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log_test.go
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log_test.go
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// Copyright 2015 The etcd Authors
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package raft
import (
"fmt"
"testing"
"github.com/stretchr/testify/require"
pb "go.etcd.io/raft/v3/raftpb"
)
func TestFindConflict(t *testing.T) {
previousEnts := index(1).terms(1, 2, 3)
tests := []struct {
ents []pb.Entry
wconflict uint64
}{
// no conflict, empty ent
{nil, 0},
// no conflict
{index(1).terms(1, 2, 3), 0},
{index(2).terms(2, 3), 0},
{index(3).terms(3), 0},
// no conflict, but has new entries
{index(1).terms(1, 2, 3, 4, 4), 4},
{index(2).terms(2, 3, 4, 5), 4},
{index(3).terms(3, 4, 4), 4},
{index(4).terms(4, 4), 4},
// conflicts with existing entries
{index(1).terms(4, 4), 1},
{index(2).terms(1, 4, 4), 2},
{index(3).terms(1, 2, 4, 4), 3},
}
for i, tt := range tests {
t.Run(fmt.Sprint(i), func(t *testing.T) {
raftLog := newLog(NewMemoryStorage(), raftLogger)
raftLog.append(previousEnts...)
require.Equal(t, tt.wconflict, raftLog.findConflict(tt.ents))
})
}
}
func TestFindConflictByTerm(t *testing.T) {
for _, tt := range []struct {
ents []pb.Entry // ents[0] contains the (index, term) of the snapshot
index uint64
term uint64
want uint64
}{
// Log starts from index 1.
{ents: index(0).terms(0, 2, 2, 5, 5, 5), index: 100, term: 2, want: 100}, // ErrUnavailable
{ents: index(0).terms(0, 2, 2, 5, 5, 5), index: 5, term: 6, want: 5},
{ents: index(0).terms(0, 2, 2, 5, 5, 5), index: 5, term: 5, want: 5},
{ents: index(0).terms(0, 2, 2, 5, 5, 5), index: 5, term: 4, want: 2},
{ents: index(0).terms(0, 2, 2, 5, 5, 5), index: 5, term: 2, want: 2},
{ents: index(0).terms(0, 2, 2, 5, 5, 5), index: 5, term: 1, want: 0},
{ents: index(0).terms(0, 2, 2, 5, 5, 5), index: 1, term: 2, want: 1},
{ents: index(0).terms(0, 2, 2, 5, 5, 5), index: 1, term: 1, want: 0},
{ents: index(0).terms(0, 2, 2, 5, 5, 5), index: 0, term: 0, want: 0},
// Log with compacted entries.
{ents: index(10).terms(3, 3, 3, 4, 4, 4), index: 30, term: 3, want: 30}, // ErrUnavailable
{ents: index(10).terms(3, 3, 3, 4, 4, 4), index: 14, term: 9, want: 14},
{ents: index(10).terms(3, 3, 3, 4, 4, 4), index: 14, term: 4, want: 14},
{ents: index(10).terms(3, 3, 3, 4, 4, 4), index: 14, term: 3, want: 12},
{ents: index(10).terms(3, 3, 3, 4, 4, 4), index: 14, term: 2, want: 9},
{ents: index(10).terms(3, 3, 3, 4, 4, 4), index: 11, term: 5, want: 11},
{ents: index(10).terms(3, 3, 3, 4, 4, 4), index: 10, term: 5, want: 10},
{ents: index(10).terms(3, 3, 3, 4, 4, 4), index: 10, term: 3, want: 10},
{ents: index(10).terms(3, 3, 3, 4, 4, 4), index: 10, term: 2, want: 9},
{ents: index(10).terms(3, 3, 3, 4, 4, 4), index: 9, term: 2, want: 9}, // ErrCompacted
{ents: index(10).terms(3, 3, 3, 4, 4, 4), index: 4, term: 2, want: 4}, // ErrCompacted
{ents: index(10).terms(3, 3, 3, 4, 4, 4), index: 0, term: 0, want: 0}, // ErrCompacted
} {
t.Run("", func(t *testing.T) {
st := NewMemoryStorage()
require.NotEmpty(t, tt.ents)
st.ApplySnapshot(pb.Snapshot{Metadata: pb.SnapshotMetadata{
Index: tt.ents[0].Index,
Term: tt.ents[0].Term,
}})
l := newLog(st, raftLogger)
l.append(tt.ents[1:]...)
index, term := l.findConflictByTerm(tt.index, tt.term)
require.Equal(t, tt.want, index)
wantTerm, err := l.term(index)
wantTerm = l.zeroTermOnOutOfBounds(wantTerm, err)
require.Equal(t, wantTerm, term)
})
}
}
func TestIsUpToDate(t *testing.T) {
previousEnts := index(1).terms(1, 2, 3)
raftLog := newLog(NewMemoryStorage(), raftLogger)
raftLog.append(previousEnts...)
