// Copyright 2016 The etcd 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 clientv3 import ( "context" "fmt" "io" pb "github.com/coreos/etcd/etcdserver/etcdserverpb" "google.golang.org/grpc" ) type ( DefragmentResponse pb.DefragmentResponse AlarmResponse pb.AlarmResponse AlarmMember pb.AlarmMember StatusResponse pb.StatusResponse HashKVResponse pb.HashKVResponse MoveLeaderResponse pb.MoveLeaderResponse ) type Maintenance interface { // AlarmList gets all active alarms. AlarmList(ctx context.Context) (*AlarmResponse, error) // AlarmDisarm disarms a given alarm. AlarmDisarm(ctx context.Context, m *AlarmMember) (*AlarmResponse, error) // Defragment releases wasted space from internal fragmentation on a given etcd member. // Defragment is only needed when deleting a large number of keys and want to reclaim // the resources. // Defragment is an expensive operation. User should avoid defragmenting multiple members // at the same time. // To defragment multiple members in the cluster, user need to call defragment multiple // times with different endpoints. Defragment(ctx context.Context, endpoint string) (*DefragmentResponse, error) // Status gets the status of the endpoint. Status(ctx context.Context, endpoint string) (*StatusResponse, error) // HashKV returns a hash of the KV state at the time of the RPC. // If revision is zero, the hash is computed on all keys. If the revision // is non-zero, the hash is computed on all keys at or below the given revision. HashKV(ctx context.Context, endpoint string, rev int64) (*HashKVResponse, error) // Snapshot provides a reader for a point-in-time snapshot of etcd. // If the context "ctx" is canceled or timed out, reading from returned // "io.ReadCloser" would error out (e.g. context.Canceled, context.DeadlineExceeded). Snapshot(ctx context.Context) (io.ReadCloser, error) // MoveLeader requests current leader to transfer its leadership to the transferee. // Request must be made to the leader. MoveLeader(ctx context.Context, transfereeID uint64) (*MoveLeaderResponse, error) } type maintenance struct { dial func(endpoint string) (pb.MaintenanceClient, func(), error) remote pb.MaintenanceClient callOpts []grpc.CallOption } func NewMaintenance(c *Client) Maintenance { api := &maintenance{ dial: func(endpoint string) (pb.MaintenanceClient, func(), error) { conn, err := c.Dial(endpoint) if err != nil { return nil, nil, fmt.Errorf("failed to dial endpoint %s with maintenance client: %v", endpoint, err) } cancel := func() { conn.Close() } return RetryMaintenanceClient(c, conn), cancel, nil }, remote: RetryMaintenanceClient(c, c.conn), } if c != nil { api.callOpts = c.callOpts } return api } func NewMaintenanceFromMaintenanceClient(remote pb.MaintenanceClient, c *Client) Maintenance { api := &maintenance{ dial: func(string) (pb.MaintenanceClient, func(), error) { return remote, func() {}, nil }, remote: remote, } if c != nil { api.callOpts = c.callOpts } return api } func (m *maintenance) AlarmList(ctx context.Context) (*AlarmResponse, error) { req := &pb.AlarmRequest{ Action: pb.AlarmRequest_GET, MemberID: 0, // all Alarm: pb.AlarmType_NONE, // all } resp, err := m.remote.Alarm(ctx, req, m.callOpts...) if err == nil { return (*AlarmResponse)(resp), nil } return nil, toErr(ctx, err) } func (m *maintenance) AlarmDisarm(ctx context.Context, am *AlarmMember) (*AlarmResponse, error) { req := &pb.AlarmRequest{ Action: pb.AlarmRequest_DEACTIVATE, MemberID: am.MemberID, Alarm: am.Alarm, } if req.MemberID == 0 && req.Alarm == pb.AlarmType_NONE { ar, err := m.AlarmList(ctx) if err != nil { return nil, toErr(ctx, err) } ret := AlarmResponse{} for _, am := range ar.Alarms { dresp, derr := m.AlarmDisarm(ctx, (*AlarmMember)(am)) if derr != nil { return nil, toErr(ctx, derr) } ret.Alarms = append(ret.Alarms, dresp.Alarms...) } return &ret, nil } resp, err := m.remote.Alarm(ctx, req, m.callOpts...) if err == nil { return (*AlarmResponse)(resp), nil } return nil, toErr(ctx, err) } func (m *maintenance) Defragment(ctx context.Context, endpoint string) (*DefragmentResponse, error) { remote, cancel, err := m.dial(endpoint) if err != nil { return nil, toErr(ctx, err) } defer cancel() resp, err := remote.Defragment(ctx, &pb.DefragmentRequest{}, m.callOpts...) if err != nil { return nil, toErr(ctx, err) } return (*DefragmentResponse)(resp), nil } func (m *maintenance) Status(ctx context.Context, endpoint string) (*StatusResponse, error) { remote, cancel, err := m.dial(endpoint) if err != nil { return nil, toErr(ctx, err) } defer cancel() resp, err := remote.Status(ctx, &pb.StatusRequest{}, m.callOpts...) if err != nil { return nil, toErr(ctx, err) } return (*StatusResponse)(resp), nil } func (m *maintenance) HashKV(ctx context.Context, endpoint string, rev int64) (*HashKVResponse, error) { remote, cancel, err := m.dial(endpoint) if err != nil { return nil, toErr(ctx, err) } defer cancel() resp, err := remote.HashKV(ctx, &pb.HashKVRequest{Revision: rev}, m.callOpts...) if err != nil { return nil, toErr(ctx, err) } return (*HashKVResponse)(resp), nil } func (m *maintenance) Snapshot(ctx context.Context) (io.ReadCloser, error) { ss, err := m.remote.Snapshot(ctx, &pb.SnapshotRequest{}, append(m.callOpts, withMax(defaultStreamMaxRetries))...) if err != nil { return nil, toErr(ctx, err) } pr, pw := io.Pipe() go func() { for { resp, err := ss.Recv() if err != nil { pw.CloseWithError(err) return } if resp == nil && err == nil { break } if _, werr := pw.Write(resp.Blob); werr != nil { pw.CloseWithError(werr) return } } pw.Close() }() return &snapshotReadCloser{ctx: ctx, ReadCloser: pr}, nil } type snapshotReadCloser struct { ctx context.Context io.ReadCloser } func (rc *snapshotReadCloser) Read(p []byte) (n int, err error) { n, err = rc.ReadCloser.Read(p) return n, toErr(rc.ctx, err) } func (m *maintenance) MoveLeader(ctx context.Context, transfereeID uint64) (*MoveLeaderResponse, error) { resp, err := m.remote.MoveLeader(ctx, &pb.MoveLeaderRequest{TargetID: transfereeID}, m.callOpts...) return (*MoveLeaderResponse)(resp), toErr(ctx, err) }