// Licensed to the LF AI & Data foundation under one // or more contributor license agreements. See the NOTICE file // distributed with this work for additional information // regarding copyright ownership. The ASF licenses this file // to you under the Apache License, Version 2.0 (the // "License"); you may not use this file except in compliance // with the License. You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package datacoord import ( "errors" "fmt" "math" "strconv" "strings" "github.com/golang/protobuf/proto" "github.com/milvus-io/milvus/internal/kv" "github.com/milvus-io/milvus/internal/log" "github.com/milvus-io/milvus/internal/metrics" "github.com/milvus-io/milvus/internal/proto/datapb" "go.uber.org/zap" "go.uber.org/zap/zapcore" ) const ( bufferID = math.MinInt64 delimiter = "/" maxOperationsPerTxn = 64 maxBytesPerTxn = 1024 * 1024 ) var errUnknownOpType = errors.New("unknown operation type") type ChannelOpType int8 const ( Add ChannelOpType = iota Delete ) // ChannelOp is an individual ADD or DELETE operation to the channel store. type ChannelOp struct { Type ChannelOpType NodeID int64 Channels []*channel ChannelWatchInfos []*datapb.ChannelWatchInfo } // ChannelOpSet is a set of channel operations. type ChannelOpSet []*ChannelOp // Add appends a single operation to add the mapping between a node and channels. func (cos *ChannelOpSet) Add(id int64, channels []*channel) { *cos = append(*cos, &ChannelOp{ NodeID: id, Type: Add, Channels: channels, }) } // Delete appends a single operation to remove the mapping between a node and channels. func (cos *ChannelOpSet) Delete(id int64, channels []*channel) { *cos = append(*cos, &ChannelOp{ NodeID: id, Type: Delete, Channels: channels, }) } // ROChannelStore is a read only channel store for channels and nodes. type ROChannelStore interface { // GetNode returns the channel info of a specific node. GetNode(nodeID int64) *NodeChannelInfo // GetChannels returns info of all channels. GetChannels() []*NodeChannelInfo // GetNodesChannels returns the channels that are assigned to nodes. GetNodesChannels() []*NodeChannelInfo // GetBufferChannelInfo gets the unassigned channels. GetBufferChannelInfo() *NodeChannelInfo // GetNodes gets all node ids in store. GetNodes() []int64 // GetNodeChannelCount GetNodeChannelCount(nodeID int64) int } // RWChannelStore is the read write channel store for channels and nodes. type RWChannelStore interface { ROChannelStore // Reload restores the buffer channels and node-channels mapping form kv. Reload() error // Add creates a new node-channels mapping, with no channels assigned to the node. Add(nodeID int64) // Delete removes nodeID and returns its channels. Delete(nodeID int64) ([]*channel, error) // Update applies the operations in ChannelOpSet. Update(op ChannelOpSet) error } // ChannelStore must satisfy RWChannelStore. var _ RWChannelStore = (*ChannelStore)(nil) // ChannelStore maintains a mapping between channels and data nodes. type ChannelStore struct { store kv.TxnKV // A kv store with (NodeChannelKey) -> (ChannelWatchInfos) information. channelsInfo map[int64]*NodeChannelInfo // A map of (nodeID) -> (NodeChannelInfo). } // NodeChannelInfo stores the nodeID and its channels. type NodeChannelInfo struct { NodeID int64 Channels []*channel } // NewChannelStore creates and returns a new ChannelStore. func NewChannelStore(kv kv.TxnKV) *ChannelStore { c := &ChannelStore{ store: kv, channelsInfo: make(map[int64]*NodeChannelInfo), } c.channelsInfo[bufferID] = &NodeChannelInfo{ NodeID: bufferID, Channels: make([]*channel, 0), } return c } // Reload restores the buffer channels and node-channels mapping from kv. func (c *ChannelStore) Reload() error { keys, values, err := c.store.LoadWithPrefix(Params.DataCoordCfg.ChannelWatchSubPath) if err != nil { return err } for i := 0; i < len(keys); i++ { k := keys[i] v := values[i] nodeID, err := parseNodeKey(k) if err != nil { return err } cw := &datapb.ChannelWatchInfo{} if err := proto.Unmarshal([]byte(v), cw); err != nil { return err } reviseVChannelInfo(cw.GetVchan()) c.Add(nodeID) channel := &channel{ Name: cw.GetVchan().GetChannelName(), CollectionID: cw.GetVchan().GetCollectionID(), Schema: cw.GetSchema(), } c.channelsInfo[nodeID].Channels = append(c.channelsInfo[nodeID].Channels, channel) log.Info("channel store reload channel", zap.Int64("nodeID", nodeID), zap.String("channel", channel.Name)) metrics.DataCoordDmlChannelNum.WithLabelValues(strconv.FormatInt(nodeID, 10)).Set(float64(len(c.channelsInfo[nodeID].Channels))) } return nil } // Add creates a new node-channels mapping for the given node, and assigns no channels to it. // Returns immediately if the node's already in the channel. func (c *ChannelStore) Add(nodeID int64) { if _, ok := c.channelsInfo[nodeID]; ok { return } c.channelsInfo[nodeID] = &NodeChannelInfo{ NodeID: nodeID, Channels: make([]*channel, 0), } } // Update applies the channel operations in opSet. func (c *ChannelStore) Update(opSet ChannelOpSet) error { totalChannelNum := 0 for _, op := range opSet { totalChannelNum += len(op.Channels) } if totalChannelNum <= maxOperationsPerTxn { return c.update(opSet) } // Split opset into multiple txn. Operations on the same channel must be executed in one txn. perChOps := make(map[string]ChannelOpSet) for _, op := range opSet { for i, ch := range op.Channels { chOp := &ChannelOp{ Type: op.Type, NodeID: op.NodeID, Channels: []*channel{ch}, } if op.Type == Add { chOp.ChannelWatchInfos = []*datapb.ChannelWatchInfo{op.ChannelWatchInfos[i]} } perChOps[ch.Name] = append(perChOps[ch.Name], chOp) } } // Execute a txn for every 128 operations. count := 0 operations := make([]*ChannelOp, 0, maxOperationsPerTxn) for _, opset := range perChOps { if count+len(opset) > maxOperationsPerTxn { if err := c.update(operations); err != nil { return err } count = 0 operations = make([]*ChannelOp, 0, maxOperationsPerTxn) } count += len(opset) operations = append(operations, opset...) } if count == 0 { return nil } return c.update(operations) } func (c *ChannelStore) checkIfExist(nodeID int64, channel *channel) bool { if _, ok := c.channelsInfo[nodeID]; ok { for _, ch := range c.channelsInfo[nodeID].Channels { if channel.Name == ch.Name && channel.CollectionID == ch.CollectionID { return true } } } return false } // update applies the ADD/DELETE operations to the current channel store. func (c *ChannelStore) update(opSet ChannelOpSet) error { // Update ChannelStore's kv store. if err := c.txn(opSet); err != nil { return err } // Update node id -> channel mapping. for _, op := range opSet { switch op.Type { case Add: for _, ch := range op.Channels { if c.checkIfExist(op.NodeID, ch) { continue // prevent adding duplicated channel info } // Append target channels to channel store. c.channelsInfo[op.NodeID].Channels = append(c.channelsInfo[op.NodeID].Channels, ch) } case Delete: // Remove target channels from channel store. del := make(map[string]struct{}) for _, ch := range op.Channels { del[ch.Name] = struct{}{} } prev := c.channelsInfo[op.NodeID].Channels curr := make([]*channel, 0, len(prev)) for _, ch := range prev { if _, ok := del[ch.Name]; !ok { curr = append(curr, ch) } } c.channelsInfo[op.NodeID].Channels = curr default: return errUnknownOpType } metrics.DataCoordDmlChannelNum.WithLabelValues(strconv.FormatInt(op.NodeID, 10)).Set(float64(len(c.channelsInfo[op.NodeID].Channels))) } return nil } // GetChannels returns information of all channels. func (c *ChannelStore) GetChannels() []*NodeChannelInfo { ret := make([]*NodeChannelInfo, 0, len(c.channelsInfo)) for _, info := range c.channelsInfo { ret = append(ret, info) } return ret } // GetNodesChannels returns the channels assigned to real nodes. func (c *ChannelStore) GetNodesChannels() []*NodeChannelInfo { ret := make([]*NodeChannelInfo, 0, len(c.channelsInfo)) for id, info := range c.channelsInfo { if id != bufferID { ret = append(ret, info) } } return ret } // GetBufferChannelInfo returns all unassigned channels. func (c *ChannelStore) GetBufferChannelInfo() *NodeChannelInfo { for id, info := range c.channelsInfo { if id == bufferID { return info } } return nil } // GetNode returns the channel info of a given node. func (c *ChannelStore) GetNode(nodeID int64) *NodeChannelInfo { for id, info := range c.channelsInfo { if id == nodeID { return info } } return nil } func (c *ChannelStore) GetNodeChannelCount(nodeID int64) int { for id, info := range c.channelsInfo { if id == nodeID { return len(info.Channels) } } return 0 } // Delete removes the given node from the channel store and returns its channels. func (c *ChannelStore) Delete(nodeID int64) ([]*channel, error) { for id, info := range c.channelsInfo { if id == nodeID { if err := c.remove(nodeID); err != nil { return nil, err } delete(c.channelsInfo, id) return info.Channels, nil } } return nil, nil } // GetNodes returns a slice of all nodes ids in the current channel store. func (c *ChannelStore) GetNodes() []int64 { ids := make([]int64, 0, len(c.channelsInfo)) for id := range c.channelsInfo { if id != bufferID { ids = append(ids, id) } } return ids } // remove deletes kv pairs from the kv store where keys have given nodeID as prefix. func (c *ChannelStore) remove(nodeID int64) error { k := buildKeyPrefix(nodeID) return c.store.RemoveWithPrefix(k) } // txn updates the channelStore's kv store with the given channel ops. func (c *ChannelStore) txn(opSet ChannelOpSet) error { saves := make(map[string]string) var removals []string for _, op := range opSet { for i, ch := range op.Channels { k := buildNodeChannelKey(op.NodeID, ch.Name) switch op.Type { case Add: info, err := proto.Marshal(op.ChannelWatchInfos[i]) if err != nil { return err } saves[k] = string(info) case Delete: removals = append(removals, k) default: return errUnknownOpType } } } return c.store.MultiSaveAndRemove(saves, removals) } // buildNodeChannelKey generates a key for kv store, where the key is a concatenation of ChannelWatchSubPath, nodeID and channel name. func buildNodeChannelKey(nodeID int64, chName string) string { return fmt.Sprintf("%s%s%d%s%s", Params.DataCoordCfg.ChannelWatchSubPath, delimiter, nodeID, delimiter, chName) } // buildKeyPrefix generates a key *prefix* for kv store, where the key prefix is a concatenation of ChannelWatchSubPath and nodeID. func buildKeyPrefix(nodeID int64) string { return fmt.Sprintf("%s%s%d", Params.DataCoordCfg.ChannelWatchSubPath, delimiter, nodeID) } // parseNodeKey validates a given node key, then extracts and returns the corresponding node id on success. func parseNodeKey(key string) (int64, error) { s := strings.Split(key, delimiter) if len(s) < 2 { return -1, fmt.Errorf("wrong node key in etcd %s", key) } return strconv.ParseInt(s[len(s)-2], 10, 64) } // ChannelOpTypeNames implements zap log marshaller for ChannelOpSet. var ChannelOpTypeNames = []string{"Add", "Delete"} // TODO: NIT: ObjectMarshaler -> ObjectMarshaller // MarshalLogObject implements the interface ObjectMarshaler. func (cu *ChannelOp) MarshalLogObject(enc zapcore.ObjectEncoder) error { enc.AddString("type", ChannelOpTypeNames[cu.Type]) enc.AddInt64("nodeID", cu.NodeID) cstr := "[" if len(cu.Channels) > 0 { for _, s := range cu.Channels { cstr += s.Name cstr += ", " } cstr = cstr[:len(cstr)-2] } cstr += "]" enc.AddString("channels", cstr) return nil } // TODO: NIT: ArrayMarshaler -> ArrayMarshaller // MarshalLogArray implements the interface of ArrayMarshaler of zap. func (cos ChannelOpSet) MarshalLogArray(enc zapcore.ArrayEncoder) error { for _, o := range cos { enc.AppendObject(o) } return nil }