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1 /*
2 ** 2006 June 10
3 **
4 ** The author disclaims copyright to this source code. In place of
5 ** a legal notice, here is a blessing:
6 **
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 *************************************************************************
12 ** Code for testing the virtual table interfaces. This code
13 ** is not included in the SQLite library. It is used for automated
14 ** testing of the SQLite library.
16 #include "sqliteInt.h"
17 #include "tcl.h"
18 #include <stdlib.h>
19 #include <string.h>
21 #ifndef SQLITE_OMIT_VIRTUALTABLE
23 typedef struct echo_vtab echo_vtab;
24 typedef struct echo_cursor echo_cursor;
27 ** The test module defined in this file uses four global Tcl variables to
28 ** commicate with test-scripts:
30 ** $::echo_module
31 ** $::echo_module_sync_fail
32 ** $::echo_module_begin_fail
33 ** $::echo_module_cost
35 ** The variable ::echo_module is a list. Each time one of the following
36 ** methods is called, one or more elements are appended to the list.
37 ** This is used for automated testing of virtual table modules.
39 ** The ::echo_module_sync_fail variable is set by test scripts and read
40 ** by code in this file. If it is set to the name of a real table in the
41 ** the database, then all xSync operations on echo virtual tables that
42 ** use the named table as a backing store will fail.
46 ** Errors can be provoked within the following echo virtual table methods:
48 ** xBestIndex xOpen xFilter xNext
49 ** xColumn xRowid xUpdate xSync
50 ** xBegin xRename
52 ** This is done by setting the global tcl variable:
54 ** echo_module_fail($method,$tbl)
56 ** where $method is set to the name of the virtual table method to fail
57 ** (i.e. "xBestIndex") and $tbl is the name of the table being echoed (not
58 ** the name of the virtual table, the name of the underlying real table).
61 /*
62 ** An echo virtual-table object.
64 ** echo.vtab.aIndex is an array of booleans. The nth entry is true if
65 ** the nth column of the real table is the left-most column of an index
66 ** (implicit or otherwise). In other words, if SQLite can optimize
67 ** a query like "SELECT * FROM real_table WHERE col = ?".
69 ** Member variable aCol[] contains copies of the column names of the real
70 ** table.
72 struct echo_vtab {
73 sqlite3_vtab base;
74 Tcl_Interp *interp; /* Tcl interpreter containing debug variables */
75 sqlite3 *db; /* Database connection */
77 int isPattern;
78 int inTransaction; /* True if within a transaction */
79 char *zThis; /* Name of the echo table */
80 char *zTableName; /* Name of the real table */
81 char *zLogName; /* Name of the log table */
82 int nCol; /* Number of columns in the real table */
83 int *aIndex; /* Array of size nCol. True if column has an index */
84 char **aCol; /* Array of size nCol. Column names */
87 /* An echo cursor object */
88 struct echo_cursor {
89 sqlite3_vtab_cursor base;
90 sqlite3_stmt *pStmt;
93 static int simulateVtabError(echo_vtab *p, const char *zMethod){
94 const char *zErr;
95 char zVarname[128];
96 zVarname[127] = '\0';
97 sqlite3_snprintf(127, zVarname, "echo_module_fail(%s,%s)", zMethod, p->zTableName);
98 zErr = Tcl_GetVar(p->interp, zVarname, TCL_GLOBAL_ONLY);
99 if( zErr ){
100 p->base.zErrMsg = sqlite3_mprintf("echo-vtab-error: %s", zErr);
102 return (zErr!=0);
106 ** Convert an SQL-style quoted string into a normal string by removing
107 ** the quote characters. The conversion is done in-place. If the
108 ** input does not begin with a quote character, then this routine
109 ** is a no-op.
111 ** Examples:
113 ** "abc" becomes abc
114 ** 'xyz' becomes xyz
115 ** [pqr] becomes pqr
116 ** `mno` becomes mno
118 static void dequoteString(char *z){
119 int quote;
120 int i, j;
121 if( z==0 ) return;
122 quote = z[0];
123 switch( quote ){
124 case '\'': break;
125 case '"': break;
126 case '`': break; /* For MySQL compatibility */
127 case '[': quote = ']'; break; /* For MS SqlServer compatibility */
128 default: return;
130 for(i=1, j=0; z[i]; i++){
131 if( z[i]==quote ){
132 if( z[i+1]==quote ){
133 z[j++] = quote;
134 i++;
135 }else{
136 z[j++] = 0;
137 break;
139 }else{
140 z[j++] = z[i];
146 ** Retrieve the column names for the table named zTab via database
147 ** connection db. SQLITE_OK is returned on success, or an sqlite error
148 ** code otherwise.
150 ** If successful, the number of columns is written to *pnCol. *paCol is
151 ** set to point at sqlite3_malloc()'d space containing the array of
152 ** nCol column names. The caller is responsible for calling sqlite3_free
153 ** on *paCol.
155 static int getColumnNames(
156 sqlite3 *db,
157 const char *zTab,
158 char ***paCol,
159 int *pnCol
161 char **aCol = 0;
162 char *zSql;
163 sqlite3_stmt *pStmt = 0;
164 int rc = SQLITE_OK;
165 int nCol = 0;
167 /* Prepare the statement "SELECT * FROM <tbl>". The column names
168 ** of the result set of the compiled SELECT will be the same as
169 ** the column names of table <tbl>.
171 zSql = sqlite3_mprintf("SELECT * FROM %Q", zTab);
172 if( !zSql ){
173 rc = SQLITE_NOMEM;
174 goto out;
176 rc = sqlite3_prepare(db, zSql, -1, &pStmt, 0);
177 sqlite3_free(zSql);
179 if( rc==SQLITE_OK ){
180 int ii;
181 int nBytes;
182 char *zSpace;
183 nCol = sqlite3_column_count(pStmt);
185 /* Figure out how much space to allocate for the array of column names
186 ** (including space for the strings themselves). Then allocate it.
188 nBytes = sizeof(char *) * nCol;
189 for(ii=0; ii<nCol; ii++){
190 const char *zName = sqlite3_column_name(pStmt, ii);
191 if( !zName ){
192 rc = SQLITE_NOMEM;
193 goto out;
195 nBytes += (int)strlen(zName)+1;
197 aCol = (char **)sqlite3MallocZero(nBytes);
198 if( !aCol ){
199 rc = SQLITE_NOMEM;
200 goto out;
203 /* Copy the column names into the allocated space and set up the
204 ** pointers in the aCol[] array.
