Exemplo n.º 1
0
        static TriggerPrg GetRowTrigger(Parse parse, Trigger trigger, Table table, OE orconf)
        {
            Parse root = E.Parse_Toplevel(parse);
            Debug.Assert(trigger.Name == null || table == TableOfTrigger(trigger));

            // It may be that this trigger has already been coded (or is in the process of being coded). If this is the case, then an entry with
            // a matching TriggerPrg.pTrigger field will be present somewhere in the Parse.pTriggerPrg list. Search for such an entry.
            TriggerPrg prg;
            for (prg = root.TriggerPrg; prg != null && (prg.Trigger != trigger || prg.Orconf != orconf); prg = prg.Next) ;
            // If an existing TriggerPrg could not be located, create a new one.
            if (prg == null)
                prg = CodeRowTrigger(parse, trigger, table, orconf);
            return prg;
        }
Exemplo n.º 2
0
        public static void BeginTrigger(Parse parse, Token name1, Token name2, TK trTm, TK op, IdList columns, SrcList tableName, Expr when, bool isTemp, int noErr)
        {
            Context ctx = parse.Ctx; // The database connection
            Debug.Assert(name1 != null);   // pName1.z might be NULL, but not pName1 itself
            Debug.Assert(name2 != null);
            Debug.Assert(op == TK.INSERT || op == TK.UPDATE || op == TK.DELETE);
            Debug.Assert(op > 0 && op < (TK)0xff);
            Trigger trigger = null; // The new trigger

            int db; // The database to store the trigger in
            Token name = null; // The unqualified db name
            if (isTemp)
            {
                // If TEMP was specified, then the trigger name may not be qualified.
                if (name2.length > 0)
                {
                    parse.ErrorMsg("temporary trigger may not have qualified name");
                    goto trigger_cleanup;
                }
                db = 1;
                name = name1;
            }
            else
            {
                // Figure out the db that the the trigger will be created in
                db = parse.TwoPartName(name1, name2, ref name);
                if (db < 0)
                    goto trigger_cleanup;
            }
            if (tableName == null || ctx.MallocFailed)
                goto trigger_cleanup;

            // A long-standing parser bug is that this syntax was allowed:
            //    CREATE TRIGGER attached.demo AFTER INSERT ON attached.tab ....
            //                                                 ^^^^^^^^
            // To maintain backwards compatibility, ignore the database name on pTableName if we are reparsing our of SQLITE_MASTER.
            if (ctx.Init.Busy && db != 1)
            {
                C._tagfree(ctx, ref tableName.Ids[0].Database);
                tableName.Ids[0].Database = null;
            }

            // If the trigger name was unqualified, and the table is a temp table, then set iDb to 1 to create the trigger in the temporary database.
            // If sqlite3SrcListLookup() returns 0, indicating the table does not exist, the error is caught by the block below.
            //? if (tableName == null) goto trigger_cleanup;
            Table table = Delete.SrcListLookup(parse, tableName); // Table that the trigger fires off of
            if (ctx.Init.Busy == null && name2.length == 0 && table != null && table.Schema == ctx.DBs[1].Schema)
                db = 1;

            // Ensure the table name matches database name and that the table exists
            if (ctx.MallocFailed) goto trigger_cleanup;
            Debug.Assert(tableName.Srcs == 1);
            DbFixer sFix = new DbFixer(); // State vector for the DB fixer
            if (sFix.FixInit(parse, db, "trigger", name) && sFix.FixSrcList(tableName))
                goto trigger_cleanup;
            table = Delete.SrcListLookup(parse, tableName);
            if (table == null)
            {
                // The table does not exist.
                if (ctx.Init.DB == 1)
                {
                    // Ticket #3810.
                    // Normally, whenever a table is dropped, all associated triggers are dropped too.  But if a TEMP trigger is created on a non-TEMP table
                    // and the table is dropped by a different database connection, the trigger is not visible to the database connection that does the
                    // drop so the trigger cannot be dropped.  This results in an "orphaned trigger" - a trigger whose associated table is missing.
                    ctx.Init.OrphanTrigger = true;
                }
                goto trigger_cleanup;
            }
            if (E.IsVirtual(table))
            {
                parse.ErrorMsg("cannot create triggers on virtual tables");
                goto trigger_cleanup;
            }

            // Check that the trigger name is not reserved and that no trigger of the specified name exists
            string nameAsString = Parse.NameFromToken(ctx, name);
            if (nameAsString == null || parse.CheckObjectName(nameAsString) != RC.OK)
                goto trigger_cleanup;
            Debug.Assert(Btree.SchemaMutexHeld(ctx, db, null));
            if (ctx.DBs[db].Schema.TriggerHash.Find(nameAsString, nameAsString.Length, (Trigger)null) != null)
            {
                if (noErr == 0)
                    parse.ErrorMsg("trigger %T already exists", name);
                else
                {
                    Debug.Assert(!ctx.Init.Busy);
                    parse.CodeVerifySchema(db);
                }
                goto trigger_cleanup;
            }

