/* ** 2024-02-08 ** ** 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. ** ************************************************************************* */ #include "sqlite3intck.h" #include #include #include #include /* ** nKeyVal: ** The number of values that make up the 'key' for the current pCheck ** statement. ** ** rc: ** Error code returned by most recent sqlite3_intck_step() or ** sqlite3_intck_unlock() call. This is set to SQLITE_DONE when ** the integrity-check operation is finished. ** ** zErr: ** If the object has entered the error state, this is the error message. ** Is freed using sqlite3_free() when the object is deleted. ** ** zTestSql: ** The value returned by the most recent call to sqlite3_intck_testsql(). ** Each call to testsql() frees the previous zTestSql value (using ** sqlite3_free()) and replaces it with the new value it will return. */ struct sqlite3_intck { sqlite3 *db; const char *zDb; /* Copy of zDb parameter to _open() */ char *zObj; /* Current object. Or NULL. */ sqlite3_stmt *pCheck; /* Current check statement */ char *zKey; int nKeyVal; char *zMessage; int bCorruptSchema; int rc; /* Error code */ char *zErr; /* Error message */ char *zTestSql; /* Returned by sqlite3_intck_test_sql() */ }; /* ** Some error has occurred while using database p->db. Save the error message ** and error code currently held by the database handle in p->rc and p->zErr. */ static void intckSaveErrmsg(sqlite3_intck *p){ p->rc = sqlite3_errcode(p->db); sqlite3_free(p->zErr); p->zErr = sqlite3_mprintf("%s", sqlite3_errmsg(p->db)); } /* ** If the handle passed as the first argument is already in the error state, ** then this function is a no-op (returns NULL immediately). Otherwise, if an ** error occurs within this function, it leaves an error in said handle. ** ** Otherwise, this function attempts to prepare SQL statement zSql and ** return the resulting statement handle to the user. */ static sqlite3_stmt *intckPrepare(sqlite3_intck *p, const char *zSql){ sqlite3_stmt *pRet = 0; if( p->rc==SQLITE_OK ){ p->rc = sqlite3_prepare_v2(p->db, zSql, -1, &pRet, 0); if( p->rc!=SQLITE_OK ){ intckSaveErrmsg(p); assert( pRet==0 ); } } return pRet; } /* ** If the handle passed as the first argument is already in the error state, ** then this function is a no-op (returns NULL immediately). Otherwise, if an ** error occurs within this function, it leaves an error in said handle. ** ** Otherwise, this function treats argument zFmt as a printf() style format ** string. It formats it according to the trailing arguments and then ** attempts to prepare the results and return the resulting prepared ** statement. */ static sqlite3_stmt *intckPrepareFmt(sqlite3_intck *p, const char *zFmt, ...){ sqlite3_stmt *pRet = 0; va_list ap; char *zSql = 0; va_start(ap, zFmt); zSql = sqlite3_vmprintf(zFmt, ap); if( p->rc==SQLITE_OK && zSql==0 ){ p->rc = SQLITE_NOMEM; } pRet = intckPrepare(p, zSql); sqlite3_free(zSql); va_end(ap); return pRet; } /* ** Finalize SQL statement pStmt. If an error occurs and the handle passed ** as the first argument does not already contain an error, store the ** error in the handle. */ static void intckFinalize(sqlite3_intck *p, sqlite3_stmt *pStmt){ int rc = sqlite3_finalize(pStmt); if( p->rc==SQLITE_OK && rc!