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v3_server.go
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v3_server.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 etcdserver
import (
"bytes"
"context"
"encoding/base64"
"encoding/binary"
"strconv"
"time"
pb "go.etcd.io/etcd/api/v3/etcdserverpb"
"go.etcd.io/etcd/api/v3/version"
"go.etcd.io/etcd/pkg/v3/traceutil"
"go.etcd.io/etcd/raft/v3"
"go.etcd.io/etcd/server/v3/auth"
"go.etcd.io/etcd/server/v3/etcdserver/api/membership"
apply2 "go.etcd.io/etcd/server/v3/etcdserver/apply"
"go.etcd.io/etcd/server/v3/etcdserver/errors"
"go.etcd.io/etcd/server/v3/etcdserver/txn"
"go.etcd.io/etcd/server/v3/lease"
"go.etcd.io/etcd/server/v3/lease/leasehttp"
"go.etcd.io/etcd/server/v3/storage/mvcc"
"github.com/gogo/protobuf/proto"
"go.uber.org/zap"
"golang.org/x/crypto/bcrypt"
)
const (
// In the health case, there might be a small gap (10s of entries) between
// the applied index and committed index.
// However, if the committed entries are very heavy to toApply, the gap might grow.
// We should stop accepting new proposals if the gap growing to a certain point.
maxGapBetweenApplyAndCommitIndex = 5000
traceThreshold = 100 * time.Millisecond
readIndexRetryTime = 500 * time.Millisecond
// The timeout for the node to catch up its applied index, and is used in
// lease related operations, such as LeaseRenew and LeaseTimeToLive.
applyTimeout = time.Second
)
type RaftKV interface {
Range(ctx context.Context, r *pb.RangeRequest) (*pb.RangeResponse, error)
Put(ctx context.Context, r *pb.PutRequest) (*pb.PutResponse, error)
DeleteRange(ctx context.Context, r *pb.DeleteRangeRequest) (*pb.DeleteRangeResponse, error)
Txn(ctx context.Context, r *pb.TxnRequest) (*pb.TxnResponse, error)
Compact(ctx context.Context, r *pb.CompactionRequest) (*pb.CompactionResponse, error)
}
type Lessor interface {
// LeaseGrant sends LeaseGrant request to raft and toApply it after committed.
LeaseGrant(ctx context.Context, r *pb.LeaseGrantRequest) (*pb.LeaseGrantResponse, error)
// LeaseRevoke sends LeaseRevoke request to raft and toApply it after committed.
LeaseRevoke(ctx context.Context, r *pb.LeaseRevokeRequest) (*pb.LeaseRevokeResponse, error)
// LeaseRenew renews the lease with given ID. The renewed TTL is returned. Or an error
// is returned.
LeaseRenew(ctx context.Context, id lease.LeaseID) (int64, error)
// LeaseTimeToLive retrieves lease information.
LeaseTimeToLive(ctx context.Context, r *pb.LeaseTimeToLiveRequest) (*pb.LeaseTimeToLiveResponse, error)
// LeaseLeases lists all leases.
LeaseLeases(ctx context.Context, r *pb.LeaseLeasesRequest) (*pb.LeaseLeasesResponse, error)
}
type Authenticator interface {
AuthEnable(ctx context.Context, r *pb.AuthEnableRequest) (*pb.AuthEnableResponse, error)
AuthDisable(ctx context.Context, r *pb.AuthDisableRequest) (*pb.AuthDisableResponse, error)
AuthStatus(ctx context.Context, r *pb.AuthStatusRequest) (*pb.AuthStatusResponse, error)
Authenticate(ctx context.Context, r *pb.AuthenticateRequest) (*pb.AuthenticateResponse, error)
UserAdd(ctx context.Context, r *pb.AuthUserAddRequest) (*pb.AuthUserAddResponse, error)
UserDelete(ctx context.Context, r *pb.AuthUserDeleteRequest) (*pb.AuthUserDeleteResponse, error)
UserChangePassword(ctx context.Context, r *pb.AuthUserChangePasswordRequest) (*pb.AuthUserChangePasswordResponse, error)
UserGrantRole(ctx context.Context, r *pb.AuthUserGrantRoleRequest) (*pb.AuthUserGrantRoleResponse, error)
UserGet(ctx context.Context, r *pb.AuthUserGetRequest) (*pb.AuthUserGetResponse, error)
UserRevokeRole(ctx context.Context, r *pb.AuthUserRevokeRoleRequest) (*pb.AuthUserRevokeRoleResponse, error)
RoleAdd(ctx context.Context, r *pb.AuthRoleAddRequest) (*pb.AuthRoleAddResponse, error)
RoleGrantPermission(ctx context.Context, r *pb.AuthRoleGrantPermissionRequest) (*pb.AuthRoleGrantPermissionResponse, error)
RoleGet(ctx context.Context, r *pb.AuthRoleGetRequest) (*pb.AuthRoleGetResponse, error)
RoleRevokePermission(ctx context.Context, r *pb.AuthRoleRevokePermissionRequest) (*pb.AuthRoleRevokePermissionResponse, error)
