FCL/sf/os/persistentdata: comparison persistentstorage/sql/SQLite/vacuum.c

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+:08ec8eefde2f
+/*
+** 2003 April 6
+**
+** 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 used to implement the VACUUM command.
+**
+** Most of the code in this file may be omitted by defining the
+** SQLITE_OMIT_VACUUM macro.
+**
+** $Id: vacuum.c,v 1.81 2008/07/08 19:34:07 drh Exp $
+*/
+#include "sqliteInt.h"
+#include "vdbeInt.h"
+#if !defined(SQLITE_OMIT_VACUUM) && !defined(SQLITE_OMIT_ATTACH)
+/*
+** Execute zSql on database db. Return an error code.
+*/
+static int execSql(sqlite3 *db, const char *zSql){
+sqlite3_stmt *pStmt;
+if( !zSql ){
+return SQLITE_NOMEM;
+}
+if( SQLITE_OK!=sqlite3_prepare(db, zSql, -1, &pStmt, 0) ){
+return sqlite3_errcode(db);
+}
+while( SQLITE_ROW==sqlite3_step(pStmt) ){}
+return sqlite3_finalize(pStmt);
+}
+/*
+** Execute zSql on database db. The statement returns exactly
+** one column. Execute this as SQL on the same database.
+*/
+static int execExecSql(sqlite3 *db, const char *zSql){
+sqlite3_stmt *pStmt;
+int rc;
+rc = sqlite3_prepare(db, zSql, -1, &pStmt, 0);
+if( rc!=SQLITE_OK ) return rc;
+while( SQLITE_ROW==sqlite3_step(pStmt) ){
+rc = execSql(db, (char*)sqlite3_column_text(pStmt, 0));
+if( rc!=SQLITE_OK ){
+sqlite3_finalize(pStmt);
+return rc;
+}
+}
+return sqlite3_finalize(pStmt);
+}
+/*
+** The non-standard VACUUM command is used to clean up the database,
+** collapse free space, etc.  It is modelled after the VACUUM command
+** in PostgreSQL.
+**
+** In version 1.0.x of SQLite, the VACUUM command would call
+** gdbm_reorganize() on all the database tables.  But beginning
+** with 2.0.0, SQLite no longer uses GDBM so this command has
+** become a no-op.
+*/
+void sqlite3Vacuum(Parse *pParse){
+Vdbe *v = sqlite3GetVdbe(pParse);
+if( v ){
+sqlite3VdbeAddOp2(v, OP_Vacuum, 0, 0);
+}
+return;
+}
+/*
+** This routine implements the OP_Vacuum opcode of the VDBE.
+*/
+int sqlite3RunVacuum(char **pzErrMsg, sqlite3 *db){
+int rc = SQLITE_OK;     /* Return code from service routines */
+Btree *pMain;           /* The database being vacuumed */
+Btree *pTemp;           /* The temporary database we vacuum into */
+char *zSql = 0;         /* SQL statements */
+int saved_flags;        /* Saved value of the db->flags */
+int saved_nChange;      /* Saved value of db->nChange */
+int saved_nTotalChange; /* Saved value of db->nTotalChange */
+Db *pDb = 0;            /* Database to detach at end of vacuum */
+int nRes;
+/* Save the current value of the write-schema flag before setting it. */
+saved_flags = db->flags;
+saved_nChange = db->nChange;
+saved_nTotalChange = db->nTotalChange;
+db->flags |= SQLITE_WriteSchema | SQLITE_IgnoreChecks;
+if( !db->autoCommit ){
+sqlite3SetString(pzErrMsg, db, "cannot VACUUM from within a transaction");
+rc = SQLITE_ERROR;
+goto end_of_vacuum;
+}
+pMain = db->aDb[0].pBt;
+/* Attach the temporary database as 'vacuum_db'. The synchronous pragma
+** can be set to 'off' for this file, as it is not recovered if a crash
+** occurs anyway. The integrity of the database is maintained by a
+** (possibly synchronous) transaction opened on the main database before
+** sqlite3BtreeCopyFile() is called.