206 zSpace = (char *)(&aCol[nCol]);
207 for(ii=0; ii<nCol; ii++){
208 aCol[ii] = zSpace;
209 zSpace += sprintf(zSpace, "%s", sqlite3_column_name(pStmt, ii));
210 zSpace++;
212 assert( (zSpace-nBytes)==(char *)aCol );
215 *paCol = aCol;
216 *pnCol = nCol;
218 out:
219 sqlite3_finalize(pStmt);
220 return rc;
224 ** Parameter zTab is the name of a table in database db with nCol
225 ** columns. This function allocates an array of integers nCol in
226 ** size and populates it according to any implicit or explicit
227 ** indices on table zTab.
229 ** If successful, SQLITE_OK is returned and *paIndex set to point
230 ** at the allocated array. Otherwise, an error code is returned.
232 ** See comments associated with the member variable aIndex above
233 ** "struct echo_vtab" for details of the contents of the array.
235 static int getIndexArray(
236 sqlite3 *db, /* Database connection */
237 const char *zTab, /* Name of table in database db */
238 int nCol,
239 int **paIndex
241 sqlite3_stmt *pStmt = 0;
242 int *aIndex = 0;
243 int rc;
244 char *zSql;
246 /* Allocate space for the index array */
247 aIndex = (int *)sqlite3MallocZero(sizeof(int) * nCol);
248 if( !aIndex ){
249 rc = SQLITE_NOMEM;
250 goto get_index_array_out;
253 /* Compile an sqlite pragma to loop through all indices on table zTab */
254 zSql = sqlite3_mprintf("PRAGMA index_list(%s)", zTab);
255 if( !zSql ){
256 rc = SQLITE_NOMEM;
257 goto get_index_array_out;
259 rc = sqlite3_prepare(db, zSql, -1, &pStmt, 0);
260 sqlite3_free(zSql);
262 /* For each index, figure out the left-most column and set the
263 ** corresponding entry in aIndex[] to 1.
265 while( pStmt && sqlite3_step(pStmt)==SQLITE_ROW ){
266 const char *zIdx = (const char *)sqlite3_column_text(pStmt, 1);
267 sqlite3_stmt *pStmt2 = 0;
268 if( zIdx==0 ) continue;
269 zSql = sqlite3_mprintf("PRAGMA index_info(%s)", zIdx);
270 if( !zSql ){
271 rc = SQLITE_NOMEM;
272 goto get_index_array_out;
274 rc = sqlite3_prepare(db, zSql, -1, &pStmt2, 0);
275 sqlite3_free(zSql);
276 if( pStmt2 && sqlite3_step(pStmt2)==SQLITE_ROW ){
277 int cid = sqlite3_column_int(pStmt2, 1);
278 assert( cid>=0 && cid<nCol );
279 aIndex[cid] = 1;
281 if( pStmt2 ){
282 rc = sqlite3_finalize(pStmt2);
284 if( rc!=SQLITE_OK ){
285 goto get_index_array_out;
290 get_index_array_out:
291 if( pStmt ){
292 int rc2 = sqlite3_finalize(pStmt);
293 if( rc==SQLITE_OK ){
294 rc = rc2;
297 if( rc!=SQLITE_OK ){
298 sqlite3_free(aIndex);
299 aIndex = 0;
301 *paIndex = aIndex;
302 return rc;
306 ** Global Tcl variable $echo_module is a list. This routine appends
307 ** the string element zArg to that list in interpreter interp.
309 static void appendToEchoModule(Tcl_Interp *interp, const char *zArg){
310 int flags = (TCL_APPEND_VALUE | TCL_LIST_ELEMENT | TCL_GLOBAL_ONLY);
311 Tcl_SetVar(interp, "echo_module", (zArg?zArg:""), flags);
315 ** This function is called from within the echo-modules xCreate and
316 ** xConnect methods. The argc and argv arguments are copies of those
317 ** passed to the calling method. This function is responsible for
318 ** calling sqlite3_declare_vtab() to declare the schema of the virtual
319 ** table being created or connected.
321 ** If the constructor was passed just one argument, i.e.:
323 ** CREATE TABLE t1 AS echo(t2);
325 ** Then t2 is assumed to be the name of a *real* database table. The
326 ** schema of the virtual table is declared by passing a copy of the
327 ** CREATE TABLE statement for the real table to sqlite3_declare_vtab().
328 ** Hence, the virtual table should have exactly the same column names and
329 ** types as the real table.
331 static int echoDeclareVtab(
332 echo_vtab *pVtab,
333 sqlite3 *db
335 int rc = SQLITE_OK;
337 if( pVtab->zTableName ){
338 sqlite3_stmt *pStmt = 0;
339 rc = sqlite3_prepare(db,
340 "SELECT sql FROM sqlite_master WHERE type = 'table' AND name = ?",
341 -1, &pStmt, 0);
342 if( rc==SQLITE_OK ){
343 sqlite3_bind_text(pStmt, 1, pVtab->zTableName, -1, 0);
344 if( sqlite3_step(pStmt)==SQLITE_ROW ){
345 int rc2;
346 const char *zCreateTable = (const char *)sqlite3_column_text(pStmt, 0);
347 rc = sqlite3_declare_vtab(db, zCreateTable);
348 rc2 = sqlite3_finalize(pStmt);
349 if( rc==SQLITE_OK ){
350 rc = rc2;
352 } else {
353 rc = sqlite3_finalize(pStmt);
354 if( rc==SQLITE_OK ){
355 rc = SQLITE_ERROR;
358 if( rc==SQLITE_OK ){
359 rc = getColumnNames(db, pVtab->zTableName, &pVtab->aCol, &pVtab->nCol);
361 if( rc==SQLITE_OK ){
362 rc = getIndexArray(db, pVtab->zTableName, pVtab->nCol, &pVtab->aIndex);
367 return rc;
371 ** This function frees all runtime structures associated with the virtual
372 ** table pVtab.
