mirror of https://github.com/status-im/consul.git
600 lines
18 KiB
Go
600 lines
18 KiB
Go
package raft
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import (
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"errors"
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"fmt"
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"sync"
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"sync/atomic"
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"time"
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"github.com/armon/go-metrics"
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)
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const (
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maxFailureScale = 12
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failureWait = 10 * time.Millisecond
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)
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var (
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// ErrLogNotFound indicates a given log entry is not available.
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ErrLogNotFound = errors.New("log not found")
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// ErrPipelineReplicationNotSupported can be returned by the transport to
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// signal that pipeline replication is not supported in general, and that
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// no error message should be produced.
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ErrPipelineReplicationNotSupported = errors.New("pipeline replication not supported")
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)
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// followerReplication is in charge of sending snapshots and log entries from
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// this leader during this particular term to a remote follower.
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type followerReplication struct {
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// currentTerm and nextIndex must be kept at the top of the struct so
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// they're 64 bit aligned which is a requirement for atomic ops on 32 bit
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// platforms.
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// currentTerm is the term of this leader, to be included in AppendEntries
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// requests.
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currentTerm uint64
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// nextIndex is the index of the next log entry to send to the follower,
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// which may fall past the end of the log.
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nextIndex uint64
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// peer contains the network address and ID of the remote follower.
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peer Server
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// commitment tracks the entries acknowledged by followers so that the
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// leader's commit index can advance. It is updated on successful
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// AppendEntries responses.
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commitment *commitment
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// stopCh is notified/closed when this leader steps down or the follower is
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// removed from the cluster. In the follower removed case, it carries a log
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// index; replication should be attempted with a best effort up through that
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// index, before exiting.
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stopCh chan uint64
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// triggerCh is notified every time new entries are appended to the log.
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triggerCh chan struct{}
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// triggerDeferErrorCh is used to provide a backchannel. By sending a
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// deferErr, the sender can be notifed when the replication is done.
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triggerDeferErrorCh chan *deferError
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// lastContact is updated to the current time whenever any response is
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// received from the follower (successful or not). This is used to check
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// whether the leader should step down (Raft.checkLeaderLease()).
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lastContact time.Time
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// lastContactLock protects 'lastContact'.
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lastContactLock sync.RWMutex
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// failures counts the number of failed RPCs since the last success, which is
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// used to apply backoff.
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failures uint64
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// notifyCh is notified to send out a heartbeat, which is used to check that
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// this server is still leader.
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notifyCh chan struct{}
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// notify is a map of futures to be resolved upon receipt of an
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// acknowledgement, then cleared from this map.
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notify map[*verifyFuture]struct{}
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// notifyLock protects 'notify'.
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notifyLock sync.Mutex
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// stepDown is used to indicate to the leader that we
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// should step down based on information from a follower.
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stepDown chan struct{}
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// allowPipeline is used to determine when to pipeline the AppendEntries RPCs.
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// It is private to this replication goroutine.
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allowPipeline bool
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}
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// notifyAll is used to notify all the waiting verify futures
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// if the follower believes we are still the leader.
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func (s *followerReplication) notifyAll(leader bool) {
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// Clear the waiting notifies minimizing lock time
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s.notifyLock.Lock()
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n := s.notify
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s.notify = make(map[*verifyFuture]struct{})
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s.notifyLock.Unlock()
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// Submit our votes
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for v, _ := range n {
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v.vote(leader)
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}
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}
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// cleanNotify is used to delete notify, .
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func (s *followerReplication) cleanNotify(v *verifyFuture) {
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s.notifyLock.Lock()
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delete(s.notify, v)
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s.notifyLock.Unlock()
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}
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// LastContact returns the time of last contact.
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func (s *followerReplication) LastContact() time.Time {
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s.lastContactLock.RLock()
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last := s.lastContact
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s.lastContactLock.RUnlock()
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return last
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}
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// setLastContact sets the last contact to the current time.
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func (s *followerReplication) setLastContact() {
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s.lastContactLock.Lock()
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s.lastContact = time.Now()
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s.lastContactLock.Unlock()
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}
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// replicate is a long running routine that replicates log entries to a single
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// follower.
