
    rc = sessionBindRow(pIter, sqlite3changeset_new, nCol, 0, p->pInsert);
    if( rc!=SQLITE_OK ) return rc;

    sqlite3_step(p->pInsert);
    rc = sqlite3_reset(p->pInsert);
    if( (rc&0xff)==SQLITE_CONSTRAINT ){
      rc = sessionConflictHandler(
          SQLITE_CHANGESET_CONFLICT, p, pIter, xConflict, pCtx, pbReplace
      );
    }
  }

  return rc;
}

/*
** Attempt to apply the change that the iterator passed as the first argument
** currently points to to the database. If a conflict is encountered, invoke
** the conflict handler callback.
**
** The difference between this function and sessionApplyOne() is that this
** function handles the case where the conflict-handler is invoked and 
** returns SQLITE_CHANGESET_REPLACE - indicating that the change should be
** retried in some manner.
*/
static int sessionApplyOneWithRetry(
  sqlite3 *db,                    /* Apply change to "main" db of this handle */
  sqlite3_changeset_iter *pIter,  /* Changeset iterator to read change from */
  SessionApplyCtx *pApply,        /* Apply context */
  int(*xConflict)(void*, int, sqlite3_changeset_iter*),
  void *pCtx                      /* First argument passed to xConflict */
){
  int bReplace = 0;
  int bRetry = 0;
  int rc;

  rc = sessionApplyOneOp(pIter, pApply, xConflict, pCtx, &bReplace, &bRetry);
  assert( rc==SQLITE_OK || (bRetry==0 && bReplace==0) );

  /* If the bRetry flag is set, the change has not been applied due to an
  ** SQLITE_CHANGESET_DATA problem (i.e. this is an UPDATE or DELETE and
  ** a row with the correct PK is present in the db, but one or more other
  ** fields do not contain the expected values) and the conflict handler 
  ** returned SQLITE_CHANGESET_REPLACE. In this case retry the operation,
  ** but pass NULL as the final argument so that sessionApplyOneOp() ignores
  ** the SQLITE_CHANGESET_DATA problem.  */
  if( bRetry ){
    assert( pIter->op==SQLITE_UPDATE || pIter->op==SQLITE_DELETE );
    rc = sessionApplyOneOp(pIter, pApply, xConflict, pCtx, 0, 0);
  }

  /* If the bReplace flag is set, the change is an INSERT that has not
  ** been performed because the database already contains a row with the
  ** specified primary key and the conflict handler returned
  ** SQLITE_CHANGESET_REPLACE. In this case remove the conflicting row
  ** before reattempting the INSERT.  */
  else if( bReplace ){
    assert( pIter->op==SQLITE_INSERT );
    rc = sqlite3_exec(db, "SAVEPOINT replace_op", 0, 0, 0);
    if( rc==SQLITE_OK ){
      rc = sessionBindRow(pIter, 
          sqlite3changeset_new, pApply->nCol, pApply->abPK, pApply->pDelete);
      sqlite3_bind_int(pApply->pDelete, pApply->nCol+1, 1);
    }
    if( rc==SQLITE_OK ){
      sqlite3_step(pApply->pDelete);
      rc = sqlite3_reset(pApply->pDelete);
    }
    if( rc==SQLITE_OK ){
      rc = sessionApplyOneOp(pIter, pApply, xConflict, pCtx, 0, 0);
    }
    if( rc==SQLITE_OK ){
      rc = sqlite3_exec(db, "RELEASE replace_op", 0, 0, 0);
    }
  }

  return rc;
}

/*
** Retry the changes accumulated in the pApply->constraints buffer.
*/
static int sessionRetryConstraints(
  sqlite3 *db, 
  int bPatchset,
  const char *zTab,
  SessionApplyCtx *pApply,
  int(*xConflict)(void*, int, sqlite3_changeset_iter*),
  void *pCtx                      /* First argument passed to xConflict */
){
  int rc = SQLITE_OK;

  while( pApply->constraints.nBuf ){
    sqlite3_changeset_iter *pIter2 = 0;
    SessionBuffer cons = pApply->constraints;
    memset(&pApply->constraints, 0, sizeof(SessionBuffer));

    rc = sessionChangesetStart(&pIter2, 0, 0, cons.nBuf, cons.aBuf);
    if( rc==SQLITE_OK ){
      int nByte = 2*pApply->nCol*sizeof(sqlite3_value*);
      int rc2;
      pIter2->bPatchset = bPatchset;
      pIter2->zTab = (char*)zTab;
      pIter2->nCol = pApply->nCol;
      pIter2->abPK = pApply->abPK;
      sessionBufferGrow(&pIter2->tblhdr, nByte, &rc);
      pIter2->apValue = (sqlite3_value**)pIter2->tblhdr.aBuf;
      if( rc==SQLITE_OK ) memset(pIter2->apValue, 0, nByte);

      while( rc==SQLITE_OK && SQLITE_ROW==sqlite3changeset_next(pIter2) ){
        rc = sessionApplyOneWithRetry(db, pIter2, pApply, xConflict, pCtx);
      }

      rc2 = sqlite3changeset_finalize(pIter2);
      if( rc==SQLITE_OK ) rc = rc2;
    }
    assert( pApply->bDeferConstraints || pApply->constraints.nBuf==0 );

    sqlite3_free(cons.aBuf);
    if( rc!=SQLITE_OK ) break;
    if( pApply->constraints.nBuf>=cons.nBuf ){
      /* No progress was made on the last round. */
      pApply->bDeferConstraints = 0;
    }
  }

  return rc;
}

/*
** Argument pIter is a changeset iterator that has been initialized, but
** not yet passed to sqlite3changeset_next(). This function applies the 
** changeset to the main database attached to handle "db". The supplied
** conflict handler callback is invoked to resolve any conflicts encountered
** while applying the change.
*/
static int sessionChangesetApply(
  sqlite3 *db,                    /* Apply change to "main" db of this handle */
  sqlite3_changeset_iter *pIter,  /* Changeset to apply */
  int(*xFilter)(
    void *pCtx,                   /* Copy of sixth arg to _apply() */
    const char *zTab              /* Table name */
  ),
  int(*xConflict)(
    void *pCtx,                   /* Copy of fifth arg to _apply() */
    int eConflict,                /* DATA, MISSING, CONFLICT, CONSTRAINT */
    sqlite3_changeset_iter *p     /* Handle describing change and conflict */
  ),
  void *pCtx                      /* First argument passed to xConflict */
){
  int schemaMismatch = 0;
  int rc;                         /* Return code */
  const char *zTab = 0;           /* Name of current table */
  int nTab = 0;                   /* Result of sqlite3Strlen30(zTab) */
  SessionApplyCtx sApply;         /* changeset_apply() context object */
  int bPatchset;

  assert( xConflict!=0 );

  pIter->in.bNoDiscard = 1;
  memset(&sApply, 0, sizeof(sApply));
  sqlite3_mutex_enter(sqlite3_db_mutex(db));
  rc = sqlite3_exec(db, "SAVEPOINT changeset_apply", 0, 0, 0);
  if( rc==SQLITE_OK ){
    rc = sqlite3_exec(db, "PRAGMA defer_foreign_keys = 1", 0, 0, 0);
  }
  while( rc==SQLITE_OK && SQLITE_ROW==sqlite3changeset_next(pIter) ){
    int nCol;
    int op;
    const char *zNew;
    
    sqlite3changeset_op(pIter, &zNew, &nCol, &op, 0);

    if( zTab==0 || sqlite3_strnicmp(zNew, zTab, nTab+1) ){
      u8 *abPK;

      rc = sessionRetryConstraints(
          db, pIter->bPatchset, zTab, &sApply, xConflict, pCtx
      );
      if( rc!=SQLITE_OK ) break;

      sqlite3_free((char*)sApply.azCol);  /* cast works around VC++ bug */
      sqlite3_finalize(sApply.pDelete);
      sqlite3_finalize(sApply.pUpdate); 
      sqlite3_finalize(sApply.pInsert);
      sqlite3_finalize(sApply.pSelect);
      memset(&sApply, 0, sizeof(sApply));
      sApply.db = db;
      sApply.bDeferConstraints = 1;

      /* If an xFilter() callback was specified, invoke it now. If the 
      ** xFilter callback returns zero, skip this table. If it returns
      ** non-zero, proceed. */
      schemaMismatch = (xFilter && (0==xFilter(pCtx, zNew)));
      if( schemaMismatch ){
        zTab = sqlite3_mprintf("%s", zNew);
        if( zTab==0 ){
          rc = SQLITE_NOMEM;
          break;
        }
        nTab = (int)strlen(zTab);
        sApply.azCol = (const char **)zTab;
      }else{
        sqlite3changeset_pk(pIter, &abPK, 0);
        rc = sessionTableInfo(
            db, "main", zNew, &sApply.nCol, &zTab, &sApply.azCol, &sApply.abPK
        );
        if( rc!=SQLITE_OK ) break;
  
        if( sApply.nCol==0 ){
          schemaMismatch = 1;
          sqlite3_log(SQLITE_SCHEMA, 
              "sqlite3changeset_apply(): no such table: %s", zTab
          );
        }
        else if( sApply.nCol!=nCol ){
          schemaMismatch = 1;
          sqlite3_log(SQLITE_SCHEMA, 
              "sqlite3changeset_apply(): table %s has %d columns, expected %d", 
              zTab, sApply.nCol, nCol
          );
        }
        else if( memcmp(sApply.abPK, abPK, nCol)!=0 ){
          schemaMismatch = 1;
          sqlite3_log(SQLITE_SCHEMA, "sqlite3changeset_apply(): "
              "primary key mismatch for table %s", zTab
          );
        }
        else if( 
            (rc = sessionSelectRow(db, zTab, &sApply))
         || (rc = sessionUpdateRow(db, zTab, &sApply))
         || (rc = sessionDeleteRow(db, zTab, &sApply))
         || (rc = sessionInsertRow(db, zTab, &sApply))
        ){
          break;
        }
        nTab = sqlite3Strlen30(zTab);
      }
    }

    /* If there is a schema mismatch on the current table, proceed to the
    ** next change. A log message has already been issued. */
    if( schemaMismatch ) continue;

    rc = sessionApplyOneWithRetry(db, pIter, &sApply, xConflict, pCtx);
  }

  bPatchset = pIter->bPatchset;
  if( rc==SQLITE_OK ){
    rc = sqlite3changeset_finalize(pIter);
  }else{
    sqlite3changeset_finalize(pIter);
  }

  if( rc==SQLITE_OK ){
    rc = sessionRetryConstraints(db, bPatchset, zTab, &sApply, xConflict, pCtx);
  }

  if( rc==SQLITE_OK ){
    int nFk, notUsed;
    sqlite3_db_status(db, SQLITE_DBSTATUS_DEFERRED_FKS, &nFk, &notUsed, 0);
    if( nFk!=0 ){
      int res = SQLITE_CHANGESET_ABORT;
      sqlite3_changeset_iter sIter;
      memset(&sIter, 0, sizeof(sIter));
      sIter.nCol = nFk;
      res = xConflict(pCtx, SQLITE_CHANGESET_FOREIGN_KEY, &sIter);
      if( res!=SQLITE_CHANGESET_OMIT ){
        rc = SQLITE_CONSTRAINT;
      }
    }
  }
  sqlite3_exec(db, "PRAGMA defer_foreign_keys = 0", 0, 0, 0);

  if( rc==SQLITE_OK ){
    rc = sqlite3_exec(db, "RELEASE changeset_apply", 0, 0, 0);
  }else{
    sqlite3_exec(db, "ROLLBACK TO changeset_apply", 0, 0, 0);
    sqlite3_exec(db, "RELEASE changeset_apply", 0, 0, 0);
  }

  sqlite3_finalize(sApply.pInsert);
  sqlite3_finalize(sApply.pDelete);
  sqlite3_finalize(sApply.pUpdate);
  sqlite3_finalize(sApply.pSelect);
  sqlite3_free((char*)sApply.azCol);  /* cast works around VC++ bug */
  sqlite3_free((char*)sApply.constraints.aBuf);
  sqlite3_mutex_leave(sqlite3_db_mutex(db));
  return rc;
}

/*
** Apply the changeset passed via pChangeset/nChangeset to the main database
** attached to handle "db". Invoke the supplied conflict handler callback
** to resolve any conflicts encountered while applying the change.
*/
int sqlite3changeset_apply(
  sqlite3 *db,                    /* Apply change to "main" db of this handle */
  int nChangeset,                 /* Size of changeset in bytes */
  void *pChangeset,               /* Changeset blob */
  int(*xFilter)(
    void *pCtx,                   /* Copy of sixth arg to _apply() */
    const char *zTab              /* Table name */
  ),
  int(*xConflict)(
    void *pCtx,                   /* Copy of fifth arg to _apply() */
    int eConflict,                /* DATA, MISSING, CONFLICT, CONSTRAINT */
    sqlite3_changeset_iter *p     /* Handle describing change and conflict */
  ),
  void *pCtx                      /* First argument passed to xConflict */
){
  sqlite3_changeset_iter *pIter;  /* Iterator to skip through changeset */  
  int rc = sqlite3changeset_start(&pIter, nChangeset, pChangeset);
  if( rc==SQLITE_OK ){
    rc = sessionChangesetApply(db, pIter, xFilter, xConflict, pCtx);
  }
  return rc;
}

/*
** Apply the changeset passed via xInput/pIn to the main database
** attached to handle "db". Invoke the supplied conflict handler callback
** to resolve any conflicts encountered while applying the change.
*/
int sqlite3changeset_apply_strm(
  sqlite3 *db,                    /* Apply change to "main" db of this handle */
  int (*xInput)(void *pIn, void *pData, int *pnData), /* Input function */
  void *pIn,                                          /* First arg for xInput */
  int(*xFilter)(
    void *pCtx,                   /* Copy of sixth arg to _apply() */
    const char *zTab              /* Table name */
  ),
  int(*xConflict)(
    void *pCtx,                   /* Copy of sixth arg to _apply() */
    int eConflict,                /* DATA, MISSING, CONFLICT, CONSTRAINT */
    sqlite3_changeset_iter *p     /* Handle describing change and conflict */
  ),
  void *pCtx                      /* First argument passed to xConflict */
){
  sqlite3_changeset_iter *pIter;  /* Iterator to skip through changeset */  
  int rc = sqlite3changeset_start_strm(&pIter, xInput, pIn);
  if( rc==SQLITE_OK ){
    rc = sessionChangesetApply(db, pIter, xFilter, xConflict, pCtx);
  }
  return rc;
}

/*
** sqlite3_changegroup handle.
*/
struct sqlite3_changegroup {
  int rc;                         /* Error code */
  int bPatch;                     /* True to accumulate patchsets */
  SessionTable *pList;            /* List of tables in current patch */
};

/*
** This function is called to merge two changes to the same row together as
** part of an sqlite3changeset_concat() operation. A new change object is
** allocated and a pointer to it stored in *ppNew.
*/
static int sessionChangeMerge(
  SessionTable *pTab,             /* Table structure */
  int bPatchset,                  /* True for patchsets */
  SessionChange *pExist,          /* Existing change */
  int op2,                        /* Second change operation */
  int bIndirect,                  /* True if second change is indirect */
  u8 *aRec,                       /* Second change record */
  int nRec,                       /* Number of bytes in aRec */
  SessionChange **ppNew           /* OUT: Merged change */
){
  SessionChange *pNew = 0;

  if( !pExist ){
    pNew = (SessionChange *)sqlite3_malloc(sizeof(SessionChange) + nRec);
    if( !pNew ){
      return SQLITE_NOMEM;
    }
    memset(pNew, 0, sizeof(SessionChange));
    pNew->op = op2;
    pNew->bIndirect = bIndirect;
    pNew->nRecord = nRec;
    pNew->aRecord = (u8*)&pNew[1];
    memcpy(pNew->aRecord, aRec, nRec);
  }else{
    int op1 = pExist->op;

    /* 
    **   op1=INSERT, op2=INSERT      ->      Unsupported. Discard op2.
    **   op1=INSERT, op2=UPDATE      ->      INSERT.
    **   op1=INSERT, op2=DELETE      ->      (none)
    **
    **   op1=UPDATE, op2=INSERT      ->      Unsupported. Discard op2.
    **   op1=UPDATE, op2=UPDATE      ->      UPDATE.
    **   op1=UPDATE, op2=DELETE      ->      DELETE.
    **
    **   op1=DELETE, op2=INSERT      ->      UPDATE.
    **   op1=DELETE, op2=UPDATE      ->      Unsupported. Discard op2.
    **   op1=DELETE, op2=DELETE      ->      Unsupported. Discard op2.
    */   
    if( (op1==SQLITE_INSERT && op2==SQLITE_INSERT)
     || (op1==SQLITE_UPDATE && op2==SQLITE_INSERT)
     || (op1==SQLITE_DELETE && op2==SQLITE_UPDATE)
     || (op1==SQLITE_DELETE && op2==SQLITE_DELETE)
    ){
      pNew = pExist;
    }else if( op1==SQLITE_INSERT && op2==SQLITE_DELETE ){
      sqlite3_free(pExist);
      assert( pNew==0 );
    }else{
      u8 *aExist = pExist->aRecord;
      int nByte;
      u8 *aCsr;

      /* Allocate a new SessionChange object. Ensure that the aRecord[]
      ** buffer of the new object is large enough to hold any record that
      ** may be generated by combining the input records.  */
      nByte = sizeof(SessionChange) + pExist->nRecord + nRec;
      pNew = (SessionChange *)sqlite3_malloc(nByte);
      if( !pNew ){
        sqlite3_free(pExist);
        return SQLITE_NOMEM;
      }
      memset(pNew, 0, sizeof(SessionChange));
      pNew->bIndirect = (bIndirect && pExist->bIndirect);
      aCsr = pNew->aRecord = (u8 *)&pNew[1];

      if( op1==SQLITE_INSERT ){             /* INSERT + UPDATE */
        u8 *a1 = aRec;
        assert( op2==SQLITE_UPDATE );
        pNew->op = SQLITE_INSERT;
        if( bPatchset==0 ) sessionSkipRecord(&a1, pTab->nCol);
        sessionMergeRecord(&aCsr, pTab->nCol, aExist, a1);
      }else if( op1==SQLITE_DELETE ){       /* DELETE + INSERT */
        assert( op2==SQLITE_INSERT );
        pNew->op = SQLITE_UPDATE;
        if( bPatchset ){
          memcpy(aCsr, aRec, nRec);
          aCsr += nRec;
        }else{
          if( 0==sessionMergeUpdate(&aCsr, pTab, bPatchset, aExist, 0,aRec,0) ){
            sqlite3_free(pNew);
            pNew = 0;
          }
        }
      }else if( op2==SQLITE_UPDATE ){       /* UPDATE + UPDATE */
        u8 *a1 = aExist;
        u8 *a2 = aRec;
        assert( op1==SQLITE_UPDATE );
        if( bPatchset==0 ){
          sessionSkipRecord(&a1, pTab->nCol);
          sessionSkipRecord(&a2, pTab->nCol);
        }
        pNew->op = SQLITE_UPDATE;
        if( 0==sessionMergeUpdate(&aCsr, pTab, bPatchset, aRec, aExist,a1,a2) ){
          sqlite3_free(pNew);
          pNew = 0;
        }
      }else{                                /* UPDATE + DELETE */
        assert( op1==SQLITE_UPDATE && op2==SQLITE_DELETE );
        pNew->op = SQLITE_DELETE;
        if( bPatchset ){
          memcpy(aCsr, aRec, nRec);
          aCsr += nRec;
        }else{
          sessionMergeRecord(&aCsr, pTab->nCol, aRec, aExist);
        }
      }

      if( pNew ){
        pNew->nRecord = (int)(aCsr - pNew->aRecord);
      }
      sqlite3_free(pExist);
    }
  }

  *ppNew = pNew;
  return SQLITE_OK;
}

/*
** Add all changes in the changeset traversed by the iterator passed as
** the first argument to the changegroup hash tables.
*/
static int sessionChangesetToHash(
  sqlite3_changeset_iter *pIter,   /* Iterator to read from */
  sqlite3_changegroup *pGrp        /* Changegroup object to add changeset to */
){
  u8 *aRec;
  int nRec;
  int rc = SQLITE_OK;
  SessionTable *pTab = 0;


  while( SQLITE_ROW==sessionChangesetNext(pIter, &aRec, &nRec) ){
    const char *zNew;
    int nCol;
    int op;
    int iHash;
    int bIndirect;
    SessionChange *pChange;
    SessionChange *pExist = 0;
    SessionChange **pp;

    if( pGrp->pList==0 ){
      pGrp->bPatch = pIter->bPatchset;
    }else if( pIter->bPatchset!=pGrp->bPatch ){
      rc = SQLITE_ERROR;
      break;
    }

    sqlite3changeset_op(pIter, &zNew, &nCol, &op, &bIndirect);
    if( !pTab || sqlite3_stricmp(zNew, pTab->zName) ){
      /* Search the list for a matching table */
      int nNew = (int)strlen(zNew);
      u8 *abPK;

      sqlite3changeset_pk(pIter, &abPK, 0);
      for(pTab = pGrp->pList; pTab; pTab=pTab->pNext){
        if( 0==sqlite3_strnicmp(pTab->zName, zNew, nNew+1) ) break;
      }
      if( !pTab ){
        SessionTable **ppTab;

        pTab = sqlite3_malloc(sizeof(SessionTable) + nCol + nNew+1);
        if( !pTab ){
          rc = SQLITE_NOMEM;
          break;
        }
        memset(pTab, 0, sizeof(SessionTable));
        pTab->nCol = nCol;
        pTab->abPK = (u8*)&pTab[1];
        memcpy(pTab->abPK, abPK, nCol);
        pTab->zName = (char*)&pTab->abPK[nCol];
        memcpy(pTab->zName, zNew, nNew+1);

        /* The new object must be linked on to the end of the list, not
        ** simply added to the start of it. This is to ensure that the
        ** tables within the output of sqlite3changegroup_output() are in 
        ** the right order.  */
        for(ppTab=&pGrp->pList; *ppTab; ppTab=&(*ppTab)->pNext);
        *ppTab = pTab;
      }else if( pTab->nCol!=nCol || memcmp(pTab->abPK, abPK, nCol) ){
        rc = SQLITE_SCHEMA;
        break;
      }
    }

    if( sessionGrowHash(pIter->bPatchset, pTab) ){
      rc = SQLITE_NOMEM;
      break;
    }
    iHash = sessionChangeHash(
        pTab, (pIter->bPatchset && op==SQLITE_DELETE), aRec, pTab->nChange
    );

    /* Search for existing entry. If found, remove it from the hash table. 
    ** Code below may link it back in.
    */
    for(pp=&pTab->apChange[iHash]; *pp; pp=&(*pp)->pNext){
      int bPkOnly1 = 0;
      int bPkOnly2 = 0;
      if( pIter->bPatchset ){
        bPkOnly1 = (*pp)->op==SQLITE_DELETE;
        bPkOnly2 = op==SQLITE_DELETE;
      }
      if( sessionChangeEqual(pTab, bPkOnly1, (*pp)->aRecord, bPkOnly2, aRec) ){
        pExist = *pp;
        *pp = (*pp)->pNext;
        pTab->nEntry--;
        break;
      }
    }

    rc = sessionChangeMerge(pTab, 
        pIter->bPatchset, pExist, op, bIndirect, aRec, nRec, &pChange
    );
    if( rc ) break;
    if( pChange ){
      pChange->pNext = pTab->apChange[iHash];
      pTab->apChange[iHash] = pChange;
      pTab->nEntry++;
    }
  }

  if( rc==SQLITE_OK ) rc = pIter->rc;
  return rc;
}

/*
** Serialize a changeset (or patchset) based on all changesets (or patchsets)
** added to the changegroup object passed as the first argument.
**
** If xOutput is not NULL, then the changeset/patchset is returned to the
** user via one or more calls to xOutput, as with the other streaming
** interfaces. 
**
** Or, if xOutput is NULL, then (*ppOut) is populated with a pointer to a
** buffer containing the output changeset before this function returns. In
** this case (*pnOut) is set to the size of the output buffer in bytes. It
** is the responsibility of the caller to free the output buffer using
** sqlite3_free() when it is no longer required.
**
** If successful, SQLITE_OK is returned. Or, if an error occurs, an SQLite
** error code. If an error occurs and xOutput is NULL, (*ppOut) and (*pnOut)
** are both set to 0 before returning.
*/
static int sessionChangegroupOutput(
  sqlite3_changegroup *pGrp,
  int (*xOutput)(void *pOut, const void *pData, int nData),
  void *pOut,
  int *pnOut,
  void **ppOut
){
  int rc = SQLITE_OK;
  SessionBuffer buf = {0, 0, 0};
  SessionTable *pTab;
  assert( xOutput==0 || (ppOut==0 && pnOut==0) );

  /* Create the serialized output changeset based on the contents of the
  ** hash tables attached to the SessionTable objects in list p->pList. 
  */
  for(pTab=pGrp->pList; rc==SQLITE_OK && pTab; pTab=pTab->pNext){
    int i;
    if( pTab->nEntry==0 ) continue;

    sessionAppendTableHdr(&buf, pGrp->bPatch, pTab, &rc);
    for(i=0; i<pTab->nChange; i++){
      SessionChange *p;
      for(p=pTab->apChange[i]; p; p=p->pNext){
        sessionAppendByte(&buf, p->op, &rc);
        sessionAppendByte(&buf, p->bIndirect, &rc);
        sessionAppendBlob(&buf, p->aRecord, p->nRecord, &rc);
      }
    }

    if( rc==SQLITE_OK && xOutput && buf.nBuf>=SESSIONS_STRM_CHUNK_SIZE ){
      rc = xOutput(pOut, buf.aBuf, buf.nBuf);
      buf.nBuf = 0;
    }
  }

  if( rc==SQLITE_OK ){
    if( xOutput ){
      if( buf.nBuf>0 ) rc = xOutput(pOut, buf.aBuf, buf.nBuf);
    }else{
      *ppOut = buf.aBuf;
      *pnOut = buf.nBuf;
      buf.aBuf = 0;
    }
  }
  sqlite3_free(buf.aBuf);

  return rc;
}

/*
** Allocate a new, empty, sqlite3_changegroup.
*/
int sqlite3changegroup_new(sqlite3_changegroup **pp){
  int rc = SQLITE_OK;             /* Return code */
  sqlite3_changegroup *p;         /* New object */
  p = (sqlite3_changegroup*)sqlite3_malloc(sizeof(sqlite3_changegroup));
  if( p==0 ){
    rc = SQLITE_NOMEM;
  }else{
    memset(p, 0, sizeof(sqlite3_changegroup));
  }
  *pp = p;
  return rc;
}

/*
** Add the changeset currently stored in buffer pData, size nData bytes,
** to changeset-group p.
*/
int sqlite3changegroup_add(sqlite3_changegroup *pGrp, int nData, void *pData){
  sqlite3_changeset_iter *pIter;  /* Iterator opened on pData/nData */
  int rc;                         /* Return code */

  rc = sqlite3changeset_start(&pIter, nData, pData);
  if( rc==SQLITE_OK ){
    rc = sessionChangesetToHash(pIter, pGrp);
  }
  sqlite3changeset_finalize(pIter);
  return rc;
}