374 static int echoDestructor(sqlite3_vtab *pVtab){
375 echo_vtab *p = (echo_vtab*)pVtab;
376 sqlite3_free(p->aIndex);
377 sqlite3_free(p->aCol);
378 sqlite3_free(p->zThis);
379 sqlite3_free(p->zTableName);
380 sqlite3_free(p->zLogName);
381 sqlite3_free(p);
382 return 0;
385 typedef struct EchoModule EchoModule;
386 struct EchoModule {
387 Tcl_Interp *interp;
391 ** This function is called to do the work of the xConnect() method -
392 ** to allocate the required in-memory structures for a newly connected
393 ** virtual table.
395 static int echoConstructor(
396 sqlite3 *db,
397 void *pAux,
398 int argc, const char *const*argv,
399 sqlite3_vtab **ppVtab,
400 char **pzErr
402 int rc;
403 int i;
404 echo_vtab *pVtab;
406 /* Allocate the sqlite3_vtab/echo_vtab structure itself */
407 pVtab = sqlite3MallocZero( sizeof(*pVtab) );
408 if( !pVtab ){
409 return SQLITE_NOMEM;
411 pVtab->interp = ((EchoModule *)pAux)->interp;
412 pVtab->db = db;
414 /* Allocate echo_vtab.zThis */
415 pVtab->zThis = sqlite3_mprintf("%s", argv[2]);
416 if( !pVtab->zThis ){
417 echoDestructor((sqlite3_vtab *)pVtab);
418 return SQLITE_NOMEM;
421 /* Allocate echo_vtab.zTableName */
422 if( argc>3 ){
423 pVtab->zTableName = sqlite3_mprintf("%s", argv[3]);
424 dequoteString(pVtab->zTableName);
425 if( pVtab->zTableName && pVtab->zTableName[0]=='*' ){
426 char *z = sqlite3_mprintf("%s%s", argv[2], &(pVtab->zTableName[1]));
427 sqlite3_free(pVtab->zTableName);
428 pVtab->zTableName = z;
429 pVtab->isPattern = 1;
431 if( !pVtab->zTableName ){
432 echoDestructor((sqlite3_vtab *)pVtab);
433 return SQLITE_NOMEM;
437 /* Log the arguments to this function to Tcl var ::echo_module */
438 for(i=0; i<argc; i++){
439 appendToEchoModule(pVtab->interp, argv[i]);
442 /* Invoke sqlite3_declare_vtab and set up other members of the echo_vtab
443 ** structure. If an error occurs, delete the sqlite3_vtab structure and
444 ** return an error code.
446 rc = echoDeclareVtab(pVtab, db);
447 if( rc!=SQLITE_OK ){
448 echoDestructor((sqlite3_vtab *)pVtab);
449 return rc;
452 /* Success. Set *ppVtab and return */
453 *ppVtab = &pVtab->base;
454 return SQLITE_OK;
458 ** Echo virtual table module xCreate method.
460 static int echoCreate(
461 sqlite3 *db,
462 void *pAux,
463 int argc, const char *const*argv,
464 sqlite3_vtab **ppVtab,
465 char **pzErr
467 int rc = SQLITE_OK;
468 appendToEchoModule(((EchoModule *)pAux)->interp, "xCreate");
469 rc = echoConstructor(db, pAux, argc, argv, ppVtab, pzErr);
471 /* If there were two arguments passed to the module at the SQL level
472 ** (i.e. "CREATE VIRTUAL TABLE tbl USING echo(arg1, arg2)"), then
473 ** the second argument is used as a table name. Attempt to create
474 ** such a table with a single column, "logmsg". This table will
475 ** be used to log calls to the xUpdate method. It will be deleted
476 ** when the virtual table is DROPed.
478 ** Note: The main point of this is to test that we can drop tables
479 ** from within an xDestroy method call.
481 if( rc==SQLITE_OK && argc==5 ){
482 char *zSql;
483 echo_vtab *pVtab = *(echo_vtab **)ppVtab;
484 pVtab->zLogName = sqlite3_mprintf("%s", argv[4]);
485 zSql = sqlite3_mprintf("CREATE TABLE %Q(logmsg)", pVtab->zLogName);
486 rc = sqlite3_exec(db, zSql, 0, 0, 0);
487 sqlite3_free(zSql);
488 if( rc!=SQLITE_OK ){
489 *pzErr = sqlite3_mprintf("%s", sqlite3_errmsg(db));
493 if( *ppVtab && rc!=SQLITE_OK ){
494 echoDestructor(*ppVtab);
495 *ppVtab = 0;
498 if( rc==SQLITE_OK ){
499 (*(echo_vtab**)ppVtab)->inTransaction = 1;
502 return rc;
506 ** Echo virtual table module xConnect method.
508 static int echoConnect(
509 sqlite3 *db,
510 void *pAux,
511 int argc, const char *const*argv,
512 sqlite3_vtab **ppVtab,
513 char **pzErr
515 appendToEchoModule(((EchoModule *)pAux)->interp, "xConnect");
516 return echoConstructor(db, pAux, argc, argv, ppVtab, pzErr);
520 ** Echo virtual table module xDisconnect method.
522 static int echoDisconnect(sqlite3_vtab *pVtab){
523 appendToEchoModule(((echo_vtab *)pVtab)->interp, "xDisconnect");
524 return echoDestructor(pVtab);
528 ** Echo virtual table module xDestroy method.
530 static int echoDestroy(sqlite3_vtab *pVtab){
531 int rc = SQLITE_OK;
532 echo_vtab *p = (echo_vtab *)pVtab;
533 appendToEchoModule(((echo_vtab *)pVtab)->interp, "xDestroy");
535 /* Drop the "log" table, if one exists (see echoCreate() for details) */
536 if( p && p->zLogName ){
537 char *zSql;
538 zSql = sqlite3_mprintf("DROP TABLE %Q", p->zLogName);
539 rc = sqlite3_exec(p->db, zSql, 0, 0, 0);
540 sqlite3_free(zSql);
543 if( rc==SQLITE_OK ){
544 rc = echoDestructor(pVtab);
546 return rc;
550 ** Echo virtual table module xOpen method.
552 static int echoOpen(sqlite3_vtab *pVTab, sqlite3_vtab_cursor **ppCursor){
553 echo_cursor *pCur;
554 if( simulateVtabError((echo_vtab *)pVTab, "xOpen") ){
555 return SQLITE_ERROR;
557 pCur = sqlite3MallocZero(sizeof(echo_cursor));
558 *ppCursor = (sqlite3_vtab_cursor *)pCur;
559 return (pCur ? SQLITE_OK : SQLITE_NOMEM);
563 ** Echo virtual table module xClose method.