+**
+** An optimisation would be to use a non-journaled pager.
+** (Later:) I tried setting "PRAGMA vacuum_db.journal_mode=OFF" but
+** that actually made the VACUUM run slower.  Very little journalling
+** actually occurs when doing a vacuum since the vacuum_db is initially
+** empty.  Only the journal header is written.  Apparently it takes more
+** time to parse and run the PRAGMA to turn journalling off than it does
+** to write the journal header file.
+*/
+zSql = "ATTACH '' AS vacuum_db;";
+rc = execSql(db, zSql);
+if( rc!=SQLITE_OK ) goto end_of_vacuum;
+pDb = &db->aDb[db->nDb-1];
+assert( strcmp(db->aDb[db->nDb-1].zName,"vacuum_db")==0 );
+pTemp = db->aDb[db->nDb-1].pBt;
+nRes = sqlite3BtreeGetReserve(pMain);
+/* A VACUUM cannot change the pagesize of an encrypted database. */
+#ifdef SQLITE_HAS_CODEC
+if( db->nextPagesize ){
+extern void sqlite3CodecGetKey(sqlite3*, int, void**, int*);
+int nKey;
+char *zKey;
+sqlite3CodecGetKey(db, 0, (void**)&zKey, &nKey);
+if( nKey ) db->nextPagesize = 0;
+}
+#endif
+if( sqlite3BtreeSetPageSize(pTemp, sqlite3BtreeGetPageSize(pMain), nRes)
+|| sqlite3BtreeSetPageSize(pTemp, db->nextPagesize, nRes)
+|| db->mallocFailed
+){
+rc = SQLITE_NOMEM;
+goto end_of_vacuum;
+}
+rc = execSql(db, "PRAGMA vacuum_db.synchronous=OFF");
+if( rc!=SQLITE_OK ){
+goto end_of_vacuum;
+}
+#ifndef SQLITE_OMIT_AUTOVACUUM
+sqlite3BtreeSetAutoVacuum(pTemp, db->nextAutovac>=0 ? db->nextAutovac :
+sqlite3BtreeGetAutoVacuum(pMain));
+#endif
+/* Begin a transaction */
+rc = execSql(db, "BEGIN EXCLUSIVE;");
+if( rc!=SQLITE_OK ) goto end_of_vacuum;
+/* Query the schema of the main database. Create a mirror schema
+** in the temporary database.
+*/
+rc = execExecSql(db,
+"SELECT 'CREATE TABLE vacuum_db.' || substr(sql,14) "
+"  FROM sqlite_master WHERE type='table' AND name!='sqlite_sequence'"
+"   AND rootpage>0"
+);
+if( rc!=SQLITE_OK ) goto end_of_vacuum;
+rc = execExecSql(db,
+"SELECT 'CREATE INDEX vacuum_db.' || substr(sql,14)"
+"  FROM sqlite_master WHERE sql LIKE 'CREATE INDEX %' ");
+if( rc!=SQLITE_OK ) goto end_of_vacuum;
+rc = execExecSql(db,
+"SELECT 'CREATE UNIQUE INDEX vacuum_db.' || substr(sql,21) "
+"  FROM sqlite_master WHERE sql LIKE 'CREATE UNIQUE INDEX %'");
+if( rc!=SQLITE_OK ) goto end_of_vacuum;
+/* Loop through the tables in the main database. For each, do
+** an "INSERT INTO vacuum_db.xxx SELECT * FROM xxx;" to copy
+** the contents to the temporary database.
