4 ** The author disclaims copyright to this source code. In place of
5 ** a legal notice, here is a blessing:
7 ** May you do good and not evil.
8 ** May you find forgiveness for yourself and forgive others.
9 ** May you share freely, never taking more than you give.
11 ******************************************************************************
13 ** This file contains code implements a VFS shim that writes diagnostic
14 ** output for each VFS call, similar to "strace".
18 ** This source file exports a single symbol which is the name of a
21 ** int vfstrace_register(
22 ** const char *zTraceName, // Name of the newly constructed VFS
23 ** const char *zOldVfsName, // Name of the underlying VFS
24 ** int (*xOut)(const char*,void*), // Output routine. ex: fputs
25 ** void *pOutArg, // 2nd argument to xOut. ex: stderr
26 ** int makeDefault // Make the new VFS the default
29 ** Applications that want to trace their VFS usage must provide a callback
30 ** function with this prototype:
32 ** int traceOutput(const char *zMessage, void *pAppData);
34 ** This function will "output" the trace messages, where "output" can
35 ** mean different things to different applications. The traceOutput function
36 ** for the command-line shell (see shell.c) is "fputs" from the standard
37 ** library, which means that all trace output is written on the stream
38 ** specified by the second argument. In the case of the command-line shell
39 ** the second argument is stderr. Other applications might choose to output
40 ** trace information to a file, over a socket, or write it into a buffer.
42 ** The vfstrace_register() function creates a new "shim" VFS named by
43 ** the zTraceName parameter. A "shim" VFS is an SQLite backend that does
44 ** not really perform the duties of a true backend, but simply filters or
45 ** interprets VFS calls before passing them off to another VFS which does
46 ** the actual work. In this case the other VFS - the one that does the
47 ** real work - is identified by the second parameter, zOldVfsName. If
48 ** the 2nd parameter is NULL then the default VFS is used. The common
49 ** case is for the 2nd parameter to be NULL.
51 ** The third and fourth parameters are the pointer to the output function
52 ** and the second argument to the output function. For the SQLite
53 ** command-line shell, when the -vfstrace option is used, these parameters
54 ** are fputs and stderr, respectively.
56 ** The fifth argument is true (non-zero) to cause the newly created VFS
57 ** to become the default VFS. The common case is for the fifth parameter
60 ** The call to vfstrace_register() simply creates the shim VFS that does
61 ** tracing. The application must also arrange to use the new VFS for
62 ** all database connections that are created and for which tracing is
63 ** desired. This can be done by specifying the trace VFS using URI filename
64 ** notation, or by specifying the trace VFS as the 4th parameter to
65 ** sqlite3_open_v2() or by making the trace VFS be the default (by setting
66 ** the 5th parameter of vfstrace_register() to 1).
69 ** ENABLING VFSTRACE IN A COMMAND-LINE SHELL
71 ** The SQLite command line shell implemented by the shell.c source file
72 ** can be used with this module. To compile in -vfstrace support, first
73 ** gather this file (test_vfstrace.c), the shell source file (shell.c),
74 ** and the SQLite amalgamation source files (sqlite3.c, sqlite3.h) into
75 ** the working directory. Then compile using a command like the following:
77 ** gcc -o sqlite3 -Os -I. -DSQLITE_ENABLE_VFSTRACE \
78 ** -DSQLITE_THREADSAFE=0 -DSQLITE_ENABLE_FTS3 -DSQLITE_ENABLE_RTREE \
79 ** -DHAVE_READLINE -DHAVE_USLEEP=1 \
80 ** shell.c test_vfstrace.c sqlite3.c -ldl -lreadline -lncurses
82 ** The gcc command above works on Linux and provides (in addition to the
83 ** -vfstrace option) support for FTS3 and FTS4, RTREE, and command-line
84 ** editing using the readline library. The command-line shell does not
85 ** use threads so we added -DSQLITE_THREADSAFE=0 just to make the code
86 ** run a little faster. For compiling on a Mac, you'll probably need
87 ** to omit the -DHAVE_READLINE, the -lreadline, and the -lncurses options.
88 ** The compilation could be simplified to just this:
90 ** gcc -DSQLITE_ENABLE_VFSTRACE \
91 ** shell.c test_vfstrace.c sqlite3.c -ldl -lpthread
93 ** In this second example, all unnecessary options have been removed
94 ** Note that since the code is now threadsafe, we had to add the -lpthread
95 ** option to pull in the pthreads library.
97 ** To cross-compile for windows using MinGW, a command like this might
100 ** /opt/mingw/bin/i386-mingw32msvc-gcc -o sqlite3.exe -Os -I \
101 ** -DSQLITE_THREADSAFE=0 -DSQLITE_ENABLE_VFSTRACE \
102 ** shell.c test_vfstrace.c sqlite3.c
104 ** Similar compiler commands will work on different systems. The key
105 ** invariants are (1) you must have -DSQLITE_ENABLE_VFSTRACE so that
106 ** the shell.c source file will know to include the -vfstrace command-line
107 ** option and (2) you must compile and link the three source files
108 ** shell,c, test_vfstrace.c, and sqlite3.c.
115 ** An instance of this structure is attached to the each trace VFS to
116 ** provide auxiliary information.