=SQLITE_OK ){ intckSaveErrmsg(p); } } /* ** If there is already an error in handle p, return it. Otherwise, call ** sqlite3_step() on the statement handle and return that value. */ static int intckStep(sqlite3_intck *p, sqlite3_stmt *pStmt){ if( p->rc ) return p->rc; return sqlite3_step(pStmt); } /* ** Execute SQL statement zSql. There is no way to obtain any results ** returned by the statement. This function uses the sqlite3_intck error ** code convention. */ static void intckExec(sqlite3_intck *p, const char *zSql){ sqlite3_stmt *pStmt = 0; pStmt = intckPrepare(p, zSql); intckStep(p, pStmt); intckFinalize(p, pStmt); } /* ** A wrapper around sqlite3_mprintf() that uses the sqlite3_intck error ** code convention. */ static char *intckMprintf(sqlite3_intck *p, const char *zFmt, ...){ va_list ap; char *zRet = 0; va_start(ap, zFmt); zRet = sqlite3_vmprintf(zFmt, ap); if( p->rc==SQLITE_OK ){ if( zRet==0 ){ p->rc = SQLITE_NOMEM; } }else{ sqlite3_free(zRet); zRet = 0; } return zRet; } /* ** This is used by sqlite3_intck_unlock() to save the vector key value ** required to restart the current pCheck query as a nul-terminated string ** in p->zKey. */ static void intckSaveKey(sqlite3_intck *p){ int ii; char *zSql = 0; sqlite3_stmt *pStmt = 0; sqlite3_stmt *pXinfo = 0; const char *zDir = 0; assert( p->pCheck ); assert( p->zKey==0 ); pXinfo = intckPrepareFmt(p, "SELECT group_concat(desc, '') FROM %Q.sqlite_schema s, " "pragma_index_xinfo(%Q, %Q) " "WHERE s.type='index' AND s.name=%Q", p->zDb, p->zObj, p->zDb, p->zObj ); if( p->rc==SQLITE_OK && SQLITE_ROW==sqlite3_step(pXinfo) ){ zDir = (const char*)sqlite3_column_text(pXinfo, 0); } if( zDir==0 ){ /* Object is a table, not an index. This is the easy case,as there are ** no DESC columns or NULL values in a primary key. */ const char *zSep = "SELECT '(' || "; for(ii=0; iinKeyVal; ii++){ zSql = intckMprintf(p, "%z%squote(?)", zSql, zSep); zSep = " || ', ' || "; } zSql = intckMprintf(p, "%z || ')'", zSql); }else{ /* Object is an index. */ assert( p->nKeyVal>1 ); for(ii=p->nKeyVal; ii>0; ii--){ int bLastIsDesc = zDir[ii-1]=='1'; int bLastIsNull = sqlite3_column_type(p->pCheck, ii)==SQLITE_NULL; const char *zLast = sqlite3_column_name(p->pCheck, ii); char *zLhs = 0; char *zRhs = 0; char *zWhere = 0; if( bLastIsNull ){ if( bLastIsDesc ) continue; zWhere = intckMprintf(p, "'%s IS NOT NULL'", zLast); }else{ const char *zOp = bLastIsDesc ? "<" : ">"; zWhere = intckMprintf(p, "'%s %s ' || quote(?%d)", zLast, zOp, ii); } if( ii>1 ){ const char *zLhsSep = ""; const char *zRhsSep = ""; int jj; for(jj=0; jjpCheck,jj+1); zLhs = intckMprintf(p, "%z%s%s", zLhs, zLhsSep, zAlias); zRhs = intckMprintf(p, "%z%squote(?