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Remove the ".genfkey" command from the shell. We've had foreign-key support

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in the core since 3.6.19.  Anyone who still needs the simulated foreign-key
triggers can always generate them with an older version of the shell.

FossilOrigin-Name: c4401fc93b66c5339422d7e765a4a32b1ef96bdb
This commit is contained in:
drh
2010-02-23 01:01:58 +00:00
parent 4ec84f35e2
commit 5bd1d051e8
3 changed files with 10 additions and 947 deletions
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937
src/shell.c
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@@ -195,868 +195,6 @@ static void endTimer(void){
*/
#define UNUSED_PARAMETER(x) (void)(x)
/**************************************************************************
***************************************************************************
** Begin genfkey logic.
*/
#if !defined(SQLITE_OMIT_VIRTUALTABLE) && !defined SQLITE_OMIT_SUBQUERY
#define GENFKEY_ERROR 1
#define GENFKEY_DROPTRIGGER 2
#define GENFKEY_CREATETRIGGER 3
static int genfkey_create_triggers(sqlite3 *, const char *, void *,
int (*)(void *, int, const char *)
);
struct GenfkeyCb {
void *pCtx;
int eType;
int (*xData)(void *, int, const char *);
};
typedef struct GenfkeyCb GenfkeyCb;
/* The code in this file defines a sqlite3 virtual-table module that
** provides a read-only view of the current database schema. There is one
** row in the schema table for each column in the database schema.
*/
#define SCHEMA \
"CREATE TABLE x(" \
"database," /* Name of database (i.e. main, temp etc.) */ \
"tablename," /* Name of table */ \
"cid," /* Column number (from left-to-right, 0 upward) */ \
"name," /* Column name */ \
"type," /* Specified type (i.e. VARCHAR(32)) */ \
"not_null," /* Boolean. True if NOT NULL was specified */ \
"dflt_value," /* Default value for this column */ \
"pk" /* True if this column is part of the primary key */ \
")"
#define SCHEMA2 \
"CREATE TABLE x(" \
"database," /* Name of database (i.e. main, temp etc.) */ \
"from_tbl," /* Name of table */ \
"fkid," \
"seq," \
"to_tbl," \
"from_col," \
"to_col," \
"on_update," \
"on_delete," \
"match" \
")"
#define SCHEMA3 \
"CREATE TABLE x(" \
"database," /* Name of database (i.e. main, temp etc.) */ \
"tablename," /* Name of table */ \
"seq," \
"name," \
"isunique" \
")"
#define SCHEMA4 \
"CREATE TABLE x(" \
"database," /* Name of database (i.e. main, temp etc.) */ \
"indexname," /* Name of table */ \
"seqno," \
"cid," \
"name" \
")"
#define SCHEMA5 \
"CREATE TABLE x(" \
"database," /* Name of database (i.e. main, temp etc.) */ \
"triggername," /* Name of trigger */ \
"dummy" /* Unused */ \
")"
typedef struct SchemaTable SchemaTable;
static struct SchemaTable {
const char *zName;
const char *zObject;
const char *zPragma;
const char *zSchema;
} aSchemaTable[] = {
{ "table_info", "table", "PRAGMA %Q.table_info(%Q)", SCHEMA },
{ "foreign_key_list", "table", "PRAGMA %Q.foreign_key_list(%Q)", SCHEMA2 },
{ "index_list", "table", "PRAGMA %Q.index_list(%Q)", SCHEMA3 },
{ "index_info", "index", "PRAGMA %Q.index_info(%Q)", SCHEMA4 },
{ "trigger_list", "trigger", "SELECT 1", SCHEMA5 },
{ 0, 0, 0, 0 }
};
typedef struct schema_vtab schema_vtab;
typedef struct schema_cursor schema_cursor;
/* A schema table object */
struct schema_vtab {
sqlite3_vtab base;
sqlite3 *db;
SchemaTable *pType;
};
/* A schema table cursor object */
struct schema_cursor {
sqlite3_vtab_cursor base;
sqlite3_stmt *pDbList;
sqlite3_stmt *pTableList;
sqlite3_stmt *pColumnList;
int rowid;
};
/*
** Table destructor for the schema module.
*/
static int schemaDestroy(sqlite3_vtab *pVtab){
sqlite3_free(pVtab);
return 0;
