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Add missing comments to fkey.c. Also, change the terminology used for comments and names in fkey.c from "referenced/referencing" to "parent/child". This is arguably less correct, but is easier to follow.

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FossilOrigin-Name: 540c2d18e14c277b55f95729fbafc04ca66466b2
This commit is contained in:
dan
2009-09-23 08:43:35 +00:00
parent 788536b165
commit 8099ce6f4a
7 changed files with 271 additions and 160 deletions
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manifest
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@@ -1,8 +1,5 @@
-----BEGIN PGP SIGNED MESSAGE----- C Add\smissing\scomments\sto\sfkey.c.\sAlso,\schange\sthe\sterminology\sused\sfor\scomments\sand\snames\sin\sfkey.c\sfrom\s"referenced/referencing"\sto\s"parent/child".\sThis\sis\sarguably\sless\scorrect,\sbut\sis\seasier\sto\sfollow.
Hash: SHA1 D 2009-09-23T08:43:36
C Do\snot\srun\sON\sUPDATE\sactions\sof\sa\sforeign\skey\sconstraint\sunless\sat\sleast\sone\ncolumn\svalue\sreally\sdoes\schange.
D 2009-09-23T03:01:59
F Makefile.arm-wince-mingw32ce-gcc fcd5e9cd67fe88836360bb4f9ef4cb7f8e2fb5a0 F Makefile.arm-wince-mingw32ce-gcc fcd5e9cd67fe88836360bb4f9ef4cb7f8e2fb5a0
F Makefile.in 4ca3f1dd6efa2075bcb27f4dc43eef749877740d F Makefile.in 4ca3f1dd6efa2075bcb27f4dc43eef749877740d
F Makefile.linux-gcc d53183f4aa6a9192d249731c90dbdffbd2c68654 F Makefile.linux-gcc d53183f4aa6a9192d249731c90dbdffbd2c68654
@@ -112,14 +109,14 @@ F src/btmutex.c 0f43a75bb5b8147b386e8e1c3e71ba734e3863b7
F src/btree.c 9c425425784c5d569bc0309c22251698ba906451 F src/btree.c 9c425425784c5d569bc0309c22251698ba906451
F src/btree.h 577448a890c2ab9b21e6ab74f073526184bceebe F src/btree.h 577448a890c2ab9b21e6ab74f073526184bceebe
F src/btreeInt.h 1c86297e69380f6577e7ae67452597dd8d5c2705 F src/btreeInt.h 1c86297e69380f6577e7ae67452597dd8d5c2705
F src/build.c b0aee84fe34138eda3b8b4ff2fc0766714139ed3 F src/build.c a6bd2dd725847bb4870f1b3f87d64730773c92bb
F src/callback.c 10d237171472865f58fb07d515737238c9e06688 F src/callback.c 10d237171472865f58fb07d515737238c9e06688
F src/complete.c 5ad5c6cd4548211867c204c41a126d73a9fbcea0 F src/complete.c 5ad5c6cd4548211867c204c41a126d73a9fbcea0
F src/date.c 657ff12ca0f1195b531561afacbb38b772d16638 F src/date.c 657ff12ca0f1195b531561afacbb38b772d16638
F src/delete.c 15499f5d10047d38e68ce991b3f88cbddb6e0931 F src/delete.c 15499f5d10047d38e68ce991b3f88cbddb6e0931
F src/expr.c 8a663240f374a5326ee157df3d27751f58b7676a F src/expr.c 8a663240f374a5326ee157df3d27751f58b7676a
F src/fault.c dc88c821842157460750d2d61a8a8b4197d047ff F src/fault.c dc88c821842157460750d2d61a8a8b4197d047ff
F src/fkey.c de296942345984960792f12ea4236a6bef2f800b F src/fkey.c da1a63c1cb22f4b93ceb743ab471a54648466732
F src/func.c e536218d193b8d326aab91120bc4c6f28aa2b606 F src/func.c e536218d193b8d326aab91120bc4c6f28aa2b606
F src/global.c 271952d199a8cc59d4ce840b3bbbfd2f30c8ba32 F src/global.c 271952d199a8cc59d4ce840b3bbbfd2f30c8ba32
F src/hash.c ebcaa921ffd9d86f7ea5ae16a0a29d1c871130a7 F src/hash.c ebcaa921ffd9d86f7ea5ae16a0a29d1c871130a7
@@ -153,11 +150,11 @@ F src/os_unix.c 5369272992c14dd198c02ddfc2fd7a1516906c40
F src/os_win.c 49a360be4f42d5a63d00be9aa44449ed4d6717e0 F src/os_win.c 49a360be4f42d5a63d00be9aa44449ed4d6717e0
F src/pager.c ebd0a8f2421e8f0ad5b78201440004bf3e1c96d8 F src/pager.c ebd0a8f2421e8f0ad5b78201440004bf3e1c96d8
F src/pager.h 11852d044c86cf5a9d6e34171fb0c4fcf1f6265f F src/pager.h 11852d044c86cf5a9d6e34171fb0c4fcf1f6265f
F src/parse.y 563ecc9e633bbb465383667380aff1646ecd96f7 F src/parse.y 2b75a329a5b3cdcb188609d9a30bb339aecfeddd
F src/pcache.c c92ffd4f3e1279b3766854c6d18b5bf4aac0d1fa F src/pcache.c c92ffd4f3e1279b3766854c6d18b5bf4aac0d1fa
F src/pcache.h 435ef324197f79391f9c92b71d7f92b548ad7a36 F src/pcache.h 435ef324197f79391f9c92b71d7f92b548ad7a36
F src/pcache1.c 211295a9ff6a5b30f1ca50516731a5cf3e9bf82c F src/pcache1.c 211295a9ff6a5b30f1ca50516731a5cf3e9bf82c
F src/pragma.c 031ab58adab8c9ecc5fec68301a8bd899265ec37 F src/pragma.c c25d0d15dd0bbc5ec34e9760629353358705a447
F src/prepare.c 9803fc01f0db29ac4a17fa662902af285f37c06b F src/prepare.c 9803fc01f0db29ac4a17fa662902af285f37c06b
F src/printf.c 508a1c59433353552b6553cba175eaa7331f8fc1 F src/printf.c 508a1c59433353552b6553cba175eaa7331f8fc1
F src/random.c 676b9d7ac820fe81e6fb2394ac8c10cff7f38628 F src/random.c 676b9d7ac820fe81e6fb2394ac8c10cff7f38628
@@ -167,7 +164,7 @@ F src/select.c 1d0a13137532321b4364f964e46f057d271691e3
