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Overview
SHA1 Hash:38ef349463afaf5ca12869c8a507c29f224acd56
Date: 2013-03-09 19:04:16
User: dan
Comment:Fix further small issues in lsm_file.c.
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Changes to src/lsmInt.h

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int lsmFsMetaPageRelease(MetaPage *);
u8 *lsmFsMetaPageData(MetaPage *, int *);

#ifdef LSM_DEBUG
int lsmFsDbPageIsLast(Segment *pSeg, Page *pPg);
int lsmFsIntegrityCheck(lsm_db *);
#endif



int lsmFsPageWritable(Page *);

/* Functions to read, write and sync the log file. */
int lsmFsWriteLog(FileSystem *pFS, i64 iOff, LsmString *pStr);
int lsmFsSyncLog(FileSystem *pFS);
int lsmFsReadLog(FileSystem *pFS, i64 iOff, int nRead, LsmString *pStr);







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int lsmFsMetaPageRelease(MetaPage *);
u8 *lsmFsMetaPageData(MetaPage *, int *);

#ifdef LSM_DEBUG
int lsmFsDbPageIsLast(Segment *pSeg, Page *pPg);
int lsmFsIntegrityCheck(lsm_db *);
#endif

Pgno lsmFsRedirectPage(FileSystem *, Redirect *, Pgno);

int lsmFsPageWritable(Page *);

/* Functions to read, write and sync the log file. */
int lsmFsWriteLog(FileSystem *pFS, i64 iOff, LsmString *pStr);
int lsmFsSyncLog(FileSystem *pFS);
int lsmFsReadLog(FileSystem *pFS, i64 iOff, int nRead, LsmString *pStr);

Changes to src/lsm_file.c

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}

/*
** If page iPg has been redirected according to the redirections in the
** object passed as the second argument, return the destination page to
** which it is redirected. Otherwise, return a copy of iPg.
*/
static Pgno fsRedirectPage(FileSystem *pFS, Redirect *pRedir, Pgno iPg){
  Pgno iReal = iPg;

  if( pRedir ){
    const int nPagePerBlock = (
        pFS->pCompress ? pFS->nBlocksize : (pFS->nBlocksize / pFS->nPagesize)
    );
    int iBlk = fsPageToBlock(pFS, iPg);
................................................................................
}

/*
** This function is only called in compressed database mode. It reads and
** uncompresses the compressed data for page pPg from the database and
** populates the pPg->aData[] buffer and pPg->nCompress field.
**




** LSM_OK is returned if successful, or an LSM error code otherwise.
*/
static int fsReadPagedata(
  FileSystem *pFS,                /* File-system handle */
  Segment *pSeg,                  /* pPg is part of this segment */
  Page *pPg,                      /* Page to read and uncompress data for */
  int *pnSpace                    /* OUT: Total bytes of free space */
................................................................................
    }
  }
  return rc;
}

/*
** Return a handle for a database page.







*/
static int fsPageGet(
  FileSystem *pFS,                /* File-system handle */
  Segment *pSeg,                  /* Block redirection to use (or NULL) */
  Pgno iPg,                       /* Page id */
  int noContent,                  /* True to not load content from disk */
  Page **ppPg,                    /* OUT: New page handle */
................................................................................
  Page *p;
  int iHash;
  int rc = LSM_OK;

  /* In most cases iReal is the same as iPg. Except, if pSeg->pRedirect is 
  ** not NULL, and the block containing iPg has been redirected, then iReal
  ** is the page number after redirection.  */
  Pgno iReal = fsRedirectPage(pFS, (pSeg ? pSeg->pRedirect : 0), iPg);

  assert_lists_are_ok(pFS);
  assert( iPg>=fsFirstPageOnBlock(pFS, 1) );
  assert( iReal>=fsFirstPageOnBlock(pFS, 1) );
  *ppPg = 0;


  /* Search the hash-table for the page */
  p = fsPageFindInHash(pFS, iReal, &iHash);

  if( p ){
    assert( p->flags & PAGE_FREE );
    if( p->nRef==0 ) fsPageRemoveFromLru(pFS, p);
................................................................................
    }
  }

  return rc;
}






static int fsRunEndsBetween(
  Segment *pRun, 
  Segment *pIgnore, 
  Pgno iFirst, 
  Pgno iLast
){
  return (pRun!=pIgnore && (
        (pRun->iFirst>=iFirst && pRun->iFirst<=iLast)
     || (pRun->iLastPg>=iFirst && pRun->iLastPg<=iLast)
  ));
}





static int fsLevelEndsBetween(
  Level *pLevel, 
  Segment *pIgnore, 
  Pgno iFirst, 
  Pgno iLast
){
  int i;
................................................................................
      return 1;
    }
  }

  return 0;
}





static int fsFreeBlock(
  FileSystem *pFS, 
  Snapshot *pSnapshot, 
  Segment *pIgnore,             /* Ignore this run when searching */
  int iBlk

