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/*
** 2004 May 22
**
** 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 that modified the OS layer in order to simulate
** the effect on the database file of an OS crash or power failure. This
** is used to test the ability of SQLite to recover from those situations.
*/
#if SQLITE_TEST /* This file is used for testing only */
#include "sqliteInt.h"
#include "tcl.h"
#ifndef SQLITE_OMIT_DISKIO /* This file is a no-op if disk I/O is disabled */
/* #define TRACE_CRASHTEST */
typedef struct CrashFile CrashFile;
typedef struct CrashGlobal CrashGlobal;
typedef struct WriteBuffer WriteBuffer;
/*
** Method:
**
** This layer is implemented as a wrapper around the "real"
** sqlite3_file object for the host system. Each time data is
** written to the file object, instead of being written to the
** underlying file, the write operation is stored in an in-memory
** structure (type WriteBuffer). This structure is placed at the
** end of a global ordered list (the write-list).
**
** When data is read from a file object, the requested region is
** first retrieved from the real file. The write-list is then
** traversed and data copied from any overlapping WriteBuffer
** structures to the output buffer. i.e. a read() operation following
** one or more write() operations works as expected, even if no
** data has actually been written out to the real file.
**
** When a fsync() operation is performed, an operating system crash
** may be simulated, in which case exit(-1) is called (the call to
** xSync() never returns). Whether or not a crash is simulated,
** the data associated with a subset of the WriteBuffer structures
** stored in the write-list is written to the real underlying files
** and the entries removed from the write-list. If a crash is simulated,
** a subset of the buffers may be corrupted before the data is written.
**
** The exact subset of the write-list written and/or corrupted is
** determined by the simulated device characteristics and sector-size.
**
** "Normal" mode:
**
** Normal mode is used when the simulated device has none of the
** SQLITE_IOCAP_XXX flags set.
**
** In normal mode, if the fsync() is not a simulated crash, the
** write-list is traversed from beginning to end. Each WriteBuffer
** structure associated with the file handle used to call xSync()
** is written to the real file and removed from the write-list.
**
** If a crash is simulated, one of the following takes place for
** each WriteBuffer in the write-list, regardless of which
** file-handle it is associated with:
**
** 1. The buffer is correctly written to the file, just as if
** a crash were not being simulated.
**
** 2. Nothing is done.
**
** 3. Garbage data is written to all sectors of the file that
** overlap the region specified by the WriteBuffer. Or garbage
** data is written to some contiguous section within the
** overlapped sectors.
**
** Device Characteristic flag handling:
**
** If the IOCAP_ATOMIC flag is set, then option (3) above is
** never selected.
**
** If the IOCAP_ATOMIC512 flag is set, and the WriteBuffer represents
** an aligned write() of an integer number of 512 byte regions, then
** option (3) above is never selected. Instead, each 512 byte region
** is either correctly written or left completely untouched. Similar
** logic governs the behaviour if any of the other ATOMICXXX flags
** is set.
**
** If either the IOCAP_SAFEAPPEND or IOCAP_SEQUENTIAL flags are set
** and a crash is being simulated, then an entry of the write-list is
** selected at random. Everything in the list after the selected entry
** is discarded before processing begins.
**
** If IOCAP_SEQUENTIAL is set and a crash is being simulated, option
** (1) is selected for all write-list entries except the last. If a
** crash is not being simulated, then all entries in the write-list
** that occur before at least one write() on the file-handle specified
** as part of the xSync() are written to their associated real files.
**
** If IOCAP_SAFEAPPEND is set and the first byte written by the write()
** operation is one byte past the current end of the file, then option
** (1) is always selected.
*/
/*
** Each write operation in the write-list is represented by an instance
** of the following structure.
**
** If zBuf is 0, then this structure represents a call to xTruncate(),
** not xWrite(). In that case, iOffset is the size that the file is
** truncated to.
*/
struct WriteBuffer {
i64 iOffset; /* Byte offset of the start of this write() */
int nBuf; /* Number of bytes written */
u8 *zBuf; /* Pointer to copy of written data */
CrashFile *pFile; /* File this write() applies to */
WriteBuffer *pNext; /* Next in CrashGlobal.pWriteList */
};
struct CrashFile {
const sqlite3_io_methods *pMethod; /* Must be first */
sqlite3_file *pRealFile; /* Underlying "real" file handle */
char *zName;