/*
** Obtain a buffer containing a changeset representing the concatenation
** of all changesets added to the group so far.
*/
int sqlite3changegroup_output(
    sqlite3_changegroup *pGrp,
    int *pnData,
    void **ppData
){
  return sessionChangegroupOutput(pGrp, 0, 0, pnData, ppData);
}

/*
** Streaming versions of changegroup_add().
*/
int sqlite3changegroup_add_strm(
  sqlite3_changegroup *pGrp,
  int (*xInput)(void *pIn, void *pData, int *pnData),
  void *pIn
){
  sqlite3_changeset_iter *pIter;  /* Iterator opened on pData/nData */
  int rc;                         /* Return code */

  rc = sqlite3changeset_start_strm(&pIter, xInput, pIn);
  if( rc==SQLITE_OK ){
    rc = sessionChangesetToHash(pIter, pGrp);
  }
  sqlite3changeset_finalize(pIter);
  return rc;
}

/*
** Streaming versions of changegroup_output().
*/
int sqlite3changegroup_output_strm(
  sqlite3_changegroup *pGrp,
  int (*xOutput)(void *pOut, const void *pData, int nData), 
  void *pOut
){
  return sessionChangegroupOutput(pGrp, xOutput, pOut, 0, 0);
}

/*
** Delete a changegroup object.
*/
void sqlite3changegroup_delete(sqlite3_changegroup *pGrp){
  if( pGrp ){
    sessionDeleteTable(pGrp->pList);
    sqlite3_free(pGrp);
  }
}

/* 
** Combine two changesets together.
*/
int sqlite3changeset_concat(
  int nLeft,                      /* Number of bytes in lhs input */
  void *pLeft,                    /* Lhs input changeset */
  int nRight                      /* Number of bytes in rhs input */,
  void *pRight,                   /* Rhs input changeset */
  int *pnOut,                     /* OUT: Number of bytes in output changeset */
  void **ppOut                    /* OUT: changeset (left <concat> right) */
){
  sqlite3_changegroup *pGrp;
  int rc;

  rc = sqlite3changegroup_new(&pGrp);
  if( rc==SQLITE_OK ){
    rc = sqlite3changegroup_add(pGrp, nLeft, pLeft);
  }
  if( rc==SQLITE_OK ){
    rc = sqlite3changegroup_add(pGrp, nRight, pRight);
  }
  if( rc==SQLITE_OK ){
    rc = sqlite3changegroup_output(pGrp, pnOut, ppOut);
  }
  sqlite3changegroup_delete(pGrp);

  return rc;
}

/*
** Streaming version of sqlite3changeset_concat().
*/
int sqlite3changeset_concat_strm(
  int (*xInputA)(void *pIn, void *pData, int *pnData),
  void *pInA,
  int (*xInputB)(void *pIn, void *pData, int *pnData),
  void *pInB,
  int (*xOutput)(void *pOut, const void *pData, int nData),
  void *pOut
){
  sqlite3_changegroup *pGrp;
  int rc;

  rc = sqlite3changegroup_new(&pGrp);
  if( rc==SQLITE_OK ){
    rc = sqlite3changegroup_add_strm(pGrp, xInputA, pInA);
  }
  if( rc==SQLITE_OK ){
    rc = sqlite3changegroup_add_strm(pGrp, xInputB, pInB);
  }
  if( rc==SQLITE_OK ){
    rc = sqlite3changegroup_output_strm(pGrp, xOutput, pOut);
  }
  sqlite3changegroup_delete(pGrp);

  return rc;
}

#endif /* SQLITE_ENABLE_SESSION && SQLITE_ENABLE_PREUPDATE_HOOK */

Added ext/session/sqlite3session.h.



























































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































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#ifndef __SQLITESESSION_H_
#define __SQLITESESSION_H_ 1

/*
** Make sure we can call this stuff from C++.
*/
#ifdef __cplusplus
extern "C" {
#endif

#include "sqlite3.h"

/*
** CAPI3REF: Session Object Handle
*/
typedef struct sqlite3_session sqlite3_session;

/*
** CAPI3REF: Changeset Iterator Handle
*/
typedef struct sqlite3_changeset_iter sqlite3_changeset_iter;

/*
** CAPI3REF: Create A New Session Object
**
** Create a new session object attached to database handle db. If successful,
** a pointer to the new object is written to *ppSession and SQLITE_OK is
** returned. If an error occurs, *ppSession is set to NULL and an SQLite
** error code (e.g. SQLITE_NOMEM) is returned.
**
** It is possible to create multiple session objects attached to a single
** database handle.
**
** Session objects created using this function should be deleted using the
** [sqlite3session_delete()] function before the database handle that they
** are attached to is itself closed. If the database handle is closed before
** the session object is deleted, then the results of calling any session
** module function, including [sqlite3session_delete()] on the session object
** are undefined.
**
** Because the session module uses the [sqlite3_preupdate_hook()] API, it
** is not possible for an application to register a pre-update hook on a
** database handle that has one or more session objects attached. Nor is
** it possible to create a session object attached to a database handle for
** which a pre-update hook is already defined. The results of attempting 
** either of these things are undefined.
**
** The session object will be used to create changesets for tables in
** database zDb, where zDb is either "main", or "temp", or the name of an
** attached database. It is not an error if database zDb is not attached
** to the database when the session object is created.
*/
int sqlite3session_create(
  sqlite3 *db,                    /* Database handle */
  const char *zDb,                /* Name of db (e.g. "main") */
  sqlite3_session **ppSession     /* OUT: New session object */
);

/*
** CAPI3REF: Delete A Session Object
**
** Delete a session object previously allocated using 
** [sqlite3session_create()]. Once a session object has been deleted, the
** results of attempting to use pSession with any other session module
** function are undefined.
**
** Session objects must be deleted before the database handle to which they
** are attached is closed. Refer to the documentation for 
** [sqlite3session_create()] for details.
*/
void sqlite3session_delete(sqlite3_session *pSession);


/*
** CAPI3REF: Enable Or Disable A Session Object
**
** Enable or disable the recording of changes by a session object. When
** enabled, a session object records changes made to the database. When
** disabled - it does not. A newly created session object is enabled.
** Refer to the documentation for [sqlite3session_changeset()] for further
** details regarding how enabling and disabling a session object affects
** the eventual changesets.
**
** Passing zero to this function disables the session. Passing a value
** greater than zero enables it. Passing a value less than zero is a 
** no-op, and may be used to query the current state of the session.
**
** The return value indicates the final state of the session object: 0 if 
** the session is disabled, or 1 if it is enabled.
*/
int sqlite3session_enable(sqlite3_session *pSession, int bEnable);

/*
** CAPI3REF: Set Or Clear the Indirect Change Flag
**
** Each change recorded by a session object is marked as either direct or
** indirect. A change is marked as indirect if either:
**
** <ul>
**   <li> The session object "indirect" flag is set when the change is
**        made, or
**   <li> The change is made by an SQL trigger or foreign key action 
**        instead of directly as a result of a users SQL statement.
** </ul>
**
** If a single row is affected by more than one operation within a session,
** then the change is considered indirect if all operations meet the criteria
** for an indirect change above, or direct otherwise.
**
** This function is used to set, clear or query the session object indirect
** flag.  If the second argument passed to this function is zero, then the
** indirect flag is cleared. If it is greater than zero, the indirect flag
** is set. Passing a value less than zero does not modify the current value
** of the indirect flag, and may be used to query the current state of the 
** indirect flag for the specified session object.
**
** The return value indicates the final state of the indirect flag: 0 if 
** it is clear, or 1 if it is set.
*/
int sqlite3session_indirect(sqlite3_session *pSession, int bIndirect);

/*
** CAPI3REF: Attach A Table To A Session Object
**
** If argument zTab is not NULL, then it is the name of a table to attach
** to the session object passed as the first argument. All subsequent changes 
** made to the table while the session object is enabled will be recorded. See 
** documentation for [sqlite3session_changeset()] for further details.
**
** Or, if argument zTab is NULL, then changes are recorded for all tables
** in the database. If additional tables are added to the database (by 
** executing "CREATE TABLE" statements) after this call is made, changes for 
** the new tables are also recorded.
**
** Changes can only be recorded for tables that have a PRIMARY KEY explicitly
** defined as part of their CREATE TABLE statement. It does not matter if the 
** PRIMARY KEY is an "INTEGER PRIMARY KEY" (rowid alias) or not. The PRIMARY
** KEY may consist of a single column, or may be a composite key.
** 
** It is not an error if the named table does not exist in the database. Nor
** is it an error if the named table does not have a PRIMARY KEY. However,
** no changes will be recorded in either of these scenarios.
**
** Changes are not recorded for individual rows that have NULL values stored
** in one or more of their PRIMARY KEY columns.
**
** SQLITE_OK is returned if the call completes without error. Or, if an error 
** occurs, an SQLite error code (e.g. SQLITE_NOMEM) is returned.
*/
int sqlite3session_attach(
  sqlite3_session *pSession,      /* Session object */
  const char *zTab                /* Table name */
);

/*
** CAPI3REF: Set a table filter on a Session Object.
**
** The second argument (xFilter) is the "filter callback". For changes to rows 
** in tables that are not attached to the Session oject, the filter is called
** to determine whether changes to the table's rows should be tracked or not. 
** If xFilter returns 0, changes is not tracked. Note that once a table is 
** attached, xFilter will not be called again.
*/
void sqlite3session_table_filter(
  sqlite3_session *pSession,      /* Session object */
  int(*xFilter)(
    void *pCtx,                   /* Copy of third arg to _filter_table() */
    const char *zTab              /* Table name */
  ),
  void *pCtx                      /* First argument passed to xFilter */
);

/*
** CAPI3REF: Generate A Changeset From A Session Object
**
** Obtain a changeset containing changes to the tables attached to the 
** session object passed as the first argument. If successful, 
** set *ppChangeset to point to a buffer containing the changeset 
** and *pnChangeset to the size of the changeset in bytes before returning
** SQLITE_OK. If an error occurs, set both *ppChangeset and *pnChangeset to
** zero and return an SQLite error code.
**
** A changeset consists of zero or more INSERT, UPDATE and/or DELETE changes,
** each representing a change to a single row of an attached table. An INSERT
** change contains the values of each field of a new database row. A DELETE
** contains the original values of each field of a deleted database row. An
** UPDATE change contains the original values of each field of an updated
** database row along with the updated values for each updated non-primary-key
** column. It is not possible for an UPDATE change to represent a change that
** modifies the values of primary key columns. If such a change is made, it
** is represented in a changeset as a DELETE followed by an INSERT.
**
** Changes are not recorded for rows that have NULL values stored in one or 
** more of their PRIMARY KEY columns. If such a row is inserted or deleted,
** no corresponding change is present in the changesets returned by this
** function. If an existing row with one or more NULL values stored in
** PRIMARY KEY columns is updated so that all PRIMARY KEY columns are non-NULL,
** only an INSERT is appears in the changeset. Similarly, if an existing row
** with non-NULL PRIMARY KEY values is updated so that one or more of its
** PRIMARY KEY columns are set to NULL, the resulting changeset contains a
** DELETE change only.
**
** The contents of a changeset may be traversed using an iterator created
** using the [sqlite3changeset_start()] API. A changeset may be applied to
** a database with a compatible schema using the [sqlite3changeset_apply()]
** API.
**
** Within a changeset generated by this function, all changes related to a
** single table are grouped together. In other words, when iterating through
** a changeset or when applying a changeset to a database, all changes related
** to a single table are processed before moving on to the next table. Tables
** are sorted in the same order in which they were attached (or auto-attached)
** to the sqlite3_session object. The order in which the changes related to
** a single table are stored is undefined.
**
** Following a successful call to this function, it is the responsibility of
** the caller to eventually free the buffer that *ppChangeset points to using
** [sqlite3_free()].
**
** <h3>Changeset Generation</h3>
**
** Once a table has been attached to a session object, the session object
** records the primary key values of all new rows inserted into the table.
** It also records the original primary key and other column values of any
** deleted or updated rows. For each unique primary key value, data is only
** recorded once - the first time a row with said primary key is inserted,
** updated or deleted in the lifetime of the session.
**
** There is one exception to the previous paragraph: when a row is inserted,
** updated or deleted, if one or more of its primary key columns contain a
** NULL value, no record of the change is made.
**
** The session object therefore accumulates two types of records - those
** that consist of primary key values only (created when the user inserts
** a new record) and those that consist of the primary key values and the
** original values of other table columns (created when the users deletes
** or updates a record).
**
** When this function is called, the requested changeset is created using
** both the accumulated records and the current contents of the database
** file. Specifically:
**
** <ul>
**   <li> For each record generated by an insert, the database is queried
**        for a row with a matching primary key. If one is found, an INSERT
**        change is added to the changeset. If no such row is found, no change 
**        is added to the changeset.
**
**   <li> For each record generated by an update or delete, the database is 
**        queried for a row with a matching primary key. If such a row is
**        found and one or more of the non-primary key fields have been
**        modified from their original values, an UPDATE change is added to 
**        the changeset. Or, if no such row is found in the table, a DELETE 
**        change is added to the changeset. If there is a row with a matching
**        primary key in the database, but all fields contain their original
**        values, no change is added to the changeset.
** </ul>
**
** This means, amongst other things, that if a row is inserted and then later
** deleted while a session object is active, neither the insert nor the delete
** will be present in the changeset. Or if a row is deleted and then later a 
** row with the same primary key values inserted while a session object is
** active, the resulting changeset will contain an UPDATE change instead of
** a DELETE and an INSERT.
**
** When a session object is disabled (see the [sqlite3session_enable()] API),
** it does not accumulate records when rows are inserted, updated or deleted.
** This may appear to have some counter-intuitive effects if a single row
** is written to more than once during a session. For example, if a row
** is inserted while a session object is enabled, then later deleted while 
** the same session object is disabled, no INSERT record will appear in the
** changeset, even though the delete took place while the session was disabled.
** Or, if one field of a row is updated while a session is disabled, and 
** another field of the same row is updated while the session is enabled, the
** resulting changeset will contain an UPDATE change that updates both fields.
*/
int sqlite3session_changeset(
  sqlite3_session *pSession,      /* Session object */
  int *pnChangeset,               /* OUT: Size of buffer at *ppChangeset */
  void **ppChangeset              /* OUT: Buffer containing changeset */
);

/*
** CAPI3REF: Load The Difference Between Tables Into A Session 
**
** If it is not already attached to the session object passed as the first
** argument, this function attaches table zTbl in the same manner as the
** [sqlite3session_attach()] function. If zTbl does not exist, or if it
** does not have a primary key, this function is a no-op (but does not return
** an error).
**
** Argument zFromDb must be the name of a database ("main", "temp" etc.)
** attached to the same database handle as the session object that contains 
** a table compatible with the table attached to the session by this function.
** A table is considered compatible if it:
**
** <ul>
**   <li> Has the same name,
**   <li> Has the same set of columns declared in the same order, and
**   <li> Has the same PRIMARY KEY definition.
** </ul>
**
** If the tables are not compatible, SQLITE_SCHEMA is returned. If the tables
** are compatible but do not have any PRIMARY KEY columns, it is not an error
** but no changes are added to the session object. As with other session
** APIs, tables without PRIMARY KEYs are simply ignored.
**
** This function adds a set of changes to the session object that could be
** used to update the table in database zFrom (call this the "from-table") 
** so that its content is the same as the table attached to the session 
** object (call this the "to-table"). Specifically:
**
** <ul>
**   <li> For each row (primary key) that exists in the to-table but not in 
**     the from-table, an INSERT record is added to the session object.
**
**   <li> For each row (primary key) that exists in the to-table but not in 
**     the from-table, a DELETE record is added to the session object.
**
**   <li> For each row (primary key) that exists in both tables, but features 
**     different in each, an UPDATE record is added to the session.
** </ul>
**
** To clarify, if this function is called and then a changeset constructed
** using [sqlite3session_changeset()], then after applying that changeset to 
** database zFrom the contents of the two compatible tables would be 
** identical.
**
** It an error if database zFrom does not exist or does not contain the
** required compatible table.
**
** If the operation successful, SQLITE_OK is returned. Otherwise, an SQLite
** error code. In this case, if argument pzErrMsg is not NULL, *pzErrMsg
** may be set to point to a buffer containing an English language error 
** message. It is the responsibility of the caller to free this buffer using
** sqlite3_free().
*/
int sqlite3session_diff(
  sqlite3_session *pSession,
  const char *zFromDb,
  const char *zTbl,
  char **pzErrMsg
);


/*
** CAPI3REF: Generate A Patchset From A Session Object
**
** The differences between a patchset and a changeset are that:
**
** <ul>
**   <li> DELETE records consist of the primary key fields only. The 
**        original values of other fields are omitted.
**   <li> The original values of any modified fields are omitted from 
**        UPDATE records.
** </ul>
**
** A patchset blob may be used with up to date versions of all 
** sqlite3changeset_xxx API functions except for sqlite3changeset_invert(), 
** which returns SQLITE_CORRUPT if it is passed a patchset. Similarly,
** attempting to use a patchset blob with old versions of the
** sqlite3changeset_xxx APIs also provokes an SQLITE_CORRUPT error. 
**
** Because the non-primary key "old.*" fields are omitted, no 
** SQLITE_CHANGESET_DATA conflicts can be detected or reported if a patchset
** is passed to the sqlite3changeset_apply() API. Other conflict types work
** in the same way as for changesets.
**
** Changes within a patchset are ordered in the same way as for changesets
** generated by the sqlite3session_changeset() function (i.e. all changes for
** a single table are grouped together, tables appear in the order in which
** they were attached to the session object).
*/
int sqlite3session_patchset(
  sqlite3_session *pSession,      /* Session object */
  int *pnPatchset,                /* OUT: Size of buffer at *ppChangeset */
  void **ppPatchset               /* OUT: Buffer containing changeset */
);

/*
** CAPI3REF: Test if a changeset has recorded any changes.
**
** Return non-zero if no changes to attached tables have been recorded by 
** the session object passed as the first argument. Otherwise, if one or 
** more changes have been recorded, return zero.
**
** Even if this function returns zero, it is possible that calling
** [sqlite3session_changeset()] on the session handle may still return a
** changeset that contains no changes. This can happen when a row in 
** an attached table is modified and then later on the original values 
** are restored. However, if this function returns non-zero, then it is
** guaranteed that a call to sqlite3session_changeset() will return a 
** changeset containing zero changes.
*/
int sqlite3session_isempty(sqlite3_session *pSession);

/*
** CAPI3REF: Create An Iterator To Traverse A Changeset 
**
** Create an iterator used to iterate through the contents of a changeset.
** If successful, *pp is set to point to the iterator handle and SQLITE_OK
** is returned. Otherwise, if an error occurs, *pp is set to zero and an
** SQLite error code is returned.
**
** The following functions can be used to advance and query a changeset 
** iterator created by this function:
**
** <ul>
**   <li> [sqlite3changeset_next()]
**   <li> [sqlite3changeset_op()]
**   <li> [sqlite3changeset_new()]
**   <li> [sqlite3changeset_old()]
** </ul>
**
** It is the responsibility of the caller to eventually destroy the iterator
** by passing it to [sqlite3changeset_finalize()]. The buffer containing the
** changeset (pChangeset) must remain valid until after the iterator is
** destroyed.
**
** Assuming the changeset blob was created by one of the
** [sqlite3session_changeset()], [sqlite3changeset_concat()] or
** [sqlite3changeset_invert()] functions, all changes within the changeset 
** that apply to a single table are grouped together. This means that when 
** an application iterates through a changeset using an iterator created by 
** this function, all changes that relate to a single table are visted 
** consecutively. There is no chance that the iterator will visit a change 
** the applies to table X, then one for table Y, and then later on visit 
** another change for table X.
*/
int sqlite3changeset_start(
  sqlite3_changeset_iter **pp,    /* OUT: New changeset iterator handle */
  int nChangeset,                 /* Size of changeset blob in bytes */
  void *pChangeset                /* Pointer to blob containing changeset */
);


/*
** CAPI3REF: Advance A Changeset Iterator
**
** This function may only be used with iterators created by function
** [sqlite3changeset_start()]. If it is called on an iterator passed to
** a conflict-handler callback by [sqlite3changeset_apply()], SQLITE_MISUSE
** is returned and the call has no effect.
**
** Immediately after an iterator is created by sqlite3changeset_start(), it
** does not point to any change in the changeset. Assuming the changeset
** is not empty, the first call to this function advances the iterator to
** point to the first change in the changeset. Each subsequent call advances
** the iterator to point to the next change in the changeset (if any). If
** no error occurs and the iterator points to a valid change after a call
** to sqlite3changeset_next() has advanced it, SQLITE_ROW is returned. 
** Otherwise, if all changes in the changeset have already been visited,
** SQLITE_DONE is returned.
**
** If an error occurs, an SQLite error code is returned. Possible error 
** codes include SQLITE_CORRUPT (if the changeset buffer is corrupt) or 
** SQLITE_NOMEM.
*/
int sqlite3changeset_next(sqlite3_changeset_iter *pIter);

/*
** CAPI3REF: Obtain The Current Operation From A Changeset Iterator
**
** The pIter argument passed to this function may either be an iterator
** passed to a conflict-handler by [sqlite3changeset_apply()], or an iterator
** created by [sqlite3changeset_start()]. In the latter case, the most recent
** call to [sqlite3changeset_next()] must have returned [SQLITE_ROW]. If this
** is not the case, this function returns [SQLITE_MISUSE].
**
** If argument pzTab is not NULL, then *pzTab is set to point to a
** nul-terminated utf-8 encoded string containing the name of the table
** affected by the current change. The buffer remains valid until either
** sqlite3changeset_next() is called on the iterator or until the 
** conflict-handler function returns. If pnCol is not NULL, then *pnCol is 
** set to the number of columns in the table affected by the change. If
** pbIncorrect is not NULL, then *pbIndirect is set to true (1) if the change
** is an indirect change, or false (0) otherwise. See the documentation for
** [sqlite3session_indirect()] for a description of direct and indirect
** changes. Finally, if pOp is not NULL, then *pOp is set to one of 
** [SQLITE_INSERT], [SQLITE_DELETE] or [SQLITE_UPDATE], depending on the 
** type of change that the iterator currently points to.
**
** If no error occurs, SQLITE_OK is returned. If an error does occur, an
** SQLite error code is returned. The values of the output variables may not
** be trusted in this case.
*/
int sqlite3changeset_op(
  sqlite3_changeset_iter *pIter,  /* Iterator object */
  const char **pzTab,             /* OUT: Pointer to table name */
  int *pnCol,                     /* OUT: Number of columns in table */
  int *pOp,                       /* OUT: SQLITE_INSERT, DELETE or UPDATE */
  int *pbIndirect                 /* OUT: True for an 'indirect' change */
);

/*
** CAPI3REF: Obtain The Primary Key Definition Of A Table
**
** For each modified table, a changeset includes the following:
**
** <ul>
**   <li> The number of columns in the table, and
**   <li> Which of those columns make up the tables PRIMARY KEY.
** </ul>
**
** This function is used to find which columns comprise the PRIMARY KEY of
** the table modified by the change that iterator pIter currently points to.
** If successful, *pabPK is set to point to an array of nCol entries, where
** nCol is the number of columns in the table. Elements of *pabPK are set to
** 0x01 if the corresponding column is part of the tables primary key, or
** 0x00 if it is not.
**
** If argumet pnCol is not NULL, then *pnCol is set to the number of columns
** in the table.
**
** If this function is called when the iterator does not point to a valid
** entry, SQLITE_MISUSE is returned and the output variables zeroed. Otherwise,
** SQLITE_OK is returned and the output variables populated as described
** above.
*/
int sqlite3changeset_pk(
  sqlite3_changeset_iter *pIter,  /* Iterator object */
  unsigned char **pabPK,          /* OUT: Array of boolean - true for PK cols */
  int *pnCol                      /* OUT: Number of entries in output array */
);

/*
** CAPI3REF: Obtain old.* Values From A Changeset Iterator
**
** The pIter argument passed to this function may either be an iterator
** passed to a conflict-handler by [sqlite3changeset_apply()], or an iterator
** created by [sqlite3changeset_start()]. In the latter case, the most recent
** call to [sqlite3changeset_next()] must have returned SQLITE_ROW. 
** Furthermore, it may only be called if the type of change that the iterator
** currently points to is either [SQLITE_DELETE] or [SQLITE_UPDATE]. Otherwise,
** this function returns [SQLITE_MISUSE] and sets *ppValue to NULL.
**
** Argument iVal must be greater than or equal to 0, and less than the number
** of columns in the table affected by the current change. Otherwise,
** [SQLITE_RANGE] is returned and *ppValue is set to NULL.
**
** If successful, this function sets *ppValue to point to a protected
** sqlite3_value object containing the iVal'th value from the vector of 
** original row values stored as part of the UPDATE or DELETE change and
** returns SQLITE_OK. The name of the function comes from the fact that this 
** is similar to the "old.*" columns available to update or delete triggers.
**
** If some other error occurs (e.g. an OOM condition), an SQLite error code
** is returned and *ppValue is set to NULL.
*/
int sqlite3changeset_old(
  sqlite3_changeset_iter *pIter,  /* Changeset iterator */
  int iVal,                       /* Column number */
  sqlite3_value **ppValue         /* OUT: Old value (or NULL pointer) */
);

/*
** CAPI3REF: Obtain new.* Values From A Changeset Iterator
**
** The pIter argument passed to this function may either be an iterator
** passed to a conflict-handler by [sqlite3changeset_apply()], or an iterator
** created by [sqlite3changeset_start()]. In the latter case, the most recent
** call to [sqlite3changeset_next()] must have returned SQLITE_ROW. 
** Furthermore, it may only be called if the type of change that the iterator
** currently points to is either [SQLITE_UPDATE] or [SQLITE_INSERT]. Otherwise,
** this function returns [SQLITE_MISUSE] and sets *ppValue to NULL.
**
** Argument iVal must be greater than or equal to 0, and less than the number
** of columns in the table affected by the current change. Otherwise,
** [SQLITE_RANGE] is returned and *ppValue is set to NULL.
**
** If successful, this function sets *ppValue to point to a protected
** sqlite3_value object containing the iVal'th value from the vector of 
** new row values stored as part of the UPDATE or INSERT change and
** returns SQLITE_OK. If the change is an UPDATE and does not include
** a new value for the requested column, *ppValue is set to NULL and 
** SQLITE_OK returned. The name of the function comes from the fact that 
** this is similar to the "new.*" columns available to update or delete 
** triggers.
**
** If some other error occurs (e.g. an OOM condition), an SQLite error code
** is returned and *ppValue is set to NULL.
*/
int sqlite3changeset_new(
  sqlite3_changeset_iter *pIter,  /* Changeset iterator */
  int iVal,                       /* Column number */
  sqlite3_value **ppValue         /* OUT: New value (or NULL pointer) */
);