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func (r *Raft) replicate(s *followerReplication) {
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// Start an async heartbeating routing
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stopHeartbeat := make(chan struct{})
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defer close(stopHeartbeat)
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r.goFunc(func() { r.heartbeat(s, stopHeartbeat) })
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RPC:
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shouldStop := false
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for !shouldStop {
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select {
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case maxIndex := <-s.stopCh:
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// Make a best effort to replicate up to this index
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if maxIndex > 0 {
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r.replicateTo(s, maxIndex)
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}
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return
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case deferErr := <-s.triggerDeferErrorCh:
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lastLogIdx, _ := r.getLastLog()
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shouldStop = r.replicateTo(s, lastLogIdx)
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if !shouldStop {
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deferErr.respond(nil)
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} else {
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deferErr.respond(fmt.Errorf("replication failed"))
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}
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case <-s.triggerCh:
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lastLogIdx, _ := r.getLastLog()
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shouldStop = r.replicateTo(s, lastLogIdx)
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// This is _not_ our heartbeat mechanism but is to ensure
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// followers quickly learn the leader's commit index when
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// raft commits stop flowing naturally. The actual heartbeats
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// can't do this to keep them unblocked by disk IO on the
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// follower. See https://github.com/hashicorp/raft/issues/282.
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case <-randomTimeout(r.conf.CommitTimeout):
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lastLogIdx, _ := r.getLastLog()
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shouldStop = r.replicateTo(s, lastLogIdx)
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}
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// If things looks healthy, switch to pipeline mode
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if !shouldStop && s.allowPipeline {
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goto PIPELINE
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}
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}
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return
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PIPELINE:
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// Disable until re-enabled
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s.allowPipeline = false
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// Replicates using a pipeline for high performance. This method
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// is not able to gracefully recover from errors, and so we fall back
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// to standard mode on failure.
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if err := r.pipelineReplicate(s); err != nil {
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if err != ErrPipelineReplicationNotSupported {
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r.logger.Error(fmt.Sprintf("Failed to start pipeline replication to %s: %s", s.peer, err))
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}
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}
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goto RPC
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}
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// replicateTo is a helper to replicate(), used to replicate the logs up to a
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// given last index.
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// If the follower log is behind, we take care to bring them up to date.
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func (r *Raft) replicateTo(s *followerReplication, lastIndex uint64) (shouldStop bool) {
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// Create the base request
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var req AppendEntriesRequest
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var resp AppendEntriesResponse
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var start time.Time
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START:
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// Prevent an excessive retry rate on errors
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if s.failures > 0 {
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select {
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case <-time.After(backoff(failureWait, s.failures, maxFailureScale)):
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case <-r.shutdownCh:
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}
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}
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// Setup the request
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if err := r.setupAppendEntries(s, &req, atomic.LoadUint64(&s.nextIndex), lastIndex); err == ErrLogNotFound {
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goto SEND_SNAP
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} else if err != nil {
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return
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}
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// Make the RPC call
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start = time.Now()
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if err := r.trans.AppendEntries(s.peer.ID, s.peer.Address, &req, &resp); err != nil {
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r.logger.Error(fmt.Sprintf("Failed to AppendEntries to %v: %v", s.peer, err))
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s.failures++
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return
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}
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appendStats(string(s.peer.ID), start, float32(len(req.Entries)))
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// Check for a newer term, stop running
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if resp.Term > req.Term {
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r.handleStaleTerm(s)
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return true
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}
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// Update the last contact
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s.setLastContact()
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// Update s based on success
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if resp.Success {
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// Update our replication state
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updateLastAppended(s, &req)
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// Clear any failures, allow pipelining
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s.failures = 0
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s.allowPipeline = true
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} else {
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atomic.StoreUint64(&s.nextIndex, max(min(s.nextIndex-1, resp.LastLog+1), 1))
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if resp.NoRetryBackoff {
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s.failures = 0
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} else {
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s.failures++
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}
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r.logger.Warn(fmt.Sprintf("AppendEntries to %v rejected, sending older logs (next: %d)", s.peer, atomic.LoadUint64(&s.nextIndex)))
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}
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CHECK_MORE:
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// Poll the stop channel here in case we are looping and have been asked
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// to stop, or have stepped down as leader. Even for the best effort case
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// where we are asked to replicate to a given index and then shutdown,
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// it's better to not loop in here to send lots of entries to a straggler
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// that's leaving the cluster anyways.