            // Do not create a trigger on a system table
            if (table.Name.StartsWith("sqlite_", StringComparison.InvariantCultureIgnoreCase))
            {
                parse.ErrorMsg("cannot create trigger on system table");
                parse.Errs++;
                goto trigger_cleanup;
            }

            // INSTEAD of triggers are only for views and views only support INSTEAD of triggers.
            if (table.Select != null && trTm != TK.INSTEAD)
            {
                parse.ErrorMsg("cannot create %s trigger on view: %S", (trTm == TK.BEFORE ? "BEFORE" : "AFTER"), tableName, 0);
                goto trigger_cleanup;
            }
            if (table.Select == null && trTm == TK.INSTEAD)
            {
                parse.ErrorMsg("cannot create INSTEAD OF trigger on table: %S", tableName, 0);
                goto trigger_cleanup;
            }

#if !OMIT_AUTHORIZATION
            {
                int tabDb = Prepare.SchemaToIndex(ctx, table.Schema); // Index of the database holding pTab
                AUTH code = AUTH.CREATE_TRIGGER;
                string dbName = ctx.DBs[tabDb].Name;
                string dbTrigName = (isTemp ? ctx.DBs[1].Name : dbName);
                if (tabDb == 1 || isTemp) code = AUTH.CREATE_TEMP_TRIGGER;
                if (Auth.Check(parse, code, nameAsString, table.Name, dbTrigName) != 0 || Auth.Check(parse, AUTH.INSERT, E.SCHEMA_TABLE(tabDb), 0, dbName))
                    goto trigger_cleanup;
            }
#endif

            // INSTEAD OF triggers can only appear on views and BEFORE triggers cannot appear on views.  So we might as well translate every
            // INSTEAD OF trigger into a BEFORE trigger.  It simplifies code elsewhere.
            if (trTm == TK.INSTEAD)
                trTm = TK.BEFORE;

            // Build the Trigger object
            trigger = new Trigger(); //: (Trigger *)_tagalloc(db, sizeof(Trigger), true);
            if (trigger == null) goto trigger_cleanup;
            trigger.Name = name;
            trigger.Table = tableName.Ids[0].Name; //: _tagstrdup(ctx, tableName->Ids[0].Name);
            trigger.Schema = ctx.DBs[db].Schema;
            trigger.TabSchema = table.Schema;
            trigger.OP = op;
            trigger.TRtm = (trTm == TK.BEFORE ? TRIGGER.BEFORE : TRIGGER.AFTER);
            trigger.When = Expr.Dup(db, when, E.EXPRDUP_REDUCE);
            trigger.Columns = Expr.IdListDup(ctx, columns);
            Debug.Assert(parse.NewTrigger == null);
            parse.NewTrigger = trigger;

        trigger_cleanup:
            C._tagfree(ctx, ref name);
            Expr.SrcListDelete(ctx, ref tableName);
            Expr.IdListDelete(ctx, ref columns);
            Expr.Delete(ctx, ref when);
            if (parse.NewTrigger == null)
                DeleteTrigger(ctx, ref trigger);
            else
                Debug.Assert(parse.NewTrigger == trigger);
        }
Exemplo n.º 3
0
        static TriggerPrg CodeRowTrigger(Parse parse, Trigger trigger, Table table, OE orconf)
        {
            Parse top = E.Parse_Toplevel(parse);
            Context ctx = parse.Ctx; // Database handle

            Debug.Assert(trigger.Name == null || table == TableOfTrigger(trigger));
            Debug.Assert(top.V != null);

            // Allocate the TriggerPrg and SubProgram objects. To ensure that they are freed if an error occurs, link them into the Parse.pTriggerPrg 
            // list of the top-level Parse object sooner rather than later.
            TriggerPrg prg = new TriggerPrg(); // Value to return //: _tagalloc(ctx, sizeof(TriggerPrg), true);
            if (prg == null) return null;
            prg.Next = top.TriggerPrg;
            top.TriggerPrg = prg;
            Vdbe.SubProgram program; // Sub-vdbe for trigger program
            prg.Program = program = new Vdbe.SubProgram();// sqlite3DbMallocZero( db, sizeof( SubProgram ) );
            if (program == null) return null;
            top.V.LinkSubProgram(program);
            prg.Trigger = trigger;
            prg.Orconf = orconf;
            prg.Colmasks[0] = 0xffffffff;
            prg.Colmasks[1] = 0xffffffff;