/*
** CAPI3REF: Obtain Conflicting Row Values From A Changeset Iterator
**
** This function should only be used with iterator objects passed to a
** conflict-handler callback by [sqlite3changeset_apply()] with either
** [SQLITE_CHANGESET_DATA] or [SQLITE_CHANGESET_CONFLICT]. If this function
** is called on any other iterator, [SQLITE_MISUSE] is returned and *ppValue
** is set to NULL.
**
** Argument iVal must be greater than or equal to 0, and less than the number
** of columns in the table affected by the current change. Otherwise,
** [SQLITE_RANGE] is returned and *ppValue is set to NULL.
**
** If successful, this function sets *ppValue to point to a protected
** sqlite3_value object containing the iVal'th value from the 
** "conflicting row" associated with the current conflict-handler callback
** and returns SQLITE_OK.
**
** If some other error occurs (e.g. an OOM condition), an SQLite error code
** is returned and *ppValue is set to NULL.
*/
int sqlite3changeset_conflict(
  sqlite3_changeset_iter *pIter,  /* Changeset iterator */
  int iVal,                       /* Column number */
  sqlite3_value **ppValue         /* OUT: Value from conflicting row */
);

/*
** CAPI3REF: Determine The Number Of Foreign Key Constraint Violations
**
** This function may only be called with an iterator passed to an
** SQLITE_CHANGESET_FOREIGN_KEY conflict handler callback. In this case
** it sets the output variable to the total number of known foreign key
** violations in the destination database and returns SQLITE_OK.
**
** In all other cases this function returns SQLITE_MISUSE.
*/
int sqlite3changeset_fk_conflicts(
  sqlite3_changeset_iter *pIter,  /* Changeset iterator */
  int *pnOut                      /* OUT: Number of FK violations */
);


/*
** CAPI3REF: Finalize A Changeset Iterator
**
** This function is used to finalize an iterator allocated with
** [sqlite3changeset_start()].
**
** This function should only be called on iterators created using the
** [sqlite3changeset_start()] function. If an application calls this
** function with an iterator passed to a conflict-handler by
** [sqlite3changeset_apply()], [SQLITE_MISUSE] is immediately returned and the
** call has no effect.
**
** If an error was encountered within a call to an sqlite3changeset_xxx()
** function (for example an [SQLITE_CORRUPT] in [sqlite3changeset_next()] or an 
** [SQLITE_NOMEM] in [sqlite3changeset_new()]) then an error code corresponding
** to that error is returned by this function. Otherwise, SQLITE_OK is
** returned. This is to allow the following pattern (pseudo-code):
**
**   sqlite3changeset_start();
**   while( SQLITE_ROW==sqlite3changeset_next() ){
**     // Do something with change.
**   }
**   rc = sqlite3changeset_finalize();
**   if( rc!=SQLITE_OK ){
**     // An error has occurred 
**   }
*/
int sqlite3changeset_finalize(sqlite3_changeset_iter *pIter);

/*
** CAPI3REF: Invert A Changeset
**
** This function is used to "invert" a changeset object. Applying an inverted
** changeset to a database reverses the effects of applying the uninverted
** changeset. Specifically:
**
** <ul>
**   <li> Each DELETE change is changed to an INSERT, and
**   <li> Each INSERT change is changed to a DELETE, and
**   <li> For each UPDATE change, the old.* and new.* values are exchanged.
** </ul>
**
** This function does not change the order in which changes appear within
** the changeset. It merely reverses the sense of each individual change.
**
** If successful, a pointer to a buffer containing the inverted changeset
** is stored in *ppOut, the size of the same buffer is stored in *pnOut, and
** SQLITE_OK is returned. If an error occurs, both *pnOut and *ppOut are
** zeroed and an SQLite error code returned.
**
** It is the responsibility of the caller to eventually call sqlite3_free()
** on the *ppOut pointer to free the buffer allocation following a successful 
** call to this function.
**
** WARNING/TODO: This function currently assumes that the input is a valid
** changeset. If it is not, the results are undefined.
*/
int sqlite3changeset_invert(
  int nIn, const void *pIn,       /* Input changeset */
  int *pnOut, void **ppOut        /* OUT: Inverse of input */
);

/*
** CAPI3REF: Concatenate Two Changeset Objects
**
** This function is used to concatenate two changesets, A and B, into a 
** single changeset. The result is a changeset equivalent to applying
** changeset A followed by changeset B. 
**
** This function combines the two input changesets using an 
** sqlite3_changegroup object. Calling it produces similar results as the
** following code fragment:
**
**   sqlite3_changegroup *pGrp;
**   rc = sqlite3_changegroup_new(&pGrp);
**   if( rc==SQLITE_OK ) rc = sqlite3changegroup_add(pGrp, nA, pA);
**   if( rc==SQLITE_OK ) rc = sqlite3changegroup_add(pGrp, nB, pB);
**   if( rc==SQLITE_OK ){
**     rc = sqlite3changegroup_output(pGrp, pnOut, ppOut);
**   }else{
**     *ppOut = 0;
**     *pnOut = 0;
**   }
**
** Refer to the sqlite3_changegroup documentation below for details.
*/
int sqlite3changeset_concat(
  int nA,                         /* Number of bytes in buffer pA */
  void *pA,                       /* Pointer to buffer containing changeset A */
  int nB,                         /* Number of bytes in buffer pB */
  void *pB,                       /* Pointer to buffer containing changeset B */
  int *pnOut,                     /* OUT: Number of bytes in output changeset */
  void **ppOut                    /* OUT: Buffer containing output changeset */
);


/*
** Changegroup handle.
*/
typedef struct sqlite3_changegroup sqlite3_changegroup;

/*
** CAPI3REF: Combine two or more changesets into a single changeset.
**
** An sqlite3_changegroup object is used to combine two or more changesets
** (or patchsets) into a single changeset (or patchset). A single changegroup
** object may combine changesets or patchsets, but not both. The output is
** always in the same format as the input.
**
** If successful, this function returns SQLITE_OK and populates (*pp) with
** a pointer to a new sqlite3_changegroup object before returning. The caller
** should eventually free the returned object using a call to 
** sqlite3changegroup_delete(). If an error occurs, an SQLite error code
** (i.e. SQLITE_NOMEM) is returned and *pp is set to NULL.
**
** The usual usage pattern for an sqlite3_changegroup object is as follows:
**
** <ul>
**   <li> It is created using a call to sqlite3changegroup_new().
**
**   <li> Zero or more changesets (or patchsets) are added to the object
**        by calling sqlite3changegroup_add().
**
**   <li> The result of combining all input changesets together is obtained 
**        by the application via a call to sqlite3changegroup_output().
**
**   <li> The object is deleted using a call to sqlite3changegroup_delete().
** </ul>
**
** Any number of calls to add() and output() may be made between the calls to
** new() and delete(), and in any order.
**
** As well as the regular sqlite3changegroup_add() and 
** sqlite3changegroup_output() functions, also available are the streaming
** versions sqlite3changegroup_add_strm() and sqlite3changegroup_output_strm().
*/
int sqlite3changegroup_new(sqlite3_changegroup **pp);

/*
** Add all changes within the changeset (or patchset) in buffer pData (size
** nData bytes) to the changegroup. 
**
** If the buffer contains a patchset, then all prior calls to this function
** on the same changegroup object must also have specified patchsets. Or, if
** the buffer contains a changeset, so must have the earlier calls to this
** function. Otherwise, SQLITE_ERROR is returned and no changes are added
** to the changegroup.
**
** Rows within the changeset and changegroup are identified by the values in
** their PRIMARY KEY columns. A change in the changeset is considered to
** apply to the same row as a change already present in the changegroup if
** the two rows have the same primary key.
**
** Changes to rows that that do not already appear in the changegroup are
** simply copied into it. Or, if both the new changeset and the changegroup
** contain changes that apply to a single row, the final contents of the
** changegroup depends on the type of each change, as follows:
**
** <table border=1 style="margin-left:8ex;margin-right:8ex">
**   <tr><th style="white-space:pre">Existing Change  </th>
**       <th style="white-space:pre">New Change       </th>
**       <th>Output Change
**   <tr><td>INSERT <td>INSERT <td>
**       The new change is ignored. This case does not occur if the new
**       changeset was recorded immediately after the changesets already
**       added to the changegroup.
**   <tr><td>INSERT <td>UPDATE <td>
**       The INSERT change remains in the changegroup. The values in the 
**       INSERT change are modified as if the row was inserted by the
**       existing change and then updated according to the new change.
**   <tr><td>INSERT <td>DELETE <td>
**       The existing INSERT is removed from the changegroup. The DELETE is
**       not added.
**   <tr><td>UPDATE <td>INSERT <td>
**       The new change is ignored. This case does not occur if the new
**       changeset was recorded immediately after the changesets already
**       added to the changegroup.
**   <tr><td>UPDATE <td>UPDATE <td>
**       The existing UPDATE remains within the changegroup. It is amended 
**       so that the accompanying values are as if the row was updated once 
**       by the existing change and then again by the new change.
**   <tr><td>UPDATE <td>DELETE <td>
**       The existing UPDATE is replaced by the new DELETE within the
**       changegroup.
**   <tr><td>DELETE <td>INSERT <td>
**       If one or more of the column values in the row inserted by the
**       new change differ from those in the row deleted by the existing 
**       change, the existing DELETE is replaced by an UPDATE within the
**       changegroup. Otherwise, if the inserted row is exactly the same 
**       as the deleted row, the existing DELETE is simply discarded.
**   <tr><td>DELETE <td>UPDATE <td>
**       The new change is ignored. This case does not occur if the new
**       changeset was recorded immediately after the changesets already
**       added to the changegroup.
**   <tr><td>DELETE <td>DELETE <td>
**       The new change is ignored. This case does not occur if the new
**       changeset was recorded immediately after the changesets already
**       added to the changegroup.
** </table>
**
** If the new changeset contains changes to a table that is already present
** in the changegroup, then the number of columns and the position of the
** primary key columns for the table must be consistent. If this is not the
** case, this function fails with SQLITE_SCHEMA. If the input changeset
** appears to be corrupt and the corruption is detected, SQLITE_CORRUPT is
** returned. Or, if an out-of-memory condition occurs during processing, this
** function returns SQLITE_NOMEM. In all cases, if an error occurs the
** final contents of the changegroup is undefined.
**
** If no error occurs, SQLITE_OK is returned.
*/
int sqlite3changegroup_add(sqlite3_changegroup*, int nData, void *pData);

/*
** Obtain a buffer containing a changeset (or patchset) representing the
** current contents of the changegroup. If the inputs to the changegroup
** were themselves changesets, the output is a changeset. Or, if the
** inputs were patchsets, the output is also a patchset.
**
** As with the output of the sqlite3session_changeset() and
** sqlite3session_patchset() functions, all changes related to a single
** table are grouped together in the output of this function. Tables appear
** in the same order as for the very first changeset added to the changegroup.
** If the second or subsequent changesets added to the changegroup contain
** changes for tables that do not appear in the first changeset, they are
** appended onto the end of the output changeset, again in the order in
** which they are first encountered.
**
** If an error occurs, an SQLite error code is returned and the output
** variables (*pnData) and (*ppData) are set to 0. Otherwise, SQLITE_OK
** is returned and the output variables are set to the size of and a 
** pointer to the output buffer, respectively. In this case it is the
** responsibility of the caller to eventually free the buffer using a
** call to sqlite3_free().
*/
int sqlite3changegroup_output(
  sqlite3_changegroup*,
  int *pnData,                    /* OUT: Size of output buffer in bytes */
  void **ppData                   /* OUT: Pointer to output buffer */
);

/*
** Delete a changegroup object.
*/
void sqlite3changegroup_delete(sqlite3_changegroup*);

/*
** CAPI3REF: Apply A Changeset To A Database
**
** Apply a changeset to a database. This function attempts to update the
** "main" database attached to handle db with the changes found in the
** changeset passed via the second and third arguments.
**
** The fourth argument (xFilter) passed to this function is the "filter
** callback". If it is not NULL, then for each table affected by at least one
** change in the changeset, the filter callback is invoked with
** the table name as the second argument, and a copy of the context pointer
** passed as the sixth argument to this function as the first. If the "filter
** callback" returns zero, then no attempt is made to apply any changes to 
** the table. Otherwise, if the return value is non-zero or the xFilter
** argument to this function is NULL, all changes related to the table are
** attempted.
**
** For each table that is not excluded by the filter callback, this function 
** tests that the target database contains a compatible table. A table is 
** considered compatible if all of the following are true:
**
** <ul>
**   <li> The table has the same name as the name recorded in the 
**        changeset, and
**   <li> The table has the same number of columns as recorded in the 
**        changeset, and
**   <li> The table has primary key columns in the same position as 
**        recorded in the changeset.
** </ul>
**
** If there is no compatible table, it is not an error, but none of the
** changes associated with the table are applied. A warning message is issued
** via the sqlite3_log() mechanism with the error code SQLITE_SCHEMA. At most
** one such warning is issued for each table in the changeset.
**
** For each change for which there is a compatible table, an attempt is made 
** to modify the table contents according to the UPDATE, INSERT or DELETE 
** change. If a change cannot be applied cleanly, the conflict handler 
** function passed as the fifth argument to sqlite3changeset_apply() may be 
** invoked. A description of exactly when the conflict handler is invoked for 
** each type of change is below.
**
** Unlike the xFilter argument, xConflict may not be passed NULL. The results
** of passing anything other than a valid function pointer as the xConflict
** argument are undefined.
**
** Each time the conflict handler function is invoked, it must return one
** of [SQLITE_CHANGESET_OMIT], [SQLITE_CHANGESET_ABORT] or 
** [SQLITE_CHANGESET_REPLACE]. SQLITE_CHANGESET_REPLACE may only be returned
** if the second argument passed to the conflict handler is either
** SQLITE_CHANGESET_DATA or SQLITE_CHANGESET_CONFLICT. If the conflict-handler
** returns an illegal value, any changes already made are rolled back and
** the call to sqlite3changeset_apply() returns SQLITE_MISUSE. Different 
** actions are taken by sqlite3changeset_apply() depending on the value
** returned by each invocation of the conflict-handler function. Refer to
** the documentation for the three 
** [SQLITE_CHANGESET_OMIT|available return values] for details.
**
** <dl>
** <dt>DELETE Changes<dd>
**   For each DELETE change, this function checks if the target database 
**   contains a row with the same primary key value (or values) as the 
**   original row values stored in the changeset. If it does, and the values 
**   stored in all non-primary key columns also match the values stored in 
**   the changeset the row is deleted from the target database.
**
**   If a row with matching primary key values is found, but one or more of
**   the non-primary key fields contains a value different from the original
**   row value stored in the changeset, the conflict-handler function is
**   invoked with [SQLITE_CHANGESET_DATA] as the second argument.
**
**   If no row with matching primary key values is found in the database,
**   the conflict-handler function is invoked with [SQLITE_CHANGESET_NOTFOUND]
**   passed as the second argument.
**
**   If the DELETE operation is attempted, but SQLite returns SQLITE_CONSTRAINT
**   (which can only happen if a foreign key constraint is violated), the
**   conflict-handler function is invoked with [SQLITE_CHANGESET_CONSTRAINT]
**   passed as the second argument. This includes the case where the DELETE
**   operation is attempted because an earlier call to the conflict handler
**   function returned [SQLITE_CHANGESET_REPLACE].
**
** <dt>INSERT Changes<dd>
**   For each INSERT change, an attempt is made to insert the new row into
**   the database.
**
**   If the attempt to insert the row fails because the database already 
**   contains a row with the same primary key values, the conflict handler
**   function is invoked with the second argument set to 
**   [SQLITE_CHANGESET_CONFLICT].
**
**   If the attempt to insert the row fails because of some other constraint
**   violation (e.g. NOT NULL or UNIQUE), the conflict handler function is 
**   invoked with the second argument set to [SQLITE_CHANGESET_CONSTRAINT].
**   This includes the case where the INSERT operation is re-attempted because 
**   an earlier call to the conflict handler function returned 
**   [SQLITE_CHANGESET_REPLACE].
**
** <dt>UPDATE Changes<dd>
**   For each UPDATE change, this function checks if the target database 
**   contains a row with the same primary key value (or values) as the 
**   original row values stored in the changeset. If it does, and the values 
**   stored in all non-primary key columns also match the values stored in 
**   the changeset the row is updated within the target database.
**
**   If a row with matching primary key values is found, but one or more of
**   the non-primary key fields contains a value different from an original
**   row value stored in the changeset, the conflict-handler function is
**   invoked with [SQLITE_CHANGESET_DATA] as the second argument. Since
**   UPDATE changes only contain values for non-primary key fields that are
**   to be modified, only those fields need to match the original values to
**   avoid the SQLITE_CHANGESET_DATA conflict-handler callback.
**
**   If no row with matching primary key values is found in the database,
**   the conflict-handler function is invoked with [SQLITE_CHANGESET_NOTFOUND]
**   passed as the second argument.
**
**   If the UPDATE operation is attempted, but SQLite returns 
**   SQLITE_CONSTRAINT, the conflict-handler function is invoked with 
**   [SQLITE_CHANGESET_CONSTRAINT] passed as the second argument.
**   This includes the case where the UPDATE operation is attempted after 
**   an earlier call to the conflict handler function returned
**   [SQLITE_CHANGESET_REPLACE].  
** </dl>
**
** It is safe to execute SQL statements, including those that write to the
** table that the callback related to, from within the xConflict callback.
** This can be used to further customize the applications conflict
** resolution strategy.
**
** All changes made by this function are enclosed in a savepoint transaction.
** If any other error (aside from a constraint failure when attempting to
** write to the target database) occurs, then the savepoint transaction is
** rolled back, restoring the target database to its original state, and an 
** SQLite error code returned.
*/
int sqlite3changeset_apply(
  sqlite3 *db,                    /* Apply change to "main" db of this handle */
  int nChangeset,                 /* Size of changeset in bytes */
  void *pChangeset,               /* Changeset blob */
  int(*xFilter)(
    void *pCtx,                   /* Copy of sixth arg to _apply() */
    const char *zTab              /* Table name */
  ),
  int(*xConflict)(
    void *pCtx,                   /* Copy of sixth arg to _apply() */
    int eConflict,                /* DATA, MISSING, CONFLICT, CONSTRAINT */
    sqlite3_changeset_iter *p     /* Handle describing change and conflict */
  ),
  void *pCtx                      /* First argument passed to xConflict */
);

/* 
** CAPI3REF: Constants Passed To The Conflict Handler
**
** Values that may be passed as the second argument to a conflict-handler.
**
** <dl>
** <dt>SQLITE_CHANGESET_DATA<dd>
**   The conflict handler is invoked with CHANGESET_DATA as the second argument
**   when processing a DELETE or UPDATE change if a row with the required
**   PRIMARY KEY fields is present in the database, but one or more other 
**   (non primary-key) fields modified by the update do not contain the 
**   expected "before" values.
** 
**   The conflicting row, in this case, is the database row with the matching
**   primary key.
** 
** <dt>SQLITE_CHANGESET_NOTFOUND<dd>
**   The conflict handler is invoked with CHANGESET_NOTFOUND as the second
**   argument when processing a DELETE or UPDATE change if a row with the
**   required PRIMARY KEY fields is not present in the database.
** 
**   There is no conflicting row in this case. The results of invoking the
**   sqlite3changeset_conflict() API are undefined.
** 
** <dt>SQLITE_CHANGESET_CONFLICT<dd>
**   CHANGESET_CONFLICT is passed as the second argument to the conflict
**   handler while processing an INSERT change if the operation would result 
**   in duplicate primary key values.
** 
**   The conflicting row in this case is the database row with the matching
**   primary key.
**
** <dt>SQLITE_CHANGESET_FOREIGN_KEY<dd>
**   If foreign key handling is enabled, and applying a changeset leaves the
**   database in a state containing foreign key violations, the conflict 
**   handler is invoked with CHANGESET_FOREIGN_KEY as the second argument
**   exactly once before the changeset is committed. If the conflict handler
**   returns CHANGESET_OMIT, the changes, including those that caused the
**   foreign key constraint violation, are committed. Or, if it returns
**   CHANGESET_ABORT, the changeset is rolled back.
**
**   No current or conflicting row information is provided. The only function
**   it is possible to call on the supplied sqlite3_changeset_iter handle
**   is sqlite3changeset_fk_conflicts().
** 
** <dt>SQLITE_CHANGESET_CONSTRAINT<dd>
**   If any other constraint violation occurs while applying a change (i.e. 
**   a UNIQUE, CHECK or NOT NULL constraint), the conflict handler is 
**   invoked with CHANGESET_CONSTRAINT as the second argument.
** 
**   There is no conflicting row in this case. The results of invoking the
**   sqlite3changeset_conflict() API are undefined.
**
** </dl>
*/
#define SQLITE_CHANGESET_DATA        1
#define SQLITE_CHANGESET_NOTFOUND    2
#define SQLITE_CHANGESET_CONFLICT    3
#define SQLITE_CHANGESET_CONSTRAINT  4
#define SQLITE_CHANGESET_FOREIGN_KEY 5

/* 
** CAPI3REF: Constants Returned By The Conflict Handler
**
** A conflict handler callback must return one of the following three values.
**
** <dl>
** <dt>SQLITE_CHANGESET_OMIT<dd>
**   If a conflict handler returns this value no special action is taken. The
**   change that caused the conflict is not applied. The session module 
**   continues to the next change in the changeset.
**
** <dt>SQLITE_CHANGESET_REPLACE<dd>
**   This value may only be returned if the second argument to the conflict
**   handler was SQLITE_CHANGESET_DATA or SQLITE_CHANGESET_CONFLICT. If this
**   is not the case, any changes applied so far are rolled back and the 
**   call to sqlite3changeset_apply() returns SQLITE_MISUSE.
**
**   If CHANGESET_REPLACE is returned by an SQLITE_CHANGESET_DATA conflict
**   handler, then the conflicting row is either updated or deleted, depending
**   on the type of change.
**
**   If CHANGESET_REPLACE is returned by an SQLITE_CHANGESET_CONFLICT conflict
**   handler, then the conflicting row is removed from the database and a
**   second attempt to apply the change is made. If this second attempt fails,
**   the original row is restored to the database before continuing.
**
** <dt>SQLITE_CHANGESET_ABORT<dd>
**   If this value is returned, any changes applied so far are rolled back 
**   and the call to sqlite3changeset_apply() returns SQLITE_ABORT.
** </dl>
*/
#define SQLITE_CHANGESET_OMIT       0
#define SQLITE_CHANGESET_REPLACE    1
#define SQLITE_CHANGESET_ABORT      2

/*
** CAPI3REF: Streaming Versions of API functions.
**
** The six streaming API xxx_strm() functions serve similar purposes to the 
** corresponding non-streaming API functions:
**
** <table border=1 style="margin-left:8ex;margin-right:8ex">
**   <tr><th>Streaming function<th>Non-streaming equivalent</th>
**   <tr><td>sqlite3changeset_apply_str<td>[sqlite3changeset_apply] 
**   <tr><td>sqlite3changeset_concat_str<td>[sqlite3changeset_concat] 
**   <tr><td>sqlite3changeset_invert_str<td>[sqlite3changeset_invert] 
**   <tr><td>sqlite3changeset_start_str<td>[sqlite3changeset_start] 
**   <tr><td>sqlite3session_changeset_str<td>[sqlite3session_changeset] 
**   <tr><td>sqlite3session_patchset_str<td>[sqlite3session_patchset] 
** </table>
**
** Non-streaming functions that accept changesets (or patchsets) as input
** require that the entire changeset be stored in a single buffer in memory. 
** Similarly, those that return a changeset or patchset do so by returning 
** a pointer to a single large buffer allocated using sqlite3_malloc(). 
** Normally this is convenient. However, if an application running in a 
** low-memory environment is required to handle very large changesets, the
** large contiguous memory allocations required can become onerous.
**
** In order to avoid this problem, instead of a single large buffer, input
** is passed to a streaming API functions by way of a callback function that
** the sessions module invokes to incrementally request input data as it is
** required. In all cases, a pair of API function parameters such as
**
**  <pre>
**  &nbsp;     int nChangeset,
**  &nbsp;     void *pChangeset,
**  </pre>
**
** Is replaced by:
**
**  <pre>
**  &nbsp;     int (*xInput)(void *pIn, void *pData, int *pnData),
**  &nbsp;     void *pIn,
**  </pre>
**
** Each time the xInput callback is invoked by the sessions module, the first
** argument passed is a copy of the supplied pIn context pointer. The second 
** argument, pData, points to a buffer (*pnData) bytes in size. Assuming no 
** error occurs the xInput method should copy up to (*pnData) bytes of data 
** into the buffer and set (*pnData) to the actual number of bytes copied 
** before returning SQLITE_OK. If the input is completely exhausted, (*pnData) 
** should be set to zero to indicate this. Or, if an error occurs, an SQLite 
** error code should be returned. In all cases, if an xInput callback returns
** an error, all processing is abandoned and the streaming API function
** returns a copy of the error code to the caller.
**
** In the case of sqlite3changeset_start_strm(), the xInput callback may be
** invoked by the sessions module at any point during the lifetime of the
** iterator. If such an xInput callback returns an error, the iterator enters
** an error state, whereby all subsequent calls to iterator functions 
** immediately fail with the same error code as returned by xInput.
**
** Similarly, streaming API functions that return changesets (or patchsets)
** return them in chunks by way of a callback function instead of via a
** pointer to a single large buffer. In this case, a pair of parameters such
** as:
**
**  <pre>
**  &nbsp;     int *pnChangeset,
**  &nbsp;     void **ppChangeset,
**  </pre>
**
** Is replaced by:
**
**  <pre>
**  &nbsp;     int (*xOutput)(void *pOut, const void *pData, int nData),
**  &nbsp;     void *pOut
**  </pre>
**
** The xOutput callback is invoked zero or more times to return data to
** the application. The first parameter passed to each call is a copy of the
** pOut pointer supplied by the application. The second parameter, pData,
** points to a buffer nData bytes in size containing the chunk of output
** data being returned. If the xOutput callback successfully processes the
** supplied data, it should return SQLITE_OK to indicate success. Otherwise,
** it should return some other SQLite error code. In this case processing
** is immediately abandoned and the streaming API function returns a copy
** of the xOutput error code to the application.
**
** The sessions module never invokes an xOutput callback with the third 
** parameter set to a value less than or equal to zero. Other than this,
** no guarantees are made as to the size of the chunks of data returned.
*/
int sqlite3changeset_apply_strm(
  sqlite3 *db,                    /* Apply change to "main" db of this handle */
  int (*xInput)(void *pIn, void *pData, int *pnData), /* Input function */
  void *pIn,                                          /* First arg for xInput */
  int(*xFilter)(
    void *pCtx,                   /* Copy of sixth arg to _apply() */
    const char *zTab              /* Table name */
  ),
  int(*xConflict)(
    void *pCtx,                   /* Copy of sixth arg to _apply() */
    int eConflict,                /* DATA, MISSING, CONFLICT, CONSTRAINT */
    sqlite3_changeset_iter *p     /* Handle describing change and conflict */
  ),
  void *pCtx                      /* First argument passed to xConflict */
);
int sqlite3changeset_concat_strm(
  int (*xInputA)(void *pIn, void *pData, int *pnData),
  void *pInA,
  int (*xInputB)(void *pIn, void *pData, int *pnData),
  void *pInB,
  int (*xOutput)(void *pOut, const void *pData, int nData),
  void *pOut
);
int sqlite3changeset_invert_strm(
  int (*xInput)(void *pIn, void *pData, int *pnData),
  void *pIn,
  int (*xOutput)(void *pOut, const void *pData, int nData),
  void *pOut
);
int sqlite3changeset_start_strm(
  sqlite3_changeset_iter **pp,
  int (*xInput)(void *pIn, void *pData, int *pnData),
  void *pIn
);
int sqlite3session_changeset_strm(
  sqlite3_session *pSession,
  int (*xOutput)(void *pOut, const void *pData, int nData),
  void *pOut
);
int sqlite3session_patchset_strm(
  sqlite3_session *pSession,
  int (*xOutput)(void *pOut, const void *pData, int nData),
  void *pOut
);
int sqlite3changegroup_add_strm(sqlite3_changegroup*, 
    int (*xInput)(void *pIn, void *pData, int *pnData),
    void *pIn
);
int sqlite3changegroup_output_strm(sqlite3_changegroup*,
    int (*xOutput)(void *pOut, const void *pData, int nData), 
    void *pOut
);