}
/*
** Table constructor for the schema module.
*/
static int schemaCreate(
sqlite3 *db,
void *pAux,
int argc, const char *const*argv,
sqlite3_vtab **ppVtab,
char **pzErr
){
int rc = SQLITE_NOMEM;
schema_vtab *pVtab;
SchemaTable *pType = &aSchemaTable[0];
UNUSED_PARAMETER(pzErr);
if( argc>3 ){
int i;
pType = 0;
for(i=0; aSchemaTable[i].zName; i++){
if( 0==strcmp(argv[3], aSchemaTable[i].zName) ){
pType = &aSchemaTable[i];
}
}
if( !pType ){
return SQLITE_ERROR;
}
}
pVtab = sqlite3_malloc(sizeof(schema_vtab));
if( pVtab ){
memset(pVtab, 0, sizeof(schema_vtab));
pVtab->db = (sqlite3 *)pAux;
pVtab->pType = pType;
rc = sqlite3_declare_vtab(db, pType->zSchema);
}
*ppVtab = (sqlite3_vtab *)pVtab;
return rc;
}
/*
** Open a new cursor on the schema table.
*/
static int schemaOpen(sqlite3_vtab *pVTab, sqlite3_vtab_cursor **ppCursor){
int rc = SQLITE_NOMEM;
schema_cursor *pCur;
UNUSED_PARAMETER(pVTab);
pCur = sqlite3_malloc(sizeof(schema_cursor));
if( pCur ){
memset(pCur, 0, sizeof(schema_cursor));
*ppCursor = (sqlite3_vtab_cursor *)pCur;
rc = SQLITE_OK;
}
return rc;
}
/*
** Close a schema table cursor.
*/
static int schemaClose(sqlite3_vtab_cursor *cur){
schema_cursor *pCur = (schema_cursor *)cur;
sqlite3_finalize(pCur->pDbList);
sqlite3_finalize(pCur->pTableList);
sqlite3_finalize(pCur->pColumnList);
sqlite3_free(pCur);
return SQLITE_OK;
}
static void columnToResult(sqlite3_context *ctx, sqlite3_stmt *pStmt, int iCol){
switch( sqlite3_column_type(pStmt, iCol) ){
case SQLITE_NULL:
sqlite3_result_null(ctx);
break;
case SQLITE_INTEGER:
sqlite3_result_int64(ctx, sqlite3_column_int64(pStmt, iCol));
break;
case SQLITE_FLOAT:
sqlite3_result_double(ctx, sqlite3_column_double(pStmt, iCol));
break;
case SQLITE_TEXT: {
const char *z = (const char *)sqlite3_column_text(pStmt, iCol);
sqlite3_result_text(ctx, z, -1, SQLITE_TRANSIENT);
break;
}
}
}
/*
** Retrieve a column of data.
*/
static int schemaColumn(sqlite3_vtab_cursor *cur, sqlite3_context *ctx, int i){
schema_cursor *pCur = (schema_cursor *)cur;
switch( i ){
case 0:
columnToResult(ctx, pCur->pDbList, 1);
break;
case 1:
columnToResult(ctx, pCur->pTableList, 0);
break;
default:
columnToResult(ctx, pCur->pColumnList, i-2);
break;
}
return SQLITE_OK;
}
/*
** Retrieve the current rowid.
*/
static int schemaRowid(sqlite3_vtab_cursor *cur, sqlite_int64 *pRowid){
schema_cursor *pCur = (schema_cursor *)cur;
*pRowid = pCur->rowid;
return SQLITE_OK;
}
static int finalize(sqlite3_stmt **ppStmt){
int rc = sqlite3_finalize(*ppStmt);
*ppStmt = 0;
return rc;
}
static int schemaEof(sqlite3_vtab_cursor *cur){
schema_cursor *pCur = (schema_cursor *)cur;
return (pCur->pDbList ? 0 : 1);
}
/*
** Advance the cursor to the next row.
*/
static int schemaNext(sqlite3_vtab_cursor *cur){
int rc = SQLITE_OK;
schema_cursor *pCur = (schema_cursor *)cur;
schema_vtab *pVtab = (schema_vtab *)(cur->pVtab);
char *zSql = 0;
while( !pCur->pColumnList || SQLITE_ROW!=sqlite3_step(pCur->pColumnList) ){
if( SQLITE_OK!=(rc = finalize(&pCur->pColumnList)) ) goto next_exit;
while( !pCur->pTableList || SQLITE_ROW!=sqlite3_step(pCur->pTableList) ){
if( SQLITE_OK!=(rc = finalize(&pCur->pTableList)) ) goto next_exit;
assert(pCur->pDbList);
while( SQLITE_ROW!=sqlite3_step(pCur->pDbList) ){
rc = finalize(&pCur->pDbList);
goto next_exit;
