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fsm.go
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fsm.go
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// Copyright (c) HashiCorp, Inc.
// SPDX-License-Identifier: MPL-2.0
package raft
import (
"fmt"
"io"
"time"
"github.com/armon/go-metrics"
hclog "github.com/hashicorp/go-hclog"
)
// FSM is implemented by clients to make use of the replicated log.
type FSM interface {
// Apply is called once a log entry is committed by a majority of the cluster.
//
// Apply should apply the log to the FSM. Apply must be deterministic and
// produce the same result on all peers in the cluster.
//
// The returned value is returned to the client as the ApplyFuture.Response.
Apply(*Log) interface{}
// Snapshot returns an FSMSnapshot used to: support log compaction, to
// restore the FSM to a previous state, or to bring out-of-date followers up
// to a recent log index.
//
// The Snapshot implementation should return quickly, because Apply can not
// be called while Snapshot is running. Generally this means Snapshot should
// only capture a pointer to the state, and any expensive IO should happen
// as part of FSMSnapshot.Persist.
//
// Apply and Snapshot are always called from the same thread, but Apply will
// be called concurrently with FSMSnapshot.Persist. This means the FSM should
// be implemented to allow for concurrent updates while a snapshot is happening.
Snapshot() (FSMSnapshot, error)
// Restore is used to restore an FSM from a snapshot. It is not called
// concurrently with any other command. The FSM must discard all previous
// state before restoring the snapshot.
Restore(snapshot io.ReadCloser) error
}
// BatchingFSM extends the FSM interface to add an ApplyBatch function. This can
// optionally be implemented by clients to enable multiple logs to be applied to
// the FSM in batches. Up to MaxAppendEntries could be sent in a batch.
type BatchingFSM interface {
// ApplyBatch is invoked once a batch of log entries has been committed and
// are ready to be applied to the FSM. ApplyBatch will take in an array of
// log entries. These log entries will be in the order they were committed,
// will not have gaps, and could be of a few log types. Clients should check
// the log type prior to attempting to decode the data attached. Presently
// the LogCommand and LogConfiguration types will be sent.
//
// The returned slice must be the same length as the input and each response
// should correlate to the log at the same index of the input. The returned
// values will be made available in the ApplyFuture returned by Raft.Apply
// method if that method was called on the same Raft node as the FSM.
ApplyBatch([]*Log) []interface{}
FSM
}
// FSMSnapshot is returned by an FSM in response to a Snapshot
// It must be safe to invoke FSMSnapshot methods with concurrent
// calls to Apply.
type FSMSnapshot interface {
// Persist should dump all necessary state to the WriteCloser 'sink',
// and call sink.Close() when finished or call sink.Cancel() on error.
Persist(sink SnapshotSink) error
// Release is invoked when we are finished with the snapshot.
Release()
}
// runFSM is a long running goroutine responsible for applying logs
// to the FSM. This is done async of other logs since we don't want
// the FSM to block our internal operations.
func (r *Raft) runFSM() {
var lastIndex, lastTerm uint64
batchingFSM, batchingEnabled := r.fsm.(BatchingFSM)
configStore, configStoreEnabled := r.fsm.(ConfigurationStore)
applySingle := func(req *commitTuple) {
// Apply the log if a command or config change
var resp interface{}
// Make sure we send a response
defer func() {
// Invoke the future if given
if req.future != nil {
req.future.response = resp
req.future.respond(nil)
}
}()
switch req.log.Type {
case LogCommand:
start := time.Now()
resp = r.fsm.Apply(req.log)
metrics.MeasureSince([]string{"raft", "fsm", "apply"}, start)
case LogConfiguration:
if !configStoreEnabled {
// Return early to avoid incrementing the index and term for
// an unimplemented operation.
return
}
start := time.Now()
configStore.StoreConfiguration(req.log.Index, DecodeConfiguration(req.log.Data))
metrics.MeasureSince([]string{"raft", "fsm", "store_config"}, start)
}
// Update the indexes
lastIndex = req.log.Index
lastTerm = req.log.Term
}
applyBatch := func(reqs []*commitTuple) {
if !batchingEnabled {
for _, ct := range reqs {
applySingle(ct)
}
return
}
// Only send LogCommand and LogConfiguration log types. LogBarrier types
// will not be sent to the FSM.
