// 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 proxy import ( "context" "sync" "github.com/milvus-io/milvus/internal/proto/commonpb" "github.com/milvus-io/milvus/internal/util/typeutil" "github.com/milvus-io/milvus/internal/util/metricsinfo" "github.com/milvus-io/milvus/internal/proto/milvuspb" ) type getMetricsFuncType func(ctx context.Context, request *milvuspb.GetMetricsRequest) (*milvuspb.GetMetricsResponse, error) // getSystemInfoMetrics returns the system information metrics. func getSystemInfoMetrics( ctx context.Context, request *milvuspb.GetMetricsRequest, node *Proxy, ) (*milvuspb.GetMetricsResponse, error) { var err error systemTopology := metricsinfo.SystemTopology{ NodesInfo: make([]metricsinfo.SystemTopologyNode, 0), } identifierMap := make(map[string]int) proxyRoleName := metricsinfo.ConstructComponentName(typeutil.ProxyRole, Params.ProxyCfg.ProxyID) identifierMap[proxyRoleName] = int(node.session.ServerID) proxyTopologyNode := metricsinfo.SystemTopologyNode{ Identifier: int(node.session.ServerID), Connected: make([]metricsinfo.ConnectionEdge, 0), Infos: &metricsinfo.ProxyInfos{ BaseComponentInfos: metricsinfo.BaseComponentInfos{ HasError: false, ErrorReason: "", Name: proxyRoleName, HardwareInfos: metricsinfo.HardwareMetrics{ IP: node.session.Address, CPUCoreCount: metricsinfo.GetCPUCoreCount(false), CPUCoreUsage: metricsinfo.GetCPUUsage(), Memory: metricsinfo.GetMemoryCount(), MemoryUsage: metricsinfo.GetUsedMemoryCount(), Disk: metricsinfo.GetDiskCount(), DiskUsage: metricsinfo.GetDiskUsage(), }, SystemInfo: metricsinfo.DeployMetrics{}, CreatedTime: Params.ProxyCfg.CreatedTime.String(), UpdatedTime: Params.ProxyCfg.UpdatedTime.String(), Type: typeutil.ProxyRole, ID: node.session.ServerID, }, SystemConfigurations: metricsinfo.ProxyConfiguration{ DefaultPartitionName: Params.CommonCfg.DefaultPartitionName, DefaultIndexName: Params.CommonCfg.DefaultIndexName, }, }, } metricsinfo.FillDeployMetricsWithEnv(&(proxyTopologyNode.Infos.(*metricsinfo.ProxyInfos).SystemInfo)) var wg sync.WaitGroup var queryCoordResp *milvuspb.GetMetricsResponse var queryCoordErr error var queryCoordTopology metricsinfo.QueryCoordTopology queryCoordRoleName := "" var dataCoordResp *milvuspb.GetMetricsResponse var dataCoordErr error var dataCoordTopology metricsinfo.DataCoordTopology dataCoordRoleName := "" var indexCoordResp *milvuspb.GetMetricsResponse var indexCoordErr error var indexCoordTopology metricsinfo.IndexCoordTopology indexCoordRoleName := "" var rootCoordResp *milvuspb.GetMetricsResponse var rootCoordErr error var rootCoordTopology metricsinfo.RootCoordTopology rootCoordRoleName := "" wg.Add(1) go func() { defer wg.Done() queryCoordResp, queryCoordErr = node.queryCoord.GetMetrics(ctx, request) queryCoordRoleName = queryCoordResp.ComponentName queryCoordErr = metricsinfo.UnmarshalTopology(queryCoordResp.Response, &queryCoordTopology) }() wg.Add(1) go func() { defer wg.Done() dataCoordResp, dataCoordErr = node.dataCoord.GetMetrics(ctx, request) dataCoordRoleName = dataCoordResp.ComponentName dataCoordErr = metricsinfo.UnmarshalTopology(dataCoordResp.Response, &dataCoordTopology) }() wg.Add(1) go func() { defer wg.Done() indexCoordResp, indexCoordErr = node.indexCoord.GetMetrics(ctx, request) indexCoordRoleName = indexCoordResp.ComponentName indexCoordErr = metricsinfo.UnmarshalTopology(indexCoordResp.Response, &indexCoordTopology) }() wg.Add(1) go func() { defer wg.Done() rootCoordResp, rootCoordErr = node.rootCoord.GetMetrics(ctx, request) rootCoordRoleName = rootCoordResp.ComponentName