mirror of
https://github.com/tursodatabase/libsql.git
synced 2024-11-27 06:58:59 +00:00
611 lines
18 KiB
C
611 lines
18 KiB
C
/*
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** 2016-05-05
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**
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** The author disclaims copyright to this source code. In place of
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** a legal notice, here is a blessing:
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**
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** May you do good and not evil.
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** May you find forgiveness for yourself and forgive others.
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** May you share freely, never taking more than you give.
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**
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******************************************************************************
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**
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** This file implements a utility function (and a utility program) that
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** makes a copy of an SQLite database while simultaneously zeroing out all
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** deleted content.
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**
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** Normally (when PRAGMA secure_delete=OFF, which is the default) when SQLite
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** deletes content, it does not overwrite the deleted content but rather marks
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** the region of the file that held that content as being reusable. This can
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** cause deleted content to recoverable from the database file. This stale
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** content is removed by the VACUUM command, but VACUUM can be expensive for
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** large databases. When in PRAGMA secure_delete=ON mode, the deleted content
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** is zeroed, but secure_delete=ON has overhead as well.
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**
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** This utility attempts to make a copy of a complete SQLite database where
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** all of the deleted content is zeroed out in the copy, and it attempts to
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** do so while being faster than running VACUUM.
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**
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** Usage:
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**
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** int sqlite3_scrub_backup(
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** const char *zSourceFile, // Source database filename
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** const char *zDestFile, // Destination database filename
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** char **pzErrMsg // Write error message here
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** );
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**
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** Simply call the API above specifying the filename of the source database
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** and the name of the backup copy. The source database must already exist
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** and can be in active use. (A read lock is held during the backup.) The
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** destination file should not previously exist. If the pzErrMsg parameter
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** is non-NULL and if an error occurs, then an error message might be written
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** into memory obtained from sqlite3_malloc() and *pzErrMsg made to point to
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** that error message. But if the error is an OOM, the error might not be
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** reported. The routine always returns non-zero if there is an error.
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**
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** If compiled with -DSCRUB_STANDALONE then a main() procedure is added and
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** this file becomes a standalone program that can be run as follows:
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**
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** ./sqlite3scrub SOURCE DEST
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*/
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#include "sqlite3.h"
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#include <assert.h>
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#include <stdio.h>
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#include <stdlib.h>
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#include <stdarg.h>
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#include <string.h>
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typedef struct ScrubState ScrubState;
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typedef unsigned char u8;
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typedef unsigned short u16;
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typedef unsigned int u32;
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/* State information for a scrub-and-backup operation */
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struct ScrubState {
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const char *zSrcFile; /* Name of the source file */
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const char *zDestFile; /* Name of the destination file */
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int rcErr; /* Error code */
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char *zErr; /* Error message text */
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sqlite3 *dbSrc; /* Source database connection */
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sqlite3_file *pSrc; /* Source file handle */
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sqlite3 *dbDest; /* Destination database connection */
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sqlite3_file *pDest; /* Destination file handle */
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u32 szPage; /* Page size */
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u32 szUsable; /* Usable bytes on each page */
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u32 nPage; /* Number of pages */
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u32 iLastPage; /* Page number of last page written so far*/
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u8 *page1; /* Content of page 1 */
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};
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/* Store an error message */
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static void scrubBackupErr(ScrubState *p, const char *zFormat, ...){
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va_list ap;
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sqlite3_free(p->zErr);
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va_start(ap, zFormat);
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p->zErr = sqlite3_vmprintf(zFormat, ap);
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va_end(ap);
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if( p->rcErr==0 ) p->rcErr = SQLITE_ERROR;
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}
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/* Allocate memory to hold a single page of content */
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static u8 *scrubBackupAllocPage(ScrubState *p){
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u8 *pPage;
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if( p->rcErr ) return 0;
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pPage = sqlite3_malloc( p->szPage );
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if( pPage==0 ) p->rcErr = SQLITE_NOMEM;
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return pPage;
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}
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/* Read a page from the source database into memory. Use the memory
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** provided by pBuf if not NULL or allocate a new page if pBuf==NULL.