tests := []struct {
lastIndex uint64
term uint64
wUpToDate bool
}{
// greater term, ignore lastIndex
{raftLog.lastIndex() - 1, 4, true},
{raftLog.lastIndex(), 4, true},
{raftLog.lastIndex() + 1, 4, true},
// smaller term, ignore lastIndex
{raftLog.lastIndex() - 1, 2, false},
{raftLog.lastIndex(), 2, false},
{raftLog.lastIndex() + 1, 2, false},
// equal term, equal or lager lastIndex wins
{raftLog.lastIndex() - 1, 3, false},
{raftLog.lastIndex(), 3, true},
{raftLog.lastIndex() + 1, 3, true},
}
for i, tt := range tests {
t.Run(fmt.Sprint(i), func(t *testing.T) {
require.Equal(t, tt.wUpToDate, raftLog.isUpToDate(entryID{term: tt.term, index: tt.lastIndex}))
})
}
}
func TestAppend(t *testing.T) {
previousEnts := index(1).terms(1, 2)
tests := []struct {
ents []pb.Entry
windex uint64
wents []pb.Entry
wunstable uint64
}{
{
nil,
2,
index(1).terms(1, 2),
3,
},
{
index(3).terms(2),
3,
index(1).terms(1, 2, 2),
3,
},
// conflicts with index 1
{
index(1).terms(2),
1,
index(1).terms(2),
1,
},
// conflicts with index 2
{
index(2).terms(3, 3),
3,
index(1).terms(1, 3, 3),
2,
},
}
for i, tt := range tests {
t.Run(fmt.Sprint(i), func(t *testing.T) {
storage := NewMemoryStorage()
storage.Append(previousEnts)
raftLog := newLog(storage, raftLogger)
require.Equal(t, tt.windex, raftLog.append(tt.ents...))
g, err := raftLog.entries(1, noLimit)
require.NoError(t, err)
require.Equal(t, tt.wents, g)
require.Equal(t, tt.wunstable, raftLog.unstable.offset)
})
}
}
// TestLogMaybeAppend ensures:
// If the given (index, term) matches with the existing log:
// 1. If an existing entry conflicts with a new one (same index
// but different terms), delete the existing entry and all that
// follow it
// 2.Append any new entries not already in the log
//
// If the given (index, term) does not match with the existing log:
//
// return false
func TestLogMaybeAppend(t *testing.T) {
previousEnts := index(1).terms(1, 2, 3)
lastindex := uint64(3)
lastterm := uint64(3)
commit := uint64(1)
// TODO(pav-kv): clean-up this test.
tests := []struct {
prev entryID
committed uint64
ents []pb.Entry
wlasti uint64
wappend bool
wcommit uint64
wpanic bool
}{
// not match: term is different
{
entryID{term: lastterm - 1, index: lastindex}, lastindex,
index(lastindex + 1).terms(4),
0, false, commit, false,
},
// not match: index out of bound
{
entryID{term: lastterm, index: lastindex + 1}, lastindex,
index(lastindex + 2).terms(4),
0, false, commit, false,
},
// match with the last existing entry
{
entryID{term: lastterm, index: lastindex}, lastindex, nil,
lastindex, true, lastindex, false,
},
{
entryID{term: lastterm, index: lastindex}, lastindex + 1, nil,
lastindex, true, lastindex, false, // do not increase commit higher than lastnewi
},
{
entryID{term: lastterm, index: lastindex}, lastindex - 1, nil,
lastindex, true, lastindex - 1, false, // commit up to the commit in the message
},
{
entryID{term: lastterm, index: lastindex}, 0, nil,
lastindex, true, commit, false, // commit do not decrease
},
{
entryID{}, lastindex, nil,
0, true, commit, false, // commit do not decrease
},
{
entryID{term: lastterm, index: lastindex}, lastindex,
index(lastindex + 1).terms(4),
lastindex + 1, true, lastindex, false,
},
{
entryID{term: lastterm, index: lastindex}, lastindex + 1,
index(lastindex + 1).terms(4),
lastindex + 1, true, lastindex + 1, false,
},
{
entryID{term: lastterm, index: lastindex}, lastindex + 2,
index(lastindex + 1).terms(4),
lastindex + 1, true, lastindex + 1, false, // do not increase commit higher than lastnewi
},
{
entryID{term: lastterm, index: lastindex}, lastindex + 2,
index(lastindex+1).terms(4, 4),
lastindex + 2, true, lastindex + 2, false,
},
// match with the entry in the middle
{
entryID{term: lastterm - 1, index: lastindex - 1}, lastindex,
index(lastindex).terms(4),
lastindex, true, lastindex, false,
},
{
entryID{term: lastterm - 2, index: lastindex - 2}, lastindex,
index(lastindex - 1).terms(4),
lastindex - 1, true, lastindex - 1, false,
},
{
entryID{term: lastterm - 3, index: lastindex - 3}, lastindex,
index(lastindex - 2).terms(4),
lastindex - 2, true, lastindex - 2, true, // conflict with existing committed entry
},
{
entryID{term: lastterm - 2, index: lastindex - 2}, lastindex,
index(lastindex-1).terms(4, 4),
lastindex, true, lastindex, false,
},
}
for i, tt := range tests {
// TODO(pav-kv): for now, we pick a high enough app.term so that it
// represents a valid append message. The maybeAppend currently ignores it,
// but it must check that the append does not regress the term.
