/* * * Copyright 2024 gRPC authors. * * Licensed 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 channelz import ( "fmt" "sync/atomic" ) // SubChannel is the channelz representation of a subchannel. type SubChannel struct { Entity // ID is the channelz id of this subchannel. ID int64 // RefName is the human readable reference string of this subchannel. RefName string closeCalled bool sockets map[int64]string parent *Channel trace *ChannelTrace traceRefCount int32 ChannelMetrics ChannelMetrics } func (sc *SubChannel) String() string { return fmt.Sprintf("%s SubChannel #%d", sc.parent, sc.ID) } func (sc *SubChannel) id() int64 { return sc.ID } // Sockets returns a copy of the sockets map associated with the SubChannel. func (sc *SubChannel) Sockets() map[int64]string { db.mu.RLock() defer db.mu.RUnlock() return copyMap(sc.sockets) } // Trace returns a copy of the ChannelTrace associated with the SubChannel. func (sc *SubChannel) Trace() *ChannelTrace { db.mu.RLock() defer db.mu.RUnlock() return sc.trace.copy() } func (sc *SubChannel) addChild(id int64, e entry) { if v, ok := e.(*Socket); ok && v.SocketType == SocketTypeNormal { sc.sockets[id] = v.RefName } else { logger.Errorf("cannot add a child (id = %d) of type %T to a subChannel", id, e) } } func (sc *SubChannel) deleteChild(id int64) { delete(sc.sockets, id) sc.deleteSelfIfReady() } func (sc *SubChannel) triggerDelete() { sc.closeCalled = true sc.deleteSelfIfReady() } func (sc *SubChannel) getParentID() int64 { return sc.parent.ID } // deleteSelfFromTree tries to delete the subchannel from the channelz entry relation tree, which // means deleting the subchannel reference from its parent's child list. // // In order for a subchannel to be deleted from the tree, it must meet the criteria that, removal of // the corresponding grpc object has been invoked, and the subchannel does not have any children left. // // The returned boolean value indicates whether the channel has been successfully deleted from tree. func (sc *SubChannel) deleteSelfFromTree() (deleted bool) { if !sc.closeCalled || len(sc.sockets) != 0 { return false } sc.parent.deleteChild(sc.ID) return true } // deleteSelfFromMap checks whether it is valid to delete the subchannel from the map, which means // deleting the subchannel from channelz's tracking entirely. Users can no longer use id to query // the subchannel, and its memory will be garbage collected. // // The trace reference count of the subchannel must be 0 in order to be deleted from the map. This is // specified in the channel tracing gRFC that as long as some other trace has reference to an entity, // the trace of the referenced entity must not be deleted. In order to release the resource allocated // by grpc, the reference to the grpc object is reset to a dummy object. // // deleteSelfFromMap must be called after deleteSelfFromTree returns true. // // It returns a bool to indicate whether the channel can be safely deleted from map. func (sc *SubChannel) deleteSelfFromMap() (delete bool) { return sc.getTraceRefCount() == 0 } // deleteSelfIfReady tries to delete the subchannel itself from the channelz database. // The delete process includes two steps: // 1. delete the subchannel from the entry relation tree, i.e. delete the subchannel reference from // its parent's child list. // 2. delete the subchannel from the map, i.e. delete the subchannel entirely from channelz. Lookup // by id will return entry not found error. func (sc *SubChannel) deleteSelfIfReady() { if !sc.deleteSelfFromTree() { return } if !sc.deleteSelfFromMap() { return } db.deleteEntry(sc.ID) sc.trace.clear() } func (sc *SubChannel) getChannelTrace() *ChannelTrace { return sc.trace } func (sc *SubChannel) incrTraceRefCount() { atomic.AddInt32(&sc.traceRefCount, 1) } func (sc *SubChannel) decrTraceRefCount() { atomic.AddInt32(&sc.traceRefCount, -1) } func (sc *SubChannel) getTraceRefCount() int { i := atomic.LoadInt32(&sc.traceRefCount) return int(i) } func (sc *SubChannel) getRefName() string { return sc.RefName }