mirror of
https://github.com/tnodir/fort
synced 2024-11-15 08:25:20 +00:00
UI: Update SQLite to v3.39.4
This commit is contained in:
parent
0edd819b7d
commit
8f15896ed9
191
src/3rdparty/sqlite/sqlite3.c
vendored
191
src/3rdparty/sqlite/sqlite3.c
vendored
@ -1,6 +1,6 @@
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/******************************************************************************
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** This file is an amalgamation of many separate C source files from SQLite
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** version 3.39.3. By combining all the individual C code files into this
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** version 3.39.4. By combining all the individual C code files into this
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** single large file, the entire code can be compiled as a single translation
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** unit. This allows many compilers to do optimizations that would not be
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** possible if the files were compiled separately. Performance improvements
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@ -452,9 +452,9 @@ extern "C" {
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** [sqlite3_libversion_number()], [sqlite3_sourceid()],
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** [sqlite_version()] and [sqlite_source_id()].
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*/
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#define SQLITE_VERSION "3.39.3"
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#define SQLITE_VERSION_NUMBER 3039003
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#define SQLITE_SOURCE_ID "2022-09-05 11:02:23 4635f4a69c8c2a8df242b384a992aea71224e39a2ccab42d8c0b0602f1e826e8"
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#define SQLITE_VERSION "3.39.4"
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#define SQLITE_VERSION_NUMBER 3039004
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#define SQLITE_SOURCE_ID "2022-09-29 15:55:41 a29f9949895322123f7c38fbe94c649a9d6e6c9cd0c3b41c96d694552f26b309"
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/*
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** CAPI3REF: Run-Time Library Version Numbers
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@ -45497,8 +45497,9 @@ SQLITE_API int sqlite3_win32_set_directory8(
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const char *zValue /* New value for directory being set or reset */
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){
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char **ppDirectory = 0;
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int rc;
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#ifndef SQLITE_OMIT_AUTOINIT
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int rc = sqlite3_initialize();
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rc = sqlite3_initialize();
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if( rc ) return rc;
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#endif
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sqlite3_mutex_enter(sqlite3MutexAlloc(SQLITE_MUTEX_STATIC_TEMPDIR));
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@ -51691,14 +51692,24 @@ SQLITE_PRIVATE void sqlite3PcacheClearSyncFlags(PCache *pCache){
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*/
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SQLITE_PRIVATE void sqlite3PcacheMove(PgHdr *p, Pgno newPgno){
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PCache *pCache = p->pCache;
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sqlite3_pcache_page *pOther;
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assert( p->nRef>0 );
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assert( newPgno>0 );
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assert( sqlite3PcachePageSanity(p) );
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pcacheTrace(("%p.MOVE %d -> %d\n",pCache,p->pgno,newPgno));
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pOther = sqlite3GlobalConfig.pcache2.xFetch(pCache->pCache, newPgno, 0);
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if( pOther ){
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PgHdr *pXPage = (PgHdr*)pOther->pExtra;
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assert( pXPage->nRef==0 );
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pXPage->nRef++;
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pCache->nRefSum++;
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sqlite3PcacheDrop(pXPage);
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}
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sqlite3GlobalConfig.pcache2.xRekey(pCache->pCache, p->pPage, p->pgno,newPgno);
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p->pgno = newPgno;
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if( (p->flags&PGHDR_DIRTY) && (p->flags&PGHDR_NEED_SYNC) ){
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pcacheManageDirtyList(p, PCACHE_DIRTYLIST_FRONT);
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assert( sqlite3PcachePageSanity(p) );
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}
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}
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@ -53080,23 +53091,26 @@ static void pcache1Rekey(
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PCache1 *pCache = (PCache1 *)p;
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PgHdr1 *pPage = (PgHdr1 *)pPg;