app := logSlice{
term: 100,
prev: tt.prev,
entries: tt.ents,
}
require.NoError(t, app.valid())
raftLog := newLog(NewMemoryStorage(), raftLogger)
raftLog.append(previousEnts...)
raftLog.committed = commit
t.Run(fmt.Sprint(i), func(t *testing.T) {
defer func() {
if r := recover(); r != nil {
require.True(t, tt.wpanic)
}
}()
glasti, gappend := raftLog.maybeAppend(app, tt.committed)
require.Equal(t, tt.wlasti, glasti)
require.Equal(t, tt.wappend, gappend)
require.Equal(t, tt.wcommit, raftLog.committed)
if gappend && len(tt.ents) != 0 {
gents, err := raftLog.slice(raftLog.lastIndex()-uint64(len(tt.ents))+1, raftLog.lastIndex()+1, noLimit)
require.NoError(t, err)
require.Equal(t, tt.ents, gents)
}
})
}
}
// TestCompactionSideEffects ensures that all the log related functionality works correctly after
// a compaction.
func TestCompactionSideEffects(t *testing.T) {
// Populate the log with 1000 entries; 750 in stable storage and 250 in unstable.
lastIndex := uint64(1000)
unstableIndex := uint64(750)
storage := NewMemoryStorage()
require.NoError(t, storage.Append(index(1).termRange(1, unstableIndex+1)))
raftLog := newLog(storage, raftLogger)
raftLog.append(index(unstableIndex+1).termRange(unstableIndex+1, lastIndex+1)...)
require.True(t, raftLog.maybeCommit(raftLog.lastEntryID()))
raftLog.appliedTo(raftLog.committed, 0 /* size */)
offset := uint64(500)
require.NoError(t, storage.Compact(offset))
require.Equal(t, lastIndex, raftLog.lastIndex())
for j := offset; j <= raftLog.lastIndex(); j++ {
require.Equal(t, j, mustTerm(raftLog.term(j)))
}
for j := offset; j <= raftLog.lastIndex(); j++ {
require.True(t, raftLog.matchTerm(entryID{term: j, index: j}))
}
unstableEnts := raftLog.nextUnstableEnts()
require.Equal(t, 250, len(unstableEnts))
require.Equal(t, uint64(751), unstableEnts[0].Index)
prev := raftLog.lastIndex()
raftLog.append(pb.Entry{Index: raftLog.lastIndex() + 1, Term: raftLog.lastIndex() + 1})
require.Equal(t, prev+1, raftLog.lastIndex())
ents, err := raftLog.entries(raftLog.lastIndex(), noLimit)
require.NoError(t, err)
require.Equal(t, 1, len(ents))
}
func TestHasNextCommittedEnts(t *testing.T) {
snap := pb.Snapshot{
Metadata: pb.SnapshotMetadata{Term: 1, Index: 3},
}
ents := index(4).terms(1, 1, 1)
tests := []struct {
applied uint64
applying uint64
allowUnstable bool
paused bool
snap bool
whasNext bool
}{
{applied: 3, applying: 3, allowUnstable: true, whasNext: true},
{applied: 3, applying: 4, allowUnstable: true, whasNext: true},
{applied: 3, applying: 5, allowUnstable: true, whasNext: false},
{applied: 4, applying: 4, allowUnstable: true, whasNext: true},
{applied: 4, applying: 5, allowUnstable: true, whasNext: false},
{applied: 5, applying: 5, allowUnstable: true, whasNext: false},
// Don't allow unstable entries.
{applied: 3, applying: 3, allowUnstable: false, whasNext: true},
{applied: 3, applying: 4, allowUnstable: false, whasNext: false},
{applied: 3, applying: 5, allowUnstable: false, whasNext: false},
{applied: 4, applying: 4, allowUnstable: false, whasNext: false},
{applied: 4, applying: 5, allowUnstable: false, whasNext: false},
{applied: 5, applying: 5, allowUnstable: false, whasNext: false},
// Paused.
{applied: 3, applying: 3, allowUnstable: true, paused: true, whasNext: false},
// With snapshot.