F src/shell.c d0171721c7402b368e257ddfc09ed54d0c74070c F src/shell.c d0171721c7402b368e257ddfc09ed54d0c74070c
F src/sqlite.h.in 5af8181f815831a8672c3834c60e6b4418448bcc F src/sqlite.h.in 5af8181f815831a8672c3834c60e6b4418448bcc
F src/sqlite3ext.h 1db7d63ab5de4b3e6b83dd03d1a4e64fef6d2a17 F src/sqlite3ext.h 1db7d63ab5de4b3e6b83dd03d1a4e64fef6d2a17
F src/sqliteInt.h 35f0d4203924272b5ae849c88b7b857eda3bb272 F src/sqliteInt.h 98ad725d6915a1f1c618ff317e7b09d79efffe57
F src/sqliteLimit.h 504a3161886d2938cbd163054ad620b8356df758 F src/sqliteLimit.h 504a3161886d2938cbd163054ad620b8356df758
F src/status.c 237b193efae0cf6ac3f0817a208de6c6c6ef6d76 F src/status.c 237b193efae0cf6ac3f0817a208de6c6c6ef6d76
F src/table.c cc86ad3d6ad54df7c63a3e807b5783c90411a08d F src/table.c cc86ad3d6ad54df7c63a3e807b5783c90411a08d
@@ -756,14 +753,7 @@ F tool/speedtest2.tcl ee2149167303ba8e95af97873c575c3e0fab58ff
F tool/speedtest8.c 2902c46588c40b55661e471d7a86e4dd71a18224 F tool/speedtest8.c 2902c46588c40b55661e471d7a86e4dd71a18224
F tool/speedtest8inst1.c 293327bc76823f473684d589a8160bde1f52c14e F tool/speedtest8inst1.c 293327bc76823f473684d589a8160bde1f52c14e
F tool/vdbe-compress.tcl d70ea6d8a19e3571d7ab8c9b75cba86d1173ff0f F tool/vdbe-compress.tcl d70ea6d8a19e3571d7ab8c9b75cba86d1173ff0f
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R 827ec94cc2eb4c57959ec45f4b3d8098 R 2ced32012b9c68891c37e1608fd90d15
U drh U dan
Z ec752338f3000365feb24aa823e5d734 Z 2fdc28dc4452275cfa2178c7993f269c
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2
manifest.uuid
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@@ -1 +1 @@
71ac8e28e55ff0250ebe2fe239159ce2458d9165 540c2d18e14c277b55f95729fbafc04ca66466b2

5
src/build.c
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@@ -2226,9 +2226,8 @@ void sqlite3CreateForeignKey(
} }
} }
pFKey->isDeferred = 0; pFKey->isDeferred = 0;
pFKey->deleteConf = (u8)(flags & 0xff); pFKey->aAction[0] = (u8)(flags & 0xff); /* ON DELETE action */
pFKey->updateConf = (u8)((flags >> 8 ) & 0xff); pFKey->aAction[1] = (u8)((flags >> 8 ) & 0xff); /* ON UPDATE action */
pFKey->insertConf = (u8)((flags >> 16 ) & 0xff);
pNextTo = (FKey *)sqlite3HashInsert(&p->pSchema->fkeyHash, pNextTo = (FKey *)sqlite3HashInsert(&p->pSchema->fkeyHash,
pFKey->zTo, sqlite3Strlen30(pFKey->zTo), (void *)pFKey pFKey->zTo, sqlite3Strlen30(pFKey->zTo), (void *)pFKey

379
src/fkey.c
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@@ -48,26 +48,26 @@
** **
** INSERT operations: ** INSERT operations:
** **
** I.1) For each FK for which the table is the referencing table, search ** I.1) For each FK for which the table is the child table, search
** the referenced table for a match. If none is found, throw an ** the parent table for a match. If none is found, throw an
** exception for an immediate FK, or increment the counter for a ** exception for an immediate FK, or increment the counter for a
** deferred FK. ** deferred FK.
** **
** I.2) For each deferred FK for which the table is the referenced table, ** I.2) For each deferred FK for which the table is the parent table,
** search the referencing table for rows that correspond to the new ** search the child table for rows that correspond to the new
** row in the referenced table. Decrement the counter for each row ** row in the parent table. Decrement the counter for each row
** found (as the constraint is now satisfied). ** found (as the constraint is now satisfied).
** **
** DELETE operations: ** DELETE operations:
** **
** D.1) For each deferred FK for which the table is the referencing table, ** D.1) For each deferred FK for which the table is the child table,
** search the referenced table for a row that corresponds to the ** search the parent table for a row that corresponds to the
** deleted row in the referencing table. If such a row is not found, ** deleted row in the child table. If such a row is not found,
** decrement the counter. ** decrement the counter.
** **
** D.2) For each FK for which the table is the referenced table, search ** D.2) For each FK for which the table is the parent table, search
** the referencing table for rows that correspond to the deleted row ** the child table for rows that correspond to the deleted row
** in the referenced table. For each found, throw an exception for an ** in the parent table. For each found, throw an exception for an
** immediate FK, or increment the counter for a deferred FK. ** immediate FK, or increment the counter for a deferred FK.
