// Sync processes a synchrounous request and returns the response and error. func (h *hive) Sync(ctx context.Context, req interface{}) (res interface{}, err error) { id := uint64(rand.Int63()) ch := make(chan syncRes, 1) // We should run this in parallel in case we are blocked on h.syncCh. go func() { sc := syncReqAndChan{ req: syncReq{ID: id, Data: req}, ch: ch, } select { case h.syncCh <- sc: case <-ctx.Done(): } }() select { case r := <-ch: if r.Err != nil { return nil, errors.New(r.Err.Error()) } return r.Data, nil case <-ctx.Done(): return nil, ctx.Err() } }
// Ack acknowledges a task in the queue. func (c *Client) Ack(ctx context.Context, queue string, task server.TaskID) ( err error) { _, call := c.GoAck(queue, task, nil) select { case res := <-call: return res.Error case <-ctx.Done(): return ctx.Err() } }
func (n *MultiNode) waitElection(ctx context.Context, group uint64) { ch := make(chan struct{}) n.pmu.Lock() n.pendingElects[group] = append(n.pendingElects[group], ch) n.pmu.Unlock() select { case <-ch: case <-ctx.Done(): case <-n.done: } }
// DeQ dequeues a task from the given queue. It returns the task or an error. func (c *Client) DeQ(ctx context.Context, queue string) (task server.Task, err error) { _, call := c.GoDeQ(queue, nil) select { case res := <-call: if res.Error != nil { return server.Task{}, res.Error } return res.Data.(server.Task), nil case <-ctx.Done(): return server.Task{}, ctx.Err() } }
// EnQ enqueues a task with the given body in the queue. It returns the // task's id or an error. func (c *Client) EnQ(ctx context.Context, queue string, body []byte) ( id server.TaskID, err error) { _, call := c.GoEnQ(queue, body, nil) select { case res := <-call: if res.Error != nil { return 0, res.Error } return res.Data.(server.TaskID), res.Error case <-ctx.Done(): return 0, ctx.Err() } }
// StepBatch steps all messages in the batch. Context is used for enqueuing the // batch and timeout is used as the maximum wait time when stepping messages // in the batch. func (n *MultiNode) StepBatch(ctx context.Context, batch Batch, timeout time.Duration) error { bt := batchTimeout{ batch: batch, timeout: timeout, } select { case n.recvc <- bt: return nil case <-ctx.Done(): return ctx.Err() } }
func (mn *multiNode) step(ctx context.Context, m multiMessage) error { ch := mn.recvc if m.msg.Type == pb.MsgProp { ch = mn.propc } select { case ch <- m: return nil case <-ctx.Done(): return ctx.Err() case <-mn.done: return ErrStopped } }
// Step advances the state machine using msgs. The ctx.Err() will be returned, // if any. func (n *node) step(ctx context.Context, m pb.Message) error { ch := n.recvc if m.Type == pb.MsgProp { ch = n.propc } select { case ch <- m: return nil case <-ctx.Done(): return ctx.Err() case <-n.done: return ErrStopped } }
func (n *MultiNode) Exists(ctx context.Context, gid uint64) (ok bool) { ch := make(chan groupResponse, 1) n.groupc <- groupRequest{ reqType: groupRequestStatus, group: &group{id: gid}, ch: ch, } select { case res := <-ch: return res.err == nil case <-ctx.Done(): return false case <-n.done: return false } }
func (n *MultiNode) processConfChange(ctx context.Context, group uint64, cc raftpb.ConfChange, gn GroupNode) error { if group == 0 || gn.Node == 0 || gn.Group != group { glog.Fatalf("invalid group node: %v", gn) } id := n.genID() req := Request{Data: gn} var err error cc.Context, err = n.encReq(id, req) if err != nil { return err } ch := n.line.wait(id, req) d, err := cc.Marshal() if err != nil { return err } select { case n.propc <- multiMessage{ group: group, msg: raftpb.Message{ Type: raftpb.MsgProp, Entries: []raftpb.Entry{{Type: raftpb.EntryConfChange, Data: d}}, }, }: case <-ctx.Done(): n.line.cancel(id) return ctx.Err() case <-n.done: return ErrStopped } select { case res := <-ch: return res.Err case <-ctx.Done(): n.line.cancel(id) return ctx.Err() case <-n.done: return ErrStopped } }
// Propose proposes the request and returns the response. This method blocks and // returns either when the ctx is cancelled or the raft node returns a response. func (n *MultiNode) Propose(ctx context.Context, group uint64, req interface{}) (res interface{}, err error) { id := n.genID() r := Request{ Data: req, } d, err := n.encReq(id, r) if err != nil { return nil, err } glog.V(2).Infof("%v waits on raft request %v", n, id) ch := n.line.wait(id, r) mm := multiMessage{group, raftpb.Message{ Type: raftpb.MsgProp, Entries: []raftpb.Entry{{Data: d}}, }} select { case n.propc <- mm: case <-ctx.Done(): n.line.cancel(id) return nil, ctx.Err() case <-n.done: return nil, ErrStopped } select { case res := <-ch: glog.V(2).Infof("%v wakes up for raft request %v", n, id) return res.Data, res.Err case <-ctx.Done(): n.line.cancel(id) return nil, ctx.Err() case <-n.done: return nil, ErrStopped } }
func (n *MultiNode) CreateGroup(ctx context.Context, cfg GroupConfig) error { glog.V(2).Infof("creating a new group %v (%v) on node %v (%v) with peers %v", cfg.ID, cfg.Name, n.id, n.name, cfg.Peers) rs, ds, _, lei, _, err := OpenStorage(cfg.ID, cfg.DataDir, cfg.StateMachine) if err != nil { glog.Fatalf("cannot open storage: %v", err) } snap, err := rs.Snapshot() if err != nil { glog.Errorf("error in storage snapshot: %v", err) return err } n.gen.StartFrom((lei + cfg.SnapCount) << 8) // To avoid conflicts. c := &etcdraft.Config{ ID: cfg.ID, ElectionTick: cfg.ElectionTicks, HeartbeatTick: cfg.HeartbeatTicks, Storage: rs, MaxSizePerMsg: cfg.MaxMsgSize, MaxInflightMsgs: cfg.MaxInFlights, // TODO(soheil): Figure this one out: // Applied: lsi, } g := &group{ node: n, id: cfg.ID, name: cfg.Name, stateMachine: cfg.StateMachine, raftStorage: rs, diskStorage: ds, applyc: make(chan etcdraft.Ready, cfg.SnapCount), savec: make(chan readySaved, 1), fsyncTime: cfg.FsyncTick, snapCount: cfg.SnapCount, snapped: snap.Metadata.Index, applied: snap.Metadata.Index, confState: snap.Metadata.ConfState, stopc: make(chan struct{}), applierDone: make(chan struct{}), saverDone: make(chan struct{}), } ch := make(chan groupResponse, 1) n.groupc <- groupRequest{ reqType: groupRequestCreate, group: g, config: c, peers: cfg.Peers, ch: ch, } select { case res := <-ch: return res.err case <-ctx.Done(): return ctx.Err() case <-n.done: return ErrStopped } }