565 static int echoClose(sqlite3_vtab_cursor *cur){
566 int rc;
567 echo_cursor *pCur = (echo_cursor *)cur;
568 sqlite3_stmt *pStmt = pCur->pStmt;
569 pCur->pStmt = 0;
570 sqlite3_free(pCur);
571 rc = sqlite3_finalize(pStmt);
572 return rc;
576 ** Return non-zero if the cursor does not currently point to a valid record
577 ** (i.e if the scan has finished), or zero otherwise.
579 static int echoEof(sqlite3_vtab_cursor *cur){
580 return (((echo_cursor *)cur)->pStmt ? 0 : 1);
584 ** Echo virtual table module xNext method.
586 static int echoNext(sqlite3_vtab_cursor *cur){
587 int rc = SQLITE_OK;
588 echo_cursor *pCur = (echo_cursor *)cur;
590 if( simulateVtabError((echo_vtab *)(cur->pVtab), "xNext") ){
591 return SQLITE_ERROR;
594 if( pCur->pStmt ){
595 rc = sqlite3_step(pCur->pStmt);
596 if( rc==SQLITE_ROW ){
597 rc = SQLITE_OK;
598 }else{
599 rc = sqlite3_finalize(pCur->pStmt);
600 pCur->pStmt = 0;
604 return rc;
608 ** Echo virtual table module xColumn method.
610 static int echoColumn(sqlite3_vtab_cursor *cur, sqlite3_context *ctx, int i){
611 int iCol = i + 1;
612 sqlite3_stmt *pStmt = ((echo_cursor *)cur)->pStmt;
614 if( simulateVtabError((echo_vtab *)(cur->pVtab), "xColumn") ){
615 return SQLITE_ERROR;
618 if( !pStmt ){
619 sqlite3_result_null(ctx);
620 }else{
621 assert( sqlite3_data_count(pStmt)>iCol );
622 sqlite3_result_value(ctx, sqlite3_column_value(pStmt, iCol));
624 return SQLITE_OK;
628 ** Echo virtual table module xRowid method.
630 static int echoRowid(sqlite3_vtab_cursor *cur, sqlite_int64 *pRowid){
631 sqlite3_stmt *pStmt = ((echo_cursor *)cur)->pStmt;
633 if( simulateVtabError((echo_vtab *)(cur->pVtab), "xRowid") ){
634 return SQLITE_ERROR;
637 *pRowid = sqlite3_column_int64(pStmt, 0);
638 return SQLITE_OK;
642 ** Compute a simple hash of the null terminated string zString.
644 ** This module uses only sqlite3_index_info.idxStr, not
645 ** sqlite3_index_info.idxNum. So to test idxNum, when idxStr is set
646 ** in echoBestIndex(), idxNum is set to the corresponding hash value.
647 ** In echoFilter(), code assert()s that the supplied idxNum value is
648 ** indeed the hash of the supplied idxStr.
650 static int hashString(const char *zString){
651 int val = 0;
652 int ii;
653 for(ii=0; zString[ii]; ii++){
654 val = (val << 3) + (int)zString[ii];
656 return val;
660 ** Echo virtual table module xFilter method.
662 static int echoFilter(
663 sqlite3_vtab_cursor *pVtabCursor,
664 int idxNum, const char *idxStr,
665 int argc, sqlite3_value **argv
667 int rc;
668 int i;
670 echo_cursor *pCur = (echo_cursor *)pVtabCursor;
671 echo_vtab *pVtab = (echo_vtab *)pVtabCursor->pVtab;
672 sqlite3 *db = pVtab->db;
674 if( simulateVtabError(pVtab, "xFilter") ){
675 return SQLITE_ERROR;
678 /* Check that idxNum matches idxStr */
679 assert( idxNum==hashString(idxStr) );
681 /* Log arguments to the ::echo_module Tcl variable */
682 appendToEchoModule(pVtab->interp, "xFilter");
683 appendToEchoModule(pVtab->interp, idxStr);
684 for(i=0; i<argc; i++){
685 appendToEchoModule(pVtab->interp, (const char*)sqlite3_value_text(argv[i]));
688 sqlite3_finalize(pCur->pStmt);
689 pCur->pStmt = 0;
691 /* Prepare the SQL statement created by echoBestIndex and bind the
692 ** runtime parameters passed to this function to it.
694 rc = sqlite3_prepare(db, idxStr, -1, &pCur->pStmt, 0);
695 assert( pCur->pStmt || rc!=SQLITE_OK );
696 for(i=0; rc==SQLITE_OK && i<argc; i++){
697 rc = sqlite3_bind_value(pCur->pStmt, i+1, argv[i]);
700 /* If everything was successful, advance to the first row of the scan */
701 if( rc==SQLITE_OK ){
702 rc = echoNext(pVtabCursor);
705 return rc;
710 ** A helper function used by echoUpdate() and echoBestIndex() for
711 ** manipulating strings in concert with the sqlite3_mprintf() function.
713 ** Parameter pzStr points to a pointer to a string allocated with
714 ** sqlite3_mprintf. The second parameter, zAppend, points to another
715 ** string. The two strings are concatenated together and *pzStr
716 ** set to point at the result. The initial buffer pointed to by *pzStr
717 ** is deallocated via sqlite3_free().
719 ** If the third argument, doFree, is true, then sqlite3_free() is
720 ** also called to free the buffer pointed to by zAppend.
722 static void string_concat(char **pzStr, char *zAppend, int doFree, int *pRc){
723 char *zIn = *pzStr;
724 if( !zAppend && doFree && *pRc==SQLITE_OK ){
725 *pRc = SQLITE_NOMEM;
727 if( *pRc!=SQLITE_OK ){
728 sqlite3_free(zIn);
729 zIn = 0;
730 }else{
731 if( zIn ){
732 char *zTemp = zIn;
733 zIn = sqlite3_mprintf("%s%s", zIn, zAppend);
734 sqlite3_free(zTemp);
735 }else{
736 zIn = sqlite3_mprintf("%s", zAppend);
738 if( !zIn ){
739 *pRc = SQLITE_NOMEM;
742 *pzStr = zIn;
743 if( doFree ){
744 sqlite3_free(zAppend);
749 ** The echo module implements the subset of query constraints and sort
750 ** orders that may take advantage of SQLite indices on the underlying
751 ** real table. For example, if the real table is declared as:
753 ** CREATE TABLE real(a, b, c);
754 ** CREATE INDEX real_index ON real(b);
756 ** then the echo module handles WHERE or ORDER BY clauses that refer
757 ** to the column "b", but not "a" or "c". If a multi-column index is
758 ** present, only its left most column is considered.