int flags; /* Flags the file was opened with */
/* Cache of the entire file. This is used to speed up OsRead() and
** OsFileSize() calls. Although both could be done by traversing the
** write-list, in practice this is impractically slow.
*/
int iSize; /* Size of file in bytes */
int nData; /* Size of buffer allocated at zData */
u8 *zData; /* Buffer containing file contents */
};
struct CrashGlobal {
WriteBuffer *pWriteList; /* Head of write-list */
WriteBuffer *pWriteListEnd; /* End of write-list */
int iSectorSize; /* Value of simulated sector size */
int iDeviceCharacteristics; /* Value of simulated device characteristics */
int iCrash; /* Crash on the iCrash'th call to xSync() */
char zCrashFile[500]; /* Crash during an xSync() on this file */
};
static CrashGlobal g = {0, 0, SQLITE_DEFAULT_SECTOR_SIZE, 0, 0};
/*
** Set this global variable to 1 to enable crash testing.
*/
static int sqlite3CrashTestEnable = 0;
static void *crash_malloc(int nByte){
return (void *)Tcl_Alloc((size_t)nByte);
}
static void crash_free(void *p){
Tcl_Free(p);
}
static void *crash_realloc(void *p, int n){
return (void *)Tcl_Realloc(p, (size_t)n);
}
/*
** Wrapper around the sqlite3OsWrite() function that avoids writing to the
** 512 byte block begining at offset PENDING_BYTE.
*/
static int writeDbFile(CrashFile *p, u8 *z, i64 iAmt, i64 iOff){
int rc = SQLITE_OK;
int iSkip = 0;
if( iOff==PENDING_BYTE && (p->flags&SQLITE_OPEN_MAIN_DB) ){
iSkip = 512;
}
if( (iAmt-iSkip)>0 ){
rc = sqlite3OsWrite(p->pRealFile, &z[iSkip], (int)(iAmt-iSkip), iOff+iSkip);
}
return rc;
}
/*
** Flush the write-list as if xSync() had been called on file handle
** pFile. If isCrash is true, simulate a crash.
*/
static int writeListSync(CrashFile *pFile, int isCrash){
int rc = SQLITE_OK;
int iDc = g.iDeviceCharacteristics;
WriteBuffer *pWrite;
WriteBuffer **ppPtr;
/* If this is not a crash simulation, set pFinal to point to the
** last element of the write-list that is associated with file handle
** pFile.
**
** If this is a crash simulation, set pFinal to an arbitrarily selected
** element of the write-list.
*/
WriteBuffer *pFinal = 0;
if( !isCrash ){
for(pWrite=g.pWriteList; pWrite; pWrite=pWrite->pNext){
if( pWrite->pFile==pFile ){
pFinal = pWrite;
}
}
}else if( iDc&(SQLITE_IOCAP_SEQUENTIAL|SQLITE_IOCAP_SAFE_APPEND) ){
int nWrite = 0;
int iFinal;
for(pWrite=g.pWriteList; pWrite; pWrite=pWrite->pNext) nWrite++;
sqlite3_randomness(sizeof(int), &iFinal);
iFinal = ((iFinal<0)?-1*iFinal:iFinal)%nWrite;
for(pWrite=g.pWriteList; iFinal>0; pWrite=pWrite->pNext) iFinal--;
pFinal = pWrite;
}
#ifdef TRACE_CRASHTEST
printf("Sync %s (is %s crash)\n", pFile->zName, (isCrash?"a":"not a"));
#endif
ppPtr = &g.pWriteList;
for(pWrite=*ppPtr; rc==SQLITE_OK && pWrite; pWrite=*ppPtr){
sqlite3_file *pRealFile = pWrite->pFile->pRealFile;
/* (eAction==1) -> write block out normally,
** (eAction==2) -> do nothing,
** (eAction==3) -> trash sectors.
*/
int eAction = 0;
if( !isCrash ){
eAction = 2;
if( (pWrite->pFile==pFile || iDc&SQLITE_IOCAP_SEQUENTIAL) ){
eAction = 1;
}
}else{
char random;
sqlite3_randomness(1, &random);
/* Do not select option 3 (sector trashing) if the IOCAP_ATOMIC flag
** is set or this is an OsTruncate(), not an Oswrite().
*/
if( (iDc&SQLITE_IOCAP_ATOMIC) || (pWrite->zBuf==0) ){
random &= 0x01;