%d)", zRhs, zRhsSep, jj+1); zLhsSep = ","; zRhsSep = " || ',' || "; } zWhere = intckMprintf(p, "'(%z) IS (' || %z || ') AND ' || %z", zLhs, zRhs, zWhere); } zWhere = intckMprintf(p, "'WHERE ' || %z", zWhere); zSql = intckMprintf(p, "%z%s(quote( %z ) )", zSql, (zSql==0 ? "VALUES" : ",\n "), zWhere ); } zSql = intckMprintf(p, "WITH wc(q) AS (\n%z\n)" "SELECT 'VALUES' || group_concat('(' || q || ')', ',\n ') FROM wc" , zSql ); } pStmt = intckPrepare(p, zSql); if( p->rc==SQLITE_OK ){ for(ii=0; iinKeyVal; ii++){ sqlite3_bind_value(pStmt, ii+1, sqlite3_column_value(p->pCheck, ii+1)); } if( SQLITE_ROW==sqlite3_step(pStmt) ){ p->zKey = intckMprintf(p,"%s",(const char*)sqlite3_column_text(pStmt, 0)); } intckFinalize(p, pStmt); } sqlite3_free(zSql); intckFinalize(p, pXinfo); } /* ** Find the next database object (table or index) to check. If successful, ** set sqlite3_intck.zObj to point to a nul-terminated buffer containing ** the object's name before returning. */ static void intckFindObject(sqlite3_intck *p){ sqlite3_stmt *pStmt = 0; char *zPrev = p->zObj; p->zObj = 0; assert( p->rc==SQLITE_OK ); assert( p->pCheck==0 ); pStmt = intckPrepareFmt(p, "WITH tables(table_name) AS (" " SELECT name" " FROM %Q.sqlite_schema WHERE (type='table' OR type='index') AND rootpage" " UNION ALL " " SELECT 'sqlite_schema'" ")" "SELECT table_name FROM tables " "WHERE ?1 IS NULL OR table_name%s?1 " "ORDER BY 1" , p->zDb, (p->zKey ? ">=" : ">") ); if( p->rc==SQLITE_OK ){ sqlite3_bind_text(pStmt, 1, zPrev, -1, SQLITE_TRANSIENT); if( sqlite3_step(pStmt)==SQLITE_ROW ){ p->zObj = intckMprintf(p,"%s",(const char*)sqlite3_column_text(pStmt, 0)); } } intckFinalize(p, pStmt); /* If this is a new object, ensure the previous key value is cleared. */ if( sqlite3_stricmp(p->zObj, zPrev) ){ sqlite3_free(p->zKey); p->zKey = 0; } sqlite3_free(zPrev); } /* ** Return the size in bytes of the first token in nul-terminated buffer z. ** For the purposes of this call, a token is either: ** ** * a quoted SQL string, * * a contiguous series of ascii alphabet characters, or * * any other single byte. */ static int intckGetToken(const char *z){ char c = z[0]; int iRet = 1; if( c=='\'' || c=='"' || c=='`' ){ while( 1 ){ if( z[iRet]==c ){ iRet++; if( z[iRet]!=c ) break; } iRet++; } } else if( c=='[' ){ while( z[iRet++]!=']' && z[iRet] ); } else if( (c>='A' && c<='Z') || (c>='a' && c<='z') ){ while( (z[iRet]>='A' && z[iRet]<='Z') || (z[iRet]>='a' && z[iRet]<='z') ){ iRet++; } } return iRet; } /* ** Return true if argument c is an ascii whitespace character. */ static int intckIsSpace(char c){ return (c==' ' || c=='\t' || c=='\n' || c=='\r'); } /* ** Argument z points to the text of a CREATE INDEX statement. This function ** identifies the part of the text that contains either the index WHERE ** clause (if iCol<0) or the iCol'th column of the index. ** ** If (iCol<0), the identified fragment does not include the "WHERE" keyword, ** only the expression that follows it. If (iCol>=0) then the identified ** fragment does not include any trailing sort-order keywords - "ASC" or ** "DESC". ** ** If