760 ** This xBestIndex method encodes the proposed search strategy as
761 ** an SQL query on the real table underlying the virtual echo module
762 ** table and stores the query in sqlite3_index_info.idxStr. The SQL
763 ** statement is of the form:
765 ** SELECT rowid, * FROM <real-table> ?<where-clause>? ?<order-by-clause>?
767 ** where the <where-clause> and <order-by-clause> are determined
768 ** by the contents of the structure pointed to by the pIdxInfo argument.
770 static int echoBestIndex(sqlite3_vtab *tab, sqlite3_index_info *pIdxInfo){
771 int ii;
772 char *zQuery = 0;
773 char *zNew;
774 int nArg = 0;
775 const char *zSep = "WHERE";
776 echo_vtab *pVtab = (echo_vtab *)tab;
777 sqlite3_stmt *pStmt = 0;
778 Tcl_Interp *interp = pVtab->interp;
780 int nRow;
781 int useIdx = 0;
782 int rc = SQLITE_OK;
783 int useCost = 0;
784 double cost;
785 int isIgnoreUsable = 0;
786 if( Tcl_GetVar(interp, "echo_module_ignore_usable", TCL_GLOBAL_ONLY) ){
787 isIgnoreUsable = 1;
790 if( simulateVtabError(pVtab, "xBestIndex") ){
791 return SQLITE_ERROR;
794 /* Determine the number of rows in the table and store this value in local
795 ** variable nRow. The 'estimated-cost' of the scan will be the number of
796 ** rows in the table for a linear scan, or the log (base 2) of the
797 ** number of rows if the proposed scan uses an index.
799 if( Tcl_GetVar(interp, "echo_module_cost", TCL_GLOBAL_ONLY) ){
800 cost = atof(Tcl_GetVar(interp, "echo_module_cost", TCL_GLOBAL_ONLY));
801 useCost = 1;
802 } else {
803 zQuery = sqlite3_mprintf("SELECT count(*) FROM %Q", pVtab->zTableName);
804 if( !zQuery ){
805 return SQLITE_NOMEM;
807 rc = sqlite3_prepare(pVtab->db, zQuery, -1, &pStmt, 0);
808 sqlite3_free(zQuery);
809 if( rc!=SQLITE_OK ){
810 return rc;
812 sqlite3_step(pStmt);
813 nRow = sqlite3_column_int(pStmt, 0);
814 rc = sqlite3_finalize(pStmt);
815 if( rc!=SQLITE_OK ){
816 return rc;
820 zQuery = sqlite3_mprintf("SELECT rowid, * FROM %Q", pVtab->zTableName);
821 if( !zQuery ){
822 return SQLITE_NOMEM;
824 for(ii=0; ii<pIdxInfo->nConstraint; ii++){
825 const struct sqlite3_index_constraint *pConstraint;
826 struct sqlite3_index_constraint_usage *pUsage;
827 int iCol;
829 pConstraint = &pIdxInfo->aConstraint[ii];
830 pUsage = &pIdxInfo->aConstraintUsage[ii];
832 if( !isIgnoreUsable && !pConstraint->usable ) continue;
834 iCol = pConstraint->iColumn;
835 if( iCol<0 || pVtab->aIndex[iCol] ){
836 char *zCol = iCol>=0 ? pVtab->aCol[iCol] : "rowid";
837 char *zOp = 0;
838 useIdx = 1;
839 switch( pConstraint->op ){
840 case SQLITE_INDEX_CONSTRAINT_EQ:
841 zOp = "="; break;
842 case SQLITE_INDEX_CONSTRAINT_LT:
843 zOp = "<"; break;
844 case SQLITE_INDEX_CONSTRAINT_GT:
845 zOp = ">"; break;
846 case SQLITE_INDEX_CONSTRAINT_LE:
847 zOp = "<="; break;
848 case SQLITE_INDEX_CONSTRAINT_GE:
849 zOp = ">="; break;
850 case SQLITE_INDEX_CONSTRAINT_MATCH:
851 zOp = "LIKE"; break;
853 if( zOp[0]=='L' ){
854 zNew = sqlite3_mprintf(" %s %s LIKE (SELECT '%%'||?||'%%')",
855 zSep, zCol);
856 } else {
857 zNew = sqlite3_mprintf(" %s %s %s ?", zSep, zCol, zOp);
859 string_concat(&zQuery, zNew, 1, &rc);
861 zSep = "AND";
862 pUsage->argvIndex = ++nArg;
863 pUsage->omit = 1;
867 /* If there is only one term in the ORDER BY clause, and it is
868 ** on a column that this virtual table has an index for, then consume
869 ** the ORDER BY clause.
871 if( pIdxInfo->nOrderBy==1 && (
872 pIdxInfo->aOrderBy->iColumn<0 ||
873 pVtab->aIndex[pIdxInfo->aOrderBy->iColumn]) ){
874 int iCol = pIdxInfo->aOrderBy->iColumn;
875 char *zCol = iCol>=0 ? pVtab->aCol[iCol] : "rowid";
876 char *zDir = pIdxInfo->aOrderBy->desc?"DESC":"ASC";
877 zNew = sqlite3_mprintf(" ORDER BY %s %s", zCol, zDir);
878 string_concat(&zQuery, zNew, 1, &rc);
879 pIdxInfo->orderByConsumed = 1;
882 appendToEchoModule(pVtab->interp, "xBestIndex");;
883 appendToEchoModule(pVtab->interp, zQuery);
885 if( !zQuery ){
886 return rc;
888 pIdxInfo->idxNum = hashString(zQuery);
889 pIdxInfo->idxStr = zQuery;
890 pIdxInfo->needToFreeIdxStr = 1;
891 if( useCost ){
892 pIdxInfo->estimatedCost = cost;
893 }else if( useIdx ){
894 /* Approximation of log2(nRow). */
895 for( ii=0; ii<(sizeof(int)*8)-1; ii++ ){
896 if( nRow & (1<<ii) ){
897 pIdxInfo->estimatedCost = (double)ii;
900 }else{
901 pIdxInfo->estimatedCost = (double)nRow;
903 return rc;
907 ** The xUpdate method for echo module virtual tables.
