// MarshalBson bson-encodes KeyspaceIdBatchQuery. func (keyspaceIdBatchQuery *KeyspaceIdBatchQuery) MarshalBson(buf *bytes2.ChunkedWriter, key string) { bson.EncodeOptionalPrefix(buf, bson.Object, key) lenWriter := bson.NewLenWriter(buf) // []tproto.BoundQuery { bson.EncodePrefix(buf, bson.Array, "Queries") lenWriter := bson.NewLenWriter(buf) for _i, _v1 := range keyspaceIdBatchQuery.Queries { _v1.MarshalBson(buf, bson.Itoa(_i)) } lenWriter.Close() } bson.EncodeString(buf, "Keyspace", keyspaceIdBatchQuery.Keyspace) // []kproto.KeyspaceId { bson.EncodePrefix(buf, bson.Array, "KeyspaceIds") lenWriter := bson.NewLenWriter(buf) for _i, _v2 := range keyspaceIdBatchQuery.KeyspaceIds { _v2.MarshalBson(buf, bson.Itoa(_i)) } lenWriter.Close() } keyspaceIdBatchQuery.TabletType.MarshalBson(buf, "TabletType") // *Session if keyspaceIdBatchQuery.Session == nil { bson.EncodePrefix(buf, bson.Null, "Session") } else { (*keyspaceIdBatchQuery.Session).MarshalBson(buf, "Session") } lenWriter.Close() }
// MarshalBson bson-encodes SrvShard. func (srvShard *SrvShard) MarshalBson(buf *bytes2.ChunkedWriter, key string) { bson.EncodeOptionalPrefix(buf, bson.Object, key) lenWriter := bson.NewLenWriter(buf) bson.EncodeString(buf, "Name", srvShard.Name) srvShard.KeyRange.MarshalBson(buf, "KeyRange") // []TabletType { bson.EncodePrefix(buf, bson.Array, "ServedTypes") lenWriter := bson.NewLenWriter(buf) for _i, _v1 := range srvShard.ServedTypes { _v1.MarshalBson(buf, bson.Itoa(_i)) } lenWriter.Close() } bson.EncodeString(buf, "MasterCell", srvShard.MasterCell) // []TabletType { bson.EncodePrefix(buf, bson.Array, "TabletTypes") lenWriter := bson.NewLenWriter(buf) for _i, _v2 := range srvShard.TabletTypes { _v2.MarshalBson(buf, bson.Itoa(_i)) } lenWriter.Close() } lenWriter.Close() }
// MarshalBson bson-encodes BatchQueryShard. func (batchQueryShard *BatchQueryShard) MarshalBson(buf *bytes2.ChunkedWriter, key string) { bson.EncodeOptionalPrefix(buf, bson.Object, key) lenWriter := bson.NewLenWriter(buf) // []tproto.BoundQuery { bson.EncodePrefix(buf, bson.Array, "Queries") lenWriter := bson.NewLenWriter(buf) for _i, _v1 := range batchQueryShard.Queries { _v1.MarshalBson(buf, bson.Itoa(_i)) } lenWriter.Close() } bson.EncodeString(buf, "Keyspace", batchQueryShard.Keyspace) // []string { bson.EncodePrefix(buf, bson.Array, "Shards") lenWriter := bson.NewLenWriter(buf) for _i, _v2 := range batchQueryShard.Shards { bson.EncodeString(buf, bson.Itoa(_i), _v2) } lenWriter.Close() } batchQueryShard.TabletType.MarshalBson(buf, "TabletType") // *Session if batchQueryShard.Session == nil { bson.EncodePrefix(buf, bson.Null, "Session") } else { (*batchQueryShard.Session).MarshalBson(buf, "Session") } lenWriter.Close() }