}
/* Set zSql to the SQL to pull the list of tables from the
** sqlite_master (or sqlite_temp_master) table of the database
** identfied by the row pointed to by the SQL statement pCur->pDbList
** (iterating through a "PRAGMA database_list;" statement).
*/
if( sqlite3_column_int(pCur->pDbList, 0)==1 ){
zSql = sqlite3_mprintf(
"SELECT name FROM sqlite_temp_master WHERE type=%Q",
pVtab->pType->zObject
);
}else{
sqlite3_stmt *pDbList = pCur->pDbList;
zSql = sqlite3_mprintf(
"SELECT name FROM %Q.sqlite_master WHERE type=%Q",
sqlite3_column_text(pDbList, 1), pVtab->pType->zObject
);
}
if( !zSql ){
rc = SQLITE_NOMEM;
goto next_exit;
}
rc = sqlite3_prepare(pVtab->db, zSql, -1, &pCur->pTableList, 0);
sqlite3_free(zSql);
if( rc!=SQLITE_OK ) goto next_exit;
}
/* Set zSql to the SQL to the table_info pragma for the table currently
** identified by the rows pointed to by statements pCur->pDbList and
** pCur->pTableList.
*/
zSql = sqlite3_mprintf(pVtab->pType->zPragma,
sqlite3_column_text(pCur->pDbList, 1),
sqlite3_column_text(pCur->pTableList, 0)
);
if( !zSql ){
rc = SQLITE_NOMEM;
goto next_exit;
}
rc = sqlite3_prepare(pVtab->db, zSql, -1, &pCur->pColumnList, 0);
sqlite3_free(zSql);
if( rc!=SQLITE_OK ) goto next_exit;
}
pCur->rowid++;
next_exit:
/* TODO: Handle rc */
return rc;
}
/*
** Reset a schema table cursor.
*/
static int schemaFilter(
sqlite3_vtab_cursor *pVtabCursor,
int idxNum, const char *idxStr,
int argc, sqlite3_value **argv
){
int rc;
schema_vtab *pVtab = (schema_vtab *)(pVtabCursor->pVtab);
schema_cursor *pCur = (schema_cursor *)pVtabCursor;
UNUSED_PARAMETER(idxNum);
UNUSED_PARAMETER(idxStr);
UNUSED_PARAMETER(argc);
UNUSED_PARAMETER(argv);
pCur->rowid = 0;
finalize(&pCur->pTableList);
finalize(&pCur->pColumnList);
finalize(&pCur->pDbList);
rc = sqlite3_prepare(pVtab->db,"SELECT 0, 'main'", -1, &pCur->pDbList, 0);
return (rc==SQLITE_OK ? schemaNext(pVtabCursor) : rc);
}
/*
** Analyse the WHERE condition.
*/
static int schemaBestIndex(sqlite3_vtab *tab, sqlite3_index_info *pIdxInfo){
UNUSED_PARAMETER(tab);
UNUSED_PARAMETER(pIdxInfo);
return SQLITE_OK;
}
/*
** A virtual table module that merely echos method calls into TCL
** variables.
*/
static sqlite3_module schemaModule = {
0, /* iVersion */
schemaCreate,
schemaCreate,
schemaBestIndex,
schemaDestroy,
schemaDestroy,
schemaOpen, /* xOpen - open a cursor */
schemaClose, /* xClose - close a cursor */
schemaFilter, /* xFilter - configure scan constraints */
schemaNext, /* xNext - advance a cursor */
schemaEof, /* xEof */
schemaColumn, /* xColumn - read data */
schemaRowid, /* xRowid - read data */
0, /* xUpdate */
0, /* xBegin */
0, /* xSync */
0, /* xCommit */
0, /* xRollback */
0, /* xFindMethod */
0, /* xRename */
};
/*
** Extension load function.
*/
static int installSchemaModule(sqlite3 *db, sqlite3 *sdb){
sqlite3_create_module(db, "schema", &schemaModule, (void *)sdb);
return 0;