RoleDelete(ctx context.Context, r *pb.AuthRoleDeleteRequest) (*pb.AuthRoleDeleteResponse, error)
UserList(ctx context.Context, r *pb.AuthUserListRequest) (*pb.AuthUserListResponse, error)
RoleList(ctx context.Context, r *pb.AuthRoleListRequest) (*pb.AuthRoleListResponse, error)
}
func (s *EtcdServer) Range(ctx context.Context, r *pb.RangeRequest) (*pb.RangeResponse, error) {
trace := traceutil.New("range",
s.Logger(),
traceutil.Field{Key: "range_begin", Value: string(r.Key)},
traceutil.Field{Key: "range_end", Value: string(r.RangeEnd)},
)
ctx = context.WithValue(ctx, traceutil.TraceKey, trace)
var resp *pb.RangeResponse
var err error
defer func(start time.Time) {
txn.WarnOfExpensiveReadOnlyRangeRequest(s.Logger(), s.Cfg.WarningApplyDuration, start, r, resp, err)
if resp != nil {
trace.AddField(
traceutil.Field{Key: "response_count", Value: len(resp.Kvs)},
traceutil.Field{Key: "response_revision", Value: resp.Header.Revision},
)
}
trace.LogIfLong(traceThreshold)
}(time.Now())
if !r.Serializable {
err = s.linearizableReadNotify(ctx)
trace.Step("agreement among raft nodes before linearized reading")
if err != nil {
return nil, err
}
}
chk := func(ai *auth.AuthInfo) error {
return s.authStore.IsRangePermitted(ai, r.Key, r.RangeEnd)
}
get := func() { resp, err = txn.Range(ctx, s.Logger(), s.KV(), nil, r) }
if serr := s.doSerialize(ctx, chk, get); serr != nil {
err = serr
return nil, err
}
return resp, err
}
func (s *EtcdServer) Put(ctx context.Context, r *pb.PutRequest) (*pb.PutResponse, error) {
ctx = context.WithValue(ctx, traceutil.StartTimeKey, time.Now())
resp, err := s.raftRequest(ctx, pb.InternalRaftRequest{Put: r})
if err != nil {
return nil, err
}
return resp.(*pb.PutResponse), nil
}
func (s *EtcdServer) DeleteRange(ctx context.Context, r *pb.DeleteRangeRequest) (*pb.DeleteRangeResponse, error) {
resp, err := s.raftRequest(ctx, pb.InternalRaftRequest{DeleteRange: r})
if err != nil {
return nil, err
}
return resp.(*pb.DeleteRangeResponse), nil
}
func (s *EtcdServer) Txn(ctx context.Context, r *pb.TxnRequest) (*pb.TxnResponse, error) {
if txn.IsTxnReadonly(r) {
trace := traceutil.New("transaction",
s.Logger(),
traceutil.Field{Key: "read_only", Value: true},
)
ctx = context.WithValue(ctx, traceutil.TraceKey, trace)
if !txn.IsTxnSerializable(r) {
err := s.linearizableReadNotify(ctx)
trace.Step("agreement among raft nodes before linearized reading")
if err != nil {
return nil, err
}
}
var resp *pb.TxnResponse
var err error
chk := func(ai *auth.AuthInfo) error {
return txn.CheckTxnAuth(s.authStore, ai, r)
}
defer func(start time.Time) {
txn.WarnOfExpensiveReadOnlyTxnRequest(s.Logger(), s.Cfg.WarningApplyDuration, start, r, resp, err)
trace.LogIfLong(traceThreshold)
}(time.Now())
get := func() {
resp, _, err = txn.Txn(ctx, s.Logger(), r, s.Cfg.ExperimentalTxnModeWriteWithSharedBuffer, s.KV(), s.lessor)
}
if serr := s.doSerialize(ctx, chk, get); serr != nil {
return nil, serr
}
return resp, err
}
ctx = context.WithValue(ctx, traceutil.StartTimeKey, time.Now())
resp, err := s.raftRequest(ctx, pb.InternalRaftRequest{Txn: r})
if err != nil {
return nil, err
}
return resp.(*pb.TxnResponse), nil
}
func (s *EtcdServer) Compact(ctx context.Context, r *pb.CompactionRequest) (*pb.CompactionResponse, error) {
startTime := time.Now()
result, err := s.processInternalRaftRequestOnce(ctx, pb.InternalRaftRequest{Compaction: r})
trace := traceutil.TODO()
if result != nil && result.Trace != nil {
trace = result.Trace
defer func() {
trace.LogIfLong(traceThreshold)
}()
applyStart := result.Trace.GetStartTime()
result.Trace.SetStartTime(startTime)
trace.InsertStep(0, applyStart, "process raft request")
}
if r.Physical && result != nil && result.Physc != nil {
<-result.Physc
// The compaction is done deleting keys; the hash is now settled
// but the data is not necessarily committed. If there's a crash,
// the hash may revert to a hash prior to compaction completing
// if the compaction resumes. Force the finished compaction to
// commit so it won't resume following a crash.