// MarshalBson bson-encodes QueryResult. func (queryResult *QueryResult) MarshalBson(buf *bytes2.ChunkedWriter, key string) { bson.EncodeOptionalPrefix(buf, bson.Object, key) lenWriter := bson.NewLenWriter(buf) // []Field { bson.EncodePrefix(buf, bson.Array, "Fields") lenWriter := bson.NewLenWriter(buf) for _i, _v1 := range queryResult.Fields { _v1.MarshalBson(buf, bson.Itoa(_i)) } lenWriter.Close() } bson.EncodeUint64(buf, "RowsAffected", queryResult.RowsAffected) bson.EncodeUint64(buf, "InsertId", queryResult.InsertId) // [][]sqltypes.Value { bson.EncodePrefix(buf, bson.Array, "Rows") lenWriter := bson.NewLenWriter(buf) for _i, _v2 := range queryResult.Rows { // []sqltypes.Value { bson.EncodePrefix(buf, bson.Array, bson.Itoa(_i)) lenWriter := bson.NewLenWriter(buf) for _i, _v3 := range _v2 { _v3.MarshalBson(buf, bson.Itoa(_i)) } lenWriter.Close() } } lenWriter.Close() } lenWriter.Close() }
// MarshalBson bson-encodes SrvKeyspace. func (srvKeyspace *SrvKeyspace) MarshalBson(buf *bytes2.ChunkedWriter, key string) { bson.EncodeOptionalPrefix(buf, bson.Object, key) lenWriter := bson.NewLenWriter(buf) // map[TabletType]*KeyspacePartition { bson.EncodePrefix(buf, bson.Object, "Partitions") lenWriter := bson.NewLenWriter(buf) for _k, _v1 := range srvKeyspace.Partitions { // *KeyspacePartition if _v1 == nil { bson.EncodePrefix(buf, bson.Null, string(_k)) } else { (*_v1).MarshalBson(buf, string(_k)) } } lenWriter.Close() } // []SrvShard { bson.EncodePrefix(buf, bson.Array, "Shards") lenWriter := bson.NewLenWriter(buf) for _i, _v2 := range srvKeyspace.Shards { _v2.MarshalBson(buf, bson.Itoa(_i)) } lenWriter.Close() } // []TabletType { bson.EncodePrefix(buf, bson.Array, "TabletTypes") lenWriter := bson.NewLenWriter(buf) for _i, _v3 := range srvKeyspace.TabletTypes { _v3.MarshalBson(buf, bson.Itoa(_i)) } lenWriter.Close() } bson.EncodeString(buf, "ShardingColumnName", srvKeyspace.ShardingColumnName) srvKeyspace.ShardingColumnType.MarshalBson(buf, "ShardingColumnType") // map[TabletType]string { bson.EncodePrefix(buf, bson.Object, "ServedFrom") lenWriter := bson.NewLenWriter(buf) for _k, _v4 := range srvKeyspace.ServedFrom { bson.EncodeString(buf, string(_k), _v4) } lenWriter.Close() } bson.EncodeInt32(buf, "SplitShardCount", srvKeyspace.SplitShardCount) lenWriter.Close() }
// MarshalBson bson-encodes EntityIdsQuery. func (entityIdsQuery *EntityIdsQuery) MarshalBson(buf *bytes2.ChunkedWriter, key string) { bson.EncodeOptionalPrefix(buf, bson.Object, key) lenWriter := bson.NewLenWriter(buf) bson.EncodeString(buf, "Sql", entityIdsQuery.Sql) // map[string]interface{} { bson.EncodePrefix(buf, bson.Object, "BindVariables") lenWriter := bson.NewLenWriter(buf) for _k, _v1 := range entityIdsQuery.BindVariables { bson.EncodeInterface(buf, _k, _v1) } lenWriter.Close() } bson.EncodeString(buf, "Keyspace", entityIdsQuery.Keyspace) bson.EncodeString(buf, "EntityColumnName", entityIdsQuery.EntityColumnName) // []EntityId { bson.EncodePrefix(buf, bson.Array, "EntityKeyspaceIDs") lenWriter := bson.NewLenWriter(buf) for _i, _v2 := range entityIdsQuery.EntityKeyspaceIDs { _v2.MarshalBson(buf, bson.Itoa(_i)) } lenWriter.Close() } entityIdsQuery.TabletType.MarshalBson(buf, "TabletType") // *Session if entityIdsQuery.Session == nil { bson.EncodePrefix(buf, bson.Null, "Session") } else { (*entityIdsQuery.Session).MarshalBson(buf, "Session") } lenWriter.Close() }