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select {
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case <-s.stopCh:
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return true
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default:
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}
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// Check if there are more logs to replicate
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if atomic.LoadUint64(&s.nextIndex) <= lastIndex {
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goto START
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}
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return
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// SEND_SNAP is used when we fail to get a log, usually because the follower
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// is too far behind, and we must ship a snapshot down instead
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SEND_SNAP:
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if stop, err := r.sendLatestSnapshot(s); stop {
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return true
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} else if err != nil {
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r.logger.Error(fmt.Sprintf("Failed to send snapshot to %v: %v", s.peer, err))
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return
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}
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// Check if there is more to replicate
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goto CHECK_MORE
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}
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// sendLatestSnapshot is used to send the latest snapshot we have
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// down to our follower.
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func (r *Raft) sendLatestSnapshot(s *followerReplication) (bool, error) {
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// Get the snapshots
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snapshots, err := r.snapshots.List()
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if err != nil {
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r.logger.Error(fmt.Sprintf("Failed to list snapshots: %v", err))
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return false, err
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}
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// Check we have at least a single snapshot
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if len(snapshots) == 0 {
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return false, fmt.Errorf("no snapshots found")
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}
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// Open the most recent snapshot
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snapID := snapshots[0].ID
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meta, snapshot, err := r.snapshots.Open(snapID)
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if err != nil {
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r.logger.Error(fmt.Sprintf("Failed to open snapshot %v: %v", snapID, err))
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return false, err
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}
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defer snapshot.Close()
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// Setup the request
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req := InstallSnapshotRequest{
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RPCHeader: r.getRPCHeader(),
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SnapshotVersion: meta.Version,
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Term: s.currentTerm,
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Leader: r.trans.EncodePeer(r.localID, r.localAddr),
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LastLogIndex: meta.Index,
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LastLogTerm: meta.Term,
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Peers: meta.Peers,
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Size: meta.Size,
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Configuration: encodeConfiguration(meta.Configuration),
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ConfigurationIndex: meta.ConfigurationIndex,
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}
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// Make the call
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start := time.Now()
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var resp InstallSnapshotResponse
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if err := r.trans.InstallSnapshot(s.peer.ID, s.peer.Address, &req, &resp, snapshot); err != nil {
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r.logger.Error(fmt.Sprintf("Failed to install snapshot %v: %v", snapID, err))
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s.failures++
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return false, err
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}
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metrics.MeasureSince([]string{"raft", "replication", "installSnapshot", string(s.peer.ID)}, start)
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// Check for a newer term, stop running
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if resp.Term > req.Term {
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r.handleStaleTerm(s)
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return true, nil
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}
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// Update the last contact
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s.setLastContact()
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// Check for success
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if resp.Success {
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// Update the indexes
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atomic.StoreUint64(&s.nextIndex, meta.Index+1)
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s.commitment.match(s.peer.ID, meta.Index)
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// Clear any failures
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s.failures = 0
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// Notify we are still leader
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s.notifyAll(true)
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} else {
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s.failures++
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r.logger.Warn(fmt.Sprintf("InstallSnapshot to %v rejected", s.peer))
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}
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return false, nil
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}
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// heartbeat is used to periodically invoke AppendEntries on a peer
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// to ensure they don't time out. This is done async of replicate(),
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// since that routine could potentially be blocked on disk IO.
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func (r *Raft) heartbeat(s *followerReplication, stopCh chan struct{}) {
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var failures uint64
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req := AppendEntriesRequest{
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RPCHeader: r.getRPCHeader(),
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Term: s.currentTerm,
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Leader: r.trans.EncodePeer(r.localID, r.localAddr),
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}
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var resp AppendEntriesResponse
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for {
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// Wait for the next heartbeat interval or forced notify
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select {
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case <-s.notifyCh:
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case <-randomTimeout(r.conf.HeartbeatTimeout / 10):
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case <-stopCh:
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return
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}
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start := time.Now()
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if err := r.trans.AppendEntries(s.peer.ID, s.peer.Address, &req, &resp); err != nil {
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r.logger.Error(fmt.Sprintf("Failed to heartbeat to %v: %v", s.peer.Address, err))
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failures++
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select {
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case <-time.After(backoff(failureWait, failures, maxFailureScale)):
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case <-stopCh:
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}
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} else {
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s.setLastContact()
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failures = 0
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metrics.MeasureSince([]string{"raft", "replication", "heartbeat", string(s.peer.ID)}, start)
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s.notifyAll(resp.Success)
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}
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}
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}
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// pipelineReplicate is used when we have synchronized our state with the follower,
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// and want to switch to a higher performance pipeline mode of replication.