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*/
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static u8 *scrubBackupRead(ScrubState *p, int pgno, u8 *pBuf){
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int rc;
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sqlite3_int64 iOff;
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u8 *pOut = pBuf;
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if( p->rcErr ) return 0;
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if( pOut==0 ){
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pOut = scrubBackupAllocPage(p);
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if( pOut==0 ) return 0;
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}
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iOff = (pgno-1)*(sqlite3_int64)p->szPage;
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rc = p->pSrc->pMethods->xRead(p->pSrc, pOut, p->szPage, iOff);
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if( rc!=SQLITE_OK ){
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if( pBuf==0 ) sqlite3_free(pOut);
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pOut = 0;
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scrubBackupErr(p, "read failed for page %d", pgno);
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p->rcErr = SQLITE_IOERR;
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}
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return pOut;
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}
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/* Write a page to the destination database */
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static void scrubBackupWrite(ScrubState *p, int pgno, const u8 *pData){
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int rc;
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sqlite3_int64 iOff;
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if( p->rcErr ) return;
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iOff = (pgno-1)*(sqlite3_int64)p->szPage;
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rc = p->pDest->pMethods->xWrite(p->pDest, pData, p->szPage, iOff);
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if( rc!=SQLITE_OK ){
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scrubBackupErr(p, "write failed for page %d", pgno);
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p->rcErr = SQLITE_IOERR;
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}
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if( (u32)pgno>p->iLastPage ) p->iLastPage = pgno;
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}
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/* Prepare a statement against the "db" database. */
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static sqlite3_stmt *scrubBackupPrepare(
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ScrubState *p, /* Backup context */
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sqlite3 *db, /* Database to prepare against */
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const char *zSql /* SQL statement */
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){
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sqlite3_stmt *pStmt;
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if( p->rcErr ) return 0;
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p->rcErr = sqlite3_prepare_v2(db, zSql, -1, &pStmt, 0);
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if( p->rcErr ){
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scrubBackupErr(p, "SQL error \"%s\" on \"%s\"",
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sqlite3_errmsg(db), zSql);
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sqlite3_finalize(pStmt);
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return 0;
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}
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return pStmt;
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}
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/* Open the source database file */
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static void scrubBackupOpenSrc(ScrubState *p){
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sqlite3_stmt *pStmt;
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int rc;
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/* Open the source database file */
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p->rcErr = sqlite3_open_v2(p->zSrcFile, &p->dbSrc,
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SQLITE_OPEN_READWRITE |
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SQLITE_OPEN_URI | SQLITE_OPEN_PRIVATECACHE, 0);
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if( p->rcErr ){
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scrubBackupErr(p, "cannot open source database: %s",
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sqlite3_errmsg(p->dbSrc));
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return;
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}
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p->rcErr = sqlite3_exec(p->dbSrc, "SELECT 1 FROM sqlite_schema; BEGIN;",
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0, 0, 0);
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if( p->rcErr ){
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scrubBackupErr(p,
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"cannot start a read transaction on the source database: %s",
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sqlite3_errmsg(p->dbSrc));
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return;
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}
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rc = sqlite3_wal_checkpoint_v2(p->dbSrc, "main", SQLITE_CHECKPOINT_FULL,
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0, 0);
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if( rc ){
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scrubBackupErr(p, "cannot checkpoint the source database");
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return;
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}
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pStmt = scrubBackupPrepare(p, p->dbSrc, "PRAGMA page_size");
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if( pStmt==0 ) return;
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rc = sqlite3_step(pStmt);
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if( rc==SQLITE_ROW ){
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p->szPage = sqlite3_column_int(pStmt, 0);
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}else{
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scrubBackupErr(p, "unable to determine the page size");
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}
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sqlite3_finalize(pStmt);
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if( p->rcErr ) return;
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pStmt = scrubBackupPrepare(p, p->dbSrc, "PRAGMA page_count");
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if( pStmt==0 ) return;
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rc = sqlite3_step(pStmt);
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if( rc==SQLITE_ROW ){
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p->nPage = sqlite3_column_int(pStmt, 0);
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}else{
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scrubBackupErr(p, "unable to determine the size of the source database");
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}
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sqlite3_finalize(pStmt);