909 ** apData[0] apData[1] apData[2..]
911 ** INTEGER DELETE
913 ** INTEGER NULL (nCol args) UPDATE (do not set rowid)
914 ** INTEGER INTEGER (nCol args) UPDATE (with SET rowid = <arg1>)
916 ** NULL NULL (nCol args) INSERT INTO (automatic rowid value)
917 ** NULL INTEGER (nCol args) INSERT (incl. rowid value)
920 int echoUpdate(
921 sqlite3_vtab *tab,
922 int nData,
923 sqlite3_value **apData,
924 sqlite_int64 *pRowid
926 echo_vtab *pVtab = (echo_vtab *)tab;
927 sqlite3 *db = pVtab->db;
928 int rc = SQLITE_OK;
930 sqlite3_stmt *pStmt;
931 char *z = 0; /* SQL statement to execute */
932 int bindArgZero = 0; /* True to bind apData[0] to sql var no. nData */
933 int bindArgOne = 0; /* True to bind apData[1] to sql var no. 1 */
934 int i; /* Counter variable used by for loops */
936 assert( nData==pVtab->nCol+2 || nData==1 );
938 /* Ticket #3083 - make sure we always start a transaction prior to
939 ** making any changes to a virtual table */
940 assert( pVtab->inTransaction );
942 if( simulateVtabError(pVtab, "xUpdate") ){
943 return SQLITE_ERROR;
946 /* If apData[0] is an integer and nData>1 then do an UPDATE */
947 if( nData>1 && sqlite3_value_type(apData[0])==SQLITE_INTEGER ){
948 char *zSep = " SET";
949 z = sqlite3_mprintf("UPDATE %Q", pVtab->zTableName);
950 if( !z ){
951 rc = SQLITE_NOMEM;
954 bindArgOne = (apData[1] && sqlite3_value_type(apData[1])==SQLITE_INTEGER);
955 bindArgZero = 1;
957 if( bindArgOne ){
958 string_concat(&z, " SET rowid=?1 ", 0, &rc);
959 zSep = ",";
961 for(i=2; i<nData; i++){
962 if( apData[i]==0 ) continue;
963 string_concat(&z, sqlite3_mprintf(
964 "%s %Q=?%d", zSep, pVtab->aCol[i-2], i), 1, &rc);
965 zSep = ",";
967 string_concat(&z, sqlite3_mprintf(" WHERE rowid=?%d", nData), 1, &rc);
970 /* If apData[0] is an integer and nData==1 then do a DELETE */
971 else if( nData==1 && sqlite3_value_type(apData[0])==SQLITE_INTEGER ){
972 z = sqlite3_mprintf("DELETE FROM %Q WHERE rowid = ?1", pVtab->zTableName);
973 if( !z ){
974 rc = SQLITE_NOMEM;
976 bindArgZero = 1;
979 /* If the first argument is NULL and there are more than two args, INSERT */
980 else if( nData>2 && sqlite3_value_type(apData[0])==SQLITE_NULL ){
981 int ii;
982 char *zInsert = 0;
983 char *zValues = 0;
985 zInsert = sqlite3_mprintf("INSERT INTO %Q (", pVtab->zTableName);
986 if( !zInsert ){
987 rc = SQLITE_NOMEM;
989 if( sqlite3_value_type(apData[1])==SQLITE_INTEGER ){
990 bindArgOne = 1;
991 zValues = sqlite3_mprintf("?");
992 string_concat(&zInsert, "rowid", 0, &rc);
995 assert((pVtab->nCol+2)==nData);
996 for(ii=2; ii<nData; ii++){
997 string_concat(&zInsert,
998 sqlite3_mprintf("%s%Q", zValues?", ":"", pVtab->aCol[ii-2]), 1, &rc);
999 string_concat(&zValues,
1000 sqlite3_mprintf("%s?%d", zValues?", ":"", ii), 1, &rc);
1003 string_concat(&z, zInsert, 1, &rc);
1004 string_concat(&z, ") VALUES(", 0, &rc);
1005 string_concat(&z, zValues, 1, &rc);
1006 string_concat(&z, ")", 0, &rc);
1009 /* Anything else is an error */
1010 else{
1011 assert(0);
1012 return SQLITE_ERROR;
1015 if( rc==SQLITE_OK ){
1016 rc = sqlite3_prepare(db, z, -1, &pStmt, 0);
1018 assert( rc!=SQLITE_OK || pStmt );
1019 sqlite3_free(z);
1020 if( rc==SQLITE_OK ) {
1021 if( bindArgZero ){
1022 sqlite3_bind_value(pStmt, nData, apData[0]);
1024 if( bindArgOne ){
1025 sqlite3_bind_value(pStmt, 1, apData[1]);
1027 for(i=2; i<nData && rc==SQLITE_OK; i++){
1028 if( apData[i] ) rc = sqlite3_bind_value(pStmt, i, apData[i]);
1030 if( rc==SQLITE_OK ){
1031 sqlite3_step(pStmt);
1032 rc = sqlite3_finalize(pStmt);
1033 }else{
1034 sqlite3_finalize(pStmt);
1038 if( pRowid && rc==SQLITE_OK ){
1039 *pRowid = sqlite3_last_insert_rowid(db);
1041 if( rc!=SQLITE_OK ){
1042 tab->zErrMsg = sqlite3_mprintf("echo-vtab-error: %s", sqlite3_errmsg(db));
1045 return rc;
1049 ** xBegin, xSync, xCommit and xRollback callbacks for echo module
1050 ** virtual tables. Do nothing other than add the name of the callback
1051 ** to the $::echo_module Tcl variable.
