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- package raft
- import (
- "errors"
- "fmt"
- "sort"
- pb "github.com/coreos/etcd/raft/raftpb"
- )
- const none = -1
- type messageType int64
- const (
- msgHup int64 = iota
- msgBeat
- msgProp
- msgApp
- msgAppResp
- msgVote
- msgVoteResp
- msgSnap
- msgDenied
- )
- var mtmap = [...]string{
- msgHup: "msgHup",
- msgBeat: "msgBeat",
- msgProp: "msgProp",
- msgApp: "msgApp",
- msgAppResp: "msgAppResp",
- msgVote: "msgVote",
- msgVoteResp: "msgVoteResp",
- msgSnap: "msgSnap",
- msgDenied: "msgDenied",
- }
- func (mt messageType) String() string {
- return mtmap[int64(mt)]
- }
- var errNoLeader = errors.New("no leader")
- const (
- stateFollower stateType = iota
- stateCandidate
- stateLeader
- )
- type stateType int64
- var stmap = [...]string{
- stateFollower: "stateFollower",
- stateCandidate: "stateCandidate",
- stateLeader: "stateLeader",
- }
- func (st stateType) String() string {
- return stmap[int64(st)]
- }
- type progress struct {
- match, next int64
- }
- func (pr *progress) update(n int64) {
- pr.match = n
- pr.next = n + 1
- }
- func (pr *progress) decr() {
- if pr.next--; pr.next < 1 {
- pr.next = 1
- }
- }
- func (pr *progress) String() string {
- return fmt.Sprintf("n=%d m=%d", pr.next, pr.match)
- }
- // int64Slice implements sort interface
- type int64Slice []int64
- func (p int64Slice) Len() int { return len(p) }
- func (p int64Slice) Less(i, j int) bool { return p[i] < p[j] }
- func (p int64Slice) Swap(i, j int) { p[i], p[j] = p[j], p[i] }
- type raft struct {
- pb.State
- id int64
- // the term we are participating in at any time
- index int64
- // the log
- raftLog *raftLog
- prs map[int64]*progress
- state stateType
- votes map[int64]bool
- msgs []pb.Message
- // the leader id
- lead int64
- elapsed int
- heartbeatTimeout int
- electionTimeout int
- tick func()
- step stepFunc
- }
- func newRaft(id int64, peers []int64, election, heartbeat int) *raft {
- if id == none {
- panic("cannot use none id")
- }
- r := &raft{
- id: id,
- lead: none,
- raftLog: newLog(),
- prs: make(map[int64]*progress),
- electionTimeout: election,
- heartbeatTimeout: heartbeat,
- }
- for _, p := range peers {
- r.prs[p] = &progress{}
- }
- r.becomeFollower(0, none)
- return r
- }
- func (r *raft) hasLeader() bool { return r.lead != none }
- func (r *raft) String() string {
- s := fmt.Sprintf(`state=%v term=%d`, r.state, r.Term)
- switch r.state {
- case stateFollower:
- s += fmt.Sprintf(" vote=%v lead=%v", r.Vote, r.lead)
- case stateCandidate:
- s += fmt.Sprintf(` votes="%v"`, r.votes)
- case stateLeader:
- s += fmt.Sprintf(` prs="%v"`, r.prs)
- }
- return s
- }
- func (r *raft) poll(id int64, v bool) (granted int) {
- if _, ok := r.votes[id]; !ok {
- r.votes[id] = v
- }
- for _, vv := range r.votes {
- if vv {
- granted++
- }
- }
- return granted
- }
- // send persists state to stable storage and then sends to its mailbox.
- func (r *raft) send(m pb.Message) {
- m.From = r.id
- m.Term = r.Term
- r.msgs = append(r.msgs, m)
- }
- // sendAppend sends RRPC, with entries to the given peer.
- func (r *raft) sendAppend(to int64) {
- pr := r.prs[to]
- m := pb.Message{}
- m.To = to
- m.Index = pr.next - 1
- if r.needSnapshot(m.Index) {
- m.Type = msgSnap
- m.Snapshot = r.raftLog.snapshot
- } else {
- m.Type = msgApp
- m.LogTerm = r.raftLog.term(pr.next - 1)
- m.Entries = r.raftLog.entries(pr.next)
- m.Commit = r.raftLog.committed
- }
- r.send(m)
- }
- // sendHeartbeat sends RRPC, without entries to the given peer.
- func (r *raft) sendHeartbeat(to int64) {
- pr := r.prs[to]
- index := max(pr.next-1, r.raftLog.offset)
- m := pb.Message{
- To: to,
- Type: msgApp,
- Index: index,
- LogTerm: r.raftLog.term(index),
- Commit: r.raftLog.committed,
- }
- r.send(m)
- }
- // bcastAppend sends RRPC, with entries to all peers that are not up-to-date according to r.mis.
