// Copyright 2016 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" "fmt" "sort" "time" pb "github.com/coreos/etcd/etcdserver/etcdserverpb" "github.com/coreos/etcd/lease" "github.com/coreos/etcd/mvcc" "github.com/coreos/etcd/mvcc/mvccpb" "github.com/coreos/etcd/pkg/types" "github.com/gogo/protobuf/proto" "golang.org/x/net/context" ) const ( // noTxn is an invalid txn ID. // To apply with independent Range, Put, Delete, you can pass noTxn // to apply functions instead of a valid txn ID. noTxn = -1 warnApplyDuration = 10 * time.Millisecond ) type applyResult struct { resp proto.Message err error // physc signals the physical effect of the request has completed in addition // to being logically reflected by the node. Currently only used for // Compaction requests. physc <-chan struct{} } // applierV3 is the interface for processing V3 raft messages type applierV3 interface { Apply(r *pb.InternalRaftRequest) *applyResult Put(txnID int64, p *pb.PutRequest) (*pb.PutResponse, error) Range(txnID int64, r *pb.RangeRequest) (*pb.RangeResponse, error) DeleteRange(txnID int64, dr *pb.DeleteRangeRequest) (*pb.DeleteRangeResponse, error) Txn(rt *pb.TxnRequest) (*pb.TxnResponse, error) Compaction(compaction *pb.CompactionRequest) (*pb.CompactionResponse, <-chan struct{}, error) LeaseGrant(lc *pb.LeaseGrantRequest) (*pb.LeaseGrantResponse, error) LeaseRevoke(lc *pb.LeaseRevokeRequest) (*pb.LeaseRevokeResponse, error) Alarm(*pb.AlarmRequest) (*pb.AlarmResponse, error) Authenticate(r *pb.InternalAuthenticateRequest) (*pb.AuthenticateResponse, error) AuthEnable() (*pb.AuthEnableResponse, error) AuthDisable() (*pb.AuthDisableResponse, error) UserAdd(ua *pb.AuthUserAddRequest) (*pb.AuthUserAddResponse, error) UserDelete(ua *pb.AuthUserDeleteRequest) (*pb.AuthUserDeleteResponse, error) UserChangePassword(ua *pb.AuthUserChangePasswordRequest) (*pb.AuthUserChangePasswordResponse, error) UserGrantRole(ua *pb.AuthUserGrantRoleRequest) (*pb.AuthUserGrantRoleResponse, error) UserGet(ua *pb.AuthUserGetRequest) (*pb.AuthUserGetResponse, error) UserRevokeRole(ua *pb.AuthUserRevokeRoleRequest) (*pb.AuthUserRevokeRoleResponse, error) RoleAdd(ua *pb.AuthRoleAddRequest) (*pb.AuthRoleAddResponse, error) RoleGrantPermission(ua *pb.AuthRoleGrantPermissionRequest) (*pb.AuthRoleGrantPermissionResponse, error) RoleGet(ua *pb.AuthRoleGetRequest) (*pb.AuthRoleGetResponse, error) RoleRevokePermission(ua *pb.AuthRoleRevokePermissionRequest) (*pb.AuthRoleRevokePermissionResponse, error) RoleDelete(ua *pb.AuthRoleDeleteRequest) (*pb.AuthRoleDeleteResponse, error) UserList(ua *pb.AuthUserListRequest) (*pb.AuthUserListResponse, error) RoleList(ua *pb.AuthRoleListRequest) (*pb.AuthRoleListResponse, error) } type applierV3backend struct { s *EtcdServer } func (s *EtcdServer) newApplierV3() applierV3 { return newAuthApplierV3( s.AuthStore(), newQuotaApplierV3(s, &applierV3backend{s}), ) } func (a *applierV3backend) Apply(r *pb.InternalRaftRequest) *applyResult { ar := &applyResult{} // call into a.s.applyV3.F instead of a.F so upper appliers can check individual calls switch { case r.Range != nil: ar.resp, ar.err = a.s.applyV3.Range(noTxn, r.Range) case r.Put != nil: ar.resp, ar.err = a.s.applyV3.Put(noTxn, r.Put) case r.DeleteRange != nil: ar.resp, ar.err = a.s.applyV3.DeleteRange(noTxn, r.DeleteRange) case r.Txn != nil: ar.resp, ar.err = a.s.applyV3.Txn(r.Txn) case r.Compaction != nil: ar.resp, ar.physc, ar.err = a.s.applyV3.Compaction(r.Compaction) case r.LeaseGrant != nil: ar.resp, ar.err = a.s.applyV3.LeaseGrant(r.LeaseGrant) case r.LeaseRevoke != nil: ar.resp, ar.err = a.s.applyV3.LeaseRevoke(r.LeaseRevoke) case r.Alarm != nil: ar.resp, ar.err = a.s.applyV3.Alarm(r.Alarm) case r.Authenticate != nil: ar.resp, ar.err = a.s.applyV3.Authenticate(r.Authenticate) case r.AuthEnable != nil: ar.resp, ar.err = a.s.applyV3.AuthEnable() case r.AuthDisable != nil: ar.resp, ar.err = a.s.applyV3.AuthDisable() case r.AuthUserAdd != nil: ar.resp, ar.err = a.s.applyV3.UserAdd(r.AuthUserAdd) case r.AuthUserDelete != nil: ar.resp, ar.err = a.s.applyV3.UserDelete(r.AuthUserDelete) case r.AuthUserChangePassword != nil: ar.resp, ar.err = a.s.applyV3.UserChangePassword(r.AuthUserChangePassword) case r.AuthUserGrantRole != nil: ar.resp, ar.err = a.s.applyV3.UserGrantRole(r.AuthUserGrantRole) case r.AuthUserGet != nil: ar.resp, ar.err = a.s.applyV3.UserGet(r.AuthUserGet) case r.AuthUserRevokeRole != nil: ar.resp, ar.err = a.s.applyV3.UserRevokeRole(r.AuthUserRevokeRole) case r.AuthRoleAdd != nil: ar.resp, ar.err = a.s.applyV3.RoleAdd(r.AuthRoleAdd) case r.AuthRoleGrantPermission != nil: ar.resp, ar.err = a.s.applyV3.RoleGrantPermission(r.AuthRoleGrantPermission) case r.AuthRoleGet != nil: ar.resp, ar.err = a.s.applyV3.RoleGet(r.AuthRoleGet) case r.AuthRoleRevokePermission != nil: ar.resp, ar.err = a.s.applyV3.RoleRevokePermission(r.AuthRoleRevokePermission) case r.AuthRoleDelete != nil: ar.resp, ar.err = a.s.applyV3.RoleDelete(r.AuthRoleDelete) case r.AuthUserList != nil: ar.resp, ar.err = a.s.applyV3.UserList(r.AuthUserList) case r.AuthRoleList != nil: ar.resp, ar.err = a.s.applyV3.RoleList(r.AuthRoleList) default: panic("not implemented") } return ar } func (a *applierV3backend) Put(txnID int64, p *pb.PutRequest) (*pb.PutResponse, error) { resp := &pb.PutResponse{} resp.Header = &pb.ResponseHeader{} var ( rev int64 err error ) var rr *mvcc.RangeResult if p.PrevKv { if txnID != noTxn { rr, err = a.s.KV().TxnRange(txnID, p.Key, nil, mvcc.RangeOptions{}) if err != nil { return nil, err } } else { rr, err = a.s.KV().Range(p.Key, nil, mvcc.RangeOptions{}) if err != nil { return nil, err } } } if txnID != noTxn { rev, err = a.s.KV().TxnPut(txnID, p.Key, p.Value, lease.LeaseID(p.Lease)) if err != nil { return nil, err } } else { leaseID := lease.LeaseID(p.Lease) if leaseID != lease.NoLease { if l := a.s.lessor.Lookup(leaseID); l == nil { return nil, lease.ErrLeaseNotFound } } rev = a.s.KV().Put(p.Key, p.Value, leaseID) } resp.Header.Revision = rev if rr != nil && len(rr.KVs) != 0 { resp.PrevKv = &rr.KVs[0] } return resp, nil } func (a *applierV3backend) DeleteRange(txnID int64, dr *pb.DeleteRangeRequest) (*pb.DeleteRangeResponse, error) { resp := &pb.DeleteRangeResponse{} resp.Header = &pb.ResponseHeader{} var ( n int64 rev int64 err error ) if isGteRange(dr.RangeEnd) { dr.RangeEnd = []byte{} } var rr *mvcc.RangeResult if dr.PrevKv { if txnID != noTxn { rr, err = a.s.KV().TxnRange(txnID, dr.Key, dr.RangeEnd, mvcc.RangeOptions{}) if err != nil { return nil, err } } else { rr, err = a.s.KV().Range(dr.Key, dr.RangeEnd, mvcc.RangeOptions{}) if err != nil { return nil, err } } } if txnID != noTxn { n, rev, err = a.s.KV().TxnDeleteRange(txnID, dr.Key, dr.RangeEnd) if err != nil { return nil, err } } else { n, rev = a.s.KV().DeleteRange(dr.Key, dr.RangeEnd) } resp.Deleted = n if rr != nil { for i := range