{applied: 3, applying: 3, allowUnstable: true, snap: true, whasNext: false},
}
for i, tt := range tests {
t.Run(fmt.Sprint(i), func(t *testing.T) {
storage := NewMemoryStorage()
require.NoError(t, storage.ApplySnapshot(snap))
require.NoError(t, storage.Append(ents[:1]))
raftLog := newLog(storage, raftLogger)
raftLog.append(ents...)
raftLog.stableTo(entryID{term: 1, index: 4})
raftLog.maybeCommit(entryID{term: 1, index: 5})
raftLog.appliedTo(tt.applied, 0 /* size */)
raftLog.acceptApplying(tt.applying, 0 /* size */, tt.allowUnstable)
raftLog.applyingEntsPaused = tt.paused
if tt.snap {
newSnap := snap
newSnap.Metadata.Index++
raftLog.restore(newSnap)
}
require.Equal(t, tt.whasNext, raftLog.hasNextCommittedEnts(tt.allowUnstable))
})
}
}
func TestNextCommittedEnts(t *testing.T) {
snap := pb.Snapshot{
Metadata: pb.SnapshotMetadata{Term: 1, Index: 3},
}
ents := index(4).terms(1, 1, 1)
tests := []struct {
applied uint64
applying uint64
allowUnstable bool
paused bool
snap bool
wents []pb.Entry
}{
{applied: 3, applying: 3, allowUnstable: true, wents: ents[:2]},
{applied: 3, applying: 4, allowUnstable: true, wents: ents[1:2]},
{applied: 3, applying: 5, allowUnstable: true, wents: nil},
{applied: 4, applying: 4, allowUnstable: true, wents: ents[1:2]},
{applied: 4, applying: 5, allowUnstable: true, wents: nil},
{applied: 5, applying: 5, allowUnstable: true, wents: nil},
// Don't allow unstable entries.
{applied: 3, applying: 3, allowUnstable: false, wents: ents[:1]},
{applied: 3, applying: 4, allowUnstable: false, wents: nil},
{applied: 3, applying: 5, allowUnstable: false, wents: nil},
{applied: 4, applying: 4, allowUnstable: false, wents: nil},
{applied: 4, applying: 5, allowUnstable: false, wents: nil},
{applied: 5, applying: 5, allowUnstable: false, wents: nil},
// Paused.
{applied: 3, applying: 3, allowUnstable: true, paused: true, wents: nil},
// With snapshot.
{applied: 3, applying: 3, allowUnstable: true, snap: true, wents: nil},
}
for i, tt := range tests {
t.Run(fmt.Sprint(i), func(t *testing.T) {
storage := NewMemoryStorage()
require.NoError(t, storage.ApplySnapshot(snap))
require.NoError(t, storage.Append(ents[:1]))
raftLog := newLog(storage, raftLogger)
raftLog.append(ents...)
raftLog.stableTo(entryID{term: 1, index: 4})
raftLog.maybeCommit(entryID{term: 1, index: 5})
raftLog.appliedTo(tt.applied, 0 /* size */)
raftLog.acceptApplying(tt.applying, 0 /* size */, tt.allowUnstable)
raftLog.applyingEntsPaused = tt.paused
if tt.snap {
newSnap := snap
newSnap.Metadata.Index++
raftLog.restore(newSnap)
}
require.Equal(t, tt.wents, raftLog.nextCommittedEnts(tt.allowUnstable))
})
}
}
func TestAcceptApplying(t *testing.T) {
maxSize := entryEncodingSize(100)
snap := pb.Snapshot{
Metadata: pb.SnapshotMetadata{Term: 1, Index: 3},
}
ents := index(4).terms(1, 1, 1)
tests := []struct {
index uint64
allowUnstable bool
size entryEncodingSize
wpaused bool
}{
{index: 3, allowUnstable: true, size: maxSize - 1, wpaused: true},
{index: 3, allowUnstable: true, size: maxSize, wpaused: true},
{index: 3, allowUnstable: true, size: maxSize + 1, wpaused: true},
{index: 4, allowUnstable: true, size: maxSize - 1, wpaused: true},
{index: 4, allowUnstable: true, size: maxSize, wpaused: true},
{index: 4, allowUnstable: true, size: maxSize + 1, wpaused: true},
{index: 5, allowUnstable: true, size: maxSize - 1, wpaused: false},
{index: 5, allowUnstable: true, size: maxSize, wpaused: true},
{index: 5, allowUnstable: true, size: maxSize + 1, wpaused: true},
// Don't allow unstable entries.