//
// `applySnapshot` sets a new backend instance, so we need to acquire the bemu lock.
s.bemu.RLock()
s.be.ForceCommit()
s.bemu.RUnlock()
trace.Step("physically toApply compaction")
}
if err != nil {
return nil, err
}
if result.Err != nil {
return nil, result.Err
}
resp := result.Resp.(*pb.CompactionResponse)
if resp == nil {
resp = &pb.CompactionResponse{}
}
if resp.Header == nil {
resp.Header = &pb.ResponseHeader{}
}
resp.Header.Revision = s.kv.Rev()
trace.AddField(traceutil.Field{Key: "response_revision", Value: resp.Header.Revision})
return resp, nil
}
func (s *EtcdServer) LeaseGrant(ctx context.Context, r *pb.LeaseGrantRequest) (*pb.LeaseGrantResponse, error) {
// no id given? choose one
for r.ID == int64(lease.NoLease) {
// only use positive int64 id's
r.ID = int64(s.reqIDGen.Next() & ((1 << 63) - 1))
}
resp, err := s.raftRequestOnce(ctx, pb.InternalRaftRequest{LeaseGrant: r})
if err != nil {
return nil, err
}
return resp.(*pb.LeaseGrantResponse), nil
}
func (s *EtcdServer) waitAppliedIndex() error {
select {
case <-s.ApplyWait():
case <-s.stopping:
return errors.ErrStopped
case <-time.After(applyTimeout):
return errors.ErrTimeoutWaitAppliedIndex
}
return nil
}
func (s *EtcdServer) LeaseRevoke(ctx context.Context, r *pb.LeaseRevokeRequest) (*pb.LeaseRevokeResponse, error) {
resp, err := s.raftRequestOnce(ctx, pb.InternalRaftRequest{LeaseRevoke: r})
if err != nil {
return nil, err
}
return resp.(*pb.LeaseRevokeResponse), nil
}
func (s *EtcdServer) LeaseRenew(ctx context.Context, id lease.LeaseID) (int64, error) {
if s.isLeader() {
if err := s.waitAppliedIndex(); err != nil {
return 0, err
}
ttl, err := s.lessor.Renew(id)
if err == nil { // already requested to primary lessor(leader)
return ttl, nil
}
if err != lease.ErrNotPrimary {
return -1, err
}
}
cctx, cancel := context.WithTimeout(ctx, s.Cfg.ReqTimeout())
defer cancel()
// renewals don't go through raft; forward to leader manually
for cctx.Err() == nil {
leader, lerr := s.waitLeader(cctx)
if lerr != nil {
return -1, lerr
}
for _, url := range leader.PeerURLs {
lurl := url + leasehttp.LeasePrefix
ttl, err := leasehttp.RenewHTTP(cctx, id, lurl, s.peerRt)
if err == nil || err == lease.ErrLeaseNotFound {
return ttl, err
}
}
// Throttle in case of e.g. connection problems.
