mirror of
https://github.com/ceph/ceph-csi.git
synced 2024-12-22 13:00:19 +00:00
267 lines
10 KiB
Go
267 lines
10 KiB
Go
/*
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*
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* Copyright 2018 gRPC authors.
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*
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*/
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//go:generate ./regenerate.sh
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// Package service provides an implementation for channelz service server.
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package service
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import (
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"net"
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"github.com/golang/protobuf/ptypes"
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wrpb "github.com/golang/protobuf/ptypes/wrappers"
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"golang.org/x/net/context"
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"google.golang.org/grpc"
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channelzgrpc "google.golang.org/grpc/channelz/grpc_channelz_v1"
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channelzpb "google.golang.org/grpc/channelz/grpc_channelz_v1"
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"google.golang.org/grpc/connectivity"
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"google.golang.org/grpc/internal/channelz"
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)
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// RegisterChannelzServiceToServer registers the channelz service to the given server.
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func RegisterChannelzServiceToServer(s *grpc.Server) {
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channelzgrpc.RegisterChannelzServer(s, &serverImpl{})
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}
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func newCZServer() channelzgrpc.ChannelzServer {
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return &serverImpl{}
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}
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type serverImpl struct{}
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func connectivityStateToProto(s connectivity.State) *channelzpb.ChannelConnectivityState {
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switch s {
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case connectivity.Idle:
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return &channelzpb.ChannelConnectivityState{State: channelzpb.ChannelConnectivityState_IDLE}
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case connectivity.Connecting:
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return &channelzpb.ChannelConnectivityState{State: channelzpb.ChannelConnectivityState_CONNECTING}
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case connectivity.Ready:
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return &channelzpb.ChannelConnectivityState{State: channelzpb.ChannelConnectivityState_READY}
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case connectivity.TransientFailure:
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return &channelzpb.ChannelConnectivityState{State: channelzpb.ChannelConnectivityState_TRANSIENT_FAILURE}
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case connectivity.Shutdown:
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return &channelzpb.ChannelConnectivityState{State: channelzpb.ChannelConnectivityState_SHUTDOWN}
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default:
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return &channelzpb.ChannelConnectivityState{State: channelzpb.ChannelConnectivityState_UNKNOWN}
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}
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}
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func channelMetricToProto(cm *channelz.ChannelMetric) *channelzpb.Channel {
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c := &channelzpb.Channel{}
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c.Ref = &channelzpb.ChannelRef{ChannelId: cm.ID, Name: cm.RefName}
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c.Data = &channelzpb.ChannelData{
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State: connectivityStateToProto(cm.ChannelData.State),
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Target: cm.ChannelData.Target,
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CallsStarted: cm.ChannelData.CallsStarted,
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CallsSucceeded: cm.ChannelData.CallsSucceeded,
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CallsFailed: cm.ChannelData.CallsFailed,
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}
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if ts, err := ptypes.TimestampProto(cm.ChannelData.LastCallStartedTimestamp); err == nil {
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c.Data.LastCallStartedTimestamp = ts
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}
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nestedChans := make([]*channelzpb.ChannelRef, 0, len(cm.NestedChans))
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for id, ref := range cm.NestedChans {
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nestedChans = append(nestedChans, &channelzpb.ChannelRef{ChannelId: id, Name: ref})
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}
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c.ChannelRef = nestedChans
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subChans := make([]*channelzpb.SubchannelRef, 0, len(cm.SubChans))
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for id, ref := range cm.SubChans {
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subChans = append(subChans, &channelzpb.SubchannelRef{SubchannelId: id, Name: ref})
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}
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c.SubchannelRef = subChans
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sockets := make([]*channelzpb.SocketRef, 0, len(cm.Sockets))
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for id, ref := range cm.Sockets {
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sockets = append(sockets, &channelzpb.SocketRef{SocketId: id, Name: ref})
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}
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c.SocketRef = sockets
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return c
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}
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func subChannelMetricToProto(cm *channelz.SubChannelMetric) *channelzpb.Subchannel {
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sc := &channelzpb.Subchannel{}
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sc.Ref = &channelzpb.SubchannelRef{SubchannelId: cm.ID, Name: cm.RefName}
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sc.Data = &channelzpb.ChannelData{
