Ejemplo n.º 1
0
        private void DiagnoseKeyCollision(
            UpdateCompiler compiler,
            PropagatorResult change,
            CompositeKey key,
            PropagatorResult other)
        {
            KeyManager   keyManager   = compiler.m_translator.KeyManager;
            CompositeKey compositeKey = new CompositeKey(this.GetKeyConstants(other));
            bool         flag         = true;

            for (int index = 0; flag && index < key.KeyComponents.Length; ++index)
            {
                int identifier1 = key.KeyComponents[index].Identifier;
                int identifier2 = compositeKey.KeyComponents[index].Identifier;
                if (!keyManager.GetPrincipals(identifier1).Intersect <int>(keyManager.GetPrincipals(identifier2)).Any <int>())
                {
                    flag = false;
                }
            }
            if (flag)
            {
                throw new UpdateException(Strings.Update_DuplicateKeys, (Exception)null, SourceInterpreter.GetAllStateEntries(change, compiler.m_translator, this.m_table).Concat <IEntityStateEntry>((IEnumerable <IEntityStateEntry>)SourceInterpreter.GetAllStateEntries(other, compiler.m_translator, this.m_table)).Cast <ObjectStateEntry>().Distinct <ObjectStateEntry>());
            }
            HashSet <IEntityStateEntry> source = (HashSet <IEntityStateEntry>)null;

            foreach (PropagatorResult propagatorResult in ((IEnumerable <PropagatorResult>)key.KeyComponents).Concat <PropagatorResult>((IEnumerable <PropagatorResult>)compositeKey.KeyComponents))
            {
                HashSet <IEntityStateEntry> entityStateEntrySet = new HashSet <IEntityStateEntry>();
                foreach (int dependent in keyManager.GetDependents(propagatorResult.Identifier))
                {
                    PropagatorResult owner;
                    if (keyManager.TryGetIdentifierOwner(dependent, out owner) && owner.StateEntry != null)
                    {
                        entityStateEntrySet.Add(owner.StateEntry);
                    }
                }
                if (source == null)
                {
                    source = new HashSet <IEntityStateEntry>((IEnumerable <IEntityStateEntry>)entityStateEntrySet);
                }
                else
                {
                    source.IntersectWith((IEnumerable <IEntityStateEntry>)entityStateEntrySet);
                }
            }
            throw new UpdateException(Strings.Update_GeneralExecutionException, (Exception) new ConstraintException(Strings.Update_ReferentialConstraintIntegrityViolation), source.Cast <ObjectStateEntry>().Distinct <ObjectStateEntry>());
        }
Ejemplo n.º 2
0
        private Dictionary <CompositeKey, PropagatorResult> ProcessKeys(
            UpdateCompiler compiler,
            List <PropagatorResult> changes,
            Set <CompositeKey> keys)
        {
            Dictionary <CompositeKey, PropagatorResult> dictionary = new Dictionary <CompositeKey, PropagatorResult>(compiler.m_translator.KeyComparer);

            foreach (PropagatorResult change in changes)
            {
                PropagatorResult row          = change;
                CompositeKey     compositeKey = new CompositeKey(this.GetKeyConstants(row));
                PropagatorResult other;
                if (dictionary.TryGetValue(compositeKey, out other))
                {
                    this.DiagnoseKeyCollision(compiler, change, compositeKey, other);
                }
                dictionary.Add(compositeKey, row);
                keys.Add(compositeKey);
            }
            return(dictionary);
        }
Ejemplo n.º 3
0
            // <summary>
            // Constructor
            // </summary>
            // <param name="metadata"> Sets Metadata </param>
            // <param name="record"> Record containing key value </param>
            // <param name="isTarget"> Indicates whether the source or target end of the constraint is being pulled </param>
            // <param name="isInsert"> Indicates whether this is an insert dependency or a delete dependency </param>
            private ForeignKeyValue(
                ReferentialConstraint metadata, PropagatorResult record,
                bool isTarget, bool isInsert)
            {
                Metadata = metadata;

                // construct key
                IList <EdmProperty> keyProperties = isTarget
                                                       ? metadata.FromProperties
                                                       : metadata.ToProperties;
                var keyValues     = new PropagatorResult[keyProperties.Count];
                var hasNullMember = false;

                for (var i = 0; i < keyValues.Length; i++)
                {
                    keyValues[i] = record.GetMemberValue(keyProperties[i]);
                    if (keyValues[i].IsNull)
                    {
                        hasNullMember = true;
                        break;
                    }
                }

                if (hasNullMember)
                {
                    // set key to null to indicate that it is not behaving as a key
                    // (in SQL, keys with null parts do not participate in constraints)
                    Key = null;
                }
                else
                {
                    Key = new CompositeKey(keyValues);
                }