// MarshalBson bson-encodes KeyRangeQuery. func (keyRangeQuery *KeyRangeQuery) MarshalBson(buf *bytes2.ChunkedWriter, key string) { bson.EncodeOptionalPrefix(buf, bson.Object, key) lenWriter := bson.NewLenWriter(buf) bson.EncodeString(buf, "Sql", keyRangeQuery.Sql) // map[string]interface{} { bson.EncodePrefix(buf, bson.Object, "BindVariables") lenWriter := bson.NewLenWriter(buf) for _k, _v1 := range keyRangeQuery.BindVariables { bson.EncodeInterface(buf, _k, _v1) } lenWriter.Close() } bson.EncodeString(buf, "Keyspace", keyRangeQuery.Keyspace) // []kproto.KeyRange { bson.EncodePrefix(buf, bson.Array, "KeyRanges") lenWriter := bson.NewLenWriter(buf) for _i, _v2 := range keyRangeQuery.KeyRanges { _v2.MarshalBson(buf, bson.Itoa(_i)) } lenWriter.Close() } keyRangeQuery.TabletType.MarshalBson(buf, "TabletType") // *Session if keyRangeQuery.Session == nil { bson.EncodePrefix(buf, bson.Null, "Session") } else { (*keyRangeQuery.Session).MarshalBson(buf, "Session") } lenWriter.Close() }
// MarshalBson bson-encodes QueryShard. func (queryShard *QueryShard) MarshalBson(buf *bytes2.ChunkedWriter, key string) { bson.EncodeOptionalPrefix(buf, bson.Object, key) lenWriter := bson.NewLenWriter(buf) bson.EncodeString(buf, "Sql", queryShard.Sql) // map[string]interface{} { bson.EncodePrefix(buf, bson.Object, "BindVariables") lenWriter := bson.NewLenWriter(buf) for _k, _v1 := range queryShard.BindVariables { bson.EncodeInterface(buf, _k, _v1) } lenWriter.Close() } bson.EncodeString(buf, "Keyspace", queryShard.Keyspace) // []string { bson.EncodePrefix(buf, bson.Array, "Shards") lenWriter := bson.NewLenWriter(buf) for _i, _v2 := range queryShard.Shards { bson.EncodeString(buf, bson.Itoa(_i), _v2) } lenWriter.Close() } queryShard.TabletType.MarshalBson(buf, "TabletType") // *Session if queryShard.Session == nil { bson.EncodePrefix(buf, bson.Null, "Session") } else { (*queryShard.Session).MarshalBson(buf, "Session") } lenWriter.Close() }
// MarshalBson bson-encodes ZkNodeV. func (zkNodeV *ZkNodeV) MarshalBson(buf *bytes2.ChunkedWriter, key string) { bson.EncodeOptionalPrefix(buf, bson.Object, key) lenWriter := bson.NewLenWriter(buf) // []*ZkNode { bson.EncodePrefix(buf, bson.Array, "Nodes") lenWriter := bson.NewLenWriter(buf) for _i, _v1 := range zkNodeV.Nodes { // *ZkNode if _v1 == nil { bson.EncodePrefix(buf, bson.Null, bson.Itoa(_i)) } else { (*_v1).MarshalBson(buf, bson.Itoa(_i)) } } lenWriter.Close() } lenWriter.Close() }
// MarshalBson bson-encodes Session. func (session *Session) MarshalBson(buf *bytes2.ChunkedWriter, key string) { bson.EncodeOptionalPrefix(buf, bson.Object, key) lenWriter := bson.NewLenWriter(buf) bson.EncodeBool(buf, "InTransaction", session.InTransaction) // []*ShardSession { bson.EncodePrefix(buf, bson.Array, "ShardSessions") lenWriter := bson.NewLenWriter(buf) for _i, _v1 := range session.ShardSessions { // *ShardSession if _v1 == nil { bson.EncodePrefix(buf, bson.Null, bson.Itoa(_i)) } else { (*_v1).MarshalBson(buf, bson.Itoa(_i)) } } lenWriter.Close() } lenWriter.Close() }
