func (n *node) ProposeConfChange(ctx context.Context, cc pb.ConfChange) error {
data, err := cc.Marshal()
if err != nil {
return err
}
return n.Step(ctx, pb.Message{Type: pb.MsgProp, Entries: []pb.Entry{{Type: pb.EntryConfChange, Data: data}}})
}
// TestMultiNodeStart ensures that a node can be started correctly. The node should
// start with correct configuration change entries, and can accept and commit
// proposals.
func TestMultiNodeStart(t *testing.T) {
ctx, cancel := context.WithCancel(context.Background())
defer cancel()
cc := raftpb.ConfChange{Type: raftpb.ConfChangeAddNode, NodeID: 1}
ccdata, err := cc.Marshal()
if err != nil {
t.Fatalf("unexpected marshal error: %v", err)
}
wants := []Ready{
{
SoftState: &SoftState{Lead: 1, RaftState: StateLeader},
HardState: raftpb.HardState{Term: 2, Commit: 2, Vote: 1},
Entries: []raftpb.Entry{
{Type: raftpb.EntryConfChange, Term: 1, Index: 1, Data: ccdata},
{Term: 2, Index: 2},
},
CommittedEntries: []raftpb.Entry{
{Type: raftpb.EntryConfChange, Term: 1, Index: 1, Data: ccdata},
{Term: 2, Index: 2},
},
},
{
HardState: raftpb.HardState{Term: 2, Commit: 3, Vote: 1},
Entries: []raftpb.Entry{{Term: 2, Index: 3, Data: []byte("foo")}},
CommittedEntries: []raftpb.Entry{{Term: 2, Index: 3, Data: []byte("foo")}},
},
}
mn := StartMultiNode(1)
storage := NewMemoryStorage()
mn.CreateGroup(1, newTestConfig(1, nil, 10, 1, storage), []Peer{{ID: 1}})
mn.Campaign(ctx, 1)
gs := <-mn.Ready()
g := gs[1]
if !reflect.DeepEqual(g, wants[0]) {
t.Fatalf("#%d: g = %+v,\n w %+v", 1, g, wants[0])
} else {
storage.Append(g.Entries)
mn.Advance(gs)
}
mn.Propose(ctx, 1, []byte("foo"))
if gs2 := <-mn.Ready(); !reflect.DeepEqual(gs2[1], wants[1]) {
t.Errorf("#%d: g = %+v,\n w %+v", 2, gs2[1], wants[1])
} else {
storage.Append(gs2[1].Entries)
mn.Advance(gs2)
}
select {
case rd := <-mn.Ready():
t.Errorf("unexpected Ready: %+v", rd)
case <-time.After(time.Millisecond):
}
}
func (mn *multiNode) ProposeConfChange(ctx context.Context, group uint64, cc pb.ConfChange) error {
data, err := cc.Marshal()
if err != nil {
return err
}
return mn.Step(ctx, group,
pb.Message{
Type: pb.MsgProp,
Entries: []pb.Entry{
{Type: pb.EntryConfChange, Data: data},
},
})
}
// TestMultiNodeProposeConfig ensures that multiNode.ProposeConfChange
// sends the given configuration proposal to the underlying raft.