{index: 3, allowUnstable: false, size: maxSize - 1, wpaused: true},
{index: 3, allowUnstable: false, size: maxSize, wpaused: true},
{index: 3, allowUnstable: false, size: maxSize + 1, wpaused: true},
{index: 4, allowUnstable: false, size: maxSize - 1, wpaused: false},
{index: 4, allowUnstable: false, size: maxSize, wpaused: true},
{index: 4, allowUnstable: false, size: maxSize + 1, wpaused: true},
{index: 5, allowUnstable: false, size: maxSize - 1, wpaused: false},
{index: 5, allowUnstable: false, size: maxSize, wpaused: true},
{index: 5, allowUnstable: false, size: maxSize + 1, wpaused: true},
}
for i, tt := range tests {
t.Run(fmt.Sprint(i), func(t *testing.T) {
storage := NewMemoryStorage()
require.NoError(t, storage.ApplySnapshot(snap))
require.NoError(t, storage.Append(ents[:1]))
raftLog := newLogWithSize(storage, raftLogger, maxSize)
raftLog.append(ents...)
raftLog.stableTo(entryID{term: 1, index: 4})
raftLog.maybeCommit(entryID{term: 1, index: 5})
raftLog.appliedTo(3, 0 /* size */)
raftLog.acceptApplying(tt.index, tt.size, tt.allowUnstable)
require.Equal(t, tt.wpaused, raftLog.applyingEntsPaused)
})
}
}
func TestAppliedTo(t *testing.T) {
maxSize := entryEncodingSize(100)
overshoot := entryEncodingSize(5)
snap := pb.Snapshot{
Metadata: pb.SnapshotMetadata{Term: 1, Index: 3},
}
ents := index(4).terms(1, 1, 1)
tests := []struct {
index uint64
size entryEncodingSize
wapplyingSize entryEncodingSize
wpaused bool
}{
// Apply some of in-progress entries (applying = 5 below).
{index: 4, size: overshoot - 1, wapplyingSize: maxSize + 1, wpaused: true},
{index: 4, size: overshoot, wapplyingSize: maxSize, wpaused: true},
{index: 4, size: overshoot + 1, wapplyingSize: maxSize - 1, wpaused: false},
// Apply all of in-progress entries.
{index: 5, size: overshoot - 1, wapplyingSize: maxSize + 1, wpaused: true},
{index: 5, size: overshoot, wapplyingSize: maxSize, wpaused: true},
{index: 5, size: overshoot + 1, wapplyingSize: maxSize - 1, wpaused: false},
// Apply all of outstanding bytes.
{index: 4, size: maxSize + overshoot, wapplyingSize: 0, wpaused: false},
// Apply more than outstanding bytes.
// Incorrect accounting doesn't underflow applyingSize.
{index: 4, size: maxSize + overshoot + 1, wapplyingSize: 0, wpaused: false},
}
for i, tt := range tests {
t.Run(fmt.Sprint(i), func(t *testing.T) {
storage := NewMemoryStorage()
require.NoError(t, storage.ApplySnapshot(snap))
require.NoError(t, storage.Append(ents[:1]))
raftLog := newLogWithSize(storage, raftLogger, maxSize)
raftLog.append(ents...)
raftLog.stableTo(entryID{term: 1, index: 4})
raftLog.maybeCommit(entryID{term: 1, index: 5})
raftLog.appliedTo(3, 0 /* size */)
raftLog.acceptApplying(5, maxSize+overshoot, false /* allowUnstable */)
raftLog.appliedTo(tt.index, tt.size)
require.Equal(t, tt.index, raftLog.applied)
require.Equal(t, uint64(5), raftLog.applying)
require.Equal(t, tt.wapplyingSize, raftLog.applyingEntsSize)
require.Equal(t, tt.wpaused, raftLog.applyingEntsPaused)
})
}
}
// TestNextUnstableEnts ensures unstableEntries returns the unstable part of the
// entries correctly.
func TestNextUnstableEnts(t *testing.T) {
previousEnts := index(1).terms(1, 2)
tests := []struct {
unstable uint64
wents []pb.Entry
}{
{3, nil},
{1, previousEnts},
}
for i, tt := range tests {
t.Run(fmt.Sprint(i), func(t *testing.T) {
// append stable entries to storage
storage := NewMemoryStorage()
require.NoError(t, storage.Append(previousEnts[:tt.unstable-1]))
// append unstable entries to raftlog
raftLog := newLog(storage, raftLogger)
raftLog.append(previousEnts[tt.unstable-1:]...)
ents := raftLog.nextUnstableEnts()
if l := len(ents); l > 0 {
raftLog.stableTo(pbEntryID(&ents[l-1]))
}
require.Equal(t, tt.wents, ents)
require.Equal(t, previousEnts[len(previousEnts)-1].Index+1, raftLog.unstable.offset)
})
}
}
func TestCommitTo(t *testing.T) {
previousEnts := index(1).terms(1, 2, 3)
commit := uint64(2)
tests := []struct {
commit uint64
wcommit uint64
wpanic bool
}{
{3, 3, false},
{1, 2, false}, // never decrease
{4, 0, true}, // commit out of range -> panic
}
for i, tt := range tests {
t.Run(fmt.Sprint(i), func(t *testing.T) {
defer func() {
if r := recover(); r != nil {
require.True(t, tt.wpanic)
}
}()
raftLog := newLog(NewMemoryStorage(), raftLogger)
raftLog.append(previousEnts...)
