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util.go
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util.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 (
"bytes"
"fmt"
"strings"
pb "go.etcd.io/raft/v3/raftpb"
)
func (st StateType) MarshalJSON() ([]byte, error) {
return []byte(fmt.Sprintf("%q", st.String())), nil
}
var isLocalMsg = [...]bool{
pb.MsgHup: true,
pb.MsgBeat: true,
pb.MsgUnreachable: true,
pb.MsgSnapStatus: true,
pb.MsgCheckQuorum: true,
pb.MsgStorageAppend: true,
pb.MsgStorageAppendResp: true,
pb.MsgStorageApply: true,
pb.MsgStorageApplyResp: true,
}
var isResponseMsg = [...]bool{
pb.MsgAppResp: true,
pb.MsgVoteResp: true,
pb.MsgHeartbeatResp: true,
pb.MsgUnreachable: true,
pb.MsgReadIndexResp: true,
pb.MsgPreVoteResp: true,
pb.MsgStorageAppendResp: true,
pb.MsgStorageApplyResp: true,
}
func isMsgInArray(msgt pb.MessageType, arr []bool) bool {
i := int(msgt)
return i < len(arr) && arr[i]
}
func IsLocalMsg(msgt pb.MessageType) bool {
return isMsgInArray(msgt, isLocalMsg[:])
}
func IsResponseMsg(msgt pb.MessageType) bool {
return isMsgInArray(msgt, isResponseMsg[:])
}
func IsLocalMsgTarget(id uint64) bool {
return id == LocalAppendThread || id == LocalApplyThread
}
// voteResponseType maps vote and prevote message types to their corresponding responses.
func voteRespMsgType(msgt pb.MessageType) pb.MessageType {
switch msgt {
case pb.MsgVote:
return pb.MsgVoteResp
case pb.MsgPreVote:
return pb.MsgPreVoteResp
default:
panic(fmt.Sprintf("not a vote message: %s", msgt))
}
}
func DescribeHardState(hs pb.HardState) string {
var buf strings.Builder
fmt.Fprintf(&buf, "Term:%d", hs.Term)
if hs.Vote != 0 {
fmt.Fprintf(&buf, " Vote:%d", hs.Vote)
}
fmt.Fprintf(&buf, " Commit:%d", hs.Commit)
return buf.String()
}
func DescribeSoftState(ss SoftState) string {
return fmt.Sprintf("Lead:%d State:%s", ss.Lead, ss.RaftState)
}
func DescribeConfState(state pb.ConfState) string {
return fmt.Sprintf(
"Voters:%v VotersOutgoing:%v Learners:%v LearnersNext:%v AutoLeave:%v",
state.Voters, state.VotersOutgoing, state.Learners, state.LearnersNext, state.AutoLeave,
)
}
func DescribeSnapshot(snap pb.Snapshot) string {
m := snap.Metadata
return fmt.Sprintf("Index:%d Term:%d ConfState:%s", m.Index, m.Term, DescribeConfState(m.ConfState))
}
func DescribeReady(rd Ready, f EntryFormatter) string {
var buf strings.Builder
if rd.SoftState != nil {
fmt.Fprint(&buf, DescribeSoftState(*rd.SoftState))
buf.WriteByte('\n')
}
if !IsEmptyHardState(rd.HardState) {
fmt.Fprintf(&buf, "HardState %s", DescribeHardState(rd.HardState))
buf.WriteByte('\n')
}
if len(rd.ReadStates) > 0 {
fmt.Fprintf(&buf, "ReadStates %v\n", rd.ReadStates)
}
if len(rd.Entries) > 0 {
buf.WriteString("Entries:\n")
fmt.Fprint(&buf, DescribeEntries(rd.Entries, f))
}
if !IsEmptySnap(rd.Snapshot) {
fmt.Fprintf(&buf, "Snapshot %s\n", DescribeSnapshot(rd.Snapshot))
}
if len(rd.CommittedEntries) > 0 {
buf.WriteString("CommittedEntries:\n")
fmt.Fprint(&buf, DescribeEntries(rd.CommittedEntries, f))
}
if len(rd.Messages) > 0 {
buf.WriteString("Messages:\n")
for _, msg := range rd.Messages {
fmt.Fprint(&buf, DescribeMessage(msg, f))
buf.WriteByte('\n')
}
}
if buf.Len() > 0 {
return fmt.Sprintf("Ready MustSync=%t:\n%s", rd.MustSync, buf.String())
}
return "<empty Ready>"
}
// EntryFormatter can be implemented by the application to provide human-readable formatting
// of entry data. Nil is a valid EntryFormatter and will use a default format.
type EntryFormatter func([]byte) string
// DescribeMessage returns a concise human-readable description of a
// Message for debugging.