time.Sleep(50 * time.Millisecond)
}
if cctx.Err() == context.DeadlineExceeded {
return -1, errors.ErrTimeout
}
return -1, errors.ErrCanceled
}
func (s *EtcdServer) LeaseTimeToLive(ctx context.Context, r *pb.LeaseTimeToLiveRequest) (*pb.LeaseTimeToLiveResponse, error) {
if s.isLeader() {
if err := s.waitAppliedIndex(); err != nil {
return nil, err
}
// primary; timetolive directly from leader
le := s.lessor.Lookup(lease.LeaseID(r.ID))
if le == nil {
return nil, lease.ErrLeaseNotFound
}
// TODO: fill out ResponseHeader
resp := &pb.LeaseTimeToLiveResponse{Header: &pb.ResponseHeader{}, ID: r.ID, TTL: int64(le.Remaining().Seconds()), GrantedTTL: le.TTL()}
if r.Keys {
ks := le.Keys()
kbs := make([][]byte, len(ks))
for i := range ks {
kbs[i] = []byte(ks[i])
}
resp.Keys = kbs
}
return resp, nil
}
cctx, cancel := context.WithTimeout(ctx, s.Cfg.ReqTimeout())
defer cancel()
// forward to leader
for cctx.Err() == nil {
leader, err := s.waitLeader(cctx)
if err != nil {
return nil, err
}
for _, url := range leader.PeerURLs {
lurl := url + leasehttp.LeaseInternalPrefix
resp, err := leasehttp.TimeToLiveHTTP(cctx, lease.LeaseID(r.ID), r.Keys, lurl, s.peerRt)
if err == nil {
return resp.LeaseTimeToLiveResponse, nil
}
if err == lease.ErrLeaseNotFound {
return nil, err
}
}
}
if cctx.Err() == context.DeadlineExceeded {
return nil, errors.ErrTimeout
}
return nil, errors.ErrCanceled
}
func (s *EtcdServer) newHeader() *pb.ResponseHeader {
return &pb.ResponseHeader{
ClusterId: uint64(s.cluster.ID()),
MemberId: uint64(s.MemberId()),
Revision: s.KV().Rev(),
RaftTerm: s.Term(),
}
}
// LeaseLeases is really ListLeases !???
func (s *EtcdServer) LeaseLeases(_ context.Context, _ *pb.LeaseLeasesRequest) (*pb.LeaseLeasesResponse, error) {
ls := s.lessor.Leases()
lss := make([]*pb.LeaseStatus, len(ls))
for i := range ls {
lss[i] = &pb.LeaseStatus{ID: int64(ls[i].ID)}
}
return &pb.LeaseLeasesResponse{Header: s.newHeader(), Leases: lss}, nil
}
func (s *EtcdServer) waitLeader(ctx context.Context) (*membership.Member, error) {
leader := s.cluster.Member(s.Leader())
for leader == nil {
// wait an election
dur := time.Duration(s.Cfg.ElectionTicks) * time.Duration(s.Cfg.TickMs) * time.Millisecond
select {
case <-time.After(dur):
leader = s.cluster.Member(s.Leader())
case <-s.stopping:
return nil, errors.ErrStopped
case <-ctx.Done():
return nil, errors.ErrNoLeader
}
}
if len(leader.PeerURLs) == 0 {
return nil, errors.ErrNoLeader
}
return leader, nil
}
func (s *EtcdServer) Alarm(ctx context.Context, r *pb.AlarmRequest) (*pb.AlarmResponse, error) {
resp, err := s.raftRequestOnce(ctx, pb.InternalRaftRequest{Alarm: r})
if err != nil {
return nil, err
}
return resp.(*pb.AlarmResponse), nil
}
func (s *EtcdServer) AuthEnable(ctx context.Context, r *pb.AuthEnableRequest) (*pb.AuthEnableResponse, error) {
resp, err := s.raftRequestOnce(ctx, pb.InternalRaftRequest{AuthEnable: r})
if err != nil {
return nil, err
}
return resp.(*pb.AuthEnableResponse), nil
}
func (s *EtcdServer) AuthDisable(ctx context.Context, r *pb.AuthDisableRequest) (*pb.AuthDisableResponse, error) {
resp, err := s.raftRequest(ctx, pb.InternalRaftRequest{AuthDisable: r})
if err != nil {
return nil, err
}
return resp.(*pb.AuthDisableResponse), nil
}
func (s *EtcdServer) AuthStatus(ctx context.Context, r *pb.AuthStatusRequest) (*pb.AuthStatusResponse, error) {
resp, err := s.raftRequest(ctx, pb.InternalRaftRequest{AuthStatus: r})
if err != nil {
return nil, err
}
return resp.(*pb.AuthStatusResponse), nil
}
func (s *EtcdServer) Authenticate(ctx context.Context, r *pb.AuthenticateRequest) (*pb.AuthenticateResponse, error) {
if err := s.linearizableReadNotify(ctx); err != nil {
return nil, err
}
lg := s.Logger()
var resp proto.Message
for {
checkedRevision, err := s.AuthStore().CheckPassword(r.Name, r.Password)
if err != nil {
if err != auth.ErrAuthNotEnabled {
lg.Warn(
"invalid authentication was requested",
zap.String("user", r.Name),
zap.Error(err),
)
}
return nil, err
}
st, err := s.AuthStore().GenTokenPrefix()
if err != nil {
return nil, err
}
// internalReq doesn't need to have Password because the above s.AuthStore().CheckPassword() already did it.
