open-nomad/vendor/github.com/hashicorp/raft/fsm.go

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package raft
import (
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"fmt"
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"io"
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"time"
"github.com/armon/go-metrics"
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)
// FSM provides an interface that can be implemented by
// clients to make use of the replicated log.
type FSM interface {
// Apply log is invoked once a log entry is committed.
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// It returns a value which 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.
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Apply(*Log) interface{}
// Snapshot is used to support log compaction. This call should
// return an FSMSnapshot which can be used to save a point-in-time
// snapshot of the FSM. Apply and Snapshot are not called in multiple
// threads, but Apply will be called concurrently with Persist. This means
// the FSM should be implemented in a fashion that allows 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.
Restore(io.ReadCloser) error
}
// 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()
}
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// 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
commit := func(req *commitTuple) {
// Apply the log if a command
var resp interface{}
if req.log.Type == LogCommand {
start := time.Now()
resp = r.fsm.Apply(req.log)
metrics.MeasureSince([]string{"raft", "fsm", "apply"}, start)
}
// Update the indexes
lastIndex = req.log.Index
lastTerm = req.log.Term
// Invoke the future if given
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
}
// Attempt to restore
start := time.Now()
if err := r.fsm.Restore(source); err != nil {
req.respond(fmt.Errorf("failed to restore snapshot %v: %v", req.ID, err))
source.Close()
return
}
source.Close()
metrics.MeasureSince([]string{"raft", "fsm", "restore"}, start)
// 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)
}
for {
select {
case ptr := <-r.fsmMutateCh:
switch req := ptr.(type) {
case *commitTuple:
commit(req)
case *restoreFuture:
restore(req)
default:
panic(fmt.Errorf("bad type passed to fsmMutateCh: %#v", ptr))
}
case req := <-r.fsmSnapshotCh:
snapshot(req)
case <-r.shutdownCh:
return
}
}
}