/*
** Make sure we can call this stuff from C++.
*/
#ifdef __cplusplus
}
#endif

#endif  /* SQLITE_ENABLE_SESSION && SQLITE_ENABLE_PREUPDATE_HOOK */

Added ext/session/test_session.c.















































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































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#if defined(SQLITE_TEST) && defined(SQLITE_ENABLE_SESSION) \
 && defined(SQLITE_ENABLE_PREUPDATE_HOOK)

#include "sqlite3session.h"
#include <assert.h>
#include <string.h>
#include <tcl.h>

typedef struct TestSession TestSession;
struct TestSession {
  sqlite3_session *pSession;
  Tcl_Interp *interp;
  Tcl_Obj *pFilterScript;
};

typedef struct TestStreamInput TestStreamInput;
struct TestStreamInput {
  int nStream;                    /* Maximum chunk size */
  unsigned char *aData;           /* Pointer to buffer containing data */
  int nData;                      /* Size of buffer aData in bytes */
  int iData;                      /* Bytes of data already read by sessions */
};

#define SESSION_STREAM_TCL_VAR "sqlite3session_streams"

/*
** Attempt to find the global variable zVar within interpreter interp
** and extract an integer value from it. Return this value.
**
** If the named variable cannot be found, or if it cannot be interpreted
** as a integer, return 0.
*/
static int test_tcl_integer(Tcl_Interp *interp, const char *zVar){
  Tcl_Obj *pObj;
  int iVal = 0;
  pObj = Tcl_ObjGetVar2(interp, Tcl_NewStringObj(zVar, -1), 0, TCL_GLOBAL_ONLY);
  if( pObj ) Tcl_GetIntFromObj(0, pObj, &iVal);
  return iVal;
}

static int test_session_error(Tcl_Interp *interp, int rc, char *zErr){
  extern const char *sqlite3ErrName(int);
  Tcl_SetObjResult(interp, Tcl_NewStringObj(sqlite3ErrName(rc), -1));
  if( zErr ){
    Tcl_AppendResult(interp, " - ", zErr, 0);
    sqlite3_free(zErr);
  }
  return TCL_ERROR;
}

static int test_table_filter(void *pCtx, const char *zTbl){
  TestSession *p = (TestSession*)pCtx;
  Tcl_Obj *pEval;
  int rc;
  int bRes = 0;

  pEval = Tcl_DuplicateObj(p->pFilterScript);
  Tcl_IncrRefCount(pEval);
  rc = Tcl_ListObjAppendElement(p->interp, pEval, Tcl_NewStringObj(zTbl, -1));
  if( rc==TCL_OK ){
    rc = Tcl_EvalObjEx(p->interp, pEval, TCL_EVAL_GLOBAL);
  }
  if( rc==TCL_OK ){
    rc = Tcl_GetBooleanFromObj(p->interp, Tcl_GetObjResult(p->interp), &bRes);
  }
  if( rc!=TCL_OK ){
    /* printf("error: %s\n", Tcl_GetStringResult(p->interp)); */
    Tcl_BackgroundError(p->interp);
  }
  Tcl_DecrRefCount(pEval);

  return bRes;
}

struct TestSessionsBlob {
  void *p;
  int n;
};
typedef struct TestSessionsBlob TestSessionsBlob;

static int testStreamOutput(
  void *pCtx,
  const void *pData,
  int nData
){
  TestSessionsBlob *pBlob = (TestSessionsBlob*)pCtx;
  char *pNew;

  assert( nData>0 );
  pNew = (char*)sqlite3_realloc(pBlob->p, pBlob->n + nData);
  if( pNew==0 ){
    return SQLITE_NOMEM;
  }
  pBlob->p = (void*)pNew;
  memcpy(&pNew[pBlob->n], pData, nData);
  pBlob->n += nData;
  return SQLITE_OK;
}

/*
** Tclcmd:  $session attach TABLE
**          $session changeset
**          $session delete
**          $session enable BOOL
**          $session indirect INTEGER
**          $session patchset
**          $session table_filter SCRIPT
*/
static int test_session_cmd(
  void *clientData,
  Tcl_Interp *interp,
  int objc,
  Tcl_Obj *CONST objv[]
){
  TestSession *p = (TestSession*)clientData;
  sqlite3_session *pSession = p->pSession;
  struct SessionSubcmd {
    const char *zSub;
    int nArg;
    const char *zMsg;
    int iSub;
  } aSub[] = {
    { "attach",       1, "TABLE",      }, /* 0 */
    { "changeset",    0, "",           }, /* 1 */
    { "delete",       0, "",           }, /* 2 */
    { "enable",       1, "BOOL",       }, /* 3 */
    { "indirect",     1, "BOOL",       }, /* 4 */
    { "isempty",      0, "",           }, /* 5 */
    { "table_filter", 1, "SCRIPT",     }, /* 6 */
    { "patchset",     0, "",           }, /* 7 */
    { "diff",         2, "FROMDB TBL", }, /* 8 */
    { 0 }
  };
  int iSub;
  int rc;

  if( objc<2 ){
    Tcl_WrongNumArgs(interp, 1, objv, "SUBCOMMAND ...");
    return TCL_ERROR;
  }
  rc = Tcl_GetIndexFromObjStruct(interp, 
      objv[1], aSub, sizeof(aSub[0]), "sub-command", 0, &iSub
  );
  if( rc!=TCL_OK ) return rc;
  if( objc!=2+aSub[iSub].nArg ){
    Tcl_WrongNumArgs(interp, 2, objv, aSub[iSub].zMsg);
    return TCL_ERROR;
  }

  switch( iSub ){
    case 0: {      /* attach */
      char *zArg = Tcl_GetString(objv[2]);
      if( zArg[0]=='*' && zArg[1]=='\0' ) zArg = 0;
      rc = sqlite3session_attach(pSession, zArg);
      if( rc!=SQLITE_OK ){
        return test_session_error(interp, rc, 0);
      }
      break;
    }

    case 7:        /* patchset */
    case 1: {      /* changeset */
      TestSessionsBlob o = {0, 0};
      if( test_tcl_integer(interp, SESSION_STREAM_TCL_VAR) ){
        void *pCtx = (void*)&o;
        if( iSub==7 ){
          rc = sqlite3session_patchset_strm(pSession, testStreamOutput, pCtx);
        }else{
          rc = sqlite3session_changeset_strm(pSession, testStreamOutput, pCtx);
        }
      }else{
        if( iSub==7 ){
          rc = sqlite3session_patchset(pSession, &o.n, &o.p);
        }else{
          rc = sqlite3session_changeset(pSession, &o.n, &o.p);
        }
      }
      if( rc==SQLITE_OK ){
        Tcl_SetObjResult(interp, Tcl_NewByteArrayObj(o.p, o.n)); 
      }
      sqlite3_free(o.p);
      if( rc!=SQLITE_OK ){
        return test_session_error(interp, rc, 0);
      }
      break;
    }

    case 2:        /* delete */
      Tcl_DeleteCommand(interp, Tcl_GetString(objv[0]));
      break;

    case 3: {      /* enable */
      int val;
      if( Tcl_GetIntFromObj(interp, objv[2], &val) ) return TCL_ERROR;
      val = sqlite3session_enable(pSession, val);
      Tcl_SetObjResult(interp, Tcl_NewBooleanObj(val));
      break;
    }

    case 4: {      /* indirect */
      int val;
      if( Tcl_GetIntFromObj(interp, objv[2], &val) ) return TCL_ERROR;
      val = sqlite3session_indirect(pSession, val);
      Tcl_SetObjResult(interp, Tcl_NewBooleanObj(val));
      break;
    }

    case 5: {      /* isempty */
      int val;
      val = sqlite3session_isempty(pSession);
      Tcl_SetObjResult(interp, Tcl_NewBooleanObj(val));
      break;
    }
            
    case 6: {      /* table_filter */
      if( p->pFilterScript ) Tcl_DecrRefCount(p->pFilterScript);
      p->interp = interp;
      p->pFilterScript = Tcl_DuplicateObj(objv[2]);
      Tcl_IncrRefCount(p->pFilterScript);
      sqlite3session_table_filter(pSession, test_table_filter, clientData);
      break;
    }

    case 8: {      /* diff */
      char *zErr = 0;
      rc = sqlite3session_diff(pSession, 
          Tcl_GetString(objv[2]),
          Tcl_GetString(objv[3]),
          &zErr
      );
      assert( rc!=SQLITE_OK || zErr==0 );
      if( rc ){
        return test_session_error(interp, rc, zErr);
      }
      break;
    }
  }

  return TCL_OK;
}

static void test_session_del(void *clientData){
  TestSession *p = (TestSession*)clientData;
  if( p->pFilterScript ) Tcl_DecrRefCount(p->pFilterScript);
  sqlite3session_delete(p->pSession);
  ckfree((char*)p);
}

/*
** Tclcmd:  sqlite3session CMD DB-HANDLE DB-NAME
*/
static int test_sqlite3session(
  void * clientData,
  Tcl_Interp *interp,
  int objc,
  Tcl_Obj *CONST objv[]
){
  sqlite3 *db;
  Tcl_CmdInfo info;
  int rc;                         /* sqlite3session_create() return code */
  TestSession *p;                 /* New wrapper object */

  if( objc!=4 ){
    Tcl_WrongNumArgs(interp, 1, objv, "CMD DB-HANDLE DB-NAME");
    return TCL_ERROR;
  }

  if( 0==Tcl_GetCommandInfo(interp, Tcl_GetString(objv[2]), &info) ){
    Tcl_AppendResult(interp, "no such handle: ", Tcl_GetString(objv[2]), 0);
    return TCL_ERROR;
  }
  db = *(sqlite3 **)info.objClientData;

  p = (TestSession*)ckalloc(sizeof(TestSession));
  memset(p, 0, sizeof(TestSession));
  rc = sqlite3session_create(db, Tcl_GetString(objv[3]), &p->pSession);
  if( rc!=SQLITE_OK ){
    ckfree((char*)p);
    return test_session_error(interp, rc, 0);
  }

  Tcl_CreateObjCommand(
      interp, Tcl_GetString(objv[1]), test_session_cmd, (ClientData)p,
      test_session_del
  );
  Tcl_SetObjResult(interp, objv[1]);
  return TCL_OK;
}

static void test_append_value(Tcl_Obj *pList, sqlite3_value *pVal){
  if( pVal==0 ){
    Tcl_ListObjAppendElement(0, pList, Tcl_NewObj());
    Tcl_ListObjAppendElement(0, pList, Tcl_NewObj());
  }else{
    Tcl_Obj *pObj;
    switch( sqlite3_value_type(pVal) ){
      case SQLITE_NULL:
        Tcl_ListObjAppendElement(0, pList, Tcl_NewStringObj("n", 1));
        pObj = Tcl_NewObj();
        break;
      case SQLITE_INTEGER:
        Tcl_ListObjAppendElement(0, pList, Tcl_NewStringObj("i", 1));
        pObj = Tcl_NewWideIntObj(sqlite3_value_int64(pVal));
        break;
      case SQLITE_FLOAT:
        Tcl_ListObjAppendElement(0, pList, Tcl_NewStringObj("f", 1));
        pObj = Tcl_NewDoubleObj(sqlite3_value_double(pVal));
        break;
      case SQLITE_TEXT: {
        const char *z = (char*)sqlite3_value_blob(pVal);
        int n = sqlite3_value_bytes(pVal);
        Tcl_ListObjAppendElement(0, pList, Tcl_NewStringObj("t", 1));
        pObj = Tcl_NewStringObj(z, n);
        break;
      }
      default:
        assert( sqlite3_value_type(pVal)==SQLITE_BLOB );
        Tcl_ListObjAppendElement(0, pList, Tcl_NewStringObj("b", 1));
        pObj = Tcl_NewByteArrayObj(
            sqlite3_value_blob(pVal),
            sqlite3_value_bytes(pVal)
        );
        break;
    }
    Tcl_ListObjAppendElement(0, pList, pObj);
  }
}

typedef struct TestConflictHandler TestConflictHandler;
struct TestConflictHandler {
  Tcl_Interp *interp;
  Tcl_Obj *pConflictScript;
  Tcl_Obj *pFilterScript;
};

static int test_obj_eq_string(Tcl_Obj *p, const char *z){
  int n;
  int nObj;
  char *zObj;

  n = (int)strlen(z);
  zObj = Tcl_GetStringFromObj(p, &nObj);

  return (nObj==n && (n==0 || 0==memcmp(zObj, z, n)));
}

static int test_filter_handler(
  void *pCtx,                     /* Pointer to TestConflictHandler structure */
  const char *zTab                /* Table name */
){
  TestConflictHandler *p = (TestConflictHandler *)pCtx;
  int res = 1;
  Tcl_Obj *pEval;
  Tcl_Interp *interp = p->interp;

  pEval = Tcl_DuplicateObj(p->pFilterScript);
  Tcl_IncrRefCount(pEval);

  if( TCL_OK!=Tcl_ListObjAppendElement(0, pEval, Tcl_NewStringObj(zTab, -1))
   || TCL_OK!=Tcl_EvalObjEx(interp, pEval, TCL_EVAL_GLOBAL) 
   || TCL_OK!=Tcl_GetIntFromObj(interp, Tcl_GetObjResult(interp), &res)
  ){
    Tcl_BackgroundError(interp);
  }

  Tcl_DecrRefCount(pEval);
  return res;
}  

static int test_conflict_handler(
  void *pCtx,                     /* Pointer to TestConflictHandler structure */
  int eConf,                      /* DATA, MISSING, CONFLICT, CONSTRAINT */
  sqlite3_changeset_iter *pIter   /* Handle describing change and conflict */
){
  TestConflictHandler *p = (TestConflictHandler *)pCtx;
  Tcl_Obj *pEval;
  Tcl_Interp *interp = p->interp;
  int ret = 0;                    /* Return value */

  int op;                         /* SQLITE_UPDATE, DELETE or INSERT */
  const char *zTab;               /* Name of table conflict is on */
  int nCol;                       /* Number of columns in table zTab */

  pEval = Tcl_DuplicateObj(p->pConflictScript);
  Tcl_IncrRefCount(pEval);

  sqlite3changeset_op(pIter, &zTab, &nCol, &op, 0);

  if( eConf==SQLITE_CHANGESET_FOREIGN_KEY ){
    int nFk;
    sqlite3changeset_fk_conflicts(pIter, &nFk);
    Tcl_ListObjAppendElement(0, pEval, Tcl_NewStringObj("FOREIGN_KEY", -1));
    Tcl_ListObjAppendElement(0, pEval, Tcl_NewIntObj(nFk));
  }else{

    /* Append the operation type. */
    Tcl_ListObjAppendElement(0, pEval, Tcl_NewStringObj(
        op==SQLITE_INSERT ? "INSERT" :
        op==SQLITE_UPDATE ? "UPDATE" : 
        "DELETE", -1
    ));
  
    /* Append the table name. */
    Tcl_ListObjAppendElement(0, pEval, Tcl_NewStringObj(zTab, -1));
  
    /* Append the conflict type. */
    switch( eConf ){
      case SQLITE_CHANGESET_DATA:
        Tcl_ListObjAppendElement(interp, pEval,Tcl_NewStringObj("DATA",-1));
        break;
      case SQLITE_CHANGESET_NOTFOUND:
        Tcl_ListObjAppendElement(interp, pEval,Tcl_NewStringObj("NOTFOUND",-1));
        break;
      case SQLITE_CHANGESET_CONFLICT:
        Tcl_ListObjAppendElement(interp, pEval,Tcl_NewStringObj("CONFLICT",-1));
        break;
      case SQLITE_CHANGESET_CONSTRAINT:
        Tcl_ListObjAppendElement(interp, pEval,Tcl_NewStringObj("CONSTRAINT",-1));
        break;
    }
  
    /* If this is not an INSERT, append the old row */
    if( op!=SQLITE_INSERT ){
      int i;
      Tcl_Obj *pOld = Tcl_NewObj();
      for(i=0; i<nCol; i++){
        sqlite3_value *pVal;
        sqlite3changeset_old(pIter, i, &pVal);
        test_append_value(pOld, pVal);
      }
      Tcl_ListObjAppendElement(0, pEval, pOld);
    }

    /* If this is not a DELETE, append the new row */
    if( op!=SQLITE_DELETE ){
      int i;
      Tcl_Obj *pNew = Tcl_NewObj();
      for(i=0; i<nCol; i++){
        sqlite3_value *pVal;
        sqlite3changeset_new(pIter, i, &pVal);
        test_append_value(pNew, pVal);
      }
      Tcl_ListObjAppendElement(0, pEval, pNew);
    }

    /* If this is a CHANGESET_DATA or CHANGESET_CONFLICT conflict, append
     ** the conflicting row.  */
    if( eConf==SQLITE_CHANGESET_DATA || eConf==SQLITE_CHANGESET_CONFLICT ){
      int i;
      Tcl_Obj *pConflict = Tcl_NewObj();
      for(i=0; i<nCol; i++){
        int rc;
        sqlite3_value *pVal;
        rc = sqlite3changeset_conflict(pIter, i, &pVal);
        assert( rc==SQLITE_OK );
        test_append_value(pConflict, pVal);
      }
      Tcl_ListObjAppendElement(0, pEval, pConflict);
    }

    /***********************************************************************
     ** This block is purely for testing some error conditions.
     */
    if( eConf==SQLITE_CHANGESET_CONSTRAINT 
     || eConf==SQLITE_CHANGESET_NOTFOUND 
    ){
      sqlite3_value *pVal;
      int rc = sqlite3changeset_conflict(pIter, 0, &pVal);
      assert( rc==SQLITE_MISUSE );
    }else{
      sqlite3_value *pVal;
      int rc = sqlite3changeset_conflict(pIter, -1, &pVal);
      assert( rc==SQLITE_RANGE );
      rc = sqlite3changeset_conflict(pIter, nCol, &pVal);
      assert( rc==SQLITE_RANGE );
    }
    if( op==SQLITE_DELETE ){
      sqlite3_value *pVal;
      int rc = sqlite3changeset_new(pIter, 0, &pVal);
      assert( rc==SQLITE_MISUSE );
    }else{
      sqlite3_value *pVal;
      int rc = sqlite3changeset_new(pIter, -1, &pVal);
      assert( rc==SQLITE_RANGE );
      rc = sqlite3changeset_new(pIter, nCol, &pVal);
      assert( rc==SQLITE_RANGE );
    }
    if( op==SQLITE_INSERT ){
      sqlite3_value *pVal;
      int rc = sqlite3changeset_old(pIter, 0, &pVal);
      assert( rc==SQLITE_MISUSE );
    }else{
      sqlite3_value *pVal;
      int rc = sqlite3changeset_old(pIter, -1, &pVal);
      assert( rc==SQLITE_RANGE );
      rc = sqlite3changeset_old(pIter, nCol, &pVal);
      assert( rc==SQLITE_RANGE );
    }
    if( eConf!=SQLITE_CHANGESET_FOREIGN_KEY ){
      /* eConf!=FOREIGN_KEY is always true at this point. The condition is 
      ** just there to make it clearer what is being tested.  */
      int nDummy;
      int rc = sqlite3changeset_fk_conflicts(pIter, &nDummy);
      assert( rc==SQLITE_MISUSE );
    }
    /* End of testing block
    ***********************************************************************/
  }

  if( TCL_OK!=Tcl_EvalObjEx(interp, pEval, TCL_EVAL_GLOBAL) ){
    Tcl_BackgroundError(interp);
  }else{
    Tcl_Obj *pRes = Tcl_GetObjResult(interp);
    if( test_obj_eq_string(pRes, "OMIT") || test_obj_eq_string(pRes, "") ){
      ret = SQLITE_CHANGESET_OMIT;
    }else if( test_obj_eq_string(pRes, "REPLACE") ){
      ret = SQLITE_CHANGESET_REPLACE;
    }else if( test_obj_eq_string(pRes, "ABORT") ){
      ret = SQLITE_CHANGESET_ABORT;
    }else{
      Tcl_GetIntFromObj(0, pRes, &ret);
    }
  }

  Tcl_DecrRefCount(pEval);
  return ret;
}

/*
** The conflict handler used by sqlite3changeset_apply_replace_all(). 
** This conflict handler calls sqlite3_value_text16() on all available
** sqlite3_value objects and then returns CHANGESET_REPLACE, or 
** CHANGESET_OMIT if REPLACE is not applicable. This is used to test the
** effect of a malloc failure within an sqlite3_value_xxx() function
** invoked by a conflict-handler callback.
*/
static int replace_handler(
  void *pCtx,                     /* Pointer to TestConflictHandler structure */
  int eConf,                      /* DATA, MISSING, CONFLICT, CONSTRAINT */
  sqlite3_changeset_iter *pIter   /* Handle describing change and conflict */
){
  int op;                         /* SQLITE_UPDATE, DELETE or INSERT */
  const char *zTab;               /* Name of table conflict is on */
  int nCol;                       /* Number of columns in table zTab */
  int i;
  int x = 0;

  sqlite3changeset_op(pIter, &zTab, &nCol, &op, 0);

  if( op!=SQLITE_INSERT ){
    for(i=0; i<nCol; i++){
      sqlite3_value *pVal;
      sqlite3changeset_old(pIter, i, &pVal);
      sqlite3_value_text16(pVal);
      x++;
    }
  }

  if( op!=SQLITE_DELETE ){
    for(i=0; i<nCol; i++){
      sqlite3_value *pVal;
      sqlite3changeset_new(pIter, i, &pVal);
      sqlite3_value_text16(pVal);
      x++;
    }
  }

  if( eConf==SQLITE_CHANGESET_DATA ){
    return SQLITE_CHANGESET_REPLACE;
  }
  return SQLITE_CHANGESET_OMIT;
}

static int testStreamInput(
  void *pCtx,                     /* Context pointer */
  void *pData,                    /* Buffer to populate */
  int *pnData                     /* IN/OUT: Bytes requested/supplied */
){
  TestStreamInput *p = (TestStreamInput*)pCtx;
  int nReq = *pnData;             /* Bytes of data requested */
  int nRem = p->nData - p->iData; /* Bytes of data available */
  int nRet = p->nStream;          /* Bytes actually returned */

  /* Allocate and free some space. There is no point to this, other than
  ** that it allows the regular OOM fault-injection tests to cause an error
  ** in this function.  */
  void *pAlloc = sqlite3_malloc(10);
  if( pAlloc==0 ) return SQLITE_NOMEM;
  sqlite3_free(pAlloc);

  if( nRet>nReq ) nRet = nReq;
  if( nRet>nRem ) nRet = nRem;

  assert( nRet>=0 );
  if( nRet>0 ){
    memcpy(pData, &p->aData[p->iData], nRet);
    p->iData += nRet;
  }

  *pnData = nRet;
  return SQLITE_OK;
}


/*
** sqlite3changeset_apply DB CHANGESET CONFLICT-SCRIPT ?FILTER-SCRIPT?
*/
static int test_sqlite3changeset_apply(
  void * clientData,
  Tcl_Interp *interp,
  int objc,
  Tcl_Obj *CONST objv[]
){
  sqlite3 *db;                    /* Database handle */
  Tcl_CmdInfo info;               /* Database Tcl command (objv[1]) info */
  int rc;                         /* Return code from changeset_invert() */
  void *pChangeset;               /* Buffer containing changeset */
  int nChangeset;                 /* Size of buffer aChangeset in bytes */
  TestConflictHandler ctx;
  TestStreamInput sStr;

  memset(&sStr, 0, sizeof(sStr));
  sStr.nStream = test_tcl_integer(interp, SESSION_STREAM_TCL_VAR);

  if( objc!=4 && objc!=5 ){
    Tcl_WrongNumArgs(interp, 1, objv, 
        "DB CHANGESET CONFLICT-SCRIPT ?FILTER-SCRIPT?"
    );
    return TCL_ERROR;
  }
  if( 0==Tcl_GetCommandInfo(interp, Tcl_GetString(objv[1]), &info) ){
    Tcl_AppendResult(interp, "no such handle: ", Tcl_GetString(objv[2]), 0);
    return TCL_ERROR;
  }
  db = *(sqlite3 **)info.objClientData;
  pChangeset = (void *)Tcl_GetByteArrayFromObj(objv[2], &nChangeset);
  ctx.pConflictScript = objv[3];
  ctx.pFilterScript = objc==5 ? objv[4] : 0;
  ctx.interp = interp;

  if( sStr.nStream==0 ){
    rc = sqlite3changeset_apply(db, nChangeset, pChangeset, 
        (objc==5) ? test_filter_handler : 0, test_conflict_handler, (void *)&ctx
    );
  }else{
    sStr.aData = (unsigned char*)pChangeset;
    sStr.nData = nChangeset;
    rc = sqlite3changeset_apply_strm(db, testStreamInput, (void*)&sStr,
        (objc==5) ? test_filter_handler : 0, test_conflict_handler, (void *)&ctx
    );
  }

  if( rc!=SQLITE_OK ){
    return test_session_error(interp, rc, 0);
  }
  Tcl_ResetResult(interp);
  return TCL_OK;
}

/*
** sqlite3changeset_apply_replace_all DB CHANGESET 
*/
static int test_sqlite3changeset_apply_replace_all(
  void * clientData,
  Tcl_Interp *interp,
  int objc,
  Tcl_Obj *CONST objv[]
){
  sqlite3 *db;                    /* Database handle */
  Tcl_CmdInfo info;               /* Database Tcl command (objv[1]) info */
  int rc;                         /* Return code from changeset_invert() */
  void *pChangeset;               /* Buffer containing changeset */
  int nChangeset;                 /* Size of buffer aChangeset in bytes */

  if( objc!=3 ){
    Tcl_WrongNumArgs(interp, 1, objv, "DB CHANGESET");
    return TCL_ERROR;
  }
  if( 0==Tcl_GetCommandInfo(interp, Tcl_GetString(objv[1]), &info) ){
    Tcl_AppendResult(interp, "no such handle: ", Tcl_GetString(objv[2]), 0);
    return TCL_ERROR;
  }
  db = *(sqlite3 **)info.objClientData;
  pChangeset = (void *)Tcl_GetByteArrayFromObj(objv[2], &nChangeset);

  rc = sqlite3changeset_apply(db, nChangeset, pChangeset, 0, replace_handler,0);
  if( rc!=SQLITE_OK ){
    return test_session_error(interp, rc, 0);
  }
  Tcl_ResetResult(interp);
  return TCL_OK;
}