func DescribeMessage(m pb.Message, f EntryFormatter) string {
return describeMessageWithIndent("", m, f)
}
func describeMessageWithIndent(indent string, m pb.Message, f EntryFormatter) string {
var buf bytes.Buffer
fmt.Fprintf(&buf, "%s%s->%s %v Term:%d Log:%d/%d", indent,
describeTarget(m.From), describeTarget(m.To), m.Type, m.Term, m.LogTerm, m.Index)
if m.Reject {
fmt.Fprintf(&buf, " Rejected (Hint: %d)", m.RejectHint)
}
if m.Commit != 0 {
fmt.Fprintf(&buf, " Commit:%d", m.Commit)
}
if m.Vote != 0 {
fmt.Fprintf(&buf, " Vote:%d", m.Vote)
}
if ln := len(m.Entries); ln == 1 {
fmt.Fprintf(&buf, " Entries:[%s]", DescribeEntry(m.Entries[0], f))
} else if ln > 1 {
fmt.Fprint(&buf, " Entries:[")
for _, e := range m.Entries {
fmt.Fprintf(&buf, "\n%s ", indent)
buf.WriteString(DescribeEntry(e, f))
}
fmt.Fprintf(&buf, "\n%s]", indent)
}
if s := m.Snapshot; s != nil && !IsEmptySnap(*s) {
fmt.Fprintf(&buf, "\n%s Snapshot: %s", indent, DescribeSnapshot(*s))
}
if len(m.Responses) > 0 {
fmt.Fprintf(&buf, " Responses:[")
for _, m := range m.Responses {
buf.WriteString("\n")
buf.WriteString(describeMessageWithIndent(indent+" ", m, f))
}
fmt.Fprintf(&buf, "\n%s]", indent)
}
return buf.String()
}
func describeTarget(id uint64) string {
switch id {
case None:
return "None"
case LocalAppendThread:
return "AppendThread"
case LocalApplyThread:
return "ApplyThread"
default:
return fmt.Sprintf("%x", id)
}
}
// DescribeEntry returns a concise human-readable description of an
// Entry for debugging.
func DescribeEntry(e pb.Entry, f EntryFormatter) string {
if f == nil {
f = func(data []byte) string { return fmt.Sprintf("%q", data) }
}
formatConfChange := func(cc pb.ConfChangeI) string {
// TODO(tbg): give the EntryFormatter a type argument so that it gets
// a chance to expose the Context.
return pb.ConfChangesToString(cc.AsV2().Changes)
}
var formatted string
switch e.Type {
case pb.EntryNormal:
formatted = f(e.Data)
case pb.EntryConfChange:
var cc pb.ConfChange
if err := cc.Unmarshal(e.Data); err != nil {
formatted = err.Error()
} else {
formatted = formatConfChange(cc)
}
case pb.EntryConfChangeV2:
var cc pb.ConfChangeV2
if err := cc.Unmarshal(e.Data); err != nil {
formatted = err.Error()
} else {
formatted = formatConfChange(cc)
}
}
if formatted != "" {
formatted = " " + formatted
}
return fmt.Sprintf("%d/%d %s%s", e.Term, e.Index, e.Type, formatted)
}
// DescribeEntries calls DescribeEntry for each Entry, adding a newline to
// each.
func DescribeEntries(ents []pb.Entry, f EntryFormatter) string {
var buf bytes.Buffer
for _, e := range ents {
_, _ = buf.WriteString(DescribeEntry(e, f) + "\n")
}
return buf.String()
}
// entryEncodingSize represents the protocol buffer encoding size of one or more
// entries.
type entryEncodingSize uint64
func entsSize(ents []pb.Entry) entryEncodingSize {
var size entryEncodingSize
for _, ent := range ents {
size += entryEncodingSize(ent.Size())
}
return size
}
// limitSize returns the longest prefix of the given entries slice, such that
// its total byte size does not exceed maxSize. Always returns a non-empty slice
// if the input is non-empty, so, as an exception, if the size of the first
// entry exceeds maxSize, a non-empty slice with just this entry is returned.
func limitSize(ents []pb.Entry, maxSize entryEncodingSize) []pb.Entry {
if len(ents) == 0 {
return ents
}
size := ents[0].Size()
for limit := 1; limit < len(ents); limit++ {
size += ents[limit].Size()
if entryEncodingSize(size) > maxSize {
return ents[:limit]
}
}
return ents
}
// entryPayloadSize represents the size of one or more entries' payloads.
// Notably, it does not depend on its Index or Term. Entries with empty
// payloads, like those proposed after a leadership change, are considered
// to be zero size.
type entryPayloadSize uint64
// payloadSize is the size of the payload of the provided entry.
func payloadSize(e pb.Entry) entryPayloadSize {
return entryPayloadSize(len(e.Data))
}
// payloadsSize is the size of the payloads of the provided entries.
func payloadsSize(ents []pb.Entry) entryPayloadSize {
var s entryPayloadSize
for _, e := range ents {
s += payloadSize(e)
}
return s
}
func assertConfStatesEquivalent(l Logger, cs1, cs2 pb.ConfState) {
err := cs1.Equivalent(cs2)
if err == nil {
return
}
l.Panic(err)
}
// extend appends vals to the given dst slice. It differs from the standard
// slice append only in the way it allocates memory. If cap(dst) is not enough
// for appending the values, precisely size len(dst)+len(vals) is allocated.
//
// Use this instead of standard append in situations when this is the last
// append to dst, so there is no sense in allocating more than needed.
func extend(dst, vals []pb.Entry) []pb.Entry {
need := len(dst) + len(vals)
if need <= cap(dst) {
return append(dst, vals...) // does not allocate
}
buf := make([]pb.Entry, need, need) // allocates precisely what's needed
copy(buf, dst)
copy(buf[len(dst):], vals)
return buf
}