){
  int rc = LSM_OK;                /* Return code */
  int iFirst;                     /* First page on block iBlk */
  int iLast;                      /* Last page on block iBlk */
  Level *pLevel;                  /* Used to iterate through levels */

  int iIn;                        /* Used to iterate through append points */
................................................................................
  ** within this block. If there is such a run, return early. */
  for(pLevel=lsmDbSnapshotLevel(pSnapshot); pLevel; pLevel=pLevel->pNext){
    if( fsLevelEndsBetween(pLevel, pIgnore, iFirst, iLast) ){
      return LSM_OK;
    }
  }


  for(iIn=0; iIn<LSM_APPLIST_SZ; iIn++){
    if( aApp[iIn]<iFirst || aApp[iIn]>iLast ){
      aApp[iOut++] = aApp[iIn];
    }
  }
  while( iOut<LSM_APPLIST_SZ ) aApp[iOut++] = 0;

................................................................................
    }

    if( bZero ) memset(pDel, 0, sizeof(Segment));
  }
  return LSM_OK;
}






static Pgno firstOnBlock(FileSystem *pFS, int iBlk, Pgno *aPgno, int nPgno){
  Pgno iRet = 0;
  int i;
  for(i=0; i<nPgno; i++){
    Pgno iPg = aPgno[i];
    if( fsPageToBlock(pFS, iPg)==iBlk && (iRet==0 || iPg<iRet) ){
      iRet = iPg;
................................................................................

#ifndef NDEBUG
/*
** Return true if page iPg, which is a part of segment p, lies on
** a redirected block. 
*/
static int fsPageRedirects(FileSystem *pFS, Segment *p, Pgno iPg){
  return (iPg!=0 && iPg!=fsRedirectPage(pFS, p->pRedirect, iPg));
}

/*
** Return true if the second argument is not NULL and any of the first
** last or root pages lie on a redirected block. 
*/
static int fsSegmentRedirects(FileSystem *pFS, Segment *p){
................................................................................
    rc = fsAddOffset(pFS, pSeg, iNext, 1, &iNext);
  }

  *piNext = iNext;
  return rc;
}












static int fsGetPageBefore(
  FileSystem *pFS, 
  Segment *pSeg, 
  i64 iOff, 
  Pgno *piPrev
){
  u8 aSz[3];
  int rc;
  i64 iRead;



  rc = fsSubtractOffset(pFS, pSeg, iOff, sizeof(aSz), &iRead);
  if( rc==LSM_OK ) rc = fsReadData(pFS, pSeg, iRead, aSz, sizeof(aSz));

  if( rc==LSM_OK ){
    int bFree;
    int nSz;
    if( aSz[2] & 0x80 ){
      nSz = getRecordSize(aSz, &bFree) + sizeof(aSz)*2;
    }else{
      nSz = (int)(aSz[2] & 0x7F);
      bFree = 1;
    }
    rc = fsSubtractOffset(pFS, pSeg, iOff, nSz, piPrev);
  }

  return rc;
}

/*
** The first argument to this function is a valid reference to a database
................................................................................
    }
    rc = fsPageGet(pFS, pRun, iPg, 0, ppNext, 0);
  }

  return rc;
}











static Pgno findAppendPoint(FileSystem *pFS, Level *pLvl){
  int i;
  Pgno *aiAppend = pFS->pDb->pWorker->aiAppend;
  u32 iRet = 0;

  for(i=LSM_APPLIST_SZ-1; iRet==0 && i>=0; i--){
    if( (iRet = aiAppend[i]) ){
      if( pLvl ){
        int iBlk = fsPageToBlock(pFS, iRet);
        int j;
        for(j=0; iRet && j<pLvl->nRight; j++){
................................................................................
  }

  *ppOut = pPg;
  return rc;
}

/*
** Mark the sorted run passed as the second argument as finished. 




*/
int lsmFsSortedFinish(FileSystem *pFS, Segment *p){
  int rc = LSM_OK;
  if( p && p->iLastPg ){
    assert( p->pRedirect==0 );

    /* Check if the last page of this run happens to be the last of a block.
................................................................................
    }
  }
  return rc;
}

/*
** Obtain a reference to page number iPg.