func TestMultiNodeProposeConfig(t *testing.T) {
mn := newMultiNode(1)
go mn.run()
s := NewMemoryStorage()
mn.CreateGroup(1, newTestConfig(1, nil, 10, 1, s), []Peer{{ID: 1}})
mn.Campaign(context.TODO(), 1)
proposed := false
var lastIndex uint64
var ccdata []byte
for {
rds := <-mn.Ready()
rd := rds[1]
s.Append(rd.Entries)
// change the step function to appendStep until this raft becomes leader
if !proposed && rd.SoftState.Lead == mn.id {
cc := raftpb.ConfChange{Type: raftpb.ConfChangeAddNode, NodeID: 1}
var err error
ccdata, err = cc.Marshal()
if err != nil {
t.Fatal(err)
}
mn.ProposeConfChange(context.TODO(), 1, cc)
proposed = true
}
mn.Advance(rds)
var err error
lastIndex, err = s.LastIndex()
if err != nil {
t.Fatal(err)
}
if lastIndex >= 3 {
break
}
}
mn.Stop()
entries, err := s.Entries(lastIndex, lastIndex+1, noLimit)
if err != nil {
t.Fatal(err)
}
if len(entries) != 1 {
t.Fatalf("len(entries) = %d, want %d", len(entries), 1)
}
if entries[0].Type != raftpb.EntryConfChange {
t.Fatalf("type = %v, want %v", entries[0].Type, raftpb.EntryConfChange)
}
if !bytes.Equal(entries[0].Data, ccdata) {
t.Errorf("data = %v, want %v", entries[0].Data, ccdata)
}
}
func (n *MultiNode) processConfChange(ctx context.Context, group uint64,
cc raftpb.ConfChange, gn GroupNode) error {
if group == 0 || gn.Node == 0 || gn.Group != group {
glog.Fatalf("invalid group node: %v", gn)
}
id := n.genID()
req := Request{Data: gn}
var err error
cc.Context, err = n.encReq(id, req)
if err != nil {
return err
}
ch := n.line.wait(id, req)
d, err := cc.Marshal()
if err != nil {
return err
}
select {
case n.propc <- multiMessage{
group: group,
msg: raftpb.Message{
Type: raftpb.MsgProp,
Entries: []raftpb.Entry{{Type: raftpb.EntryConfChange, Data: d}},
},
}:
case <-ctx.Done():
n.line.cancel(id)
return ctx.Err()
case <-n.done:
return ErrStopped
}
select {
case res := <-ch:
return res.Err
case <-ctx.Done():
n.line.cancel(id)
return ctx.Err()
case <-n.done:
return ErrStopped
}
}
// TestNodeProposeConfig ensures that node.ProposeConfChange sends the given configuration proposal
// to the underlying raft.
func TestNodeProposeConfig(t *testing.T) {
msgs := []raftpb.Message{}
appendStep := func(r *raft, m raftpb.Message) {
msgs = append(msgs, m)
}
n := newNode()
s := NewMemoryStorage()
r := newTestRaft(1, []uint64{1}, 10, 1, s)
go n.run(r)
n.Campaign(context.TODO())
for {
rd := <-n.Ready()
s.Append(rd.Entries)
// change the step function to appendStep until this raft becomes leader
if rd.SoftState.Lead == r.id {
r.step = appendStep
n.Advance()
break
}
n.Advance()
}
cc := raftpb.ConfChange{Type: raftpb.ConfChangeAddNode, NodeID: 1}
ccdata, err := cc.Marshal()
if err != nil {
t.Fatal(err)
}
n.ProposeConfChange(context.TODO(), cc)
n.Stop()
if len(msgs) != 1 {
t.Fatalf("len(msgs) = %d, want %d", len(msgs), 1)
}
if msgs[0].Type != raftpb.MsgProp {
t.Errorf("msg type = %d, want %d", msgs[0].Type, raftpb.MsgProp)
}
if !reflect.DeepEqual(msgs[0].Entries[0].Data, ccdata) {
t.Errorf("data = %v, want %v", msgs[0].Entries[0].Data, ccdata)
}
}
// StartNode returns a new Node given configuration and a list of raft peers.
// It appends a ConfChangeAddNode entry for each given peer to the initial log.
func StartNode(c *Config, peers []Peer) Node {
r := newRaft(c)
// become the follower at term 1 and apply initial configuration
// entires of term 1
r.becomeFollower(1, None)
for _, peer := range peers {
cc := pb.ConfChange{Type: pb.ConfChangeAddNode, NodeID: peer.ID, Context: peer.Context}
d, err := cc.Marshal()
if err != nil {
panic("unexpected marshal error")
}
e := pb.Entry{Type: pb.EntryConfChange, Term: 1, Index: r.raftLog.lastIndex() + 1, Data: d}
r.raftLog.append(e)
}
// Mark these initial entries as committed.