118 typedef struct vfstrace_info vfstrace_info
;
119 struct vfstrace_info
{
120 sqlite3_vfs
*pRootVfs
; /* The underlying real VFS */
121 int (*xOut
)(const char*, void*); /* Send output here */
122 void *pOutArg
; /* First argument to xOut */
123 const char *zVfsName
; /* Name of this trace-VFS */
124 sqlite3_vfs
*pTraceVfs
; /* Pointer back to the trace VFS */
128 ** The sqlite3_file object for the trace VFS
130 typedef struct vfstrace_file vfstrace_file
;
131 struct vfstrace_file
{
132 sqlite3_file base
; /* Base class. Must be first */
133 vfstrace_info
*pInfo
; /* The trace-VFS to which this file belongs */
134 const char *zFName
; /* Base name of the file */
135 sqlite3_file
*pReal
; /* The real underlying file */
139 ** Method declarations for vfstrace_file.
141 static int vfstraceClose(sqlite3_file
*);
142 static int vfstraceRead(sqlite3_file
*, void*, int iAmt
, sqlite3_int64 iOfst
);
143 static int vfstraceWrite(sqlite3_file
*,const void*,int iAmt
, sqlite3_int64
);
144 static int vfstraceTruncate(sqlite3_file
*, sqlite3_int64 size
);
145 static int vfstraceSync(sqlite3_file
*, int flags
);
146 static int vfstraceFileSize(sqlite3_file
*, sqlite3_int64
*pSize
);
147 static int vfstraceLock(sqlite3_file
*, int);
148 static int vfstraceUnlock(sqlite3_file
*, int);
149 static int vfstraceCheckReservedLock(sqlite3_file
*, int *);
150 static int vfstraceFileControl(sqlite3_file
*, int op
, void *pArg
);
151 static int vfstraceSectorSize(sqlite3_file
*);
152 static int vfstraceDeviceCharacteristics(sqlite3_file
*);
153 static int vfstraceShmLock(sqlite3_file
*,int,int,int);
154 static int vfstraceShmMap(sqlite3_file
*,int,int,int, void volatile **);
155 static void vfstraceShmBarrier(sqlite3_file
*);
156 static int vfstraceShmUnmap(sqlite3_file
*,int);
159 ** Method declarations for vfstrace_vfs.
161 static int vfstraceOpen(sqlite3_vfs
*, const char *, sqlite3_file
*, int , int *);
162 static int vfstraceDelete(sqlite3_vfs
*, const char *zName
, int syncDir
);
163 static int vfstraceAccess(sqlite3_vfs
*, const char *zName
, int flags
, int *);
164 static int vfstraceFullPathname(sqlite3_vfs
*, const char *zName
, int, char *);
165 static void *vfstraceDlOpen(sqlite3_vfs
*, const char *zFilename
);
166 static void vfstraceDlError(sqlite3_vfs
*, int nByte
, char *zErrMsg
);
167 static void (*vfstraceDlSym(sqlite3_vfs
*,void*, const char *zSymbol
))(void);
168 static void vfstraceDlClose(sqlite3_vfs
*, void*);
169 static int vfstraceRandomness(sqlite3_vfs
*, int nByte
, char *zOut
);
170 static int vfstraceSleep(sqlite3_vfs
*, int microseconds
);
171 static int vfstraceCurrentTime(sqlite3_vfs
*, double*);
172 static int vfstraceGetLastError(sqlite3_vfs
*, int, char*);
173 static int vfstraceCurrentTimeInt64(sqlite3_vfs
*, sqlite3_int64
*);
174 static int vfstraceSetSystemCall(sqlite3_vfs
*,const char*, sqlite3_syscall_ptr
);
175 static sqlite3_syscall_ptr
vfstraceGetSystemCall(sqlite3_vfs
*, const char *);
176 static const char *vfstraceNextSystemCall(sqlite3_vfs
*, const char *zName
);
179 ** Return a pointer to the tail of the pathname. Examples:
181 ** /home/drh/xyzzy.txt -> xyzzy.txt
182 ** xyzzy.txt -> xyzzy.txt
184 static const char *fileTail(const char *z
){
188 while( i
>0 && z
[i
-1]!='/' ){ i
--; }
193 ** Send trace output defined by zFormat and subsequent arguments.
195 static void vfstrace_printf(
196 vfstrace_info
*pInfo
,
202 va_start(ap
, zFormat
);
203 zMsg
= sqlite3_vmprintf(zFormat
, ap
);
205 pInfo
->xOut(zMsg
, pInfo
->pOutArg
);
210 ** Convert value rc into a string and print it using zFormat. zFormat
211 ** should have exactly one %s
213 static void vfstrace_print_errcode(
214 vfstrace_info
*pInfo
,
221 case SQLITE_OK
: zVal
= "SQLITE_OK"; break;
222 case SQLITE_ERROR
: zVal
= "SQLITE_ERROR"; break;
223 case SQLITE_PERM
: zVal
= "SQLITE_PERM"; break;
224 case SQLITE_ABORT
: zVal
= "SQLITE_ABORT"; break;
225 case SQLITE_BUSY
: zVal