/*
** sqlite3changeset_invert CHANGESET
*/
static int test_sqlite3changeset_invert(
  void * clientData,
  Tcl_Interp *interp,
  int objc,
  Tcl_Obj *CONST objv[]
){
  int rc;                         /* Return code from changeset_invert() */
  TestStreamInput sIn;            /* Input stream */
  TestSessionsBlob sOut;          /* Output blob */

  if( objc!=2 ){
    Tcl_WrongNumArgs(interp, 1, objv, "CHANGESET");
    return TCL_ERROR;
  }

  memset(&sIn, 0, sizeof(sIn));
  memset(&sOut, 0, sizeof(sOut));
  sIn.nStream = test_tcl_integer(interp, SESSION_STREAM_TCL_VAR);
  sIn.aData = Tcl_GetByteArrayFromObj(objv[1], &sIn.nData);

  if( sIn.nStream ){
    rc = sqlite3changeset_invert_strm(
        testStreamInput, (void*)&sIn, testStreamOutput, (void*)&sOut
    );
  }else{
    rc = sqlite3changeset_invert(sIn.nData, sIn.aData, &sOut.n, &sOut.p);
  }
  if( rc!=SQLITE_OK ){
    rc = test_session_error(interp, rc, 0);
  }else{
    Tcl_SetObjResult(interp,Tcl_NewByteArrayObj((unsigned char*)sOut.p,sOut.n));
  }
  sqlite3_free(sOut.p);
  return rc;
}

/*
** sqlite3changeset_concat LEFT RIGHT
*/
static int test_sqlite3changeset_concat(
  void * clientData,
  Tcl_Interp *interp,
  int objc,
  Tcl_Obj *CONST objv[]
){
  int rc;                         /* Return code from changeset_invert() */

  TestStreamInput sLeft;          /* Input stream */
  TestStreamInput sRight;         /* Input stream */
  TestSessionsBlob sOut = {0,0};  /* Output blob */

  if( objc!=3 ){
    Tcl_WrongNumArgs(interp, 1, objv, "LEFT RIGHT");
    return TCL_ERROR;
  }

  memset(&sLeft, 0, sizeof(sLeft));
  memset(&sRight, 0, sizeof(sRight));
  sLeft.aData = Tcl_GetByteArrayFromObj(objv[1], &sLeft.nData);
  sRight.aData = Tcl_GetByteArrayFromObj(objv[2], &sRight.nData);
  sLeft.nStream = test_tcl_integer(interp, SESSION_STREAM_TCL_VAR);
  sRight.nStream = sLeft.nStream;

  if( sLeft.nStream>0 ){
    rc = sqlite3changeset_concat_strm(
        testStreamInput, (void*)&sLeft,
        testStreamInput, (void*)&sRight,
        testStreamOutput, (void*)&sOut
    );
  }else{
    rc = sqlite3changeset_concat(
        sLeft.nData, sLeft.aData, sRight.nData, sRight.aData, &sOut.n, &sOut.p
    );
  }

  if( rc!=SQLITE_OK ){
    rc = test_session_error(interp, rc, 0);
  }else{
    Tcl_SetObjResult(interp,Tcl_NewByteArrayObj((unsigned char*)sOut.p,sOut.n));
  }
  sqlite3_free(sOut.p);
  return rc;
}

/*
** sqlite3session_foreach VARNAME CHANGESET SCRIPT
*/
static int test_sqlite3session_foreach(
  void * clientData,
  Tcl_Interp *interp,
  int objc,
  Tcl_Obj *CONST objv[]
){
  void *pChangeset;
  int nChangeset;
  sqlite3_changeset_iter *pIter;
  int rc;
  Tcl_Obj *pVarname;
  Tcl_Obj *pCS;
  Tcl_Obj *pScript;
  int isCheckNext = 0;

  TestStreamInput sStr;
  memset(&sStr, 0, sizeof(sStr));

  if( objc>1 ){
    char *zOpt = Tcl_GetString(objv[1]);
    isCheckNext = (strcmp(zOpt, "-next")==0);
  }
  if( objc!=4+isCheckNext ){
    Tcl_WrongNumArgs(interp, 1, objv, "?-next? VARNAME CHANGESET SCRIPT");
    return TCL_ERROR;
  }

  pVarname = objv[1+isCheckNext];
  pCS = objv[2+isCheckNext];
  pScript = objv[3+isCheckNext];

  pChangeset = (void *)Tcl_GetByteArrayFromObj(pCS, &nChangeset);
  sStr.nStream = test_tcl_integer(interp, SESSION_STREAM_TCL_VAR);
  if( sStr.nStream==0 ){
    rc = sqlite3changeset_start(&pIter, nChangeset, pChangeset);
  }else{
    sStr.aData = (unsigned char*)pChangeset;
    sStr.nData = nChangeset;
    rc = sqlite3changeset_start_strm(&pIter, testStreamInput, (void*)&sStr);
  }
  if( rc!=SQLITE_OK ){
    return test_session_error(interp, rc, 0);
  }

  while( SQLITE_ROW==sqlite3changeset_next(pIter) ){
    int nCol;                     /* Number of columns in table */
    int nCol2;                    /* Number of columns in table */
    int op;                       /* SQLITE_INSERT, UPDATE or DELETE */
    const char *zTab;             /* Name of table change applies to */
    Tcl_Obj *pVar;                /* Tcl value to set $VARNAME to */
    Tcl_Obj *pOld;                /* Vector of old.* values */
    Tcl_Obj *pNew;                /* Vector of new.* values */
    int bIndirect;

    char *zPK;
    unsigned char *abPK;
    int i;

    /* Test that _fk_conflicts() returns SQLITE_MISUSE if called on this
    ** iterator. */
    int nDummy;
    if( SQLITE_MISUSE!=sqlite3changeset_fk_conflicts(pIter, &nDummy) ){
      sqlite3changeset_finalize(pIter);
      return TCL_ERROR;
    }

    sqlite3changeset_op(pIter, &zTab, &nCol, &op, &bIndirect);
    pVar = Tcl_NewObj();
    Tcl_ListObjAppendElement(0, pVar, Tcl_NewStringObj(
          op==SQLITE_INSERT ? "INSERT" :
          op==SQLITE_UPDATE ? "UPDATE" : 
          "DELETE", -1
    ));

    Tcl_ListObjAppendElement(0, pVar, Tcl_NewStringObj(zTab, -1));
    Tcl_ListObjAppendElement(0, pVar, Tcl_NewBooleanObj(bIndirect));

    zPK = ckalloc(nCol+1);
    memset(zPK, 0, nCol+1);
    sqlite3changeset_pk(pIter, &abPK, &nCol2);
    assert( nCol==nCol2 );
    for(i=0; i<nCol; i++){
      zPK[i] = (abPK[i] ? 'X' : '.');
    }
    Tcl_ListObjAppendElement(0, pVar, Tcl_NewStringObj(zPK, -1));
    ckfree(zPK);

    pOld = Tcl_NewObj();
    if( op!=SQLITE_INSERT ){
      for(i=0; i<nCol; i++){
        sqlite3_value *pVal;
        sqlite3changeset_old(pIter, i, &pVal);
        test_append_value(pOld, pVal);
      }
    }
    pNew = Tcl_NewObj();
    if( op!=SQLITE_DELETE ){
      for(i=0; i<nCol; i++){
        sqlite3_value *pVal;
        sqlite3changeset_new(pIter, i, &pVal);
        test_append_value(pNew, pVal);
      }
    }
    Tcl_ListObjAppendElement(0, pVar, pOld);
    Tcl_ListObjAppendElement(0, pVar, pNew);

    Tcl_ObjSetVar2(interp, pVarname, 0, pVar, 0);
    rc = Tcl_EvalObjEx(interp, pScript, 0);
    if( rc!=TCL_OK && rc!=TCL_CONTINUE ){
      sqlite3changeset_finalize(pIter);
      return rc==TCL_BREAK ? TCL_OK : rc;
    }
  }

  if( isCheckNext ){
    int rc2 = sqlite3changeset_next(pIter);
    rc = sqlite3changeset_finalize(pIter);
    assert( (rc2==SQLITE_DONE && rc==SQLITE_OK) || rc2==rc );
  }else{
    rc = sqlite3changeset_finalize(pIter);
  }
  if( rc!=SQLITE_OK ){
    return test_session_error(interp, rc, 0);
  }

  return TCL_OK;
}

int TestSession_Init(Tcl_Interp *interp){
  Tcl_CreateObjCommand(interp, "sqlite3session", test_sqlite3session, 0, 0);
  Tcl_CreateObjCommand(
      interp, "sqlite3session_foreach", test_sqlite3session_foreach, 0, 0
  );
  Tcl_CreateObjCommand(
      interp, "sqlite3changeset_invert", test_sqlite3changeset_invert, 0, 0
  );
  Tcl_CreateObjCommand(
      interp, "sqlite3changeset_concat", test_sqlite3changeset_concat, 0, 0
  );
  Tcl_CreateObjCommand(
      interp, "sqlite3changeset_apply", test_sqlite3changeset_apply, 0, 0
  );
  Tcl_CreateObjCommand(
      interp, "sqlite3changeset_apply_replace_all", 
      test_sqlite3changeset_apply_replace_all, 0, 0
  );
  return TCL_OK;
}

#endif /* SQLITE_TEST && SQLITE_SESSION && SQLITE_PREUPDATE_HOOK */

Changes to main.mk.

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################################################################################

# This is how we compile
#
TCCX =  $(TCC) $(OPTS) -I. -I$(TOP)/src -I$(TOP) 
TCCX += -I$(TOP)/ext/rtree -I$(TOP)/ext/icu -I$(TOP)/ext/fts3
TCCX += -I$(TOP)/ext/async -I$(TOP)/ext/userauth

TCCX += -I$(TOP)/ext/fts5
THREADLIB += $(LIBS)

# Object files for the SQLite library.
#
LIBOBJ+= vdbe.o parse.o \
         alter.o analyze.o attach.o auth.o \
................................................................................
         random.o resolve.o rowset.o rtree.o select.o sqlite3rbu.o status.o \
         table.o threads.o tokenize.o treeview.o trigger.o \
         update.o userauth.o util.o vacuum.o \
         vdbeapi.o vdbeaux.o vdbeblob.o vdbemem.o vdbesort.o \
	 vdbetrace.o wal.o walker.o where.o wherecode.o whereexpr.o \
         utf.o vtab.o



# All of the source code files.
#
SRC = \
  $(TOP)/src/alter.c \
  $(TOP)/src/analyze.c \
  $(TOP)/src/attach.c \
................................................................................
  $(TOP)/ext/icu/sqliteicu.h \
  $(TOP)/ext/icu/icu.c
SRC += \
  $(TOP)/ext/rtree/sqlite3rtree.h \
  $(TOP)/ext/rtree/rtree.h \
  $(TOP)/ext/rtree/rtree.c
SRC += \

  $(TOP)/ext/sqlrr/sqlrr.c



SRC += \
  $(TOP)/ext/userauth/userauth.c \
  $(TOP)/ext/userauth/sqlite3userauth.h 
SRC += \
  $(TOP)/ext/rbu/sqlite3rbu.c \
  $(TOP)/ext/rbu/sqlite3rbu.h
SRC += \
................................................................................
  $(TOP)/src/whereexpr.c \
  parse.c \
  $(TOP)/ext/fts3/fts3.c \
  $(TOP)/ext/fts3/fts3_aux.c \
  $(TOP)/ext/fts3/fts3_expr.c \
  $(TOP)/ext/fts3/fts3_tokenizer.c \
  $(TOP)/ext/fts3/fts3_write.c \
  $(TOP)/ext/async/sqlite3async.c




# Header files used by all library source files.
#
HDR = \
   $(TOP)/src/btree.h \
   $(TOP)/src/btreeInt.h \
   $(TOP)/src/hash.h \
................................................................................
	mv vdbe.new tsrc/vdbe.c
	cp fts5.c fts5.h tsrc
	touch target_source

sqlite3.c:	target_source $(TOP)/tool/mksqlite3c.tcl
	tclsh $(TOP)/tool/mksqlite3c.tcl
	cp tsrc/shell.c tsrc/sqlite3ext.h .

	echo '#ifndef USE_SYSTEM_SQLITE' >tclsqlite3.c
	cat sqlite3.c >>tclsqlite3.c
	echo '#endif /* USE_SYSTEM_SQLITE */' >>tclsqlite3.c
	cat $(TOP)/src/tclsqlite.c >>tclsqlite3.c

sqlite3ext.h:	target_source
	cp tsrc/sqlite3ext.h .
................................................................................
fts5.c: $(FTS5_SRC) $(FTS5_HDR)
	tclsh $(TOP)/ext/fts5/tool/mkfts5c.tcl
	cp $(TOP)/ext/fts5/fts5.h .

userauth.o:	$(TOP)/ext/userauth/userauth.c $(HDR) $(EXTHDR)
	$(TCCX) -DSQLITE_CORE -c $(TOP)/ext/userauth/userauth.c




sqlite3rbu.o:	$(TOP)/ext/rbu/sqlite3rbu.c $(HDR) $(EXTHDR)
	$(TCCX) -DSQLITE_CORE -c $(TOP)/ext/rbu/sqlite3rbu.c


# Rules for building test programs and for running tests
#
tclsqlite3:	$(TOP)/src/tclsqlite.c libsqlite3.a
	$(TCCX) $(TCL_FLAGS) -DTCLSH=1 -o tclsqlite3 \
		$(TOP)/src/tclsqlite.c libsqlite3.a $(LIBTCL) $(THREADLIB)

................................................................................
TESTFIXTURE_FLAGS += -DSQLITE_DEFAULT_PAGE_SIZE=1024

testfixture$(EXE): $(TESTSRC2) libsqlite3.a $(TESTSRC) $(TOP)/src/tclsqlite.c
	$(TCCX) $(TCL_FLAGS) -DTCLSH=1 $(TESTFIXTURE_FLAGS)                  \
		$(TESTSRC) $(TESTSRC2) $(TOP)/src/tclsqlite.c                \
		-o testfixture$(EXE) $(LIBTCL) libsqlite3.a $(THREADLIB)

amalgamation-testfixture$(EXE): sqlite3.c $(TESTSRC) $(TOP)/src/tclsqlite.c

	$(TCCX) $(TCL_FLAGS) -DTCLSH=1 $(TESTFIXTURE_FLAGS)                  \
		$(TESTSRC) $(TOP)/src/tclsqlite.c sqlite3.c                  \

		-o testfixture$(EXE) $(LIBTCL) $(THREADLIB)

fts3-testfixture$(EXE): sqlite3.c fts3amal.c $(TESTSRC) $(TOP)/src/tclsqlite.c
	$(TCCX) $(TCL_FLAGS) -DTCLSH=1 $(TESTFIXTURE_FLAGS)                  \
	-DSQLITE_ENABLE_FTS3=1                                               \
		$(TESTSRC) $(TOP)/src/tclsqlite.c sqlite3.c fts3amal.c       \
		-o testfixture$(EXE) $(LIBTCL) $(THREADLIB)
................................................................................
showjournal$(EXE):	$(TOP)/tool/showjournal.c sqlite3.o
	$(TCC) -DSQLITE_THREADSAFE=0 -DSQLITE_OMIT_LOAD_EXTENSION -o showjournal$(EXE) \
		$(TOP)/tool/showjournal.c sqlite3.o $(THREADLIB)

showwal$(EXE):	$(TOP)/tool/showwal.c sqlite3.o
	$(TCC) -DSQLITE_THREADSAFE=0 -DSQLITE_OMIT_LOAD_EXTENSION -o showwal$(EXE) \
		$(TOP)/tool/showwal.c sqlite3.o $(THREADLIB)





fts3view$(EXE):	$(TOP)/ext/fts3/tool/fts3view.c sqlite3.o
	$(TCC) -DSQLITE_THREADSAFE=0 -DSQLITE_OMIT_LOAD_EXTENSION -o fts3view$(EXE) \
		$(TOP)/ext/fts3/tool/fts3view.c sqlite3.o $(THREADLIB)

rollback-test$(EXE):	$(TOP)/tool/rollback-test.c sqlite3.o
	$(TCC) -DSQLITE_THREADSAFE=0 -DSQLITE_OMIT_LOAD_EXTENSION -o rollback-test$(EXE) \
................................................................................

clean:	
	rm -f *.o sqlite3 sqlite3.exe libsqlite3.a sqlite3.h opcodes.*
	rm -f lemon lemon.exe lempar.c parse.* sqlite*.tar.gz
	rm -f mkkeywordhash mkkeywordhash.exe keywordhash.h
	rm -f $(PUBLISH)
	rm -f *.da *.bb *.bbg gmon.out
	rm -rf quota2a quota2b quota2c
	rm -rf tsrc target_source
	rm -f testloadext.dll libtestloadext.so
	rm -f amalgamation-testfixture amalgamation-testfixture.exe
	rm -f fts3-testfixture fts3-testfixture.exe
	rm -f testfixture testfixture.exe
	rm -f threadtest3 threadtest3.exe
	rm -f LogEst LogEst.exe
	rm -f fts3view fts3view.exe
	rm -f rollback-test rollback-test.exe
	rm -f showdb showdb.exe
	rm -f showjournal showjournal.exe
	rm -f showstat4 showstat4.exe
	rm -f showwal showwal.exe

	rm -f speedtest1 speedtest1.exe
	rm -f wordcount wordcount.exe
	rm -f rbu rbu.exe
	rm -f srcck1 srcck1.exe
	rm -f sqlite3.c sqlite3-*.c fts?amal.c tclsqlite3.c
	rm -f sqlite3rc.h
	rm -f shell.c sqlite3ext.h







>







 







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################################################################################

# This is how we compile
#
TCCX =  $(TCC) $(OPTS) -I. -I$(TOP)/src -I$(TOP) 
TCCX += -I$(TOP)/ext/rtree -I$(TOP)/ext/icu -I$(TOP)/ext/fts3
TCCX += -I$(TOP)/ext/async -I$(TOP)/ext/userauth
TCCX += -I$(TOP)/ext/session
TCCX += -I$(TOP)/ext/fts5
THREADLIB += $(LIBS)

# Object files for the SQLite library.
#
LIBOBJ+= vdbe.o parse.o \
         alter.o analyze.o attach.o auth.o \
................................................................................
         random.o resolve.o rowset.o rtree.o select.o sqlite3rbu.o status.o \
         table.o threads.o tokenize.o treeview.o trigger.o \
         update.o userauth.o util.o vacuum.o \
         vdbeapi.o vdbeaux.o vdbeblob.o vdbemem.o vdbesort.o \
	 vdbetrace.o wal.o walker.o where.o wherecode.o whereexpr.o \
         utf.o vtab.o

LIBOBJ += sqlite3session.o

# All of the source code files.
#
SRC = \
  $(TOP)/src/alter.c \
  $(TOP)/src/analyze.c \
  $(TOP)/src/attach.c \
................................................................................
  $(TOP)/ext/icu/sqliteicu.h \
  $(TOP)/ext/icu/icu.c
SRC += \
  $(TOP)/ext/rtree/sqlite3rtree.h \
  $(TOP)/ext/rtree/rtree.h \
  $(TOP)/ext/rtree/rtree.c
SRC += \
  $(TOP)/ext/sqlrr/sqlrr.h \
  $(TOP)/ext/sqlrr/sqlrr.c
SRC += \
  $(TOP)/ext/session/sqlite3session.c \
  $(TOP)/ext/session/sqlite3session.h
SRC += \
  $(TOP)/ext/userauth/userauth.c \
  $(TOP)/ext/userauth/sqlite3userauth.h 
SRC += \
  $(TOP)/ext/rbu/sqlite3rbu.c \
  $(TOP)/ext/rbu/sqlite3rbu.h
SRC += \
................................................................................
  $(TOP)/src/whereexpr.c \
  parse.c \
  $(TOP)/ext/fts3/fts3.c \
  $(TOP)/ext/fts3/fts3_aux.c \
  $(TOP)/ext/fts3/fts3_expr.c \
  $(TOP)/ext/fts3/fts3_tokenizer.c \
  $(TOP)/ext/fts3/fts3_write.c \
  $(TOP)/ext/async/sqlite3async.c \
  $(TOP)/ext/session/sqlite3session.c \
  $(TOP)/ext/session/test_session.c \
  $(FTS5_SRC)

# Header files used by all library source files.
#
HDR = \
   $(TOP)/src/btree.h \
   $(TOP)/src/btreeInt.h \
   $(TOP)/src/hash.h \
................................................................................
	mv vdbe.new tsrc/vdbe.c
	cp fts5.c fts5.h tsrc
	touch target_source

sqlite3.c:	target_source $(TOP)/tool/mksqlite3c.tcl
	tclsh $(TOP)/tool/mksqlite3c.tcl
	cp tsrc/shell.c tsrc/sqlite3ext.h .
	cp $(TOP)/ext/session/sqlite3session.h .
	echo '#ifndef USE_SYSTEM_SQLITE' >tclsqlite3.c
	cat sqlite3.c >>tclsqlite3.c
	echo '#endif /* USE_SYSTEM_SQLITE */' >>tclsqlite3.c
	cat $(TOP)/src/tclsqlite.c >>tclsqlite3.c

sqlite3ext.h:	target_source
	cp tsrc/sqlite3ext.h .
................................................................................
fts5.c: $(FTS5_SRC) $(FTS5_HDR)
	tclsh $(TOP)/ext/fts5/tool/mkfts5c.tcl
	cp $(TOP)/ext/fts5/fts5.h .

userauth.o:	$(TOP)/ext/userauth/userauth.c $(HDR) $(EXTHDR)
	$(TCCX) -DSQLITE_CORE -c $(TOP)/ext/userauth/userauth.c

sqlite3session.o:	$(TOP)/ext/session/sqlite3session.c $(HDR) $(EXTHDR)
	$(TCCX) -DSQLITE_CORE -c $(TOP)/ext/session/sqlite3session.c

sqlite3rbu.o:	$(TOP)/ext/rbu/sqlite3rbu.c $(HDR) $(EXTHDR)
	$(TCCX) -DSQLITE_CORE -c $(TOP)/ext/rbu/sqlite3rbu.c


# Rules for building test programs and for running tests
#
tclsqlite3:	$(TOP)/src/tclsqlite.c libsqlite3.a
	$(TCCX) $(TCL_FLAGS) -DTCLSH=1 -o tclsqlite3 \
		$(TOP)/src/tclsqlite.c libsqlite3.a $(LIBTCL) $(THREADLIB)

................................................................................
TESTFIXTURE_FLAGS += -DSQLITE_DEFAULT_PAGE_SIZE=1024

testfixture$(EXE): $(TESTSRC2) libsqlite3.a $(TESTSRC) $(TOP)/src/tclsqlite.c
	$(TCCX) $(TCL_FLAGS) -DTCLSH=1 $(TESTFIXTURE_FLAGS)                  \
		$(TESTSRC) $(TESTSRC2) $(TOP)/src/tclsqlite.c                \
		-o testfixture$(EXE) $(LIBTCL) libsqlite3.a $(THREADLIB)

amalgamation-testfixture$(EXE): sqlite3.c $(TESTSRC) $(TOP)/src/tclsqlite.c  \
				$(TOP)/ext/session/test_session.c
	$(TCCX) $(TCL_FLAGS) -DTCLSH=1 $(TESTFIXTURE_FLAGS)                  \
		$(TESTSRC) $(TOP)/src/tclsqlite.c sqlite3.c                  \
		$(TOP)/ext/session/test_session.c                            \
		-o testfixture$(EXE) $(LIBTCL) $(THREADLIB)

fts3-testfixture$(EXE): sqlite3.c fts3amal.c $(TESTSRC) $(TOP)/src/tclsqlite.c
	$(TCCX) $(TCL_FLAGS) -DTCLSH=1 $(TESTFIXTURE_FLAGS)                  \
	-DSQLITE_ENABLE_FTS3=1                                               \
		$(TESTSRC) $(TOP)/src/tclsqlite.c sqlite3.c fts3amal.c       \
		-o testfixture$(EXE) $(LIBTCL) $(THREADLIB)
................................................................................
showjournal$(EXE):	$(TOP)/tool/showjournal.c sqlite3.o
	$(TCC) -DSQLITE_THREADSAFE=0 -DSQLITE_OMIT_LOAD_EXTENSION -o showjournal$(EXE) \
		$(TOP)/tool/showjournal.c sqlite3.o $(THREADLIB)

showwal$(EXE):	$(TOP)/tool/showwal.c sqlite3.o
	$(TCC) -DSQLITE_THREADSAFE=0 -DSQLITE_OMIT_LOAD_EXTENSION -o showwal$(EXE) \
		$(TOP)/tool/showwal.c sqlite3.o $(THREADLIB)

changeset$(EXE):	$(TOP)/ext/session/changeset.c sqlite3.o
	$(TCC) -DSQLITE_THREADSAFE=0 -DSQLITE_OMIT_LOAD_EXTENSION -o changeset$(EXE) \
		$(TOP)/ext/session/changeset.c sqlite3.o $(THREADLIB)

fts3view$(EXE):	$(TOP)/ext/fts3/tool/fts3view.c sqlite3.o
	$(TCC) -DSQLITE_THREADSAFE=0 -DSQLITE_OMIT_LOAD_EXTENSION -o fts3view$(EXE) \
		$(TOP)/ext/fts3/tool/fts3view.c sqlite3.o $(THREADLIB)

rollback-test$(EXE):	$(TOP)/tool/rollback-test.c sqlite3.o
	$(TCC) -DSQLITE_THREADSAFE=0 -DSQLITE_OMIT_LOAD_EXTENSION -o rollback-test$(EXE) \
................................................................................

clean:	
	rm -f *.o sqlite3 sqlite3.exe libsqlite3.a sqlite3.h opcodes.*
	rm -f lemon lemon.exe lempar.c parse.* sqlite*.tar.gz
	rm -f mkkeywordhash mkkeywordhash.exe keywordhash.h
	rm -f $(PUBLISH)
	rm -f *.da *.bb *.bbg gmon.out

	rm -rf tsrc target_source
	rm -f testloadext.dll libtestloadext.so
	rm -f amalgamation-testfixture amalgamation-testfixture.exe
	rm -f fts3-testfixture fts3-testfixture.exe
	rm -f testfixture testfixture.exe
	rm -f threadtest3 threadtest3.exe
	rm -f LogEst LogEst.exe
	rm -f fts3view fts3view.exe
	rm -f rollback-test rollback-test.exe
	rm -f showdb showdb.exe
	rm -f showjournal showjournal.exe
	rm -f showstat4 showstat4.exe
	rm -f showwal showwal.exe
	rm -f changeset changeset.exe
	rm -f speedtest1 speedtest1.exe
	rm -f wordcount wordcount.exe
	rm -f rbu rbu.exe
	rm -f srcck1 srcck1.exe
	rm -f sqlite3.c sqlite3-*.c fts?amal.c tclsqlite3.c
	rm -f sqlite3rc.h
	rm -f shell.c sqlite3ext.h

Changes to src/analyze.c.