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sqlite3_file_control(p->dbSrc, "main", SQLITE_FCNTL_FILE_POINTER, &p->pSrc);
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if( p->pSrc==0 || p->pSrc->pMethods==0 ){
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scrubBackupErr(p, "cannot get the source file handle");
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p->rcErr = SQLITE_ERROR;
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}
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}
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/* Create and open the destination file */
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static void scrubBackupOpenDest(ScrubState *p){
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sqlite3_stmt *pStmt;
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int rc;
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char *zSql;
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if( p->rcErr ) return;
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p->rcErr = sqlite3_open_v2(p->zDestFile, &p->dbDest,
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SQLITE_OPEN_READWRITE | SQLITE_OPEN_CREATE |
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SQLITE_OPEN_URI | SQLITE_OPEN_PRIVATECACHE, 0);
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if( p->rcErr ){
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scrubBackupErr(p, "cannot open destination database: %s",
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sqlite3_errmsg(p->dbDest));
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return;
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}
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zSql = sqlite3_mprintf("PRAGMA page_size(%u);", p->szPage);
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if( zSql==0 ){
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p->rcErr = SQLITE_NOMEM;
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return;
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}
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p->rcErr = sqlite3_exec(p->dbDest, zSql, 0, 0, 0);
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sqlite3_free(zSql);
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if( p->rcErr ){
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scrubBackupErr(p,
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"cannot set the page size on the destination database: %s",
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sqlite3_errmsg(p->dbDest));
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return;
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}
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sqlite3_exec(p->dbDest, "PRAGMA journal_mode=OFF;", 0, 0, 0);
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p->rcErr = sqlite3_exec(p->dbDest, "BEGIN EXCLUSIVE;", 0, 0, 0);
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if( p->rcErr ){
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scrubBackupErr(p,
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"cannot start a write transaction on the destination database: %s",
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sqlite3_errmsg(p->dbDest));
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return;
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}
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pStmt = scrubBackupPrepare(p, p->dbDest, "PRAGMA page_count;");
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if( pStmt==0 ) return;
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rc = sqlite3_step(pStmt);
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if( rc!=SQLITE_ROW ){
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scrubBackupErr(p, "cannot measure the size of the destination");
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}else if( sqlite3_column_int(pStmt, 0)>1 ){
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scrubBackupErr(p, "destination database is not empty - holds %d pages",
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sqlite3_column_int(pStmt, 0));
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}
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sqlite3_finalize(pStmt);
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sqlite3_file_control(p->dbDest, "main", SQLITE_FCNTL_FILE_POINTER, &p->pDest);
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if( p->pDest==0 || p->pDest->pMethods==0 ){
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scrubBackupErr(p, "cannot get the destination file handle");
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p->rcErr = SQLITE_ERROR;
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}
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}
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/* Read a 32-bit big-endian integer */
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static u32 scrubBackupInt32(const u8 *a){
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u32 v = a[3];
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v += ((u32)a[2])<<8;
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v += ((u32)a[1])<<16;
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v += ((u32)a[0])<<24;
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return v;
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}
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/* Read a 16-bit big-endian integer */
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static u32 scrubBackupInt16(const u8 *a){
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return (a[0]<<8) + a[1];
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}
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/*
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** Read a varint. Put the value in *pVal and return the number of bytes.
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*/
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static int scrubBackupVarint(const u8 *z, sqlite3_int64 *pVal){
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sqlite3_int64 v = 0;
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int i;
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for(i=0; i<8; i++){
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v = (v<<7) + (z[i]&0x7f);
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if( (z[i]&0x80)==0 ){ *pVal = v; return i+1; }
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}
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v = (v<<8) + (z[i]&0xff);
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*pVal = v;
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return 9;
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}
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/*
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** Return the number of bytes in a varint.
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*/
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static int scrubBackupVarintSize(const u8 *z){
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int i;
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for(i=0; i<8; i++){
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if( (z[i]&0x80)==0 ){ return i+1; }
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}
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return 9;
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}
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/*
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** Copy the freelist trunk page given, and all its descendents,
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** zeroing out as much as possible in the process.