= "SQLITE_BUSY"; break;
226 case SQLITE_NOMEM
: zVal
= "SQLITE_NOMEM"; break;
227 case SQLITE_READONLY
: zVal
= "SQLITE_READONLY"; break;
228 case SQLITE_INTERRUPT
: zVal
= "SQLITE_INTERRUPT"; break;
229 case SQLITE_IOERR
: zVal
= "SQLITE_IOERR"; break;
230 case SQLITE_CORRUPT
: zVal
= "SQLITE_CORRUPT"; break;
231 case SQLITE_FULL
: zVal
= "SQLITE_FULL"; break;
232 case SQLITE_CANTOPEN
: zVal
= "SQLITE_CANTOPEN"; break;
233 case SQLITE_PROTOCOL
: zVal
= "SQLITE_PROTOCOL"; break;
234 case SQLITE_EMPTY
: zVal
= "SQLITE_EMPTY"; break;
235 case SQLITE_SCHEMA
: zVal
= "SQLITE_SCHEMA"; break;
236 case SQLITE_CONSTRAINT
: zVal
= "SQLITE_CONSTRAINT"; break;
237 case SQLITE_MISMATCH
: zVal
= "SQLITE_MISMATCH"; break;
238 case SQLITE_MISUSE
: zVal
= "SQLITE_MISUSE"; break;
239 case SQLITE_NOLFS
: zVal
= "SQLITE_NOLFS"; break;
240 case SQLITE_IOERR_READ
: zVal
= "SQLITE_IOERR_READ"; break;
241 case SQLITE_IOERR_SHORT_READ
: zVal
= "SQLITE_IOERR_SHORT_READ"; break;
242 case SQLITE_IOERR_WRITE
: zVal
= "SQLITE_IOERR_WRITE"; break;
243 case SQLITE_IOERR_FSYNC
: zVal
= "SQLITE_IOERR_FSYNC"; break;
244 case SQLITE_IOERR_DIR_FSYNC
: zVal
= "SQLITE_IOERR_DIR_FSYNC"; break;
245 case SQLITE_IOERR_TRUNCATE
: zVal
= "SQLITE_IOERR_TRUNCATE"; break;
246 case SQLITE_IOERR_FSTAT
: zVal
= "SQLITE_IOERR_FSTAT"; break;
247 case SQLITE_IOERR_UNLOCK
: zVal
= "SQLITE_IOERR_UNLOCK"; break;
248 case SQLITE_IOERR_RDLOCK
: zVal
= "SQLITE_IOERR_RDLOCK"; break;
249 case SQLITE_IOERR_DELETE
: zVal
= "SQLITE_IOERR_DELETE"; break;
250 case SQLITE_IOERR_BLOCKED
: zVal
= "SQLITE_IOERR_BLOCKED"; break;
251 case SQLITE_IOERR_NOMEM
: zVal
= "SQLITE_IOERR_NOMEM"; break;
252 case SQLITE_IOERR_ACCESS
: zVal
= "SQLITE_IOERR_ACCESS"; break;
253 case SQLITE_IOERR_CHECKRESERVEDLOCK
:
254 zVal
= "SQLITE_IOERR_CHECKRESERVEDLOCK"; break;
255 case SQLITE_IOERR_LOCK
: zVal
= "SQLITE_IOERR_LOCK"; break;
256 case SQLITE_IOERR_CLOSE
: zVal
= "SQLITE_IOERR_CLOSE"; break;
257 case SQLITE_IOERR_DIR_CLOSE
: zVal
= "SQLITE_IOERR_DIR_CLOSE"; break;
258 case SQLITE_IOERR_SHMOPEN
: zVal
= "SQLITE_IOERR_SHMOPEN"; break;
259 case SQLITE_IOERR_SHMSIZE
: zVal
= "SQLITE_IOERR_SHMSIZE"; break;
260 case SQLITE_IOERR_SHMLOCK
: zVal
= "SQLITE_IOERR_SHMLOCK"; break;
261 case SQLITE_IOERR_SHMMAP
: zVal
= "SQLITE_IOERR_SHMMAP"; break;
262 case SQLITE_IOERR_SEEK
: zVal
= "SQLITE_IOERR_SEEK"; break;
263 case SQLITE_IOERR_GETTEMPPATH
: zVal
= "SQLITE_IOERR_GETTEMPPATH"; break;
264 case SQLITE_IOERR_CONVPATH
: zVal
= "SQLITE_IOERR_CONVPATH"; break;
265 case SQLITE_READONLY_DBMOVED
: zVal
= "SQLITE_READONLY_DBMOVED"; break;
266 case SQLITE_LOCKED_SHAREDCACHE
: zVal
= "SQLITE_LOCKED_SHAREDCACHE"; break;
267 case SQLITE_BUSY_RECOVERY
: zVal
= "SQLITE_BUSY_RECOVERY"; break;
268 case SQLITE_CANTOPEN_NOTEMPDIR
: zVal
= "SQLITE_CANTOPEN_NOTEMPDIR"; break;
270 sqlite3_snprintf(sizeof(zBuf
), zBuf
, "%d", rc
);
275 vfstrace_printf(pInfo
, zFormat
, zVal
);
279 ** Append to a buffer.
281 static void strappend(char *z
, int *pI
, const char *zAppend
){
283 while( zAppend
[0] ){ z
[i
++] = *(zAppend
++); }
289 ** Close an vfstrace-file.
291 static int vfstraceClose(sqlite3_file
*pFile
){
292 vfstrace_file
*p
= (vfstrace_file
*)pFile
;
293 vfstrace_info
*pInfo
= p
->pInfo
;
295 vfstrace_printf(pInfo
, "%s.xClose(%s)", pInfo
->zVfsName
, p
->zFName
);
296 rc
= p
->pReal
->pMethods
->xClose(p
->pReal
);
297 vfstrace_print_errcode(pInfo
, " -> %s\n", rc
);
299 sqlite3_free((void*)p
->base
.pMethods
);
300 p
->base
.pMethods
= 0;
306 ** Read data from an vfstrace-file.
308 static int vfstraceRead(
314 vfstrace_file
*p
= (vfstrace_file
*)pFile
;
315 vfstrace_info
*pInfo
= p
->pInfo
;
317 vfstrace_printf(pInfo
, "%s.xRead(%s,n=%d,ofst=%lld)",
318 pInfo
->zVfsName
, p
->zFName
, iAmt
, iOfst
);
319 rc
= p
->pReal
->pMethods
->xRead(p
->pReal
, zBuf
, iAmt
, iOfst
);
320 vfstrace_print_errcode(pInfo
, " -> %s\n", rc
);
325 ** Write data to an vfstrace-file.