*/
int lsmFsDbPageGet(FileSystem *pFS, Segment *pSeg, Pgno iPg, Page **ppPg){
  assert( pFS );
  return fsPageGet(pFS, pSeg, iPg, 0, ppPg, 0);
}

/*
** Obtain a reference to the last page in the segment passed as the 
** second argument.


*/
int lsmFsDbPageLast(FileSystem *pFS, Segment *pSeg, Page **ppPg){
  int rc;
  Pgno iPg = pSeg->iLastPg;
  if( pFS->pCompress ){
    int nSpace;
    iPg++;
................................................................................
*/
u8 *lsmFsMetaPageData(MetaPage *pPg, int *pnData){
  if( pnData ) *pnData = pPg->pFS->nMetasize;
  return pPg->aData;
}

/*
** Return true if page is currently writable.

*/

int lsmFsPageWritable(Page *pPg){
  return (pPg->flags & PAGE_DIRTY) ? 1 : 0;
}

static void fsMovePage(
  FileSystem *pFS, 
  Segment *pSeg, 
  int iTo, 
  int iFrom, 
  Pgno *piPg





){
  Pgno iPg = *piPg;
  if( iFrom==fsPageToBlock(pFS, iPg) ){
    const int nPagePerBlock = (
        pFS->pCompress ? pFS ->nBlocksize : (pFS->nBlocksize / pFS->nPagesize)
    );
    *piPg = iPg - (Pgno)(iFrom - iTo) * nPagePerBlock;
................................................................................
** It is safe to assume that there are no outstanding references to pages 
** on block iTo. And that block iFrom is not currently being written. In
** other words, the data can be read and written directly.
*/
int lsmFsMoveBlock(FileSystem *pFS, Segment *pSeg, int iTo, int iFrom){
  Snapshot *p = pFS->pDb->pWorker;
  int rc = LSM_OK;

  i64 nMap;

  i64 iFromOff = (i64)(iFrom-1) * pFS->nBlocksize;
  i64 iToOff = (i64)(iTo-1) * pFS->nBlocksize;
  
  assert( iTo!=1 );
  assert( iFrom>iTo );
................................................................................
  /* Grow the mapping as required. */
  nMap = LSM_MIN(pFS->nMapLimit, (i64)iFrom * pFS->nBlocksize);
  fsGrowMapping(pFS, nMap, &rc);

  if( rc==LSM_OK ){
    const int nPagePerBlock = (pFS->nBlocksize / pFS->nPagesize);
    int nSz = pFS->nPagesize;
    int i;
    u8 *aBuf = 0;
    u8 *aData = 0;

    for(i=0; rc==LSM_OK && i<nPagePerBlock; i++){
      i64 iOff = iFromOff + i*nSz;
      Page *pPg;

................................................................................
      }
    }
    lsmFree(pFS->pEnv, aBuf);
    lsmFsPurgeCache(pFS);
  }

  /* Update append-point list if necessary */
  if( rc==LSM_OK ){
    int i;
    for(i=0; i<LSM_APPLIST_SZ; i++){
      if( fsPageToBlock(pFS, p->aiAppend[i])==iFrom ){
        const int nPagePerBlock = (pFS->nBlocksize / pFS->nPagesize);
        p->aiAppend[i] -= (i64)(iFrom-iTo) * nPagePerBlock;
      }
    }

  }

  /* Update the Segment structure itself */
  fsMovePage(pFS, pSeg, iTo, iFrom, &pSeg->iFirst);
  fsMovePage(pFS, pSeg, iTo, iFrom, &pSeg->iLastPg);
  fsMovePage(pFS, pSeg, iTo, iFrom, &pSeg->iRoot);

  return rc;
}

/*
** Append raw data to a segment. This function is only used in compressed



** database mode.
*/
static Pgno fsAppendData(
  FileSystem *pFS,                /* File-system handle */
  Segment *pSeg,                  /* Segment to append to */
  const u8 *aData,                /* Buffer containing data to write */
  int nData,                      /* Size of buffer aData[] in bytes */
  int *pRc                        /* IN/OUT: Error code */
................................................................................