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1832
1833
1834
1835
1836
1837
1838
1839
1840
1841
1842
1843
1844
1845
1846
1847
1848
1849
1850
1851
1852
1853
1854
1855
1856
1857
1858
1859
1860
1861







1862
1863
1864
1865
1866
1867
1868
** This means if the caller does not care about other errors, the return
** code may be ignored.
*/
int sqlite3AnalysisLoad(sqlite3 *db, int iDb){
  analysisInfo sInfo;
  HashElem *i;
  char *zSql;
  int rc;

  assert( iDb>=0 && iDb<db->nDb );
  assert( db->aDb[iDb].pBt!=0 );

  /* Clear any prior statistics */
  assert( sqlite3SchemaMutexHeld(db, iDb, 0) );
  for(i=sqliteHashFirst(&db->aDb[iDb].pSchema->idxHash);i;i=sqliteHashNext(i)){
    Index *pIdx = sqliteHashData(i);
    sqlite3DefaultRowEst(pIdx);
#ifdef SQLITE_ENABLE_STAT3_OR_STAT4
    sqlite3DeleteIndexSamples(db, pIdx);
    pIdx->aSample = 0;
#endif
  }

  /* Check to make sure the sqlite_stat1 table exists */
  sInfo.db = db;
  sInfo.zDatabase = db->aDb[iDb].zName;
  if( sqlite3FindTable(db, "sqlite_stat1", sInfo.zDatabase)==0 ){
    return SQLITE_ERROR;
  }

  /* Load new statistics out of the sqlite_stat1 table */
  zSql = sqlite3MPrintf(db, 
      "SELECT tbl,idx,stat FROM %Q.sqlite_stat1", sInfo.zDatabase);
  if( zSql==0 ){
    rc = SQLITE_NOMEM_BKPT;
  }else{
    rc = sqlite3_exec(db, zSql, analysisLoader, &sInfo, 0);
    sqlite3DbFree(db, zSql);
  }









  /* Load the statistics from the sqlite_stat4 table. */
#ifdef SQLITE_ENABLE_STAT3_OR_STAT4
  if( rc==SQLITE_OK && OptimizationEnabled(db, SQLITE_Stat34) ){
    db->lookaside.bDisable++;
    rc = loadStat4(db, sInfo.zDatabase);
    db->lookaside.bDisable--;







|








|






|


|
<
<
<
<
|
|
|
|
|
|
|
|
|
>
>
>
>
>
>
>







1822
1823
1824
1825
1826
1827
1828
1829
1830
1831
1832
1833
1834
1835
1836
1837
1838
1839
1840
1841
1842
1843
1844
1845
1846
1847
1848




1849
1850
1851
1852
1853
1854
1855
1856
1857
1858
1859
1860
1861
1862
1863
1864
1865
1866
1867
1868
1869
1870
1871
** This means if the caller does not care about other errors, the return
** code may be ignored.
*/
int sqlite3AnalysisLoad(sqlite3 *db, int iDb){
  analysisInfo sInfo;
  HashElem *i;
  char *zSql;
  int rc = SQLITE_OK;

  assert( iDb>=0 && iDb<db->nDb );
  assert( db->aDb[iDb].pBt!=0 );

  /* Clear any prior statistics */
  assert( sqlite3SchemaMutexHeld(db, iDb, 0) );
  for(i=sqliteHashFirst(&db->aDb[iDb].pSchema->idxHash);i;i=sqliteHashNext(i)){
    Index *pIdx = sqliteHashData(i);
    pIdx->aiRowLogEst[0] = 0;
#ifdef SQLITE_ENABLE_STAT3_OR_STAT4
    sqlite3DeleteIndexSamples(db, pIdx);
    pIdx->aSample = 0;
#endif
  }

  /* Load new statistics out of the sqlite_stat1 table */
  sInfo.db = db;
  sInfo.zDatabase = db->aDb[iDb].zName;
  if( sqlite3FindTable(db, "sqlite_stat1", sInfo.zDatabase)!=0 ){




    zSql = sqlite3MPrintf(db, 
        "SELECT tbl,idx,stat FROM %Q.sqlite_stat1", sInfo.zDatabase);
    if( zSql==0 ){
      rc = SQLITE_NOMEM_BKPT;
    }else{
      rc = sqlite3_exec(db, zSql, analysisLoader, &sInfo, 0);
      sqlite3DbFree(db, zSql);
    }
  }

  /* Set appropriate defaults on all indexes not in the sqlite_stat1 table */
  assert( sqlite3SchemaMutexHeld(db, iDb, 0) );
  for(i=sqliteHashFirst(&db->aDb[iDb].pSchema->idxHash);i;i=sqliteHashNext(i)){
    Index *pIdx = sqliteHashData(i);
    if( pIdx->aiRowLogEst[0]==0 ) sqlite3DefaultRowEst(pIdx);
  }

  /* Load the statistics from the sqlite_stat4 table. */
#ifdef SQLITE_ENABLE_STAT3_OR_STAT4
  if( rc==SQLITE_OK && OptimizationEnabled(db, SQLITE_Stat34) ){
    db->lookaside.bDisable++;
    rc = loadStat4(db, sInfo.zDatabase);
    db->lookaside.bDisable--;

Changes to src/btree.c.

6547
6548
6549
6550
6551
6552
6553

6554
6555
6556
6557
6558
6559
6560
6561
6562
....
6710
6711
6712
6713
6714
6715
6716
6717
6718
6719
6720
6721
6722
6723
6724
....
8141
8142
8143
8144
8145
8146
8147






















8148
8149
8150
8151
8152
8153
8154
....
8168
8169
8170
8171
8172
8173
8174
8175
8176
8177
8178
8179
8180
8181
8182
8183
8184
8185
8186
8187
8188
8189
8190
8191
8192
8193
8194
8195
8196
8197
8198
8199
8200
8201
8202
8203
  int iEnd = iFirst + nCell;
  assert( CORRUPT_DB || pPg->hdrOffset==0 );    /* Never called on page 1 */
  for(i=iFirst; i<iEnd; i++){
    int sz, rc;
    u8 *pSlot;
    sz = cachedCellSize(pCArray, i);
    if( (aData[1]==0 && aData[2]==0) || (pSlot = pageFindSlot(pPg,sz,&rc))==0 ){

      pData -= sz;
      if( pData<pBegin ) return 1;
      pSlot = pData;
    }
    /* pSlot and pCArray->apCell[i] will never overlap on a well-formed
    ** database.  But they might for a corrupt database.  Hence use memmove()
    ** since memcpy() sends SIGABORT with overlapping buffers on OpenBSD */
    assert( (pSlot+sz)<=pCArray->apCell[i]
         || pSlot>=(pCArray->apCell[i]+sz)
................................................................................
  put2byte(&aData[hdr+3], pPg->nCell);
  put2byte(&aData[hdr+5], pData - aData);

#ifdef SQLITE_DEBUG
  for(i=0; i<nNew && !CORRUPT_DB; i++){
    u8 *pCell = pCArray->apCell[i+iNew];
    int iOff = get2byteAligned(&pPg->aCellIdx[i*2]);
    if( pCell>=aData && pCell<&aData[pPg->pBt->usableSize] ){
      pCell = &pTmp[pCell - aData];
    }
    assert( 0==memcmp(pCell, &aData[iOff],
            pCArray->pRef->xCellSize(pCArray->pRef, pCArray->apCell[i+iNew])) );
  }
#endif

................................................................................
  assert( pCur->eState==CURSOR_VALID );
  assert( (flags & ~(BTREE_SAVEPOSITION | BTREE_AUXDELETE))==0 );

  iCellDepth = pCur->iPage;
  iCellIdx = pCur->aiIdx[iCellDepth];
  pPage = pCur->apPage[iCellDepth];
  pCell = findCell(pPage, iCellIdx);























  /* If the page containing the entry to delete is not a leaf page, move
  ** the cursor to the largest entry in the tree that is smaller than
  ** the entry being deleted. This cell will replace the cell being deleted
  ** from the internal node. The 'previous' entry is used for this instead
  ** of the 'next' entry, as the previous entry is always a part of the
  ** sub-tree headed by the child page of the cell being deleted. This makes
................................................................................

  /* If this is a delete operation to remove a row from a table b-tree,
  ** invalidate any incrblob cursors open on the row being deleted.  */
  if( pCur->pKeyInfo==0 ){
    invalidateIncrblobCursors(p, pCur->info.nKey, 0);
  }

  /* If the bPreserve flag is set to true, then the cursor position must
  ** be preserved following this delete operation. If the current delete
  ** will cause a b-tree rebalance, then this is done by saving the cursor
  ** key and leaving the cursor in CURSOR_REQUIRESEEK state before 
  ** returning. 
  **
  ** Or, if the current delete will not cause a rebalance, then the cursor
  ** will be left in CURSOR_SKIPNEXT state pointing to the entry immediately
  ** before or after the deleted entry. In this case set bSkipnext to true.  */
  if( bPreserve ){
    if( !pPage->leaf 
     || (pPage->nFree+cellSizePtr(pPage,pCell)+2)>(int)(pBt->usableSize*2/3)
    ){
      /* A b-tree rebalance will be required after deleting this entry.
      ** Save the cursor key.  */
      rc = saveCursorKey(pCur);
      if( rc ) return rc;
    }else{
      bSkipnext = 1;
    }
  }

  /* Make the page containing the entry to be deleted writable. Then free any
  ** overflow pages associated with the entry and finally remove the cell
  ** itself from within the page.  */
  rc = sqlite3PagerWrite(pPage->pDbPage);
  if( rc ) return rc;
  rc = clearCell(pPage, pCell, &szCell);
  dropCell(pPage, iCellIdx, szCell, &rc);







>

<







 







|







 







>
>
>
>
>
>
>
>
>
>
>
>
>
>
>
>
>
>
>
>
>
>







 







<
<
<
<
<
<
<
<
<
<
<
<
<
<
<
<
<
<
<
<
<
<







6547
6548
6549
6550
6551
6552
6553
6554
6555

6556
6557
6558
6559
6560
6561
6562
....
6710
6711
6712
6713
6714
6715
6716
6717
6718
6719
6720
6721
6722
6723
6724
....
8141
8142
8143
8144
8145
8146
8147
8148
8149
8150
8151
8152
8153
8154
8155
8156
8157
8158
8159
8160
8161
8162
8163
8164
8165
8166
8167
8168
8169
8170
8171
8172
8173
8174
8175
8176
....
8190
8191
8192
8193
8194
8195
8196






















8197
8198
8199
8200
8201
8202
8203
  int iEnd = iFirst + nCell;
  assert( CORRUPT_DB || pPg->hdrOffset==0 );    /* Never called on page 1 */
  for(i=iFirst; i<iEnd; i++){
    int sz, rc;
    u8 *pSlot;
    sz = cachedCellSize(pCArray, i);
    if( (aData[1]==0 && aData[2]==0) || (pSlot = pageFindSlot(pPg,sz,&rc))==0 ){
      if( (pData - pBegin)<sz ) return 1;
      pData -= sz;

      pSlot = pData;
    }
    /* pSlot and pCArray->apCell[i] will never overlap on a well-formed
    ** database.  But they might for a corrupt database.  Hence use memmove()
    ** since memcpy() sends SIGABORT with overlapping buffers on OpenBSD */
    assert( (pSlot+sz)<=pCArray->apCell[i]
         || pSlot>=(pCArray->apCell[i]+sz)
................................................................................
  put2byte(&aData[hdr+3], pPg->nCell);
  put2byte(&aData[hdr+5], pData - aData);

#ifdef SQLITE_DEBUG
  for(i=0; i<nNew && !CORRUPT_DB; i++){
    u8 *pCell = pCArray->apCell[i+iNew];
    int iOff = get2byteAligned(&pPg->aCellIdx[i*2]);
    if( SQLITE_WITHIN(pCell, aData, &aData[pPg->pBt->usableSize]) ){
      pCell = &pTmp[pCell - aData];
    }
    assert( 0==memcmp(pCell, &aData[iOff],
            pCArray->pRef->xCellSize(pCArray->pRef, pCArray->apCell[i+iNew])) );
  }
#endif

................................................................................
  assert( pCur->eState==CURSOR_VALID );
  assert( (flags & ~(BTREE_SAVEPOSITION | BTREE_AUXDELETE))==0 );

  iCellDepth = pCur->iPage;
  iCellIdx = pCur->aiIdx[iCellDepth];
  pPage = pCur->apPage[iCellDepth];
  pCell = findCell(pPage, iCellIdx);

  /* If the bPreserve flag is set to true, then the cursor position must
  ** be preserved following this delete operation. If the current delete
  ** will cause a b-tree rebalance, then this is done by saving the cursor
  ** key and leaving the cursor in CURSOR_REQUIRESEEK state before 
  ** returning. 
  **
  ** Or, if the current delete will not cause a rebalance, then the cursor
  ** will be left in CURSOR_SKIPNEXT state pointing to the entry immediately
  ** before or after the deleted entry. In this case set bSkipnext to true.  */
  if( bPreserve ){
    if( !pPage->leaf 
     || (pPage->nFree+cellSizePtr(pPage,pCell)+2)>(int)(pBt->usableSize*2/3)
    ){
      /* A b-tree rebalance will be required after deleting this entry.
      ** Save the cursor key.  */
      rc = saveCursorKey(pCur);
      if( rc ) return rc;
    }else{
      bSkipnext = 1;
    }
  }

  /* If the page containing the entry to delete is not a leaf page, move
  ** the cursor to the largest entry in the tree that is smaller than
  ** the entry being deleted. This cell will replace the cell being deleted
  ** from the internal node. The 'previous' entry is used for this instead
  ** of the 'next' entry, as the previous entry is always a part of the
  ** sub-tree headed by the child page of the cell being deleted. This makes
................................................................................

  /* If this is a delete operation to remove a row from a table b-tree,
  ** invalidate any incrblob cursors open on the row being deleted.  */
  if( pCur->pKeyInfo==0 ){
    invalidateIncrblobCursors(p, pCur->info.nKey, 0);
  }























  /* Make the page containing the entry to be deleted writable. Then free any
  ** overflow pages associated with the entry and finally remove the cell
  ** itself from within the page.  */
  rc = sqlite3PagerWrite(pPage->pDbPage);
  if( rc ) return rc;
  rc = clearCell(pPage, pCell, &szCell);
  dropCell(pPage, iCellIdx, szCell, &rc);

Changes to src/build.c.

1082
1083
1084
1085
1086
1087
1088

1089
1090
1091
1092
1093
1094
1095
....
2172
2173
2174
2175
2176
2177
2178
2179
2180
2181
2182
2183
2184
2185
2186
2187
2188
2189
2190
2191
2192
2193
2194
2195
2196
2197
2198
2199
2200















2201



2202
2203
2204
2205
2206
2207
2208
2209
2210
2211
2212

2213

2214
2215
2216
2217
2218
2219
2220
2221
2222
2223
....
2758
2759
2760
2761
2762
2763
2764

2765
2766
2767
2768
2769
2770
2771
....
2781
2782
2783
2784
2785
2786
2787
2788
2789
2790
2791
2792
2793
2794
2795
2796
    ** 'BLOB'. */
    pCol->affinity = SQLITE_AFF_BLOB;
    pCol->szEst = 1;
  }else{
    zType = z + sqlite3Strlen30(z) + 1;
    memcpy(zType, pType->z, pType->n);
    zType[pType->n] = 0;

    pCol->affinity = sqlite3AffinityType(zType, &pCol->szEst);
    pCol->colFlags |= COLFLAG_HASTYPE;
  }
  p->nCol++;
  pParse->constraintName.n = 0;
}

................................................................................
  ** Note that the call to sqlite3ResultSetOfSelect() will expand any
  ** "*" elements in the results set of the view and will assign cursors
  ** to the elements of the FROM clause.  But we do not want these changes
  ** to be permanent.  So the computation is done on a copy of the SELECT
  ** statement that defines the view.
  */
  assert( pTable->pSelect );
  if( pTable->pCheck ){
    db->lookaside.bDisable++;
    sqlite3ColumnsFromExprList(pParse, pTable->pCheck, 
                               &pTable->nCol, &pTable->aCol);
    db->lookaside.bDisable--;
  }else{
    pSel = sqlite3SelectDup(db, pTable->pSelect, 0);
    if( pSel ){
      n = pParse->nTab;
      sqlite3SrcListAssignCursors(pParse, pSel->pSrc);
      pTable->nCol = -1;
      db->lookaside.bDisable++;
#ifndef SQLITE_OMIT_AUTHORIZATION
      xAuth = db->xAuth;
      db->xAuth = 0;
      pSelTab = sqlite3ResultSetOfSelect(pParse, pSel);
      db->xAuth = xAuth;
#else
      pSelTab = sqlite3ResultSetOfSelect(pParse, pSel);
#endif
      db->lookaside.bDisable--;
      pParse->nTab = n;















      if( pSelTab ){



        assert( pTable->aCol==0 );
        pTable->nCol = pSelTab->nCol;
        pTable->aCol = pSelTab->aCol;
        pSelTab->nCol = 0;
        pSelTab->aCol = 0;
        sqlite3DeleteTable(db, pSelTab);
        assert( sqlite3SchemaMutexHeld(db, 0, pTable->pSchema) );
      }else{
        pTable->nCol = 0;
        nErr++;
      }

      sqlite3SelectDelete(db, pSel);

    } else {
      nErr++;
    }
  }
  pTable->pSchema->schemaFlags |= DB_UnresetViews;
#endif /* SQLITE_OMIT_VIEW */
  return nErr;  
}
#endif /* !defined(SQLITE_OMIT_VIEW) || !defined(SQLITE_OMIT_VIRTUALTABLE) */

................................................................................
  if( v==0 ) return;
  if( memRootPage>=0 ){
    tnum = memRootPage;
  }else{
    tnum = pIndex->tnum;
  }
  pKey = sqlite3KeyInfoOfIndex(pParse, pIndex);


  /* Open the sorter cursor if we are to use one. */
  iSorter = pParse->nTab++;
  sqlite3VdbeAddOp4(v, OP_SorterOpen, iSorter, 0, pIndex->nKeyCol, (char*)
                    sqlite3KeyInfoRef(pKey), P4_KEYINFO);

  /* Open the table. Loop through all rows of the table, inserting index
................................................................................
  sqlite3VdbeJumpHere(v, addr1);
  if( memRootPage<0 ) sqlite3VdbeAddOp2(v, OP_Clear, tnum, iDb);
  sqlite3VdbeAddOp4(v, OP_OpenWrite, iIdx, tnum, iDb, 
                    (char *)pKey, P4_KEYINFO);
  sqlite3VdbeChangeP5(v, OPFLAG_BULKCSR|((memRootPage>=0)?OPFLAG_P2ISREG:0));

  addr1 = sqlite3VdbeAddOp2(v, OP_SorterSort, iSorter, 0); VdbeCoverage(v);
  assert( pKey!=0 || db->mallocFailed || pParse->nErr );
  if( IsUniqueIndex(pIndex) && pKey!=0 ){
    int j2 = sqlite3VdbeCurrentAddr(v) + 3;
    sqlite3VdbeGoto(v, j2);
    addr2 = sqlite3VdbeCurrentAddr(v);
    sqlite3VdbeAddOp4Int(v, OP_SorterCompare, iSorter, j2, regRecord,
                         pIndex->nKeyCol); VdbeCoverage(v);
    sqlite3UniqueConstraint(pParse, OE_Abort, pIndex);
  }else{







>







 







<
<
<
<
<
<
|
|
|
|
|
|

|
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|
|

|

<
|
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>
>
>
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<







 







>







 







<
|







1082
1083
1084
1085
1086
1087
1088
1089
1090
1091
1092
1093
1094
1095
1096
....
2173
2174
2175
2176
2177
2178
2179






2180
2181
2182
2183
2184
2185
2186
2187
2188
2189
2190
2191
2192
2193

2194
2195
2196
2197
2198
2199
2200
2201
2202
2203
2204
2205
2206
2207
2208
2209
2210
2211
2212
2213
2214
2215
2216
2217
2218

2219
2220
2221
2222
2223
2224
2225
2226
2227
2228

2229
2230
2231
2232
2233
2234
2235
....
2770
2771
2772
2773
2774
2775
2776
2777
2778
2779
2780
2781
2782
2783
2784
....
2794
2795
2796
2797
2798
2799
2800

2801
2802
2803
2804
2805
2806
2807
2808
    ** 'BLOB'. */
    pCol->affinity = SQLITE_AFF_BLOB;
    pCol->szEst = 1;
  }else{
    zType = z + sqlite3Strlen30(z) + 1;
    memcpy(zType, pType->z, pType->n);
    zType[pType->n] = 0;
    sqlite3Dequote(zType);
    pCol->affinity = sqlite3AffinityType(zType, &pCol->szEst);
    pCol->colFlags |= COLFLAG_HASTYPE;
  }
  p->nCol++;
  pParse->constraintName.n = 0;
}

................................................................................
  ** Note that the call to sqlite3ResultSetOfSelect() will expand any
  ** "*" elements in the results set of the view and will assign cursors
  ** to the elements of the FROM clause.  But we do not want these changes
  ** to be permanent.  So the computation is done on a copy of the SELECT
  ** statement that defines the view.
  */
  assert( pTable->pSelect );






  pSel = sqlite3SelectDup(db, pTable->pSelect, 0);
  if( pSel ){
    n = pParse->nTab;
    sqlite3SrcListAssignCursors(pParse, pSel->pSrc);
    pTable->nCol = -1;
    db->lookaside.bDisable++;
#ifndef SQLITE_OMIT_AUTHORIZATION
    xAuth = db->xAuth;
    db->xAuth = 0;
    pSelTab = sqlite3ResultSetOfSelect(pParse, pSel);
    db->xAuth = xAuth;
#else
    pSelTab = sqlite3ResultSetOfSelect(pParse, pSel);
#endif

    pParse->nTab = n;
    if( pTable->pCheck ){
      /* CREATE VIEW name(arglist) AS ...
      ** The names of the columns in the table are taken from
      ** arglist which is stored in pTable->pCheck.  The pCheck field
      ** normally holds CHECK constraints on an ordinary table, but for
      ** a VIEW it holds the list of column names.
      */
      sqlite3ColumnsFromExprList(pParse, pTable->pCheck, 
                                 &pTable->nCol, &pTable->aCol);
      if( db->mallocFailed==0 
       && pParse->nErr==0
       && pTable->nCol==pSel->pEList->nExpr
      ){
        sqlite3SelectAddColumnTypeAndCollation(pParse, pTable, pSel);
      }
    }else if( pSelTab ){
      /* CREATE VIEW name AS...  without an argument list.  Construct
      ** the column names from the SELECT statement that defines the view.
      */
      assert( pTable->aCol==0 );
      pTable->nCol = pSelTab->nCol;
      pTable->aCol = pSelTab->aCol;
      pSelTab->nCol = 0;
      pSelTab->aCol = 0;

      assert( sqlite3SchemaMutexHeld(db, 0, pTable->pSchema) );
    }else{
      pTable->nCol = 0;
      nErr++;
    }
    if( pSelTab ) sqlite3DeleteTable(db, pSelTab);
    sqlite3SelectDelete(db, pSel);
    db->lookaside.bDisable--;
  } else {
    nErr++;

  }
  pTable->pSchema->schemaFlags |= DB_UnresetViews;
#endif /* SQLITE_OMIT_VIEW */
  return nErr;  
}
#endif /* !defined(SQLITE_OMIT_VIEW) || !defined(SQLITE_OMIT_VIRTUALTABLE) */

................................................................................
  if( v==0 ) return;
  if( memRootPage>=0 ){
    tnum = memRootPage;
  }else{
    tnum = pIndex->tnum;
  }
  pKey = sqlite3KeyInfoOfIndex(pParse, pIndex);
  assert( pKey!=0 || db->mallocFailed || pParse->nErr );

  /* Open the sorter cursor if we are to use one. */
  iSorter = pParse->nTab++;
  sqlite3VdbeAddOp4(v, OP_SorterOpen, iSorter, 0, pIndex->nKeyCol, (char*)
                    sqlite3KeyInfoRef(pKey), P4_KEYINFO);

  /* Open the table. Loop through all rows of the table, inserting index
................................................................................
  sqlite3VdbeJumpHere(v, addr1);
  if( memRootPage<0 ) sqlite3VdbeAddOp2(v, OP_Clear, tnum, iDb);
  sqlite3VdbeAddOp4(v, OP_OpenWrite, iIdx, tnum, iDb, 
                    (char *)pKey, P4_KEYINFO);
  sqlite3VdbeChangeP5(v, OPFLAG_BULKCSR|((memRootPage>=0)?OPFLAG_P2ISREG:0));

  addr1 = sqlite3VdbeAddOp2(v, OP_SorterSort, iSorter, 0); VdbeCoverage(v);

  if( IsUniqueIndex(pIndex) ){
    int j2 = sqlite3VdbeCurrentAddr(v) + 3;
    sqlite3VdbeGoto(v, j2);
    addr2 = sqlite3VdbeCurrentAddr(v);
    sqlite3VdbeAddOp4Int(v, OP_SorterCompare, iSorter, j2, regRecord,
                         pIndex->nKeyCol); VdbeCoverage(v);
    sqlite3UniqueConstraint(pParse, OE_Abort, pIndex);
  }else{

Changes to src/date.c.

46
47
48
49
50
51
52









53
54
55
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57
58
59
...
414
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416
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...
432
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439
440
441
442
443
444
445
446
#include "sqliteInt.h"
#include <stdlib.h>
#include <assert.h>
#include <time.h>

#ifndef SQLITE_OMIT_DATETIME_FUNCS











/*
** A structure for holding a single date and time.
*/
typedef struct DateTime DateTime;
struct DateTime {
  sqlite3_int64 iJD; /* The julian day number times 86400000 */
................................................................................
*/
static void clearYMD_HMS_TZ(DateTime *p){
  p->validYMD = 0;
  p->validHMS = 0;
  p->validTZ = 0;
}


/*
** On recent Windows platforms, the localtime_s() function is available
** as part of the "Secure CRT". It is essentially equivalent to 
** localtime_r() available under most POSIX platforms, except that the 
** order of the parameters is reversed.
**
** See http://msdn.microsoft.com/en-us/library/a442x3ye(VS.80).aspx.
................................................................................
*/
#if !HAVE_LOCALTIME_R && !HAVE_LOCALTIME_S \
    && defined(_MSC_VER) && defined(_CRT_INSECURE_DEPRECATE)
#undef  HAVE_LOCALTIME_S
#define HAVE_LOCALTIME_S 1
#endif

#ifndef SQLITE_OMIT_LOCALTIME
/*
** The following routine implements the rough equivalent of localtime_r()
** using whatever operating-system specific localtime facility that
** is available.  This routine returns 0 on success and
** non-zero on any kind of error.
**
** If the sqlite3GlobalConfig.bLocaltimeFault variable is true then this







>
>
>
>
>
>
>
>
>







 







>







 







<







46
47
48
49
50
51
52
53
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58
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60
61
62
63
64
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66
67
68
...
423
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432
433
434
435
436
437
...
442
443
444
445
446
447
448

449
450
451
452
453
454
455
#include "sqliteInt.h"
#include <stdlib.h>
#include <assert.h>
#include <time.h>

#ifndef SQLITE_OMIT_DATETIME_FUNCS

/*
** The MSVC CRT on Windows CE may not have a localtime() function.
** So declare a substitute.  The substitute function itself is
** defined in "os_win.c".
*/
#if !defined(SQLITE_OMIT_LOCALTIME) && defined(_WIN32_WCE) && \
    (!defined(SQLITE_MSVC_LOCALTIME_API) || !SQLITE_MSVC_LOCALTIME_API)
struct tm *__cdecl localtime(const time_t *);
#endif

/*
** A structure for holding a single date and time.
*/
typedef struct DateTime DateTime;
struct DateTime {
  sqlite3_int64 iJD; /* The julian day number times 86400000 */
................................................................................
*/
static void clearYMD_HMS_TZ(DateTime *p){
  p->validYMD = 0;
  p->validHMS = 0;
  p->validTZ = 0;
}

#ifndef SQLITE_OMIT_LOCALTIME
/*
** On recent Windows platforms, the localtime_s() function is available
** as part of the "Secure CRT". It is essentially equivalent to 
** localtime_r() available under most POSIX platforms, except that the 
** order of the parameters is reversed.
**
** See http://msdn.microsoft.com/en-us/library/a442x3ye(VS.80).aspx.
................................................................................
*/
#if !HAVE_LOCALTIME_R && !HAVE_LOCALTIME_S \
    && defined(_MSC_VER) && defined(_CRT_INSECURE_DEPRECATE)
#undef  HAVE_LOCALTIME_S
#define HAVE_LOCALTIME_S 1
#endif


/*
** The following routine implements the rough equivalent of localtime_r()
** using whatever operating-system specific localtime facility that
** is available.  This routine returns 0 on success and
** non-zero on any kind of error.
**
** If the sqlite3GlobalConfig.bLocaltimeFault variable is true then this

Changes to src/delete.c.