}
/*
** sj(zValue, zJoin)
**
** The following block contains the implementation of an aggregate
** function that returns a string. Each time the function is stepped,
** it appends data to an internal buffer. When the aggregate is finalized,
** the contents of the buffer are returned.
**
** The first time the aggregate is stepped the buffer is set to a copy
** of the first argument. The second time and subsequent times it is
** stepped a copy of the second argument is appended to the buffer, then
** a copy of the first.
**
** Example:
**
** INSERT INTO t1(a) VALUES('1');
** INSERT INTO t1(a) VALUES('2');
** INSERT INTO t1(a) VALUES('3');
** SELECT sj(a, ', ') FROM t1;
**
** => "1, 2, 3"
**
*/
struct StrBuffer {
char *zBuf;
};
typedef struct StrBuffer StrBuffer;
static void joinFinalize(sqlite3_context *context){
StrBuffer *p;
p = (StrBuffer *)sqlite3_aggregate_context(context, sizeof(StrBuffer));
sqlite3_result_text(context, p->zBuf, -1, SQLITE_TRANSIENT);
sqlite3_free(p->zBuf);
}
static void joinStep(
sqlite3_context *context,
int argc,
sqlite3_value **argv
){
StrBuffer *p;
UNUSED_PARAMETER(argc);
p = (StrBuffer *)sqlite3_aggregate_context(context, sizeof(StrBuffer));
if( p->zBuf==0 ){
p->zBuf = sqlite3_mprintf("%s", sqlite3_value_text(argv[0]));
}else{
char *zTmp = p->zBuf;
p->zBuf = sqlite3_mprintf("%s%s%s",
zTmp, sqlite3_value_text(argv[1]), sqlite3_value_text(argv[0])
);
sqlite3_free(zTmp);
}
}
/*
** dq(zString)
**
** This scalar function accepts a single argument and interprets it as
** a text value. The return value is the argument enclosed in double
** quotes. If any double quote characters are present in the argument,
** these are escaped.
**
** dq('the raven "Nevermore."') == '"the raven ""Nevermore."""'
*/
static void doublequote(
sqlite3_context *context,
int argc,
sqlite3_value **argv
){
int ii;
char *zOut;
char *zCsr;
const char *zIn = (const char *)sqlite3_value_text(argv[0]);
int nIn = sqlite3_value_bytes(argv[0]);
UNUSED_PARAMETER(argc);
zOut = sqlite3_malloc(nIn*2+3);
zCsr = zOut;
*zCsr++ = '"';
for(ii=0; ii<nIn; ii++){
*zCsr++ = zIn[ii];
if( zIn[ii]=='"' ){
*zCsr++ = '"';
}
}
*zCsr++ = '"';
*zCsr++ = '\0';
sqlite3_result_text(context, zOut, -1, SQLITE_TRANSIENT);
sqlite3_free(zOut);
}
/*
** multireplace(zString, zSearch1, zReplace1, ...)
*/
static void multireplace(
sqlite3_context *context,
int argc,
sqlite3_value **argv
){
int i = 0;
char *zOut = 0;
int nOut = 0;
int nMalloc = 0;
const char *zIn = (const char *)sqlite3_value_text(argv[0]);
int nIn = sqlite3_value_bytes(argv[0]);
while( i<nIn ){
const char *zCopy = &zIn[i];
int nCopy = 1;
int nReplace = 1;
int j;
for(j=1; j<(argc-1); j+=2){
const char *z = (const char *)sqlite3_value_text(argv[j]);
int n = sqlite3_value_bytes(argv[j]);
if( n<=(nIn-i) && 0==strncmp(z, zCopy, n) ){
zCopy = (const char *)sqlite3_value_text(argv[j+1]);
nCopy = sqlite3_value_bytes(argv[j+1]);
nReplace = n;
break;
}
}
if( (nOut+nCopy)>nMalloc ){
char *zNew;
nMalloc = 16 + (nOut+nCopy)*2;
zNew = (char*)sqlite3_realloc(zOut, nMalloc);
if( zNew==0 ){
sqlite3_result_error_nomem(context);
return;
}else{
zOut = zNew;
}
}
assert( nMalloc>=(nOut+nCopy) );
memcpy(&zOut[nOut], zCopy, nCopy);
i += nReplace;
nOut += nCopy;
}
sqlite3_result_text(context, zOut, nOut, SQLITE_TRANSIENT);
sqlite3_free(zOut);