}
/* If IOCAP_SEQUENTIAL is set and this is not the final entry
** in the truncated write-list, always select option 1 (write
** out correctly).
*/
if( (iDc&SQLITE_IOCAP_SEQUENTIAL && pWrite!=pFinal) ){
random = 0;
}
/* If IOCAP_SAFE_APPEND is set and this OsWrite() operation is
** an append (first byte of the written region is 1 byte past the
** current EOF), always select option 1 (write out correctly).
*/
if( iDc&SQLITE_IOCAP_SAFE_APPEND && pWrite->zBuf ){
i64 iSize;
sqlite3OsFileSize(pRealFile, &iSize);
if( iSize==pWrite->iOffset ){
random = 0;
}
}
if( (random&0x06)==0x06 ){
eAction = 3;
}else{
eAction = ((random&0x01)?2:1);
}
}
switch( eAction ){
case 1: { /* Write out correctly */
if( pWrite->zBuf ){
rc = writeDbFile(
pWrite->pFile, pWrite->zBuf, pWrite->nBuf, pWrite->iOffset
);
}else{
rc = sqlite3OsTruncate(pRealFile, pWrite->iOffset);
}
*ppPtr = pWrite->pNext;
#ifdef TRACE_CRASHTEST
if( isCrash ){
printf("Writing %d bytes @ %d (%s)\n",
pWrite->nBuf, (int)pWrite->iOffset, pWrite->pFile->zName
);
}
#endif
crash_free(pWrite);
break;
}
case 2: { /* Do nothing */
ppPtr = &pWrite->pNext;
#ifdef TRACE_CRASHTEST
if( isCrash ){
printf("Omiting %d bytes @ %d (%s)\n",
pWrite->nBuf, (int)pWrite->iOffset, pWrite->pFile->zName
);
}
#endif
break;
}
case 3: { /* Trash sectors */
u8 *zGarbage;
int iFirst = (int)(pWrite->iOffset/g.iSectorSize);
int iLast = (int)((pWrite->iOffset+pWrite->nBuf-1)/g.iSectorSize);
assert(pWrite->zBuf);
#ifdef TRACE_CRASHTEST
printf("Trashing %d sectors @ sector %d (%s)\n",
1+iLast-iFirst, iFirst, pWrite->pFile->zName
);
#endif
zGarbage = crash_malloc(g.iSectorSize);
if( zGarbage ){
sqlite3_int64 i;
for(i=iFirst; rc==SQLITE_OK && i<=iLast; i++){
sqlite3_randomness(g.iSectorSize, zGarbage);
rc = writeDbFile(
pWrite->pFile, zGarbage, g.iSectorSize, i*g.iSectorSize
);
}
crash_free(zGarbage);
}else{
rc = SQLITE_NOMEM;
}
ppPtr = &pWrite->pNext;
break;
}
default:
assert(!"Cannot happen");
}
if( pWrite==pFinal ) break;
}
if( rc==SQLITE_OK && isCrash ){
exit(-1);
}
for(pWrite=g.pWriteList; pWrite && pWrite->pNext; pWrite=pWrite->pNext);
g.pWriteListEnd = pWrite;
return rc;
}
/*
** Add an entry to the end of the write-list.
*/
static int writeListAppend(
sqlite3_file *pFile,
sqlite3_int64 iOffset,
const u8 *zBuf,
int nBuf
){
WriteBuffer *pNew;
assert((zBuf && nBuf) || (!nBuf && !zBuf));
pNew = (WriteBuffer *)crash_malloc(sizeof(WriteBuffer) + nBuf);
if( pNew==0 ){
fprintf(stderr, "out of memory in the crash simulator\n");
}
memset(pNew, 0, sizeof(WriteBuffer)+nBuf);
pNew->iOffset = iOffset;
pNew->nBuf = nBuf;
pNew->pFile = (CrashFile *)pFile;
if( zBuf ){
pNew->zBuf = (u8 *)&pNew[1];
memcpy(pNew->zBuf, zBuf, nBuf);
}
if( g.pWriteList ){
assert(g.pWriteListEnd);
g.pWriteListEnd->pNext = pNew;
}else{
g.pWriteList = pNew;
}
g.pWriteListEnd = pNew;
return SQLITE_OK;
}
/*
** Close a crash-file.
*/
static int cfClose(sqlite3_file *pFile){
CrashFile *pCrash = (CrashFile *)pFile;
writeListSync(pCrash, 0);
sqlite3OsClose(pCrash->pRealFile);
return SQLITE_OK;