rr.KVs { resp.PrevKvs = append(resp.PrevKvs, &rr.KVs[i]) } } resp.Header.Revision = rev return resp, nil } func (a *applierV3backend) Range(txnID int64, r *pb.RangeRequest) (*pb.RangeResponse, error) { resp := &pb.RangeResponse{} resp.Header = &pb.ResponseHeader{} var ( rr *mvcc.RangeResult err error ) if isGteRange(r.RangeEnd) { r.RangeEnd = []byte{} } limit := r.Limit if r.SortOrder != pb.RangeRequest_NONE { // fetch everything; sort and truncate afterwards limit = 0 } if limit > 0 { // fetch one extra for 'more' flag limit = limit + 1 } ro := mvcc.RangeOptions{ Limit: limit, Rev: r.Revision, Count: r.CountOnly, } if txnID != noTxn { rr, err = a.s.KV().TxnRange(txnID, r.Key, r.RangeEnd, ro) if err != nil { return nil, err } } else { rr, err = a.s.KV().Range(r.Key, r.RangeEnd, ro) if err != nil { return nil, err } } if r.SortOrder != pb.RangeRequest_NONE { var sorter sort.Interface switch { case r.SortTarget == pb.RangeRequest_KEY: sorter = &kvSortByKey{&kvSort{rr.KVs}} case r.SortTarget == pb.RangeRequest_VERSION: sorter = &kvSortByVersion{&kvSort{rr.KVs}} case r.SortTarget == pb.RangeRequest_CREATE: sorter = &kvSortByCreate{&kvSort{rr.KVs}} case r.SortTarget == pb.RangeRequest_MOD: sorter = &kvSortByMod{&kvSort{rr.KVs}} case r.SortTarget == pb.RangeRequest_VALUE: sorter = &kvSortByValue{&kvSort{rr.KVs}} } switch { case r.SortOrder == pb.RangeRequest_ASCEND: sort.Sort(sorter) case r.SortOrder == pb.RangeRequest_DESCEND: sort.Sort(sort.Reverse(sorter)) } } if r.Limit > 0 && len(rr.KVs) > int(r.Limit) { rr.KVs = rr.KVs[:r.Limit] resp.More = true } resp.Header.Revision = rr.Rev resp.Count = int64(rr.Count) for i := range rr.KVs { if r.KeysOnly { rr.KVs[i].Value = nil } resp.Kvs = append(resp.Kvs, &rr.KVs[i]) } return resp, nil } func (a *applierV3backend) Txn(rt *pb.TxnRequest) (*pb.TxnResponse, error) { ok := true for _, c := range rt.Compare { if _, ok = a.applyCompare(c); !ok { break } } var reqs []*pb.RequestOp if ok { reqs = rt.Success } else { reqs = rt.Failure } if err := a.checkRequestLeases(reqs); err != nil { return nil, err } if err := a.checkRequestRange(reqs); err != nil { return nil, err } revision := a.s.KV().Rev() // When executing the operations of txn, we need to hold the txn lock. // So the reader will not see any intermediate results. txnID := a.s.KV().TxnBegin() defer func() { err := a.s.KV().TxnEnd(txnID) if err != nil { panic(fmt.Sprint("unexpected error when closing txn", txnID)) } }() resps := make([]*pb.ResponseOp, len(reqs)) changedKV := false for i := range reqs { if reqs[i].GetRequestRange() == nil { changedKV = true } resps[i] = a.applyUnion(txnID, reqs[i]) } if changedKV { revision += 1 } txnResp := &pb.TxnResponse{} txnResp.Header = &pb.ResponseHeader{} txnResp.Header.Revision = revision txnResp.Responses = resps txnResp.Succeeded = ok return txnResp, nil } // applyCompare applies the compare request. // It returns the revision at which the comparison happens. If the comparison // succeeds, the it returns true. Otherwise it returns false. func (a *applierV3backend) applyCompare(c *pb.Compare) (int64, bool) { rr, err := a.s.KV().Range(c.Key, nil, mvcc.RangeOptions{}) rev := rr.Rev if err != nil { if err == mvcc.ErrTxnIDMismatch { panic("unexpected txn ID mismatch error") } return rev, false } var ckv mvccpb.KeyValue if len(rr.KVs) != 0 { ckv = rr.KVs[0] } else { // Use the zero value of ckv normally. However... if c.Target == pb.Compare_VALUE { // Always fail if we're comparing a value on a key that doesn't exist. // We can treat non-existence as the empty set explicitly, such that // even a key with a value of length 0 bytes is still a real key // that was written that way return rev, false } } // -1 is less, 0 is equal, 1 is greater var result int switch c.Target { case pb.Compare_VALUE: tv, _ := c.TargetUnion.