}
/*
** A callback for sqlite3_exec() invokes the callback specified by the
** GenfkeyCb structure pointed to by the void* passed as the first argument.
*/
static int invokeCallback(void *p, int nArg, char **azArg, char **azCol){
GenfkeyCb *pCb = (GenfkeyCb *)p;
UNUSED_PARAMETER(nArg);
UNUSED_PARAMETER(azCol);
return pCb->xData(pCb->pCtx, pCb->eType, azArg[0]);
}
static int detectSchemaProblem(
sqlite3 *db, /* Database connection */
const char *zMessage, /* English language error message */
const char *zSql, /* SQL statement to run */
GenfkeyCb *pCb
){
sqlite3_stmt *pStmt;
int rc;
rc = sqlite3_prepare(db, zSql, -1, &pStmt, 0);
if( rc!=SQLITE_OK ){
return rc;
}
while( SQLITE_ROW==sqlite3_step(pStmt) ){
char *zDel;
int iFk = sqlite3_column_int(pStmt, 0);
const char *zTab = (const char *)sqlite3_column_text(pStmt, 1);
zDel = sqlite3_mprintf("Error in table %s: %s", zTab, zMessage);
rc = pCb->xData(pCb->pCtx, pCb->eType, zDel);
sqlite3_free(zDel);
if( rc!=SQLITE_OK ) return rc;
zDel = sqlite3_mprintf(
"DELETE FROM temp.fkey WHERE from_tbl = %Q AND fkid = %d"
, zTab, iFk
);
sqlite3_exec(db, zDel, 0, 0, 0);
sqlite3_free(zDel);
}
sqlite3_finalize(pStmt);
return SQLITE_OK;
}
/*
** Create and populate temporary table "fkey".
*/
static int populateTempTable(sqlite3 *db, GenfkeyCb *pCallback){
int rc;
rc = sqlite3_exec(db,
"CREATE VIRTUAL TABLE temp.v_fkey USING schema(foreign_key_list);"
"CREATE VIRTUAL TABLE temp.v_col USING schema(table_info);"
"CREATE VIRTUAL TABLE temp.v_idxlist USING schema(index_list);"
"CREATE VIRTUAL TABLE temp.v_idxinfo USING schema(index_info);"
"CREATE VIRTUAL TABLE temp.v_triggers USING schema(trigger_list);"
"CREATE TABLE temp.fkey AS "
"SELECT from_tbl, to_tbl, fkid, from_col, to_col, on_update, on_delete "
"FROM temp.v_fkey WHERE database = 'main';"
, 0, 0, 0
);
if( rc!=SQLITE_OK ) return rc;
rc = detectSchemaProblem(db, "foreign key columns do not exist",
"SELECT fkid, from_tbl "
"FROM temp.fkey "
"WHERE to_col IS NOT NULL AND NOT EXISTS (SELECT 1 "
"FROM temp.v_col WHERE tablename=to_tbl AND name==to_col"
")", pCallback
);
if( rc!=SQLITE_OK ) return rc;
/* At this point the temp.fkey table is mostly populated. If any foreign
** keys were specified so that they implicitly refer to they primary
** key of the parent table, the "to_col" values of the temp.fkey rows
** are still set to NULL.
**
** This is easily fixed for single column primary keys, but not for
** composites. With a composite primary key, there is no way to reliably
** query sqlite for the order in which the columns that make up the
** composite key were declared i.e. there is no way to tell if the
** schema actually contains "PRIMARY KEY(a, b)" or "PRIMARY KEY(b, a)".
** Therefore, this case is not handled. The following function call
** detects instances of this case.
*/
rc = detectSchemaProblem(db, "implicit mapping to composite primary key",
"SELECT fkid, from_tbl "
"FROM temp.fkey "
"WHERE to_col IS NULL "
"GROUP BY fkid, from_tbl HAVING count(*) > 1", pCallback
);
if( rc!=SQLITE_OK ) return rc;
/* Detect attempts to implicitly map to the primary key of a table
** that has no primary key column.
*/
rc = detectSchemaProblem(db, "implicit mapping to non-existant primary key",
"SELECT fkid, from_tbl "
"FROM temp.fkey "
"WHERE to_col IS NULL AND NOT EXISTS "
"(SELECT 1 FROM temp.v_col WHERE pk AND tablename = temp.fkey.to_tbl)"
, pCallback
);
if( rc!=SQLITE_OK ) return rc;
/* Fix all the implicit primary key mappings in the temp.fkey table. */
rc = sqlite3_exec(db,
"UPDATE temp.fkey SET to_col = "
"(SELECT name FROM temp.v_col WHERE pk AND tablename=temp.fkey.to_tbl)"
" WHERE to_col IS NULL;"
, 0, 0, 0
);
if( rc!=SQLITE_OK ) return rc;