            // Allocate and populate a new Parse context to use for coding the trigger sub-program.
            Parse subParse = new Parse(); // Parse context for sub-vdbe //: _stackalloc(ctx, sizeof(Parse), true);
            if (subParse == null) return null;
            NameContext sNC = new NameContext(); // Name context for sub-vdbe
            sNC.Parse = subParse;
            subParse.Ctx = ctx;
            subParse.TriggerTab = table;
            subParse.Toplevel = top;
            subParse.AuthContext = trigger.Name;
            subParse.TriggerOp = trigger.OP;
            subParse.QueryLoops = parse.QueryLoops;

            int endTrigger = 0; // Label to jump to if WHEN is false
            Vdbe v = subParse.GetVdbe(); // Temporary VM
            if (v != null)
            {
#if DEBUG
                v.Comment("Start: %s.%s (%s %s%s%s ON %s)",
                    trigger.Name, OnErrorText(orconf),
                    (trigger.TRtm == TRIGGER.BEFORE ? "BEFORE" : "AFTER"),
                    (trigger.OP == TK.UPDATE ? "UPDATE" : string.Empty),
                    (trigger.OP == TK.INSERT ? "INSERT" : string.Empty),
                    (trigger.OP == TK.DELETE ? "DELETE" : string.Empty),
                    table.Name);
#endif
#if !OMIT_TRACE
                v.ChangeP4(-1, C._mtagprintf(ctx, "-- TRIGGER %s", trigger.Name), Vdbe.P4T.DYNAMIC);
#endif

                // If one was specified, code the WHEN clause. If it evaluates to false (or NULL) the sub-vdbe is immediately halted by jumping to the 
                // OP_Halt inserted at the end of the program.
                if (trigger.When != null)
                {
                    Expr when = Expr.Dup(ctx, trigger.When, 0); // Duplicate of trigger WHEN expression
                    if (ResolveExprNames(sNC, ref when) == RC.OK && !ctx.MallocFailed)
                    {
                        endTrigger = v.MakeLabel();
                        subParse.IfFalse(when, endTrigger, RC_JUMPIFNULL);
                    }
                    Expr.Delete(ctx, ref when);
                }

                // Code the trigger program into the sub-vdbe.
                CodeTriggerProgram(subParse, trigger.StepList, orconf);

                // Insert an OP_Halt at the end of the sub-program.
                if (endTrigger != 0)
                    v.ResolveLabel(endTrigger);
                v.AddOp0(Core.OP.Halt);
#if DEBUG
                v.Comment("End: %s.%s", trigger.Name, OnErrorText(orconf));
#endif
                TransferParseError(parse, subParse);
                if (!ctx.MallocFailed)
                    program.Ops.data = v.TakeOpArray(ref program.Ops.length, ref top.MaxArgs);
                program.Mems = subParse.Mems;
                program.Csrs = subParse.Tabs;
                program.Token = trigger.GetHashCode();
                prg.Colmasks[0] = subParse.Oldmask;
                prg.Colmasks[1] = subParse.Newmask;
                Vdbe.Delete(v);
            }

            Debug.Assert(subParse.Ainc == null && subParse.ZombieTab == null);
            Debug.Assert(subParse.TriggerPrg == null && subParse.MaxArgs == 0);
            C._stackfree(ctx, ref subParse);

            return prg;
        }
Exemplo n.º 4
0
 static Table TableOfTrigger(Trigger trigger)
 {
     int tableLength = trigger.Table.Length;
     return trigger.TabSchema.TableHash.Find(trigger.Table, tableLength, (Table)null);
 }
Exemplo n.º 5
0
        public static void DropTriggerPtr(Parse parse, Trigger trigger)
        {
            Context ctx = parse.Ctx;
            int db = Prepare.SchemaToIndex(ctx, trigger.Schema);
            Debug.Assert(db >= 0 && db < ctx.DBs.length);
            Table table = TableOfTrigger(trigger);
            Debug.Assert(table != null);
            Debug.Assert(table.Schema == trigger.Schema || db == 1);
#if !OMIT_AUTHORIZATION
            {
                AUTH code = AUTH.DROP_TRIGGER;
                string dbName = ctx.DBs[db].Name;
                string tableName = E.SCHEMA_TABLE(db);
                if (db == 1) code = AUTH.DROP_TEMP_TRIGGER;
                if (Auth.Check(parse, code, trigger.Name, table.Name, dbName) || Auth.Check(parse, AUTH.DELETE, tableName, null, dbName))
                    return;
            }
#endif