139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
...
161
162
163
164
165
166
167
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169
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171
172
173
174
175
176
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178
179
180
181
182
183
184
185
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188
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190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
...
362
363
364
365
366
367
368



369
370
371
372
373
374
375
...
711
712
713
714
715
716
717
718







719
720
721
722
723
724
725
726
727
728
729
730
731
732
  SrcList *pSelectSrc = NULL;  /* SELECT rowid FROM x ... (dup of pSrc) */
  Select *pSelect = NULL;      /* Complete SELECT tree */

  /* Check that there isn't an ORDER BY without a LIMIT clause.
  */
  if( pOrderBy && (pLimit == 0) ) {
    sqlite3ErrorMsg(pParse, "ORDER BY without LIMIT on %s", zStmtType);
    goto limit_where_cleanup_2;
  }

  /* We only need to generate a select expression if there
  ** is a limit/offset term to enforce.
  */
  if( pLimit == 0 ) {
    /* if pLimit is null, pOffset will always be null as well. */
................................................................................
  ** becomes:
  **   DELETE FROM table_a WHERE rowid IN ( 
  **     SELECT rowid FROM table_a WHERE col1=1 ORDER BY col2 LIMIT 1 OFFSET 1
  **   );
  */

  pSelectRowid = sqlite3PExpr(pParse, TK_ROW, 0, 0, 0);
  if( pSelectRowid == 0 ) goto limit_where_cleanup_2;
  pEList = sqlite3ExprListAppend(pParse, 0, pSelectRowid);
  if( pEList == 0 ) goto limit_where_cleanup_2;

  /* duplicate the FROM clause as it is needed by both the DELETE/UPDATE tree
  ** and the SELECT subtree. */
  pSelectSrc = sqlite3SrcListDup(pParse->db, pSrc, 0);
  if( pSelectSrc == 0 ) {
    sqlite3ExprListDelete(pParse->db, pEList);
    goto limit_where_cleanup_2;
  }

  /* generate the SELECT expression tree. */
  pSelect = sqlite3SelectNew(pParse,pEList,pSelectSrc,pWhere,0,0,
                             pOrderBy,0,pLimit,pOffset);
  if( pSelect == 0 ) return 0;

  /* now generate the new WHERE rowid IN clause for the DELETE/UDPATE */
  pWhereRowid = sqlite3PExpr(pParse, TK_ROW, 0, 0, 0);
  if( pWhereRowid == 0 ) goto limit_where_cleanup_1;
  pInClause = sqlite3PExpr(pParse, TK_IN, pWhereRowid, 0, 0);
  if( pInClause == 0 ) goto limit_where_cleanup_1;

  pInClause->x.pSelect = pSelect;
  pInClause->flags |= EP_xIsSelect;
  sqlite3ExprSetHeightAndFlags(pParse, pInClause);
  return pInClause;

  /* something went wrong. clean up anything allocated. */
limit_where_cleanup_1:
  sqlite3SelectDelete(pParse->db, pSelect);
  return 0;

limit_where_cleanup_2:
  sqlite3ExprDelete(pParse->db, pWhere);
  sqlite3ExprListDelete(pParse->db, pOrderBy);
  sqlite3ExprDelete(pParse->db, pLimit);
  sqlite3ExprDelete(pParse->db, pOffset);
  return 0;
}
#endif /* defined(SQLITE_ENABLE_UPDATE_DELETE_LIMIT) */
................................................................................
  ** It is easier just to erase the whole table. Prior to version 3.6.5,
  ** this optimization caused the row change count (the value returned by 
  ** API function sqlite3_count_changes) to be set incorrectly.  */
  if( rcauth==SQLITE_OK
   && pWhere==0
   && !bComplex
   && !IsVirtual(pTab)



  ){
    assert( !isView );
    sqlite3TableLock(pParse, iDb, pTab->tnum, 1, pTab->zName);
    if( HasRowid(pTab) ){
      sqlite3VdbeAddOp4(v, OP_Clear, pTab->tnum, iDb, memCnt,
                        pTab->zName, P4_STATIC);
    }
................................................................................
    ** refer to this table (i.e. constraints attached to other tables) 
    ** are not violated by deleting this row.  */
    sqlite3FkCheck(pParse, pTab, iOld, 0, 0, 0);
  }

  /* Delete the index and table entries. Skip this step if pTab is really
  ** a view (in which case the only effect of the DELETE statement is to
  ** fire the INSTEAD OF triggers).  */ 







  if( pTab->pSelect==0 ){
    u8 p5 = 0;
    sqlite3GenerateRowIndexDelete(pParse, pTab, iDataCur, iIdxCur,0,iIdxNoSeek);
    sqlite3VdbeAddOp2(v, OP_Delete, iDataCur, (count?OPFLAG_NCHANGE:0));
    if( count ){
      sqlite3VdbeChangeP4(v, -1, pTab->zName, P4_TRANSIENT);
    }
    if( eMode!=ONEPASS_OFF ){
      sqlite3VdbeChangeP5(v, OPFLAG_AUXDELETE);
    }
    if( iIdxNoSeek>=0 ){
      sqlite3VdbeAddOp1(v, OP_Delete, iIdxNoSeek);
    }
    if( eMode==ONEPASS_MULTI ) p5 |= OPFLAG_SAVEPOSITION;







|







 







|

|






|









<
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<
<
<
<
|


<
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191




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723

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  SrcList *pSelectSrc = NULL;  /* SELECT rowid FROM x ... (dup of pSrc) */
  Select *pSelect = NULL;      /* Complete SELECT tree */

  /* Check that there isn't an ORDER BY without a LIMIT clause.
  */
  if( pOrderBy && (pLimit == 0) ) {
    sqlite3ErrorMsg(pParse, "ORDER BY without LIMIT on %s", zStmtType);
    goto limit_where_cleanup;
  }

  /* We only need to generate a select expression if there
  ** is a limit/offset term to enforce.
  */
  if( pLimit == 0 ) {
    /* if pLimit is null, pOffset will always be null as well. */
................................................................................
  ** becomes:
  **   DELETE FROM table_a WHERE rowid IN ( 
  **     SELECT rowid FROM table_a WHERE col1=1 ORDER BY col2 LIMIT 1 OFFSET 1
  **   );
  */

  pSelectRowid = sqlite3PExpr(pParse, TK_ROW, 0, 0, 0);
  if( pSelectRowid == 0 ) goto limit_where_cleanup;
  pEList = sqlite3ExprListAppend(pParse, 0, pSelectRowid);
  if( pEList == 0 ) goto limit_where_cleanup;

  /* duplicate the FROM clause as it is needed by both the DELETE/UPDATE tree
  ** and the SELECT subtree. */
  pSelectSrc = sqlite3SrcListDup(pParse->db, pSrc, 0);
  if( pSelectSrc == 0 ) {
    sqlite3ExprListDelete(pParse->db, pEList);
    goto limit_where_cleanup;
  }

  /* generate the SELECT expression tree. */
  pSelect = sqlite3SelectNew(pParse,pEList,pSelectSrc,pWhere,0,0,
                             pOrderBy,0,pLimit,pOffset);
  if( pSelect == 0 ) return 0;

  /* now generate the new WHERE rowid IN clause for the DELETE/UDPATE */
  pWhereRowid = sqlite3PExpr(pParse, TK_ROW, 0, 0, 0);

  pInClause = pWhereRowid ? sqlite3PExpr(pParse, TK_IN, pWhereRowid, 0, 0) : 0;




  sqlite3PExprAddSelect(pParse, pInClause, pSelect);
  return pInClause;


limit_where_cleanup:




  sqlite3ExprDelete(pParse->db, pWhere);
  sqlite3ExprListDelete(pParse->db, pOrderBy);
  sqlite3ExprDelete(pParse->db, pLimit);
  sqlite3ExprDelete(pParse->db, pOffset);
  return 0;
}
#endif /* defined(SQLITE_ENABLE_UPDATE_DELETE_LIMIT) */
................................................................................
  ** It is easier just to erase the whole table. Prior to version 3.6.5,
  ** this optimization caused the row change count (the value returned by 
  ** API function sqlite3_count_changes) to be set incorrectly.  */
  if( rcauth==SQLITE_OK
   && pWhere==0
   && !bComplex
   && !IsVirtual(pTab)
#ifdef SQLITE_ENABLE_PREUPDATE_HOOK
   && db->xPreUpdateCallback==0
#endif
  ){
    assert( !isView );
    sqlite3TableLock(pParse, iDb, pTab->tnum, 1, pTab->zName);
    if( HasRowid(pTab) ){
      sqlite3VdbeAddOp4(v, OP_Clear, pTab->tnum, iDb, memCnt,
                        pTab->zName, P4_STATIC);
    }
................................................................................
    ** refer to this table (i.e. constraints attached to other tables) 
    ** are not violated by deleting this row.  */
    sqlite3FkCheck(pParse, pTab, iOld, 0, 0, 0);
  }

  /* Delete the index and table entries. Skip this step if pTab is really
  ** a view (in which case the only effect of the DELETE statement is to
  ** fire the INSTEAD OF triggers).  
  **
  ** If variable 'count' is non-zero, then this OP_Delete instruction should
  ** invoke the update-hook. The pre-update-hook, on the other hand should
  ** be invoked unless table pTab is a system table. The difference is that
  ** the update-hook is not invoked for rows removed by REPLACE, but the 
  ** pre-update-hook is.
  */ 
  if( pTab->pSelect==0 ){
    u8 p5 = 0;
    sqlite3GenerateRowIndexDelete(pParse, pTab, iDataCur, iIdxCur,0,iIdxNoSeek);
    sqlite3VdbeAddOp2(v, OP_Delete, iDataCur, (count?OPFLAG_NCHANGE:0));

    sqlite3VdbeChangeP4(v, -1, (char*)pTab, P4_TABLE);

    if( eMode!=ONEPASS_OFF ){
      sqlite3VdbeChangeP5(v, OPFLAG_AUXDELETE);
    }
    if( iIdxNoSeek>=0 ){
      sqlite3VdbeAddOp1(v, OP_Delete, iIdxNoSeek);
    }
    if( eMode==ONEPASS_MULTI ) p5 |= OPFLAG_SAVEPOSITION;

Changes to src/expr.c.

467
468
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470
471
472
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484
485
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563
















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...
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...
789
790
791
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793
794
795
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797
798
799
800
801
802
803
...
851
852
853
854
855
856
857
858
859
860


861
862
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864
865
866
867
868
869
870
871
872
873
874

875
876
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926

927

928
929
930
931
932
933
934
935
936
937
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939
940
941
942
943
944
945
946
...
984
985
986
987
988
989
990
991
992
993
994
995
996
997
998
....
1206
1207
1208
1209
1210
1211
1212
1213
1214
1215
1216
1217
1218
1219
1220
....
1255
1256
1257
1258
1259
1260
1261
1262
1263
1264
1265
1266
1267
1268
1269
1270
1271
1272
1273



1274
1275
1276
1277
1278
1279
1280
....
2312
2313
2314
2315
2316
2317
2318













2319
2320
2321
2322
2323
2324
2325
2326
2327
2328



2329
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2331
2332
2333
2334
2335
....
2365
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2367
2368
2369
2370
2371


2372
2373
2374
2375
2376
2377
2378
....
2386
2387
2388
2389
2390
2391
2392

2393
2394
2395
2396
2397
2398
2399
2400
2401
2402
2403
2404
2405
2406
2407
2408
2409
2410
2411
2412
2413
2414
2415
2416
2417
....
2439
2440
2441
2442
2443
2444
2445
2446
2447
2448
2449
2450
2451
2452
2453
....
2574
2575
2576
2577
2578
2579
2580
2581
2582
2583
2584
2585
2586
2587
2588
....
2615
2616
2617
2618
2619
2620
2621

2622
2623
2624
2625
2626
2627
2628
    pNew->op = (u8)op;
    pNew->iAgg = -1;
    if( pToken ){
      if( nExtra==0 ){
        pNew->flags |= EP_IntValue;
        pNew->u.iValue = iValue;
      }else{
        int c;
        pNew->u.zToken = (char*)&pNew[1];
        assert( pToken->z!=0 || pToken->n==0 );
        if( pToken->n ) memcpy(pNew->u.zToken, pToken->z, pToken->n);
        pNew->u.zToken[pToken->n] = 0;
        if( dequote && nExtra>=3 
             && ((c = pToken->z[0])=='\'' || c=='"' || c=='[' || c=='`') ){
          sqlite3Dequote(pNew->u.zToken);
          if( c=='"' ) pNew->flags |= EP_DblQuoted;
        }
      }
    }
#if SQLITE_MAX_EXPR_DEPTH>0
    pNew->nHeight = 1;
#endif  
  }
................................................................................
    sqlite3ExprAttachSubtrees(pParse->db, p, pLeft, pRight);
  }
  if( p ) {
    sqlite3ExprCheckHeight(pParse, p->nHeight);
  }
  return p;
}

















/*
** If the expression is always either TRUE or FALSE (respectively),
** then return 1.  If one cannot determine the truth value of the
** expression at compile-time return 0.
**
** This is an optimization.  If is OK to return 0 here even if
................................................................................
    sqlite3ErrorMsg(pParse, "too many SQL variables");
  }
}

/*
** Recursively delete an expression tree.
*/
void sqlite3ExprDelete(sqlite3 *db, Expr *p){
  if( p==0 ) return;
  /* Sanity check: Assert that the IntValue is non-negative if it exists */
  assert( !ExprHasProperty(p, EP_IntValue) || p->u.iValue>=0 );
  if( !ExprHasProperty(p, EP_TokenOnly) ){
    /* The Expr.x union is never used at the same time as Expr.pRight */
    assert( p->x.pList==0 || p->pRight==0 );
    sqlite3ExprDelete(db, p->pLeft);
    sqlite3ExprDelete(db, p->pRight);
................................................................................
    }else{
      sqlite3ExprListDelete(db, p->x.pList);
    }
  }
  if( !ExprHasProperty(p, EP_Static) ){
    sqlite3DbFree(db, p);
  }



}

/*
** Return the number of bytes allocated for the expression structure 
** passed as the first argument. This is always one of EXPR_FULLSIZE,
** EXPR_REDUCEDSIZE or EXPR_TOKENONLYSIZE.
*/
................................................................................
** to enforce this constraint.
*/
static int dupedExprStructSize(Expr *p, int flags){
  int nSize;
  assert( flags==EXPRDUP_REDUCE || flags==0 ); /* Only one flag value allowed */
  assert( EXPR_FULLSIZE<=0xfff );
  assert( (0xfff & (EP_Reduced|EP_TokenOnly))==0 );
  if( 0==(flags&EXPRDUP_REDUCE) ){
    nSize = EXPR_FULLSIZE;
  }else{
    assert( !ExprHasProperty(p, EP_TokenOnly|EP_Reduced) );
    assert( !ExprHasProperty(p, EP_FromJoin) ); 
    assert( !ExprHasProperty(p, EP_MemToken) );
    assert( !ExprHasProperty(p, EP_NoReduce) );
    if( p->pLeft || p->x.pList ){
................................................................................
** This function is similar to sqlite3ExprDup(), except that if pzBuffer 
** is not NULL then *pzBuffer is assumed to point to a buffer large enough 
** to store the copy of expression p, the copies of p->u.zToken
** (if applicable), and the copies of the p->pLeft and p->pRight expressions,
** if any. Before returning, *pzBuffer is set to the first byte past the
** portion of the buffer copied into by this function.
*/
static Expr *exprDup(sqlite3 *db, Expr *p, int flags, u8 **pzBuffer){
  Expr *pNew = 0;                      /* Value to return */
  assert( flags==0 || flags==EXPRDUP_REDUCE );


  assert( db!=0 );
  if( p ){
    const int isReduced = (flags&EXPRDUP_REDUCE);
    u8 *zAlloc;
    u32 staticFlag = 0;

    assert( pzBuffer==0 || isReduced );

    /* Figure out where to write the new Expr structure. */
    if( pzBuffer ){
      zAlloc = *pzBuffer;
      staticFlag = EP_Static;
    }else{
      zAlloc = sqlite3DbMallocRawNN(db, dupedExprSize(p, flags));

    }
    pNew = (Expr *)zAlloc;

    if( pNew ){
      /* Set nNewSize to the size allocated for the structure pointed to
      ** by pNew. This is either EXPR_FULLSIZE, EXPR_REDUCEDSIZE or
      ** EXPR_TOKENONLYSIZE. nToken is set to the number of bytes consumed
      ** by the copy of the p->u.zToken string (if any).
      */
      const unsigned nStructSize = dupedExprStructSize(p, flags);
      const int nNewSize = nStructSize & 0xfff;
      int nToken;
      if( !ExprHasProperty(p, EP_IntValue) && p->u.zToken ){
        nToken = sqlite3Strlen30(p->u.zToken) + 1;
      }else{
        nToken = 0;
      }
      if( isReduced ){
        assert( ExprHasProperty(p, EP_Reduced)==0 );
        memcpy(zAlloc, p, nNewSize);
      }else{
        u32 nSize = (u32)exprStructSize(p);
        memcpy(zAlloc, p, nSize);
        if( nSize<EXPR_FULLSIZE ){ 
          memset(&zAlloc[nSize], 0, EXPR_FULLSIZE-nSize);
        }
      }

      /* Set the EP_Reduced, EP_TokenOnly, and EP_Static flags appropriately. */
      pNew->flags &= ~(EP_Reduced|EP_TokenOnly|EP_Static|EP_MemToken);
      pNew->flags |= nStructSize & (EP_Reduced|EP_TokenOnly);
      pNew->flags |= staticFlag;

      /* Copy the p->u.zToken string, if any. */
      if( nToken ){
        char *zToken = pNew->u.zToken = (char*)&zAlloc[nNewSize];
        memcpy(zToken, p->u.zToken, nToken);
      }

      if( 0==((p->flags|pNew->flags) & EP_TokenOnly) ){
        /* Fill in the pNew->x.pSelect or pNew->x.pList member. */
        if( ExprHasProperty(p, EP_xIsSelect) ){
          pNew->x.pSelect = sqlite3SelectDup(db, p->x.pSelect, isReduced);
        }else{
          pNew->x.pList = sqlite3ExprListDup(db, p->x.pList, isReduced);
        }
      }

      /* Fill in pNew->pLeft and pNew->pRight. */
      if( ExprHasProperty(pNew, EP_Reduced|EP_TokenOnly) ){
        zAlloc += dupedExprNodeSize(p, flags);
        if( ExprHasProperty(pNew, EP_Reduced) ){

          pNew->pLeft = exprDup(db, p->pLeft, EXPRDUP_REDUCE, &zAlloc);

          pNew->pRight = exprDup(db, p->pRight, EXPRDUP_REDUCE, &zAlloc);
        }
        if( pzBuffer ){
          *pzBuffer = zAlloc;
        }
      }else{
        if( !ExprHasProperty(p, EP_TokenOnly) ){
          pNew->pLeft = sqlite3ExprDup(db, p->pLeft, 0);
          pNew->pRight = sqlite3ExprDup(db, p->pRight, 0);
        }
      }

    }
  }
  return pNew;
}

/*
** Create and return a deep copy of the object passed as the second 
................................................................................
** The flags parameter contains a combination of the EXPRDUP_XXX flags.
** If the EXPRDUP_REDUCE flag is set, then the structure returned is a
** truncated version of the usual Expr structure that will be stored as
** part of the in-memory representation of the database schema.
*/
Expr *sqlite3ExprDup(sqlite3 *db, Expr *p, int flags){
  assert( flags==0 || flags==EXPRDUP_REDUCE );
  return exprDup(db, p, flags, 0);
}
ExprList *sqlite3ExprListDup(sqlite3 *db, ExprList *p, int flags){
  ExprList *pNew;
  struct ExprList_item *pItem, *pOldItem;
  int i;
  assert( db!=0 );
  if( p==0 ) return 0;
................................................................................
  assert( pList!=0 || pParse->db->mallocFailed!=0 );
  if( pList ){
    struct ExprList_item *pItem;
    assert( pList->nExpr>0 );
    pItem = &pList->a[pList->nExpr-1];
    assert( pItem->zName==0 );
    pItem->zName = sqlite3DbStrNDup(pParse->db, pName->z, pName->n);
    if( dequote && pItem->zName ) sqlite3Dequote(pItem->zName);
  }
}

/*
** Set the ExprList.a[].zSpan element of the most recently added item
** on the expression list.
**
................................................................................
    sqlite3ErrorMsg(pParse, "too many columns in %s", zObject);
  }
}

/*
** Delete an entire expression list.
*/
void sqlite3ExprListDelete(sqlite3 *db, ExprList *pList){
  int i;
  struct ExprList_item *pItem;
  if( pList==0 ) return;
  assert( pList->a!=0 || pList->nExpr==0 );
  for(pItem=pList->a, i=0; i<pList->nExpr; i++, pItem++){
    sqlite3ExprDelete(db, pItem->pExpr);
    sqlite3DbFree(db, pItem->zName);
    sqlite3DbFree(db, pItem->zSpan);
  }
  sqlite3DbFree(db, pList->a);
  sqlite3DbFree(db, pList);



}

/*
** Return the bitwise-OR of all Expr.flags fields in the given
** ExprList.
*/
u32 sqlite3ExprListFlags(const ExprList *pList){
................................................................................
        codeReal(v, z, negFlag, iMem);
      }
#endif
    }
  }
}














/*
** Clear a cache entry.
*/
static void cacheEntryClear(Parse *pParse, struct yColCache *p){
  if( p->tempReg ){
    if( pParse->nTempReg<ArraySize(pParse->aTempReg) ){
      pParse->aTempReg[pParse->nTempReg++] = p->iReg;
    }
    p->tempReg = 0;
  }



}


/*
** Record in the column cache that a particular column from a
** particular table is stored in a particular register.
*/
................................................................................
    if( p->iReg==0 ){
      p->iLevel = pParse->iCacheLevel;
      p->iTable = iTab;
      p->iColumn = iCol;
      p->iReg = iReg;
      p->tempReg = 0;
      p->lru = pParse->iCacheCnt++;


      return;
    }
  }

  /* Replace the last recently used */
  minLru = 0x7fffffff;
  idxLru = -1;
................................................................................
    p = &pParse->aColCache[idxLru];
    p->iLevel = pParse->iCacheLevel;
    p->iTable = iTab;
    p->iColumn = iCol;
    p->iReg = iReg;
    p->tempReg = 0;
    p->lru = pParse->iCacheCnt++;

    return;
  }
}

/*
** Indicate that registers between iReg..iReg+nReg-1 are being overwritten.
** Purge the range of registers from the column cache.
*/
void sqlite3ExprCacheRemove(Parse *pParse, int iReg, int nReg){
  int i;
  int iLast = iReg + nReg - 1;
  struct yColCache *p;
  for(i=0, p=pParse->aColCache; i<SQLITE_N_COLCACHE; i++, p++){
    int r = p->iReg;
    if( r>=iReg && r<=iLast ){
      cacheEntryClear(pParse, p);
      p->iReg = 0;
    }
  }
}

/*
** Remember the current column cache context.  Any new entries added
** added to the column cache after this call are removed when the
** corresponding pop occurs.
................................................................................
  if( pParse->db->flags & SQLITE_VdbeAddopTrace ){
    printf("POP  to %d\n", pParse->iCacheLevel);
  }
#endif
  for(i=0, p=pParse->aColCache; i<SQLITE_N_COLCACHE; i++, p++){
    if( p->iReg && p->iLevel>pParse->iCacheLevel ){
      cacheEntryClear(pParse, p);
      p->iReg = 0;
    }
  }
}

/*
** When a cached column is reused, make sure that its register is
** no longer available as a temp register.  ticket #3879:  that same
................................................................................
  if( pParse->db->flags & SQLITE_VdbeAddopTrace ){
    printf("CLEAR\n");
  }
#endif
  for(i=0, p=pParse->aColCache; i<SQLITE_N_COLCACHE; i++, p++){
    if( p->iReg ){
      cacheEntryClear(pParse, p);
      p->iReg = 0;
    }
  }
}

/*
** Record the fact that an affinity change has occurred on iCount
** registers starting with iStart.
................................................................................
  for(i=0, p=pParse->aColCache; i<SQLITE_N_COLCACHE; i++, p++){
    int r = p->iReg;
    if( r>=iFrom && r<=iTo ) return 1;    /*NO_TEST*/
  }
  return 0;
}
#endif /* SQLITE_DEBUG || SQLITE_COVERAGE_TEST */


/*
** Convert an expression node to a TK_REGISTER
*/
static void exprToRegister(Expr *p, int iReg){
  p->op2 = p->op;
  p->op = TK_REGISTER;







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    pNew->op = (u8)op;
    pNew->iAgg = -1;
    if( pToken ){
      if( nExtra==0 ){
        pNew->flags |= EP_IntValue;
        pNew->u.iValue = iValue;
      }else{

        pNew->u.zToken = (char*)&pNew[1];
        assert( pToken->z!=0 || pToken->n==0 );
        if( pToken->n ) memcpy(pNew->u.zToken, pToken->z, pToken->n);
        pNew->u.zToken[pToken->n] = 0;
        if( dequote && sqlite3Isquote(pNew->u.zToken[0]) ){
          if( pNew->u.zToken[0]=='"' ) pNew->flags |= EP_DblQuoted;
          sqlite3Dequote(pNew->u.zToken);

        }
      }
    }
#if SQLITE_MAX_EXPR_DEPTH>0
    pNew->nHeight = 1;
#endif  
  }
................................................................................
    sqlite3ExprAttachSubtrees(pParse->db, p, pLeft, pRight);
  }
  if( p ) {
    sqlite3ExprCheckHeight(pParse, p->nHeight);
  }
  return p;
}

/*
** Add pSelect to the Expr.x.pSelect field.  Or, if pExpr is NULL (due
** do a memory allocation failure) then delete the pSelect object.
*/
void sqlite3PExprAddSelect(Parse *pParse, Expr *pExpr, Select *pSelect){
  if( pExpr ){
    pExpr->x.pSelect = pSelect;
    ExprSetProperty(pExpr, EP_xIsSelect|EP_Subquery);
    sqlite3ExprSetHeightAndFlags(pParse, pExpr);
  }else{
    assert( pParse->db->mallocFailed );
    sqlite3SelectDelete(pParse->db, pSelect);
  }
}