** **
** UPDATE operations: ** UPDATE operations:
@@ -87,9 +87,8 @@
** **
** TODO: How should dropping a table be handled? How should renaming a ** TODO: How should dropping a table be handled? How should renaming a
** table be handled? ** table be handled?
*/ **
**
/*
** Query API Notes ** Query API Notes
** --------------- ** ---------------
** **
@@ -99,8 +98,19 @@
** row are required by the FK processing VDBE code (i.e. if FKs were ** row are required by the FK processing VDBE code (i.e. if FKs were
** implemented using triggers, which of the old.* columns would be ** implemented using triggers, which of the old.* columns would be
** accessed). No information is required by the code-generator before ** accessed). No information is required by the code-generator before
** coding an INSERT operation. ** coding an INSERT operation. The functions used by the UPDATE/DELETE
** generation code to query for this information are:
** **
** sqlite3FkRequired() - Test to see if FK processing is required.
** sqlite3FkOldmask() - Query for the set of required old.* columns.
**
**
** Externally accessible module functions
** --------------------------------------
**
** sqlite3FkCheck() - Check for foreign key violations.
** sqlite3FkActions() - Code triggers for ON UPDATE/ON DELETE actions.
** sqlite3FkDelete() - Delete an FKey structure.
*/ */
/* /*
@@ -121,51 +131,63 @@
*/ */
/* /*
** ON UPDATE and ON DELETE clauses ** A foreign key constraint requires that the key columns in the parent
** -------------------------------
*/
/*
** Externally accessible module functions
** --------------------------------------
**
** sqlite3FkRequired()
** sqlite3FkOldmask()
**
** sqlite3FkCheck()
** sqlite3FkActions()
**
** sqlite3FkDelete()
**
*/
/*
** A foreign key constraint requires that the key columns in the referenced
** table are collectively subject to a UNIQUE or PRIMARY KEY constraint. ** table are collectively subject to a UNIQUE or PRIMARY KEY constraint.
** Given that pTo is the referenced table for foreign key constraint ** Given that pParent is the parent table for foreign key constraint pFKey,
** pFKey, check that the columns in pTo are indeed subject to a such a ** search the schema a unique index on the parent key columns.
** constraint. If they are not, return non-zero and leave an error in pParse.
** **
** If an error does not occur, return zero. ** If successful, zero is returned. If the parent key is an INTEGER PRIMARY
** KEY column, then output variable *ppIdx is set to NULL. Otherwise, *ppIdx
** is set to point to the unique index.
**
** If the parent key consists of a single column (the foreign key constraint
** is not a composite foreign key), output variable *paiCol is set to NULL.
** Otherwise, it is set to point to an allocated array of size N, where
** N is the number of columns in the parent key. The first element of the
** array is the index of the child table column that is mapped by the FK
** constraint to the parent table column stored in the left-most column
** of index *ppIdx. The second element of the array is the index of the
** child table column that corresponds to the second left-most column of
** *ppIdx, and so on.
**
** If the required index cannot be found, either because:
**
** 1) The named parent key columns do not exist, or
**
** 2) The named parent key columns do exist, but are not subject to a
** UNIQUE or PRIMARY KEY constraint, or
**
** 3) No parent key columns were provided explicitly as part of the
** foreign key definition, and the parent table does not have a
** PRIMARY KEY, or
**
** 4) No parent key columns were provided explicitly as part of the
** foreign key definition, and the PRIMARY KEY of the parent table
** consists of a a different number of columns to the child key in
** the child table.
**
** then non-zero is returned, and a "foreign key mismatch" error loaded
** into pParse. If an OOM error occurs, non-zero is returned and the
** pParse->db->mallocFailed flag is set.
*/ */
static int locateFkeyIndex( static int locateFkeyIndex(
Parse *pParse, /* Parse context to store any error in */ Parse *pParse, /* Parse context to store any error in */
Table *pTo, /* Referenced table */ Table *pParent, /* Parent table of FK constraint pFKey */
FKey *pFKey, /* Foreign key to find index for */ FKey *pFKey, /* Foreign key to find index for */
Index **ppIdx, /* OUT: Unique index on referenced table */ Index **ppIdx, /* OUT: Unique index on parent table */
int **paiCol /* OUT: Map of index columns in pFKey */ int **paiCol /* OUT: Map of index columns in pFKey */
){ ){
Index *pIdx = 0; Index *pIdx = 0; /* Value to return via *ppIdx */
int *aiCol = 0; int *aiCol = 0; /* Value to return via *paiCol */
int nCol = pFKey->nCol; int nCol = pFKey->nCol; /* Number of columns in parent key */
char *zFirst = pFKey->aCol[0].zCol; char *zKey = pFKey->aCol[0].zCol; /* Name of left-most parent key column */
/* The caller is responsible for zeroing output parameters. */ /* The caller is responsible for zeroing output parameters. */
assert( ppIdx && *ppIdx==0 ); assert( ppIdx && *ppIdx==0 );
assert( !paiCol || *paiCol==0 ); assert( !paiCol || *paiCol==0 );
/* If this is a non-composite (single column) foreign key, check if it /* If this is a non-composite (single column) foreign key, check if it
** maps to the INTEGER PRIMARY KEY of table pTo. If so, leave *ppIdx ** maps to the INTEGER PRIMARY KEY of table pParent. If so, leave *ppIdx
** and *paiCol set to zero and return early. ** and *paiCol set to zero and return early.
** **
** Otherwise, for a composite foreign key (more than one column), allocate ** Otherwise, for a composite foreign key (more than one column), allocate
@@ -177,14 +199,14 @@ static int locateFkeyIndex(
** **
** 1) The FK is explicitly mapped to "rowid", "oid" or "_rowid_", or ** 1) The FK is explicitly mapped to "rowid", "oid" or "_rowid_", or
** 2) There is an explicit INTEGER PRIMARY KEY column and the FK is ** 2) There is an explicit INTEGER PRIMARY KEY column and the FK is
** implicitly mapped to the primary key of table pTo, or ** implicitly mapped to the primary key of table pParent, or
** 3) The FK is explicitly mapped to a column declared as INTEGER ** 3) The FK is explicitly mapped to a column declared as INTEGER