            // Generate code to destroy the database record of the trigger.
            Debug.Assert(table != null);
            Vdbe v = parse.GetVdbe();
            if (v != null)
            {
                parse.BeginWriteOperation(0, db);
                parse.OpenMasterTable(db);
                int base_ = v.AddOpList(_dropTrigger.Length, _dropTrigger);
                v.ChangeP4(base_ + 1, trigger.Name, Vdbe.P4T.TRANSIENT);
                v.ChangeP4(base_ + 4, "trigger", Vdbe.P4T.STATIC);
                parse.ChangeCookie(db);
                v.AddOp2(Core.OP.Close, 0, 0);
                v.AddOp4(Core.OP.DropTrigger, db, 0, 0, trigger.Name, 0);
                if (parse.Mems < 3)
                    parse.Mems = 3;
            }
        }
Exemplo n.º 6
0
        static Trigger FKActionTrigger(Parse parse, Table table, FKey fkey, ExprList changes)
        {
            Context ctx = parse.Ctx; // Database handle
            int actionId = (changes != null ? 1 : 0);  // 1 for UPDATE, 0 for DELETE
            OE action = fkey.Actions[actionId]; // One of OE_None, OE_Cascade etc.
            Trigger trigger = fkey.Triggers[actionId]; // Trigger definition to return

            if (action != OE.None && trigger == null)
            {

                Index index = null; // Parent key index for this FK
                int[] cols = null; // child table cols . parent key cols
                if (LocateFkeyIndex(parse, table, fkey, out index, out cols) != 0) return null;
                Debug.Assert(cols != null || fkey.Cols.length == 1);

                Expr where_ = null; // WHERE clause of trigger step
                Expr when = null; // WHEN clause for the trigger
                ExprList list = null; // Changes list if ON UPDATE CASCADE
                for (int i = 0; i < fkey.Cols.length; i++)
                {
                    Token oldToken = new Token("old", 3); // Literal "old" token
                    Token newToken = new Token("new", 3); // Literal "new" token

                    int fromColId = (cols != null ? cols[i] : fkey.Cols[0].From); // Idx of column in child table
                    Debug.Assert(fromColId >= 0);
                    Token fromCol = new Token(); // Name of column in child table
                    Token toCol = new Token(); // Name of column in parent table
                    toCol.data = (index != null ? table.Cols[index.Columns[i]].Name : "oid");
                    fromCol.data = fkey.From.Cols[fromColId].Name;
                    toCol.length = (uint)toCol.data.Length;
                    fromCol.length = (uint)fromCol.data.Length;

                    // Create the expression "OLD.zToCol = zFromCol". It is important that the "OLD.zToCol" term is on the LHS of the = operator, so
                    // that the affinity and collation sequence associated with the parent table are used for the comparison.
                    Expr eq = Expr.PExpr(parse, TK.EQ,
                        Expr.PExpr(parse, TK.DOT,
                            Expr.PExpr(parse, TK.ID, null, null, oldToken),
                            Expr.PExpr(parse, TK.ID, null, null, toCol)
                            , 0),
                        Expr.PExpr(parse, TK.ID, null, null, fromCol)
                        , 0); // tFromCol = OLD.tToCol
                    where_ = Expr.And(ctx, where_, eq);

                    // For ON UPDATE, construct the next term of the WHEN clause. The final WHEN clause will be like this:
                    //
                    //    WHEN NOT(old.col1 IS new.col1 AND ... AND old.colN IS new.colN)
                    if (changes != null)
                    {
                        eq = Expr.PExpr(parse, TK.IS,
                            Expr.PExpr(parse, TK.DOT,
                            Expr.PExpr(parse, TK.ID, null, null, oldToken),
                            Expr.PExpr(parse, TK.ID, null, null, toCol),
                            0),
                            Expr.PExpr(parse, TK.DOT,
                            Expr.PExpr(parse, TK.ID, null, null, newToken),
                            Expr.PExpr(parse, TK.ID, null, null, toCol),
                            0),
                            0);
                        when = Expr.And(ctx, when, eq);
                    }

                    if (action != OE.Restrict && (action != OE.Cascade || changes != null))
                    {
                        Expr newExpr;
                        if (action == OE.Cascade)
                            newExpr = Expr.PExpr(parse, TK.DOT,
                                Expr.PExpr(parse, TK.ID, null, null, newToken),
                                Expr.PExpr(parse, TK.ID, null, null, toCol)
                                , 0);
                        else if (action == OE.SetDflt)
                        {
                            Expr dfltExpr = fkey.From.Cols[fromColId].Dflt;
                            if (dfltExpr != null)
                                newExpr = Expr.Dup(ctx, dfltExpr, 0);
                            else
                                newExpr = Expr.PExpr(parse, TK.NULL, 0, 0, 0);
                        }
                        else
                            newExpr = Expr.PExpr(parse, TK.NULL, 0, 0, 0);
                        list = Expr.ListAppend(parse, list, newExpr);
                        Expr.ListSetName(parse, list, fromCol, 0);
                    }
                }
                C._tagfree(ctx, ref cols);

                string fromName = fkey.From.Name; // Name of child table
                int fromNameLength = fromName.Length; // Length in bytes of zFrom