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State: connectivityStateToProto(cm.ChannelData.State),
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Target: cm.ChannelData.Target,
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CallsStarted: cm.ChannelData.CallsStarted,
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CallsSucceeded: cm.ChannelData.CallsSucceeded,
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CallsFailed: cm.ChannelData.CallsFailed,
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}
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if ts, err := ptypes.TimestampProto(cm.ChannelData.LastCallStartedTimestamp); err == nil {
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sc.Data.LastCallStartedTimestamp = ts
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}
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nestedChans := make([]*channelzpb.ChannelRef, 0, len(cm.NestedChans))
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for id, ref := range cm.NestedChans {
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nestedChans = append(nestedChans, &channelzpb.ChannelRef{ChannelId: id, Name: ref})
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}
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sc.ChannelRef = nestedChans
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subChans := make([]*channelzpb.SubchannelRef, 0, len(cm.SubChans))
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for id, ref := range cm.SubChans {
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subChans = append(subChans, &channelzpb.SubchannelRef{SubchannelId: id, Name: ref})
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}
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sc.SubchannelRef = subChans
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sockets := make([]*channelzpb.SocketRef, 0, len(cm.Sockets))
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for id, ref := range cm.Sockets {
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sockets = append(sockets, &channelzpb.SocketRef{SocketId: id, Name: ref})
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}
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sc.SocketRef = sockets
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return sc
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}
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func addrToProto(a net.Addr) *channelzpb.Address {
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switch a.Network() {
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case "udp":
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// TODO: Address_OtherAddress{}. Need proto def for Value.
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case "ip":
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// Note zone info is discarded through the conversion.
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return &channelzpb.Address{Address: &channelzpb.Address_TcpipAddress{TcpipAddress: &channelzpb.Address_TcpIpAddress{IpAddress: a.(*net.IPAddr).IP}}}
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case "ip+net":
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// Note mask info is discarded through the conversion.
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return &channelzpb.Address{Address: &channelzpb.Address_TcpipAddress{TcpipAddress: &channelzpb.Address_TcpIpAddress{IpAddress: a.(*net.IPNet).IP}}}
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case "tcp":
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// Note zone info is discarded through the conversion.
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return &channelzpb.Address{Address: &channelzpb.Address_TcpipAddress{TcpipAddress: &channelzpb.Address_TcpIpAddress{IpAddress: a.(*net.TCPAddr).IP, Port: int32(a.(*net.TCPAddr).Port)}}}
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case "unix", "unixgram", "unixpacket":
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return &channelzpb.Address{Address: &channelzpb.Address_UdsAddress_{UdsAddress: &channelzpb.Address_UdsAddress{Filename: a.String()}}}
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default:
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}
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return &channelzpb.Address{}
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}
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func socketMetricToProto(sm *channelz.SocketMetric) *channelzpb.Socket {
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s := &channelzpb.Socket{}
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s.Ref = &channelzpb.SocketRef{SocketId: sm.ID, Name: sm.RefName}
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s.Data = &channelzpb.SocketData{
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StreamsStarted: sm.SocketData.StreamsStarted,
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StreamsSucceeded: sm.SocketData.StreamsSucceeded,
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StreamsFailed: sm.SocketData.StreamsFailed,
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MessagesSent: sm.SocketData.MessagesSent,
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MessagesReceived: sm.SocketData.MessagesReceived,
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KeepAlivesSent: sm.SocketData.KeepAlivesSent,
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}
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if ts, err := ptypes.TimestampProto(sm.SocketData.LastLocalStreamCreatedTimestamp); err == nil {
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s.Data.LastLocalStreamCreatedTimestamp = ts
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}
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if ts, err := ptypes.TimestampProto(sm.SocketData.LastRemoteStreamCreatedTimestamp); err == nil {
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s.Data.LastRemoteStreamCreatedTimestamp = ts
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}
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if ts, err := ptypes.TimestampProto(sm.SocketData.LastMessageSentTimestamp); err == nil {
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s.Data.LastMessageSentTimestamp = ts
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}
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if ts, err := ptypes.TimestampProto(sm.SocketData.LastMessageReceivedTimestamp); err == nil {
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s.Data.LastMessageReceivedTimestamp = ts
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}
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s.Data.LocalFlowControlWindow = &wrpb.Int64Value{Value: sm.SocketData.LocalFlowControlWindow}
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s.Data.RemoteFlowControlWindow = &wrpb.Int64Value{Value: sm.SocketData.RemoteFlowControlWindow}
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if sm.SocketData.LocalAddr != nil {
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s.Local = addrToProto(sm.SocketData.LocalAddr)