327 static int vfstraceWrite(
333 vfstrace_file
*p
= (vfstrace_file
*)pFile
;
334 vfstrace_info
*pInfo
= p
->pInfo
;
336 vfstrace_printf(pInfo
, "%s.xWrite(%s,n=%d,ofst=%lld)",
337 pInfo
->zVfsName
, p
->zFName
, iAmt
, iOfst
);
338 rc
= p
->pReal
->pMethods
->xWrite(p
->pReal
, zBuf
, iAmt
, iOfst
);
339 vfstrace_print_errcode(pInfo
, " -> %s\n", rc
);
344 ** Truncate an vfstrace-file.
346 static int vfstraceTruncate(sqlite3_file
*pFile
, sqlite_int64 size
){
347 vfstrace_file
*p
= (vfstrace_file
*)pFile
;
348 vfstrace_info
*pInfo
= p
->pInfo
;
350 vfstrace_printf(pInfo
, "%s.xTruncate(%s,%lld)", pInfo
->zVfsName
, p
->zFName
,
352 rc
= p
->pReal
->pMethods
->xTruncate(p
->pReal
, size
);
353 vfstrace_printf(pInfo
, " -> %d\n", rc
);
358 ** Sync an vfstrace-file.
360 static int vfstraceSync(sqlite3_file
*pFile
, int flags
){
361 vfstrace_file
*p
= (vfstrace_file
*)pFile
;
362 vfstrace_info
*pInfo
= p
->pInfo
;
366 memcpy(zBuf
, "|0", 3);
368 if( flags
& SQLITE_SYNC_FULL
) strappend(zBuf
, &i
, "|FULL");
369 else if( flags
& SQLITE_SYNC_NORMAL
) strappend(zBuf
, &i
, "|NORMAL");
370 if( flags
& SQLITE_SYNC_DATAONLY
) strappend(zBuf
, &i
, "|DATAONLY");
371 if( flags
& ~(SQLITE_SYNC_FULL
|SQLITE_SYNC_DATAONLY
) ){
372 sqlite3_snprintf(sizeof(zBuf
)-i
, &zBuf
[i
], "|0x%x", flags
);
374 vfstrace_printf(pInfo
, "%s.xSync(%s,%s)", pInfo
->zVfsName
, p
->zFName
,
376 rc
= p
->pReal
->pMethods
->xSync(p
->pReal
, flags
);
377 vfstrace_printf(pInfo
, " -> %d\n", rc
);
382 ** Return the current file-size of an vfstrace-file.
384 static int vfstraceFileSize(sqlite3_file
*pFile
, sqlite_int64
*pSize
){
385 vfstrace_file
*p
= (vfstrace_file
*)pFile
;
386 vfstrace_info
*pInfo
= p
->pInfo
;
388 vfstrace_printf(pInfo
, "%s.xFileSize(%s)", pInfo
->zVfsName
, p
->zFName
);
389 rc
= p
->pReal
->pMethods
->xFileSize(p
->pReal
, pSize
);
390 vfstrace_print_errcode(pInfo
, " -> %s,", rc
);
391 vfstrace_printf(pInfo
, " size=%lld\n", *pSize
);
396 ** Return the name of a lock.
398 static const char *lockName(int eLock
){
399 const char *azLockNames
[] = {
400 "NONE", "SHARED", "RESERVED", "PENDING", "EXCLUSIVE"
402 if( eLock
<0 || eLock
>=sizeof(azLockNames
)/sizeof(azLockNames
[0]) ){
405 return azLockNames
[eLock
];
410 ** Lock an vfstrace-file.
412 static int vfstraceLock(sqlite3_file
*pFile
, int eLock
){
413 vfstrace_file
*p
= (vfstrace_file
*)pFile
;
414 vfstrace_info
*pInfo
= p
->pInfo
;
416 vfstrace_printf(pInfo
, "%s.xLock(%s,%s)", pInfo
->zVfsName
, p
->zFName
,
418 rc
= p
->pReal
->pMethods
->xLock(p
->pReal
, eLock
);
419 vfstrace_print_errcode(pInfo
, " -> %s\n", rc
);
424 ** Unlock an vfstrace-file.
426 static int vfstraceUnlock(sqlite3_file
*pFile
, int eLock
){
427 vfstrace_file
*p
= (vfstrace_file
*)pFile
;
428 vfstrace_info
*pInfo
= p
->pInfo
;
430 vfstrace_printf(pInfo
, "%s.xUnlock(%s,%s)", pInfo
->zVfsName
, p
->zFName
,
432 rc
= p
->pReal
->pMethods
->xUnlock(p
->pReal
, eLock
);
433 vfstrace_print_errcode(pInfo
, " -> %s\n", rc
);
438 ** Check if another file-handle holds a RESERVED lock on an vfstrace-file.
440 static int vfstraceCheckReservedLock(sqlite3_file
*pFile
, int *pResOut
){
441 vfstrace_file
*p
= (vfstrace_file
*)pFile
;
442 vfstrace_info
*pInfo
= p
->pInfo
;
444 vfstrace_printf(pInfo
, "%s.xCheckReservedLock(%s,%d)",
445 pInfo
->zVfsName
, p
->zFName
);
446 rc
= p
->pReal
->pMethods
->xCheckReservedLock(p
->pReal
, pResOut
);
447 vfstrace_print_errcode(pInfo
, " -> %s", rc
);
448 vfstrace_printf(pInfo
, ", out=%d\n", *pResOut
);
453 ** File control method. For custom operations on an vfstrace-file.