** PRIMARY KEY. ** PRIMARY KEY.
*/ */
if( zFirst && sqlite3IsRowid(zFirst) ) return 0; if( zKey && sqlite3IsRowid(zKey) ) return 0;
if( pTo->iPKey>=0 ){ if( pParent->iPKey>=0 ){
if( !zFirst ) return 0; if( !zKey ) return 0;
if( !sqlite3StrICmp(pTo->aCol[pTo->iPKey].zName, zFirst) ) return 0; if( !sqlite3StrICmp(pParent->aCol[pParent->iPKey].zName, zKey) ) return 0;
} }
}else if( paiCol ){ }else if( paiCol ){
assert( nCol>1 ); assert( nCol>1 );
@@ -193,27 +215,27 @@ static int locateFkeyIndex(
*paiCol = aiCol; *paiCol = aiCol;
} }
for(pIdx=pTo->pIndex; pIdx; pIdx=pIdx->pNext){ for(pIdx=pParent->pIndex; pIdx; pIdx=pIdx->pNext){
if( pIdx->nColumn==nCol && pIdx->onError!=OE_None ){ if( pIdx->nColumn==nCol && pIdx->onError!=OE_None ){
/* pIdx is a UNIQUE index (or a PRIMARY KEY) and has the right number /* pIdx is a UNIQUE index (or a PRIMARY KEY) and has the right number
** of columns. If each indexed column corresponds to a foreign key ** of columns. If each indexed column corresponds to a foreign key
** column of pFKey, then this index is a winner. */ ** column of pFKey, then this index is a winner. */
if( zFirst==0 ){ if( zKey==0 ){
/* If zFirst is NULL, then this foreign key is implicitly mapped to /* If zKey is NULL, then this foreign key is implicitly mapped to
** the PRIMARY KEY of table pTo. The PRIMARY KEY index may be ** the PRIMARY KEY of table pParent. The PRIMARY KEY index may be
** identified by the test (Index.autoIndex==2). */ ** identified by the test (Index.autoIndex==2). */
if( pIdx->autoIndex==2 ){ if( pIdx->autoIndex==2 ){
if( aiCol ) memcpy(aiCol, pIdx->aiColumn, sizeof(int)*nCol); if( aiCol ) memcpy(aiCol, pIdx->aiColumn, sizeof(int)*nCol);
break; break;
} }
}else{ }else{
/* If zFirst is non-NULL, then this foreign key was declared to /* If zKey is non-NULL, then this foreign key was declared to
** map to an explicit list of columns in table pTo. Check if this ** map to an explicit list of columns in table pParent. Check if this
** index matches those columns. */ ** index matches those columns. */
int i, j; int i, j;
for(i=0; i<nCol; i++){ for(i=0; i<nCol; i++){
char *zIdxCol = pTo->aCol[pIdx->aiColumn[i]].zName; char *zIdxCol = pParent->aCol[pIdx->aiColumn[i]].zName;
for(j=0; j<nCol; j++){ for(j=0; j<nCol; j++){
if( sqlite3StrICmp(pFKey->aCol[j].zCol, zIdxCol)==0 ){ if( sqlite3StrICmp(pFKey->aCol[j].zCol, zIdxCol)==0 ){
if( aiCol ) aiCol[i] = pFKey->aCol[j].iFrom; if( aiCol ) aiCol[i] = pFKey->aCol[j].iFrom;
@@ -237,34 +259,60 @@ static int locateFkeyIndex(
return 0; return 0;
} }
static void fkCheckReference( /*
** This function is called when a row is inserted into the child table of
** foreign key constraint pFKey and, if pFKey is deferred, when a row is
** deleted from the child table of pFKey. If an SQL UPDATE is executed on
** the child table of pFKey, this function is invoked twice for each row
** affected - once to "delete" the old row, and then again to "insert" the
** new row.
**
** Each time it is called, this function generates VDBE code to locate the
** row in the parent table that corresponds to the row being inserted into
** or deleted from the child table. If the parent row can be found, no
** special action is taken. Otherwise, if the parent row can *not* be
** found in the parent table:
**
** Operation | FK type | Action taken
** --------------------------------------------------------------------------
** INSERT immediate Throw a "foreign key constraint failed" exception.
**
** INSERT deferred Increment the "deferred constraint counter".
**
** DELETE deferred Decrement the "deferred constraint counter".
**
** This function is never called for a delete on the child table of an
** immediate foreign key constraint. These operations are identified in
** the comment at the top of this file (fkey.c) as "I.1" and "D.1".
*/
static void fkLookupParent(
Parse *pParse, /* Parse context */ Parse *pParse, /* Parse context */
int iDb, /* Index of database housing pTab */ int iDb, /* Index of database housing pTab */
Table *pTab, /* Table referenced by FK pFKey */ Table *pTab, /* Parent table of FK pFKey */
Index *pIdx, /* Index ensuring uniqueness of FK in pTab */ Index *pIdx, /* Unique index on parent key columns in pTab */
FKey *pFKey, /* Foreign key to check */ FKey *pFKey, /* Foreign key constraint */
int *aiCol, /* Map from FK column to referencing table column */ int *aiCol, /* Map from parent key columns to child table columns */
int regData, /* Address of array containing referencing row */ int regData, /* Address of array containing child table row */
int nIncr /* If deferred FK, increment counter by this */ int nIncr /* If deferred FK, increment counter by this */
){ ){
int i; int i; /* Iterator variable */
Vdbe *v = sqlite3GetVdbe(pParse); Vdbe *v = sqlite3GetVdbe(pParse); /* Vdbe to add code to */
int iCur = pParse->nTab - 1; int iCur = pParse->nTab - 1; /* Cursor number to use */
int iOk = sqlite3VdbeMakeLabel(v); int iOk = sqlite3VdbeMakeLabel(v); /* jump here if parent key found */
assert( pFKey->isDeferred || nIncr==1 ); assert( pFKey->isDeferred || nIncr==1 );
/* Check if any of the key columns in the referencing table are /* Check if any of the key columns in the child table row are
** NULL. If any are, then the constraint is satisfied. No need ** NULL. If any are, then the constraint is satisfied. No need
** to search for a matching row in the referenced table. */ ** to search for a matching row in the parent table. */
for(i=0; i<pFKey->nCol; i++){ for(i=0; i<pFKey->nCol; i++){
int iReg = aiCol[i] + regData + 1; int iReg = aiCol[i] + regData + 1;
sqlite3VdbeAddOp2(v, OP_IsNull, iReg, iOk); sqlite3VdbeAddOp2(v, OP_IsNull, iReg, iOk);
} }
if( pIdx==0 ){ if( pIdx==0 ){
/* If pIdx is NULL, then the foreign key constraint references the /* If pIdx is NULL, then the parent key is the INTEGER PRIMARY KEY
** INTEGER PRIMARY KEY column in the referenced table (table pTab). */ ** column of the parent table (table pTab). */
int iReg = pFKey->aCol[0].iFrom + regData + 1; int iReg = pFKey->aCol[0].iFrom + regData + 1;
sqlite3OpenTable(pParse, iCur, iDb, pTab, OP_OpenRead); sqlite3OpenTable(pParse, iCur, iDb, pTab, OP_OpenRead);
sqlite3VdbeAddOp3(v, OP_NotExists, iCur, 0, iReg); sqlite3VdbeAddOp3(v, OP_NotExists, iCur, 0, iReg);
@@ -307,12 +355,37 @@ static void fkCheckReference(
sqlite3VdbeResolveLabel(v, iOk); sqlite3VdbeResolveLabel(v, iOk);