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PgHdr1 **pp;
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unsigned int h;
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unsigned int hOld, hNew;
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assert( pPage->iKey==iOld );
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assert( pPage->pCache==pCache );
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assert( iOld!=iNew ); /* The page number really is changing */
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pcache1EnterMutex(pCache->pGroup);
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h = iOld%pCache->nHash;
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pp = &pCache->apHash[h];
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assert( pcache1FetchNoMutex(p, iOld, 0)==pPage ); /* pPg really is iOld */
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hOld = iOld%pCache->nHash;
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pp = &pCache->apHash[hOld];
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while( (*pp)!=pPage ){
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pp = &(*pp)->pNext;
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}
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*pp = pPage->pNext;
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h = iNew%pCache->nHash;
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assert( pcache1FetchNoMutex(p, iNew, 0)==0 ); /* iNew not in cache */
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hNew = iNew%pCache->nHash;
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pPage->iKey = iNew;
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pPage->pNext = pCache->apHash[h];
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pCache->apHash[h] = pPage;
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pPage->pNext = pCache->apHash[hNew];
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pCache->apHash[hNew] = pPage;
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if( iNew>pCache->iMaxKey ){
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pCache->iMaxKey = iNew;
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}
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@ -68400,7 +68414,7 @@ static int defragmentPage(MemPage *pPage, int nMaxFrag){
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if( iFree2+sz2 > usableSize ) return SQLITE_CORRUPT_PAGE(pPage);
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memmove(&data[iFree+sz+sz2], &data[iFree+sz], iFree2-(iFree+sz));
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sz += sz2;
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}else if( NEVER(iFree+sz>usableSize) ){
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}else if( iFree+sz>usableSize ){
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return SQLITE_CORRUPT_PAGE(pPage);
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}
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@ -74756,8 +74770,6 @@ static int balance_nonroot(
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Pgno pgno; /* Temp var to store a page number in */
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u8 abDone[NB+2]; /* True after i'th new page is populated */
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Pgno aPgno[NB+2]; /* Page numbers of new pages before shuffling */
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Pgno aPgOrder[NB+2]; /* Copy of aPgno[] used for sorting pages */
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u16 aPgFlags[NB+2]; /* flags field of new pages before shuffling */
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CellArray b; /* Parsed information on cells being balanced */
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memset(abDone, 0, sizeof(abDone));
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@ -75181,42 +75193,39 @@ static int balance_nonroot(
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** of the table is closer to a linear scan through the file. That in turn
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** helps the operating system to deliver pages from the disk more rapidly.
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**
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** An O(n^2) insertion sort algorithm is used, but since n is never more
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** than (NB+2) (a small constant), that should not be a problem.
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** An O(N*N) sort algorithm is used, but since N is never more than NB+2
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** (5), that is not a performance concern.
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**
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** When NB==3, this one optimization makes the database about 25% faster
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** for large insertions and deletions.
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*/
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for(i=0; i<nNew; i++){
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aPgOrder[i] = aPgno[i] = apNew[i]->pgno;
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aPgFlags[i] = apNew[i]->pDbPage->flags;
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for(j=0; j<i; j++){
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if( NEVER(aPgno[j]==aPgno[i]) ){
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/* This branch is taken if the set of sibling pages somehow contains
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** duplicate entries. This can happen if the database is corrupt.