                Select select = null; // If RESTRICT, "SELECT RAISE(...)"
                if (action == OE.Restrict)
                {
                    Token from = new Token();
                    from.data = fromName;
                    from.length = fromNameLength;
                    Expr raise = Expr.Expr(ctx, TK.RAISE, "foreign key constraint failed");
                    if (raise != null)
                        raise.Affinity = OE.Abort;
                    select = Select.New(parse,
                        Expr.ListAppend(parse, 0, raise),
                        SrcListAppend(ctx, 0, from, null),
                        where_,
                        null, null, null, 0, null, null);
                    where_ = null;
                }

                // Disable lookaside memory allocation
                bool enableLookaside = ctx.Lookaside.Enabled; // Copy of ctx->lookaside.bEnabled
                ctx.Lookaside.Enabled = false;

                trigger = new Trigger();
                //: trigger = (Trigger *)_tagalloc(ctx, 
                //:    sizeof(Trigger) + // Trigger
                //:    sizeof(TriggerStep) + // Single step in trigger program
                //:    fromNameLength + 1 // Space for pStep->target.z
                //:    , true);
                TriggerStep step = null; // First (only) step of trigger program                
                if (trigger != null)
                {
                    step = trigger.StepList = new TriggerStep(); //: (TriggerStep)trigger[1];
                    step.Target.data = fromName; //: (char *)&step[1];
                    step.Target.length = fromNameLength;
                    //: _memcpy((const char *)step->Target.data, fromName, fromNameLength);

                    step.Where = Expr.Dup(ctx, where_, EXPRDUP_REDUCE);
                    step.ExprList = Expr.ListDup(ctx, list, EXPRDUP_REDUCE);
                    step.Select = Select.Dup(ctx, select, EXPRDUP_REDUCE);
                    if (when != null)
                    {
                        when = Expr.PExpr(parse, TK.NOT, when, 0, 0);
                        trigger.When = Expr.Dup(ctx, when, EXPRDUP_REDUCE);
                    }
                }

                // Re-enable the lookaside buffer, if it was disabled earlier.
                ctx.Lookaside.Enabled = enableLookaside;

                Expr.Delete(ctx, ref where_);
                Expr.Delete(ctx, ref when);
                Expr.ListDelete(ctx, ref list);
                Select.Delete(ctx, ref select);
                if (ctx.MallocFailed)
                {
                    FKTriggerDelete(ctx, trigger);
                    return null;
                }

                switch (action)
                {
                    case OE.Restrict:
                        step.OP = TK.SELECT;
                        break;
                    case OE.Cascade:
                        if (changes == null)
                        {
                            step.OP = TK.DELETE;
                            break;
                        }
                        goto default;
                    default:
                        step.OP = TK.UPDATE;
                        break;
                }
                step.Trigger = trigger;
                trigger.Schema = table.Schema;
                trigger.TabSchema = table.Schema;
                fkey.Triggers[actionId] = trigger;
                trigger.OP = (TK)(changes != null ? TK.UPDATE : TK.DELETE);
            }

            return trigger;
        }
Exemplo n.º 7
0
 public static void DeleteTrigger(Context ctx, ref Trigger trigger)
 {
     if (trigger == null) return;
     DeleteTriggerStep(ctx, ref trigger.StepList);
     C._tagfree(ctx, ref trigger.Name);
     C._tagfree(ctx, ref trigger.Table);
     Expr.Delete(ctx, ref trigger.When);
     Expr.IdListDelete(ctx, ref trigger.Columns);
     C._tagfree(ctx, ref trigger);
     trigger = null;
 }
Exemplo n.º 8
0
 static void FKTriggerDelete(Context ctx, Trigger p)
 {
     if (p != null)
     {
         TriggerStep step = p.StepList;
         Expr.Delete(ctx, ref step.Where);
         Expr.ListDelete(ctx, ref step.ExprList);
         Select.Delete(ctx, ref step.Select);
         Expr.Delete(ctx, ref p.When);
         C._tagfree(ctx, ref p);
     }
 }
Exemplo n.º 9
0
        static TriggerPrg CodeRowTrigger(Parse parse, Trigger trigger, Table table, OE orconf)
        {
            Parse   top = E.Parse_Toplevel(parse);
            Context ctx = parse.Ctx; // Database handle

            Debug.Assert(trigger.Name == null || table == TableOfTrigger(trigger));
            Debug.Assert(top.V != null);

            // Allocate the TriggerPrg and SubProgram objects. To ensure that they are freed if an error occurs, link them into the Parse.pTriggerPrg
            // list of the top-level Parse object sooner rather than later.
            TriggerPrg prg = new TriggerPrg(); // Value to return //: _tagalloc(ctx, sizeof(TriggerPrg), true);

            if (prg == null)
            {
                return(null);
            }
            prg.Next       = top.TriggerPrg;
            top.TriggerPrg = prg;
            Vdbe.SubProgram program;                       // Sub-vdbe for trigger program
            prg.Program = program = new Vdbe.SubProgram(); // sqlite3DbMallocZero( db, sizeof( SubProgram ) );
            if (program == null)
            {
                return(null);
            }
            top.V.LinkSubProgram(program);
            prg.Trigger     = trigger;
            prg.Orconf      = orconf;
            prg.Colmasks[0] = 0xffffffff;
            prg.Colmasks[1] = 0xffffffff;