- func (r *raft) bcastAppend() {
- for i := range r.prs {
- if i == r.id {
- continue
- }
- r.sendAppend(i)
- }
- }
- // bcastHeartbeat sends RRPC, without entries to all the peers.
- func (r *raft) bcastHeartbeat() {
- for i := range r.prs {
- if i == r.id {
- continue
- }
- r.sendHeartbeat(i)
- }
- }
- func (r *raft) maybeCommit() bool {
- // TODO(bmizerany): optimize.. Currently naive
- mis := make(int64Slice, 0, len(r.prs))
- for i := range r.prs {
- mis = append(mis, r.prs[i].match)
- }
- sort.Sort(sort.Reverse(mis))
- mci := mis[r.q()-1]
- return r.raftLog.maybeCommit(mci, r.Term)
- }
- func (r *raft) reset(term int64) {
- r.Term = term
- r.lead = none
- r.Vote = none
- r.elapsed = 0
- r.votes = make(map[int64]bool)
- for i := range r.prs {
- r.prs[i] = &progress{next: r.raftLog.lastIndex() + 1}
- if i == r.id {
- r.prs[i].match = r.raftLog.lastIndex()
- }
- }
- }
- func (r *raft) q() int {
- return len(r.prs)/2 + 1
- }
- func (r *raft) appendEntry(e pb.Entry) {
- e.Term = r.Term
- e.Index = r.raftLog.lastIndex() + 1
- r.LastIndex = r.raftLog.append(r.raftLog.lastIndex(), e)
- r.prs[r.id].update(r.raftLog.lastIndex())
- r.maybeCommit()
- }
- func (r *raft) tickElection() {
- r.elapsed++
- // TODO (xiangli): elctionTimeout should be randomized.
- if r.elapsed > r.electionTimeout {
- r.elapsed = 0
- r.Step(pb.Message{From: r.id, Type: msgHup})
- }
- }
- func (r *raft) tickHeartbeat() {
- r.elapsed++
- if r.elapsed > r.heartbeatTimeout {
- r.elapsed = 0
- r.Step(pb.Message{From: r.id, Type: msgBeat})
- }
- }
- func (r *raft) becomeFollower(term int64, lead int64) {
- r.step = stepFollower
- r.reset(term)
- r.tick = r.tickElection
- r.lead = lead
- r.state = stateFollower
- }
- func (r *raft) becomeCandidate() {
- // TODO(xiangli) remove the panic when the raft implementation is stable
- if r.state == stateLeader {
- panic("invalid transition [leader -> candidate]")
- }
- r.step = stepCandidate
- r.reset(r.Term + 1)
- r.tick = r.tickElection
- r.Vote = r.id
- r.state = stateCandidate
- }
- func (r *raft) becomeLeader() {
- // TODO(xiangli) remove the panic when the raft implementation is stable
- if r.state == stateFollower {
- panic("invalid transition [follower -> leader]")
- }
- r.step = stepLeader
- r.reset(r.Term)
- r.tick = r.tickHeartbeat
- r.lead = r.id
- r.state = stateLeader
- r.appendEntry(pb.Entry{Data: nil})
- }
- func (r *raft) ReadMessages() []pb.Message {
- msgs := r.msgs
- r.msgs = make([]pb.Message, 0)
- return msgs
- }
- func (r *raft) campaign() {
- r.becomeCandidate()
- if r.q() == r.poll(r.id, true) {
- r.becomeLeader()
- }
- for i := range r.prs {
- if i == r.id {
- continue
- }
- lasti := r.raftLog.lastIndex()
- r.send(pb.Message{To: i, Type: msgVote, Index: lasti, LogTerm: r.raftLog.term(lasti)})
- }
- }
- func (r *raft) Step(m pb.Message) error {
- // TODO(bmizerany): this likely allocs - prevent that.