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*/
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static void scrubBackupFreelist(ScrubState *p, int pgno, u32 nFree){
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u8 *a, *aBuf;
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u32 n, mx;
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if( p->rcErr ) return;
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aBuf = scrubBackupAllocPage(p);
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if( aBuf==0 ) return;
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while( pgno && nFree){
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a = scrubBackupRead(p, pgno, aBuf);
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if( a==0 ) break;
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n = scrubBackupInt32(&a[4]);
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mx = p->szUsable/4 - 2;
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if( n<mx ){
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memset(&a[n*4+8], 0, 4*(mx-n));
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}
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scrubBackupWrite(p, pgno, a);
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pgno = scrubBackupInt32(a);
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#if 0
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/* There is really no point in copying the freelist leaf pages.
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** Simply leave them uninitialized in the destination database. The
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** OS filesystem should zero those pages for us automatically.
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*/
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for(i=0; i<n && nFree; i++){
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u32 iLeaf = scrubBackupInt32(&a[i*4+8]);
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if( aZero==0 ){
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aZero = scrubBackupAllocPage(p);
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if( aZero==0 ){ pgno = 0; break; }
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memset(aZero, 0, p->szPage);
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}
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scrubBackupWrite(p, iLeaf, aZero);
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nFree--;
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}
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#endif
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}
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sqlite3_free(aBuf);
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}
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/*
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** Copy an overflow chain from source to destination. Zero out any
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** unused tail at the end of the overflow chain.
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*/
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static void scrubBackupOverflow(ScrubState *p, int pgno, u32 nByte){
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u8 *a, *aBuf;
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aBuf = scrubBackupAllocPage(p);
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if( aBuf==0 ) return;
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while( nByte>0 && pgno!=0 ){
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a = scrubBackupRead(p, pgno, aBuf);
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if( a==0 ) break;
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if( nByte >= (p->szUsable)-4 ){
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nByte -= (p->szUsable) - 4;
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}else{
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u32 x = (p->szUsable - 4) - nByte;
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u32 i = p->szUsable - x;
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memset(&a[i], 0, x);
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nByte = 0;
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}
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scrubBackupWrite(p, pgno, a);
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pgno = scrubBackupInt32(a);
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}
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sqlite3_free(aBuf);
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}
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/*
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** Copy B-Tree page pgno, and all of its children, from source to destination.
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** Zero out deleted content during the copy.
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*/
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static void scrubBackupBtree(ScrubState *p, int pgno, int iDepth){
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u8 *a;
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u32 i, n, pc;
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u32 nCell;
