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js.go
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// Copyright 2020-2021 The NATS 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 nats
import (
"bytes"
"context"
"crypto/sha256"
"encoding/json"
"errors"
"fmt"
"math/rand"
"strconv"
"strings"
"sync"
"sync/atomic"
"time"
"github.com/nats-io/nuid"
)
// Request API subjects for JetStream.
const (
// defaultAPIPrefix is the default prefix for the JetStream API.
defaultAPIPrefix = "$JS.API."
// jsDomainT is used to create JetStream API prefix by specifying only Domain
jsDomainT = "$JS.%s.API."
// apiAccountInfo is for obtaining general information about JetStream.
apiAccountInfo = "INFO"
// apiConsumerCreateT is used to create consumers.
apiConsumerCreateT = "CONSUMER.CREATE.%s"
// apiDurableCreateT is used to create durable consumers.
apiDurableCreateT = "CONSUMER.DURABLE.CREATE.%s.%s"
// apiConsumerInfoT is used to create consumers.
apiConsumerInfoT = "CONSUMER.INFO.%s.%s"
// apiRequestNextT is the prefix for the request next message(s) for a consumer in worker/pull mode.
apiRequestNextT = "CONSUMER.MSG.NEXT.%s.%s"
// apiDeleteConsumerT is used to delete consumers.
apiConsumerDeleteT = "CONSUMER.DELETE.%s.%s"
// apiConsumerListT is used to return all detailed consumer information
apiConsumerListT = "CONSUMER.LIST.%s"
// apiConsumerNamesT is used to return a list with all consumer names for the stream.
apiConsumerNamesT = "CONSUMER.NAMES.%s"
// apiStreams can lookup a stream by subject.
apiStreams = "STREAM.NAMES"
// apiStreamCreateT is the endpoint to create new streams.
apiStreamCreateT = "STREAM.CREATE.%s"
// apiStreamInfoT is the endpoint to get information on a stream.
apiStreamInfoT = "STREAM.INFO.%s"
// apiStreamUpdate is the endpoint to update existing streams.
apiStreamUpdateT = "STREAM.UPDATE.%s"
// apiStreamDeleteT is the endpoint to delete streams.
apiStreamDeleteT = "STREAM.DELETE.%s"
// apiPurgeStreamT is the endpoint to purge streams.
apiStreamPurgeT = "STREAM.PURGE.%s"
// apiStreamListT is the endpoint that will return all detailed stream information
apiStreamList = "STREAM.LIST"
// apiMsgGetT is the endpoint to get a message.
apiMsgGetT = "STREAM.MSG.GET.%s"
// apiMsgDeleteT is the endpoint to remove a message.
apiMsgDeleteT = "STREAM.MSG.DELETE.%s"
)
// JetStream allows persistent messaging through JetStream.
type JetStream interface {
// Publish publishes a message to JetStream.
Publish(subj string, data []byte, opts ...PubOpt) (*PubAck, error)
// PublishMsg publishes a Msg to JetStream.
PublishMsg(m *Msg, opts ...PubOpt) (*PubAck, error)
// PublishAsync publishes a message to JetStream and returns a PubAckFuture.
// The data should not be changed until the PubAckFuture has been processed.
PublishAsync(subj string, data []byte, opts ...PubOpt) (PubAckFuture, error)
// PublishMsgAsync publishes a Msg to JetStream and returms a PubAckFuture.
// The message should not be changed until the PubAckFuture has been processed.
PublishMsgAsync(m *Msg, opts ...PubOpt) (PubAckFuture, error)
// PublishAsyncPending returns the number of async publishes outstanding for this context.
PublishAsyncPending() int
// PublishAsyncComplete returns a channel that will be closed when all outstanding messages are ack'd.
PublishAsyncComplete() <-chan struct{}
// Subscribe creates an async Subscription for JetStream.
Subscribe(subj string, cb MsgHandler, opts ...SubOpt) (*Subscription, error)
// SubscribeSync creates a Subscription that can be used to process messages synchronously.
SubscribeSync(subj string, opts ...SubOpt) (*Subscription, error)
// ChanSubscribe creates channel based Subscription.