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** It would be simpler to detect this as part of the loop below, but
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** we do the detection here in order to avoid populating the pager
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** cache with two separate objects associated with the same
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** page number. */
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assert( CORRUPT_DB );
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rc = SQLITE_CORRUPT_BKPT;
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goto balance_cleanup;
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}
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}
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aPgno[i] = apNew[i]->pgno;
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assert( apNew[i]->pDbPage->flags & PGHDR_WRITEABLE );
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assert( apNew[i]->pDbPage->flags & PGHDR_DIRTY );
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}
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for(i=0; i<nNew; i++){
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int iBest = 0; /* aPgno[] index of page number to use */
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for(j=1; j<nNew; j++){
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if( aPgOrder[j]<aPgOrder[iBest] ) iBest = j;
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for(i=0; i<nNew-1; i++){
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int iB = i;
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for(j=i+1; j<nNew; j++){
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if( apNew[j]->pgno < apNew[iB]->pgno ) iB = j;
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}
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pgno = aPgOrder[iBest];
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aPgOrder[iBest] = 0xffffffff;
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if( iBest!=i ){
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if( iBest>i ){
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sqlite3PagerRekey(apNew[iBest]->pDbPage, pBt->nPage+iBest+1, 0);
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}
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sqlite3PagerRekey(apNew[i]->pDbPage, pgno, aPgFlags[iBest]);
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apNew[i]->pgno = pgno;
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/* If apNew[i] has a page number that is bigger than any of the
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** subsequence apNew[i] entries, then swap apNew[i] with the subsequent
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** entry that has the smallest page number (which we know to be
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** entry apNew[iB]).
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*/
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if( iB!=i ){
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Pgno pgnoA = apNew[i]->pgno;
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Pgno pgnoB = apNew[iB]->pgno;
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Pgno pgnoTemp = (PENDING_BYTE/pBt->pageSize)+1;
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u16 fgA = apNew[i]->pDbPage->flags;
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u16 fgB = apNew[iB]->pDbPage->flags;
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sqlite3PagerRekey(apNew[i]->pDbPage, pgnoTemp, fgB);
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sqlite3PagerRekey(apNew[iB]->pDbPage, pgnoA, fgA);
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sqlite3PagerRekey(apNew[i]->pDbPage, pgnoB, fgB);
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apNew[i]->pgno = pgnoB;
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apNew[iB]->pgno = pgnoA;
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}
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}
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@ -144039,6 +144048,23 @@ SQLITE_PRIVATE void sqlite3FinishTrigger(
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Vdbe *v;
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char *z;
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/* If this is a new CREATE TABLE statement, and if shadow tables
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** are read-only, and the trigger makes a change to a shadow table,
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** then raise an error - do not allow the trigger to be created. */
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if( sqlite3ReadOnlyShadowTables(db) ){
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TriggerStep *pStep;
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for(pStep=pTrig->step_list; pStep; pStep=pStep->pNext){
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if( pStep->zTarget!=0
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&& sqlite3ShadowTableName(db, pStep->zTarget)
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){
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sqlite3ErrorMsg(pParse,
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"trigger \"%s\" may not write to shadow table \"%s\"",
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pTrig->zName, pStep->zTarget);
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goto triggerfinish_cleanup;
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}
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}
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}
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/* Make an entry in the sqlite_schema table */
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v = sqlite3GetVdbe(pParse);
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if( v==0 ) goto triggerfinish_cleanup;
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@ -177004,7 +177030,7 @@ struct Fts3MultiSegReader {
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int nAdvance; /* How many seg-readers to advance */
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Fts3SegFilter *pFilter; /* Pointer to filter object */
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char *aBuffer; /* Buffer to merge doclists in */
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int nBuffer; /* Allocated size of aBuffer[] in bytes */
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i64 nBuffer; /* Allocated size of aBuffer[] in bytes */
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int iColFilter; /* If >=0, filter for this column */
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int bRestart;
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@ -179700,7 +179726,7 @@ static int fts3TermSelectMerge(
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**
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** Similar padding is added in the fts3DoclistOrMerge() function.