// TODO(bdarnell): These entries are still unstable; do we need to preserve
// the invariant that committed < unstable?
r.raftLog.committed = r.raftLog.lastIndex()
r.Commit = r.raftLog.committed
// Now apply them, mainly so that the application can call Campaign
// immediately after StartNode in tests. Note that these nodes will
// be added to raft twice: here and when the application's Ready
// loop calls ApplyConfChange. The calls to addNode must come after
// all calls to raftLog.append so progress.next is set after these
// bootstrapping entries (it is an error if we try to append these
// entries since they have already been committed).
// We do not set raftLog.applied so the application will be able
// to observe all conf changes via Ready.CommittedEntries.
for _, peer := range peers {
r.addNode(peer.ID)
}
n := newNode()
go n.run(r)
return &n
}
func (mn *multiNode) run() {
groups := map[uint64]*groupState{}
rds := map[uint64]Ready{}
var advancec chan map[uint64]Ready
for {
// Only select readyc if we have something to report and we are not
// currently waiting for an advance.
readyc := mn.readyc
if len(rds) == 0 || advancec != nil {
readyc = nil
}
// group points to the group that was touched on this iteration (if any)
var group *groupState
select {
case gc := <-mn.groupc:
gc.config.ID = mn.id
r := newRaft(gc.config)
group = &groupState{
id: gc.id,
raft: r,
}
groups[gc.id] = group
lastIndex, err := gc.config.Storage.LastIndex()
if err != nil {
panic(err) // TODO(bdarnell)
}
// If the log is empty, this is a new group (like StartNode); otherwise it's
// restoring an existing group (like RestartNode).
// TODO(bdarnell): rethink group initialization and whether the application needs
// to be able to tell us when it expects the group to exist.
if lastIndex == 0 {
r.becomeFollower(1, None)
ents := make([]pb.Entry, len(gc.peers))
for i, peer := range gc.peers {
cc := pb.ConfChange{Type: pb.ConfChangeAddNode, NodeID: peer.ID, Context: peer.Context}
data, err := cc.Marshal()
if err != nil {
panic("unexpected marshal error")
}
ents[i] = pb.Entry{Type: pb.EntryConfChange, Term: 1, Index: uint64(i + 1), Data: data}
}
r.raftLog.append(ents...)
r.raftLog.committed = uint64(len(ents))
for _, peer := range gc.peers {
r.addNode(peer.ID)
}
}
// Set the initial hard and soft states after performing all initialization.
group.prevSoftSt = r.softState()
group.prevHardSt = r.HardState
close(gc.done)
case gr := <-mn.rmgroupc:
delete(groups, gr.id)
delete(rds, gr.id)
close(gr.done)
case mm := <-mn.propc:
// TODO(bdarnell): single-node impl doesn't read from propc unless the group
// has a leader; we can't do that since we have one propc for many groups.
// We'll have to buffer somewhere on a group-by-group basis, or just let
// raft.Step drop any such proposals on the floor.
mm.msg.From = mn.id
var ok bool
if group, ok = groups[mm.group]; ok {
group.raft.Step(mm.msg)
}
case mm := <-mn.recvc:
group = groups[mm.group]
if _, ok := group.raft.prs[mm.msg.From]; ok || !IsResponseMsg(mm.msg) {
group.raft.Step(mm.msg)
}
case mcc := <-mn.confc:
group = groups[mcc.group]
if mcc.msg.NodeID == None {
group.raft.resetPendingConf()
select {
case mcc.ch <- pb.ConfState{Nodes: group.raft.nodes()}:
case <-mn.done:
}
break
}
switch mcc.msg.Type {
case pb.ConfChangeAddNode:
group.raft.addNode(mcc.msg.NodeID)
case pb.ConfChangeRemoveNode:
group.raft.removeNode(mcc.msg.NodeID)
case pb.ConfChangeUpdateNode:
group.raft.resetPendingConf()
default:
panic("unexpected conf type")
}
select {
case mcc.ch <- pb.ConfState{Nodes: group.raft.nodes()}:
case <-mn.done:
}
case <-mn.tickc:
// TODO(bdarnell): instead of calling every group on every tick,
// we should have a priority queue of groups based on their next
// time-based event.