ChanSubscribe(subj string, ch chan *Msg, opts ...SubOpt) (*Subscription, error)
// ChanQueueSubscribe creates channel based Subscription with a queue group.
ChanQueueSubscribe(subj, queue string, ch chan *Msg, opts ...SubOpt) (*Subscription, error)
// QueueSubscribe creates a Subscription with a queue group.
QueueSubscribe(subj, queue string, cb MsgHandler, opts ...SubOpt) (*Subscription, error)
// QueueSubscribeSync creates a Subscription with a queue group that can be used to process messages synchronously.
QueueSubscribeSync(subj, queue string, opts ...SubOpt) (*Subscription, error)
// PullSubscribe creates a Subscription that can fetch messages.
PullSubscribe(subj, durable string, opts ...SubOpt) (*Subscription, error)
}
// JetStreamContext allows JetStream messaging and stream management.
type JetStreamContext interface {
JetStream
JetStreamManager
}
// js is an internal struct from a JetStreamContext.
type js struct {
nc *Conn
opts *jsOpts
// For async publish context.
mu sync.RWMutex
rpre string
rsub *Subscription
pafs map[string]*pubAckFuture
stc chan struct{}
dch chan struct{}
rr *rand.Rand
}
type jsOpts struct {
ctx context.Context
// For importing JetStream from other accounts.
pre string
// Amount of time to wait for API requests.
wait time.Duration
// For async publish error handling.
aecb MsgErrHandler
// Maximum in flight.
maxap int
}
const (
defaultRequestWait = 5 * time.Second
defaultAccountCheck = 20 * time.Second
)
// JetStream returns a JetStreamContext for messaging and stream management.
// Errors are only returned if inconsistent options are provided.
func (nc *Conn) JetStream(opts ...JSOpt) (JetStreamContext, error) {
js := &js{
nc: nc,
opts: &jsOpts{
pre: defaultAPIPrefix,
wait: defaultRequestWait,
},
}
for _, opt := range opts {
if err := opt.configureJSContext(js.opts); err != nil {
return nil, err
}
}
return js, nil
}
// JSOpt configures a JetStreamContext.
type JSOpt interface {
configureJSContext(opts *jsOpts) error
}
// jsOptFn configures an option for the JetStreamContext.
type jsOptFn func(opts *jsOpts) error
func (opt jsOptFn) configureJSContext(opts *jsOpts) error {
return opt(opts)
}
// Domain changes the domain part of JetSteam API prefix.
func Domain(domain string) JSOpt {
return APIPrefix(fmt.Sprintf(jsDomainT, domain))
}
// APIPrefix changes the default prefix used for the JetStream API.
func APIPrefix(pre string) JSOpt {
return jsOptFn(func(js *jsOpts) error {
js.pre = pre
if !strings.HasSuffix(js.pre, ".") {
js.pre = js.pre + "."
}
return nil
})
}
func (js *js) apiSubj(subj string) string {
if js.opts.pre == _EMPTY_ {
return subj
}
var b strings.Builder
b.WriteString(js.opts.pre)
b.WriteString(subj)
return b.String()
}
// PubOpt configures options for publishing JetStream messages.
type PubOpt interface {
configurePublish(opts *pubOpts) error
}
// pubOptFn is a function option used to configure JetStream Publish.
type pubOptFn func(opts *pubOpts) error
func (opt pubOptFn) configurePublish(opts *pubOpts) error {
return opt(opts)
}
type pubOpts struct {
ctx context.Context
ttl time.Duration
id string
lid string // Expected last msgId
str string // Expected stream name
seq uint64 // Expected last sequence
}
// pubAckResponse is the ack response from the JetStream API when publishing a message.
type pubAckResponse struct {
apiResponse
*PubAck
}
// PubAck is an ack received after successfully publishing a message.
type PubAck struct {
Stream string `json:"stream"`
Sequence uint64 `json:"seq"`
Duplicate bool `json:"duplicate,omitempty"`
}
// Headers for published messages.
const (
MsgIdHdr = "Nats-Msg-Id"
ExpectedStreamHdr = "Nats-Expected-Stream"
ExpectedLastSeqHdr = "Nats-Expected-Last-Sequence"
ExpectedLastMsgIdHdr = "Nats-Expected-Last-Msg-Id"
)
// PublishMsg publishes a Msg to a stream from JetStream.