455 static int vfstraceFileControl(sqlite3_file
*pFile
, int op
, void *pArg
){
456 vfstrace_file
*p
= (vfstrace_file
*)pFile
;
457 vfstrace_info
*pInfo
= p
->pInfo
;
462 case SQLITE_FCNTL_LOCKSTATE
: zOp
= "LOCKSTATE"; break;
463 case SQLITE_GET_LOCKPROXYFILE
: zOp
= "GET_LOCKPROXYFILE"; break;
464 case SQLITE_SET_LOCKPROXYFILE
: zOp
= "SET_LOCKPROXYFILE"; break;
465 case SQLITE_LAST_ERRNO
: zOp
= "LAST_ERRNO"; break;
466 case SQLITE_FCNTL_SIZE_HINT
: {
467 sqlite3_snprintf(sizeof(zBuf
), zBuf
, "SIZE_HINT,%lld",
468 *(sqlite3_int64
*)pArg
);
472 case SQLITE_FCNTL_CHUNK_SIZE
: {
473 sqlite3_snprintf(sizeof(zBuf
), zBuf
, "CHUNK_SIZE,%d", *(int*)pArg
);
477 case SQLITE_FCNTL_FILE_POINTER
: zOp
= "FILE_POINTER"; break;
478 case SQLITE_FCNTL_SYNC_OMITTED
: zOp
= "SYNC_OMITTED"; break;
479 case SQLITE_FCNTL_WIN32_AV_RETRY
: zOp
= "WIN32_AV_RETRY"; break;
480 case SQLITE_FCNTL_PERSIST_WAL
: zOp
= "PERSIST_WAL"; break;
481 case SQLITE_FCNTL_OVERWRITE
: zOp
= "OVERWRITE"; break;
482 case SQLITE_FCNTL_VFSNAME
: zOp
= "VFSNAME"; break;
483 case SQLITE_FCNTL_TEMPFILENAME
: zOp
= "TEMPFILENAME"; break;
484 case 0xca093fa0: zOp
= "DB_UNCHANGED"; break;
485 case SQLITE_FCNTL_PRAGMA
: {
486 const char *const* a
= (const char*const*)pArg
;
487 sqlite3_snprintf(sizeof(zBuf
), zBuf
, "PRAGMA,[%s,%s]",a
[1],a
[2]);
492 sqlite3_snprintf(sizeof zBuf
, zBuf
, "%d", op
);
497 vfstrace_printf(pInfo
, "%s.xFileControl(%s,%s)",
498 pInfo
->zVfsName
, p
->zFName
, zOp
);
499 rc
= p
->pReal
->pMethods
->xFileControl(p
->pReal
, op
, pArg
);
500 vfstrace_print_errcode(pInfo
, " -> %s\n", rc
);
501 if( op
==SQLITE_FCNTL_VFSNAME
&& rc
==SQLITE_OK
){
502 *(char**)pArg
= sqlite3_mprintf("vfstrace.%s/%z",
503 pInfo
->zVfsName
, *(char**)pArg
);
505 if( (op
==SQLITE_FCNTL_PRAGMA
|| op
==SQLITE_FCNTL_TEMPFILENAME
)
506 && rc
==SQLITE_OK
&& *(char**)pArg
){
507 vfstrace_printf(pInfo
, "%s.xFileControl(%s,%s) returns %s",
508 pInfo
->zVfsName
, p
->zFName
, zOp
, *(char**)pArg
);
514 ** Return the sector-size in bytes for an vfstrace-file.
516 static int vfstraceSectorSize(sqlite3_file
*pFile
){
517 vfstrace_file
*p
= (vfstrace_file
*)pFile
;
518 vfstrace_info
*pInfo
= p
->pInfo
;
520 vfstrace_printf(pInfo
, "%s.xSectorSize(%s)", pInfo
->zVfsName
, p
->zFName
);
521 rc
= p
->pReal
->pMethods
->xSectorSize(p
->pReal
);
522 vfstrace_printf(pInfo
, " -> %d\n", rc
);
527 ** Return the device characteristic flags supported by an vfstrace-file.
529 static int vfstraceDeviceCharacteristics(sqlite3_file
*pFile
){
530 vfstrace_file
*p
= (vfstrace_file
*)pFile
;
531 vfstrace_info
*pInfo
= p
->pInfo
;
533 vfstrace_printf(pInfo
, "%s.xDeviceCharacteristics(%s)",
534 pInfo
->zVfsName
, p
->zFName
);
535 rc
= p
->pReal
->pMethods
->xDeviceCharacteristics(p
->pReal
);
536 vfstrace_printf(pInfo
, " -> 0x%08x\n", rc
);
541 ** Shared-memory operations.