1053 static int echoTransactionCall(sqlite3_vtab *tab, const char *zCall){
1054 char *z;
1055 echo_vtab *pVtab = (echo_vtab *)tab;
1056 z = sqlite3_mprintf("echo(%s)", pVtab->zTableName);
1057 if( z==0 ) return SQLITE_NOMEM;
1058 appendToEchoModule(pVtab->interp, zCall);
1059 appendToEchoModule(pVtab->interp, z);
1060 sqlite3_free(z);
1061 return SQLITE_OK;
1063 static int echoBegin(sqlite3_vtab *tab){
1064 int rc;
1065 echo_vtab *pVtab = (echo_vtab *)tab;
1066 Tcl_Interp *interp = pVtab->interp;
1067 const char *zVal;
1069 /* Ticket #3083 - do not start a transaction if we are already in
1070 ** a transaction */
1071 assert( !pVtab->inTransaction );
1073 if( simulateVtabError(pVtab, "xBegin") ){
1074 return SQLITE_ERROR;
1077 rc = echoTransactionCall(tab, "xBegin");
1079 if( rc==SQLITE_OK ){
1080 /* Check if the $::echo_module_begin_fail variable is defined. If it is,
1081 ** and it is set to the name of the real table underlying this virtual
1082 ** echo module table, then cause this xSync operation to fail.
1084 zVal = Tcl_GetVar(interp, "echo_module_begin_fail", TCL_GLOBAL_ONLY);
1085 if( zVal && 0==strcmp(zVal, pVtab->zTableName) ){
1086 rc = SQLITE_ERROR;
1089 if( rc==SQLITE_OK ){
1090 pVtab->inTransaction = 1;
1092 return rc;
1094 static int echoSync(sqlite3_vtab *tab){
1095 int rc;
1096 echo_vtab *pVtab = (echo_vtab *)tab;
1097 Tcl_Interp *interp = pVtab->interp;
1098 const char *zVal;
1100 /* Ticket #3083 - Only call xSync if we have previously started a
1101 ** transaction */
1102 assert( pVtab->inTransaction );
1104 if( simulateVtabError(pVtab, "xSync") ){
1105 return SQLITE_ERROR;
1108 rc = echoTransactionCall(tab, "xSync");
1110 if( rc==SQLITE_OK ){
1111 /* Check if the $::echo_module_sync_fail variable is defined. If it is,
1112 ** and it is set to the name of the real table underlying this virtual
1113 ** echo module table, then cause this xSync operation to fail.
1115 zVal = Tcl_GetVar(interp, "echo_module_sync_fail", TCL_GLOBAL_ONLY);
1116 if( zVal && 0==strcmp(zVal, pVtab->zTableName) ){
1117 rc = -1;
1120 return rc;
1122 static int echoCommit(sqlite3_vtab *tab){
1123 echo_vtab *pVtab = (echo_vtab*)tab;
1124 int rc;
1126 /* Ticket #3083 - Only call xCommit if we have previously started
1127 ** a transaction */
1128 assert( pVtab->inTransaction );
1130 if( simulateVtabError(pVtab, "xCommit") ){
1131 return SQLITE_ERROR;
1134 sqlite3BeginBenignMalloc();
1135 rc = echoTransactionCall(tab, "xCommit");
1136 sqlite3EndBenignMalloc();
1137 pVtab->inTransaction = 0;
1138 return rc;
1140 static int echoRollback(sqlite3_vtab *tab){
1141 int rc;
1142 echo_vtab *pVtab = (echo_vtab*)tab;
1144 /* Ticket #3083 - Only call xRollback if we have previously started
1145 ** a transaction */
1146 assert( pVtab->inTransaction );
1148 rc = echoTransactionCall(tab, "xRollback");
1149 pVtab->inTransaction = 0;
1150 return rc;
1154 ** Implementation of "GLOB" function on the echo module. Pass
1155 ** all arguments to the ::echo_glob_overload procedure of TCL
1156 ** and return the result of that procedure as a string.
1158 static void overloadedGlobFunction(
1159 sqlite3_context *pContext,
1160 int nArg,
1161 sqlite3_value **apArg
1163 Tcl_Interp *interp = sqlite3_user_data(pContext);
1164 Tcl_DString str;
1165 int i;
1166 int rc;
1167 Tcl_DStringInit(&str);
1168 Tcl_DStringAppendElement(&str, "::echo_glob_overload");
1169 for(i=0; i<nArg; i++){
1170 Tcl_DStringAppendElement(&str, (char*)sqlite3_value_text(apArg[i]));
1172 rc = Tcl_Eval(interp, Tcl_DStringValue(&str));
1173 Tcl_DStringFree(&str);
1174 if( rc ){
1175 sqlite3_result_error(pContext, Tcl_GetStringResult(interp), -1);
1176 }else{
1177 sqlite3_result_text(pContext, Tcl_GetStringResult(interp),
1178 -1, SQLITE_TRANSIENT);
1180 Tcl_ResetResult(interp);
1184 ** This is the xFindFunction implementation for the echo module.
1185 ** SQLite calls this routine when the first argument of a function
1186 ** is a column of an echo virtual table. This routine can optionally
1187 ** override the implementation of that function. It will choose to
1188 ** do so if the function is named "glob", and a TCL command named
1189 ** ::echo_glob_overload exists.
1191 static int echoFindFunction(
1192 sqlite3_vtab *vtab,
1193 int nArg,
1194 const char *zFuncName,
1195 void (**pxFunc)(sqlite3_context*,int,sqlite3_value**),
1196 void **ppArg
1198 echo_vtab *pVtab = (echo_vtab *)vtab;
1199 Tcl_Interp *interp = pVtab->interp;
1200 Tcl_CmdInfo info;
1201 if( strcmp(zFuncName,"glob")!=0 ){
1202 return 0;
1204 if( Tcl_GetCommandInfo(interp, "::echo_glob_overload", &info)==0 ){
1205 return 0;
1207 *pxFunc = overloadedGlobFunction;
1208 *ppArg = interp;
1209 return 1;
1212 static int echoRename(sqlite3_vtab *vtab, const char *zNewName){
1213 int rc = SQLITE_OK;
1214 echo_vtab *p = (echo_vtab *)vtab;
1216 if( simulateVtabError(p, "xRename") ){
1217 return SQLITE_ERROR;
1220 if( p->isPattern ){
1221 int nThis = (int)strlen(p->zThis);
1222 char *zSql = sqlite3_mprintf("ALTER TABLE %s RENAME TO %s%s",
1223 p->zTableName, zNewName, &p->zTableName[nThis]
1225 rc = sqlite3_exec(p->db, zSql, 0, 0, 0);
1226 sqlite3_free(zSql);
1229 return rc;
1232 static int echoSavepoint(sqlite3_vtab *pVTab, int iSavepoint){
1233 assert( pVTab );
1234 return SQLITE_OK;
1237 static int echoRelease(sqlite3_vtab *pVTab, int iSavepoint){
1238 assert( pVTab );
1239 return SQLITE_OK;
1242 static int echoRollbackTo(sqlite3_vtab *pVTab, int iSavepoint){
1243 assert( pVTab );
1244 return SQLITE_OK;
1248 ** A virtual table module that merely "echos" the contents of another
1249 ** table (like an SQL VIEW).