the CREATE INDEX statement does not contain the requested field or ** clause, NULL is returned and (*pnByte) is set to 0. Otherwise, a pointer to ** the identified fragment is returned and output parameter (*pnByte) set ** to its size in bytes. */ static const char *intckParseCreateIndex(const char *z, int iCol, int *pnByte){ int iOff = 0; int iThisCol = 0; int iStart = 0; int nOpen = 0; const char *zRet = 0; int nRet = 0; int iEndOfCol = 0; /* Skip forward until the first "(" token */ while( z[iOff]!='(' ){ iOff += intckGetToken(&z[iOff]); if( z[iOff]=='\0' ) return 0; } assert( z[iOff]=='(' ); nOpen = 1; iOff++; iStart = iOff; while( z[iOff] ){ const char *zToken = &z[iOff]; int nToken = 0; /* Check if this is the end of the current column - either a "," or ")" ** when nOpen==1. */ if( nOpen==1 ){ if( z[iOff]==',' || z[iOff]==')' ){ if( iCol==iThisCol ){ int iEnd = iEndOfCol ? iEndOfCol : iOff; nRet = (iEnd - iStart); zRet = &z[iStart]; break; } iStart = iOff+1; while( intckIsSpace(z[iStart]) ) iStart++; iThisCol++; } if( z[iOff]==')' ) break; } if( z[iOff]=='(' ) nOpen++; if( z[iOff]==')' ) nOpen--; nToken = intckGetToken(zToken); if( (nToken==3 && 0==sqlite3_strnicmp(zToken, "ASC", nToken)) || (nToken==4 && 0==sqlite3_strnicmp(zToken, "DESC", nToken)) ){ iEndOfCol = iOff; }else if( 0==intckIsSpace(zToken[0]) ){ iEndOfCol = 0; } iOff += nToken; } /* iStart is now the byte offset of 1 byte passed the final ')' in the ** CREATE INDEX statement. Try to find a WHERE clause to return. */ while( zRet==0 && z[iOff] ){ int n = intckGetToken(&z[iOff]); if( n==5 && 0==sqlite3_strnicmp(&z[iOff], "where", 5) ){ zRet = &z[iOff+5]; nRet = (int)strlen(zRet); } iOff += n; } /* Trim any whitespace from the start and end of the returned string. */ if( zRet ){ while( intckIsSpace(zRet[0]) ){ nRet--; zRet++; } while( nRet>0 && intckIsSpace(zRet[nRet-1]) ) nRet--; } *pnByte = nRet; return zRet; } /* ** User-defined SQL function wrapper for intckParseCreateIndex(): ** ** SELECT parse_create_index(, ); */ static void intckParseCreateIndexFunc( sqlite3_context *pCtx, int nVal, sqlite3_value **apVal ){ const char *zSql = (const char*)sqlite3_value_text(apVal[0]); int idx = sqlite3_value_int(apVal[1]); const char *zRes = 0; int nRes = 0; assert( nVal==2 ); if( zSql ){ zRes = intckParseCreateIndex(zSql, idx, &nRes); } sqlite3_result_text(pCtx, zRes, nRes, SQLITE_TRANSIENT); } /* ** Return true if sqlite3_intck.db has automatic indexes enabled, false ** otherwise. */ static int intckGetAutoIndex(sqlite3_intck *p){ int bRet = 0; sqlite3_stmt *pStmt = 0; pStmt = intckPrepare(p, "PRAGMA automatic_index"); if( SQLITE_ROW==intckStep(p, pStmt) ){ bRet = sqlite3_column_int(pStmt, 0); } intckFinalize(p, pStmt); return bRet; } /* ** Return true if zObj is an index, or false otherwise. */ static int intckIsIndex(sqlite3_intck *p, const char *zObj){ int bRet = 0; sqlite3_stmt *pStmt = 0; pStmt = intckPrepareFmt(p, "SELECT 1 FROM %Q.sqlite_schema WHERE name=%Q AND type='index'", p->zDb, zObj ); if( p->rc==SQLITE_OK && SQLITE_ROW==sqlite3_step(pStmt) ){ bRet = 1; } intckFinalize(p, pStmt); return bRet; } /* ** Return a pointer to a nul-terminated buffer containing the SQL statement ** used to check database object zObj (a table or index) for corruption. ** If parameter zPrev is not NULL, then it must be a string containing the ** vector key required to restart the check where it left off last time. ** If pnKeyVal is not NULL, then (*pnKeyVal) is set to the number of ** columns in the vector key value for the specified object. ** ** This function uses the sqlite3_intck error code convention. */ static char *intckCheckObjectSql( sqlite3_intck *p, /* Integrity check object */ const char *zObj, /* Object (table or index) to scan */ const char *zPrev, /* Restart key vector, if any */ int *pnKeyVal /* OUT: Number of key-values for this scan */ ){ char *zRet = 0; sqlite3_stmt *pStmt = 0; int bAutoIndex = 0; int bIsIndex = 0; const char *zCommon = /* Relation without_rowid also contains just one row. Column "b" is ** set to true if the table being examined is a WITHOUT ROWID table, ** or false otherwise. */ ", without_rowid(b) AS (" " SELECT EXISTS (" " SELECT 1 FROM tabname, pragma_index_list(tab, db) AS l" " WHERE origin='pk' " " AND NOT EXISTS (SELECT 1 FROM sqlite_schema WHERE name=l.name)" " )" ")" "" /* Table idx_cols contains 1 row for each column in each index on the ** table being checked. Columns are: ** ** idx_name: Name of the index. ** idx_ispk: True if this index is the PK of a WITHOUT ROWID table. ** col_name: Name of indexed column, or NULL for index on expression. ** col_expr: Indexed expression, including COLLATE clause. ** col_alias: Alias used for column in 'intck_wrapper' table. */ ", idx_cols(idx_name, idx_ispk, col_name, col_expr, col_alias) AS (" " SELECT l.name, (l.origin=='pk' AND w.b), i.name, COALESCE((" " SELECT parse_create_index(sql, i.seqno) FROM " " sqlite_schema WHERE name = l.name" " ), format('\"%w\"', i.name) || ' COLLATE ' || quote(i.coll))," " 'c' || row_number() OVER ()" " FROM " " tabname t," " without_rowid w," " pragma_index_list(t.tab, t.db) l," " pragma_index_xinfo(l.name) i" " WHERE i.key" " UNION ALL" " SELECT '', 1, '_rowid_', '_rowid_', 'r1' FROM without_rowid WHERE b=0" ")" "" "" /* ** For a PK declared as "PRIMARY KEY(a, b) ... WITHOUT ROWID", where ** the intck_wrapper aliases of "a" and "b" are "c1" and "c2": ** ** o_pk: "o.c1, o.c2" ** i_pk: "i.'a', i.'b'" ** ... ** n_pk: 2 */ ", tabpk(db, tab, idx, o_pk, i_pk, q_pk, eq_pk, ps_pk, pk_pk, n_pk) AS (" " WITH pkfields(f, a) AS (" " SELECT i.col_name, i.col_alias FROM idx_cols i WHERE i.idx_ispk" " )" " SELECT t.db, t.tab, t.idx, " " group_concat(a, ', '), " " group_concat('i.'||quote(f), ', '), " " group_concat('quote(o.'||a||')', ' || '','' || '), " " format('(%s)==(%s)'," " group_concat('o.'