} }
static void fkScanReferences( /*
** This function is called to generate code executed when a row is deleted
** from the parent table of foreign key constraint pFKey and, if pFKey is
** deferred, when a row is inserted into the same table. When generating
** code for an SQL UPDATE operation, this function may be called twice -
** once to "delete" the old row and once to "insert" the new row.
**
** The code generated by this function scans through the rows in the child
** table that correspond to the parent table row being deleted or inserted.
** For each child row found, one of the following actions is taken:
**
** Operation | FK type | Action taken
** --------------------------------------------------------------------------
** DELETE immediate Throw a "foreign key constraint failed" exception.
**
** DELETE deferred Increment the "deferred constraint counter".
** Or, if the ON (UPDATE|DELETE) action is RESTRICT,
** throw a "foreign key constraint failed" exception.
**
** INSERT deferred Decrement the "deferred constraint counter".
**
** This function is never called for an INSERT operation on the parent table
** of an immediate foreign key constraint. These operations are identified in
** the comment at the top of this file (fkey.c) as "I.2" and "D.2".
*/
static void fkScanChildren(
Parse *pParse, /* Parse context */ Parse *pParse, /* Parse context */
SrcList *pSrc, /* SrcList containing the table to scan */ SrcList *pSrc, /* SrcList containing the table to scan */
Index *pIdx, /* Foreign key index */ Index *pIdx, /* Foreign key index */
FKey *pFKey, /* Foreign key relationship */ FKey *pFKey, /* Foreign key relationship */
int *aiCol, /* Map from FK to referenced table columns */ int *aiCol, /* Map from pIdx cols to child table cols */
int regData, /* Referenced table data starts here */ int regData, /* Referenced table data starts here */
int nIncr /* Amount to increment deferred counter by */ int nIncr /* Amount to increment deferred counter by */
){ ){
@@ -323,11 +396,11 @@ static void fkScanReferences(
WhereInfo *pWInfo; /* Context used by sqlite3WhereXXX() */ WhereInfo *pWInfo; /* Context used by sqlite3WhereXXX() */
for(i=0; i<pFKey->nCol; i++){ for(i=0; i<pFKey->nCol; i++){
Expr *pLeft; /* Value from deleted row */ Expr *pLeft; /* Value from parent table row */
Expr *pRight; /* Column ref to referencing table */ Expr *pRight; /* Column ref to child table */
Expr *pEq; /* Expression (pLeft = pRight) */ Expr *pEq; /* Expression (pLeft = pRight) */
int iCol; /* Index of column in referencing table */ int iCol; /* Index of column in child table */
const char *zCol; /* Name of column in referencing table */ const char *zCol; /* Name of column in child table */
pLeft = sqlite3Expr(db, TK_REGISTER, 0); pLeft = sqlite3Expr(db, TK_REGISTER, 0);
if( pLeft ){ if( pLeft ){
@@ -374,7 +447,7 @@ static void fkScanReferences(
/* /*
** This function returns a pointer to the head of a linked list of FK ** This function returns a pointer to the head of a linked list of FK
** constraints that refer to the table passed as an argument. For example, ** constraints for which table pTab is the parent table. For example,
** given the following schema: ** given the following schema:
** **
** CREATE TABLE t1(a PRIMARY KEY); ** CREATE TABLE t1(a PRIMARY KEY);
@@ -383,13 +456,22 @@ static void fkScanReferences(
** Calling this function with table "t1" as an argument returns a pointer ** Calling this function with table "t1" as an argument returns a pointer
** to the FKey structure representing the foreign key constraint on table ** to the FKey structure representing the foreign key constraint on table
** "t2". Calling this function with "t2" as the argument would return a ** "t2". Calling this function with "t2" as the argument would return a
** NULL pointer (as there are no FK constraints that refer to t2). ** NULL pointer (as there are no FK constraints for which t2 is the parent
** table).
*/ */
static FKey *fkRefering(Table *pTab){ static FKey *fkRefering(Table *pTab){
int nName = sqlite3Strlen30(pTab->zName); int nName = sqlite3Strlen30(pTab->zName);
return (FKey *)sqlite3HashFind(&pTab->pSchema->fkeyHash, pTab->zName, nName); return (FKey *)sqlite3HashFind(&pTab->pSchema->fkeyHash, pTab->zName, nName);
} }
/*
** The second argument is a Trigger structure allocated by the
** fkActionTrigger() routine. This function deletes the Trigger structure
** and all of its sub-components.
**
** The Trigger structure or any of its sub-components may be allocated from
** the lookaside buffer belonging to database handle dbMem.
*/
static void fkTriggerDelete(sqlite3 *dbMem, Trigger *p){ static void fkTriggerDelete(sqlite3 *dbMem, Trigger *p){
if( p ){ if( p ){
TriggerStep *pStep = p->step_list; TriggerStep *pStep = p->step_list;