  return iRet;
}

/*
** This function is only called in compressed database mode. It 
** compresses the contents of page pPg and writes the result to the 
** buffer at pFS->aBuffer. The size of the compressed data is stored in
** pPg->nCompress.
**
** If buffer pFS->aBuffer[] has not been allocated then this function
** allocates it. If this fails, LSM_NOMEM is returned. Otherwise, LSM_OK.
*/
static int fsCompressIntoBuffer(FileSystem *pFS, Page *pPg){
  lsm_compress *p = pFS->pCompress;

  if( fsAllocateBuffer(pFS, 1) ) return LSM_NOMEM;
  assert( pPg->nData==pFS->nPagesize );
................................................................................
  pPg->nCompress = pFS->nBuffer;
  return p->xCompress(p->pCtx, 
      (char *)pFS->aOBuffer, &pPg->nCompress, 
      (const char *)pPg->aData, pPg->nData
  );
}

















static int fsAppendPage(
  FileSystem *pFS, 
  Segment *pSeg,
  Pgno *piNew,
  int *piPrev,
  int *piNext
){
................................................................................
  }

  pSeg->nSize++;
  pSeg->iLastPg = *piNew;
  return LSM_OK;
}




void lsmFsFlushWaiting(FileSystem *pFS, int *pRc){
  int rc = *pRc;
  Page *pPg;

  pPg = pFS->pWaiting;
  pFS->pWaiting = 0;

................................................................................
    assert( pPg->nRef==1 );
    lsmFsPageRelease(pPg);
    pPg = pNext;
  }
  *pRc = rc;
}




static void fsRemoveHashEntry(FileSystem *pFS, Pgno iPg){
  Page *p;
  int iHash = fsHashKey(pFS->nHash, iPg);

  for(p=pFS->apHash[iHash]; p && p->iPg!=iPg; p=p->pHashNext);

  if( p ){
................................................................................
        *pp = pPg->pMappedNext;
        pPg->pMappedNext = 0;

        /* Add to free list */
        pPg->pFreeNext = pFS->pFree;
        pFS->pFree = pPg;
      }else{
#if 0
        assert( pPg->pLruNext==0 );
        assert( pPg->pLruPrev==0 );
        fsPageRemoveFromHash(pFS, pPg);
        fsPageBufferFree(pPg);
#else
        fsPageAddToLru(pFS, pPg);
#endif
      }
    }
  }

  return rc;
}

................................................................................
** Return the total number of pages written to the database file.
*/
int lsmFsNWrite(FileSystem *pFS){ return pFS->nWrite; }

/*
** Return a copy of the environment pointer used by the file-system object.
*/
lsm_env *lsmFsEnv(FileSystem *pFS) { 
  return pFS->pEnv; 
}

/*
** Return a copy of the environment pointer used by the file-system object
** to which this page belongs.
*/
lsm_env *lsmPageEnv(Page *pPg) { 
  return pPg->pFS->pEnv; 
}





FileSystem *lsmPageFS(Page *pPg){
  return pPg->pFS;
}

/*
** Return the sector-size as reported by the log file handle.
*/
int lsmFsSectorSize(FileSystem *pFS){
  return lsmEnvSectorSize(pFS->pEnv, pFS->fdLog);
}

/*
** Helper function for lsmInfoArrayStructure().
*/
static Segment *startsWith(Segment *pRun, Pgno iFirst){
  return (iFirst==pRun->iFirst) ? pRun : 0;
}





static Segment *findSegment(Snapshot *pWorker, Pgno iFirst){
  Level *pLvl;                    /* Used to iterate through db levels */
  Segment *pSeg = 0;              /* Pointer to segment to return */

  for(pLvl=lsmDbSnapshotLevel(pWorker); pLvl && pSeg==0; pLvl=pLvl->pNext){
    if( 0==(pSeg = startsWith(&pLvl->lhs, iFirst)) ){
      int i;







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1709
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1711

1712
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....
1727
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1740
1741
....
1781
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....
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1815
1816
1817
1818
....
1900
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1911
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1949
....
2027
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....
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2159
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2161
2162
2163
2164
2165
2166
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2168
....
2198
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2200
2201
2202
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2209
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2321
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....
2376
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2382

2383
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....
2412
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2419





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....
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....
2858
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2865

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....
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}

/*
** If page iPg has been redirected according to the redirections in the
** object passed as the second argument, return the destination page to
** which it is redirected. Otherwise, return a copy of iPg.
*/
Pgno lsmFsRedirectPage(FileSystem *pFS, Redirect *pRedir, Pgno iPg){
  Pgno iReal = iPg;

  if( pRedir ){
    const int nPagePerBlock = (
        pFS->pCompress ? pFS->nBlocksize : (pFS->nBlocksize / pFS->nPagesize)
    );
    int iBlk = fsPageToBlock(pFS, iPg);
................................................................................
}