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*/
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pTS->aaOutput[0] = sqlite3_malloc(nDoclist + FTS3_VARINT_MAX + 1);
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pTS->aaOutput[0] = sqlite3_malloc64((i64)nDoclist + FTS3_VARINT_MAX + 1);
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pTS->anOutput[0] = nDoclist;
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if( pTS->aaOutput[0] ){
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memcpy(pTS->aaOutput[0], aDoclist, nDoclist);
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@ -181557,7 +181583,7 @@ static int fts3EvalIncrPhraseNext(
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if( bEof==0 ){
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int nList = 0;
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int nByte = a[p->nToken-1].nList;
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char *aDoclist = sqlite3_malloc(nByte+FTS3_BUFFER_PADDING);
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char *aDoclist = sqlite3_malloc64((i64)nByte+FTS3_BUFFER_PADDING);
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if( !aDoclist ) return SQLITE_NOMEM;
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memcpy(aDoclist, a[p->nToken-1].pList, nByte+1);
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memset(&aDoclist[nByte], 0, FTS3_BUFFER_PADDING);
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@ -185793,7 +185819,7 @@ static int porterNext(
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if( n>c->nAllocated ){
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char *pNew;
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c->nAllocated = n+20;
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pNew = sqlite3_realloc(c->zToken, c->nAllocated);
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pNew = sqlite3_realloc64(c->zToken, c->nAllocated);
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if( !pNew ) return SQLITE_NOMEM;
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c->zToken = pNew;
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}
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@ -186545,7 +186571,7 @@ static int simpleNext(
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if( n>c->nTokenAllocated ){
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char *pNew;
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c->nTokenAllocated = n+20;
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pNew = sqlite3_realloc(c->pToken, c->nTokenAllocated);
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pNew = sqlite3_realloc64(c->pToken, c->nTokenAllocated);
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if( !pNew ) return SQLITE_NOMEM;
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c->pToken = pNew;
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}
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@ -187707,7 +187733,7 @@ static int fts3PendingListAppendVarint(
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/* Allocate or grow the PendingList as required. */
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if( !p ){
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p = sqlite3_malloc(sizeof(*p) + 100);
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p = sqlite3_malloc64(sizeof(*p) + 100);
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if( !p ){
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return SQLITE_NOMEM;
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}
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@ -187716,14 +187742,14 @@ static int fts3PendingListAppendVarint(
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p->nData = 0;
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}
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else if( p->nData+FTS3_VARINT_MAX+1>p->nSpace ){
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int nNew = p->nSpace * 2;
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p = sqlite3_realloc(p, sizeof(*p) + nNew);
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i64 nNew = p->nSpace * 2;
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p = sqlite3_realloc64(p, sizeof(*p) + nNew);
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if( !p ){
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sqlite3_free(*pp);
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*pp = 0;
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return SQLITE_NOMEM;
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}
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p->nSpace = nNew;
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p->nSpace = (int)nNew;
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p->aData = (char *)&p[1];
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}
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@ -188280,7 +188306,7 @@ SQLITE_PRIVATE int sqlite3Fts3ReadBlock(
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int nByte = sqlite3_blob_bytes(p->pSegments);
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*pnBlob = nByte;
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if( paBlob ){
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char *aByte = sqlite3_malloc(nByte + FTS3_NODE_PADDING);
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char *aByte = sqlite3_malloc64((i64)nByte + FTS3_NODE_PADDING);
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if( !aByte ){
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rc = SQLITE_NOMEM;
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}else{
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@ -188397,7 +188423,7 @@ static int fts3SegReaderNext(
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int nTerm = fts3HashKeysize(pElem);
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if( (nTerm+1)>pReader->nTermAlloc ){
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sqlite3_free(pReader->zTerm);
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pReader->zTerm = (char*)sqlite3_malloc((nTerm+1)*2);
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pReader->zTerm = (char*)sqlite3_malloc64(((i64)nTerm+1)*2);
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if( !pReader->zTerm ) return SQLITE_NOMEM;