1251 static sqlite3_module echoModule = {
1252 1, /* iVersion */
1253 echoCreate,
1254 echoConnect,
1255 echoBestIndex,
1256 echoDisconnect,
1257 echoDestroy,
1258 echoOpen, /* xOpen - open a cursor */
1259 echoClose, /* xClose - close a cursor */
1260 echoFilter, /* xFilter - configure scan constraints */
1261 echoNext, /* xNext - advance a cursor */
1262 echoEof, /* xEof */
1263 echoColumn, /* xColumn - read data */
1264 echoRowid, /* xRowid - read data */
1265 echoUpdate, /* xUpdate - write data */
1266 echoBegin, /* xBegin - begin transaction */
1267 echoSync, /* xSync - sync transaction */
1268 echoCommit, /* xCommit - commit transaction */
1269 echoRollback, /* xRollback - rollback transaction */
1270 echoFindFunction, /* xFindFunction - function overloading */
1271 echoRename /* xRename - rename the table */
1274 static sqlite3_module echoModuleV2 = {
1275 2, /* iVersion */
1276 echoCreate,
1277 echoConnect,
1278 echoBestIndex,
1279 echoDisconnect,
1280 echoDestroy,
1281 echoOpen, /* xOpen - open a cursor */
1282 echoClose, /* xClose - close a cursor */
1283 echoFilter, /* xFilter - configure scan constraints */
1284 echoNext, /* xNext - advance a cursor */
1285 echoEof, /* xEof */
1286 echoColumn, /* xColumn - read data */
1287 echoRowid, /* xRowid - read data */
1288 echoUpdate, /* xUpdate - write data */
1289 echoBegin, /* xBegin - begin transaction */
1290 echoSync, /* xSync - sync transaction */
1291 echoCommit, /* xCommit - commit transaction */
1292 echoRollback, /* xRollback - rollback transaction */
1293 echoFindFunction, /* xFindFunction - function overloading */
1294 echoRename, /* xRename - rename the table */
1295 echoSavepoint,
1296 echoRelease,
1297 echoRollbackTo
1301 ** Decode a pointer to an sqlite3 object.
1303 extern int getDbPointer(Tcl_Interp *interp, const char *zA, sqlite3 **ppDb);
1304 extern const char *sqlite3ErrName(int);
1306 static void moduleDestroy(void *p){
1307 sqlite3_free(p);
1311 ** Register the echo virtual table module.
1313 static int register_echo_module(
1314 ClientData clientData, /* Pointer to sqlite3_enable_XXX function */
1315 Tcl_Interp *interp, /* The TCL interpreter that invoked this command */
1316 int objc, /* Number of arguments */
1317 Tcl_Obj *CONST objv[] /* Command arguments */
1319 int rc;
1320 sqlite3 *db;
1321 EchoModule *pMod;
1322 if( objc!=2 ){
1323 Tcl_WrongNumArgs(interp, 1, objv, "DB");
1324 return TCL_ERROR;
1326 if( getDbPointer(interp, Tcl_GetString(objv[1]), &db) ) return TCL_ERROR;
1328 /* Virtual table module "echo" */
1329 pMod = sqlite3_malloc(sizeof(EchoModule));
1330 pMod->interp = interp;
1331 rc = sqlite3_create_module_v2(
1332 db, "echo", &echoModule, (void*)pMod, moduleDestroy
1335 /* Virtual table module "echo_v2" */
1336 if( rc==SQLITE_OK ){
1337 pMod = sqlite3_malloc(sizeof(EchoModule));
1338 pMod->interp = interp;
1339 rc = sqlite3_create_module_v2(db, "echo_v2",
1340 &echoModuleV2, (void*)pMod, moduleDestroy
1344 Tcl_SetResult(interp, (char *)sqlite3ErrName(rc), TCL_STATIC);
1345 return TCL_OK;
1349 ** Tcl interface to sqlite3_declare_vtab, invoked as follows from Tcl:
1351 ** sqlite3_declare_vtab DB SQL
1353 static int declare_vtab(
1354 ClientData clientData, /* Pointer to sqlite3_enable_XXX function */
1355 Tcl_Interp *interp, /* The TCL interpreter that invoked this command */
1356 int objc, /* Number of arguments */
1357 Tcl_Obj *CONST objv[] /* Command arguments */
1359 sqlite3 *db;
1360 int rc;
1361 if( objc!=3 ){
1362 Tcl_WrongNumArgs(interp, 1, objv, "DB SQL");
1363 return TCL_ERROR;
1365 if( getDbPointer(interp, Tcl_GetString(objv[1]), &db) ) return TCL_ERROR;
1366 rc = sqlite3_declare_vtab(db, Tcl_GetString(objv[2]));
1367 if( rc!=SQLITE_OK ){
1368 Tcl_SetResult(interp, (char *)sqlite3_errmsg(db), TCL_VOLATILE);
1369 return TCL_ERROR;
1371 return TCL_OK;
1374 #endif /* ifndef SQLITE_OMIT_VIRTUALTABLE */
1377 ** Register commands with the TCL interpreter.
1379 int Sqlitetest8_Init(Tcl_Interp *interp){
1380 #ifndef SQLITE_OMIT_VIRTUALTABLE
1381 static struct {
1382 char *zName;
1383 Tcl_ObjCmdProc *xProc;
1384 void *clientData;
1385 } aObjCmd[] = {
1386 { "register_echo_module", register_echo_module, 0 },
1387 { "sqlite3_declare_vtab", declare_vtab, 0 },
1389 int i;
1390 for(i=0; i<sizeof(aObjCmd)/sizeof(aObjCmd[0]); i++){
1391 Tcl_CreateObjCommand(interp, aObjCmd[i].zName,
1392 aObjCmd[i].xProc, aObjCmd[i].clientData, 0);
1394 #endif
1395 return TCL_OK;