/*
** This function is only called in compressed database mode. It reads and
** uncompresses the compressed data for page pPg from the database and
** populates the pPg->aData[] buffer and pPg->nCompress field.
**
** It is possible that instead of a page record, there is free space
** at offset pPg->iPgno. In this case no data is read from the file, but
** output variable *pnSpace is set to the total number of free bytes.
**
** LSM_OK is returned if successful, or an LSM error code otherwise.
*/
static int fsReadPagedata(
  FileSystem *pFS,                /* File-system handle */
  Segment *pSeg,                  /* pPg is part of this segment */
  Page *pPg,                      /* Page to read and uncompress data for */
  int *pnSpace                    /* OUT: Total bytes of free space */
................................................................................
    }
  }
  return rc;
}

/*
** Return a handle for a database page.
**
** If this file-system object is accessing a compressed database it may be
** that there is no page record at database file offset iPg. Instead, there
** may be a free space record. In this case, set *ppPg to NULL and *pnSpace
** to the total number of free bytes before returning.
**
** If no error occurs, LSM_OK is returned. Otherwise, an lsm error code.
*/
static int fsPageGet(
  FileSystem *pFS,                /* File-system handle */
  Segment *pSeg,                  /* Block redirection to use (or NULL) */
  Pgno iPg,                       /* Page id */
  int noContent,                  /* True to not load content from disk */
  Page **ppPg,                    /* OUT: New page handle */
................................................................................
  Page *p;
  int iHash;
  int rc = LSM_OK;

  /* In most cases iReal is the same as iPg. Except, if pSeg->pRedirect is 
  ** not NULL, and the block containing iPg has been redirected, then iReal
  ** is the page number after redirection.  */
  Pgno iReal = lsmFsRedirectPage(pFS, (pSeg ? pSeg->pRedirect : 0), iPg);

  assert_lists_are_ok(pFS);
  assert( iPg>=fsFirstPageOnBlock(pFS, 1) );
  assert( iReal>=fsFirstPageOnBlock(pFS, 1) );
  *ppPg = 0;


  /* Search the hash-table for the page */
  p = fsPageFindInHash(pFS, iReal, &iHash);

  if( p ){
    assert( p->flags & PAGE_FREE );
    if( p->nRef==0 ) fsPageRemoveFromLru(pFS, p);
................................................................................
    }
  }

  return rc;
}


/*
** Return true if the first or last page of segment pRun falls between iFirst
** and iLast, inclusive, and pRun is not equal to pIgnore.
*/
static int fsRunEndsBetween(
  Segment *pRun, 
  Segment *pIgnore, 
  Pgno iFirst, 
  Pgno iLast
){
  return (pRun!=pIgnore && (
        (pRun->iFirst>=iFirst && pRun->iFirst<=iLast)
     || (pRun->iLastPg>=iFirst && pRun->iLastPg<=iLast)
  ));
}

/*
** Return true if level pLevel contains a segment other than pIgnore for
** which the first or last page is between iFirst and iLast, inclusive.
*/
static int fsLevelEndsBetween(
  Level *pLevel, 
  Segment *pIgnore, 
  Pgno iFirst, 
  Pgno iLast
){
  int i;
................................................................................
      return 1;
    }
  }

  return 0;
}

/*
** Block iBlk is no longer in use by segment pIgnore. If it is not in use
** by any other segment, move it to the free block list.
*/
static int fsFreeBlock(
  FileSystem *pFS,                /* File system object */
  Snapshot *pSnapshot,            /* Worker snapshot */
  Segment *pIgnore,               /* Ignore this run when searching */

  int iBlk                        /* Block number of block to free */
){
  int rc = LSM_OK;                /* Return code */
  int iFirst;                     /* First page on block iBlk */
  int iLast;                      /* Last page on block iBlk */
  Level *pLevel;                  /* Used to iterate through levels */

  int iIn;                        /* Used to iterate through append points */
................................................................................
  ** within this block. If there is such a run, return early. */
  for(pLevel=lsmDbSnapshotLevel(pSnapshot); pLevel; pLevel=pLevel->pNext){
    if( fsLevelEndsBetween(pLevel, pIgnore, iFirst, iLast) ){
      return LSM_OK;
    }
  }