// In addition, it will let a WAL entry not record password as a plain text.
internalReq := &pb.InternalAuthenticateRequest{
Name: r.Name,
SimpleToken: st,
}
resp, err = s.raftRequestOnce(ctx, pb.InternalRaftRequest{Authenticate: internalReq})
if err != nil {
return nil, err
}
if checkedRevision == s.AuthStore().Revision() {
break
}
lg.Info("revision when password checked became stale; retrying")
}
return resp.(*pb.AuthenticateResponse), nil
}
func (s *EtcdServer) UserAdd(ctx context.Context, r *pb.AuthUserAddRequest) (*pb.AuthUserAddResponse, error) {
if r.Options == nil || !r.Options.NoPassword {
hashedPassword, err := bcrypt.GenerateFromPassword([]byte(r.Password), s.authStore.BcryptCost())
if err != nil {
return nil, err
}
r.HashedPassword = base64.StdEncoding.EncodeToString(hashedPassword)
r.Password = ""
}
resp, err := s.raftRequest(ctx, pb.InternalRaftRequest{AuthUserAdd: r})
if err != nil {
return nil, err
}
return resp.(*pb.AuthUserAddResponse), nil
}
func (s *EtcdServer) UserDelete(ctx context.Context, r *pb.AuthUserDeleteRequest) (*pb.AuthUserDeleteResponse, error) {
resp, err := s.raftRequest(ctx, pb.InternalRaftRequest{AuthUserDelete: r})
if err != nil {
return nil, err
}
return resp.(*pb.AuthUserDeleteResponse), nil
}
func (s *EtcdServer) UserChangePassword(ctx context.Context, r *pb.AuthUserChangePasswordRequest) (*pb.AuthUserChangePasswordResponse, error) {
if r.Password != "" {
hashedPassword, err := bcrypt.GenerateFromPassword([]byte(r.Password), s.authStore.BcryptCost())
if err != nil {
return nil, err
}
r.HashedPassword = base64.StdEncoding.EncodeToString(hashedPassword)
r.Password = ""
}
resp, err := s.raftRequest(ctx, pb.InternalRaftRequest{AuthUserChangePassword: r})
if err != nil {
return nil, err
}
return resp.(*pb.AuthUserChangePasswordResponse), nil
}
func (s *EtcdServer) UserGrantRole(ctx context.Context, r *pb.AuthUserGrantRoleRequest) (*pb.AuthUserGrantRoleResponse, error) {
resp, err := s.raftRequest(ctx, pb.InternalRaftRequest{AuthUserGrantRole: r})
if err != nil {
return nil, err
}
return resp.(*pb.AuthUserGrantRoleResponse), nil
}
func (s *EtcdServer) UserGet(ctx context.Context, r *pb.AuthUserGetRequest) (*pb.AuthUserGetResponse, error) {
resp, err := s.raftRequest(ctx, pb.InternalRaftRequest{AuthUserGet: r})
if err != nil {
return nil, err
}
return resp.(*pb.AuthUserGetResponse), nil
}
func (s *EtcdServer) UserList(ctx context.Context, r *pb.AuthUserListRequest) (*pb.AuthUserListResponse, error) {
resp, err := s.raftRequest(ctx, pb.InternalRaftRequest{AuthUserList: r})
if err != nil {
return nil, err
}
return resp.(*pb.AuthUserListResponse), nil
}
func (s *EtcdServer) UserRevokeRole(ctx context.Context, r *pb.AuthUserRevokeRoleRequest) (*pb.AuthUserRevokeRoleResponse, error) {
resp, err := s.raftRequest(ctx, pb.InternalRaftRequest{AuthUserRevokeRole: r})
if err != nil {
return nil, err
}
return resp.(*pb.AuthUserRevokeRoleResponse), nil
}
func (s *EtcdServer) RoleAdd(ctx context.Context, r *pb.AuthRoleAddRequest) (*pb.AuthRoleAddResponse, error) {
resp, err := s.raftRequest(ctx, pb.InternalRaftRequest{AuthRoleAdd: r})