rootCoordErr = metricsinfo.UnmarshalTopology(rootCoordResp.Response, &rootCoordTopology) }() wg.Wait() identifierMap[queryCoordRoleName] = int(queryCoordTopology.Cluster.Self.ID) identifierMap[dataCoordRoleName] = int(dataCoordTopology.Cluster.Self.ID) identifierMap[indexCoordRoleName] = int(indexCoordTopology.Cluster.Self.ID) identifierMap[rootCoordRoleName] = int(rootCoordTopology.Self.ID) if queryCoordErr == nil && queryCoordResp != nil { proxyTopologyNode.Connected = append(proxyTopologyNode.Connected, metricsinfo.ConnectionEdge{ ConnectedIdentifier: identifierMap[queryCoordRoleName], Type: metricsinfo.Forward, TargetType: typeutil.QueryCoordRole, }) // QueryCoord in system topology graph queryCoordTopologyNode := metricsinfo.SystemTopologyNode{ Identifier: identifierMap[queryCoordRoleName], Connected: make([]metricsinfo.ConnectionEdge, 0), Infos: &queryCoordTopology.Cluster.Self, } // fill connection edge, a little trick here for _, edge := range queryCoordTopology.Connections.ConnectedComponents { switch edge.TargetType { case typeutil.RootCoordRole: if rootCoordErr == nil && rootCoordResp != nil { queryCoordTopologyNode.Connected = append(queryCoordTopologyNode.Connected, metricsinfo.ConnectionEdge{ ConnectedIdentifier: identifierMap[rootCoordRoleName], Type: metricsinfo.Forward, TargetType: typeutil.RootCoordRole, }) } case typeutil.DataCoordRole: if dataCoordErr == nil && dataCoordResp != nil { queryCoordTopologyNode.Connected = append(queryCoordTopologyNode.Connected, metricsinfo.ConnectionEdge{ ConnectedIdentifier: identifierMap[dataCoordRoleName], Type: metricsinfo.Forward, TargetType: typeutil.DataCoordRole, }) } case typeutil.IndexCoordRole: if indexCoordErr == nil && indexCoordResp != nil { queryCoordTopologyNode.Connected = append(queryCoordTopologyNode.Connected, metricsinfo.ConnectionEdge{ ConnectedIdentifier: identifierMap[indexCoordRoleName], Type: metricsinfo.Forward, TargetType: typeutil.IndexCoordRole, }) } case typeutil.QueryCoordRole: queryCoordTopologyNode.Connected = append(queryCoordTopologyNode.Connected, metricsinfo.ConnectionEdge{ ConnectedIdentifier: identifierMap[queryCoordRoleName], Type: metricsinfo.Forward, TargetType: typeutil.QueryCoordRole, }) } } // add query nodes to system topology graph for _, queryNode := range queryCoordTopology.Cluster.ConnectedNodes { node := queryNode identifier := int(node.ID) identifierMap[queryNode.Name] = identifier queryNodeTopologyNode := metricsinfo.SystemTopologyNode{ Identifier: identifier, Connected: nil, Infos: &node, } systemTopology.NodesInfo = append(systemTopology.NodesInfo, queryNodeTopologyNode) queryCoordTopologyNode.Connected = append(queryCoordTopologyNode.Connected, metricsinfo.ConnectionEdge{ ConnectedIdentifier: identifier, Type: metricsinfo.CoordConnectToNode, TargetType: typeutil.QueryNodeRole, }) } // add QueryCoord to system topology graph systemTopology.NodesInfo = append(systemTopology.NodesInfo, queryCoordTopologyNode) } if dataCoordErr == nil && dataCoordResp != nil { proxyTopologyNode.Connected = append(proxyTopologyNode.Connected, metricsinfo.ConnectionEdge{ ConnectedIdentifier: identifierMap[dataCoordRoleName], Type: metricsinfo.Forward, TargetType: typeutil.DataCoordRole, }) // data coord in system topology graph dataCoordTopologyNode := metricsinfo.SystemTopologyNode{ Identifier: identifierMap[dataCoordRoleName], Connected: make([]metricsinfo.ConnectionEdge, 0), Infos: &dataCoordTopology.Cluster.Self, } // fill connection edge, a little trick here for _, edge := range