raftLog.committed = commit
raftLog.commitTo(tt.commit)
require.Equal(t, tt.wcommit, raftLog.committed)
})
}
}
func TestStableTo(t *testing.T) {
tests := []struct {
stablei uint64
stablet uint64
wunstable uint64
}{
{1, 1, 2},
{2, 2, 3},
{2, 1, 1}, // bad term
{3, 1, 1}, // bad index
}
for i, tt := range tests {
t.Run(fmt.Sprint(i), func(t *testing.T) {
raftLog := newLog(NewMemoryStorage(), raftLogger)
raftLog.append(index(1).terms(1, 2)...)
raftLog.stableTo(entryID{term: tt.stablet, index: tt.stablei})
require.Equal(t, tt.wunstable, raftLog.unstable.offset)
})
}
}
func TestStableToWithSnap(t *testing.T) {
snapi, snapt := uint64(5), uint64(2)
tests := []struct {
stablei uint64
stablet uint64
newEnts []pb.Entry
wunstable uint64
}{
{snapi + 1, snapt, nil, snapi + 1},
{snapi, snapt, nil, snapi + 1},
{snapi - 1, snapt, nil, snapi + 1},
{snapi + 1, snapt + 1, nil, snapi + 1},
{snapi, snapt + 1, nil, snapi + 1},
{snapi - 1, snapt + 1, nil, snapi + 1},
{snapi + 1, snapt, index(snapi + 1).terms(snapt), snapi + 2},
{snapi, snapt, index(snapi + 1).terms(snapt), snapi + 1},
{snapi - 1, snapt, index(snapi + 1).terms(snapt), snapi + 1},
{snapi + 1, snapt + 1, index(snapi + 1).terms(snapt), snapi + 1},
{snapi, snapt + 1, index(snapi + 1).terms(snapt), snapi + 1},
{snapi - 1, snapt + 1, index(snapi + 1).terms(snapt), snapi + 1},
}
for i, tt := range tests {
t.Run(fmt.Sprint(i), func(t *testing.T) {
s := NewMemoryStorage()
require.NoError(t, s.ApplySnapshot(pb.Snapshot{Metadata: pb.SnapshotMetadata{Index: snapi, Term: snapt}}))
raftLog := newLog(s, raftLogger)
raftLog.append(tt.newEnts...)
raftLog.stableTo(entryID{term: tt.stablet, index: tt.stablei})
require.Equal(t, tt.wunstable, raftLog.unstable.offset)
})
}
}
// TestCompaction ensures that the number of log entries is correct after compactions.
func TestCompaction(t *testing.T) {
tests := []struct {
lastIndex uint64
compact []uint64
wleft []int
wallow bool
}{
// out of upper bound
{1000, []uint64{1001}, []int{-1}, false},
{1000, []uint64{300, 500, 800, 900}, []int{700, 500, 200, 100}, true},
// out of lower bound
{1000, []uint64{300, 299}, []int{700, -1}, false},
}
for i, tt := range tests {
t.Run(fmt.Sprint(i), func(t *testing.T) {
defer func() {
if r := recover(); r != nil {
require.False(t, tt.wallow)
}
}()
storage := NewMemoryStorage()
require.NoError(t, storage.Append(index(1).termRange(1, tt.lastIndex+1)))
raftLog := newLog(storage, raftLogger)
raftLog.maybeCommit(entryID{term: 0, index: tt.lastIndex}) // TODO(pav-kv): this is a no-op
raftLog.appliedTo(raftLog.committed, 0 /* size */)
for j := 0; j < len(tt.compact); j++ {
err := storage.Compact(tt.compact[j])
if err != nil {
require.False(t, tt.wallow)
continue
}
require.Equal(t, tt.wleft[j], len(raftLog.allEntries()))
}
})
}
}
func TestLogRestore(t *testing.T) {
index := uint64(1000)
term := uint64(1000)
snap := pb.SnapshotMetadata{Index: index, Term: term}
storage := NewMemoryStorage()
storage.ApplySnapshot(pb.Snapshot{Metadata: snap})
raftLog := newLog(storage, raftLogger)
require.Zero(t, len(raftLog.allEntries()))
require.Equal(t, index+1, raftLog.firstIndex())
require.Equal(t, index, raftLog.committed)
require.Equal(t, index+1, raftLog.unstable.offset)
require.Equal(t, term, mustTerm(raftLog.term(index)))
}
func TestIsOutOfBounds(t *testing.T) {
offset := uint64(100)
num := uint64(100)
storage := NewMemoryStorage()
storage.ApplySnapshot(pb.Snapshot{Metadata: pb.SnapshotMetadata{Index: offset}})
l := newLog(storage, raftLogger)
l.append(index(offset+1).termRange(offset+1, offset+num+1)...)