if err != nil {
return nil, err
}
return resp.(*pb.AuthRoleAddResponse), nil
}
func (s *EtcdServer) RoleGrantPermission(ctx context.Context, r *pb.AuthRoleGrantPermissionRequest) (*pb.AuthRoleGrantPermissionResponse, error) {
resp, err := s.raftRequest(ctx, pb.InternalRaftRequest{AuthRoleGrantPermission: r})
if err != nil {
return nil, err
}
return resp.(*pb.AuthRoleGrantPermissionResponse), nil
}
func (s *EtcdServer) RoleGet(ctx context.Context, r *pb.AuthRoleGetRequest) (*pb.AuthRoleGetResponse, error) {
resp, err := s.raftRequest(ctx, pb.InternalRaftRequest{AuthRoleGet: r})
if err != nil {
return nil, err
}
return resp.(*pb.AuthRoleGetResponse), nil
}
func (s *EtcdServer) RoleList(ctx context.Context, r *pb.AuthRoleListRequest) (*pb.AuthRoleListResponse, error) {
resp, err := s.raftRequest(ctx, pb.InternalRaftRequest{AuthRoleList: r})
if err != nil {
return nil, err
}
return resp.(*pb.AuthRoleListResponse), nil
}
func (s *EtcdServer) RoleRevokePermission(ctx context.Context, r *pb.AuthRoleRevokePermissionRequest) (*pb.AuthRoleRevokePermissionResponse, error) {
resp, err := s.raftRequest(ctx, pb.InternalRaftRequest{AuthRoleRevokePermission: r})
if err != nil {
return nil, err
}
return resp.(*pb.AuthRoleRevokePermissionResponse), nil
}
func (s *EtcdServer) RoleDelete(ctx context.Context, r *pb.AuthRoleDeleteRequest) (*pb.AuthRoleDeleteResponse, error) {
resp, err := s.raftRequest(ctx, pb.InternalRaftRequest{AuthRoleDelete: r})
if err != nil {
return nil, err
}
return resp.(*pb.AuthRoleDeleteResponse), nil
}
func (s *EtcdServer) raftRequestOnce(ctx context.Context, r pb.InternalRaftRequest) (proto.Message, error) {
result, err := s.processInternalRaftRequestOnce(ctx, r)
if err != nil {
return nil, err
}
if result.Err != nil {
return nil, result.Err
}
if startTime, ok := ctx.Value(traceutil.StartTimeKey).(time.Time); ok && result.Trace != nil {
applyStart := result.Trace.GetStartTime()
// The trace object is created in toApply. Here reset the start time to trace
// the raft request time by the difference between the request start time
// and toApply start time
result.Trace.SetStartTime(startTime)
result.Trace.InsertStep(0, applyStart, "process raft request")
result.Trace.LogIfLong(traceThreshold)
}
return result.Resp, nil
}
func (s *EtcdServer) raftRequest(ctx context.Context, r pb.InternalRaftRequest) (proto.Message, error) {
return s.raftRequestOnce(ctx, r)
}
// doSerialize handles the auth logic, with permissions checked by "chk", for a serialized request "get". Returns a non-nil error on authentication failure.
func (s *EtcdServer) doSerialize(ctx context.Context, chk func(*auth.AuthInfo) error, get func()) error {
trace := traceutil.Get(ctx)
ai, err := s.AuthInfoFromCtx(ctx)
if err != nil {
return err
}
if ai == nil {
// chk expects non-nil AuthInfo; use empty credentials
ai = &auth.AuthInfo{}
}
if err = chk(ai); err != nil {
return err
}
trace.Step("get authentication metadata")
// fetch response for serialized request
get()
// check for stale token revision in case the auth store was updated while
// the request has been handled.