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// We only pipeline AppendEntries commands, and if we ever hit an error, we fall
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// back to the standard replication which can handle more complex situations.
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func (r *Raft) pipelineReplicate(s *followerReplication) error {
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// Create a new pipeline
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pipeline, err := r.trans.AppendEntriesPipeline(s.peer.ID, s.peer.Address)
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if err != nil {
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return err
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}
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defer pipeline.Close()
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// Log start and stop of pipeline
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r.logger.Info(fmt.Sprintf("pipelining replication to peer %v", s.peer))
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defer r.logger.Info(fmt.Sprintf("aborting pipeline replication to peer %v", s.peer))
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// Create a shutdown and finish channel
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stopCh := make(chan struct{})
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finishCh := make(chan struct{})
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// Start a dedicated decoder
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r.goFunc(func() { r.pipelineDecode(s, pipeline, stopCh, finishCh) })
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// Start pipeline sends at the last good nextIndex
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nextIndex := atomic.LoadUint64(&s.nextIndex)
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shouldStop := false
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SEND:
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for !shouldStop {
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select {
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case <-finishCh:
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break SEND
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case maxIndex := <-s.stopCh:
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// Make a best effort to replicate up to this index
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if maxIndex > 0 {
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r.pipelineSend(s, pipeline, &nextIndex, maxIndex)
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}
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break SEND
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case deferErr := <-s.triggerDeferErrorCh:
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lastLogIdx, _ := r.getLastLog()
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shouldStop = r.pipelineSend(s, pipeline, &nextIndex, lastLogIdx)
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if !shouldStop {
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deferErr.respond(nil)
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} else {
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deferErr.respond(fmt.Errorf("replication failed"))
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}
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case <-s.triggerCh:
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lastLogIdx, _ := r.getLastLog()
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shouldStop = r.pipelineSend(s, pipeline, &nextIndex, lastLogIdx)
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case <-randomTimeout(r.conf.CommitTimeout):
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lastLogIdx, _ := r.getLastLog()
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shouldStop = r.pipelineSend(s, pipeline, &nextIndex, lastLogIdx)
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}
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}
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// Stop our decoder, and wait for it to finish
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close(stopCh)
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select {
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case <-finishCh:
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case <-r.shutdownCh:
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}
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return nil
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}
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// pipelineSend is used to send data over a pipeline. It is a helper to
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// pipelineReplicate.
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func (r *Raft) pipelineSend(s *followerReplication, p AppendPipeline, nextIdx *uint64, lastIndex uint64) (shouldStop bool) {
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// Create a new append request
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req := new(AppendEntriesRequest)
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if err := r.setupAppendEntries(s, req, *nextIdx, lastIndex); err != nil {
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return true
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}
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// Pipeline the append entries
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if _, err := p.AppendEntries(req, new(AppendEntriesResponse)); err != nil {
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r.logger.Error(fmt.Sprintf("Failed to pipeline AppendEntries to %v: %v", s.peer, err))
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return true
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}
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// Increase the next send log to avoid re-sending old logs
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if n := len(req.Entries); n > 0 {
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last := req.Entries[n-1]
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atomic.StoreUint64(nextIdx, last.Index+1)
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}
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return false
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}
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// pipelineDecode is used to decode the responses of pipelined requests.
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func (r *Raft) pipelineDecode(s *followerReplication, p AppendPipeline, stopCh, finishCh chan struct{}) {
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defer close(finishCh)
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respCh := p.Consumer()
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for {
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select {
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case ready := <-respCh:
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req, resp := ready.Request(), ready.Response()
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appendStats(string(s.peer.ID), ready.Start(), float32(len(req.Entries)))
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// Check for a newer term, stop running
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if resp.Term > req.Term {
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r.handleStaleTerm(s)
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return
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}
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// Update the last contact
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s.setLastContact()
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// Abort pipeline if not successful
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if !resp.Success {
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return
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}
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// Update our replication state
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updateLastAppended(s, req)
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case <-stopCh:
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return
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}
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}
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}
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// setupAppendEntries is used to setup an append entries request.