first := offset + 1
tests := []struct {
lo, hi uint64
wpanic bool
wErrCompacted bool
}{
{
first - 2, first + 1,
false,
true,
},
{
first - 1, first + 1,
false,
true,
},
{
first, first,
false,
false,
},
{
first + num/2, first + num/2,
false,
false,
},
{
first + num - 1, first + num - 1,
false,
false,
},
{
first + num, first + num,
false,
false,
},
{
first + num, first + num + 1,
true,
false,
},
{
first + num + 1, first + num + 1,
true,
false,
},
}
for i, tt := range tests {
t.Run(fmt.Sprint(i), func(t *testing.T) {
defer func() {
if r := recover(); r != nil {
require.True(t, tt.wpanic)
}
}()
err := l.mustCheckOutOfBounds(tt.lo, tt.hi)
require.False(t, tt.wpanic)
require.False(t, tt.wErrCompacted && err != ErrCompacted)
require.False(t, !tt.wErrCompacted && err != nil)
})
}
}
func TestTerm(t *testing.T) {
offset := uint64(100)
num := uint64(100)
storage := NewMemoryStorage()
storage.ApplySnapshot(pb.Snapshot{Metadata: pb.SnapshotMetadata{Index: offset, Term: 1}})
l := newLog(storage, raftLogger)
l.append(index(offset+1).termRange(1, num)...)
for i, tt := range []struct {
idx uint64
term uint64
err error
}{
{idx: offset - 1, err: ErrCompacted},
{idx: offset, term: 1},
{idx: offset + num/2, term: num / 2},
{idx: offset + num - 1, term: num - 1},
{idx: offset + num, err: ErrUnavailable},
} {
t.Run(fmt.Sprint(i), func(t *testing.T) {
term, err := l.term(tt.idx)
require.Equal(t, tt.term, term)
require.Equal(t, tt.err, err)
})
}
}
func TestTermWithUnstableSnapshot(t *testing.T) {
storagesnapi := uint64(100)
unstablesnapi := storagesnapi + 5
storage := NewMemoryStorage()
storage.ApplySnapshot(pb.Snapshot{Metadata: pb.SnapshotMetadata{Index: storagesnapi, Term: 1}})
l := newLog(storage, raftLogger)
l.restore(pb.Snapshot{Metadata: pb.SnapshotMetadata{Index: unstablesnapi, Term: 1}})
for i, tt := range []struct {
idx uint64
term uint64
err error
}{
// cannot get term from storage
{idx: storagesnapi, err: ErrCompacted},
// cannot get term from the gap between storage ents and unstable snapshot
{idx: storagesnapi + 1, err: ErrCompacted},
{idx: unstablesnapi - 1, err: ErrCompacted},
// get term from unstable snapshot index
{idx: unstablesnapi, term: 1},
// the log beyond the unstable snapshot is empty
{idx: unstablesnapi + 1, err: ErrUnavailable},
} {
t.Run(fmt.Sprint(i), func(t *testing.T) {
term, err := l.term(tt.idx)
require.Equal(t, tt.term, term)
require.Equal(t, tt.err, err)
})
}
}
func TestSlice(t *testing.T) {
offset := uint64(100)
num := uint64(100)
last := offset + num
half := offset + num/2
halfe := pb.Entry{Index: half, Term: half}
entries := func(from, to uint64) []pb.Entry {
return index(from).termRange(from, to)
}
storage := NewMemoryStorage()
require.NoError(t, storage.ApplySnapshot(pb.Snapshot{
Metadata: pb.SnapshotMetadata{Index: offset}}))
require.NoError(t, storage.Append(entries(offset+1, half)))
l := newLog(storage, raftLogger)
l.append(entries(half, last)...)
for _, tt := range []struct {
lo uint64
hi uint64
lim uint64
w []pb.Entry
wpanic bool
}{
// ErrCompacted.
{lo: offset - 1, hi: offset + 1, lim: noLimit, w: nil},
{lo: offset, hi: offset + 1, lim: noLimit, w: nil},
// panics
{lo: half, hi: half - 1, lim: noLimit, wpanic: true}, // lo and hi inversion
{lo: last, hi: last + 1, lim: noLimit, wpanic: true}, // hi is out of bounds
// No limit.