                IsInsert = isInsert;
            }
            private ForeignKeyValue(
                ReferentialConstraint metadata,
                PropagatorResult record,
                bool isTarget,
                bool isInsert)
            {
                this.Metadata = metadata;
                IList <EdmProperty> edmPropertyList = isTarget ? (IList <EdmProperty>)metadata.FromProperties : (IList <EdmProperty>)metadata.ToProperties;

                PropagatorResult[] constants = new PropagatorResult[edmPropertyList.Count];
                bool flag = false;

                for (int index = 0; index < constants.Length; ++index)
                {
                    constants[index] = record.GetMemberValue((EdmMember)edmPropertyList[index]);
                    if (constants[index].IsNull)
                    {
                        flag = true;
                        break;
                    }
                }
                this.Key      = !flag ? new CompositeKey(constants) : (CompositeKey)null;
                this.IsInsert = isInsert;
            }
        private void DiagnoseKeyCollision(UpdateCompiler compiler, PropagatorResult change, CompositeKey key, PropagatorResult other)
        {
            var keyManager = compiler.m_translator.KeyManager;
            var otherKey   = new CompositeKey(GetKeyConstants(other));

            // determine if the conflict is due to shared principal key values
            var sharedPrincipal = true;

            for (var i = 0; sharedPrincipal && i < key.KeyComponents.Length; i++)
            {
                var identifier1 = key.KeyComponents[i].Identifier;
                var identifier2 = otherKey.KeyComponents[i].Identifier;

                if (!keyManager.GetPrincipals(identifier1).Intersect(keyManager.GetPrincipals(identifier2)).Any())
                {
                    sharedPrincipal = false;
                }
            }

            if (sharedPrincipal)
            {
                // if the duplication is due to shared principals, there is a duplicate key exception
                var stateEntries = SourceInterpreter.GetAllStateEntries(change, compiler.m_translator, m_table)
                                   .Concat(SourceInterpreter.GetAllStateEntries(other, compiler.m_translator, m_table));
                throw new UpdateException(Strings.Update_DuplicateKeys, null, stateEntries.Cast <ObjectStateEntry>().Distinct());
            }
            else
            {
                // if there are no shared principals, it implies that common dependents are the problem
                HashSet <IEntityStateEntry> commonDependents = null;
                foreach (var keyValue in key.KeyComponents.Concat(otherKey.KeyComponents))
                {
                    var dependents = new HashSet <IEntityStateEntry>();
                    foreach (var dependentId in keyManager.GetDependents(keyValue.Identifier))
                    {
                        PropagatorResult dependentResult;
                        if (keyManager.TryGetIdentifierOwner(dependentId, out dependentResult)
                            &&
                            null != dependentResult.StateEntry)
                        {
                            dependents.Add(dependentResult.StateEntry);
                        }
                    }
                    if (null == commonDependents)
                    {
                        commonDependents = new HashSet <IEntityStateEntry>(dependents);
                    }
                    else
                    {
                        commonDependents.IntersectWith(dependents);
                    }
                }

                // to ensure the exception shape is consistent with constraint violations discovered while processing
                // commands (a more conventional scenario in which different tables are contributing principal values)
                // wrap a DataConstraintException in an UpdateException
                throw new UpdateException(
                          Strings.Update_GeneralExecutionException,
                          new ConstraintException(Strings.Update_ReferentialConstraintIntegrityViolation),
                          commonDependents.Cast <ObjectStateEntry>().Distinct());
            }
        }
Ejemplo n.º 6
0
 // <summary>
 // See <see cref="LeftPlaceholder" />
 // </summary>
 private PropagatorResult RightPlaceholder(CompositeKey key, PopulateMode mode)
 {
     return(PlaceholderPopulator.Populate(m_right.Placeholder, key, m_rightPlaceholderKey, mode));
 }
Ejemplo n.º 7
0
            // <summary>
            // Propagate all changes associated with a particular join key.
            // </summary>
            // <param name="key"> Key. </param>
            // <param name="result"> Resulting changes are added to this result. </param>
            private void Propagate(
                CompositeKey key, ChangeNode result, JoinDictionary leftDeletes, JoinDictionary leftInserts,
                JoinDictionary rightDeletes, JoinDictionary rightInserts)
            {
                // Retrieve changes associates with this join key
                Tuple <CompositeKey, PropagatorResult> leftInsert  = null;
                Tuple <CompositeKey, PropagatorResult> leftDelete  = null;
                Tuple <CompositeKey, PropagatorResult> rightInsert = null;
                Tuple <CompositeKey, PropagatorResult> rightDelete = null;