@@ -400,6 +482,29 @@ static void fkTriggerDelete(sqlite3 *dbMem, Trigger *p){
} }
} }
/*
** This function is called when inserting, deleting or updating a row of
** table pTab to generate VDBE code to perform foreign key constraint
** processing for the operation.
**
** For a DELETE operation, parameter regOld is passed the index of the
** first register in an array of (pTab->nCol+1) registers containing the
** rowid of the row being deleted, followed by each of the column values
** of the row being deleted, from left to right. Parameter regNew is passed
** zero in this case.
**
** For an UPDATE operation, regOld is the first in an array of (pTab->nCol+1)
** registers containing the old rowid and column values of the row being
** updated, and regNew is the first in an array of the same size containing
** the corresponding new values. Parameter pChanges is passed the list of
** columns being updated by the statement.
**
** For an INSERT operation, regOld is passed zero and regNew is passed the
** first register of an array of (pTab->nCol+1) registers containing the new
** row data.
**
** If an error occurs, an error message is left in the pParse structure.
*/
void sqlite3FkCheck( void sqlite3FkCheck(
Parse *pParse, /* Parse context */ Parse *pParse, /* Parse context */
Table *pTab, /* Row is being deleted from this table */ Table *pTab, /* Row is being deleted from this table */
@@ -425,21 +530,25 @@ void sqlite3FkCheck(
iDb = sqlite3SchemaToIndex(db, pTab->pSchema); iDb = sqlite3SchemaToIndex(db, pTab->pSchema);
zDb = db->aDb[iDb].zName; zDb = db->aDb[iDb].zName;
/* Loop through all the foreign key constraints attached to the table. */ /* Loop through all the foreign key constraints for which pTab is the
** child table (the table that the foreign key definition is part of). */
for(pFKey=pTab->pFKey; pFKey; pFKey=pFKey->pNextFrom){ for(pFKey=pTab->pFKey; pFKey; pFKey=pFKey->pNextFrom){
Table *pTo; /* Table referenced by this FK */ Table *pTo; /* Parent table of foreign key pFKey */
Index *pIdx = 0; /* Index on key columns in pTo */ Index *pIdx = 0; /* Index on key columns in pTo */
int *aiFree = 0; int *aiFree = 0;
int *aiCol; int *aiCol;
int iCol; int iCol;
int i; int i;
/* If this is a DELETE operation and the foreign key is not deferred,
** nothing to do. A DELETE on the child table cannot cause the FK
** constraint to fail. */
if( pFKey->isDeferred==0 && regNew==0 ) continue; if( pFKey->isDeferred==0 && regNew==0 ) continue;
/* Find the table this foreign key references. Also find a unique /* Find the parent table of this foreign key. Also find a unique index
** index on the referenced table that corresponds to the key columns. ** on the parent key columns in the parent table. If either of these
** If either of these things cannot be located, set an error in pParse ** schema items cannot be located, set an error in pParse and return
** and return early. */ ** early. */
pTo = sqlite3LocateTable(pParse, 0, pFKey->zTo, zDb); pTo = sqlite3LocateTable(pParse, 0, pFKey->zTo, zDb);
if( !pTo || locateFkeyIndex(pParse, pTo, pFKey, &pIdx, &aiFree) ) return; if( !pTo || locateFkeyIndex(pParse, pTo, pFKey, &pIdx, &aiFree) ) return;
assert( pFKey->nCol==1 || (aiFree && pIdx) ); assert( pFKey->nCol==1 || (aiFree && pIdx) );
@@ -461,17 +570,17 @@ void sqlite3FkCheck(
} }
} }
/* Take a shared-cache advisory read-lock on the referenced table. /* Take a shared-cache advisory read-lock on the parent table. Allocate
** Allocate a cursor to use to search the unique index on the FK ** a cursor to use to search the unique index on the parent key columns
** columns in the referenced table. */ ** in the parent table. */
sqlite3TableLock(pParse, iDb, pTo->tnum, 0, pTo->zName); sqlite3TableLock(pParse, iDb, pTo->tnum, 0, pTo->zName);
pParse->nTab++; pParse->nTab++;
if( regOld!=0 && pFKey->isDeferred ){ if( regOld!=0 && pFKey->isDeferred ){
fkCheckReference(pParse, iDb, pTo, pIdx, pFKey, aiCol, regOld, -1); fkLookupParent(pParse, iDb, pTo, pIdx, pFKey, aiCol, regOld, -1);
} }
if( regNew!=0 ){ if( regNew!=0 ){
fkCheckReference(pParse, iDb, pTo, pIdx, pFKey, aiCol, regNew, +1); fkLookupParent(pParse, iDb, pTo, pIdx, pFKey, aiCol, regNew, +1);
} }
sqlite3DbFree(db, aiFree); sqlite3DbFree(db, aiFree);
@@ -494,16 +603,16 @@ void sqlite3FkCheck(
*/ */
if( pFKey->isDeferred==0 ){ if( pFKey->isDeferred==0 ){
if( regOld==0 ) continue; /* 1 */ if( regOld==0 ) continue; /* 1 */
if( regNew!=0 && pFKey->updateConf>OE_Restrict ) continue; /* 2 */ if( regNew!=0 && pFKey->aAction[1]>OE_Restrict ) continue; /* 2 */
if( regNew==0 && pFKey->deleteConf>OE_Restrict ) continue; /* 3 */ if( regNew==0 && pFKey->aAction[0]>OE_Restrict ) continue; /* 3 */
} }
if( locateFkeyIndex(pParse, pTab, pFKey, &pIdx, &aiCol) ) return; if( locateFkeyIndex(pParse, pTab, pFKey, &pIdx, &aiCol) ) return;
assert( aiCol || pFKey->nCol==1 ); assert( aiCol || pFKey->nCol==1 );
/* Check if this update statement has modified any of the key columns /* Check if this update statement has modified any of the child key
