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// Copyright 2016 Apcera Inc. All rights reserved.
// Package stan is a Go client for the NATS Streaming messaging system (https://nats.io).
package stan
import (
"errors"
"sync"
"time"
"github.com/nats-io/go-nats"
"github.com/nats-io/go-nats-streaming/pb"
)
const (
// DefaultAckWait indicates how long the server should wait for an ACK before resending a message
DefaultAckWait = 30 * time.Second
// DefaultMaxInflight indicates how many messages with outstanding ACKs the server can send
DefaultMaxInflight = 1024
)
// Msg is the client defined message, which includes proto, then back link to subscription.
type Msg struct {
pb.MsgProto // MsgProto: Seq, Subject, Reply[opt], Data, Timestamp, CRC32[opt]
Sub Subscription
}
// Subscriptions and Options
// Subscription represents a subscription within the NATS Streaming cluster. Subscriptions
// will be rate matched and follow at-least delivery semantics.
type Subscription interface {
ClearMaxPending() error
Delivered() (int64, error)
Dropped() (int, error)
IsValid() bool
MaxPending() (int, int, error)
Pending() (int, int, error)
PendingLimits() (int, int, error)
SetPendingLimits(msgLimit, bytesLimit int) error
// Unsubscribe removes interest in the subscription.
// For durables, it means that the durable interest is also removed from
// the server. Restarting a durable with the same name will not resume
// the subscription, it will be considered a new one.
Unsubscribe() error
// Close removes this subscriber from the server, but unlike Unsubscribe(),
// the durable interest is not removed. If the client has connected to a server
// for which this feature is not available, Close() will return a ErrNoServerSupport
// error.
Close() error
}
// A subscription represents a subscription to a stan cluster.
type subscription struct {
sync.RWMutex
sc *conn
subject string
qgroup string
inbox string
ackInbox string
inboxSub *nats.Subscription
opts SubscriptionOptions
cb MsgHandler
}
// SubscriptionOption is a function on the options for a subscription.
type SubscriptionOption func(*SubscriptionOptions) error
// MsgHandler is a callback function that processes messages delivered to
// asynchronous subscribers.
type MsgHandler func(msg *Msg)
// SubscriptionOptions are used to control the Subscription's behavior.
type SubscriptionOptions struct {
// DurableName, if set will survive client restarts.
DurableName string
// Controls the number of messages the cluster will have inflight without an ACK.
MaxInflight int
// Controls the time the cluster will wait for an ACK for a given message.
AckWait time.Duration
// StartPosition enum from proto.
StartAt pb.StartPosition
// Optional start sequence number.
StartSequence uint64
// Optional start time.
StartTime time.Time
// Option to do Manual Acks
ManualAcks bool
}
// DefaultSubscriptionOptions are the default subscriptions' options
var DefaultSubscriptionOptions = SubscriptionOptions{
MaxInflight: DefaultMaxInflight,
AckWait: DefaultAckWait,
}
// MaxInflight is an Option to set the maximum number of messages the cluster will send
// without an ACK.
func MaxInflight(m int) SubscriptionOption {
return func(o *SubscriptionOptions) error {
o.MaxInflight = m
return nil
}
}
// AckWait is an Option to set the timeout for waiting for an ACK from the cluster's
// point of view for delivered messages.
func AckWait(t time.Duration) SubscriptionOption {
return func(o *SubscriptionOptions) error {
o.AckWait = t
return nil
}
}
// StartAt sets the desired start position for the message stream.
func StartAt(sp pb.StartPosition) SubscriptionOption {
return func(o *SubscriptionOptions) error {
o.StartAt = sp
return nil
}
}
// StartAtSequence sets the desired start sequence position and state.
func StartAtSequence(seq uint64) SubscriptionOption {
return func(o *SubscriptionOptions) error {
o.StartAt = pb.StartPosition_SequenceStart
o.StartSequence = seq
return nil
}
}
// StartAtTime sets the desired start time position and state.
func StartAtTime(start time.Time) SubscriptionOption {
return func(o *SubscriptionOptions) error {
o.StartAt = pb.StartPosition_TimeDeltaStart
o.StartTime = start
return nil
}
}
// StartAtTimeDelta sets the desired start time position and state using the delta.
func StartAtTimeDelta(ago time.Duration) SubscriptionOption {
return func(o *SubscriptionOptions) error {
o.StartAt = pb.StartPosition_TimeDeltaStart
o.StartTime = time.Now().Add(-ago)
return nil
}
}
// StartWithLastReceived is a helper function to set start position to last received.