            // Allocate and populate a new Parse context to use for coding the trigger sub-program.
            Parse subParse = new Parse(); // Parse context for sub-vdbe //: _scratchalloc(ctx, sizeof(Parse), true);

            if (subParse == null)
            {
                return(null);
            }
            NameContext sNC = new NameContext(); // Name context for sub-vdbe

            sNC.Parse            = subParse;
            subParse.Ctx         = ctx;
            subParse.TriggerTab  = table;
            subParse.Toplevel    = top;
            subParse.AuthContext = trigger.Name;
            subParse.TriggerOp   = trigger.OP;
            subParse.QueryLoops  = parse.QueryLoops;

            int  endTrigger = 0;                  // Label to jump to if WHEN is false
            Vdbe v          = subParse.GetVdbe(); // Temporary VM

            if (v != null)
            {
#if DEBUG
                v.Comment("Start: %s.%s (%s %s%s%s ON %s)",
                          trigger.Name, OnErrorText(orconf),
                          (trigger.TRtm == TRIGGER.BEFORE ? "BEFORE" : "AFTER"),
                          (trigger.OP == TK.UPDATE ? "UPDATE" : string.Empty),
                          (trigger.OP == TK.INSERT ? "INSERT" : string.Empty),
                          (trigger.OP == TK.DELETE ? "DELETE" : string.Empty),
                          table.Name);
#endif
#if !OMIT_TRACE
                v.ChangeP4(-1, C._mtagprintf(ctx, "-- TRIGGER %s", trigger.Name), Vdbe.P4T.DYNAMIC);
#endif

                // If one was specified, code the WHEN clause. If it evaluates to false (or NULL) the sub-vdbe is immediately halted by jumping to the
                // OP_Halt inserted at the end of the program.
                if (trigger.When != null)
                {
                    Expr when = Expr.Dup(ctx, trigger.When, 0); // Duplicate of trigger WHEN expression
                    if (ResolveExprNames(sNC, ref when) == RC.OK && !ctx.MallocFailed)
                    {
                        endTrigger = v.MakeLabel();
                        subParse.IfFalse(when, endTrigger, RC_JUMPIFNULL);
                    }
                    Expr.Delete(ctx, ref when);
                }

                // Code the trigger program into the sub-vdbe.
                CodeTriggerProgram(subParse, trigger.StepList, orconf);

                // Insert an OP_Halt at the end of the sub-program.
                if (endTrigger != 0)
                {
                    v.ResolveLabel(endTrigger);
                }
                v.AddOp0(Core.OP.Halt);
#if DEBUG
                v.Comment("End: %s.%s", trigger.Name, OnErrorText(orconf));
#endif
                TransferParseError(parse, subParse);
                if (!ctx.MallocFailed)
                {
                    program.Ops.data = v.TakeOpArray(ref program.Ops.length, ref top.MaxArgs);
                }
                program.Mems    = subParse.Mems;
                program.Csrs    = subParse.Tabs;
                program.Token   = trigger.GetHashCode();
                prg.Colmasks[0] = subParse.Oldmask;
                prg.Colmasks[1] = subParse.Newmask;
                Vdbe.Delete(v);
            }

            Debug.Assert(subParse.Ainc == null && subParse.ZombieTab == null);
            Debug.Assert(subParse.TriggerPrg == null && subParse.MaxArgs == 0);
            C._scratchfree(ctx, ref subParse);

            return(prg);
        }
Exemplo n.º 10
0
        public static void BeginTrigger(Parse parse, Token name1, Token name2, TK trTm, TK op, IdList columns, SrcList tableName, Expr when, bool isTemp, int noErr)
        {
            Context ctx = parse.Ctx;     // The database connection

            Debug.Assert(name1 != null); // pName1.z might be NULL, but not pName1 itself
            Debug.Assert(name2 != null);
            Debug.Assert(op == TK.INSERT || op == TK.UPDATE || op == TK.DELETE);
            Debug.Assert(op > 0 && op < (TK)0xff);
            Trigger trigger = null; // The new trigger

            int   db;               // The database to store the trigger in
            Token name = null;      // The unqualified db name

            if (isTemp)
            {
                // If TEMP was specified, then the trigger name may not be qualified.
                if (name2.length > 0)
                {
                    parse.ErrorMsg("temporary trigger may not have qualified name");
                    goto trigger_cleanup;
                }
                db   = 1;
                name = name1;
            }
            else
            {
                // Figure out the db that the the trigger will be created in
                db = parse.TwoPartName(name1, name2, ref name);
                if (db < 0)
                {
                    goto trigger_cleanup;
                }
            }
            if (tableName == null || ctx.MallocFailed)
            {
                goto trigger_cleanup;
            }