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}
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if sm.SocketData.RemoteAddr != nil {
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s.Remote = addrToProto(sm.SocketData.RemoteAddr)
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}
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s.RemoteName = sm.SocketData.RemoteName
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return s
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}
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func (s *serverImpl) GetTopChannels(ctx context.Context, req *channelzpb.GetTopChannelsRequest) (*channelzpb.GetTopChannelsResponse, error) {
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metrics, end := channelz.GetTopChannels(req.GetStartChannelId())
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resp := &channelzpb.GetTopChannelsResponse{}
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for _, m := range metrics {
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resp.Channel = append(resp.Channel, channelMetricToProto(m))
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}
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resp.End = end
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return resp, nil
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}
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func serverMetricToProto(sm *channelz.ServerMetric) *channelzpb.Server {
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s := &channelzpb.Server{}
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s.Ref = &channelzpb.ServerRef{ServerId: sm.ID, Name: sm.RefName}
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s.Data = &channelzpb.ServerData{
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CallsStarted: sm.ServerData.CallsStarted,
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CallsSucceeded: sm.ServerData.CallsSucceeded,
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CallsFailed: sm.ServerData.CallsFailed,
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}
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if ts, err := ptypes.TimestampProto(sm.ServerData.LastCallStartedTimestamp); err == nil {
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s.Data.LastCallStartedTimestamp = ts
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}
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sockets := make([]*channelzpb.SocketRef, 0, len(sm.ListenSockets))
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for id, ref := range sm.ListenSockets {
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sockets = append(sockets, &channelzpb.SocketRef{SocketId: id, Name: ref})
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}
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s.ListenSocket = sockets
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return s
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}
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func (s *serverImpl) GetServers(ctx context.Context, req *channelzpb.GetServersRequest) (*channelzpb.GetServersResponse, error) {
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metrics, end := channelz.GetServers(req.GetStartServerId())
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resp := &channelzpb.GetServersResponse{}
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for _, m := range metrics {
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resp.Server = append(resp.Server, serverMetricToProto(m))
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}
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resp.End = end
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return resp, nil
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}
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func (s *serverImpl) GetServerSockets(ctx context.Context, req *channelzpb.GetServerSocketsRequest) (*channelzpb.GetServerSocketsResponse, error) {
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metrics, end := channelz.GetServerSockets(req.GetServerId(), req.GetStartSocketId())
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resp := &channelzpb.GetServerSocketsResponse{}
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for _, m := range metrics {
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resp.SocketRef = append(resp.SocketRef, &channelzpb.SocketRef{SocketId: m.ID, Name: m.RefName})
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}
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resp.End = end
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return resp, nil
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}
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func (s *serverImpl) GetChannel(ctx context.Context, req *channelzpb.GetChannelRequest) (*channelzpb.GetChannelResponse, error) {
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var metric *channelz.ChannelMetric
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if metric = channelz.GetChannel(req.GetChannelId()); metric == nil {
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return &channelzpb.GetChannelResponse{}, nil
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}
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resp := &channelzpb.GetChannelResponse{Channel: channelMetricToProto(metric)}
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return resp, nil
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}
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func (s *serverImpl) GetSubchannel(ctx context.Context, req *channelzpb.GetSubchannelRequest) (*channelzpb.GetSubchannelResponse, error) {
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var metric *channelz.SubChannelMetric
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if metric = channelz.GetSubChannel(req.GetSubchannelId()); metric == nil {
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return &channelzpb.GetSubchannelResponse{}, nil
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}
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resp := &channelzpb.GetSubchannelResponse{Subchannel: subChannelMetricToProto(metric)}
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return resp, nil
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}
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func (s *serverImpl) GetSocket(ctx context.Context, req *channelzpb.GetSocketRequest) (*channelzpb.GetSocketResponse, error) {
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var metric *channelz.SocketMetric
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if metric = channelz.GetSocket(req.GetSocketId()); metric == nil {
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return &channelzpb.GetSocketResponse{}, nil
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}
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resp := &channelzpb.GetSocketResponse{Socket: socketMetricToProto(metric)}
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return resp, nil
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}
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