open-nomad/nomad/serf.go

278 lines
7.8 KiB
Go

package nomad
import (
"strings"
"sync/atomic"
"time"
"github.com/hashicorp/nomad/nomad/structs"
"github.com/hashicorp/raft"
"github.com/hashicorp/serf/serf"
)
const (
// StatusReap is used to update the status of a node if we
// are handling a EventMemberReap
StatusReap = serf.MemberStatus(-1)
// maxPeerRetries limits how many invalidate attempts are made
maxPeerRetries = 6
// peerRetryBase is a baseline retry time
peerRetryBase = 1 * time.Second
)
// serfEventHandler is used to handle events from the serf cluster
func (s *Server) serfEventHandler() {
for {
select {
case e := <-s.eventCh:
switch e.EventType() {
case serf.EventMemberJoin:
s.nodeJoin(e.(serf.MemberEvent))
s.localMemberEvent(e.(serf.MemberEvent))
case serf.EventMemberLeave, serf.EventMemberFailed:
s.nodeFailed(e.(serf.MemberEvent))
s.localMemberEvent(e.(serf.MemberEvent))
case serf.EventMemberReap:
s.localMemberEvent(e.(serf.MemberEvent))
case serf.EventMemberUpdate, serf.EventUser, serf.EventQuery: // Ignore
default:
s.logger.Printf("[WARN] nomad: unhandled serf event: %#v", e)
}
case <-s.shutdownCh:
return
}
}
}
// nodeJoin is used to handle join events on the serf cluster
func (s *Server) nodeJoin(me serf.MemberEvent) {
for _, m := range me.Members {
ok, parts := isNomadServer(m)
if !ok {
s.logger.Printf("[WARN] nomad: non-server in gossip pool: %s", m.Name)
continue
}
s.logger.Printf("[INFO] nomad: adding server %s", parts)
// Check if this server is known
found := false
s.peerLock.Lock()
existing := s.peers[parts.Region]
for idx, e := range existing {
if e.Name == parts.Name {
existing[idx] = parts
found = true
break
}
}
// Add ot the list if not known
if !found {
s.peers[parts.Region] = append(existing, parts)
}
// Check if a local peer
if parts.Region == s.config.Region {
s.localPeers[raft.ServerAddress(parts.Addr.String())] = parts
}
s.peerLock.Unlock()
// If we still expecting to bootstrap, may need to handle this
if atomic.LoadInt32(&s.config.BootstrapExpect) != 0 {
s.maybeBootstrap()
}
}
}
// maybeBootstrap is used to handle bootstrapping when a new server joins
func (s *Server) maybeBootstrap() {
// Bootstrap can only be done if there are no committed logs, remove our
// expectations of bootstrapping. This is slightly cheaper than the full
// check that BootstrapCluster will do, so this is a good pre-filter.
var index uint64
var err error
if s.raftStore != nil {
index, err = s.raftStore.LastIndex()
} else if s.raftInmem != nil {
index, err = s.raftInmem.LastIndex()
} else {
panic("neither raftInmem or raftStore is initialized")
}
if err != nil {
s.logger.Printf("[ERR] nomad: failed to read last raft index: %v", err)
return
}
// Bootstrap can only be done if there are no committed logs,
// remove our expectations of bootstrapping
if index != 0 {
atomic.StoreInt32(&s.config.BootstrapExpect, 0)
return
}
// Scan for all the known servers
members := s.serf.Members()
var servers []serverParts
for _, member := range members {
valid, p := isNomadServer(member)
if !valid {
continue
}
if p.Region != s.config.Region {
continue
}
if p.Expect != 0 && p.Expect != int(atomic.LoadInt32(&s.config.BootstrapExpect)) {
s.logger.Printf("[ERR] nomad: peer %v has a conflicting expect value. All nodes should expect the same number.", member)
return
}
if p.Bootstrap {
s.logger.Printf("[ERR] nomad: peer %v has bootstrap mode. Expect disabled.", member)
return
}
servers = append(servers, *p)
}
// Skip if we haven't met the minimum expect count
if len(servers) < int(atomic.LoadInt32(&s.config.BootstrapExpect)) {
return
}
// Query each of the servers and make sure they report no Raft peers.