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pReader->nTermAlloc = (nTerm+1)*2;
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}
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@ -188405,7 +188431,7 @@ static int fts3SegReaderNext(
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pReader->zTerm[nTerm] = '\0';
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pReader->nTerm = nTerm;
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aCopy = (char*)sqlite3_malloc(nCopy);
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aCopy = (char*)sqlite3_malloc64(nCopy);
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if( !aCopy ) return SQLITE_NOMEM;
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memcpy(aCopy, pList->aData, nCopy);
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pReader->nNode = pReader->nDoclist = nCopy;
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@ -188692,7 +188718,7 @@ SQLITE_PRIVATE int sqlite3Fts3SegReaderNew(
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nExtra = nRoot + FTS3_NODE_PADDING;
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}
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pReader = (Fts3SegReader *)sqlite3_malloc(sizeof(Fts3SegReader) + nExtra);
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pReader = (Fts3SegReader *)sqlite3_malloc64(sizeof(Fts3SegReader) + nExtra);
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if( !pReader ){
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return SQLITE_NOMEM;
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}
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@ -188784,7 +188810,7 @@ SQLITE_PRIVATE int sqlite3Fts3SegReaderPending(
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if( nElem==nAlloc ){
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Fts3HashElem **aElem2;
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nAlloc += 16;
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aElem2 = (Fts3HashElem **)sqlite3_realloc(
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aElem2 = (Fts3HashElem **)sqlite3_realloc64(
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aElem, nAlloc*sizeof(Fts3HashElem *)
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);
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if( !aElem2 ){
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@ -189118,7 +189144,7 @@ static int fts3NodeAddTerm(
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** this is not expected to be a serious problem.
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*/
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assert( pTree->aData==(char *)&pTree[1] );
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pTree->aData = (char *)sqlite3_malloc(nReq);
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pTree->aData = (char *)sqlite3_malloc64(nReq);
|
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if( !pTree->aData ){
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return SQLITE_NOMEM;
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}
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@ -189136,7 +189162,7 @@ static int fts3NodeAddTerm(
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if( isCopyTerm ){
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if( pTree->nMalloc<nTerm ){
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char *zNew = sqlite3_realloc(pTree->zMalloc, nTerm*2);
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char *zNew = sqlite3_realloc64(pTree->zMalloc, (i64)nTerm*2);
|
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if( !zNew ){
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return SQLITE_NOMEM;
|
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}
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@ -189162,7 +189188,7 @@ static int fts3NodeAddTerm(
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** now. Instead, the term is inserted into the parent of pTree. If pTree
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** has no parent, one is created here.
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*/
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pNew = (SegmentNode *)sqlite3_malloc(sizeof(SegmentNode) + p->nNodeSize);
|
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pNew = (SegmentNode *)sqlite3_malloc64(sizeof(SegmentNode) + p->nNodeSize);
|
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if( !pNew ){
|
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return SQLITE_NOMEM;
|
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}
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@ -189300,7 +189326,7 @@ static int fts3SegWriterAdd(
|
||||
){
|
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int nPrefix; /* Size of term prefix in bytes */
|
||||
int nSuffix; /* Size of term suffix in bytes */
|
||||
int nReq; /* Number of bytes required on leaf page */
|
||||
i64 nReq; /* Number of bytes required on leaf page */
|
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int nData;
|
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SegmentWriter *pWriter = *ppWriter;
|
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@ -189309,13 +189335,13 @@ static int fts3SegWriterAdd(
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sqlite3_stmt *pStmt;
|
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|
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/* Allocate the SegmentWriter structure */
|
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pWriter = (SegmentWriter *)sqlite3_malloc(sizeof(SegmentWriter));
|
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pWriter = (SegmentWriter *)sqlite3_malloc64(sizeof(SegmentWriter));
|
||||
if( !pWriter ) return SQLITE_NOMEM;
|
||||
memset(pWriter, 0, sizeof(SegmentWriter));
|
||||
*ppWriter = pWriter;
|
||||
|
||||
/* Allocate a buffer in which to accumulate data */
|
||||
pWriter->aData = (char *)sqlite3_malloc(p->nNodeSize);
|
||||
pWriter->aData = (char *)sqlite3_malloc64(p->nNodeSize);
|
||||
if( !pWriter->aData ) return SQLITE_NOMEM;
|
||||
pWriter->nSize = p->nNodeSize;
|
||||
|
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@ -189390,7 +189416,7 @@ static int fts3SegWriterAdd(
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** the buffer to make it large enough.