            // A long-standing parser bug is that this syntax was allowed:
            //    CREATE TRIGGER attached.demo AFTER INSERT ON attached.tab ....
            //                                                 ^^^^^^^^
            // To maintain backwards compatibility, ignore the database name on pTableName if we are reparsing our of SQLITE_MASTER.
            if (ctx.Init.Busy && db != 1)
            {
                C._tagfree(ctx, ref tableName.Ids[0].Database);
                tableName.Ids[0].Database = null;
            }

            // If the trigger name was unqualified, and the table is a temp table, then set iDb to 1 to create the trigger in the temporary database.
            // If sqlite3SrcListLookup() returns 0, indicating the table does not exist, the error is caught by the block below.
            //? if (tableName == null) goto trigger_cleanup;
            Table table = Delete.SrcListLookup(parse, tableName); // Table that the trigger fires off of

            if (ctx.Init.Busy == null && name2.length == 0 && table != null && table.Schema == ctx.DBs[1].Schema)
            {
                db = 1;
            }

            // Ensure the table name matches database name and that the table exists
            if (ctx.MallocFailed)
            {
                goto trigger_cleanup;
            }
            Debug.Assert(tableName.Srcs == 1);
            DbFixer sFix = new DbFixer(); // State vector for the DB fixer

            if (sFix.FixInit(parse, db, "trigger", name) && sFix.FixSrcList(tableName))
            {
                goto trigger_cleanup;
            }
            table = Delete.SrcListLookup(parse, tableName);
            if (table == null)
            {
                // The table does not exist.
                if (ctx.Init.DB == 1)
                {
                    // Ticket #3810.
                    // Normally, whenever a table is dropped, all associated triggers are dropped too.  But if a TEMP trigger is created on a non-TEMP table
                    // and the table is dropped by a different database connection, the trigger is not visible to the database connection that does the
                    // drop so the trigger cannot be dropped.  This results in an "orphaned trigger" - a trigger whose associated table is missing.
                    ctx.Init.OrphanTrigger = true;
                }
                goto trigger_cleanup;
            }
            if (E.IsVirtual(table))
            {
                parse.ErrorMsg("cannot create triggers on virtual tables");
                goto trigger_cleanup;
            }

            // Check that the trigger name is not reserved and that no trigger of the specified name exists
            string nameAsString = Parse.NameFromToken(ctx, name);

            if (nameAsString == null || parse.CheckObjectName(nameAsString) != RC.OK)
            {
                goto trigger_cleanup;
            }
            Debug.Assert(Btree.SchemaMutexHeld(ctx, db, null));
            if (ctx.DBs[db].Schema.TriggerHash.Find(nameAsString, nameAsString.Length, (Trigger)null) != null)
            {
                if (noErr == 0)
                {
                    parse.ErrorMsg("trigger %T already exists", name);
                }
                else
                {
                    Debug.Assert(!ctx.Init.Busy);
                    parse.CodeVerifySchema(db);
                }
                goto trigger_cleanup;
            }

            // Do not create a trigger on a system table
            if (table.Name.StartsWith("sqlite_", StringComparison.InvariantCultureIgnoreCase))
            {
                parse.ErrorMsg("cannot create trigger on system table");
                parse.Errs++;
                goto trigger_cleanup;
            }

            // INSTEAD of triggers are only for views and views only support INSTEAD of triggers.
            if (table.Select != null && trTm != TK.INSTEAD)
            {
                parse.ErrorMsg("cannot create %s trigger on view: %S", (trTm == TK.BEFORE ? "BEFORE" : "AFTER"), tableName, 0);
                goto trigger_cleanup;
            }
            if (table.Select == null && trTm == TK.INSTEAD)
            {
                parse.ErrorMsg("cannot create INSTEAD OF trigger on table: %S", tableName, 0);
                goto trigger_cleanup;
            }

#if !OMIT_AUTHORIZATION
            {
                int    tabDb      = Prepare.SchemaToIndex(ctx, table.Schema); // Index of the database holding pTab
                AUTH   code       = AUTH.CREATE_TRIGGER;
                string dbName     = ctx.DBs[tabDb].Name;
                string dbTrigName = (isTemp ? ctx.DBs[1].Name : dbName);
                if (tabDb == 1 || isTemp)
                {
                    code = AUTH.CREATE_TEMP_TRIGGER;
                }
                if (Auth.Check(parse, code, nameAsString, table.Name, dbTrigName) != 0 || Auth.Check(parse, AUTH.INSERT, E.SCHEMA_TABLE(tabDb), 0, dbName))
                {
                    goto trigger_cleanup;
                }
            }
#endif