||a, ', '), " " group_concat(format('\"%w\"', f), ', ')" " )," " group_concat('%s', ',')," " group_concat('quote('||a||')', ', '), " " count(*)" " FROM tabname t, pkfields" ")" "" ", idx(name, match_expr, partial, partial_alias, idx_ps, idx_idx) AS (" " SELECT idx_name," " format('(%s,%s) IS (%s,%s)', " " group_concat(i.col_expr, ', '), i_pk," " group_concat('o.'||i.col_alias, ', '), o_pk" " ), " " parse_create_index(" " (SELECT sql FROM sqlite_schema WHERE name=idx_name), -1" " )," " 'cond' || row_number() OVER ()" " , group_concat('%s', ',')" " , group_concat('quote('||i.col_alias||')', ', ')" " FROM tabpk t, " " without_rowid w," " idx_cols i" " WHERE i.idx_ispk==0 " " GROUP BY idx_name" ")" "" ", wrapper_with(s) AS (" " SELECT 'intck_wrapper AS (\n SELECT\n ' || (" " WITH f(a, b) AS (" " SELECT col_expr, col_alias FROM idx_cols" " UNION ALL " " SELECT partial, partial_alias FROM idx WHERE partial IS NOT NULL" " )" " SELECT group_concat(format('%s AS %s', a, b), ',\n ') FROM f" " )" " || format('\n FROM %Q.%Q ', t.db, t.tab)" /* If the object being checked is a table, append "NOT INDEXED". ** Otherwise, append "INDEXED BY ", and then, if the index ** is a partial index " WHERE ". */ " || CASE WHEN t.idx IS NULL THEN " " 'NOT INDEXED'" " ELSE" " format('INDEXED BY %Q%s', t.idx, ' WHERE '||i.partial)" " END" " || '\n)'" " FROM tabname t LEFT JOIN idx i ON (i.name=t.idx)" ")" "" ; bAutoIndex = intckGetAutoIndex(p); if( bAutoIndex ) intckExec(p, "PRAGMA automatic_index = 0"); bIsIndex = intckIsIndex(p, zObj); if( bIsIndex ){ pStmt = intckPrepareFmt(p, /* Table idxname contains a single row. The first column, "db", contains ** the name of the db containing the table (e.g. "main") and the second, ** "tab", the name of the table itself. */ "WITH tabname(db, tab, idx) AS (" " SELECT %Q, (SELECT tbl_name FROM %Q.sqlite_schema WHERE name=%Q), %Q " ")" "" ", whereclause(w_c) AS (%s)" "" "%s" /* zCommon */ "" ", case_statement(c) AS (" " SELECT " " 'CASE WHEN (' || group_concat(col_alias, ', ') || ', 1) IS (\n' " " || ' SELECT ' || group_concat(col_expr, ', ') || ', 1 FROM '" " || format('%%Q.%%Q NOT INDEXED WHERE %%s\n', t.db, t.tab, p.eq_pk)" " || ' )\n THEN NULL\n '" " || 'ELSE format(''surplus entry ('" " || group_concat('%%s', ',') || ',' || p.ps_pk" " || ') in index ' || t.idx || ''', ' " " || group_concat('quote('||i.col_alias||')', ', ') || ', ' || p.pk_pk" " || ')'" " || '\n END AS error_message'" " FROM tabname t, tabpk p, idx_cols i WHERE i.idx_name=t.idx" ")" "" ", thiskey(k, n) AS (" " SELECT group_concat(i.col_alias, ', ') || ', ' || p.o_pk, " " count(*) + p.n_pk " " FROM tabpk p, idx_cols i WHERE i.idx_name=p.idx" ")" "" ", main_select(m, n) AS (" " SELECT format(" " 'WITH %%s\n' ||" " ', idx_checker AS (\n' ||" " ' SELECT %%s,\n' ||" " ' %%s\n' || " " ' FROM intck_wrapper AS o\n' ||" " ')\n'," " ww.s, c, t.k" " ), t.n" " FROM case_statement, wrapper_with ww, thiskey t" ")" "SELECT m || " " group_concat('SELECT * FROM idx_checker ' || w_c, ' UNION ALL '), n" " FROM " "main_select, whereclause " , p->zDb, p->zDb, zObj, zObj , zPrev ? zPrev : "VALUES('')", zCommon ); }else{ pStmt = intckPrepareFmt(p, /* Table tabname contains a