// MarshalBson bson-encodes StreamEvent. func (streamEvent *StreamEvent) MarshalBson(buf *bytes2.ChunkedWriter, key string) { bson.EncodeOptionalPrefix(buf, bson.Object, key) lenWriter := bson.NewLenWriter(buf) bson.EncodeString(buf, "Category", streamEvent.Category) bson.EncodeString(buf, "TableName", streamEvent.TableName) // []string { bson.EncodePrefix(buf, bson.Array, "PKColNames") lenWriter := bson.NewLenWriter(buf) for _i, _v1 := range streamEvent.PKColNames { bson.EncodeString(buf, bson.Itoa(_i), _v1) } lenWriter.Close() } // [][]interface{} { bson.EncodePrefix(buf, bson.Array, "PKValues") lenWriter := bson.NewLenWriter(buf) for _i, _v2 := range streamEvent.PKValues { // []interface{} { bson.EncodePrefix(buf, bson.Array, bson.Itoa(_i)) lenWriter := bson.NewLenWriter(buf) for _i, _v3 := range _v2 { bson.EncodeInterface(buf, bson.Itoa(_i), _v3) } lenWriter.Close() } } lenWriter.Close() } bson.EncodeString(buf, "Sql", streamEvent.Sql) bson.EncodeInt64(buf, "Timestamp", streamEvent.Timestamp) streamEvent.GTIDField.MarshalBson(buf, "GTIDField") lenWriter.Close() }
// MarshalBson bson-encodes BlpPositionList. func (blpPositionList *BlpPositionList) MarshalBson(buf *bytes2.ChunkedWriter, key string) { bson.EncodeOptionalPrefix(buf, bson.Object, key) lenWriter := bson.NewLenWriter(buf) // []BlpPosition { bson.EncodePrefix(buf, bson.Array, "Entries") lenWriter := bson.NewLenWriter(buf) for _i, _v1 := range blpPositionList.Entries { _v1.MarshalBson(buf, bson.Itoa(_i)) } lenWriter.Close() } lenWriter.Close() }
// MarshalBson bson-encodes QueryResultList. func (queryResultList *QueryResultList) MarshalBson(buf *bytes2.ChunkedWriter, key string) { bson.EncodeOptionalPrefix(buf, bson.Object, key) lenWriter := bson.NewLenWriter(buf) // []mproto.QueryResult { bson.EncodePrefix(buf, bson.Array, "List") lenWriter := bson.NewLenWriter(buf) for _i, _v1 := range queryResultList.List { _v1.MarshalBson(buf, bson.Itoa(_i)) } lenWriter.Close() } lenWriter.Close() }
// MarshalBson bson-encodes KeyspacePartition. func (keyspacePartition *KeyspacePartition) MarshalBson(buf *bytes2.ChunkedWriter, key string) { bson.EncodeOptionalPrefix(buf, bson.Object, key) lenWriter := bson.NewLenWriter(buf) // []SrvShard { bson.EncodePrefix(buf, bson.Array, "Shards") lenWriter := bson.NewLenWriter(buf) for _i, _v1 := range keyspacePartition.Shards { _v1.MarshalBson(buf, bson.Itoa(_i)) } lenWriter.Close() } lenWriter.Close() }
// MarshalBson bson-encodes SrvKeyspaceNames. func (srvKeyspaceNames *SrvKeyspaceNames) MarshalBson(buf *bytes2.ChunkedWriter, key string) { bson.EncodeOptionalPrefix(buf, bson.Object, key) lenWriter := bson.NewLenWriter(buf) // []string { bson.EncodePrefix(buf, bson.Array, "Entries") lenWriter := bson.NewLenWriter(buf) for _i, _v1 := range srvKeyspaceNames.Entries { bson.EncodeString(buf, bson.Itoa(_i), _v1) } lenWriter.Close() } lenWriter.Close() }