+*/
+rc = execExecSql(db,
+"SELECT 'INSERT INTO vacuum_db.' || quote(name) "
+"|| ' SELECT * FROM ' || quote(name) || ';'"
+"FROM sqlite_master "
+"WHERE type = 'table' AND name!='sqlite_sequence' "
+"  AND rootpage>0"
+);
+if( rc!=SQLITE_OK ) goto end_of_vacuum;
+/* Copy over the sequence table
+*/
+rc = execExecSql(db,
+"SELECT 'DELETE FROM vacuum_db.' || quote(name) || ';' "
+"FROM vacuum_db.sqlite_master WHERE name='sqlite_sequence' "
+);
+if( rc!=SQLITE_OK ) goto end_of_vacuum;
+rc = execExecSql(db,
+"SELECT 'INSERT INTO vacuum_db.' || quote(name) "
+"|| ' SELECT * FROM ' || quote(name) || ';' "
+"FROM vacuum_db.sqlite_master WHERE name=='sqlite_sequence';"
+);
+if( rc!=SQLITE_OK ) goto end_of_vacuum;
+/* Copy the triggers, views, and virtual tables from the main database
+** over to the temporary database.  None of these objects has any
+** associated storage, so all we have to do is copy their entries
+** from the SQLITE_MASTER table.
+*/
+rc = execSql(db,
+"INSERT INTO vacuum_db.sqlite_master "
+"  SELECT type, name, tbl_name, rootpage, sql"
+"    FROM sqlite_master"
+"   WHERE type='view' OR type='trigger'"
+"      OR (type='table' AND rootpage=0)"
+);
+if( rc ) goto end_of_vacuum;
+/* At this point, unless the main db was completely empty, there is now a
+** transaction open on the vacuum database, but not on the main database.
+** Open a btree level transaction on the main database. This allows a
+** call to sqlite3BtreeCopyFile(). The main database btree level
+** transaction is then committed, so the SQL level never knows it was
+** opened for writing. This way, the SQL transaction used to create the
+** temporary database never needs to be committed.
+*/
+if( rc==SQLITE_OK ){
+u32 meta;
+int i;
+/* This array determines which meta meta values are preserved in the
+** vacuum.  Even entries are the meta value number and odd entries
+** are an increment to apply to the meta value after the vacuum.
+** The increment is used to increase the schema cookie so that other
+** connections to the same database will know to reread the schema.
+*/
+static const unsigned char aCopy[] = {
+1, 1,    /* Add one to the old schema cookie */
+3, 0,    /* Preserve the default page cache size */
+5, 0,    /* Preserve the default text encoding */
+6, 0,    /* Preserve the user version */
+};
+assert( 1==sqlite3BtreeIsInTrans(pTemp) );
+assert( 1==sqlite3BtreeIsInTrans(pMain) );
+/* Copy Btree meta values */
+for(i=0; i<sizeof(aCopy)/sizeof(aCopy[0]); i+=2){
+rc = sqlite3BtreeGetMeta(pMain, aCopy[i], &meta);
+if( rc!=SQLITE_OK ) goto end_of_vacuum;
+rc = sqlite3BtreeUpdateMeta(pTemp, aCopy[i], meta+aCopy[i+1]);
+if( rc!=SQLITE_OK ) goto end_of_vacuum;
+}
+rc = sqlite3BtreeCopyFile(pMain, pTemp);
+if( rc!=SQLITE_OK ) goto end_of_vacuum;
+rc = sqlite3BtreeCommit(pTemp);
+if( rc!=SQLITE_OK ) goto end_of_vacuum;
+rc = sqlite3BtreeCommit(pMain);
+}
+if( rc==SQLITE_OK ){
+rc = sqlite3BtreeSetPageSize(pMain, sqlite3BtreeGetPageSize(pTemp), nRes);
+}
+end_of_vacuum:
+/* Restore the original value of db->flags */
+db->flags = saved_flags;
+db->nChange = saved_nChange;
+db->nTotalChange = saved_nTotalChange;
+/* Currently there is an SQL level transaction open on the vacuum
+** database. No locks are held on any other files (since the main file
+** was committed at the btree level). So it safe to end the transaction
+** by manually setting the autoCommit flag to true and detaching the
+** vacuum database. The vacuum_db journal file is deleted when the pager
+** is closed by the DETACH.
+*/
+db->autoCommit = 1;
+if( pDb ){
+sqlite3BtreeClose(pDb->pBt);
+pDb->pBt = 0;
+pDb->pSchema = 0;
+}
+sqlite3ResetInternalSchema(db, 0);
+return rc;
+}
+#endif  /* SQLITE_OMIT_VACUUM && SQLITE_OMIT_ATTACH */