single row. The first column, "db", contains ** the name of the db containing the table (e.g. "main") and the second, ** "tab", the name of the table itself. */ "WITH tabname(db, tab, idx, prev) AS (SELECT %Q, %Q, NULL, %Q)" "" "%s" /* zCommon */ /* expr(e) contains one row for each index on table zObj. Value e ** is set to an expression that evaluates to NULL if the required ** entry is present in the index, or an error message otherwise. */ ", expr(e, p) AS (" " SELECT format('CASE WHEN EXISTS \n" " (SELECT 1 FROM %%Q.%%Q AS i INDEXED BY %%Q WHERE %%s%%s)\n" " THEN NULL\n" " ELSE format(''entry (%%s,%%s) missing from index %%s'', %%s, %%s)\n" " END\n'" " , t.db, t.tab, i.name, i.match_expr, ' AND (' || partial || ')'," " i.idx_ps, t.ps_pk, i.name, i.idx_idx, t.pk_pk)," " CASE WHEN partial IS NULL THEN NULL ELSE i.partial_alias END" " FROM tabpk t, idx i" ")" ", numbered(ii, cond, e) AS (" " SELECT 0, 'n.ii=0', 'NULL'" " UNION ALL " " SELECT row_number() OVER ()," " '(n.ii='||row_number() OVER ()||COALESCE(' AND '||p||')', ')'), e" " FROM expr" ")" ", counter_with(w) AS (" " SELECT 'WITH intck_counter(ii) AS (\n ' || " " group_concat('SELECT '||ii, ' UNION ALL\n ') " " || '\n)' FROM numbered" ")" "" ", case_statement(c) AS (" " SELECT 'CASE ' || " " group_concat(format('\n WHEN %%s THEN (%%s)', cond, e), '') ||" " '\nEND AS error_message'" " FROM numbered" ")" "" /* This table contains a single row consisting of a single value - ** the text of an SQL expression that may be used by the main SQL ** statement to output an SQL literal that can be used to resume ** the scan if it is suspended. e.g. for a rowid table, an expression ** like: ** ** format('(%d,%d)', _rowid_, n.ii) */ ", thiskey(k, n) AS (" " SELECT o_pk || ', ii', n_pk+1 FROM tabpk" ")" "" ", whereclause(w_c) AS (" " SELECT CASE WHEN prev!='' THEN " " '\nWHERE (' || o_pk ||', n.ii) > ' || prev" " ELSE ''" " END" " FROM tabpk, tabname" ")" "" ", main_select(m, n) AS (" " SELECT format(" " '%%s, %%s\nSELECT %%s,\n%%s\nFROM intck_wrapper AS o" ", intck_counter AS n%%s\nORDER BY %%s', " " w, ww.s, c, thiskey.k, whereclause.w_c, t.o_pk" " ), thiskey.n" " FROM case_statement, tabpk t, counter_with, " " wrapper_with ww, thiskey, whereclause" ")" "SELECT m, n FROM main_select", p->zDb, zObj, zPrev, zCommon ); } while( p->rc==SQLITE_OK && SQLITE_ROW==sqlite3_step(pStmt) ){ zRet = intckMprintf(p, "%s", (const char*)sqlite3_column_text(pStmt, 0)); if( pnKeyVal ){ *pnKeyVal = sqlite3_column_int(pStmt, 1); } } intckFinalize(p, pStmt); if( bAutoIndex ) intckExec(p, "PRAGMA automatic_index = 1"); return zRet; } /* ** Open a new integrity-check object. */ int sqlite3_intck_open( sqlite3 *db, /* Database handle to operate on */ const char *zDbArg, /* "main", "temp" etc. */ sqlite3_intck **ppOut /* OUT: New integrity-check handle */ ){ sqlite3_intck *pNew = 0; int rc = SQLITE_OK; const char *zDb = zDbArg ? zDbArg : "main"; int nDb = (int)strlen(zDb); pNew = (sqlite3_intck*)sqlite3_malloc(sizeof(*pNew) + nDb + 1); if( pNew==0 ){ rc = SQLITE_NOMEM; }else{ memset(pNew, 0, sizeof(*pNew)); pNew->db = db; pNew->zDb = (const char*)&pNew[1]; memcpy(&pNew[1], zDb, nDb+1); rc = sqlite3_create_function(db, "parse_create_index", 2, SQLITE_UTF8, 0, intckParseCreateIndexFunc, 0, 0 ); if( rc!