(*pb.Compare_Value) if tv != nil { result = bytes.Compare(ckv.Value, tv.Value) } case pb.Compare_CREATE: tv, _ := c.TargetUnion.(*pb.Compare_CreateRevision) if tv != nil { result = compareInt64(ckv.CreateRevision, tv.CreateRevision) } case pb.Compare_MOD: tv, _ := c.TargetUnion.(*pb.Compare_ModRevision) if tv != nil { result = compareInt64(ckv.ModRevision, tv.ModRevision) } case pb.Compare_VERSION: tv, _ := c.TargetUnion.(*pb.Compare_Version) if tv != nil { result = compareInt64(ckv.Version, tv.Version) } } switch c.Result { case pb.Compare_EQUAL: if result != 0 { return rev, false } case pb.Compare_GREATER: if result != 1 { return rev, false } case pb.Compare_LESS: if result != -1 { return rev, false } } return rev, true } func (a *applierV3backend) applyUnion(txnID int64, union *pb.RequestOp) *pb.ResponseOp { switch tv := union.Request.(type) { case *pb.RequestOp_RequestRange: if tv.RequestRange != nil { resp, err := a.Range(txnID, tv.RequestRange) if err != nil { panic("unexpected error during txn") } return &pb.ResponseOp{Response: &pb.ResponseOp_ResponseRange{ResponseRange: resp}} } case *pb.RequestOp_RequestPut: if tv.RequestPut != nil { resp, err := a.Put(txnID, tv.RequestPut) if err != nil { panic("unexpected error during txn") } return &pb.ResponseOp{Response: &pb.ResponseOp_ResponsePut{ResponsePut: resp}} } case *pb.RequestOp_RequestDeleteRange: if tv.RequestDeleteRange != nil { resp, err := a.DeleteRange(txnID, tv.RequestDeleteRange) if err != nil { panic("unexpected error during txn") } return &pb.ResponseOp{Response: &pb.ResponseOp_ResponseDeleteRange{ResponseDeleteRange: resp}} } default: // empty union return nil } return nil } func (a *applierV3backend) Compaction(compaction *pb.CompactionRequest) (*pb.CompactionResponse, <-chan struct{}, error) { resp := &pb.CompactionResponse{} resp.Header = &pb.ResponseHeader{} ch, err := a.s.KV().Compact(compaction.Revision) if err != nil { return nil, ch, err } // get the current revision. which key to get is not important. rr, _ := a.s.KV().Range([]byte("compaction"), nil, mvcc.RangeOptions{}) resp.Header.Revision = rr.Rev return resp, ch, err } func (a *applierV3backend) LeaseGrant(lc *pb.LeaseGrantRequest) (*pb.LeaseGrantResponse, error) { l, err := a.s.lessor.Grant(lease.LeaseID(lc.ID), lc.TTL) resp := &pb.LeaseGrantResponse{} if err == nil { resp.ID = int64(l.ID) resp.TTL = l.TTL resp.Header = &pb.ResponseHeader{Revision: a.s.KV().Rev()} } return resp, err } func (a *applierV3backend) LeaseRevoke(lc *pb.LeaseRevokeRequest) (*pb.LeaseRevokeResponse, error) { err := a.s.lessor.Revoke(lease.LeaseID(lc.ID)) return &pb.LeaseRevokeResponse{Header: &pb.ResponseHeader{Revision: a.s.KV().Rev()}}, err } func (a *applierV3backend) Alarm(ar *pb.AlarmRequest) (*pb.AlarmResponse, error) { resp := &pb.AlarmResponse{} oldCount := len(a.s.alarmStore.Get(ar.Alarm)) switch ar.Action { case pb.AlarmRequest_GET: resp.Alarms = a.s.alarmStore.Get(ar.Alarm) case pb.AlarmRequest_ACTIVATE: m := a.s.alarmStore.Activate(types.ID(ar.MemberID), ar.Alarm) if m == nil { break } resp.Alarms = append(resp.Alarms, m) activated := oldCount == 0 && len(a.s.alarmStore.Get(m.Alarm)) == 1 if !activated { break } switch m.Alarm { case pb.AlarmType_NOSPACE: plog.Warningf("alarm raised %+v", m) a.s.applyV3 = newApplierV3Capped(a) default: plog.Errorf("unimplemented alarm activation (%+v)", m) } case pb.AlarmRequest_DEACTIVATE: m := a.s.alarmStore.Deactivate(types.ID(ar.MemberID), ar.Alarm) if m == nil { break } resp.Alarms = append(resp.Alarms, m) deactivated := oldCount > 0 && len(a.s.alarmStore.Get(ar.Alarm)) == 0 if !deactivated { break } switch m.Alarm { case pb.AlarmType_NOSPACE: plog.Infof("alarm disarmed %+v", ar) a.s.applyV3 = a.s.newApplierV3() default: plog.Errorf("unimplemented alarm deactivation (%+v)", m) } default: return nil, nil } return resp, nil } type applierV3Capped struct { applierV3 q backendQuota } // newApplierV3Capped creates an applyV3 that will reject Puts and transactions // with Puts so that the number of keys in the store is capped. func newApplierV3Capped(base applierV3) applierV3 { return &applierV3Capped{applierV3: base} } func (a *applierV3Capped) Put(txnID int64, p *pb.PutRequest) (*pb.PutResponse, error) { return nil, ErrNoSpace } func (a *applierV3Capped) Txn(r *pb.TxnRequest) (*pb.TxnResponse, error) { if a.q.Cost(r) > 0 { return nil, ErrNoSpace } return a.applierV3.Txn(r) } func (a *applierV3Capped) LeaseGrant(lc *pb.LeaseGrantRequest) (*pb.LeaseGrantResponse, error) { return nil, ErrNoSpace } func (a *applierV3backend) AuthEnable() (*pb.AuthEnableResponse, error) { err := a.s.AuthStore().AuthEnable() if err != nil { return nil, err } return &pb.AuthEnableResponse{}, nil } func (a *applierV3backend) AuthDisable() (*pb.AuthDisableResponse, error) { a.s.AuthStore().AuthDisable() return &pb.AuthDisableResponse{}, nil } func (a *applierV3backend) Authenticate(r *pb.InternalAuthenticateRequest) (*pb.AuthenticateResponse, error) { ctx := context.WithValue(context.WithValue(context.TODO(), "index", a.s.consistIndex.ConsistentIndex()), "simpleToken", r.SimpleToken) return a.s.AuthStore().Authenticate(ctx, r.Name, r.Password) } func (a *applierV3backend) UserAdd(r *pb.AuthUserAddRequest) (*pb.AuthUserAddResponse, error) { return a.s.AuthStore().UserAdd(r) } func (a *applierV3backend) UserDelete(r *pb.AuthUserDeleteRequest) (*pb.AuthUserDeleteResponse, error) { return a.s.AuthStore().UserDelete(r) } func (a *applierV3backend) UserChangePassword(r *pb.AuthUserChangePasswordRequest) (*pb.AuthUserChangePasswordResponse, error) { return a.s.AuthStore().UserChangePassword(r) } func (a *applierV3backend) UserGrantRole(r *pb.AuthUserGrantRoleRequest) (*pb.AuthUserGrantRoleResponse, error) { return a.s.AuthStore().UserGrantRole(r) } func (a *applierV3backend) UserGet(r *pb.AuthUserGetRequest) (*pb.AuthUserGetResponse, error) { return a.s.AuthStore().UserGet(r) } func (a *applierV3backend) UserRevokeRole(r *pb.AuthUserRevokeRoleRequest) (*pb.AuthUserRevokeRoleResponse, error) { return a.s.AuthStore().UserRevokeRole(r) } func (a *applierV3backend) RoleAdd(r *pb.AuthRoleAddRequest) (*pb.AuthRoleAddResponse, error) { return a.s.AuthStore().RoleAdd(r) } func (a *applierV3backend) RoleGrantPermission(r *pb.AuthRoleGrantPermissionRequest) (*pb.AuthRoleGrantPermissionResponse, error) { return a.s.AuthStore().RoleGrantPermission(r) } func (a *applierV3backend) RoleGet(r *pb.AuthRoleGetRequest) (*pb.AuthRoleGetResponse, error) { return