if ai.Revision != 0 && ai.Revision != s.authStore.Revision() {
return auth.ErrAuthOldRevision
}
return nil
}
func (s *EtcdServer) processInternalRaftRequestOnce(ctx context.Context, r pb.InternalRaftRequest) (*apply2.Result, error) {
ai := s.getAppliedIndex()
ci := s.getCommittedIndex()
if ci > ai+maxGapBetweenApplyAndCommitIndex {
return nil, errors.ErrTooManyRequests
}
r.Header = &pb.RequestHeader{
ID: s.reqIDGen.Next(),
}
// check authinfo if it is not InternalAuthenticateRequest
if r.Authenticate == nil {
authInfo, err := s.AuthInfoFromCtx(ctx)
if err != nil {
return nil, err
}
if authInfo != nil {
r.Header.Username = authInfo.Username
r.Header.AuthRevision = authInfo.Revision
}
}
data, err := r.Marshal()
if err != nil {
return nil, err
}
if len(data) > int(s.Cfg.MaxRequestBytes) {
return nil, errors.ErrRequestTooLarge
}
id := r.ID
if id == 0 {
id = r.Header.ID
}
ch := s.w.Register(id)
cctx, cancel := context.WithTimeout(ctx, s.Cfg.ReqTimeout())
defer cancel()
start := time.Now()
err = s.r.Propose(cctx, data)
if err != nil {
proposalsFailed.Inc()
s.w.Trigger(id, nil) // GC wait
return nil, err
}
proposalsPending.Inc()
defer proposalsPending.Dec()
select {
case x := <-ch:
return x.(*apply2.Result), nil
case <-cctx.Done():
proposalsFailed.Inc()
s.w.Trigger(id, nil) // GC wait
return nil, s.parseProposeCtxErr(cctx.Err(), start)
case <-s.done:
return nil, errors.ErrStopped
}
}
// Watchable returns a watchable interface attached to the etcdserver.
func (s *EtcdServer) Watchable() mvcc.WatchableKV { return s.KV() }
func (s *EtcdServer) linearizableReadLoop() {
for {
requestId := s.reqIDGen.Next()
leaderChangedNotifier := s.leaderChanged.Receive()
select {
case <-leaderChangedNotifier:
continue
case <-s.readwaitc:
case <-s.stopping:
return
}
// as a single loop is can unlock multiple reads, it is not very useful
// to propagate the trace from Txn or Range.
trace := traceutil.New("linearizableReadLoop", s.Logger())
nextnr := newNotifier()
s.readMu.Lock()
nr := s.readNotifier
s.readNotifier = nextnr
s.readMu.Unlock()
confirmedIndex, err := s.requestCurrentIndex(leaderChangedNotifier, requestId)
if isStopped(err) {
return
}
if err != nil {
nr.notify(err)
continue
}
trace.Step("read index received")
trace.AddField(traceutil.Field{Key: "readStateIndex", Value: confirmedIndex})
appliedIndex := s.getAppliedIndex()
trace.AddField(traceutil.Field{Key: "appliedIndex", Value: strconv.FormatUint(appliedIndex, 10)})
if appliedIndex < confirmedIndex {
select {
case <-s.applyWait.Wait(confirmedIndex):
case <-s.stopping:
return
}
}
// unblock all l-reads requested at indices before confirmedIndex
nr.notify(nil)
trace.Step("applied index is now lower than readState.Index")
trace.LogAllStepsIfLong(traceThreshold)
}
}
func isStopped(err error) bool {
return err == raft.ErrStopped || err == errors.ErrStopped
}
func (s *EtcdServer) requestCurrentIndex(leaderChangedNotifier <-chan struct{}, requestId uint64) (uint64, error) {
err := s.sendReadIndex(requestId)
if err != nil {
return 0, err
}
lg := s.Logger()
errorTimer := time.NewTimer(s.Cfg.ReqTimeout())
defer errorTimer.Stop()
retryTimer := time.NewTimer(readIndexRetryTime)
defer retryTimer.Stop()
firstCommitInTermNotifier := s.firstCommitInTerm.Receive()
for {
select {
case rs := <-s.r.readStateC:
requestIdBytes := uint64ToBigEndianBytes(requestId)
gotOwnResponse := bytes.Equal(rs.RequestCtx, requestIdBytes)
if !gotOwnResponse {
// a previous request might time out. now we should ignore the response of it and
// continue waiting for the response of the current requests.
responseId := uint64(0)
if len(rs.RequestCtx) == 8 {
responseId = binary.BigEndian.Uint64(rs.RequestCtx)
}
lg.Warn(
"ignored out-of-date read index response; local node read indexes queueing up and waiting to be in sync with leader",
zap.Uint64("sent-request-id", requestId),
zap.Uint64("received-request-id", responseId),
)
slowReadIndex.Inc()
continue
}
return rs.Index, nil
case <-leaderChangedNotifier:
readIndexFailed.Inc()
// return a retryable error.