** for this foreign key constraint. If it has not, there is no need ** columns for this foreign key constraint. If it has not, there is
** to search the referencing table for rows in violation. This is ** no need to search the child table for rows in violation. This is
** just an optimization. Things would work fine without this check. */ ** just an optimization. Things would work fine without this check. */
if( pChanges ){ if( pChanges ){
/* TODO */ /* TODO */
@@ -519,8 +628,8 @@ void sqlite3FkCheck(
pSrc->a->iCursor = pParse->nTab++; pSrc->a->iCursor = pParse->nTab++;
/* If this is an UPDATE, and none of the columns associated with this /* If this is an UPDATE, and none of the columns associated with this
** FK have been modified, do not scan the referencing table. Unlike ** FK have been modified, do not scan the child table. Unlike the
** the compile-time test implemented above, this is not just an ** compile-time test implemented above, this is not just an
** optimization. It is required so that immediate foreign keys do not ** optimization. It is required so that immediate foreign keys do not
** throw exceptions when the user executes a statement like: ** throw exceptions when the user executes a statement like:
** **
@@ -537,18 +646,17 @@ void sqlite3FkCheck(
} }
if( regNew!=0 && pFKey->isDeferred ){ if( regNew!=0 && pFKey->isDeferred ){
fkScanReferences(pParse, pSrc, pIdx, pFKey, aiCol, regNew, -1); fkScanChildren(pParse, pSrc, pIdx, pFKey, aiCol, regNew, -1);
} }
if( regOld!=0 ){ if( regOld!=0 ){
/* If there is a RESTRICT action configured for the current operation /* If there is a RESTRICT action configured for the current operation
** on the referenced table of this FK, then throw an exception ** on the parent table of this FK, then throw an exception
** immediately if the FK constraint is violated, even if this is a ** immediately if the FK constraint is violated, even if this is a
** deferred trigger. That's what RESTRICT means. To defer checking ** deferred trigger. That's what RESTRICT means. To defer checking
** the constraint, the FK should specify NO ACTION (represented ** the constraint, the FK should specify NO ACTION (represented
** using OE_None). NO ACTION is the default. */ ** using OE_None). NO ACTION is the default. */
fkScanReferences(pParse, pSrc, pIdx, pFKey, aiCol, regOld, fkScanChildren(pParse, pSrc, pIdx, pFKey, aiCol, regOld,
(pChanges!=0 && pFKey->updateConf!=OE_Restrict) pFKey->aAction[pChanges!=0]!=OE_Restrict
|| (pChanges==0 && pFKey->deleteConf!=OE_Restrict)
); );
} }
@@ -619,8 +727,37 @@ int sqlite3FkRequired(
return 0; return 0;
} }
/*
** This function is called when an UPDATE or DELETE operation is being
** compiled on table pTab, which is the parent table of foreign-key pFKey.
** If the current operation is an UPDATE, then the pChanges parameter is
** passed a pointer to the list of columns being modified. If it is a
** DELETE, pChanges is passed a NULL pointer.
**
** It returns a pointer to a Trigger structure containing a trigger
** equivalent to the ON UPDATE or ON DELETE action specified by pFKey.
** If the action is "NO ACTION" or "RESTRICT", then a NULL pointer is
** returned (these actions require no special handling by the triggers
** sub-system, code for them is created by fkScanChildren()).
**
** For example, if pFKey is the foreign key and pTab is table "p" in
** the following schema:
**
** CREATE TABLE p(pk PRIMARY KEY);
** CREATE TABLE c(ck REFERENCES p ON DELETE CASCADE);
**
** then the returned trigger structure is equivalent to:
**
** CREATE TRIGGER ... DELETE ON p BEGIN
** DELETE FROM c WHERE ck = old.pk;
** END;
**
** The returned pointer is cached as part of the foreign key object. It
** is eventually freed along with the rest of the foreign key object by
** sqlite3FkDelete().
*/
static Trigger *fkActionTrigger( static Trigger *fkActionTrigger(
Parse *pParse, Parse *pParse, /* Parse context */
Table *pTab, /* Table being updated or deleted from */ Table *pTab, /* Table being updated or deleted from */
FKey *pFKey, /* Foreign key to get action for */ FKey *pFKey, /* Foreign key to get action for */
ExprList *pChanges /* Change-list for UPDATE, NULL for DELETE */ ExprList *pChanges /* Change-list for UPDATE, NULL for DELETE */
@@ -628,21 +765,17 @@ static Trigger *fkActionTrigger(
sqlite3 *db = pParse->db; /* Database handle */ sqlite3 *db = pParse->db; /* Database handle */
int action; /* One of OE_None, OE_Cascade etc. */ int action; /* One of OE_None, OE_Cascade etc. */
Trigger *pTrigger; /* Trigger definition to return */ Trigger *pTrigger; /* Trigger definition to return */
int iAction = (pChanges!=0); /* 1 for UPDATE, 0 for DELETE */
if( pChanges ){ action = pFKey->aAction[iAction];
action = pFKey->updateConf; pTrigger = pFKey->apTrigger[iAction];
pTrigger = pFKey->pOnUpdate;
}else{
action = pFKey->deleteConf;
pTrigger = pFKey->pOnDelete;
}
assert( OE_SetNull>OE_Restrict && OE_SetDflt>OE_Restrict ); assert( OE_SetNull>OE_Restrict && OE_SetDflt>OE_Restrict );
assert( OE_Cascade>OE_Restrict && OE_None<OE_Restrict ); assert( OE_Cascade>OE_Restrict && OE_None<OE_Restrict );