// MarshalBson bson-encodes ZkPathV. func (zkPathV *ZkPathV) MarshalBson(buf *bytes2.ChunkedWriter, key string) { bson.EncodeOptionalPrefix(buf, bson.Object, key) lenWriter := bson.NewLenWriter(buf) // []string { bson.EncodePrefix(buf, bson.Array, "Paths") lenWriter := bson.NewLenWriter(buf) for _i, _v1 := range zkPathV.Paths { bson.EncodeString(buf, bson.Itoa(_i), _v1) } lenWriter.Close() } lenWriter.Close() }
// MarshalBson bson-encodes QueryList. func (queryList *QueryList) MarshalBson(buf *bytes2.ChunkedWriter, key string) { bson.EncodeOptionalPrefix(buf, bson.Object, key) lenWriter := bson.NewLenWriter(buf) // []BoundQuery { bson.EncodePrefix(buf, bson.Array, "Queries") lenWriter := bson.NewLenWriter(buf) for _i, _v1 := range queryList.Queries { _v1.MarshalBson(buf, bson.Itoa(_i)) } lenWriter.Close() } bson.EncodeInt64(buf, "SessionId", queryList.SessionId) bson.EncodeInt64(buf, "TransactionId", queryList.TransactionId) lenWriter.Close() }
// MarshalBson bson-encodes BinlogTransaction. func (binlogTransaction *BinlogTransaction) MarshalBson(buf *bytes2.ChunkedWriter, key string) { bson.EncodeOptionalPrefix(buf, bson.Object, key) lenWriter := bson.NewLenWriter(buf) // []Statement { bson.EncodePrefix(buf, bson.Array, "Statements") lenWriter := bson.NewLenWriter(buf) for _i, _v1 := range binlogTransaction.Statements { _v1.MarshalBson(buf, bson.Itoa(_i)) } lenWriter.Close() } bson.EncodeInt64(buf, "Timestamp", binlogTransaction.Timestamp) binlogTransaction.GTIDField.MarshalBson(buf, "GTIDField") lenWriter.Close() }
// MarshalBson bson-encodes ZkNode. func (zkNode *ZkNode) MarshalBson(buf *bytes2.ChunkedWriter, key string) { bson.EncodeOptionalPrefix(buf, bson.Object, key) lenWriter := bson.NewLenWriter(buf) bson.EncodeString(buf, "Path", zkNode.Path) bson.EncodeString(buf, "Data", zkNode.Data) zkNode.Stat.MarshalBson(buf, "Stat") // []string { bson.EncodePrefix(buf, bson.Array, "Children") lenWriter := bson.NewLenWriter(buf) for _i, _v1 := range zkNode.Children { bson.EncodeString(buf, bson.Itoa(_i), _v1) } lenWriter.Close() } bson.EncodeBool(buf, "Cached", zkNode.Cached) bson.EncodeBool(buf, "Stale", zkNode.Stale) lenWriter.Close() }
// MarshalBson bson-encodes MyType. func (myType *MyType) MarshalBson(buf *bytes2.ChunkedWriter, key string) { bson.EncodeOptionalPrefix(buf, bson.Object, key) lenWriter := bson.NewLenWriter(buf) // *int64 if myType.Ptr == nil { bson.EncodePrefix(buf, bson.Null, "Ptr") } else { bson.EncodeInt64(buf, "Ptr", (*myType.Ptr)) } // **int64 if myType.PtrPtr == nil { bson.EncodePrefix(buf, bson.Null, "PtrPtr") } else { // *int64 if (*myType.PtrPtr) == nil { bson.EncodePrefix(buf, bson.Null, "PtrPtr") } else { bson.EncodeInt64(buf, "PtrPtr", (*(*myType.PtrPtr))) } } // *[]byte if myType.PtrBytes == nil { bson.EncodePrefix(buf, bson.Null, "PtrBytes") } else { bson.EncodeBinary(buf, "PtrBytes", (*myType.PtrBytes)) } // *[]int64 if myType.PtrSlice == nil { bson.EncodePrefix(buf, bson.Null, "PtrSlice") } else { // []int64 { bson.EncodePrefix(buf, bson.Array, "PtrSlice") lenWriter := bson.NewLenWriter(buf) for _i, _v1 := range *myType.PtrSlice { bson.EncodeInt64(buf, bson.Itoa(_i), _v1) } lenWriter.Close() } } // *map[string]int64 if myType.PtrMap == nil { bson.EncodePrefix(buf, bson.Null, "PtrMap") } else { // map[string]int64 { bson.EncodePrefix(buf, bson.Object, "PtrMap") lenWriter := bson.NewLenWriter(buf) for _k, _v2 := range *myType.PtrMap { bson.EncodeInt64(buf, _k, _v2) } lenWriter.Close() } } // *Custom if myType.PtrCustom == nil { bson.EncodePrefix(buf, bson.Null, "PtrCustom") } else { (*myType.PtrCustom).MarshalBson(buf, "PtrCustom") } lenWriter.Close() }
// MarshalBson bson-encodes MyType. func (myType *MyType) MarshalBson(buf *bytes2.ChunkedWriter, key string) { bson.EncodeOptionalPrefix(buf, bson.Object, key) lenWriter := bson.NewLenWriter(buf) // map[string]string { bson.EncodePrefix(buf, bson.Object, "Map") lenWriter := bson.NewLenWriter(buf) for _k, _v1 := range myType.Map { bson.EncodeString(buf, _k, _v1) } lenWriter.Close() } // map[string][]byte { bson.EncodePrefix(buf, bson.Object, "MapBytes") lenWriter := bson.NewLenWriter(buf) for _k, _v2 := range myType.MapBytes { bson.EncodeBinary(buf, _k, _v2) } lenWriter.Close() } // map[string]*string { bson.EncodePrefix(buf, bson.Object, "MapPtr") lenWriter := bson.NewLenWriter(buf) for _k, _v3 := range myType.MapPtr { // *string if _v3 == nil { bson.EncodePrefix(buf, bson.Null, _k) } else { bson.EncodeString(buf, _k, (*_v3)) } } lenWriter.Close() } // map[string][]string { bson.EncodePrefix(buf, bson.Object, "MapSlice") lenWriter := bson.NewLenWriter(buf) for _k, _v4 := range myType.MapSlice { // []string { bson.EncodePrefix(buf, bson.Array, _k) lenWriter := bson.NewLenWriter(buf) for _i, _v5 := range _v4 { bson.EncodeString(buf, bson.Itoa(_i), _v5) } lenWriter.Close() } } lenWriter.Close() } // map[string]map[string]int64 { bson.EncodePrefix(buf, bson.Object, "MapMap") lenWriter := bson.NewLenWriter(buf) for _k, _v6 := range myType.MapMap { // map[string]int64 { bson.EncodePrefix(buf, bson.Object, _k) lenWriter := bson.NewLenWriter(buf) for _k, _v7 := range _v6 { bson.EncodeInt64(buf, _k, _v7) } lenWriter.Close() } } lenWriter.Close() } // map[string]Custom { bson.EncodePrefix(buf, bson.Object, "MapCustom") lenWriter := bson.NewLenWriter(buf) for _k, _v8 := range myType.MapCustom { _v8.MarshalBson(buf, _k) } lenWriter.Close() } // map[string]*Custom { bson.EncodePrefix(buf, bson.Object, "MapCustomPtr") lenWriter := bson.NewLenWriter(buf) for _k, _v9 := range myType.MapCustomPtr { // *Custom if _v9 == nil { bson.EncodePrefix(buf, bson.Null, _k) } else { (*_v9).MarshalBson(buf, _k) } } lenWriter.Close() } // map[Custom]string { bson.EncodePrefix(buf, bson.Object, "CustomMap") lenWriter := bson.NewLenWriter(buf) for _k, _v10 := range myType.CustomMap { bson.EncodeString(buf, string(_k), _v10) } lenWriter.Close() } // map[pkg.Custom]string { bson.EncodePrefix(buf, bson.Object, "MapExternal") lenWriter := bson.NewLenWriter(buf) for _k, _v11 := range myType.MapExternal { bson.EncodeString(buf, string(_k), _v11) } lenWriter.Close() } lenWriter.Close() }