func (js *js) PublishMsg(m *Msg, opts ...PubOpt) (*PubAck, error) {
var o pubOpts
if len(opts) > 0 {
if m.Header == nil {
m.Header = Header{}
}
for _, opt := range opts {
if err := opt.configurePublish(&o); err != nil {
return nil, err
}
}
}
// Check for option collisions. Right now just timeout and context.
if o.ctx != nil && o.ttl != 0 {
return nil, ErrContextAndTimeout
}
if o.ttl == 0 && o.ctx == nil {
o.ttl = js.opts.wait
}
if o.id != _EMPTY_ {
m.Header.Set(MsgIdHdr, o.id)
}
if o.lid != _EMPTY_ {
m.Header.Set(ExpectedLastMsgIdHdr, o.lid)
}
if o.str != _EMPTY_ {
m.Header.Set(ExpectedStreamHdr, o.str)
}
if o.seq > 0 {
m.Header.Set(ExpectedLastSeqHdr, strconv.FormatUint(o.seq, 10))
}
var resp *Msg
var err error
if o.ttl > 0 {
resp, err = js.nc.RequestMsg(m, time.Duration(o.ttl))
} else {
resp, err = js.nc.RequestMsgWithContext(o.ctx, m)
}
if err != nil {
if err == ErrNoResponders {
err = ErrNoStreamResponse
}
return nil, err
}
var pa pubAckResponse
if err := json.Unmarshal(resp.Data, &pa); err != nil {
return nil, ErrInvalidJSAck
}
if pa.Error != nil {
return nil, fmt.Errorf("nats: %s", pa.Error.Description)
}
if pa.PubAck == nil || pa.PubAck.Stream == _EMPTY_ {
return nil, ErrInvalidJSAck
}
return pa.PubAck, nil
}
// Publish publishes a message to a stream from JetStream.
func (js *js) Publish(subj string, data []byte, opts ...PubOpt) (*PubAck, error) {
return js.PublishMsg(&Msg{Subject: subj, Data: data}, opts...)
}
// PubAckFuture is a future for a PubAck.
type PubAckFuture interface {
// Ok returns a receive only channel that can be used to get a PubAck.
Ok() <-chan *PubAck
// Err returns a receive only channel that can be used to get the error from an async publish.
Err() <-chan error
// Msg returns the message that was sent to the server.
Msg() *Msg
}
type pubAckFuture struct {
js *js
msg *Msg
pa *PubAck
st time.Time
err error
errCh chan error
doneCh chan *PubAck
}
func (paf *pubAckFuture) Ok() <-chan *PubAck {
paf.js.mu.Lock()
defer paf.js.mu.Unlock()
if paf.doneCh == nil {
paf.doneCh = make(chan *PubAck, 1)
if paf.pa != nil {
paf.doneCh <- paf.pa
}
}
return paf.doneCh
}
func (paf *pubAckFuture) Err() <-chan error {
paf.js.mu.Lock()
defer paf.js.mu.Unlock()
if paf.errCh == nil {
paf.errCh = make(chan error, 1)
if paf.err != nil {
paf.errCh <- paf.err
}
}
return paf.errCh
}
func (paf *pubAckFuture) Msg() *Msg {
paf.js.mu.RLock()
defer paf.js.mu.RUnlock()
return paf.msg
}
// pullSubscribe creates the wildcard subscription used per pull subscriber
// to make fetch requests.
func (js *js) pullSubscribe(subj string) (*Subscription, error) {
jsi := &jsSub{js: js, pull: true}
// Similar to async request handler we create a wildcard subscription for making requests,
// though we do not use the token based approach since we cannot match the response to
// the requestor due to JS subject being remapped on delivery. Instead, we just use an array
// of channels similar to how ping/pong interval is handled and send the message to the first
// available requestor via a channel.
jsi.rr = rand.New(rand.NewSource(time.Now().UnixNano()))
jsi.rpre = fmt.Sprintf("%s.", NewInbox())
sub, err := js.nc.Subscribe(fmt.Sprintf("%s*", jsi.rpre), jsi.handleFetch)
if err != nil {
return nil, err
}
jsi.psub = sub
return &Subscription{Subject: subj, conn: js.nc, typ: PullSubscription, jsi: jsi}, nil
}
// For quick token lookup etc.