  /* Remove any entries that lie on this block from the append-list. */
  for(iIn=0; iIn<LSM_APPLIST_SZ; iIn++){
    if( aApp[iIn]<iFirst || aApp[iIn]>iLast ){
      aApp[iOut++] = aApp[iIn];
    }
  }
  while( iOut<LSM_APPLIST_SZ ) aApp[iOut++] = 0;

................................................................................
    }

    if( bZero ) memset(pDel, 0, sizeof(Segment));
  }
  return LSM_OK;
}

/*
** aPgno is an array containing nPgno page numbers. Return the smallest page
** number from the array that falls on block iBlk. Or, if none of the pages
** in aPgno[] fall on block iBlk, return 0.
*/
static Pgno firstOnBlock(FileSystem *pFS, int iBlk, Pgno *aPgno, int nPgno){
  Pgno iRet = 0;
  int i;
  for(i=0; i<nPgno; i++){
    Pgno iPg = aPgno[i];
    if( fsPageToBlock(pFS, iPg)==iBlk && (iRet==0 || iPg<iRet) ){
      iRet = iPg;
................................................................................

#ifndef NDEBUG
/*
** Return true if page iPg, which is a part of segment p, lies on
** a redirected block. 
*/
static int fsPageRedirects(FileSystem *pFS, Segment *p, Pgno iPg){
  return (iPg!=0 && iPg!=lsmFsRedirectPage(pFS, p->pRedirect, iPg));
}

/*
** Return true if the second argument is not NULL and any of the first
** last or root pages lie on a redirected block. 
*/
static int fsSegmentRedirects(FileSystem *pFS, Segment *p){
................................................................................
    rc = fsAddOffset(pFS, pSeg, iNext, 1, &iNext);
  }

  *piNext = iNext;
  return rc;
}

/*
** This function is only used in compressed database mode.
**
** Argument iPg is the page number of a pagethat appears in segment pSeg.
** This function determines the page number of the previous page in the
** same run. *piPrev is set to the previous page number before returning.
**
** LSM_OK is returned if no error occurs. Otherwise, an lsm error code.
** If any value other than LSM_OK is returned, then the final value of
** *piPrev is undefined.
*/
static int fsGetPageBefore(
  FileSystem *pFS, 
  Segment *pSeg, 
  Pgno iPg, 
  Pgno *piPrev
){
  u8 aSz[3];
  int rc;
  i64 iRead;

  assert( pFS->pCompress );

  rc = fsSubtractOffset(pFS, pSeg, iPg, sizeof(aSz), &iRead);
  if( rc==LSM_OK ) rc = fsReadData(pFS, pSeg, iRead, aSz, sizeof(aSz));

  if( rc==LSM_OK ){
    int bFree;
    int nSz;
    if( aSz[2] & 0x80 ){
      nSz = getRecordSize(aSz, &bFree) + sizeof(aSz)*2;
    }else{
      nSz = (int)(aSz[2] & 0x7F);
      bFree = 1;
    }
    rc = fsSubtractOffset(pFS, pSeg, iPg, nSz, piPrev);
  }

  return rc;
}

/*
** The first argument to this function is a valid reference to a database
................................................................................
    }
    rc = fsPageGet(pFS, pRun, iPg, 0, ppNext, 0);
  }

  return rc;
}

/*
** This function is called when creating a new segment to determine if the
** first part of it can be written following an existing segment on an
** already allocated block. If it is possible, the page number of the first
** page to use for the new segment is returned. Otherwise zero.
**
** If argument pLvl is not NULL, then this function will not attempt to
** start the new segment immediately following any segment that is part
** of the right-hand-side of pLvl.
*/
static Pgno findAppendPoint(FileSystem *pFS, Level *pLvl){
  int i;
  Pgno *aiAppend = pFS->pDb->pWorker->aiAppend;
  Pgno iRet = 0;

  for(i=LSM_APPLIST_SZ-1; iRet==0 && i>=0; i--){
    if( (iRet = aiAppend[i]) ){
      if( pLvl ){
        int iBlk = fsPageToBlock(pFS, iRet);
        int j;
        for(j=0; iRet && j<pLvl->nRight; j++){
................................................................................
  }

  *ppOut = pPg;
  return rc;
}

/*
** Mark the segment passed as the second argument as finished. Once a segment
** is marked as finished it is not possible to append any further pages to 
** it.
**
** Return LSM_OK if successful or an lsm error code if an error occurs.
*/
int lsmFsSortedFinish(FileSystem *pFS, Segment *p){
  int rc = LSM_OK;
  if( p && p->iLastPg ){
    assert( p->pRedirect==0 );