func StartWithLastReceived() SubscriptionOption {
return func(o *SubscriptionOptions) error {
o.StartAt = pb.StartPosition_LastReceived
return nil
}
}
// DeliverAllAvailable will deliver all messages available.
func DeliverAllAvailable() SubscriptionOption {
return func(o *SubscriptionOptions) error {
o.StartAt = pb.StartPosition_First
return nil
}
}
// SetManualAckMode will allow clients to control their own acks to delivered messages.
func SetManualAckMode() SubscriptionOption {
return func(o *SubscriptionOptions) error {
o.ManualAcks = true
return nil
}
}
// DurableName sets the DurableName for the subcriber.
func DurableName(name string) SubscriptionOption {
return func(o *SubscriptionOptions) error {
o.DurableName = name
return nil
}
}
// Subscribe will perform a subscription with the given options to the NATS Streaming cluster.
func (sc *conn) Subscribe(subject string, cb MsgHandler, options ...SubscriptionOption) (Subscription, error) {
return sc.subscribe(subject, "", cb, options...)
}
// QueueSubscribe will perform a queue subscription with the given options to the NATS Streaming cluster.
func (sc *conn) QueueSubscribe(subject, qgroup string, cb MsgHandler, options ...SubscriptionOption) (Subscription, error) {
return sc.subscribe(subject, qgroup, cb, options...)
}
// subscribe will perform a subscription with the given options to the NATS Streaming cluster.
func (sc *conn) subscribe(subject, qgroup string, cb MsgHandler, options ...SubscriptionOption) (Subscription, error) {
sub := &subscription{subject: subject, qgroup: qgroup, inbox: nats.NewInbox(), cb: cb, sc: sc, opts: DefaultSubscriptionOptions}
for _, opt := range options {
if err := opt(&sub.opts); err != nil {
return nil, err
}
}
sc.Lock()
if sc.nc == nil {
sc.Unlock()
return nil, ErrConnectionClosed
}
// Register subscription.
sc.subMap[sub.inbox] = sub
nc := sc.nc
sc.Unlock()
// Hold lock throughout.
sub.Lock()
defer sub.Unlock()
// Listen for actual messages.
nsub, err := nc.Subscribe(sub.inbox, sc.processMsg)
if err != nil {
return nil, err
}
sub.inboxSub = nsub
// Create a subscription request
// FIXME(dlc) add others.
sr := &pb.SubscriptionRequest{
ClientID: sc.clientID,
Subject: subject,
QGroup: qgroup,
Inbox: sub.inbox,
MaxInFlight: int32(sub.opts.MaxInflight),
AckWaitInSecs: int32(sub.opts.AckWait / time.Second),
StartPosition: sub.opts.StartAt,
DurableName: sub.opts.DurableName,
}
// Conditionals
switch sr.StartPosition {
case pb.StartPosition_TimeDeltaStart:
sr.StartTimeDelta = time.Now().UnixNano() - sub.opts.StartTime.UnixNano()
case pb.StartPosition_SequenceStart:
sr.StartSequence = sub.opts.StartSequence
}
b, _ := sr.Marshal()
reply, err := sc.nc.Request(sc.subRequests, b, sc.opts.ConnectTimeout)
if err != nil {
sub.inboxSub.Unsubscribe()
if err == nats.ErrTimeout {
err = ErrSubReqTimeout
}
return nil, err
}
r := &pb.SubscriptionResponse{}
if err := r.Unmarshal(reply.Data); err != nil {
sub.inboxSub.Unsubscribe()
return nil, err
}
if r.Error != "" {
sub.inboxSub.Unsubscribe()
return nil, errors.New(r.Error)
}
sub.ackInbox = r.AckInbox
return sub, nil
}
// ClearMaxPending resets the maximums seen so far.
func (sub *subscription) ClearMaxPending() error {
sub.Lock()
defer sub.Unlock()
if sub.inboxSub == nil {
return ErrBadSubscription
}
return sub.inboxSub.ClearMaxPending()
}
// Delivered returns the number of delivered messages for this subscription.
func (sub *subscription) Delivered() (int64, error) {
sub.Lock()
defer sub.Unlock()
if sub.inboxSub == nil {
return -1, ErrBadSubscription
}
return sub.inboxSub.Delivered()
}
// Dropped returns the number of known dropped messages for this subscription.