for _, g := range groups {
g.raft.tick()
rd := g.newReady()
if rd.containsUpdates() {
rds[g.id] = rd
}
}
case readyc <- rds:
// Clear outgoing messages as soon as we've passed them to the application.
for g := range rds {
groups[g].raft.msgs = nil
}
rds = map[uint64]Ready{}
advancec = mn.advancec
case advs := <-advancec:
for groupID, rd := range advs {
g, ok := groups[groupID]
if !ok {
continue
}
g.commitReady(rd)
// We've been accumulating new entries in rds which may now be obsolete.
// Drop the old Ready object and create a new one if needed.
delete(rds, groupID)
newRd := g.newReady()
if newRd.containsUpdates() {
rds[groupID] = newRd
}
}
advancec = nil
case ms := <-mn.status:
if g, ok := groups[ms.group]; ok {
s := getStatus(g.raft)
ms.ch <- &s
} else {
ms.ch <- nil
}
case <-mn.stop:
close(mn.done)
return
}
if group != nil {
rd := group.newReady()
if rd.containsUpdates() {
rds[group.id] = rd
}
}
}
}
// TestNodeStart ensures that a node can be started correctly. The node should
// start with correct configuration change entries, and can accept and commit
// proposals.
func TestNodeStart(t *testing.T) {
ctx, cancel := context.WithCancel(context.Background())
defer cancel()
cc := raftpb.ConfChange{Type: raftpb.ConfChangeAddNode, NodeID: 1}
ccdata, err := cc.Marshal()
if err != nil {
t.Fatalf("unexpected marshal error: %v", err)
}
wants := []Ready{
{
SoftState: &SoftState{Lead: 1, RaftState: StateLeader},
HardState: raftpb.HardState{Term: 2, Commit: 2, Vote: 1},
Entries: []raftpb.Entry{
{Type: raftpb.EntryConfChange, Term: 1, Index: 1, Data: ccdata},
{Term: 2, Index: 2},
},
CommittedEntries: []raftpb.Entry{
{Type: raftpb.EntryConfChange, Term: 1, Index: 1, Data: ccdata},
{Term: 2, Index: 2},
},
},
{
HardState: raftpb.HardState{Term: 2, Commit: 3, Vote: 1},
Entries: []raftpb.Entry{{Term: 2, Index: 3, Data: []byte("foo")}},
CommittedEntries: []raftpb.Entry{{Term: 2, Index: 3, Data: []byte("foo")}},
},
}
storage := NewMemoryStorage()
c := &Config{
ID: 1,
ElectionTick: 10,
HeartbeatTick: 1,
Storage: storage,
MaxSizePerMsg: noLimit,
MaxInflightMsgs: 256,
}
n := StartNode(c, []Peer{{ID: 1}})
n.Campaign(ctx)
g := <-n.Ready()
if !reflect.DeepEqual(g, wants[0]) {
t.Fatalf("#%d: g = %+v,\n w %+v", 1, g, wants[0])
} else {
storage.Append(g.Entries)
n.Advance()
}
n.Propose(ctx, []byte("foo"))
if g2 := <-n.Ready(); !reflect.DeepEqual(g2, wants[1]) {
t.Errorf("#%d: g = %+v,\n w %+v", 2, g2, wants[1])
} else {
storage.Append(g2.Entries)
n.Advance()
}
select {
case rd := <-n.Ready():
t.Errorf("unexpected Ready: %+v", rd)
case <-time.After(time.Millisecond):
}
}