|
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*/
|
||||
if( nReq>pWriter->nSize ){
|
||||
char *aNew = sqlite3_realloc(pWriter->aData, nReq);
|
||||
char *aNew = sqlite3_realloc64(pWriter->aData, nReq);
|
||||
if( !aNew ) return SQLITE_NOMEM;
|
||||
pWriter->aData = aNew;
|
||||
pWriter->nSize = nReq;
|
||||
@ -189415,7 +189441,7 @@ static int fts3SegWriterAdd(
|
||||
*/
|
||||
if( isCopyTerm ){
|
||||
if( nTerm>pWriter->nMalloc ){
|
||||
char *zNew = sqlite3_realloc(pWriter->zMalloc, nTerm*2);
|
||||
char *zNew = sqlite3_realloc64(pWriter->zMalloc, (i64)nTerm*2);
|
||||
if( !zNew ){
|
||||
return SQLITE_NOMEM;
|
||||
}
|
||||
@ -189723,12 +189749,12 @@ static void fts3ColumnFilter(
|
||||
static int fts3MsrBufferData(
|
||||
Fts3MultiSegReader *pMsr, /* Multi-segment-reader handle */
|
||||
char *pList,
|
||||
int nList
|
||||
i64 nList
|
||||
){
|
||||
if( nList>pMsr->nBuffer ){
|
||||
char *pNew;
|
||||
pMsr->nBuffer = nList*2;
|
||||
pNew = (char *)sqlite3_realloc(pMsr->aBuffer, pMsr->nBuffer);
|
||||
pNew = (char *)sqlite3_realloc64(pMsr->aBuffer, pMsr->nBuffer);
|
||||
if( !pNew ) return SQLITE_NOMEM;
|
||||
pMsr->aBuffer = pNew;
|
||||
}
|
||||
@ -189784,7 +189810,7 @@ SQLITE_PRIVATE int sqlite3Fts3MsrIncrNext(
|
||||
fts3SegReaderSort(pMsr->apSegment, nMerge, j, xCmp);
|
||||
|
||||
if( nList>0 && fts3SegReaderIsPending(apSegment[0]) ){
|
||||
rc = fts3MsrBufferData(pMsr, pList, nList+1);
|
||||
rc = fts3MsrBufferData(pMsr, pList, (i64)nList+1);
|
||||
if( rc!=SQLITE_OK ) return rc;
|
||||
assert( (pMsr->aBuffer[nList] & 0xFE)==0x00 );
|
||||
pList = pMsr->aBuffer;
|
||||
@ -189921,11 +189947,11 @@ SQLITE_PRIVATE int sqlite3Fts3MsrIncrRestart(Fts3MultiSegReader *pCsr){
|
||||
return SQLITE_OK;
|
||||
}
|
||||
|
||||
static int fts3GrowSegReaderBuffer(Fts3MultiSegReader *pCsr, int nReq){
|
||||
static int fts3GrowSegReaderBuffer(Fts3MultiSegReader *pCsr, i64 nReq){
|
||||
if( nReq>pCsr->nBuffer ){
|
||||
char *aNew;
|
||||
pCsr->nBuffer = nReq*2;
|
||||
aNew = sqlite3_realloc(pCsr->aBuffer, pCsr->nBuffer);
|
||||
aNew = sqlite3_realloc64(pCsr->aBuffer, pCsr->nBuffer);
|
||||
if( !aNew ){
|
||||
return SQLITE_NOMEM;
|
||||
}
|
||||
@ -190016,7 +190042,8 @@ SQLITE_PRIVATE int sqlite3Fts3SegReaderStep(
|
||||
){
|
||||
pCsr->nDoclist = apSegment[0]->nDoclist;
|
||||