}
/*
** Read data from a crash-file.
*/
static int cfRead(
sqlite3_file *pFile,
void *zBuf,
int iAmt,
sqlite_int64 iOfst
){
CrashFile *pCrash = (CrashFile *)pFile;
/* Check the file-size to see if this is a short-read */
if( pCrash->iSize<(iOfst+iAmt) ){
return SQLITE_IOERR_SHORT_READ;
}
memcpy(zBuf, &pCrash->zData[iOfst], iAmt);
return SQLITE_OK;
}
/*
** Write data to a crash-file.
*/
static int cfWrite(
sqlite3_file *pFile,
const void *zBuf,
int iAmt,
sqlite_int64 iOfst
){
CrashFile *pCrash = (CrashFile *)pFile;
if( iAmt+iOfst>pCrash->iSize ){
pCrash->iSize = (int)(iAmt+iOfst);
}
while( pCrash->iSize>pCrash->nData ){
u8 *zNew;
int nNew = (pCrash->nData*2) + 4096;
zNew = crash_realloc(pCrash->zData, nNew);
if( !zNew ){
return SQLITE_NOMEM;
}
memset(&zNew[pCrash->nData], 0, nNew-pCrash->nData);
pCrash->nData = nNew;
pCrash->zData = zNew;
}
memcpy(&pCrash->zData[iOfst], zBuf, iAmt);
return writeListAppend(pFile, iOfst, zBuf, iAmt);
}
/*
** Truncate a crash-file.
*/
static int cfTruncate(sqlite3_file *pFile, sqlite_int64 size){
CrashFile *pCrash = (CrashFile *)pFile;
assert(size>=0);
if( pCrash->iSize>size ){
pCrash->iSize = (int)size;
}
return writeListAppend(pFile, size, 0, 0);
}
/*
** Sync a crash-file.
*/
static int cfSync(sqlite3_file *pFile, int flags){
CrashFile *pCrash = (CrashFile *)pFile;
int isCrash = 0;
const char *zName = pCrash->zName;
const char *zCrashFile = g.zCrashFile;
int nName = (int)strlen(zName);
int nCrashFile = (int)strlen(zCrashFile);
if( nCrashFile>0 && zCrashFile[nCrashFile-1]=='*' ){
nCrashFile--;
if( nName>nCrashFile ) nName = nCrashFile;
}
#ifdef TRACE_CRASHTEST
printf("cfSync(): nName = %d, nCrashFile = %d, zName = %s, zCrashFile = %s\n",
nName, nCrashFile, zName, zCrashFile);
#endif
if( nName==nCrashFile && 0==memcmp(zName, zCrashFile, nName) ){
#ifdef TRACE_CRASHTEST
printf("cfSync(): name matched, g.iCrash = %d\n", g.iCrash);
#endif
if( (--g.iCrash)==0 ) isCrash = 1;
}
return writeListSync(pCrash, isCrash);
}
/*
** Return the current file-size of the crash-file.
*/
static int cfFileSize(sqlite3_file *pFile, sqlite_int64 *pSize){
CrashFile *pCrash = (CrashFile *)pFile;
*pSize = (i64)pCrash->iSize;
return SQLITE_OK;
}
/*
** Calls related to file-locks are passed on to the real file handle.
*/
static int cfLock(sqlite3_file *pFile, int eLock){
return sqlite3OsLock(((CrashFile *)pFile)->pRealFile, eLock);
}
static int cfUnlock(sqlite3_file *pFile, int eLock){
return sqlite3OsUnlock(((CrashFile *)pFile)->pRealFile, eLock);
}
static int cfCheckReservedLock(sqlite3_file *pFile, int *pResOut){
return sqlite3OsCheckReservedLock(((CrashFile *)pFile)->pRealFile, pResOut);
}
static int cfFileControl(sqlite3_file *pFile, int op, void *pArg){
if( op==SQLITE_FCNTL_SIZE_HINT ){
CrashFile *pCrash = (CrashFile *)pFile;
i64 nByte = *(i64 *)pArg;
if( nByte>pCrash->iSize ){
if( SQLITE_OK==writeListAppend(pFile, nByte, 0, 0) ){
pCrash->iSize = (int)nByte;
}
}
return SQLITE_OK;
}
return sqlite3OsFileControl(((CrashFile *)pFile)->pRealFile, op, pArg);
}
/*
** The xSectorSize() and xDeviceCharacteristics() functions return
** the global values configured by the [sqlite_crashparams] tcl
* interface.