            // INSTEAD OF triggers can only appear on views and BEFORE triggers cannot appear on views.  So we might as well translate every
            // INSTEAD OF trigger into a BEFORE trigger.  It simplifies code elsewhere.
            if (trTm == TK.INSTEAD)
            {
                trTm = TK.BEFORE;
            }

            // Build the Trigger object
            trigger = new Trigger(); //: (Trigger *)_tagalloc(db, sizeof(Trigger), true);
            if (trigger == null)
            {
                goto trigger_cleanup;
            }
            trigger.Name      = name;
            trigger.Table     = tableName.Ids[0].Name; //: _tagstrdup(ctx, tableName->Ids[0].Name);
            trigger.Schema    = ctx.DBs[db].Schema;
            trigger.TabSchema = table.Schema;
            trigger.OP        = op;
            trigger.TRtm      = (trTm == TK.BEFORE ? TRIGGER.BEFORE : TRIGGER.AFTER);
            trigger.When      = Expr.Dup(db, when, E.EXPRDUP_REDUCE);
            trigger.Columns   = Expr.IdListDup(ctx, columns);
            Debug.Assert(parse.NewTrigger == null);
            parse.NewTrigger = trigger;

trigger_cleanup:
            C._tagfree(ctx, ref name);
            Expr.SrcListDelete(ctx, ref tableName);
            Expr.IdListDelete(ctx, ref columns);
            Expr.Delete(ctx, ref when);
            if (parse.NewTrigger == null)
            {
                DeleteTrigger(ctx, ref trigger);
            }
            else
            {
                Debug.Assert(parse.NewTrigger == trigger);
            }
        }
Exemplo n.º 11
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        static Table TableOfTrigger(Trigger trigger)
        {
            int tableLength = trigger.Table.Length;

            return(trigger.TabSchema.TableHash.Find(trigger.Table, tableLength, (Table)null));
        }
Exemplo n.º 12
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        public static void FinishTrigger(Parse parse, TriggerStep stepList, Token all)
        {
            Trigger trig      = parse.NewTrigger; // Trigger being finished
            Context ctx       = parse.Ctx;        // The database
            Token   nameToken = new Token();      // Trigger name for error reporting

            parse.NewTrigger = null;
            if (C._NEVER(parse.Errs != 0) || trig == null)
            {
                goto triggerfinish_cleanup;
            }
            string name = trig.Name;                                     // Name of trigger
            int    db   = Prepare.SchemaToIndex(parse.Ctx, trig.Schema); // Database containing the trigger

            trig.StepList = stepList;
            while (stepList != null)
            {
                stepList.Trig = trig;
                stepList      = stepList.Next;
            }
            nameToken.data   = trig.Name;
            nameToken.length = (uint)nameToken.data.Length;
            DbFixer sFix = new DbFixer(); // Fixer object

            if (sFix.FixInit(parse, db, "trigger", nameToken) && sFix.FixTriggerStep(trig.StepList))
            {
                goto triggerfinish_cleanup;
            }

            // if we are not initializing, build the sqlite_master entry
            if (ctx.Init.Busy)
            {
                // Make an entry in the sqlite_master table
                Vdbe v = parse.GetVdbe();
                if (v == null)
                {
                    goto triggerfinish_cleanup;
                }
                parse.BeginWriteOperation(0, db);
                string z = all.data.Substring(0, (int)all.length); //: _tagstrndup(ctx, (char *)all->data, all->length);
                parse.NestedParse("INSERT INTO %Q.%s VALUES('trigger',%Q,%Q,0,'CREATE TRIGGER %q')", ctx.DBs[db].Name, E.SCHEMA_TABLE(db), name, trig.Table, z);
                C._tagfree(ctx, ref z);
                parse.ChangeCookie(db);
                v.AddParseSchemaOp(db, C._mtagprintf(ctx, "type='trigger' AND name='%q'", name));
            }

            if (!ctx.Init.Busy)
            {
                Trigger link = trig;
                Debug.Assert(Btree.SchemaMutexHeld(ctx, db, null));
                trig = ctx.DBs[db].Schema.TriggerHash.Insert(name, name.Length, trig);
                if (trig != null)
                {
                    ctx.MallocFailed = true;
                }
                else if (link.Schema == link.TabSchema)
                {
                    int   tableLength = link.Table.Length;
                    Table table       = (Table)link.TabSchema.TableHash.Find(link.Table, tableLength, (Table)null);
                    Debug.Assert(table != null);
                    link.Next      = table.Triggers;
                    table.Triggers = link;
                }
            }

triggerfinish_cleanup:
            DeleteTrigger(ctx, ref trig);
            Debug.Assert(parse.NewTrigger == null);
            DeleteTriggerStep(ctx, ref stepList);
        }