shouldSend := func(l *Log) bool {
switch l.Type {
case LogCommand, LogConfiguration:
return true
}
return false
}
var lastBatchIndex, lastBatchTerm uint64
sendLogs := make([]*Log, 0, len(reqs))
for _, req := range reqs {
if shouldSend(req.log) {
sendLogs = append(sendLogs, req.log)
}
lastBatchIndex = req.log.Index
lastBatchTerm = req.log.Term
}
var responses []interface{}
if len(sendLogs) > 0 {
start := time.Now()
responses = batchingFSM.ApplyBatch(sendLogs)
metrics.MeasureSince([]string{"raft", "fsm", "applyBatch"}, start)
metrics.AddSample([]string{"raft", "fsm", "applyBatchNum"}, float32(len(reqs)))
// Ensure we get the expected responses
if len(sendLogs) != len(responses) {
panic("invalid number of responses")
}
}
// Update the indexes
lastIndex = lastBatchIndex
lastTerm = lastBatchTerm
var i int
for _, req := range reqs {
var resp interface{}
// If the log was sent to the FSM, retrieve the response.
if shouldSend(req.log) {
resp = responses[i]
i++
}
if req.future != nil {
req.future.response = resp
req.future.respond(nil)
}
}
}
restore := func(req *restoreFuture) {
// Open the snapshot
meta, source, err := r.snapshots.Open(req.ID)
if err != nil {
req.respond(fmt.Errorf("failed to open snapshot %v: %v", req.ID, err))
return
}
defer source.Close()
snapLogger := r.logger.With(
"id", req.ID,
"last-index", meta.Index,
"last-term", meta.Term,
"size-in-bytes", meta.Size,
)
// Attempt to restore
if err := fsmRestoreAndMeasure(snapLogger, r.fsm, source, meta.Size); err != nil {
req.respond(fmt.Errorf("failed to restore snapshot %v: %v", req.ID, err))
return
}
// Update the last index and term
lastIndex = meta.Index
lastTerm = meta.Term
req.respond(nil)
}
snapshot := func(req *reqSnapshotFuture) {
// Is there something to snapshot?
if lastIndex == 0 {
req.respond(ErrNothingNewToSnapshot)
return
}
// Start a snapshot
start := time.Now()
snap, err := r.fsm.Snapshot()
metrics.MeasureSince([]string{"raft", "fsm", "snapshot"}, start)
// Respond to the request
req.index = lastIndex
req.term = lastTerm
req.snapshot = snap
req.respond(err)
}
saturation := newSaturationMetric([]string{"raft", "thread", "fsm", "saturation"}, 1*time.Second)
for {
saturation.sleeping()
select {
case ptr := <-r.fsmMutateCh:
saturation.working()
switch req := ptr.(type) {
case []*commitTuple:
applyBatch(req)
case *restoreFuture:
restore(req)
default:
panic(fmt.Errorf("bad type passed to fsmMutateCh: %#v", ptr))
}
case req := <-r.fsmSnapshotCh:
saturation.working()
snapshot(req)
case <-r.shutdownCh:
return
}
}
}
// fsmRestoreAndMeasure wraps the Restore call on an FSM to consistently measure
// and report timing metrics. The caller is still responsible for calling Close
// on the source in all cases.
func fsmRestoreAndMeasure(logger hclog.Logger, fsm FSM, source io.ReadCloser, snapshotSize int64) error {
start := time.Now()
crc := newCountingReadCloser(source)
monitor := startSnapshotRestoreMonitor(logger, crc, snapshotSize, false)
defer monitor.StopAndWait()
if err := fsm.Restore(crc); err != nil {
return err
}
metrics.MeasureSince([]string{"raft", "fsm", "restore"}, start)
metrics.SetGauge([]string{"raft", "fsm", "lastRestoreDuration"},
float32(time.Since(start).Milliseconds()))
return nil
}