// This will correspond to messages dropped by violations of PendingLimits. If
// the server declares the connection a SlowConsumer, this number may not be
// valid.
func (sub *subscription) Dropped() (int, error) {
sub.Lock()
defer sub.Unlock()
if sub.inboxSub == nil {
return -1, ErrBadSubscription
}
return sub.inboxSub.Dropped()
}
// IsValid returns a boolean indicating whether the subscription
// is still active. This will return false if the subscription has
// already been closed.
func (sub *subscription) IsValid() bool {
sub.Lock()
defer sub.Unlock()
if sub.inboxSub == nil {
return false
}
return sub.inboxSub.IsValid()
}
// MaxPending returns the maximum number of queued messages and queued bytes seen so far.
func (sub *subscription) MaxPending() (int, int, error) {
sub.Lock()
defer sub.Unlock()
if sub.inboxSub == nil {
return -1, -1, ErrBadSubscription
}
return sub.inboxSub.MaxPending()
}
// Pending returns the number of queued messages and queued bytes in the client for this subscription.
func (sub *subscription) Pending() (int, int, error) {
sub.Lock()
defer sub.Unlock()
if sub.inboxSub == nil {
return -1, -1, ErrBadSubscription
}
return sub.inboxSub.Pending()
}
// PendingLimits returns the current limits for this subscription.
// If no error is returned, a negative value indicates that the
// given metric is not limited.
func (sub *subscription) PendingLimits() (int, int, error) {
sub.Lock()
defer sub.Unlock()
if sub.inboxSub == nil {
return -1, -1, ErrBadSubscription
}
return sub.inboxSub.PendingLimits()
}
// SetPendingLimits sets the limits for pending msgs and bytes for this subscription.
// Zero is not allowed. Any negative value means that the given metric is not limited.
func (sub *subscription) SetPendingLimits(msgLimit, bytesLimit int) error {
sub.Lock()
defer sub.Unlock()
if sub.inboxSub == nil {
return ErrBadSubscription
}
return sub.inboxSub.SetPendingLimits(msgLimit, bytesLimit)
}
// closeOrUnsubscribe performs either close or unsubsribe based on
// given boolean.
func (sub *subscription) closeOrUnsubscribe(doClose bool) error {
if sub == nil {
return ErrBadSubscription
}
sub.Lock()
sc := sub.sc
if sc == nil {
// Already closed.
sub.Unlock()
return ErrBadSubscription
}
sub.sc = nil
sub.inboxSub.Unsubscribe()
sub.inboxSub = nil
sub.Unlock()
if sc == nil {
return ErrBadSubscription
}
sc.Lock()
if sc.nc == nil {
sc.Unlock()
return ErrConnectionClosed
}
delete(sc.subMap, sub.inbox)
reqSubject := sc.unsubRequests
if doClose {
reqSubject = sc.subCloseRequests
if reqSubject == "" {
sc.Unlock()
return ErrNoServerSupport
}
}
// Snapshot connection to avoid data race, since the connection may be
// closing while we try to send the request
nc := sc.nc
sc.Unlock()
usr := &pb.UnsubscribeRequest{
ClientID: sc.clientID,
Subject: sub.subject,
Inbox: sub.ackInbox,
}
b, _ := usr.Marshal()
reply, err := nc.Request(reqSubject, b, sc.opts.ConnectTimeout)
if err != nil {
if err == nats.ErrTimeout {
if doClose {
return ErrCloseReqTimeout
}
return ErrUnsubReqTimeout
}
return err
}
r := &pb.SubscriptionResponse{}
if err := r.Unmarshal(reply.Data); err != nil {
return err
}
if r.Error != "" {
return errors.New(r.Error)
}
return nil
}
// Unsubscribe implements the Subscription interface
func (sub *subscription) Unsubscribe() error {
return sub.closeOrUnsubscribe(false)
}
// Close implements the Subscription interface
func (sub *subscription) Close() error {
return sub.closeOrUnsubscribe(true)
}
// Ack manually acknowledges a message.
// The subscriber had to be created with SetManualAckMode() option.
func (msg *Msg) Ack() error {
if msg == nil {
return ErrNilMsg
}
// Look up subscription
sub := msg.Sub.(*subscription)
if sub == nil {
return ErrBadSubscription
}
sub.RLock()
ackSubject := sub.ackInbox
isManualAck := sub.opts.ManualAcks
sc := sub.sc
sub.RUnlock()
// Check for error conditions.
if sc == nil {
return ErrBadSubscription
}
// Get nc from the connection (needs locking to avoid race)
sc.RLock()
nc := sc.nc
sc.RUnlock()
if nc == nil {
return ErrBadConnection
}
if !isManualAck {
return ErrManualAck
}
// Ack here.
ack := &pb.Ack{Subject: msg.Subject, Sequence: msg.Sequence}
b, _ := ack.Marshal()
return nc.Publish(ackSubject, b)
}