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func (r *Raft) setupAppendEntries(s *followerReplication, req *AppendEntriesRequest, nextIndex, lastIndex uint64) error {
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req.RPCHeader = r.getRPCHeader()
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req.Term = s.currentTerm
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req.Leader = r.trans.EncodePeer(r.localID, r.localAddr)
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req.LeaderCommitIndex = r.getCommitIndex()
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if err := r.setPreviousLog(req, nextIndex); err != nil {
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return err
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}
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if err := r.setNewLogs(req, nextIndex, lastIndex); err != nil {
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return err
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}
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return nil
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}
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// setPreviousLog is used to setup the PrevLogEntry and PrevLogTerm for an
|
|
// AppendEntriesRequest given the next index to replicate.
|
|
func (r *Raft) setPreviousLog(req *AppendEntriesRequest, nextIndex uint64) error {
|
|
// Guard for the first index, since there is no 0 log entry
|
|
// Guard against the previous index being a snapshot as well
|
|
lastSnapIdx, lastSnapTerm := r.getLastSnapshot()
|
|
if nextIndex == 1 {
|
|
req.PrevLogEntry = 0
|
|
req.PrevLogTerm = 0
|
|
|
|
} else if (nextIndex - 1) == lastSnapIdx {
|
|
req.PrevLogEntry = lastSnapIdx
|
|
req.PrevLogTerm = lastSnapTerm
|
|
|
|
} else {
|
|
var l Log
|
|
if err := r.logs.GetLog(nextIndex-1, &l); err != nil {
|
|
r.logger.Error(fmt.Sprintf("Failed to get log at index %d: %v", nextIndex-1, err))
|
|
return err
|
|
}
|
|
|
|
// Set the previous index and term (0 if nextIndex is 1)
|
|
req.PrevLogEntry = l.Index
|
|
req.PrevLogTerm = l.Term
|
|
}
|
|
return nil
|
|
}
|
|
|
|
// setNewLogs is used to setup the logs which should be appended for a request.
|
|
func (r *Raft) setNewLogs(req *AppendEntriesRequest, nextIndex, lastIndex uint64) error {
|
|
// Append up to MaxAppendEntries or up to the lastIndex
|
|
req.Entries = make([]*Log, 0, r.conf.MaxAppendEntries)
|
|
maxIndex := min(nextIndex+uint64(r.conf.MaxAppendEntries)-1, lastIndex)
|
|
for i := nextIndex; i <= maxIndex; i++ {
|
|
oldLog := new(Log)
|
|
if err := r.logs.GetLog(i, oldLog); err != nil {
|
|
r.logger.Error(fmt.Sprintf("Failed to get log at index %d: %v", i, err))
|
|
return err
|
|
}
|
|
req.Entries = append(req.Entries, oldLog)
|
|
}
|
|
return nil
|
|
}
|
|
|
|
// appendStats is used to emit stats about an AppendEntries invocation.
|
|
func appendStats(peer string, start time.Time, logs float32) {
|
|
metrics.MeasureSince([]string{"raft", "replication", "appendEntries", "rpc", peer}, start)
|
|
metrics.IncrCounter([]string{"raft", "replication", "appendEntries", "logs", peer}, logs)
|
|
}
|
|
|
|
// handleStaleTerm is used when a follower indicates that we have a stale term.
|
|
func (r *Raft) handleStaleTerm(s *followerReplication) {
|
|
r.logger.Error(fmt.Sprintf("peer %v has newer term, stopping replication", s.peer))
|
|
s.notifyAll(false) // No longer leader
|
|
asyncNotifyCh(s.stepDown)
|
|
}
|
|
|
|
// updateLastAppended is used to update follower replication state after a
|
|
// successful AppendEntries RPC.
|
|
// TODO: This isn't used during InstallSnapshot, but the code there is similar.
|
|
func updateLastAppended(s *followerReplication, req *AppendEntriesRequest) {
|
|
// Mark any inflight logs as committed
|
|
if logs := req.Entries; len(logs) > 0 {
|
|
last := logs[len(logs)-1]
|
|
atomic.StoreUint64(&s.nextIndex, last.Index+1)
|
|
s.commitment.match(s.peer.ID, last.Index)
|
|
}
|
|
|
|
// Notify still leader
|
|
s.notifyAll(true)
|
|
}
|