const aReplyPreLen = 14
const aReplyTokensize = 6
func (js *js) newAsyncReply() string {
js.mu.Lock()
if js.rsub == nil {
// Create our wildcard reply subject.
sha := sha256.New()
sha.Write([]byte(nuid.Next()))
b := sha.Sum(nil)
for i := 0; i < aReplyTokensize; i++ {
b[i] = rdigits[int(b[i]%base)]
}
js.rpre = fmt.Sprintf("%s%s.", InboxPrefix, b[:aReplyTokensize])
sub, err := js.nc.Subscribe(fmt.Sprintf("%s*", js.rpre), js.handleAsyncReply)
if err != nil {
js.mu.Unlock()
return _EMPTY_
}
js.rsub = sub
js.rr = rand.New(rand.NewSource(time.Now().UnixNano()))
}
var sb strings.Builder
sb.WriteString(js.rpre)
rn := js.rr.Int63()
var b [aReplyTokensize]byte
for i, l := 0, rn; i < len(b); i++ {
b[i] = rdigits[l%base]
l /= base
}
sb.Write(b[:])
js.mu.Unlock()
return sb.String()
}
// registerPAF will register for a PubAckFuture.
func (js *js) registerPAF(id string, paf *pubAckFuture) (int, int) {
js.mu.Lock()
if js.pafs == nil {
js.pafs = make(map[string]*pubAckFuture)
}
paf.js = js
js.pafs[id] = paf
np := len(js.pafs)
maxap := js.opts.maxap
js.mu.Unlock()
return np, maxap
}
// Lock should be held.
func (js *js) getPAF(id string) *pubAckFuture {
if js.pafs == nil {
return nil
}
return js.pafs[id]
}
// clearPAF will remove a PubAckFuture that was registered.
func (js *js) clearPAF(id string) {
js.mu.Lock()
delete(js.pafs, id)
js.mu.Unlock()
}
// PublishAsyncPending returns how many PubAckFutures are pending.
func (js *js) PublishAsyncPending() int {
js.mu.RLock()
defer js.mu.RUnlock()
return len(js.pafs)
}
func (js *js) asyncStall() <-chan struct{} {
js.mu.Lock()
if js.stc == nil {
js.stc = make(chan struct{})
}
stc := js.stc
js.mu.Unlock()
return stc
}
// Handle an async reply from PublishAsync.
func (js *js) handleAsyncReply(m *Msg) {
if len(m.Subject) <= aReplyPreLen {
return
}
id := m.Subject[aReplyPreLen:]
js.mu.Lock()
paf := js.getPAF(id)
if paf == nil {
js.mu.Unlock()
return
}
// Remove
delete(js.pafs, id)
// Check on anyone stalled and waiting.
if js.stc != nil && len(js.pafs) < js.opts.maxap {
close(js.stc)
js.stc = nil
}
// Check on anyone one waiting on done status.
if js.dch != nil && len(js.pafs) == 0 {
dch := js.dch
js.dch = nil
// Defer here so error is processed and can be checked.
defer close(dch)
}
doErr := func(err error) {
paf.err = err
if paf.errCh != nil {
paf.errCh <- paf.err
}
cb := js.opts.aecb
js.mu.Unlock()
if cb != nil {
cb(paf.js, paf.msg, err)
}
}
// Process no responders etc.
if len(m.Data) == 0 && m.Header.Get(statusHdr) == noResponders {
doErr(ErrNoResponders)
return
}
var pa pubAckResponse
if err := json.Unmarshal(m.Data, &pa); err != nil {
doErr(ErrInvalidJSAck)
return
}
if pa.Error != nil {
doErr(fmt.Errorf("nats: %s", pa.Error.Description))
return
}
if pa.PubAck == nil || pa.PubAck.Stream == _EMPTY_ {
doErr(ErrInvalidJSAck)
return
}
// So here we have received a proper puback.
paf.pa = pa.PubAck
if paf.doneCh != nil {
paf.doneCh <- paf.pa
}
js.mu.Unlock()
}
// MsgErrHandler is used to process asynchronous errors from
// JetStream PublishAsync and PublishAsynMsg. It will return the original
// message sent to the server for possible retransmitting and the error encountered.