    /* Check if the last page of this run happens to be the last of a block.
................................................................................
    }
  }
  return rc;
}

/*
** Obtain a reference to page number iPg.
**
** Return LSM_OK if successful, or an lsm error code if an error occurs.
*/
int lsmFsDbPageGet(FileSystem *pFS, Segment *pSeg, Pgno iPg, Page **ppPg){

  return fsPageGet(pFS, pSeg, iPg, 0, ppPg, 0);
}

/*
** Obtain a reference to the last page in the segment passed as the 
** second argument.
**
** Return LSM_OK if successful, or an lsm error code if an error occurs.
*/
int lsmFsDbPageLast(FileSystem *pFS, Segment *pSeg, Page **ppPg){
  int rc;
  Pgno iPg = pSeg->iLastPg;
  if( pFS->pCompress ){
    int nSpace;
    iPg++;
................................................................................
*/
u8 *lsmFsMetaPageData(MetaPage *pPg, int *pnData){
  if( pnData ) *pnData = pPg->pFS->nMetasize;
  return pPg->aData;
}

/*
** Return true if page is currently writable. This is used in assert() 
** statements only.
*/
#ifndef NDEBUG
int lsmFsPageWritable(Page *pPg){
  return (pPg->flags & PAGE_DIRTY) ? 1 : 0;
}
#endif

/*
** This is called when block iFrom is being redirected to iTo. If page 
** number (*piPg) lies on block iFrom, then calculate the equivalent
** page on block iTo and set *piPg to this value before returning.
*/
static void fsMovePage(
  FileSystem *pFS,                /* File system object */
  int iTo,                        /* Destination block */
  int iFrom,                      /* Source block */
  Pgno *piPg                      /* IN/OUT: Page number */
){
  Pgno iPg = *piPg;
  if( iFrom==fsPageToBlock(pFS, iPg) ){
    const int nPagePerBlock = (
        pFS->pCompress ? pFS ->nBlocksize : (pFS->nBlocksize / pFS->nPagesize)
    );
    *piPg = iPg - (Pgno)(iFrom - iTo) * nPagePerBlock;
................................................................................
** It is safe to assume that there are no outstanding references to pages 
** on block iTo. And that block iFrom is not currently being written. In
** other words, the data can be read and written directly.
*/
int lsmFsMoveBlock(FileSystem *pFS, Segment *pSeg, int iTo, int iFrom){
  Snapshot *p = pFS->pDb->pWorker;
  int rc = LSM_OK;
  int i;
  i64 nMap;

  i64 iFromOff = (i64)(iFrom-1) * pFS->nBlocksize;
  i64 iToOff = (i64)(iTo-1) * pFS->nBlocksize;
  
  assert( iTo!=1 );
  assert( iFrom>iTo );
................................................................................
  /* Grow the mapping as required. */
  nMap = LSM_MIN(pFS->nMapLimit, (i64)iFrom * pFS->nBlocksize);
  fsGrowMapping(pFS, nMap, &rc);

  if( rc==LSM_OK ){
    const int nPagePerBlock = (pFS->nBlocksize / pFS->nPagesize);
    int nSz = pFS->nPagesize;

    u8 *aBuf = 0;
    u8 *aData = 0;

    for(i=0; rc==LSM_OK && i<nPagePerBlock; i++){
      i64 iOff = iFromOff + i*nSz;
      Page *pPg;

................................................................................
      }
    }
    lsmFree(pFS->pEnv, aBuf);
    lsmFsPurgeCache(pFS);
  }

  /* Update append-point list if necessary */


  for(i=0; i<LSM_APPLIST_SZ; i++){





    fsMovePage(pFS, iTo, iFrom, &p->aiAppend[i]);
  }

  /* Update the Segment structure itself */
  fsMovePage(pFS, iTo, iFrom, &pSeg->iFirst);
  fsMovePage(pFS, iTo, iFrom, &pSeg->iLastPg);
  fsMovePage(pFS, iTo, iFrom, &pSeg->iRoot);

  return rc;
}

/*
** Append raw data to a segment. Return the database file offset that the
** data is written to (this may be used as the page number if the data
** being appended is a new page record).
**
** This function is only used in compressed database mode.
*/
static Pgno fsAppendData(
  FileSystem *pFS,                /* File-system handle */
  Segment *pSeg,                  /* Segment to append to */
  const u8 *aData,                /* Buffer containing data to write */
  int nData,                      /* Size of buffer aData[] in bytes */
  int *pRc                        /* IN/OUT: Error code */
................................................................................