req := &structs.GenericRequest{
QueryOptions: structs.QueryOptions{
AllowStale: true,
},
}
for _, server := range servers {
var peers []string
// Retry with exponential backoff to get peer status from this server
for attempt := uint(0); attempt < maxPeerRetries; attempt++ {
if err := s.connPool.RPC(s.config.Region, server.Addr, server.MajorVersion,
"Status.Peers", req, &peers); err != nil {
nextRetry := (1 << attempt) * peerRetryBase
s.logger.Printf("[ERR] nomad: Failed to confirm peer status for %s: %v. Retrying in "+
"%v...", server.Name, err, nextRetry.String())
time.Sleep(nextRetry)
} else {
break
}
}
// Found a node with some Raft peers, stop bootstrap since there's
// evidence of an existing cluster. We should get folded in by the
// existing servers if that's the case, so it's cleaner to sit as a
// candidate with no peers so we don't cause spurious elections.
// It's OK this is racy, because even with an initial bootstrap
// as long as one peer runs bootstrap things will work, and if we
// have multiple peers bootstrap in the same way, that's OK. We
// just don't want a server added much later to do a live bootstrap
// and interfere with the cluster. This isn't required for Raft's
// correctness because no server in the existing cluster will vote
// for this server, but it makes things much more stable.
if len(peers) > 0 {
s.logger.Printf("[INFO] nomad: Existing Raft peers reported by %s (%v), disabling bootstrap mode", server.Name, server.Addr)
atomic.StoreInt32(&s.config.BootstrapExpect, 0)
return
}
}
// Update the peer set
// Attempt a live bootstrap!
var configuration raft.Configuration
var addrs []string
minRaftVersion, err := MinRaftProtocol(s.config.Region, members)
if err != nil {
s.logger.Printf("[ERR] nomad: Failed to read server raft versions: %v", err)
}
for _, server := range servers {
addr := server.Addr.String()
addrs = append(addrs, addr)
var id raft.ServerID
if minRaftVersion >= 3 {
id = raft.ServerID(server.ID)
} else {
id = raft.ServerID(addr)
}
peer := raft.Server{
ID: id,
Address: raft.ServerAddress(addr),
}
configuration.Servers = append(configuration.Servers, peer)
}
s.logger.Printf("[INFO] nomad: Found expected number of peers (%s), attempting to bootstrap cluster...",
strings.Join(addrs, ","))
future := s.raft.BootstrapCluster(configuration)
if err := future.Error(); err != nil {
s.logger.Printf("[ERR] nomad: Failed to bootstrap cluster: %v", err)
}
// Bootstrapping complete, or failed for some reason, don't enter this again
atomic.StoreInt32(&s.config.BootstrapExpect, 0)
}
// nodeFailed is used to handle fail events on the serf cluster
func (s *Server) nodeFailed(me serf.MemberEvent) {
for _, m := range me.Members {
ok, parts := isNomadServer(m)
if !ok {
continue
}
s.logger.Printf("[INFO] nomad: removing server %s", parts)
// Remove the server if known
s.peerLock.Lock()
existing := s.peers[parts.Region]
n := len(existing)
for i := 0; i < n; i++ {
if existing[i].Name == parts.Name {
existing[i], existing[n-1] = existing[n-1], nil
existing = existing[:n-1]
n--
break
}
}
// Trim the list there are no known servers in a region
if n == 0 {
delete(s.peers, parts.Region)
} else {
s.peers[parts.Region] = existing
}
// Check if local peer
if parts.Region == s.config.Region {
delete(s.localPeers, raft.ServerAddress(parts.Addr.String()))
}
s.peerLock.Unlock()
}
}
// localMemberEvent is used to reconcile Serf events with the
// consistent store if we are the current leader.
func (s *Server) localMemberEvent(me serf.MemberEvent) {
// Do nothing if we are not the leader
if !s.IsLeader() {
return
}
// Check if this is a reap event
isReap := me.EventType() == serf.EventMemberReap
// Queue the members for reconciliation
for _, m := range me.Members {
// Change the status if this is a reap event
if isReap {
m.Status = StatusReap
}
select {
case s.reconcileCh <- m:
default:
}
}
}