type MsgErrHandler func(JetStream, *Msg, error)
// PublishAsyncErrHandler sets the error handler for async publishes in JetStream.
func PublishAsyncErrHandler(cb MsgErrHandler) JSOpt {
return jsOptFn(func(js *jsOpts) error {
js.aecb = cb
return nil
})
}
// PublishAsyncMaxPending sets the maximum outstanding async publishes that can be inflight at one time.
func PublishAsyncMaxPending(max int) JSOpt {
return jsOptFn(func(js *jsOpts) error {
if max < 1 {
return errors.New("nats: max ack pending should be >= 1")
}
js.maxap = max
return nil
})
}
// PublishAsync publishes a message to JetStream and returns a PubAckFuture
func (js *js) PublishAsync(subj string, data []byte, opts ...PubOpt) (PubAckFuture, error) {
return js.PublishMsgAsync(&Msg{Subject: subj, Data: data}, opts...)
}
func (js *js) PublishMsgAsync(m *Msg, opts ...PubOpt) (PubAckFuture, error) {
var o pubOpts
if len(opts) > 0 {
if m.Header == nil {
m.Header = Header{}
}
for _, opt := range opts {
if err := opt.configurePublish(&o); err != nil {
return nil, err
}
}
}
// Timeouts and contexts do not make sense for these.
if o.ttl != 0 || o.ctx != nil {
return nil, ErrContextAndTimeout
}
// FIXME(dlc) - Make common.
if o.id != _EMPTY_ {
m.Header.Set(MsgIdHdr, o.id)
}
if o.lid != _EMPTY_ {
m.Header.Set(ExpectedLastMsgIdHdr, o.lid)
}
if o.str != _EMPTY_ {
m.Header.Set(ExpectedStreamHdr, o.str)
}
if o.seq > 0 {
m.Header.Set(ExpectedLastSeqHdr, strconv.FormatUint(o.seq, 10))
}
// Reply
if m.Reply != _EMPTY_ {
return nil, errors.New("nats: reply subject should be empty")
}
m.Reply = js.newAsyncReply()
if m.Reply == _EMPTY_ {
return nil, errors.New("nats: error creating async reply handler")
}
id := m.Reply[aReplyPreLen:]
paf := &pubAckFuture{msg: m, st: time.Now()}
numPending, maxPending := js.registerPAF(id, paf)
if maxPending > 0 && numPending >= maxPending {
select {
case <-js.asyncStall():
case <-time.After(200 * time.Millisecond):
js.clearPAF(id)
return nil, errors.New("nats: stalled with too many outstanding async published messages")
}
}
if err := js.nc.PublishMsg(m); err != nil {
js.clearPAF(id)
return nil, err
}
return paf, nil
}
// PublishAsyncComplete returns a channel that will be closed when all outstanding messages have been ack'd.
func (js *js) PublishAsyncComplete() <-chan struct{} {
js.mu.Lock()
defer js.mu.Unlock()
if js.dch == nil {
js.dch = make(chan struct{})
}
dch := js.dch
if len(js.pafs) == 0 {
close(js.dch)
js.dch = nil
}
return dch
}
// MsgId sets the message ID used for de-duplication.
func MsgId(id string) PubOpt {
return pubOptFn(func(opts *pubOpts) error {
opts.id = id
return nil
})
}
// ExpectStream sets the expected stream to respond from the publish.
func ExpectStream(stream string) PubOpt {
return pubOptFn(func(opts *pubOpts) error {
opts.str = stream
return nil
})
}
// ExpectLastSequence sets the expected sequence in the response from the publish.
func ExpectLastSequence(seq uint64) PubOpt {
return pubOptFn(func(opts *pubOpts) error {
opts.seq = seq
return nil
})
}
// ExpectLastMsgId sets the expected sequence in the response from the publish.
func ExpectLastMsgId(id string) PubOpt {
return pubOptFn(func(opts *pubOpts) error {
opts.lid = id
return nil
})
}
type ackOpts struct {
ttl time.Duration
ctx context.Context
}
// AckOpt are the options that can be passed when acknowledge a message.