/* Now check that all all parent keys are either primary keys or
** subject to a unique constraint.
*/
rc = sqlite3_exec(db,
"CREATE TABLE temp.idx2 AS SELECT "
"il.tablename AS tablename,"
"ii.indexname AS indexname,"
"ii.name AS col "
"FROM temp.v_idxlist AS il, temp.v_idxinfo AS ii "
"WHERE il.isunique AND il.database='main' AND ii.indexname = il.name;"
"INSERT INTO temp.idx2 "
"SELECT tablename, 'pk', name FROM temp.v_col WHERE pk;"
"CREATE TABLE temp.idx AS SELECT "
"tablename, indexname, sj(dq(col),',') AS cols "
"FROM (SELECT * FROM temp.idx2 ORDER BY col) "
"GROUP BY tablename, indexname;"
"CREATE TABLE temp.fkey2 AS SELECT "
"fkid, from_tbl, to_tbl, sj(dq(to_col),',') AS cols "
"FROM (SELECT * FROM temp.fkey ORDER BY to_col) "
"GROUP BY fkid, from_tbl;"
"CREATE TABLE temp.triggers AS SELECT "
"triggername FROM temp.v_triggers WHERE database='main' AND "
"triggername LIKE 'genfkey%';"
, 0, 0, 0
);
if( rc!=SQLITE_OK ) return rc;
rc = detectSchemaProblem(db, "foreign key is not unique",
"SELECT fkid, from_tbl "
"FROM temp.fkey2 "
"WHERE NOT EXISTS (SELECT 1 "
"FROM temp.idx WHERE tablename=to_tbl AND fkey2.cols==idx.cols"
")", pCallback
);
if( rc!=SQLITE_OK ) return rc;
return rc;
}
#define GENFKEY_ERROR 1
#define GENFKEY_DROPTRIGGER 2
#define GENFKEY_CREATETRIGGER 3
static int genfkey_create_triggers(
sqlite3 *sdb, /* Connection to read schema from */
const char *zDb, /* Name of db to read ("main", "temp") */
void *pCtx, /* Context pointer to pass to xData */
int (*xData)(void *, int, const char *)
){
const char *zSql =
"SELECT multireplace('"
"-- Triggers for foreign key mapping:\n"
"--\n"
"-- /from_readable/ REFERENCES /to_readable/\n"
"-- on delete /on_delete/\n"
"-- on update /on_update/\n"
"--\n"
/* The "BEFORE INSERT ON <referencing>" trigger. This trigger's job is to
** throw an exception if the user tries to insert a row into the
** referencing table for which there is no corresponding row in
** the referenced table.
*/
"CREATE TRIGGER /name/_insert_referencing BEFORE INSERT ON /tbl/ WHEN \n"
" /key_notnull/ AND NOT EXISTS (SELECT 1 FROM /ref/ WHERE /cond1/)\n"
"BEGIN\n"
" SELECT RAISE(ABORT, ''constraint failed'');\n"
"END;\n"
/* The "BEFORE UPDATE ON <referencing>" trigger. This trigger's job
** is to throw an exception if the user tries to update a row in the
** referencing table causing it to correspond to no row in the
** referenced table.
*/
"CREATE TRIGGER /name/_update_referencing BEFORE\n"
" UPDATE OF /rkey_list/ ON /tbl/ WHEN \n"
" /key_notnull/ AND \n"
" NOT EXISTS (SELECT 1 FROM /ref/ WHERE /cond1/)\n"
"BEGIN\n"
" SELECT RAISE(ABORT, ''constraint failed'');\n"
"END;\n"
/* The "BEFORE DELETE ON <referenced>" trigger. This trigger's job
** is to detect when a row is deleted from the referenced table to
** which rows in the referencing table correspond. The action taken
** depends on the value of the 'ON DELETE' clause.
*/
"CREATE TRIGGER /name/_delete_referenced BEFORE DELETE ON /ref/ WHEN\n"
" EXISTS (SELECT 1 FROM /tbl/ WHERE /cond2/)\n"
"BEGIN\n"
" /delete_action/\n"
"END;\n"