543 static int vfstraceShmLock(sqlite3_file
*pFile
, int ofst
, int n
, int flags
){
544 vfstrace_file
*p
= (vfstrace_file
*)pFile
;
545 vfstrace_info
*pInfo
= p
->pInfo
;
549 memcpy(zLck
, "|0", 3);
550 if( flags
& SQLITE_SHM_UNLOCK
) strappend(zLck
, &i
, "|UNLOCK");
551 if( flags
& SQLITE_SHM_LOCK
) strappend(zLck
, &i
, "|LOCK");
552 if( flags
& SQLITE_SHM_SHARED
) strappend(zLck
, &i
, "|SHARED");
553 if( flags
& SQLITE_SHM_EXCLUSIVE
) strappend(zLck
, &i
, "|EXCLUSIVE");
554 if( flags
& ~(0xf) ){
555 sqlite3_snprintf(sizeof(zLck
)-i
, &zLck
[i
], "|0x%x", flags
);
557 vfstrace_printf(pInfo
, "%s.xShmLock(%s,ofst=%d,n=%d,%s)",
558 pInfo
->zVfsName
, p
->zFName
, ofst
, n
, &zLck
[1]);
559 rc
= p
->pReal
->pMethods
->xShmLock(p
->pReal
, ofst
, n
, flags
);
560 vfstrace_print_errcode(pInfo
, " -> %s\n", rc
);
563 static int vfstraceShmMap(
570 vfstrace_file
*p
= (vfstrace_file
*)pFile
;
571 vfstrace_info
*pInfo
= p
->pInfo
;
573 vfstrace_printf(pInfo
, "%s.xShmMap(%s,iRegion=%d,szRegion=%d,isWrite=%d,*)",
574 pInfo
->zVfsName
, p
->zFName
, iRegion
, szRegion
, isWrite
);
575 rc
= p
->pReal
->pMethods
->xShmMap(p
->pReal
, iRegion
, szRegion
, isWrite
, pp
);
576 vfstrace_print_errcode(pInfo
, " -> %s\n", rc
);
579 static void vfstraceShmBarrier(sqlite3_file
*pFile
){
580 vfstrace_file
*p
= (vfstrace_file
*)pFile
;
581 vfstrace_info
*pInfo
= p
->pInfo
;
582 vfstrace_printf(pInfo
, "%s.xShmBarrier(%s)\n", pInfo
->zVfsName
, p
->zFName
);
583 p
->pReal
->pMethods
->xShmBarrier(p
->pReal
);
585 static int vfstraceShmUnmap(sqlite3_file
*pFile
, int delFlag
){
586 vfstrace_file
*p
= (vfstrace_file
*)pFile
;
587 vfstrace_info
*pInfo
= p
->pInfo
;
589 vfstrace_printf(pInfo
, "%s.xShmUnmap(%s,delFlag=%d)",
590 pInfo
->zVfsName
, p
->zFName
, delFlag
);
591 rc
= p
->pReal
->pMethods
->xShmUnmap(p
->pReal
, delFlag
);
592 vfstrace_print_errcode(pInfo
, " -> %s\n", rc
);
599 ** Open an vfstrace file handle.
601 static int vfstraceOpen(
609 vfstrace_file
*p
= (vfstrace_file
*)pFile
;
610 vfstrace_info
*pInfo
= (vfstrace_info
*)pVfs
->pAppData
;
611 sqlite3_vfs
*pRoot
= pInfo
->pRootVfs
;
613 p
->zFName
= zName
? fileTail(zName
) : "<temp>";
614 p
->pReal
= (sqlite3_file
*)&p
[1];
615 rc
= pRoot
->xOpen(pRoot
, zName
, p
->pReal
, flags
, pOutFlags
);
616 vfstrace_printf(pInfo
, "%s.xOpen(%s,flags=0x%x)",
617 pInfo
->zVfsName
, p
->zFName
, flags
);
618 if( p
->pReal
->pMethods
){
619 sqlite3_io_methods
*pNew
= sqlite3_malloc( sizeof(*pNew
) );
620 const sqlite3_io_methods
*pSub
= p
->pReal
->pMethods
;
621 memset(pNew
, 0, sizeof(*pNew
));
622 pNew
->iVersion
= pSub
->iVersion
;
623 pNew
->xClose
= vfstraceClose
;
624 pNew
->xRead
= vfstraceRead
;
625 pNew
->xWrite
= vfstraceWrite
;
626 pNew
->xTruncate
= vfstraceTruncate
;
627 pNew
->xSync
= vfstraceSync
;
628 pNew
->xFileSize
= vfstraceFileSize
;
629 pNew
->xLock
= vfstraceLock
;
630 pNew
->xUnlock
= vfstraceUnlock
;
631 pNew
->xCheckReservedLock
= vfstraceCheckReservedLock
;
632 pNew
->xFileControl
= vfstraceFileControl
;
633 pNew
->xSectorSize
= vfstraceSectorSize
;
634 pNew
->xDeviceCharacteristics
= vfstraceDeviceCharacteristics
;
635 if( pNew
->iVersion
>=2 ){
636 pNew
->xShmMap
= pSub
->xShmMap
? vfstraceShmMap
: 0;
637 pNew
->xShmLock
= pSub
->xShmLock
? vfstraceShmLock
: 0;
638 pNew
->xShmBarrier
= pSub
->xShmBarrier
? vfstraceShmBarrier
: 0;
639 pNew
->xShmUnmap
= pSub
->xShmUnmap
? vfstraceShmUnmap
: 0;
641 pFile
->pMethods
= pNew
;
643 vfstrace_print_errcode(pInfo
, " -> %s", rc
);
645 vfstrace_printf(pInfo
, ", outFlags=0x%x\n", *pOutFlags
);
647 vfstrace_printf(pInfo
, "\n");
653 ** Delete the file located at zPath. If the dirSync argument is true,
654 ** ensure the file-system modifications are synced to disk before
657 static int vfstraceDelete(sqlite3_vfs
*pVfs
, const char *zPath
, int dirSync
){
658 vfstrace_info
*pInfo
= (vfstrace_info
*)pVfs
->pAppData
;
659 sqlite3_vfs
*pRoot
= pInfo
->pRootVfs
;
661 vfstrace_printf(pInfo
, "%s.xDelete(\"%s\",%d)",
662 pInfo
->zVfsName
, zPath
, dirSync
);
663 rc
= pRoot
->xDelete(pRoot
, zPath
, dirSync
);
664 vfstrace_print_errcode(pInfo
, " -> %s\n", rc
);
669 ** Test for access permissions. Return true if the requested permission
670 ** is available, or false otherwise.