if( action>OE_Restrict && !pTrigger ){ if( action>OE_Restrict && !pTrigger ){
u8 enableLookaside; /* Copy of db->lookaside.bEnabled */ u8 enableLookaside; /* Copy of db->lookaside.bEnabled */
char const *zFrom; /* Name of referencing table */ char const *zFrom; /* Name of child table */
int nFrom; /* Length in bytes of zFrom */ int nFrom; /* Length in bytes of zFrom */
Index *pIdx = 0; /* Parent key index for this FK */ Index *pIdx = 0; /* Parent key index for this FK */
int *aiCol = 0; /* child table cols -> parent key cols */ int *aiCol = 0; /* child table cols -> parent key cols */
@@ -658,9 +791,9 @@ static Trigger *fkActionTrigger(
for(i=0; i<pFKey->nCol; i++){ for(i=0; i<pFKey->nCol; i++){
Token tOld = { "old", 3 }; /* Literal "old" token */ Token tOld = { "old", 3 }; /* Literal "old" token */
Token tNew = { "new", 3 }; /* Literal "new" token */ Token tNew = { "new", 3 }; /* Literal "new" token */
Token tFromCol; /* Name of column in referencing table */ Token tFromCol; /* Name of column in child table */
Token tToCol; /* Name of column in referenced table */ Token tToCol; /* Name of column in parent table */
int iFromCol; /* Idx of column in referencing table */ int iFromCol; /* Idx of column in child table */
Expr *pEq; /* tFromCol = OLD.tToCol */ Expr *pEq; /* tFromCol = OLD.tToCol */
iFromCol = aiCol ? aiCol[i] : pFKey->aCol[0].iFrom; iFromCol = aiCol ? aiCol[i] : pFKey->aCol[0].iFrom;
@@ -766,16 +899,8 @@ static Trigger *fkActionTrigger(
pStep->pTrig = pTrigger; pStep->pTrig = pTrigger;
pTrigger->pSchema = pTab->pSchema; pTrigger->pSchema = pTab->pSchema;
pTrigger->pTabSchema = pTab->pSchema; pTrigger->pTabSchema = pTab->pSchema;
pFKey->apTrigger[iAction] = pTrigger;
if( pChanges ){ pTrigger->op = (pChanges ? TK_UPDATE : TK_DELETE);
pFKey->pOnUpdate = pTrigger;
pTrigger->op = TK_UPDATE;
pStep->op = TK_UPDATE;
}else{
pFKey->pOnDelete = pTrigger;
pTrigger->op = TK_DELETE;
pStep->op = (action==OE_Cascade)?TK_DELETE:TK_UPDATE;
}
} }
return pTrigger; return pTrigger;
@@ -833,8 +958,8 @@ void sqlite3FkDelete(Table *pTab){
/* Delete any triggers created to implement actions for this FK. */ /* Delete any triggers created to implement actions for this FK. */
#ifndef SQLITE_OMIT_TRIGGER #ifndef SQLITE_OMIT_TRIGGER
fkTriggerDelete(pTab->dbMem, pFKey->pOnDelete); fkTriggerDelete(pTab->dbMem, pFKey->apTrigger[0]);
fkTriggerDelete(pTab->dbMem, pFKey->pOnUpdate); fkTriggerDelete(pTab->dbMem, pFKey->apTrigger[1]);
#endif #endif
/* Delete the memory allocated for the FK structure. */ /* Delete the memory allocated for the FK structure. */

2
src/parse.y
View File

@@ -314,7 +314,7 @@ autoinc(X) ::= AUTOINCR. {X = 1;}
// check fails. // check fails.
// //
%type refargs {int} %type refargs {int}
refargs(A) ::= . { A = OE_None * 0x010101; } refargs(A) ::= . { A = OE_None * 0x000101; }
refargs(A) ::= refargs(X) refarg(Y). { A = (X & ~Y.mask) | Y.value; } refargs(A) ::= refargs(X) refarg(Y). { A = (X & ~Y.mask) | Y.value; }
%type refarg {struct {int value; int mask;}} %type refarg {struct {int value; int mask;}}
refarg(A) ::= MATCH nm. { A.value = 0; A.mask = 0x000000; } refarg(A) ::= MATCH nm. { A.value = 0; A.mask = 0x000000; }

4
src/pragma.c
View File

@@ -981,8 +981,8 @@ void sqlite3Pragma(
int j; int j;
for(j=0; j<pFK->nCol; j++){ for(j=0; j<pFK->nCol; j++){
char *zCol = pFK->aCol[j].zCol; char *zCol = pFK->aCol[j].zCol;
char *zOnUpdate = (char *)actionName(pFK->updateConf); char *zOnDelete = (char *)actionName(pFK->aAction[0]);
char *zOnDelete = (char *)actionName(pFK->deleteConf); char *zOnUpdate = (char *)actionName(pFK->aAction[1]);
sqlite3VdbeAddOp2(v, OP_Integer, i, 1); sqlite3VdbeAddOp2(v, OP_Integer, i, 1);
sqlite3VdbeAddOp2(v, OP_Integer, j, 2); sqlite3VdbeAddOp2(v, OP_Integer, j, 2);
sqlite3VdbeAddOp4(v, OP_String8, 0, 3, 0, pFK->zTo, 0); sqlite3VdbeAddOp4(v, OP_String8, 0, 3, 0, pFK->zTo, 0);

7
src/sqliteInt.h
View File

@@ -1290,11 +1290,8 @@ struct FKey {
FKey *pPrevTo; /* Previous foreign key on table named zTo */ FKey *pPrevTo; /* Previous foreign key on table named zTo */
int nCol; /* Number of columns in this key */ int nCol; /* Number of columns in this key */
u8 isDeferred; /* True if constraint checking is deferred till COMMIT */ u8 isDeferred; /* True if constraint checking is deferred till COMMIT */
u8 updateConf; /* How to resolve conflicts that occur on UPDATE */ u8 aAction[2]; /* ON DELETE and ON UPDATE actions, respectively */
u8 deleteConf; /* How to resolve conflicts that occur on DELETE */ Trigger *apTrigger[2]; /* Triggers for aAction[] actions */
u8 insertConf; /* How to resolve conflicts that occur on INSERT */
Trigger *pOnUpdate; /* Trigger for AFTER UPDATE ON zTo */
Trigger *pOnDelete; /* Trigger for AFTER DELETE ON zTo */
struct sColMap { /* Mapping of columns in pFrom to columns in zTo */ struct sColMap { /* Mapping of columns in pFrom to columns in zTo */
int iFrom; /* Index of column in pFrom */ int iFrom; /* Index of column in pFrom */
char *zCol; /* Name of column in zTo. If 0 use PRIMARY KEY */ char *zCol; /* Name of column in zTo. If 0 use PRIMARY KEY */