*/
static int cfSectorSize(sqlite3_file *pFile){
return g.iSectorSize;
}
static int cfDeviceCharacteristics(sqlite3_file *pFile){
return g.iDeviceCharacteristics;
}
/*
** Pass-throughs for WAL support.
*/
static int cfShmLock(sqlite3_file *pFile, int ofst, int n, int flags){
return sqlite3OsShmLock(((CrashFile*)pFile)->pRealFile, ofst, n, flags);
}
static void cfShmBarrier(sqlite3_file *pFile){
sqlite3OsShmBarrier(((CrashFile*)pFile)->pRealFile);
}
static int cfShmUnmap(sqlite3_file *pFile, int delFlag){
return sqlite3OsShmUnmap(((CrashFile*)pFile)->pRealFile, delFlag);
}
static int cfShmMap(
sqlite3_file *pFile, /* Handle open on database file */
int iRegion, /* Region to retrieve */
int sz, /* Size of regions */
int w, /* True to extend file if necessary */
void volatile **pp /* OUT: Mapped memory */
){
return sqlite3OsShmMap(((CrashFile*)pFile)->pRealFile, iRegion, sz, w, pp);
}
static const sqlite3_io_methods CrashFileVtab = {
2, /* iVersion */
cfClose, /* xClose */
cfRead, /* xRead */
cfWrite, /* xWrite */
cfTruncate, /* xTruncate */
cfSync, /* xSync */
cfFileSize, /* xFileSize */
cfLock, /* xLock */
cfUnlock, /* xUnlock */
cfCheckReservedLock, /* xCheckReservedLock */
cfFileControl, /* xFileControl */
cfSectorSize, /* xSectorSize */
cfDeviceCharacteristics, /* xDeviceCharacteristics */
cfShmMap, /* xShmMap */
cfShmLock, /* xShmLock */
cfShmBarrier, /* xShmBarrier */
cfShmUnmap /* xShmUnmap */
};
/*
** Application data for the crash VFS
*/
struct crashAppData {
sqlite3_vfs *pOrig; /* Wrapped vfs structure */
};
/*
** Open a crash-file file handle.
**
** The caller will have allocated pVfs->szOsFile bytes of space
** at pFile. This file uses this space for the CrashFile structure
** and allocates space for the "real" file structure using
** sqlite3_malloc(). The assumption here is (pVfs->szOsFile) is
** equal or greater than sizeof(CrashFile).
*/
static int cfOpen(
sqlite3_vfs *pCfVfs,
const char *zName,
sqlite3_file *pFile,
int flags,
int *pOutFlags
){
sqlite3_vfs *pVfs = (sqlite3_vfs *)pCfVfs->pAppData;
int rc;
CrashFile *pWrapper = (CrashFile *)pFile;
sqlite3_file *pReal = (sqlite3_file*)&pWrapper[1];
memset(pWrapper, 0, sizeof(CrashFile));
rc = sqlite3OsOpen(pVfs, zName, pReal, flags, pOutFlags);
if( rc==SQLITE_OK ){
i64 iSize;
pWrapper->pMethod = &CrashFileVtab;
pWrapper->zName = (char *)zName;
pWrapper->pRealFile = pReal;
rc = sqlite3OsFileSize(pReal, &iSize);
pWrapper->iSize = (int)iSize;
pWrapper->flags = flags;
}
if( rc==SQLITE_OK ){
pWrapper->nData = (4096 + pWrapper->iSize);
pWrapper->zData = crash_malloc(pWrapper->nData);