672 static int vfstraceAccess(
678 vfstrace_info
*pInfo
= (vfstrace_info
*)pVfs
->pAppData
;
679 sqlite3_vfs
*pRoot
= pInfo
->pRootVfs
;
681 vfstrace_printf(pInfo
, "%s.xAccess(\"%s\",%d)",
682 pInfo
->zVfsName
, zPath
, flags
);
683 rc
= pRoot
->xAccess(pRoot
, zPath
, flags
, pResOut
);
684 vfstrace_print_errcode(pInfo
, " -> %s", rc
);
685 vfstrace_printf(pInfo
, ", out=%d\n", *pResOut
);
690 ** Populate buffer zOut with the full canonical pathname corresponding
691 ** to the pathname in zPath. zOut is guaranteed to point to a buffer
692 ** of at least (DEVSYM_MAX_PATHNAME+1) bytes.
694 static int vfstraceFullPathname(
700 vfstrace_info
*pInfo
= (vfstrace_info
*)pVfs
->pAppData
;
701 sqlite3_vfs
*pRoot
= pInfo
->pRootVfs
;
703 vfstrace_printf(pInfo
, "%s.xFullPathname(\"%s\")",
704 pInfo
->zVfsName
, zPath
);
705 rc
= pRoot
->xFullPathname(pRoot
, zPath
, nOut
, zOut
);
706 vfstrace_print_errcode(pInfo
, " -> %s", rc
);
707 vfstrace_printf(pInfo
, ", out=\"%.*s\"\n", nOut
, zOut
);
712 ** Open the dynamic library located at zPath and return a handle.
714 static void *vfstraceDlOpen(sqlite3_vfs
*pVfs
, const char *zPath
){
715 vfstrace_info
*pInfo
= (vfstrace_info
*)pVfs
->pAppData
;
716 sqlite3_vfs
*pRoot
= pInfo
->pRootVfs
;
717 vfstrace_printf(pInfo
, "%s.xDlOpen(\"%s\")\n", pInfo
->zVfsName
, zPath
);
718 return pRoot
->xDlOpen(pRoot
, zPath
);
722 ** Populate the buffer zErrMsg (size nByte bytes) with a human readable
723 ** utf-8 string describing the most recent error encountered associated
724 ** with dynamic libraries.
726 static void vfstraceDlError(sqlite3_vfs
*pVfs
, int nByte
, char *zErrMsg
){
727 vfstrace_info
*pInfo
= (vfstrace_info
*)pVfs
->pAppData
;
728 sqlite3_vfs
*pRoot
= pInfo
->pRootVfs
;
729 vfstrace_printf(pInfo
, "%s.xDlError(%d)", pInfo
->zVfsName
, nByte
);
730 pRoot
->xDlError(pRoot
, nByte
, zErrMsg
);
731 vfstrace_printf(pInfo
, " -> \"%s\"", zErrMsg
);
735 ** Return a pointer to the symbol zSymbol in the dynamic library pHandle.
737 static void (*vfstraceDlSym(sqlite3_vfs
*pVfs
,void *p
,const char *zSym
))(void){
738 vfstrace_info
*pInfo
= (vfstrace_info
*)pVfs
->pAppData
;
739 sqlite3_vfs
*pRoot
= pInfo
->pRootVfs
;
740 vfstrace_printf(pInfo
, "%s.xDlSym(\"%s\")\n", pInfo
->zVfsName
, zSym
);
741 return pRoot
->xDlSym(pRoot
, p
, zSym
);
745 ** Close the dynamic library handle pHandle.
747 static void vfstraceDlClose(sqlite3_vfs
*pVfs
, void *pHandle
){
748 vfstrace_info
*pInfo
= (vfstrace_info
*)pVfs
->pAppData
;
749 sqlite3_vfs
*pRoot
= pInfo
->pRootVfs
;
750 vfstrace_printf(pInfo
, "%s.xDlOpen()\n", pInfo
->zVfsName
);
751 pRoot
->xDlClose(pRoot
, pHandle
);
755 ** Populate the buffer pointed to by zBufOut with nByte bytes of
758 static int vfstraceRandomness(sqlite3_vfs
*pVfs
, int nByte
, char *zBufOut
){
759 vfstrace_info
*pInfo
= (vfstrace_info
*)pVfs
->pAppData
;
760 sqlite3_vfs
*pRoot
= pInfo
->pRootVfs
;
761 vfstrace_printf(pInfo
, "%s.xRandomness(%d)\n", pInfo
->zVfsName
, nByte
);
762 return pRoot
->xRandomness(pRoot
, nByte
, zBufOut
);
766 ** Sleep for nMicro microseconds. Return the number of microseconds
769 static int vfstraceSleep(sqlite3_vfs
*pVfs
, int nMicro
){
770 vfstrace_info
*pInfo
= (vfstrace_info
*)pVfs
->pAppData
;
771 sqlite3_vfs
*pRoot
= pInfo
->pRootVfs
;
772 return pRoot
->xSleep(pRoot
, nMicro
);
776 ** Return the current time as a Julian Day number in *pTimeOut.