a.s.AuthStore().RoleGet(r) } func (a *applierV3backend) RoleRevokePermission(r *pb.AuthRoleRevokePermissionRequest) (*pb.AuthRoleRevokePermissionResponse, error) { return a.s.AuthStore().RoleRevokePermission(r) } func (a *applierV3backend) RoleDelete(r *pb.AuthRoleDeleteRequest) (*pb.AuthRoleDeleteResponse, error) { return a.s.AuthStore().RoleDelete(r) } func (a *applierV3backend) UserList(r *pb.AuthUserListRequest) (*pb.AuthUserListResponse, error) { return a.s.AuthStore().UserList(r) } func (a *applierV3backend) RoleList(r *pb.AuthRoleListRequest) (*pb.AuthRoleListResponse, error) { return a.s.AuthStore().RoleList(r) } type quotaApplierV3 struct { applierV3 q Quota } func newQuotaApplierV3(s *EtcdServer, app applierV3) applierV3 { return "aApplierV3{app, NewBackendQuota(s)} } func (a *quotaApplierV3) Put(txnID int64, p *pb.PutRequest) (*pb.PutResponse, error) { ok := a.q.Available(p) resp, err := a.applierV3.Put(txnID, p) if err == nil && !ok { err = ErrNoSpace } return resp, err } func (a *quotaApplierV3) Txn(rt *pb.TxnRequest) (*pb.TxnResponse, error) { ok := a.q.Available(rt) resp, err := a.applierV3.Txn(rt) if err == nil && !ok { err = ErrNoSpace } return resp, err } func (a *quotaApplierV3) LeaseGrant(lc *pb.LeaseGrantRequest) (*pb.LeaseGrantResponse, error) { ok := a.q.Available(lc) resp, err := a.applierV3.LeaseGrant(lc) if err == nil && !ok { err = ErrNoSpace } return resp, err } type kvSort struct{ kvs []mvccpb.KeyValue } func (s *kvSort) Swap(i, j int) { t := s.kvs[i] s.kvs[i] = s.kvs[j] s.kvs[j] = t } func (s *kvSort) Len() int { return len(s.kvs) } type kvSortByKey struct{ *kvSort } func (s *kvSortByKey) Less(i, j int) bool { return bytes.Compare(s.kvs[i].Key, s.kvs[j].Key) < 0 } type kvSortByVersion struct{ *kvSort } func (s *kvSortByVersion) Less(i, j int) bool { return (s.kvs[i].Version - s.kvs[j].Version) < 0 } type kvSortByCreate struct{ *kvSort } func (s *kvSortByCreate) Less(i, j int) bool { return (s.kvs[i].CreateRevision - s.kvs[j].CreateRevision) < 0 } type kvSortByMod struct{ *kvSort } func (s *kvSortByMod) Less(i, j int) bool { return (s.kvs[i].ModRevision - s.kvs[j].ModRevision) < 0 } type kvSortByValue struct{ *kvSort } func (s *kvSortByValue) Less(i, j int) bool { return bytes.Compare(s.kvs[i].Value, s.kvs[j].Value) < 0 } func (a *applierV3backend) checkRequestLeases(reqs []*pb.RequestOp) error { for _, requ := range reqs { tv, ok := requ.Request.(*pb.RequestOp_RequestPut) if !ok { continue } preq := tv.RequestPut if preq == nil || lease.LeaseID(preq.Lease) == lease.NoLease { continue } if l := a.s.lessor.Lookup(lease.LeaseID(preq.Lease)); l == nil { return lease.ErrLeaseNotFound } } return nil } func (a *applierV3backend) checkRequestRange(reqs []*pb.RequestOp) error { for _, requ := range reqs { tv, ok := requ.Request.(*pb.RequestOp_RequestRange) if !ok { continue } greq := tv.RequestRange if greq == nil || greq.Revision == 0 { continue } if greq.Revision > a.s.KV().Rev() { return mvcc.ErrFutureRev } if greq.Revision < a.s.KV().FirstRev() { return mvcc.ErrCompacted } } return nil } func compareInt64(a, b int64) int { switch { case a < b: return -1 case a > b: return 1 default: return 0 } } // isGteRange determines if the range end is a >= range. This works around grpc // sending empty byte strings as nil; >= is encoded in the range end as '\0'. func isGteRange(rangeEnd []byte) bool { return len(rangeEnd) == 1 && rangeEnd[0] == 0 }