if( pWrapper->zData ){
/* os_unix.c contains an assert() that fails if the caller attempts
** to read data from the 512-byte locking region of a file opened
** with the SQLITE_OPEN_MAIN_DB flag. This region of a database file
** never contains valid data anyhow. So avoid doing such a read here.
*/
const int isDb = (flags&SQLITE_OPEN_MAIN_DB);
i64 iChunk = pWrapper->iSize;
if( iChunk>PENDING_BYTE && isDb ){
iChunk = PENDING_BYTE;
}
memset(pWrapper->zData, 0, pWrapper->nData);
rc = sqlite3OsRead(pReal, pWrapper->zData, (int)iChunk, 0);
if( SQLITE_OK==rc && pWrapper->iSize>(PENDING_BYTE+512) && isDb ){
i64 iOff = PENDING_BYTE+512;
iChunk = pWrapper->iSize - iOff;
rc = sqlite3OsRead(pReal, &pWrapper->zData[iOff], (int)iChunk, iOff);
}
}else{
rc = SQLITE_NOMEM;
}
}
if( rc!=SQLITE_OK && pWrapper->pMethod ){
sqlite3OsClose(pFile);
}
return rc;
}
static int cfDelete(sqlite3_vfs *pCfVfs, const char *zPath, int dirSync){
sqlite3_vfs *pVfs = (sqlite3_vfs *)pCfVfs->pAppData;
return pVfs->xDelete(pVfs, zPath, dirSync);
}
static int cfAccess(
sqlite3_vfs *pCfVfs,
const char *zPath,
int flags,
int *pResOut
){
sqlite3_vfs *pVfs = (sqlite3_vfs *)pCfVfs->pAppData;
return pVfs->xAccess(pVfs, zPath, flags, pResOut);
}
static int cfFullPathname(
sqlite3_vfs *pCfVfs,
const char *zPath,
int nPathOut,
char *zPathOut
){
sqlite3_vfs *pVfs = (sqlite3_vfs *)pCfVfs->pAppData;
return pVfs->xFullPathname(pVfs, zPath, nPathOut, zPathOut);
}
static void *cfDlOpen(sqlite3_vfs *pCfVfs, const char *zPath){
sqlite3_vfs *pVfs = (sqlite3_vfs *)pCfVfs->pAppData;
return pVfs->xDlOpen(pVfs, zPath);
}
static void cfDlError(sqlite3_vfs *pCfVfs, int nByte, char *zErrMsg){
sqlite3_vfs *pVfs = (sqlite3_vfs *)pCfVfs->pAppData;
pVfs->xDlError(pVfs, nByte, zErrMsg);
}
static void (*cfDlSym(sqlite3_vfs *pCfVfs, void *pH, const char *zSym))(void){
sqlite3_vfs *pVfs = (sqlite3_vfs *)pCfVfs->pAppData;
return pVfs->xDlSym(pVfs, pH, zSym);
}
static void cfDlClose(sqlite3_vfs *pCfVfs, void *pHandle){
sqlite3_vfs *pVfs = (sqlite3_vfs *)pCfVfs->pAppData;
pVfs->xDlClose(pVfs, pHandle);
}
static int cfRandomness(sqlite3_vfs *pCfVfs, int nByte, char *zBufOut){
sqlite3_vfs *pVfs = (sqlite3_vfs *)pCfVfs->pAppData;
return pVfs->xRandomness(pVfs, nByte, zBufOut);
}
static int cfSleep(sqlite3_vfs *pCfVfs, int nMicro){
sqlite3_vfs *pVfs = (sqlite3_vfs *)pCfVfs->pAppData;
return pVfs->xSleep(pVfs, nMicro);
}
static int cfCurrentTime(sqlite3_vfs *pCfVfs, double *pTimeOut){
sqlite3_vfs *pVfs = (sqlite3_vfs *)pCfVfs->pAppData;
return pVfs->xCurrentTime(pVfs, pTimeOut);
}
static int processDevSymArgs(
Tcl_Interp *interp,
int objc,
Tcl_Obj *CONST objv[],
int *piDeviceChar,
int *piSectorSize
){
struct DeviceFlag {
char *zName;
int iValue;
} aFlag[] = {
{ "atomic", SQLITE_IOCAP_ATOMIC },
{ "atomic512", SQLITE_IOCAP_ATOMIC512 },
{ "atomic1k", SQLITE_IOCAP_ATOMIC1K },
{ "atomic2k", SQLITE_IOCAP_ATOMIC2K },
{ "atomic4k", SQLITE_IOCAP_ATOMIC4K },
{ "atomic8k", SQLITE_IOCAP_ATOMIC8K },
