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lessor.go
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lessor.go
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// Copyright 2015 CoreOS, Inc.
//
// 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 lease
import (
"encoding/binary"
"errors"
"math"
"sync"
"time"
"github.com/coreos/etcd/lease/leasepb"
"github.com/coreos/etcd/storage/backend"
)
const (
// NoLease is a special LeaseID representing the absence of a lease.
NoLease = LeaseID(0)
)
var (
minLeaseTTL = int64(5)
leaseBucketName = []byte("lease")
// do not use maxInt64 since it can overflow time which will add
// the offset of unix time (1970yr to seconds).
forever = time.Unix(math.MaxInt64>>1, 0)
ErrNotPrimary = errors.New("not a primary lessor")
ErrLeaseNotFound = errors.New("lease not found")
ErrLeaseExists = errors.New("lease already exists")
)
type LeaseID int64
// RangeDeleter defines an interface with DeleteRange method.
// We define this interface only for lessor to limit the number
// of methods of storage.KV to what lessor actually needs.
//
// Having a minimum interface makes testing easy.
type RangeDeleter interface {
DeleteRange(key, end []byte) (int64, int64)
}
// A Lessor is the owner of leases. It can grant, revoke, renew and modify leases for lessee.
type Lessor interface {
// SetRangeDeleter sets the RangeDeleter to the Lessor.
// Lessor deletes the items in the revoked or expired lease from the
// the set RangeDeleter.
SetRangeDeleter(dr RangeDeleter)
// Grant grants a lease that expires at least after TTL seconds.
Grant(id LeaseID, ttl int64) (*Lease, error)
// Revoke revokes a lease with given ID. The item attached to the
// given lease will be removed. If the ID does not exist, an error
// will be returned.
Revoke(id LeaseID) error
// Attach attaches given leaseItem to the lease with given LeaseID.
// If the lease does not exist, an error will be returned.
Attach(id LeaseID, items []LeaseItem) error
// Detach detaches given leaseItem from the lease with given LeaseID.
// If the lease does not exist, an error will be returned.
Detach(id LeaseID, items []LeaseItem) error
// Promote promotes the lessor to be the primary lessor. Primary lessor manages
// the expiration and renew of leases.
// Newly promoted lessor renew the TTL of all lease to extend + previous TTL.
Promote(extend time.Duration)
// Demote demotes the lessor from being the primary lessor.
Demote()
// Renew renews a lease with given ID. It returns the renewed TTL. If the ID does not exist,
// an error will be returned.
Renew(id LeaseID) (int64, error)
// Lookup gives the lease at a given lease id, if any
Lookup(id LeaseID) *Lease
// ExpiredLeasesC returns a chan that is used to receive expired leases.
ExpiredLeasesC() <-chan []*Lease
// Recover recovers the lessor state from the given backend and RangeDeleter.
Recover(b backend.Backend, rd RangeDeleter)
// Stop stops the lessor for managing leases. The behavior of calling Stop multiple
// times is undefined.
Stop()
}
// lessor implements Lessor interface.
// TODO: use clockwork for testability.
type lessor struct {
mu sync.Mutex
// primary indicates if this lessor is the primary lessor. The primary
// lessor manages lease expiration and renew.
//
// in etcd, raft leader is the primary. Thus there might be two primary
// leaders at the same time (raft allows concurrent leader but with different term)
// for at most a leader election timeout.
// The old primary leader cannot affect the correctness since its proposal has a
// smaller term and will not be committed.
//
// TODO: raft follower do not forward lease management proposals. There might be a
// very small window (within second normally which depends on go scheduling) that
// a raft follow is the primary between the raft leader demotion and lessor demotion.
// Usually this should not be a problem. Lease should not be that sensitive to timing.
primary bool
// TODO: probably this should be a heap with a secondary
// id index.
// Now it is O(N) to loop over the leases to find expired ones.
// We want to make Grant, Revoke, and findExpiredLeases all O(logN) and
// Renew O(1).
// findExpiredLeases and Renew should be the most frequent operations.
leaseMap map[LeaseID]*Lease
// When a lease expires, the lessor will delete the
// leased range (or key) by the RangeDeleter.
rd RangeDeleter
// backend to persist leases. We only persist lease ID and expiry for now.