if( fts3SegReaderIsPending(apSegment[0]) ){
|
||||
rc = fts3MsrBufferData(pCsr, apSegment[0]->aDoclist, pCsr->nDoclist);
|
||||
rc = fts3MsrBufferData(pCsr, apSegment[0]->aDoclist,
|
||||
(i64)pCsr->nDoclist);
|
||||
pCsr->aDoclist = pCsr->aBuffer;
|
||||
}else{
|
||||
pCsr->aDoclist = apSegment[0]->aDoclist;
|
||||
@ -190069,7 +190096,8 @@ SQLITE_PRIVATE int sqlite3Fts3SegReaderStep(
|
||||
|
||||
nByte = sqlite3Fts3VarintLen(iDelta) + (isRequirePos?nList+1:0);
|
||||
|
||||
rc = fts3GrowSegReaderBuffer(pCsr, nByte+nDoclist+FTS3_NODE_PADDING);
|
||||
rc = fts3GrowSegReaderBuffer(pCsr,
|
||||
(i64)nByte+nDoclist+FTS3_NODE_PADDING);
|
||||
if( rc ) return rc;
|
||||
|
||||
if( isFirst ){
|
||||
@ -190095,7 +190123,7 @@ SQLITE_PRIVATE int sqlite3Fts3SegReaderStep(
|
||||
fts3SegReaderSort(apSegment, nMerge, j, xCmp);
|
||||
}
|
||||
if( nDoclist>0 ){
|
||||
rc = fts3GrowSegReaderBuffer(pCsr, nDoclist+FTS3_NODE_PADDING);
|
||||
rc = fts3GrowSegReaderBuffer(pCsr, (i64)nDoclist+FTS3_NODE_PADDING);
|
||||
if( rc ) return rc;
|
||||
memset(&pCsr->aBuffer[nDoclist], 0, FTS3_NODE_PADDING);
|
||||
pCsr->aDoclist = pCsr->aBuffer;
|
||||
@ -190808,7 +190836,7 @@ struct NodeReader {
|
||||
static void blobGrowBuffer(Blob *pBlob, int nMin, int *pRc){
|
||||
if( *pRc==SQLITE_OK && nMin>pBlob->nAlloc ){
|
||||
int nAlloc = nMin;
|
||||
char *a = (char *)sqlite3_realloc(pBlob->a, nAlloc);
|
||||
char *a = (char *)sqlite3_realloc64(pBlob->a, nAlloc);
|
||||
if( a ){
|
||||
pBlob->nAlloc = nAlloc;
|
||||
pBlob->a = a;
|
||||
@ -191605,7 +191633,7 @@ static int fts3RepackSegdirLevel(
|
||||
if( nIdx>=nAlloc ){
|
||||
int *aNew;
|
||||
nAlloc += 16;
|
||||
aNew = sqlite3_realloc(aIdx, nAlloc*sizeof(int));
|
||||
aNew = sqlite3_realloc64(aIdx, nAlloc*sizeof(int));
|
||||
if( !aNew ){
|
||||
rc = SQLITE_NOMEM;
|
||||
break;
|
||||
@ -191979,7 +192007,7 @@ SQLITE_PRIVATE int sqlite3Fts3Incrmerge(Fts3Table *p, int nMerge, int nMin){
|
||||
|
||||
/* Allocate space for the cursor, filter and writer objects */
|
||||
const int nAlloc = sizeof(*pCsr) + sizeof(*pFilter) + sizeof(*pWriter);
|
||||
pWriter = (IncrmergeWriter *)sqlite3_malloc(nAlloc);
|
||||
pWriter = (IncrmergeWriter *)sqlite3_malloc64(nAlloc);
|
||||
if( !pWriter ) return SQLITE_NOMEM;
|
||||
pFilter = (Fts3SegFilter *)&pWriter[1];
|
||||
pCsr = (Fts3MultiSegReader *)&pFilter[1];