- defer func() { r.Commit = r.raftLog.committed }()
- if m.Type == msgHup {
- r.campaign()
- }
- switch {
- case m.Term == 0:
- // local message
- case m.Term > r.Term:
- lead := m.From
- if m.Type == msgVote {
- lead = none
- }
- r.becomeFollower(m.Term, lead)
- case m.Term < r.Term:
- // ignore
- return nil
- }
- r.step(r, m)
- return nil
- }
- func (r *raft) handleAppendEntries(m pb.Message) {
- if r.raftLog.maybeAppend(m.Index, m.LogTerm, m.Commit, m.Entries...) {
- r.LastIndex = r.raftLog.lastIndex()
- r.send(pb.Message{To: m.From, Type: msgAppResp, Index: r.raftLog.lastIndex()})
- } else {
- r.send(pb.Message{To: m.From, Type: msgAppResp, Index: -1})
- }
- }
- func (r *raft) handleSnapshot(m pb.Message) {
- if r.restore(m.Snapshot) {
- r.send(pb.Message{To: m.From, Type: msgAppResp, Index: r.raftLog.lastIndex()})
- } else {
- r.send(pb.Message{To: m.From, Type: msgAppResp, Index: r.raftLog.committed})
- }
- }
- type stepFunc func(r *raft, m pb.Message)
- func stepLeader(r *raft, m pb.Message) {
- switch m.Type {
- case msgBeat:
- r.bcastHeartbeat()
- case msgProp:
- if len(m.Entries) != 1 {
- panic("unexpected length(entries) of a msgProp")
- }
- e := m.Entries[0]
- r.appendEntry(e)
- r.bcastAppend()
- case msgAppResp:
- if m.Index < 0 {
- r.prs[m.From].decr()
- r.sendAppend(m.From)
- } else {
- r.prs[m.From].update(m.Index)
- if r.maybeCommit() {
- r.bcastAppend()
- }
- }
- case msgVote:
- r.send(pb.Message{To: m.From, Type: msgVoteResp, Index: -1})
- }
- }
- func stepCandidate(r *raft, m pb.Message) {
- switch m.Type {
- case msgProp:
- panic("no leader")
- case msgApp:
- r.becomeFollower(r.Term, m.From)
- r.handleAppendEntries(m)
- case msgSnap:
- r.becomeFollower(m.Term, m.From)
- r.handleSnapshot(m)
- case msgVote:
- r.send(pb.Message{To: m.From, Type: msgVoteResp, Index: -1})
- case msgVoteResp:
- gr := r.poll(m.From, m.Index >= 0)
- switch r.q() {
- case gr:
- r.becomeLeader()
- r.bcastAppend()
- case len(r.votes) - gr:
- r.becomeFollower(r.Term, none)
- }
- }
- }
- func stepFollower(r *raft, m pb.Message) {
- switch m.Type {
- case msgProp:
- if r.lead == none {
- panic("no leader")
- }
- m.To = r.lead
- r.send(m)
- case msgApp:
- r.elapsed = 0
- r.lead = m.From
- r.handleAppendEntries(m)
- case msgSnap:
- r.elapsed = 0
- r.handleSnapshot(m)
- case msgVote:
- if (r.Vote == none || r.Vote == m.From) && r.raftLog.isUpToDate(m.Index, m.LogTerm) {
- r.elapsed = 0
- r.Vote = m.From
- r.send(pb.Message{To: m.From, Type: msgVoteResp, Index: r.raftLog.lastIndex()})
- } else {
- r.send(pb.Message{To: m.From, Type: msgVoteResp, Index: -1})
- }
- }
- }
- func (r *raft) compact(d []byte) {
- r.raftLog.snap(d, r.raftLog.applied, r.raftLog.term(r.raftLog.applied), r.nodes())
- r.raftLog.compact(r.raftLog.applied)
- }
- // restore recovers the statemachine from a snapshot. It restores the log and the
- // configuration of statemachine.
- func (r *raft) restore(s pb.Snapshot) bool {
- if s.Index <= r.raftLog.committed {
- return false
- }
- r.raftLog.restore(s)
- r.LastIndex = r.raftLog.lastIndex()
- r.prs = make(map[int64]*progress)
- for _, n := range s.Nodes {
- if n == r.id {
- r.setProgress(n, r.raftLog.lastIndex(), r.raftLog.lastIndex()+1)
- } else {
- r.setProgress(n, 0, r.raftLog.lastIndex()+1)
- }
- }
- return true
- }
- func (r *raft) needSnapshot(i int64) bool {
- if i < r.raftLog.offset {
- if r.raftLog.snapshot.Term == 0 {
- panic("need non-empty snapshot")
- }
- return true
- }
- return false
- }
- func (r *raft) nodes() []int64 {
- nodes := make([]int64, 0, len(r.prs))
- for k := range r.prs {
- nodes = append(nodes, k)
- }
- return nodes
- }
- func (r *raft) setProgress(id, match, next int64) {
- r.prs[id] = &progress{next: next, match: match}
- }
- func (r *raft) delProgress(id int64) {
- delete(r.prs, id)
- }
- func (r *raft) loadEnts(ents []pb.Entry) {
- if !r.raftLog.isEmpty() {
- panic("cannot load entries when log is not empty")
- }
- r.raftLog.append(0, ents...)
- r.raftLog.unstable = r.raftLog.lastIndex() + 1
- }
- func (r *raft) loadState(state pb.State) {
- r.raftLog.committed = state.Commit
- r.Term = state.Term
- r.Vote = state.Vote
- r.Commit = state.Commit
- r.LastIndex = state.LastIndex
- }
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