/*
** If the expression is always either TRUE or FALSE (respectively),
** then return 1.  If one cannot determine the truth value of the
** expression at compile-time return 0.
**
** This is an optimization.  If is OK to return 0 here even if
................................................................................
    sqlite3ErrorMsg(pParse, "too many SQL variables");
  }
}

/*
** Recursively delete an expression tree.
*/
static SQLITE_NOINLINE void sqlite3ExprDeleteNN(sqlite3 *db, Expr *p){
  assert( p!=0 );
  /* Sanity check: Assert that the IntValue is non-negative if it exists */
  assert( !ExprHasProperty(p, EP_IntValue) || p->u.iValue>=0 );
  if( !ExprHasProperty(p, EP_TokenOnly) ){
    /* The Expr.x union is never used at the same time as Expr.pRight */
    assert( p->x.pList==0 || p->pRight==0 );
    sqlite3ExprDelete(db, p->pLeft);
    sqlite3ExprDelete(db, p->pRight);
................................................................................
    }else{
      sqlite3ExprListDelete(db, p->x.pList);
    }
  }
  if( !ExprHasProperty(p, EP_Static) ){
    sqlite3DbFree(db, p);
  }
}
void sqlite3ExprDelete(sqlite3 *db, Expr *p){
  if( p ) sqlite3ExprDeleteNN(db, p);
}

/*
** Return the number of bytes allocated for the expression structure 
** passed as the first argument. This is always one of EXPR_FULLSIZE,
** EXPR_REDUCEDSIZE or EXPR_TOKENONLYSIZE.
*/
................................................................................
** to enforce this constraint.
*/
static int dupedExprStructSize(Expr *p, int flags){
  int nSize;
  assert( flags==EXPRDUP_REDUCE || flags==0 ); /* Only one flag value allowed */
  assert( EXPR_FULLSIZE<=0xfff );
  assert( (0xfff & (EP_Reduced|EP_TokenOnly))==0 );
  if( 0==flags ){
    nSize = EXPR_FULLSIZE;
  }else{
    assert( !ExprHasProperty(p, EP_TokenOnly|EP_Reduced) );
    assert( !ExprHasProperty(p, EP_FromJoin) ); 
    assert( !ExprHasProperty(p, EP_MemToken) );
    assert( !ExprHasProperty(p, EP_NoReduce) );
    if( p->pLeft || p->x.pList ){
................................................................................
** This function is similar to sqlite3ExprDup(), except that if pzBuffer 
** is not NULL then *pzBuffer is assumed to point to a buffer large enough 
** to store the copy of expression p, the copies of p->u.zToken
** (if applicable), and the copies of the p->pLeft and p->pRight expressions,
** if any. Before returning, *pzBuffer is set to the first byte past the
** portion of the buffer copied into by this function.
*/
static Expr *exprDup(sqlite3 *db, Expr *p, int dupFlags, u8 **pzBuffer){
  Expr *pNew;           /* Value to return */
  u8 *zAlloc;           /* Memory space from which to build Expr object */
  u32 staticFlag;       /* EP_Static if space not obtained from malloc */

  assert( db!=0 );
  assert( p );


  assert( dupFlags==0 || dupFlags==EXPRDUP_REDUCE );

  assert( pzBuffer==0 || dupFlags==EXPRDUP_REDUCE );

  /* Figure out where to write the new Expr structure. */
  if( pzBuffer ){
    zAlloc = *pzBuffer;
    staticFlag = EP_Static;
  }else{
    zAlloc = sqlite3DbMallocRawNN(db, dupedExprSize(p, dupFlags));
    staticFlag = 0;
  }
  pNew = (Expr *)zAlloc;

  if( pNew ){
    /* Set nNewSize to the size allocated for the structure pointed to
    ** by pNew. This is either EXPR_FULLSIZE, EXPR_REDUCEDSIZE or
    ** EXPR_TOKENONLYSIZE. nToken is set to the number of bytes consumed
    ** by the copy of the p->u.zToken string (if any).
    */
    const unsigned nStructSize = dupedExprStructSize(p, dupFlags);
    const int nNewSize = nStructSize & 0xfff;
    int nToken;
    if( !ExprHasProperty(p, EP_IntValue) && p->u.zToken ){
      nToken = sqlite3Strlen30(p->u.zToken) + 1;
    }else{
      nToken = 0;
    }
    if( dupFlags ){
      assert( ExprHasProperty(p, EP_Reduced)==0 );
      memcpy(zAlloc, p, nNewSize);
    }else{
      u32 nSize = (u32)exprStructSize(p);
      memcpy(zAlloc, p, nSize);
      if( nSize<EXPR_FULLSIZE ){ 
        memset(&zAlloc[nSize], 0, EXPR_FULLSIZE-nSize);
      }
    }

    /* Set the EP_Reduced, EP_TokenOnly, and EP_Static flags appropriately. */
    pNew->flags &= ~(EP_Reduced|EP_TokenOnly|EP_Static|EP_MemToken);
    pNew->flags |= nStructSize & (EP_Reduced|EP_TokenOnly);
    pNew->flags |= staticFlag;

    /* Copy the p->u.zToken string, if any. */
    if( nToken ){
      char *zToken = pNew->u.zToken = (char*)&zAlloc[nNewSize];
      memcpy(zToken, p->u.zToken, nToken);
    }

    if( 0==((p->flags|pNew->flags) & EP_TokenOnly) ){
      /* Fill in the pNew->x.pSelect or pNew->x.pList member. */
      if( ExprHasProperty(p, EP_xIsSelect) ){
        pNew->x.pSelect = sqlite3SelectDup(db, p->x.pSelect, dupFlags);
      }else{
        pNew->x.pList = sqlite3ExprListDup(db, p->x.pList, dupFlags);
      }
    }

    /* Fill in pNew->pLeft and pNew->pRight. */
    if( ExprHasProperty(pNew, EP_Reduced|EP_TokenOnly) ){
      zAlloc += dupedExprNodeSize(p, dupFlags);
      if( ExprHasProperty(pNew, EP_Reduced) ){
        pNew->pLeft = p->pLeft ?
                      exprDup(db, p->pLeft, EXPRDUP_REDUCE, &zAlloc) : 0;
        pNew->pRight = p->pRight ?
                       exprDup(db, p->pRight, EXPRDUP_REDUCE, &zAlloc) : 0;
      }
      if( pzBuffer ){
        *pzBuffer = zAlloc;
      }
    }else{
      if( !ExprHasProperty(p, EP_TokenOnly) ){
        pNew->pLeft = sqlite3ExprDup(db, p->pLeft, 0);
        pNew->pRight = sqlite3ExprDup(db, p->pRight, 0);
      }


    }
  }
  return pNew;
}

/*
** Create and return a deep copy of the object passed as the second 
................................................................................
** The flags parameter contains a combination of the EXPRDUP_XXX flags.
** If the EXPRDUP_REDUCE flag is set, then the structure returned is a
** truncated version of the usual Expr structure that will be stored as
** part of the in-memory representation of the database schema.
*/
Expr *sqlite3ExprDup(sqlite3 *db, Expr *p, int flags){
  assert( flags==0 || flags==EXPRDUP_REDUCE );
  return p ? exprDup(db, p, flags, 0) : 0;
}
ExprList *sqlite3ExprListDup(sqlite3 *db, ExprList *p, int flags){
  ExprList *pNew;
  struct ExprList_item *pItem, *pOldItem;
  int i;
  assert( db!=0 );
  if( p==0 ) return 0;
................................................................................
  assert( pList!=0 || pParse->db->mallocFailed!=0 );
  if( pList ){
    struct ExprList_item *pItem;
    assert( pList->nExpr>0 );
    pItem = &pList->a[pList->nExpr-1];
    assert( pItem->zName==0 );
    pItem->zName = sqlite3DbStrNDup(pParse->db, pName->z, pName->n);
    if( dequote ) sqlite3Dequote(pItem->zName);
  }
}

/*
** Set the ExprList.a[].zSpan element of the most recently added item
** on the expression list.
**
................................................................................
    sqlite3ErrorMsg(pParse, "too many columns in %s", zObject);
  }
}

/*
** Delete an entire expression list.
*/
static SQLITE_NOINLINE void exprListDeleteNN(sqlite3 *db, ExprList *pList){
  int i;
  struct ExprList_item *pItem;

  assert( pList->a!=0 || pList->nExpr==0 );
  for(pItem=pList->a, i=0; i<pList->nExpr; i++, pItem++){
    sqlite3ExprDelete(db, pItem->pExpr);
    sqlite3DbFree(db, pItem->zName);
    sqlite3DbFree(db, pItem->zSpan);
  }
  sqlite3DbFree(db, pList->a);
  sqlite3DbFree(db, pList);
}
void sqlite3ExprListDelete(sqlite3 *db, ExprList *pList){
  if( pList ) exprListDeleteNN(db, pList);
}

/*
** Return the bitwise-OR of all Expr.flags fields in the given
** ExprList.
*/
u32 sqlite3ExprListFlags(const ExprList *pList){
................................................................................
        codeReal(v, z, negFlag, iMem);
      }
#endif
    }
  }
}

#if defined(SQLITE_DEBUG)
/*
** Verify the consistency of the column cache
*/
static int cacheIsValid(Parse *pParse){
  int i, n;
  for(i=n=0; i<SQLITE_N_COLCACHE; i++){
    if( pParse->aColCache[i].iReg>0 ) n++;
  }
  return n==pParse->nColCache;
}
#endif

/*
** Clear a cache entry.
*/
static void cacheEntryClear(Parse *pParse, struct yColCache *p){
  if( p->tempReg ){
    if( pParse->nTempReg<ArraySize(pParse->aTempReg) ){
      pParse->aTempReg[pParse->nTempReg++] = p->iReg;
    }
    p->tempReg = 0;
  }
  p->iReg = 0;
  pParse->nColCache--;
  assert( cacheIsValid(pParse) );
}


/*
** Record in the column cache that a particular column from a
** particular table is stored in a particular register.
*/
................................................................................
    if( p->iReg==0 ){
      p->iLevel = pParse->iCacheLevel;
      p->iTable = iTab;
      p->iColumn = iCol;
      p->iReg = iReg;
      p->tempReg = 0;
      p->lru = pParse->iCacheCnt++;
      pParse->nColCache++;
      assert( cacheIsValid(pParse) );
      return;
    }
  }

  /* Replace the last recently used */
  minLru = 0x7fffffff;
  idxLru = -1;
................................................................................
    p = &pParse->aColCache[idxLru];
    p->iLevel = pParse->iCacheLevel;
    p->iTable = iTab;
    p->iColumn = iCol;
    p->iReg = iReg;
    p->tempReg = 0;
    p->lru = pParse->iCacheCnt++;
    assert( cacheIsValid(pParse) );
    return;
  }
}

/*
** Indicate that registers between iReg..iReg+nReg-1 are being overwritten.
** Purge the range of registers from the column cache.
*/
void sqlite3ExprCacheRemove(Parse *pParse, int iReg, int nReg){
  struct yColCache *p;
  if( iReg<=0 || pParse->nColCache==0 ) return;
  p = &pParse->aColCache[SQLITE_N_COLCACHE-1];
  while(1){
    if( p->iReg >= iReg && p->iReg < iReg+nReg ) cacheEntryClear(pParse, p);
    if( p==pParse->aColCache ) break;
    p--;


  }
}

/*
** Remember the current column cache context.  Any new entries added
** added to the column cache after this call are removed when the
** corresponding pop occurs.
................................................................................
  if( pParse->db->flags & SQLITE_VdbeAddopTrace ){
    printf("POP  to %d\n", pParse->iCacheLevel);
  }
#endif
  for(i=0, p=pParse->aColCache; i<SQLITE_N_COLCACHE; i++, p++){
    if( p->iReg && p->iLevel>pParse->iCacheLevel ){
      cacheEntryClear(pParse, p);

    }
  }
}

/*
** When a cached column is reused, make sure that its register is
** no longer available as a temp register.  ticket #3879:  that same
................................................................................
  if( pParse->db->flags & SQLITE_VdbeAddopTrace ){
    printf("CLEAR\n");
  }
#endif
  for(i=0, p=pParse->aColCache; i<SQLITE_N_COLCACHE; i++, p++){
    if( p->iReg ){
      cacheEntryClear(pParse, p);

    }
  }
}

/*
** Record the fact that an affinity change has occurred on iCount
** registers starting with iStart.
................................................................................
  for(i=0, p=pParse->aColCache; i<SQLITE_N_COLCACHE; i++, p++){
    int r = p->iReg;
    if( r>=iFrom && r<=iTo ) return 1;    /*NO_TEST*/
  }
  return 0;
}
#endif /* SQLITE_DEBUG || SQLITE_COVERAGE_TEST */


/*
** Convert an expression node to a TK_REGISTER
*/
static void exprToRegister(Expr *p, int iReg){
  p->op2 = p->op;
  p->op = TK_REGISTER;

Changes to src/fkey.c.

1161
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1166
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1175
  Trigger *pTrigger;              /* Trigger definition to return */
  int iAction = (pChanges!=0);    /* 1 for UPDATE, 0 for DELETE */

  action = pFKey->aAction[iAction];
  if( action==OE_Restrict && (db->flags & SQLITE_DeferFKs) ){
    return 0;
  }

  pTrigger = pFKey->apTrigger[iAction];

  if( action!=OE_None && !pTrigger ){
    char const *zFrom;            /* Name of child table */
    int nFrom;                    /* Length in bytes of zFrom */
    Index *pIdx = 0;              /* Parent key index for this FK */
    int *aiCol = 0;               /* child table cols -> parent key cols */







<







1161
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1165
1166
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1168
1169
1170
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1173
1174
  Trigger *pTrigger;              /* Trigger definition to return */
  int iAction = (pChanges!=0);    /* 1 for UPDATE, 0 for DELETE */

  action = pFKey->aAction[iAction];
  if( action==OE_Restrict && (db->flags & SQLITE_DeferFKs) ){
    return 0;
  }

  pTrigger = pFKey->apTrigger[iAction];

  if( action!=OE_None && !pTrigger ){
    char const *zFrom;            /* Name of child table */
    int nFrom;                    /* Length in bytes of zFrom */
    Index *pIdx = 0;              /* Parent key index for this FK */
    int *aiCol = 0;               /* child table cols -> parent key cols */

Changes to src/func.c.

1381
1382
1383
1384
1385
1386
1387








1388
1389
1390
1391
1392
1393
1394
** A function that loads a shared-library extension then returns NULL.
*/
static void loadExt(sqlite3_context *context, int argc, sqlite3_value **argv){
  const char *zFile = (const char *)sqlite3_value_text(argv[0]);
  const char *zProc;
  sqlite3 *db = sqlite3_context_db_handle(context);
  char *zErrMsg = 0;









  if( argc==2 ){
    zProc = (const char *)sqlite3_value_text(argv[1]);
  }else{
    zProc = 0;
  }
  if( zFile && sqlite3_load_extension(db, zFile, zProc, &zErrMsg) ){







>
>
>
>
>
>
>
>







1381
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1384
1385
1386
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1390
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1392
1393
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1395
1396
1397
1398
1399
1400
1401
1402
** A function that loads a shared-library extension then returns NULL.
*/
static void loadExt(sqlite3_context *context, int argc, sqlite3_value **argv){
  const char *zFile = (const char *)sqlite3_value_text(argv[0]);
  const char *zProc;
  sqlite3 *db = sqlite3_context_db_handle(context);
  char *zErrMsg = 0;

  /* Disallow the load_extension() SQL function unless the SQLITE_LoadExtFunc
  ** flag is set.  See the sqlite3_enable_load_extension() API.
  */
  if( (db->flags & SQLITE_LoadExtFunc)==0 ){
    sqlite3_result_error(context, "not authorized", -1);
    return;
  }

  if( argc==2 ){
    zProc = (const char *)sqlite3_value_text(argv[1]);
  }else{
    zProc = 0;
  }
  if( zFile && sqlite3_load_extension(db, zFile, zProc, &zErrMsg) ){

Changes to src/global.c.

66
67
68
69
70
71
72

73
74
75
76
77
78
79
..
91
92
93
94
95
96
97
98
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100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
**   isspace()                        0x01
**   isalpha()                        0x02
**   isdigit()                        0x04
**   isalnum()                        0x06
**   isxdigit()                       0x08
**   toupper()                        0x20
**   SQLite identifier character      0x40

**
** Bit 0x20 is set if the mapped character requires translation to upper
** case. i.e. if the character is a lower-case ASCII character.
** If x is a lower-case ASCII character, then its upper-case equivalent
** is (x - 0x20). Therefore toupper() can be implemented as:
**
**   (x & ~(map[x]&0x20))
................................................................................
*/
#ifdef SQLITE_ASCII
const unsigned char sqlite3CtypeMap[256] = {
  0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,  /* 00..07    ........ */
  0x00, 0x01, 0x01, 0x01, 0x01, 0x01, 0x00, 0x00,  /* 08..0f    ........ */
  0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,  /* 10..17    ........ */
  0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,  /* 18..1f    ........ */
  0x01, 0x00, 0x00, 0x00, 0x40, 0x00, 0x00, 0x00,  /* 20..27     !"#$%&' */
  0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,  /* 28..2f    ()*+,-./ */
  0x0c, 0x0c, 0x0c, 0x0c, 0x0c, 0x0c, 0x0c, 0x0c,  /* 30..37    01234567 */
  0x0c, 0x0c, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,  /* 38..3f    89:;<=>? */

  0x00, 0x0a, 0x0a, 0x0a, 0x0a, 0x0a, 0x0a, 0x02,  /* 40..47    @ABCDEFG */
  0x02, 0x02, 0x02, 0x02, 0x02, 0x02, 0x02, 0x02,  /* 48..4f    HIJKLMNO */
  0x02, 0x02, 0x02, 0x02, 0x02, 0x02, 0x02, 0x02,  /* 50..57    PQRSTUVW */
  0x02, 0x02, 0x02, 0x00, 0x00, 0x00, 0x00, 0x40,  /* 58..5f    XYZ[\]^_ */
  0x00, 0x2a, 0x2a, 0x2a, 0x2a, 0x2a, 0x2a, 0x22,  /* 60..67    `abcdefg */
  0x22, 0x22, 0x22, 0x22, 0x22, 0x22, 0x22, 0x22,  /* 68..6f    hijklmno */
  0x22, 0x22, 0x22, 0x22, 0x22, 0x22, 0x22, 0x22,  /* 70..77    pqrstuvw */
  0x22, 0x22, 0x22, 0x00, 0x00, 0x00, 0x00, 0x00,  /* 78..7f    xyz{|}~. */

  0x40, 0x40, 0x40, 0x40, 0x40, 0x40, 0x40, 0x40,  /* 80..87    ........ */
  0x40, 0x40, 0x40, 0x40, 0x40, 0x40, 0x40, 0x40,  /* 88..8f    ........ */
  0x40, 0x40, 0x40, 0x40, 0x40, 0x40, 0x40, 0x40,  /* 90..97    ........ */







>







 







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|







66
67
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72
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74
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78
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80
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**   isspace()                        0x01
**   isalpha()                        0x02
**   isdigit()                        0x04
**   isalnum()                        0x06
**   isxdigit()                       0x08
**   toupper()                        0x20
**   SQLite identifier character      0x40
**   Quote character                  0x80
**
** Bit 0x20 is set if the mapped character requires translation to upper
** case. i.e. if the character is a lower-case ASCII character.
** If x is a lower-case ASCII character, then its upper-case equivalent
** is (x - 0x20). Therefore toupper() can be implemented as:
**
**   (x & ~(map[x]&0x20))
................................................................................
*/
#ifdef SQLITE_ASCII
const unsigned char sqlite3CtypeMap[256] = {
  0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,  /* 00..07    ........ */
  0x00, 0x01, 0x01, 0x01, 0x01, 0x01, 0x00, 0x00,  /* 08..0f    ........ */
  0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,  /* 10..17    ........ */
  0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,  /* 18..1f    ........ */
  0x01, 0x00, 0x80, 0x00, 0x40, 0x00, 0x00, 0x80,  /* 20..27     !"#$%&' */
  0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,  /* 28..2f    ()*+,-./ */
  0x0c, 0x0c, 0x0c, 0x0c, 0x0c, 0x0c, 0x0c, 0x0c,  /* 30..37    01234567 */
  0x0c, 0x0c, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,  /* 38..3f    89:;<=>? */

  0x00, 0x0a, 0x0a, 0x0a, 0x0a, 0x0a, 0x0a, 0x02,  /* 40..47    @ABCDEFG */
  0x02, 0x02, 0x02, 0x02, 0x02, 0x02, 0x02, 0x02,  /* 48..4f    HIJKLMNO */
  0x02, 0x02, 0x02, 0x02, 0x02, 0x02, 0x02, 0x02,  /* 50..57    PQRSTUVW */
  0x02, 0x02, 0x02, 0x80, 0x00, 0x00, 0x00, 0x40,  /* 58..5f    XYZ[\]^_ */
  0x80, 0x2a, 0x2a, 0x2a, 0x2a, 0x2a, 0x2a, 0x22,  /* 60..67    `abcdefg */
  0x22, 0x22, 0x22, 0x22, 0x22, 0x22, 0x22, 0x22,  /* 68..6f    hijklmno */
  0x22, 0x22, 0x22, 0x22, 0x22, 0x22, 0x22, 0x22,  /* 70..77    pqrstuvw */
  0x22, 0x22, 0x22, 0x00, 0x00, 0x00, 0x00, 0x00,  /* 78..7f    xyz{|}~. */

  0x40, 0x40, 0x40, 0x40, 0x40, 0x40, 0x40, 0x40,  /* 80..87    ........ */
  0x40, 0x40, 0x40, 0x40, 0x40, 0x40, 0x40, 0x40,  /* 88..8f    ........ */
  0x40, 0x40, 0x40, 0x40, 0x40, 0x40, 0x40, 0x40,  /* 90..97    ........ */

Changes to src/insert.c.

1427
1428
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1431
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1434
1435
1436










1437
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1439
1440
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1443
....
1699
1700
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1703
1704
1705
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1708
1709
1710
1711
1712
1713
....
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2103
2104
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2109
2110
2111
2112
2113
        Trigger *pTrigger = 0;
        if( db->flags&SQLITE_RecTriggers ){
          pTrigger = sqlite3TriggersExist(pParse, pTab, TK_DELETE, 0, 0);
        }
        if( pTrigger || sqlite3FkRequired(pParse, pTab, 0, 0) ){
          sqlite3MultiWrite(pParse);
          sqlite3GenerateRowDelete(pParse, pTab, pTrigger, iDataCur, iIdxCur,
                                   regNewData, 1, 0, OE_Replace,
                                   ONEPASS_SINGLE, -1);
        }else{










          if( pTab->pIndex ){
            sqlite3MultiWrite(pParse);
            sqlite3GenerateRowIndexDelete(pParse, pTab, iDataCur, iIdxCur,0,-1);
          }
        }
        seenReplace = 1;
        break;
................................................................................
    pik_flags |= OPFLAG_APPEND;
  }
  if( useSeekResult ){
    pik_flags |= OPFLAG_USESEEKRESULT;
  }
  sqlite3VdbeAddOp3(v, OP_Insert, iDataCur, regRec, regNewData);
  if( !pParse->nested ){
    sqlite3VdbeChangeP4(v, -1, pTab->zName, P4_TRANSIENT);
  }
  sqlite3VdbeChangeP5(v, pik_flags);
}

/*
** Allocate cursors for the pTab table and all its indices and generate
** code to open and initialized those cursors.
................................................................................
      addr1 = sqlite3VdbeAddOp2(v, OP_NewRowid, iDest, regRowid);
    }else{
      addr1 = sqlite3VdbeAddOp2(v, OP_Rowid, iSrc, regRowid);
      assert( (pDest->tabFlags & TF_Autoincrement)==0 );
    }
    sqlite3VdbeAddOp2(v, OP_RowData, iSrc, regData);
    sqlite3VdbeAddOp4(v, OP_Insert, iDest, regData, regRowid,
                      pDest->zName, 0);
    sqlite3VdbeChangeP5(v, OPFLAG_NCHANGE|OPFLAG_LASTROWID|OPFLAG_APPEND);
    sqlite3VdbeAddOp2(v, OP_Next, iSrc, addr1); VdbeCoverage(v);
    sqlite3VdbeAddOp2(v, OP_Close, iSrc, 0);
    sqlite3VdbeAddOp2(v, OP_Close, iDest, 0);
  }else{
    sqlite3TableLock(pParse, iDbDest, pDest->tnum, 1, pDest->zName);
    sqlite3TableLock(pParse, iDbSrc, pSrc->tnum, 0, pSrc->zName);







|
<

>
>
>
>
>
>
>
>
>
>







 







|







 







|







1427
1428
1429
1430
1431
1432
1433
1434

1435
1436
1437
1438
1439
1440
1441
1442
1443
1444
1445
1446
1447
1448
1449
1450
1451
1452
....
1708
1709
1710
1711
1712
1713
1714
1715
1716
1717
1718
1719
1720
1721
1722
....
2108
2109
2110
2111
2112
2113
2114
2115
2116
2117
2118
2119
2120
2121
2122
        Trigger *pTrigger = 0;
        if( db->flags&SQLITE_RecTriggers ){
          pTrigger = sqlite3TriggersExist(pParse, pTab, TK_DELETE, 0, 0);
        }
        if( pTrigger || sqlite3FkRequired(pParse, pTab, 0, 0) ){
          sqlite3MultiWrite(pParse);
          sqlite3GenerateRowDelete(pParse, pTab, pTrigger, iDataCur, iIdxCur,
                                   regNewData, 1, 0, OE_Replace, 1, -1);

        }else{
#ifdef SQLITE_ENABLE_PREUPDATE_HOOK
          if( HasRowid(pTab) ){
            /* This OP_Delete opcode fires the pre-update-hook only. It does
            ** not modify the b-tree. It is more efficient to let the coming
            ** OP_Insert replace the existing entry than it is to delete the
            ** existing entry and then insert a new one. */
            sqlite3VdbeAddOp2(v, OP_Delete, iDataCur, OPFLAG_ISNOOP);
            sqlite3VdbeChangeP4(v, -1, (char *)pTab, P4_TABLE);
          }
#endif /* SQLITE_ENABLE_PREUPDATE_HOOK */
          if( pTab->pIndex ){
            sqlite3MultiWrite(pParse);
            sqlite3GenerateRowIndexDelete(pParse, pTab, iDataCur, iIdxCur,0,-1);
          }
        }
        seenReplace = 1;
        break;
................................................................................
    pik_flags |= OPFLAG_APPEND;
  }
  if( useSeekResult ){
    pik_flags |= OPFLAG_USESEEKRESULT;
  }
  sqlite3VdbeAddOp3(v, OP_Insert, iDataCur, regRec, regNewData);
  if( !pParse->nested ){
    sqlite3VdbeChangeP4(v, -1, (char *)pTab, P4_TABLE);
  }
  sqlite3VdbeChangeP5(v, pik_flags);
}

/*
** Allocate cursors for the pTab tabl