  return iRet;
}

/*
** This function is only called in compressed database mode. It 
** compresses the contents of page pPg and writes the result to the 
** buffer at pFS->aOBuffer. The size of the compressed data is stored in
** pPg->nCompress.
**
** If buffer pFS->aOBuffer[] has not been allocated then this function
** allocates it. If this fails, LSM_NOMEM is returned. Otherwise, LSM_OK.
*/
static int fsCompressIntoBuffer(FileSystem *pFS, Page *pPg){
  lsm_compress *p = pFS->pCompress;

  if( fsAllocateBuffer(pFS, 1) ) return LSM_NOMEM;
  assert( pPg->nData==pFS->nPagesize );
................................................................................
  pPg->nCompress = pFS->nBuffer;
  return p->xCompress(p->pCtx, 
      (char *)pFS->aOBuffer, &pPg->nCompress, 
      (const char *)pPg->aData, pPg->nData
  );
}

/*
** Append a new page to segment pSeg. Set output variable *piNew to the
** page number of the new page before returning.
**
** If the new page is the last on its block, then the 'next' block that
** will be used by the segment is allocated here too. In this case output
** variable *piNext is set to the block number of the next block.
**
** If the new page is the first on its block but not the first in the
** entire segment, set output variable *piPrev to the block number of
** the previous block in the segment.
**
** LSM_OK is returned if successful, or an lsm error code otherwise. If
** any value other than LSM_OK is returned, then the final value of all
** output variables is undefined.
*/
static int fsAppendPage(
  FileSystem *pFS, 
  Segment *pSeg,
  Pgno *piNew,
  int *piPrev,
  int *piNext
){
................................................................................
  }

  pSeg->nSize++;
  pSeg->iLastPg = *piNew;
  return LSM_OK;
}

/*
** Flush all pages in the FileSystem.pWaiting list to disk.
*/
void lsmFsFlushWaiting(FileSystem *pFS, int *pRc){
  int rc = *pRc;
  Page *pPg;

  pPg = pFS->pWaiting;
  pFS->pWaiting = 0;

................................................................................
    assert( pPg->nRef==1 );
    lsmFsPageRelease(pPg);
    pPg = pNext;
  }
  *pRc = rc;
}

/*
** If there exists a hash-table entry associated with page iPg, remove it.
*/
static void fsRemoveHashEntry(FileSystem *pFS, Pgno iPg){
  Page *p;
  int iHash = fsHashKey(pFS->nHash, iPg);

  for(p=pFS->apHash[iHash]; p && p->iPg!=iPg; p=p->pHashNext);

  if( p ){
................................................................................
        *pp = pPg->pMappedNext;
        pPg->pMappedNext = 0;

        /* Add to free list */
        pPg->pFreeNext = pFS->pFree;
        pFS->pFree = pPg;
      }else{






        fsPageAddToLru(pFS, pPg);

      }
    }
  }

  return rc;
}

................................................................................
** Return the total number of pages written to the database file.
*/
int lsmFsNWrite(FileSystem *pFS){ return pFS->nWrite; }

/*
** Return a copy of the environment pointer used by the file-system object.
*/
lsm_env *lsmFsEnv(FileSystem *pFS){ 
  return pFS->pEnv; 
}

/*
** Return a copy of the environment pointer used by the file-system object
** to which this page belongs.
*/
lsm_env *lsmPageEnv(Page *pPg) { 
  return pPg->pFS->pEnv; 
}

/*
** Return a pointer to the file-system object associated with the Page
** passed as the only argument.
*/
FileSystem *lsmPageFS(Page *pPg){
  return pPg->pFS;
}

/*
** Return the sector-size as reported by the log file handle.
*/
int lsmFsSectorSize(FileSystem *pFS){
  return pFS->szSector;
}

/*
** Helper function for lsmInfoArrayStructure().
*/
static Segment *startsWith(Segment *pRun, Pgno iFirst){
  return (iFirst==pRun->iFirst) ? pRun : 0;
}

/*
** Return the segment that starts with page iFirst, if any. If no such segment
** can be found, return NULL.
*/
static Segment *findSegment(Snapshot *pWorker, Pgno iFirst){
  Level *pLvl;                    /* Used to iterate through db levels */
  Segment *pSeg = 0;              /* Pointer to segment to return */

  for(pLvl=lsmDbSnapshotLevel(pWorker); pLvl && pSeg==0; pLvl=pLvl->pNext){
    if( 0==(pSeg = startsWith(&pLvl->lhs, iFirst)) ){
      int i;