778 static int vfstraceCurrentTime(sqlite3_vfs
*pVfs
, double *pTimeOut
){
779 vfstrace_info
*pInfo
= (vfstrace_info
*)pVfs
->pAppData
;
780 sqlite3_vfs
*pRoot
= pInfo
->pRootVfs
;
781 return pRoot
->xCurrentTime(pRoot
, pTimeOut
);
783 static int vfstraceCurrentTimeInt64(sqlite3_vfs
*pVfs
, sqlite3_int64
*pTimeOut
){
784 vfstrace_info
*pInfo
= (vfstrace_info
*)pVfs
->pAppData
;
785 sqlite3_vfs
*pRoot
= pInfo
->pRootVfs
;
786 return pRoot
->xCurrentTimeInt64(pRoot
, pTimeOut
);
790 ** Return th3 most recent error code and message
792 static int vfstraceGetLastError(sqlite3_vfs
*pVfs
, int iErr
, char *zErr
){
793 vfstrace_info
*pInfo
= (vfstrace_info
*)pVfs
->pAppData
;
794 sqlite3_vfs
*pRoot
= pInfo
->pRootVfs
;
795 return pRoot
->xGetLastError(pRoot
, iErr
, zErr
);
799 ** Override system calls.
801 static int vfstraceSetSystemCall(
804 sqlite3_syscall_ptr pFunc
806 vfstrace_info
*pInfo
= (vfstrace_info
*)pVfs
->pAppData
;
807 sqlite3_vfs
*pRoot
= pInfo
->pRootVfs
;
808 return pRoot
->xSetSystemCall(pRoot
, zName
, pFunc
);
810 static sqlite3_syscall_ptr
vfstraceGetSystemCall(
814 vfstrace_info
*pInfo
= (vfstrace_info
*)pVfs
->pAppData
;
815 sqlite3_vfs
*pRoot
= pInfo
->pRootVfs
;
816 return pRoot
->xGetSystemCall(pRoot
, zName
);
818 static const char *vfstraceNextSystemCall(sqlite3_vfs
*pVfs
, const char *zName
){
819 vfstrace_info
*pInfo
= (vfstrace_info
*)pVfs
->pAppData
;
820 sqlite3_vfs
*pRoot
= pInfo
->pRootVfs
;
821 return pRoot
->xNextSystemCall(pRoot
, zName
);
826 ** Clients invoke this routine to construct a new trace-vfs shim.
828 ** Return SQLITE_OK on success.
830 ** SQLITE_NOMEM is returned in the case of a memory allocation error.
831 ** SQLITE_NOTFOUND is returned if zOldVfsName does not exist.
833 int vfstrace_register(
834 const char *zTraceName
, /* Name of the newly constructed VFS */
835 const char *zOldVfsName
, /* Name of the underlying VFS */
836 int (*xOut
)(const char*,void*), /* Output routine. ex: fputs */
837 void *pOutArg
, /* 2nd argument to xOut. ex: stderr */
838 int makeDefault
/* True to make the new VFS the default */
842 vfstrace_info
*pInfo
;
846 pRoot
= sqlite3_vfs_find(zOldVfsName
);
847 if( pRoot
==0 ) return SQLITE_NOTFOUND
;
848 nName
= strlen(zTraceName
);
849 nByte
= sizeof(*pNew
) + sizeof(*pInfo
) + nName
+ 1;
850 pNew
= sqlite3_malloc( nByte
);
851 if( pNew
==0 ) return SQLITE_NOMEM
;
852 memset(pNew
, 0, nByte
);
853 pInfo
= (vfstrace_info
*)&pNew
[1];
854 pNew
->iVersion
= pRoot
->iVersion
;
855 pNew
->szOsFile
= pRoot
->szOsFile
+ sizeof(vfstrace_file
);
856 pNew
->mxPathname
= pRoot
->mxPathname
;
857 pNew
->zName
= (char*)&pInfo
[1];
858 memcpy((char*)&pInfo
[1], zTraceName
, nName
+1);
859 pNew
->pAppData
= pInfo
;
860 pNew
->xOpen
= vfstraceOpen
;
861 pNew
->xDelete
= vfstraceDelete
;
862 pNew
->xAccess
= vfstraceAccess
;
863 pNew
->xFullPathname
= vfstraceFullPathname
;
864 pNew
->xDlOpen
= pRoot
->xDlOpen
==0 ? 0 : vfstraceDlOpen
;
865 pNew
->xDlError
= pRoot
->xDlError
==0 ? 0 : vfstraceDlError
;
866 pNew
->xDlSym
= pRoot
->xDlSym
==0 ? 0 : vfstraceDlSym
;
867 pNew
->xDlClose
= pRoot
->xDlClose
==0 ? 0 : vfstraceDlClose
;
868 pNew
->xRandomness
= vfstraceRandomness
;
869 pNew
->xSleep
= vfstraceSleep
;
870 pNew
->xCurrentTime
= vfstraceCurrentTime
;
871 pNew
->xGetLastError
= pRoot
->xGetLastError
==0 ? 0 : vfstraceGetLastError
;
872 if( pNew
->iVersion
>=2 ){
873 pNew
->xCurrentTimeInt64
= pRoot
->xCurrentTimeInt64
==0 ? 0 :
874 vfstraceCurrentTimeInt64
;
875 if( pNew
->iVersion
>=3 ){
876 pNew
->xSetSystemCall
= pRoot
->xSetSystemCall
==0 ? 0 :
877 vfstraceSetSystemCall
;
878 pNew
->xGetSystemCall
= pRoot
->xGetSystemCall
==0 ? 0 :
879 vfstraceGetSystemCall
;
880 pNew
->xNextSystemCall
= pRoot
->xNextSystemCall
==0 ? 0 :
881 vfstraceNextSystemCall
;
884 pInfo
->pRootVfs
= pRoot
;
886 pInfo
->pOutArg
= pOutArg
;
887 pInfo
->zVfsName
= pNew
->zName
;
888 pInfo
->pTraceVfs
= pNew
;
889 vfstrace_printf(pInfo
, "%s.enabled_for(\"%s\")\n",
890 pInfo
->zVfsName
, pRoot
->zName
);
891 return sqlite3_vfs_register(pNew
, makeDefault
);