=SQLITE_OK ){ sqlite3_intck_close(pNew); pNew = 0; } } *ppOut = pNew; return rc; } /* ** Free the integrity-check object. */ void sqlite3_intck_close(sqlite3_intck *p){ if( p ){ sqlite3_finalize(p->pCheck); sqlite3_create_function( p->db, "parse_create_index", 1, SQLITE_UTF8, 0, 0, 0, 0 ); sqlite3_free(p->zObj); sqlite3_free(p->zKey); sqlite3_free(p->zTestSql); sqlite3_free(p->zErr); sqlite3_free(p->zMessage); sqlite3_free(p); } } /* ** Step the integrity-check object. */ int sqlite3_intck_step(sqlite3_intck *p){ if( p->rc==SQLITE_OK ){ if( p->zMessage ){ sqlite3_free(p->zMessage); p->zMessage = 0; } if( p->bCorruptSchema ){ p->rc = SQLITE_DONE; }else if( p->pCheck==0 ){ intckFindObject(p); if( p->rc==SQLITE_OK ){ if( p->zObj ){ char *zSql = 0; zSql = intckCheckObjectSql(p, p->zObj, p->zKey, &p->nKeyVal); p->pCheck = intckPrepare(p, zSql); sqlite3_free(zSql); sqlite3_free(p->zKey); p->zKey = 0; }else{ p->rc = SQLITE_DONE; } }else if( p->rc==SQLITE_CORRUPT ){ p->rc = SQLITE_OK; p->zMessage = intckMprintf(p, "%s", "corruption found while reading database schema" ); p->bCorruptSchema = 1; } } if( p->pCheck ){ assert( p->rc==SQLITE_OK ); if( sqlite3_step(p->pCheck)==SQLITE_ROW ){ /* Normal case, do nothing. */ }else{ intckFinalize(p, p->pCheck); p->pCheck = 0; p->nKeyVal = 0; if( p->rc==SQLITE_CORRUPT ){ p->rc = SQLITE_OK; p->zMessage = intckMprintf(p, "corruption found while scanning database object %s", p->zObj ); } } } } return p->rc; } /* ** Return a message describing the corruption encountered by the most recent ** call to sqlite3_intck_step(), or NULL if no corruption was encountered. */ const char *sqlite3_intck_message(sqlite3_intck *p){ assert( p->pCheck==0 || p->zMessage==0 ); if( p->zMessage ){ return p->zMessage; } if( p->pCheck ){ return (const char*)sqlite3_column_text(p->pCheck, 0); } return 0; } /* ** Return the error code and message. */ int sqlite3_intck_error(sqlite3_intck *p, const char **pzErr){ if( pzErr ) *pzErr = p->zErr; return (p->rc==SQLITE_DONE ? SQLITE_OK : p->rc); } /* ** Close any read transaction the integrity-check object is holding open ** on the database. */ int sqlite3_intck_unlock(sqlite3_intck *p){ if( p->rc==SQLITE_OK && p->pCheck ){ assert( p->zKey==0 && p->nKeyVal>0 ); intckSaveKey(p); intckFinalize(p, p->pCheck); p->pCheck = 0; } return p->rc; } /* ** Return the SQL statement used to check object zObj. Or, if zObj is ** NULL, the current SQL statement. */ const char *sqlite3_intck_test_sql(sqlite3_intck *p, const char *zObj){ sqlite3_free(p->zTestSql); if( zObj ){ p->zTestSql = intckCheckObjectSql(p, zObj, 0, 0); }else{ if( p->zObj ){ p->zTestSql = intckCheckObjectSql(p, p->zObj, p->zKey, 0); }else{ sqlite3_free(p->zTestSql); p->zTestSql = 0; } } return p->zTestSql; }