return 0, errors.ErrLeaderChanged
case <-firstCommitInTermNotifier:
firstCommitInTermNotifier = s.firstCommitInTerm.Receive()
lg.Info("first commit in current term: resending ReadIndex request")
err := s.sendReadIndex(requestId)
if err != nil {
return 0, err
}
retryTimer.Reset(readIndexRetryTime)
continue
case <-retryTimer.C:
lg.Warn(
"waiting for ReadIndex response took too long, retrying",
zap.Uint64("sent-request-id", requestId),
zap.Duration("retry-timeout", readIndexRetryTime),
)
err := s.sendReadIndex(requestId)
if err != nil {
return 0, err
}
retryTimer.Reset(readIndexRetryTime)
continue
case <-errorTimer.C:
lg.Warn(
"timed out waiting for read index response (local node might have slow network)",
zap.Duration("timeout", s.Cfg.ReqTimeout()),
)
slowReadIndex.Inc()
return 0, errors.ErrTimeout
case <-s.stopping:
return 0, errors.ErrStopped
}
}
}
func uint64ToBigEndianBytes(number uint64) []byte {
byteResult := make([]byte, 8)
binary.BigEndian.PutUint64(byteResult, number)
return byteResult
}
func (s *EtcdServer) sendReadIndex(requestIndex uint64) error {
ctxToSend := uint64ToBigEndianBytes(requestIndex)
cctx, cancel := context.WithTimeout(context.Background(), s.Cfg.ReqTimeout())
err := s.r.ReadIndex(cctx, ctxToSend)
cancel()
if err == raft.ErrStopped {
return err
}
if err != nil {
lg := s.Logger()
lg.Warn("failed to get read index from Raft", zap.Error(err))
readIndexFailed.Inc()
return err
}
return nil
}
func (s *EtcdServer) LinearizableReadNotify(ctx context.Context) error {
return s.linearizableReadNotify(ctx)
}
func (s *EtcdServer) linearizableReadNotify(ctx context.Context) error {
s.readMu.RLock()
nc := s.readNotifier
s.readMu.RUnlock()
// signal linearizable loop for current notify if it hasn't been already
select {
case s.readwaitc <- struct{}{}:
default:
}
// wait for read state notification
select {
case <-nc.c:
return nc.err
case <-ctx.Done():
return ctx.Err()
case <-s.done:
return errors.ErrStopped
}
}
func (s *EtcdServer) AuthInfoFromCtx(ctx context.Context) (*auth.AuthInfo, error) {
authInfo, err := s.AuthStore().AuthInfoFromCtx(ctx)
if authInfo != nil || err != nil {
return authInfo, err
}
if !s.Cfg.ClientCertAuthEnabled {
return nil, nil
}
authInfo = s.AuthStore().AuthInfoFromTLS(ctx)
return authInfo, nil
}
func (s *EtcdServer) Downgrade(ctx context.Context, r *pb.DowngradeRequest) (*pb.DowngradeResponse, error) {
switch r.Action {
case pb.DowngradeRequest_VALIDATE:
return s.downgradeValidate(ctx, r.Version)
case pb.DowngradeRequest_ENABLE:
return s.downgradeEnable(ctx, r)
case pb.DowngradeRequest_CANCEL:
return s.downgradeCancel(ctx)
default:
return nil, errors.ErrUnknownMethod
}
}
func (s *EtcdServer) downgradeValidate(ctx context.Context, v string) (*pb.DowngradeResponse, error) {
resp := &pb.DowngradeResponse{}
targetVersion, err := convertToClusterVersion(v)
if err != nil {
return nil, err
}
cv := s.ClusterVersion()
if cv == nil {
return nil, errors.ErrClusterVersionUnavailable
}
resp.Version = version.Cluster(cv.String())
err = s.Version().DowngradeValidate(ctx, targetVersion)
if err != nil {
return nil, err
}
return resp, nil
}
func (s *EtcdServer) downgradeEnable(ctx context.Context, r *pb.DowngradeRequest) (*pb.DowngradeResponse, error) {
lg := s.Logger()
targetVersion, err := convertToClusterVersion(r.Version)
if err != nil {
lg.Warn("reject downgrade request", zap.Error(err))
return nil, err
}
err = s.Version().DowngradeEnable(ctx, targetVersion)
if err != nil {
lg.Warn("reject downgrade request", zap.Error(err))
return nil, err
}
resp := pb.DowngradeResponse{Version: version.Cluster(s.ClusterVersion().String())}
return &resp, nil
}
func (s *EtcdServer) downgradeCancel(ctx context.Context) (*pb.DowngradeResponse, error) {
err := s.Version().DowngradeCancel(ctx)
if err != nil {
s.lg.Warn("failed to cancel downgrade", zap.Error(err))
}
resp := pb.DowngradeResponse{Version: version.Cluster(s.ClusterVersion().String())}
return &resp, nil
}