/* The "AFTER UPDATE ON <referenced>" trigger. This trigger's job
** is to detect when the key columns of a row in the referenced table
** to which one or more rows in the referencing table correspond are
** updated. The action taken depends on the value of the 'ON UPDATE'
** clause.
*/
"CREATE TRIGGER /name/_update_referenced AFTER\n"
" UPDATE OF /fkey_list/ ON /ref/ WHEN \n"
" EXISTS (SELECT 1 FROM /tbl/ WHERE /cond2/)\n"
"BEGIN\n"
" /update_action/\n"
"END;\n"
"'"
/* These are used in the SQL comment written above each set of triggers */
", '/from_readable/', from_tbl || '(' || sj(from_col, ', ') || ')'"
", '/to_readable/', to_tbl || '(' || sj(to_col, ', ') || ')'"
", '/on_delete/', on_delete"
", '/on_update/', on_update"
", '/name/', 'genfkey' || min(rowid)"
", '/tbl/', dq(from_tbl)"
", '/ref/', dq(to_tbl)"
", '/key_notnull/', sj('new.' || dq(from_col) || ' IS NOT NULL', ' AND ')"
", '/fkey_list/', sj(dq(to_col), ', ')"
", '/rkey_list/', sj(dq(from_col), ', ')"
", '/cond1/', sj(multireplace('new./from/ == /to/'"
", '/from/', dq(from_col)"
", '/to/', dq(to_col)"
"), ' AND ')"
", '/cond2/', sj(multireplace('old./to/ == /from/'"
", '/from/', dq(from_col)"
", '/to/', dq(to_col)"
"), ' AND ')"
", '/update_action/', CASE on_update "
"WHEN 'SET NULL' THEN "
"multireplace('UPDATE /tbl/ SET /setlist/ WHERE /where/;' "
", '/setlist/', sj(dq(from_col)||' = NULL',', ')"
", '/tbl/', dq(from_tbl)"
", '/where/', sj(dq(from_col)||' = old.'||dq(to_col),' AND ')"
")"
"WHEN 'CASCADE' THEN "
"multireplace('UPDATE /tbl/ SET /setlist/ WHERE /where/;' "
", '/setlist/', sj(dq(from_col)||' = new.'||dq(to_col),', ')"
", '/tbl/', dq(from_tbl)"
", '/where/', sj(dq(from_col)||' = old.'||dq(to_col),' AND ')"
")"
"ELSE "
" 'SELECT RAISE(ABORT, ''constraint failed'');'"
"END "
", '/delete_action/', CASE on_delete "
"WHEN 'SET NULL' THEN "
"multireplace('UPDATE /tbl/ SET /setlist/ WHERE /where/;' "
", '/setlist/', sj(dq(from_col)||' = NULL',', ')"
", '/tbl/', dq(from_tbl)"
", '/where/', sj(dq(from_col)||' = old.'||dq(to_col),' AND ')"
")"
"WHEN 'CASCADE' THEN "
"multireplace('DELETE FROM /tbl/ WHERE /where/;' "
", '/tbl/', dq(from_tbl)"
", '/where/', sj(dq(from_col)||' = old.'||dq(to_col),' AND ')"
")"
"ELSE "
" 'SELECT RAISE(ABORT, ''constraint failed'');'"
"END "
") FROM temp.fkey "
"GROUP BY from_tbl, fkid"
;
int rc;
const int enc = SQLITE_UTF8;
sqlite3 *db = 0;
GenfkeyCb cb;
cb.xData = xData;
cb.pCtx = pCtx;
UNUSED_PARAMETER(zDb);
/* Open the working database handle. */
rc = sqlite3_open(":memory:", &db);
if( rc!=SQLITE_OK ) goto genfkey_exit;
/* Create the special scalar and aggregate functions used by this program. */
sqlite3_create_function(db, "dq", 1, enc, 0, doublequote, 0, 0);
sqlite3_create_function(db, "multireplace", -1, enc, db, multireplace, 0, 0);
sqlite3_create_function(db, "sj", 2, enc, 0, 0, joinStep, joinFinalize);
/* Install the "schema" virtual table module */
installSchemaModule(db, sdb);
/* Create and populate a temp table with the information required to
** build the foreign key triggers. See function populateTempTable()
** for details.
*/
cb.eType = GENFKEY_ERROR;
rc = populateTempTable(db, &cb);
if( rc!=SQLITE_OK ) goto genfkey_exit;