|
||||
@ -192615,7 +192643,7 @@ SQLITE_PRIVATE int sqlite3Fts3DeferredTokenList(
|
||||
return SQLITE_OK;
|
||||
}
|
||||
|
||||
pRet = (char *)sqlite3_malloc(p->pList->nData);
|
||||
pRet = (char *)sqlite3_malloc64(p->pList->nData);
|
||||
if( !pRet ) return SQLITE_NOMEM;
|
||||
|
||||
nSkip = sqlite3Fts3GetVarint(p->pList->aData, &dummy);
|
||||
@ -192635,7 +192663,7 @@ SQLITE_PRIVATE int sqlite3Fts3DeferToken(
|
||||
int iCol /* Column that token must appear in (or -1) */
|
||||
){
|
||||
Fts3DeferredToken *pDeferred;
|
||||
pDeferred = sqlite3_malloc(sizeof(*pDeferred));
|
||||
pDeferred = sqlite3_malloc64(sizeof(*pDeferred));
|
||||
if( !pDeferred ){
|
||||
return SQLITE_NOMEM;
|
||||
}
|
||||
@ -204817,8 +204845,9 @@ static void icuRegexpFunc(sqlite3_context *p, int nArg, sqlite3_value **apArg){
|
||||
|
||||
if( U_SUCCESS(status) ){
|
||||
sqlite3_set_auxdata(p, 0, pExpr, icuRegexpDelete);
|
||||
}else{
|
||||
assert(!pExpr);
|
||||
pExpr = sqlite3_get_auxdata(p, 0);
|
||||
}
|
||||
if( !pExpr ){
|
||||
icuFunctionError(p, "uregex_open", status);
|
||||
return;
|
||||
}
|
||||
@ -236704,7 +236733,7 @@ static void fts5SourceIdFunc(
|
||||
){
|
||||
assert( nArg==0 );
|
||||
UNUSED_PARAM2(nArg, apUnused);
|
||||
sqlite3_result_text(pCtx, "fts5: 2022-09-05 11:02:23 4635f4a69c8c2a8df242b384a992aea71224e39a2ccab42d8c0b0602f1e826e8", -1, SQLITE_TRANSIENT);
|
||||
sqlite3_result_text(pCtx, "fts5: 2022-09-29 15:55:41 a29f9949895322123f7c38fbe94c649a9d6e6c9cd0c3b41c96d694552f26b309", -1, SQLITE_TRANSIENT);
|
||||
}
|
||||
|
||||
/*
|
||||
|
6
src/3rdparty/sqlite/sqlite3.h
vendored
6
src/3rdparty/sqlite/sqlite3.h
vendored
@ -146,9 +146,9 @@ extern "C" {
|
||||
** [sqlite3_libversion_number()], [sqlite3_sourceid()],
|
||||
** [sqlite_version()] and [sqlite_source_id()].
|
||||
*/
|
||||
#define SQLITE_VERSION "3.39.3"
|
||||
#define SQLITE_VERSION_NUMBER 3039003
|
||||
#define SQLITE_SOURCE_ID "2022-09-05 11:02:23 4635f4a69c8c2a8df242b384a992aea71224e39a2ccab42d8c0b0602f1e826e8"
|
||||
#define SQLITE_VERSION "3.39.4"
|
||||
#define SQLITE_VERSION_NUMBER 3039004
|
||||
#define SQLITE_SOURCE_ID "2022-09-29 15:55:41 a29f9949895322123f7c38fbe94c649a9d6e6c9cd0c3b41c96d694552f26b309"
|
||||
|
||||
/*
|
||||
** CAPI3REF: Run-Time Library Version Numbers
|
||||
|
Loading…
Reference in New Issue
Block a user