{ "atomic16k", SQLITE_IOCAP_ATOMIC16K },
{ "atomic32k", SQLITE_IOCAP_ATOMIC32K },
{ "atomic64k", SQLITE_IOCAP_ATOMIC64K },
{ "sequential", SQLITE_IOCAP_SEQUENTIAL },
{ "safe_append", SQLITE_IOCAP_SAFE_APPEND },
{ "powersafe_overwrite", SQLITE_IOCAP_POWERSAFE_OVERWRITE },
{ 0, 0 }
};
int i;
int iDc = 0;
int iSectorSize = 0;
int setSectorsize = 0;
int setDeviceChar = 0;
for(i=0; i<objc; i+=2){
int nOpt;
char *zOpt = Tcl_GetStringFromObj(objv[i], &nOpt);
if( (nOpt>11 || nOpt<2 || strncmp("-sectorsize", zOpt, nOpt))
&& (nOpt>16 || nOpt<2 || strncmp("-characteristics", zOpt, nOpt))
){
Tcl_AppendResult(interp,
"Bad option: \"", zOpt,
"\" - must be \"-characteristics\" or \"-sectorsize\"", 0
);
return TCL_ERROR;
}
if( i==objc-1 ){
Tcl_AppendResult(interp, "Option requires an argument: \"", zOpt, "\"",0);
return TCL_ERROR;
}
if( zOpt[1]=='s' ){
if( Tcl_GetIntFromObj(interp, objv[i+1], &iSectorSize) ){
return TCL_ERROR;
}
setSectorsize = 1;
}else{
int j;
Tcl_Obj **apObj;
int nObj;
if( Tcl_ListObjGetElements(interp, objv[i+1], &nObj, &apObj) ){
return TCL_ERROR;
}
for(j=0; j<nObj; j++){
int rc;
int iChoice;
Tcl_Obj *pFlag = Tcl_DuplicateObj(apObj[j]);
Tcl_IncrRefCount(pFlag);
Tcl_UtfToLower(Tcl_GetString(pFlag));
rc = Tcl_GetIndexFromObjStruct(
interp, pFlag, aFlag, sizeof(aFlag[0]), "no such flag", 0, &iChoice
);
Tcl_DecrRefCount(pFlag);
if( rc ){
return TCL_ERROR;
}
iDc |= aFlag[iChoice].iValue;
}
setDeviceChar = 1;
}
}
if( setDeviceChar ){
*piDeviceChar = iDc;
}
if( setSectorsize ){
*piSectorSize = iSectorSize;
}
return TCL_OK;
}
/*
** tclcmd: sqlite_crash_enable ENABLE
**
** Parameter ENABLE must be a boolean value. If true, then the "crash"
** vfs is added to the system. If false, it is removed.
*/
static int crashEnableCmd(
void * clientData,
Tcl_Interp *interp,
int objc,
Tcl_Obj *CONST objv[]
){
int isEnable;
static sqlite3_vfs crashVfs = {
2, /* iVersion */
0, /* szOsFile */
0, /* mxPathname */
0, /* pNext */
"crash", /* zName */
0, /* pAppData */
cfOpen, /* xOpen */
cfDelete, /* xDelete */
cfAccess, /* xAccess */
cfFullPathname, /* xFullPathname */
cfDlOpen, /* xDlOpen */
cfDlError, /* xDlError */
cfDlSym, /* xDlSym */
cfDlClose, /* xDlClose */
cfRandomness, /* xRandomness */
cfSleep, /* xSleep */
cfCurrentTime, /* xCurrentTime */
0, /* xGetlastError */
0, /* xCurrentTimeInt64 */
};
if( objc!=2 ){
Tcl_WrongNumArgs(interp, 1, objv, "ENABLE");
return TCL_ERROR;
}
if( Tcl_GetBooleanFromObj(interp, objv[1], &isEnable) ){
return TCL_ERROR;
}
if( (isEnable && crashVfs.pAppData) || (!isEnable && !crashVfs.pAppData) ){
return TCL_OK;
}
if( crashVfs.pAppData==0 ){
sqlite3_vfs *pOriginalVfs = sqlite3_vfs_find(0);
crashVfs.mxPathname = pOriginalVfs->mxPathname;
crashVfs.pAppData = (void *)pOriginalVfs;
crashVfs.szOsFile = sizeof(CrashFile) + pOriginalVfs->szOsFile;
sqlite3_vfs_register(&crashVfs, 0);
}else{
crashVfs.pAppData = 0;
sqlite3_vfs_unregister(&crashVfs);
}
return TCL_OK;