// The leased items can be recovered by iterating all the keys in kv.
b backend.Backend
expiredC chan []*Lease
// stopC is a channel whose closure indicates that the lessor should be stopped.
stopC chan struct{}
// doneC is a channel whose closure indicates that the lessor is stopped.
doneC chan struct{}
}
func NewLessor(b backend.Backend) Lessor {
return newLessor(b)
}
func newLessor(b backend.Backend) *lessor {
l := &lessor{
leaseMap: make(map[LeaseID]*Lease),
b: b,
// expiredC is a small buffered chan to avoid unnecessary blocking.
expiredC: make(chan []*Lease, 16),
stopC: make(chan struct{}),
doneC: make(chan struct{}),
}
l.initAndRecover()
go l.runLoop()
return l
}
func (le *lessor) SetRangeDeleter(rd RangeDeleter) {
le.mu.Lock()
defer le.mu.Unlock()
le.rd = rd
}
// TODO: when lessor is under high load, it should give out lease
// with longer TTL to reduce renew load.
func (le *lessor) Grant(id LeaseID, ttl int64) (*Lease, error) {
if id == NoLease {
return nil, ErrLeaseNotFound
}
l := &Lease{ID: id, TTL: ttl, itemSet: make(map[LeaseItem]struct{})}
le.mu.Lock()
defer le.mu.Unlock()
if _, ok := le.leaseMap[id]; ok {
return nil, ErrLeaseExists
}
if le.primary {
l.refresh(0)
} else {
l.forever()
}
le.leaseMap[id] = l
l.persistTo(le.b)
return l, nil
}
func (le *lessor) Revoke(id LeaseID) error {
le.mu.Lock()
l := le.leaseMap[id]
if l == nil {
le.mu.Unlock()
return ErrLeaseNotFound
}
// unlock before doing external work
le.mu.Unlock()
if le.rd != nil {
for item := range l.itemSet {
le.rd.DeleteRange([]byte(item.Key), nil)
}
}
le.mu.Lock()
defer le.mu.Unlock()
delete(le.leaseMap, l.ID)
l.removeFrom(le.b)
return nil
}
// Renew renews an existing lease. If the given lease does not exist or
// has expired, an error will be returned.
func (le *lessor) Renew(id LeaseID) (int64, error) {
le.mu.Lock()
defer le.mu.Unlock()
if !le.primary {
// forward renew request to primary instead of returning error.
return -1, ErrNotPrimary
}
l := le.leaseMap[id]
if l == nil {
return -1, ErrLeaseNotFound
}
l.refresh(0)
return l.TTL, nil
}
func (le *lessor) Lookup(id LeaseID) *Lease {
le.mu.Lock()
defer le.mu.Unlock()
if l, ok := le.leaseMap[id]; ok {
return l
}
return nil
}
func (le *lessor) Promote(extend time.Duration) {
le.mu.Lock()
defer le.mu.Unlock()
le.primary = true
// refresh the expiries of all leases.
for _, l := range le.leaseMap {
l.refresh(extend)
}
}
func (le *lessor) Demote() {
le.mu.Lock()
defer le.mu.Unlock()
// set the expiries of all leases to forever
for _, l := range le.leaseMap {
l.forever()
}
le.primary = false
}
// Attach attaches items to the lease with given ID. When the lease
// expires, the attached items will be automatically removed.
// If the given lease does not exist, an error will be returned.
func (le *lessor) Attach(id LeaseID, items []LeaseItem) error {
le.mu.Lock()
defer le.mu.Unlock()
l := le.leaseMap[id]
if l == nil {
return ErrLeaseNotFound
}
for _, it := range items {
l.itemSet[it] = struct{}{}
}
return nil
}
// Detach detaches items from the lease with given ID.
// If the given lease does not exist, an error will be returned.
func (le *lessor) Detach(id LeaseID, items []LeaseItem) error {
le.mu.Lock()
defer le.mu.Unlock()
l := le.leaseMap[id]
if l == nil {
return ErrLeaseNotFound
}
for _, it := range items {
delete(l.itemSet, it)
}
return nil
}
func (le *lessor) Recover(b backend.Backend, rd RangeDeleter) {
le.mu.Lock()
defer le.mu.Unlock()
le.b = b
le.rd = rd
le.leaseMap = make(map[LeaseID]*Lease)
le.initAndRecover()
}
func (le *lessor) ExpiredLeasesC() <-chan []*Lease {
return le.expiredC
}
func (le *lessor) Stop() {
close(le.stopC)
<-le.doneC
}
func (le *lessor) runLoop() {
defer close(le.doneC)
for {
var ls []*Lease
le.mu.Lock()
if le.primary {
ls = le.findExpiredLeases()
}
le.mu.Unlock()
if len(ls) != 0 {
select {
case <-le.stopC:
return
case le.expiredC <- ls:
default:
// the receiver of expiredC is probably busy handling
// other stuff
// let's try this next time after 500ms
}
}
select {
case <-time.After(500 * time.Millisecond):
case <-le.stopC:
return
}
}
}
// findExpiredLeases loops all the leases in the leaseMap and returns the expired
// leases that needed to be revoked.