dataCoordTopology.Connections.ConnectedComponents { switch edge.TargetType { case typeutil.RootCoordRole: if rootCoordErr == nil && rootCoordResp != nil { dataCoordTopologyNode.Connected = append(dataCoordTopologyNode.Connected, metricsinfo.ConnectionEdge{ ConnectedIdentifier: identifierMap[rootCoordRoleName], Type: metricsinfo.Forward, TargetType: typeutil.RootCoordRole, }) } case typeutil.DataCoordRole: dataCoordTopologyNode.Connected = append(dataCoordTopologyNode.Connected, metricsinfo.ConnectionEdge{ ConnectedIdentifier: identifierMap[dataCoordRoleName], Type: metricsinfo.Forward, TargetType: typeutil.DataCoordRole, }) case typeutil.IndexCoordRole: if indexCoordErr == nil && indexCoordResp != nil { dataCoordTopologyNode.Connected = append(dataCoordTopologyNode.Connected, metricsinfo.ConnectionEdge{ ConnectedIdentifier: identifierMap[indexCoordRoleName], Type: metricsinfo.Forward, TargetType: typeutil.IndexCoordRole, }) } case typeutil.QueryCoordRole: if queryCoordErr == nil && queryCoordResp != nil { dataCoordTopologyNode.Connected = append(dataCoordTopologyNode.Connected, metricsinfo.ConnectionEdge{ ConnectedIdentifier: identifierMap[queryCoordRoleName], Type: metricsinfo.Forward, TargetType: typeutil.QueryCoordRole, }) } } } // add data nodes to system topology graph for _, dataNode := range dataCoordTopology.Cluster.ConnectedNodes { node := dataNode identifier := int(node.ID) identifierMap[dataNode.Name] = identifier dataNodeTopologyNode := metricsinfo.SystemTopologyNode{ Identifier: identifier, Connected: nil, Infos: &node, } systemTopology.NodesInfo = append(systemTopology.NodesInfo, dataNodeTopologyNode) dataCoordTopologyNode.Connected = append(dataCoordTopologyNode.Connected, metricsinfo.ConnectionEdge{ ConnectedIdentifier: identifier, Type: metricsinfo.CoordConnectToNode, TargetType: typeutil.DataNodeRole, }) } // add data coord to system topology graph systemTopology.NodesInfo = append(systemTopology.NodesInfo, dataCoordTopologyNode) } if indexCoordErr == nil && indexCoordResp != nil { proxyTopologyNode.Connected = append(proxyTopologyNode.Connected, metricsinfo.ConnectionEdge{ ConnectedIdentifier: identifierMap[indexCoordRoleName], Type: metricsinfo.Forward, TargetType: typeutil.IndexCoordRole, }) // index coord in system topology graph indexCoordTopologyNode := metricsinfo.SystemTopologyNode{ Identifier: identifierMap[indexCoordRoleName], Connected: make([]metricsinfo.ConnectionEdge, 0), Infos: &indexCoordTopology.Cluster.Self, } // fill connection edge, a little trick here for _, edge := range indexCoordTopology.Connections.ConnectedComponents { switch edge.TargetType { case typeutil.RootCoordRole: if rootCoordErr == nil && rootCoordResp != nil { indexCoordTopologyNode.Connected = append(indexCoordTopologyNode.Connected, metricsinfo.ConnectionEdge{ ConnectedIdentifier: identifierMap[rootCoordRoleName], Type: metricsinfo.Forward, TargetType: typeutil.RootCoordRole, }) } case typeutil.DataCoordRole: if dataCoordErr == nil && dataCoordResp != nil { indexCoordTopologyNode.Connected = append(indexCoordTopologyNode.Connected, metricsinfo.ConnectionEdge{ ConnectedIdentifier: identifierMap[dataCoordRoleName], Type: metricsinfo.Forward, TargetType: typeutil.DataCoordRole, }) } case typeutil.IndexCoordRole: indexCoordTopologyNode.Connected = append(indexCoordTopologyNode.Connected, metricsinfo.ConnectionEdge{ ConnectedIdentifier: identifierMap[indexCoordRoleName], Type: metricsinfo.Forward, TargetType: typeutil.IndexCoordRole, }) case typeutil.QueryCoordRole: if queryCoordErr == nil && queryCoordResp != nil { indexCoordTopologyNode.Connected = append(indexCoordTopologyNode.Connected, metricsinfo.ConnectionEdge{ ConnectedIdentifier: identifierMap[queryCoordRoleName], Type: metricsinfo.Forward, TargetType: typeutil.QueryCoordRole, }) } } } // add index nodes to system topology graph for _, indexNode := range indexCoordTopology.Cluster.ConnectedNodes { node := indexNode identifier := int(node.ID) identifierMap[indexNode.Name] = identifier indexNodeTopologyNode := metricsinfo.SystemTopologyNode{ Identifier: identifier, Connected: nil, Infos: &node, } systemTopology.NodesInfo = append(systemTopology.NodesInfo, indexNodeTopologyNode) indexCoordTopologyNode.Connected = append(indexCoordTopologyNode.Connected, metricsinfo.ConnectionEdge{ ConnectedIdentifier: identifier, Type: metricsinfo.CoordConnectToNode, TargetType: typeutil.IndexNodeRole, }) } // add index coord to system topology graph systemTopology.NodesInfo = append(systemTopology.NodesInfo, indexCoordTopologyNode) } if rootCoordErr == nil && rootCoordResp != nil { proxyTopologyNode.Connected = append(proxyTopologyNode.Connected, metricsinfo.ConnectionEdge{ ConnectedIdentifier: identifierMap[rootCoordRoleName], Type: metricsinfo.Forward, TargetType: typeutil.RootCoordRole, }) // root coord in system topology graph rootCoordTopologyNode := metricsinfo.SystemTopologyNode{ Identifier: identifierMap[rootCoordRoleName], Connected: make([]metricsinfo.ConnectionEdge, 0), Infos: &rootCoordTopology.Self, } // fill connection edge, a little trick here for _, edge := range rootCoordTopology.Connections.ConnectedComponents { switch edge.TargetType { case typeutil.RootCoordRole: rootCoordTopologyNode.Connected = append(rootCoordTopologyNode.Connected, metricsinfo.ConnectionEdge{ ConnectedIdentifier: identifierMap[rootCoordRoleName], Type: metricsinfo.Forward, TargetType: typeutil.RootCoordRole, }) case typeutil.DataCoordRole: if dataCoordErr == nil && dataCoordResp != nil { rootCoordTopologyNode.Connected = append(rootCoordTopologyNode.Connected, metricsinfo.ConnectionEdge{ ConnectedIdentifier: identifierMap[dataCoordRoleName], Type: metricsinfo.Forward, TargetType: typeutil.DataCoordRole, }) } case typeutil.IndexCoordRole: rootCoordTopologyNode.Connected = append(rootCoordTopologyNode.Connected, metricsinfo.ConnectionEdge{ ConnectedIdentifier: identifierMap[indexCoordRoleName], Type: metricsinfo.Forward, TargetType: typeutil.IndexCoordRole, }) case typeutil.QueryCoordRole: if queryCoordErr == nil && queryCoordResp != nil { rootCoordTopologyNode.Connected = append(rootCoordTopologyNode.Connected, metricsinfo.ConnectionEdge{ ConnectedIdentifier: identifierMap[queryCoordRoleName], Type: metricsinfo.Forward, TargetType: typeutil.QueryCoordRole, }) } } } // add root coord to system topology graph systemTopology.NodesInfo = append(systemTopology.NodesInfo, rootCoordTopologyNode) } // add proxy to system topology graph systemTopology.NodesInfo = append(systemTopology.NodesInfo, proxyTopologyNode) resp, err := metricsinfo.MarshalTopology(systemTopology) if err != nil { return &milvuspb.GetMetricsResponse{ Status: &commonpb.Status{ ErrorCode: commonpb.ErrorCode_UnexpectedError, Reason: err.Error(), }, Response: "", ComponentName: metricsinfo.ConstructComponentName(typeutil.ProxyRole, Params.ProxyCfg.ProxyID), }, nil } return &milvuspb.GetMetricsResponse{ Status: &commonpb.Status{ ErrorCode: commonpb.ErrorCode_Success, Reason: "", }, Response: resp, ComponentName: metricsinfo.ConstructComponentName(typeutil.ProxyRole, Params.ProxyCfg.ProxyID), }, nil }