}
/*
** tclcmd: sqlite_crashparams ?OPTIONS? DELAY CRASHFILE
**
** This procedure implements a TCL command that enables crash testing
** in testfixture. Once enabled, crash testing cannot be disabled.
**
** Available options are "-characteristics" and "-sectorsize". Both require
** an argument. For -sectorsize, this is the simulated sector size in
** bytes. For -characteristics, the argument must be a list of io-capability
** flags to simulate. Valid flags are "atomic", "atomic512", "atomic1K",
** "atomic2K", "atomic4K", "atomic8K", "atomic16K", "atomic32K",
** "atomic64K", "sequential" and "safe_append".
**
** Example:
**
** sqlite_crashparams -sect 1024 -char {atomic sequential} ./test.db 1
**
*/
static int crashParamsObjCmd(
void * clientData,
Tcl_Interp *interp,
int objc,
Tcl_Obj *CONST objv[]
){
int iDelay;
const char *zCrashFile;
int nCrashFile, iDc, iSectorSize;
iDc = -1;
iSectorSize = -1;
if( objc<3 ){
Tcl_WrongNumArgs(interp, 1, objv, "?OPTIONS? DELAY CRASHFILE");
goto error;
}
zCrashFile = Tcl_GetStringFromObj(objv[objc-1], &nCrashFile);
if( nCrashFile>=sizeof(g.zCrashFile) ){
Tcl_AppendResult(interp, "Filename is too long: \"", zCrashFile, "\"", 0);
goto error;
}
if( Tcl_GetIntFromObj(interp, objv[objc-2], &iDelay) ){
goto error;
}
if( processDevSymArgs(interp, objc-3, &objv[1], &iDc, &iSectorSize) ){
return TCL_ERROR;
}
if( iDc>=0 ){
g.iDeviceCharacteristics = iDc;
}
if( iSectorSize>=0 ){
g.iSectorSize = iSectorSize;
}
g.iCrash = iDelay;
memcpy(g.zCrashFile, zCrashFile, nCrashFile+1);
sqlite3CrashTestEnable = 1;
return TCL_OK;
error:
return TCL_ERROR;
}
static int devSymObjCmd(
void * clientData,
Tcl_Interp *interp,
int objc,
Tcl_Obj *CONST objv[]
){
void devsym_register(int iDeviceChar, int iSectorSize);
int iDc = -1;
int iSectorSize = -1;
if( processDevSymArgs(interp, objc-1, &objv[1], &iDc, &iSectorSize) ){
return TCL_ERROR;
}
devsym_register(iDc, iSectorSize);
return TCL_OK;
}
/*
** tclcmd: register_jt_vfs ?-default? PARENT-VFS
*/
static int jtObjCmd(
void * clientData,
Tcl_Interp *interp,
int objc,
Tcl_Obj *CONST objv[]
){
int jt_register(char *, int);
char *zParent = 0;
if( objc!=2 && objc!=3 ){
Tcl_WrongNumArgs(interp, 1, objv, "?-default? PARENT-VFS");
return TCL_ERROR;
}
zParent = Tcl_GetString(objv[1]);
if( objc==3 ){
if( strcmp(zParent, "-default") ){
Tcl_AppendResult(interp,
"bad option \"", zParent, "\": must be -default", 0
);
return TCL_ERROR;
}
zParent = Tcl_GetString(objv[2]);
}
if( !(*zParent) ){
zParent = 0;
}
if( jt_register(zParent, objc==3) ){
Tcl_AppendResult(interp, "Error in jt_register", 0);
return TCL_ERROR;
}
return TCL_OK;
}
/*
** tclcmd: unregister_jt_vfs
*/
static int jtUnregisterObjCmd(
void * clientData,
Tcl_Interp *interp,
int objc,
Tcl_Obj *CONST objv[]
){
void jt_unregister(void);
if( objc!=1 ){
Tcl_WrongNumArgs(interp, 1, objv, "");
return TCL_ERROR;
}
jt_unregister();
return TCL_OK;
}
#endif /* SQLITE_OMIT_DISKIO */
/*
** This procedure registers the TCL procedures defined in this file.
*/
int Sqlitetest6_Init(Tcl_Interp *interp){
#ifndef SQLITE_OMIT_DISKIO
Tcl_CreateObjCommand(interp, "sqlite3_crash_enable", crashEnableCmd, 0, 0);
Tcl_CreateObjCommand(interp, "sqlite3_crashparams", crashParamsObjCmd, 0, 0);
Tcl_CreateObjCommand(interp, "sqlite3_simulate_device", devSymObjCmd, 0, 0);
Tcl_CreateObjCommand(interp, "register_jt_vfs", jtObjCmd, 0, 0);
Tcl_CreateObjCommand(interp, "unregister_jt_vfs", jtUnregisterObjCmd, 0, 0);
#endif
return TCL_OK;
}
#endif /* SQLITE_TEST */
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