                var input = Ops.Nothing;

                if (leftInserts.TryGetValue(key, out leftInsert))
                {
                    input |= Ops.LeftInsert;
                }
                if (leftDeletes.TryGetValue(key, out leftDelete))
                {
                    input |= Ops.LeftDelete;
                }
                if (rightInserts.TryGetValue(key, out rightInsert))
                {
                    input |= Ops.RightInsert;
                }
                if (rightDeletes.TryGetValue(key, out rightDelete))
                {
                    input |= Ops.RightDelete;
                }

                // Get propagation rules for the changes
                var insertRule = m_insertRules[input];
                var deleteRule = m_deleteRules[input];

                if (Ops.Unsupported == insertRule ||
                    Ops.Unsupported == deleteRule)
                {
                    // If no propagation rules are defined, it suggests an invalid workload (e.g.
                    // a required entity or relationship is missing). In general, such exceptions
                    // should be caught by the RelationshipConstraintValidator, but we defensively
                    // check for problems here regardless. For instance, a 0..1:1..1 self-assocation
                    // implied a stronger constraint that cannot be checked by RelationshipConstraintValidator.

                    // First gather state entries contributing to the problem
                    var stateEntries = new List <IEntityStateEntry>();
                    Action <Tuple <CompositeKey, PropagatorResult> > addStateEntries = (r) =>
                    {
                        if (r != null)
                        {
                            stateEntries.AddRange(
                                SourceInterpreter.GetAllStateEntries(
                                    r.Item2, m_parent.m_updateTranslator,
                                    m_parent.m_table));
                        }
                    };
                    addStateEntries(leftInsert);
                    addStateEntries(leftDelete);
                    addStateEntries(rightInsert);
                    addStateEntries(rightDelete);

                    throw new UpdateException(Strings.Update_InvalidChanges, null, stateEntries.Cast <ObjectStateEntry>().Distinct());
                }

                // Where needed, substitute null/unknown placeholders. In some of the join propagation
                // rules, we handle the case where a side of the join is 'unknown', or where one side
                // of a join is comprised of an record containing only nulls. For instance, we may update
                // only one extent appearing in a row of a table (unknown), or; we may insert only
                // the left hand side of a left outer join, in which case the right hand side is 'null'.
                if (0 != (Ops.LeftUnknown & insertRule))
                {
                    leftInsert = Tuple.Create(key, LeftPlaceholder(key, PopulateMode.Unknown));
                }
                if (0 != (Ops.LeftUnknown & deleteRule))
                {
                    leftDelete = Tuple.Create(key, LeftPlaceholder(key, PopulateMode.Unknown));
                }
                if (0 != (Ops.RightNullModified & insertRule))
                {
                    rightInsert = Tuple.Create(key, RightPlaceholder(key, PopulateMode.NullModified));
                }
                else if (0 != (Ops.RightNullPreserve & insertRule))
                {
                    rightInsert = Tuple.Create(key, RightPlaceholder(key, PopulateMode.NullPreserve));
                }
                else if (0 != (Ops.RightUnknown & insertRule))
                {
                    rightInsert = Tuple.Create(key, RightPlaceholder(key, PopulateMode.Unknown));
                }

                if (0 != (Ops.RightNullModified & deleteRule))
                {
                    rightDelete = Tuple.Create(key, RightPlaceholder(key, PopulateMode.NullModified));
                }
                else if (0 != (Ops.RightNullPreserve & deleteRule))
                {
                    rightDelete = Tuple.Create(key, RightPlaceholder(key, PopulateMode.NullPreserve));
                }
                else if (0 != (Ops.RightUnknown & deleteRule))
                {
                    rightDelete = Tuple.Create(key, RightPlaceholder(key, PopulateMode.Unknown));
                }

                // Populate elements in join output
                if (null != leftInsert &&
                    null != rightInsert)
                {
                    result.Inserted.Add(CreateResultTuple(leftInsert, rightInsert, result));
                }
                if (null != leftDelete &&
                    null != rightDelete)
                {
                    result.Deleted.Add(CreateResultTuple(leftDelete, rightDelete, result));
                }
            }