{lo: offset + 1, hi: offset + 1, lim: noLimit, w: nil},
{lo: offset + 1, hi: half - 1, lim: noLimit, w: entries(offset+1, half-1)},
{lo: offset + 1, hi: half, lim: noLimit, w: entries(offset+1, half)},
{lo: offset + 1, hi: half + 1, lim: noLimit, w: entries(offset+1, half+1)},
{lo: offset + 1, hi: last, lim: noLimit, w: entries(offset+1, last)},
{lo: half - 1, hi: half, lim: noLimit, w: entries(half-1, half)},
{lo: half - 1, hi: half + 1, lim: noLimit, w: entries(half-1, half+1)},
{lo: half - 1, hi: last, lim: noLimit, w: entries(half-1, last)},
{lo: half, hi: half + 1, lim: noLimit, w: entries(half, half+1)},
{lo: half, hi: last, lim: noLimit, w: entries(half, last)},
{lo: last - 1, hi: last, lim: noLimit, w: entries(last-1, last)},
// At least one entry is always returned.
{lo: offset + 1, hi: last, lim: 0, w: entries(offset+1, offset+2)},
{lo: half - 1, hi: half + 1, lim: 0, w: entries(half-1, half)},
{lo: half, hi: last, lim: 0, w: entries(half, half+1)},
{lo: half + 1, hi: last, lim: 0, w: entries(half+1, half+2)},
// Low limit.
{lo: offset + 1, hi: last, lim: uint64(halfe.Size() - 1), w: entries(offset+1, offset+2)},
{lo: half - 1, hi: half + 1, lim: uint64(halfe.Size() - 1), w: entries(half-1, half)},
{lo: half, hi: last, lim: uint64(halfe.Size() - 1), w: entries(half, half+1)},
// Just enough for one limit.
{lo: offset + 1, hi: last, lim: uint64(halfe.Size()), w: entries(offset+1, offset+2)},
{lo: half - 1, hi: half + 1, lim: uint64(halfe.Size()), w: entries(half-1, half)},
{lo: half, hi: last, lim: uint64(halfe.Size()), w: entries(half, half+1)},
// Not enough for two limit.
{lo: offset + 1, hi: last, lim: uint64(halfe.Size() + 1), w: entries(offset+1, offset+2)},
{lo: half - 1, hi: half + 1, lim: uint64(halfe.Size() + 1), w: entries(half-1, half)},
{lo: half, hi: last, lim: uint64(halfe.Size() + 1), w: entries(half, half+1)},
// Enough for two limit.
{lo: offset + 1, hi: last, lim: uint64(halfe.Size() * 2), w: entries(offset+1, offset+3)},
{lo: half - 2, hi: half + 1, lim: uint64(halfe.Size() * 2), w: entries(half-2, half)},
{lo: half - 1, hi: half + 1, lim: uint64(halfe.Size() * 2), w: entries(half-1, half+1)},
{lo: half, hi: last, lim: uint64(halfe.Size() * 2), w: entries(half, half+2)},
// Not enough for three.
{lo: half - 2, hi: half + 1, lim: uint64(halfe.Size()*3 - 1), w: entries(half-2, half)},
// Enough for three.
{lo: half - 1, hi: half + 2, lim: uint64(halfe.Size() * 3), w: entries(half-1, half+2)},
} {
t.Run("", func(t *testing.T) {
defer func() {
if r := recover(); r != nil {
require.True(t, tt.wpanic)
}
}()
g, err := l.slice(tt.lo, tt.hi, entryEncodingSize(tt.lim))
require.False(t, tt.lo <= offset && err != ErrCompacted)
require.False(t, tt.lo > offset && err != nil)
require.Equal(t, tt.w, g)
})
}
}
func TestScan(t *testing.T) {
offset := uint64(47)
num := uint64(20)
last := offset + num
half := offset + num/2
entries := func(from, to uint64) []pb.Entry {
return index(from).termRange(from, to)
}
entrySize := entsSize(entries(half, half+1))
storage := NewMemoryStorage()
require.NoError(t, storage.ApplySnapshot(pb.Snapshot{
Metadata: pb.SnapshotMetadata{Index: offset}}))
require.NoError(t, storage.Append(entries(offset+1, half)))
l := newLog(storage, raftLogger)
l.append(entries(half, last)...)
// Test that scan() returns the same entries as slice(), on all inputs.
for _, pageSize := range []entryEncodingSize{0, 1, 10, 100, entrySize, entrySize + 1} {
for lo := offset + 1; lo < last; lo++ {
for hi := lo; hi <= last; hi++ {
var got []pb.Entry
require.NoError(t, l.scan(lo, hi, pageSize, func(e []pb.Entry) error {
got = append(got, e...)
require.True(t, len(e) == 1 || entsSize(e) <= pageSize)
return nil
}))
want, err := l.slice(lo, hi, noLimit)
require.NoError(t, err)
require.Equal(t, want, got, "scan() and slice() mismatch on [%d, %d) @ %d", lo, hi, pageSize)
}
}
}
// Test that the callback error is propagated to the caller.
iters := 0
require.ErrorIs(t, errBreak, l.scan(offset+1, half, 0, func([]pb.Entry) error {
iters++
if iters == 2 {