func (le *lessor) findExpiredLeases() []*Lease {
leases := make([]*Lease, 0, 16)
now := time.Now()
for _, l := range le.leaseMap {
// TODO: probably should change to <= 100-500 millisecond to
// make up committing latency.
if l.expiry.Sub(now) <= 0 {
leases = append(leases, l)
}
}
return leases
}
// get gets the lease with given id.
// get is a helper function for testing, at least for now.
func (le *lessor) get(id LeaseID) *Lease {
le.mu.Lock()
defer le.mu.Unlock()
return le.leaseMap[id]
}
func (le *lessor) initAndRecover() {
tx := le.b.BatchTx()
tx.Lock()
tx.UnsafeCreateBucket(leaseBucketName)
_, vs := tx.UnsafeRange(leaseBucketName, int64ToBytes(0), int64ToBytes(math.MaxInt64), 0)
// TODO: copy vs and do decoding outside tx lock if lock contention becomes an issue.
for i := range vs {
var lpb leasepb.Lease
err := lpb.Unmarshal(vs[i])
if err != nil {
tx.Unlock()
panic("failed to unmarshal lease proto item")
}
ID := LeaseID(lpb.ID)
le.leaseMap[ID] = &Lease{
ID: ID,
TTL: lpb.TTL,
// itemSet will be filled in when recover key-value pairs
// set expiry to forever, refresh when promoted
itemSet: make(map[LeaseItem]struct{}),
expiry: forever,
}
}
tx.Unlock()
le.b.ForceCommit()
}
type Lease struct {
ID LeaseID
TTL int64 // time to live in seconds
itemSet map[LeaseItem]struct{}
// expiry time in unixnano
expiry time.Time
}
func (l Lease) persistTo(b backend.Backend) {
key := int64ToBytes(int64(l.ID))
lpb := leasepb.Lease{ID: int64(l.ID), TTL: int64(l.TTL)}
val, err := lpb.Marshal()
if err != nil {
panic("failed to marshal lease proto item")
}
b.BatchTx().Lock()
b.BatchTx().UnsafePut(leaseBucketName, key, val)
b.BatchTx().Unlock()
}
func (l Lease) removeFrom(b backend.Backend) {
key := int64ToBytes(int64(l.ID))
b.BatchTx().Lock()
b.BatchTx().UnsafeDelete(leaseBucketName, key)
b.BatchTx().Unlock()
}
// refresh refreshes the expiry of the lease. It extends the expiry at least
// minLeaseTTL second.
func (l *Lease) refresh(extend time.Duration) {
if l.TTL < minLeaseTTL {
l.TTL = minLeaseTTL
}
l.expiry = time.Now().Add(extend + time.Second*time.Duration(l.TTL))
}
// forever sets the expiry of lease to be forever.
func (l *Lease) forever() {
if l.TTL < minLeaseTTL {
l.TTL = minLeaseTTL
}
l.expiry = forever
}
type LeaseItem struct {
Key string
}
func int64ToBytes(n int64) []byte {
bytes := make([]byte, 8)
binary.BigEndian.PutUint64(bytes, uint64(n))
return bytes
}
// FakeLessor is a fake implementation of Lessor interface.
// Used for testing only.
type FakeLessor struct{}
func (fl *FakeLessor) SetRangeDeleter(dr RangeDeleter) {}
func (fl *FakeLessor) Grant(id LeaseID, ttl int64) (*Lease, error) { return nil, nil }
func (fl *FakeLessor) Revoke(id LeaseID) error { return nil }
func (fl *FakeLessor) Attach(id LeaseID, items []LeaseItem) error { return nil }
func (fl *FakeLessor) Detach(id LeaseID, items []LeaseItem) error { return nil }
func (fl *FakeLessor) Promote(extend time.Duration) {}
func (fl *FakeLessor) Demote() {}
func (fl *FakeLessor) Renew(id LeaseID) (int64, error) { return 10, nil }
func (le *FakeLessor) Lookup(id LeaseID) *Lease { return nil }
func (fl *FakeLessor) ExpiredLeasesC() <-chan []*Lease { return nil }
func (fl *FakeLessor) Recover(b backend.Backend, rd RangeDeleter) {}
func (fl *FakeLessor) Stop() {}