/* Unless the --no-drop option was specified, generate DROP TRIGGER
** statements to drop any triggers in the database generated by a
** previous run of this program.
*/
cb.eType = GENFKEY_DROPTRIGGER;
rc = sqlite3_exec(db,
"SELECT 'DROP TRIGGER main.' || dq(triggername) || ';' FROM triggers"
,invokeCallback, (void *)&cb, 0
);
if( rc!=SQLITE_OK ) goto genfkey_exit;
/* Run the main query to create the trigger definitions. */
cb.eType = GENFKEY_CREATETRIGGER;
rc = sqlite3_exec(db, zSql, invokeCallback, (void *)&cb, 0);
if( rc!=SQLITE_OK ) goto genfkey_exit;
genfkey_exit:
sqlite3_close(db);
return rc;
}
#endif
/* End genfkey logic. */
/*************************************************************************/
/*************************************************************************/
/*
** If the following flag is set, then command execution stops
** at an error if we are not interactive.
@@ -2059,62 +1197,6 @@ static int run_schema_dump_query(
return rc;
}
#if !defined(SQLITE_OMIT_VIRTUALTABLE) && !defined(SQLITE_OMIT_SUBQUERY)
struct GenfkeyCmd {
sqlite3 *db; /* Database handle */
struct callback_data *pCb; /* Callback data */
int isIgnoreErrors; /* True for --ignore-errors */
int isExec; /* True for --exec */
int isNoDrop; /* True for --no-drop */
int nErr; /* Number of errors seen so far */
};
typedef struct GenfkeyCmd GenfkeyCmd;
static int genfkeyParseArgs(GenfkeyCmd *p, char **azArg, int nArg){
int ii;
memset(p, 0, sizeof(GenfkeyCmd));
for(ii=0; ii<nArg; ii++){
int n = strlen30(azArg[ii]);
if( n>2 && n<10 && 0==strncmp(azArg[ii], "--no-drop", n) ){
p->isNoDrop = 1;
}else if( n>2 && n<16 && 0==strncmp(azArg[ii], "--ignore-errors", n) ){
p->isIgnoreErrors = 1;
}else if( n>2 && n<7 && 0==strncmp(azArg[ii], "--exec", n) ){
p->isExec = 1;
}else{
fprintf(stderr, "unknown option: %s\n", azArg[ii]);
return -1;
}
}
return SQLITE_OK;
}
static int genfkeyCmdCb(void *pCtx, int eType, const char *z){
GenfkeyCmd *p = (GenfkeyCmd *)pCtx;
if( eType==GENFKEY_ERROR && !p->isIgnoreErrors ){
p->nErr++;
fprintf(stderr, "%s\n", z);
}
if( p->nErr==0 && (
(eType==GENFKEY_CREATETRIGGER)
|| (eType==GENFKEY_DROPTRIGGER && !p->isNoDrop)
)){
if( p->isExec ){
sqlite3_exec(p->db, z, 0, 0, 0);
}else{
char *zCol = "sql";
callback((void *)p->pCb, 1, (char **)&z, (char **)&zCol);
}
}
return SQLITE_OK;
}
#endif
/*
** Text of a help message
*/
@@ -2129,14 +1211,6 @@ static char zHelp[] =
".exit Exit this program\n"
".explain ?ON|OFF? Turn output mode suitable for EXPLAIN on or off.\n"
" With no args, it turns EXPLAIN on.\n"
#if !defined(SQLITE_OMIT_VIRTUALTABLE) && !defined(SQLITE_OMIT_SUBQUERY)
".genfkey ?OPTIONS? Options are:\n"
" --no-drop: Do not drop old fkey triggers.\n"
" --ignore-errors: Ignore tables with fkey errors\n"
" --exec: Execute generated SQL immediately\n"
" See file tool/genfkey.README in the source \n"
" distribution for further information.\n"
#endif
".header(s) ON|OFF Turn display of headers on or off\n"
".help Show this message\n"
".import FILE TABLE Import data from FILE into TABLE\n"
@@ -2456,17 +1530,6 @@ static int do_meta_command(char *zLine, struct callback_data *p){
}
}else
#if !defined(SQLITE_OMIT_VIRTUALTABLE) && !defined(SQLITE_OMIT_SUBQUERY)
if( c=='g' && strncmp(azArg[0], "genfkey", n)==0 ){
GenfkeyCmd cmd;
if( 0==genfkeyParseArgs(&cmd, &azArg[1], nArg-1) ){
cmd.db = p->db;
cmd.pCb = p;
genfkey_create_triggers(p->db, "main", (void *)&cmd, genfkeyCmdCb);
}
}else
#endif
if( c=='h' && (strncmp(azArg[0], "header", n)==0 ||
strncmp(azArg[0], "headers", n)==0) && nArg>1 && nArg<3 ){
p->showHeader = booleanValue(azArg[1]);