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u32 nPrefix;
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u32 szHdr;
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u32 iChild;
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u8 *aTop;
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u8 *aCell;
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u32 x, y;
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int ln = 0;
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if( p->rcErr ) return;
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if( iDepth>50 ){
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scrubBackupErr(p, "corrupt: b-tree too deep at page %d", pgno);
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return;
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}
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if( pgno==1 ){
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a = p->page1;
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}else{
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a = scrubBackupRead(p, pgno, 0);
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if( a==0 ) return;
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}
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nPrefix = pgno==1 ? 100 : 0;
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aTop = &a[nPrefix];
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szHdr = 8 + 4*(aTop[0]==0x02 || aTop[0]==0x05);
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aCell = aTop + szHdr;
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nCell = scrubBackupInt16(&aTop[3]);
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/* Zero out the gap between the cell index and the start of the
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** cell content area */
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x = scrubBackupInt16(&aTop[5]); /* First byte of cell content area */
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if( x>p->szUsable ){ ln=__LINE__; goto btree_corrupt; }
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y = szHdr + nPrefix + nCell*2;
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if( y>x ){ ln=__LINE__; goto btree_corrupt; }
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if( y<x ) memset(a+y, 0, x-y); /* Zero the gap */
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/* Zero out all the free blocks */
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pc = scrubBackupInt16(&aTop[1]);
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if( pc>0 && pc<x ){ ln=__LINE__; goto btree_corrupt; }
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while( pc ){
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if( pc>(p->szUsable)-4 ){ ln=__LINE__; goto btree_corrupt; }
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n = scrubBackupInt16(&a[pc+2]);
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if( pc+n>(p->szUsable) ){ ln=__LINE__; goto btree_corrupt; }
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if( n>4 ) memset(&a[pc+4], 0, n-4);
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x = scrubBackupInt16(&a[pc]);
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if( x<pc+4 && x>0 ){ ln=__LINE__; goto btree_corrupt; }
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pc = x;
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}
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/* Write this one page */
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scrubBackupWrite(p, pgno, a);
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/* Walk the tree and process child pages */
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for(i=0; i<nCell; i++){
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u32 X, M, K, nLocal;
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sqlite3_int64 P;
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pc = scrubBackupInt16(&aCell[i*2]);
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if( pc <= szHdr ){ ln=__LINE__; goto btree_corrupt; }
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if( pc > p->szUsable-3 ){ ln=__LINE__; goto btree_corrupt; }
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if( aTop[0]==0x05 || aTop[0]==0x02 ){
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if( pc+4 > p->szUsable ){ ln=__LINE__; goto btree_corrupt; }
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iChild = scrubBackupInt32(&a[pc]);
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pc += 4;
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scrubBackupBtree(p, iChild, iDepth+1);
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if( aTop[0]==0x05 ) continue;
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}
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pc += scrubBackupVarint(&a[pc], &P);
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if( pc >= p->szUsable ){ ln=__LINE__; goto btree_corrupt; }
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if( aTop[0]==0x0d ){
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X = p->szUsable - 35;
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}else{
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X = ((p->szUsable - 12)*64/255) - 23;
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}
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if( P<=X ){
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/* All content is local. No overflow */
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continue;
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}
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M = ((p->szUsable - 12)*32/255)-23;
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K = M + ((P-M)%(p->szUsable-4));
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if( aTop[0]==0x0d ){
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pc += scrubBackupVarintSize(&a[pc]);
|
|
if( pc > (p->szUsable-4) ){ ln=__LINE__; goto btree_corrupt; }
|
|
}
|
|
nLocal = K<=X ? K : M;
|
|
if( pc+nLocal > p->szUsable-4 ){ ln=__LINE__; goto btree_corrupt; }
|
|
iChild = scrubBackupInt32(&a[pc+nLocal]);
|
|
scrubBackupOverflow(p, iChild, (u32)(P-nLocal));
|
|
}
|
|
|
|
/* Walk the right-most tree */
|
|
if( aTop[0]==0x05 || aTop[0]==0x02 ){
|
|
iChild = scrubBackupInt32(&aTop[8]);
|
|
scrubBackupBtree(p, iChild, iDepth+1);
|
|
}
|
|
|
|
/* All done */
|
|
if( pgno>1 ) sqlite3_free(a);
|
|
return;
|
|
|
|
btree_corrupt:
|
|
scrubBackupErr(p, "corruption on page %d of source database (errid=%d)",
|
|
pgno, ln);
|
|
if( pgno>1 ) sqlite3_free(a);
|
|
}
|
|
|
|
/*
|
|
** Copy all ptrmap pages from source to destination.
|
|
** This routine is only called if the source database is in autovacuum
|
|
** or incremental vacuum mode.
|
|
*/
|
|
static void scrubBackupPtrmap(ScrubState *p){
|
|
u32 pgno = 2;
|
|
u32 J = p->szUsable/5;
|
|
u32 iLock = (1073742335/p->szPage)+1;
|
|
u8 *a, *pBuf;
|
|
if( p->rcErr ) return;
|
|
pBuf = scrubBackupAllocPage(p);
|
|
if( pBuf==0 ) return;
|
|
while( pgno<=p->nPage ){
|
|
a = scrubBackupRead(p, pgno, pBuf);
|
|
if( a==0 ) break;
|
|
scrubBackupWrite(p, pgno, a);
|
|
pgno += J+1;
|
|
if( pgno==iLock ) pgno++;
|
|
}
|
|
sqlite3_free(pBuf);
|
|
}
|
|
|
|
int sqlite3_scrub_backup(
|
|
const char *zSrcFile, /* Source file */
|
|
const char *zDestFile, /* Destination file */
|
|
char **pzErr /* Write error here if non-NULL */
|
|
){
|
|
ScrubState s;
|
|
u32 n, i;
|
|
sqlite3_stmt *pStmt;
|
|
|
|
memset(&s, 0, sizeof(s));
|
|
s.zSrcFile = zSrcFile;
|
|
s.zDestFile = zDestFile;
|
|
|
|
/* Open both source and destination databases */
|
|
scrubBackupOpenSrc(&s);
|
|
scrubBackupOpenDest(&s);
|
|
|
|
/* Read in page 1 */
|
|
s.page1 = scrubBackupRead(&s, 1, 0);
|
|
if( s.page1==0 ) goto scrub_abort;
|
|
s.szUsable = s.szPage - s.page1[20];
|
|
|
|
/* Copy the freelist */
|
|
n = scrubBackupInt32(&s.page1[36]);
|
|
i = scrubBackupInt32(&s.page1[32]);
|
|
if( n ) scrubBackupFreelist(&s, i, n);
|
|
|
|
/* Copy ptrmap pages */
|
|
n = scrubBackupInt32(&s.page1[52]);
|
|
if( n ) scrubBackupPtrmap(&s);
|
|
|
|
/* Copy all of the btrees */
|
|
scrubBackupBtree(&s, 1, 0);
|
|
pStmt = scrubBackupPrepare(&s, s.dbSrc,
|
|
"SELECT rootpage FROM sqlite_schema WHERE coalesce(rootpage,0)>0");
|
|
if( pStmt==0 ) goto scrub_abort;
|
|
while( sqlite3_step(pStmt)==SQLITE_ROW ){
|
|
i = (u32)sqlite3_column_int(pStmt, 0);
|
|
scrubBackupBtree(&s, i, 0);
|
|
}
|
|
sqlite3_finalize(pStmt);
|
|
|
|
/* If the last page of the input db file is a free-list leaf, then the
|
|
** backup file on disk is still smaller than the size indicated within
|
|
** the database header. In this case, write a page of zeroes to the
|
|
** last page of the backup database so that SQLite does not mistakenly
|
|
** think the db is corrupt. */
|
|
if( s.iLastPage<s.nPage ){
|
|
u8 *aZero = scrubBackupAllocPage(&s);
|
|
if( aZero ){
|
|
memset(aZero, 0, s.szPage);
|
|
scrubBackupWrite(&s, s.nPage, aZero);
|
|
sqlite3_free(aZero);
|
|
}
|
|
}
|
|
|
|
scrub_abort:
|
|
/* Close the destination database without closing the transaction. If we
|
|
** commit, page zero will be overwritten. */
|
|
sqlite3_close(s.dbDest);
|
|
|
|
/* But do close out the read-transaction on the source database */
|
|
sqlite3_exec(s.dbSrc, "COMMIT;", 0, 0, 0);
|
|
sqlite3_close(s.dbSrc);
|
|
sqlite3_free(s.page1);
|
|
if( pzErr ){
|
|
*pzErr = s.zErr;
|
|
}else{
|
|
sqlite3_free(s.zErr);
|
|
}
|
|
return s.rcErr;
|
|
}
|
|
|
|
#ifdef SCRUB_STANDALONE
|
|
/* Error and warning log */
|
|
static void errorLogCallback(void *pNotUsed, int iErr, const char *zMsg){
|
|
const char *zType;
|
|
switch( iErr&0xff ){
|
|
case SQLITE_WARNING: zType = "WARNING"; break;
|
|
case SQLITE_NOTICE: zType = "NOTICE"; break;
|
|
default: zType = "ERROR"; break;
|
|
}
|
|
fprintf(stderr, "%s: %s\n", zType, zMsg);
|
|
}
|
|
|
|
/* The main() routine when this utility is run as a stand-alone program */
|
|
int main(int argc, char **argv){
|
|
char *zErr = 0;
|
|
int rc;
|
|
if( argc!=3 ){
|
|
fprintf(stderr,"Usage: %s SOURCE DESTINATION\n", argv[0]);
|
|
exit(1);
|
|
}
|
|
sqlite3_config(SQLITE_CONFIG_LOG, errorLogCallback, 0);
|
|
rc = sqlite3_scrub_backup(argv[1], argv[2], &zErr);
|
|
if( rc==SQLITE_NOMEM ){
|
|
fprintf(stderr, "%s: out of memory\n", argv[0]);
|
|
exit(1);
|
|
}
|
|
if( zErr ){
|
|
fprintf(stderr, "%s: %s\n", argv[0], zErr);
|
|
sqlite3_free(zErr);
|
|
exit(1);
|
|
}
|
|
return 0;
|
|
}
|
|
#endif
|