type AckOpt interface {
configureAck(opts *ackOpts) error
}
// MaxWait sets the maximum amount of time we will wait for a response.
type MaxWait time.Duration
func (ttl MaxWait) configureJSContext(js *jsOpts) error {
js.wait = time.Duration(ttl)
return nil
}
func (ttl MaxWait) configurePull(opts *pullOpts) error {
opts.ttl = time.Duration(ttl)
return nil
}
// AckWait sets the maximum amount of time we will wait for an ack.
type AckWait time.Duration
func (ttl AckWait) configurePublish(opts *pubOpts) error {
opts.ttl = time.Duration(ttl)
return nil
}
func (ttl AckWait) configureSubscribe(opts *subOpts) error {
opts.cfg.AckWait = time.Duration(ttl)
return nil
}
func (ttl AckWait) configureAck(opts *ackOpts) error {
opts.ttl = time.Duration(ttl)
return nil
}
// ContextOpt is an option used to set a context.Context.
type ContextOpt struct {
context.Context
}
func (ctx ContextOpt) configureJSContext(opts *jsOpts) error {
opts.ctx = ctx
return nil
}
func (ctx ContextOpt) configurePublish(opts *pubOpts) error {
opts.ctx = ctx
return nil
}
func (ctx ContextOpt) configurePull(opts *pullOpts) error {
opts.ctx = ctx
return nil
}
func (ctx ContextOpt) configureAck(opts *ackOpts) error {
opts.ctx = ctx
return nil
}
// Context returns an option that can be used to configure a context for APIs
// that are context aware such as those part of the JetStream interface.
func Context(ctx context.Context) ContextOpt {
return ContextOpt{ctx}
}
// Subscribe
// ConsumerConfig is the configuration of a JetStream consumer.
type ConsumerConfig struct {
Durable string `json:"durable_name,omitempty"`
DeliverSubject string `json:"deliver_subject,omitempty"`
DeliverPolicy DeliverPolicy `json:"deliver_policy"`
OptStartSeq uint64 `json:"opt_start_seq,omitempty"`
OptStartTime *time.Time `json:"opt_start_time,omitempty"`
AckPolicy AckPolicy `json:"ack_policy"`
AckWait time.Duration `json:"ack_wait,omitempty"`
MaxDeliver int `json:"max_deliver,omitempty"`
FilterSubject string `json:"filter_subject,omitempty"`
ReplayPolicy ReplayPolicy `json:"replay_policy"`
RateLimit uint64 `json:"rate_limit_bps,omitempty"` // Bits per sec
SampleFrequency string `json:"sample_freq,omitempty"`
MaxWaiting int `json:"max_waiting,omitempty"`
MaxAckPending int `json:"max_ack_pending,omitempty"`
FlowControl bool `json:"flow_control,omitempty"`
Heartbeat time.Duration `json:"idle_heartbeat,omitempty"`
}
// ConsumerInfo is the info from a JetStream consumer.
type ConsumerInfo struct {
Stream string `json:"stream_name"`
Name string `json:"name"`
Created time.Time `json:"created"`
Config ConsumerConfig `json:"config"`
Delivered SequencePair `json:"delivered"`
AckFloor SequencePair `json:"ack_floor"`
NumAckPending int `json:"num_ack_pending"`
NumRedelivered int `json:"num_redelivered"`
NumWaiting int `json:"num_waiting"`
NumPending uint64 `json:"num_pending"`
Cluster *ClusterInfo `json:"cluster,omitempty"`
}
// SequencePair includes the consumer and stream sequence info from a JetStream consumer.
type SequencePair struct {
Consumer uint64 `json:"consumer_seq"`
Stream uint64 `json:"stream_seq"`
}
// nextRequest is for getting next messages for pull based consumers from JetStream.
type nextRequest struct {
Expires time.Duration `json:"expires,omitempty"`
Batch int `json:"batch,omitempty"`
NoWait bool `json:"no_wait,omitempty"`
}
// jsSub includes JetStream subscription info.
type jsSub struct {
js *js
// To setup request mux handler for pull subscribers.
mu sync.RWMutex
psub *Subscription
rpre string
rr *rand.Rand
freqs []chan *Msg
consumer string
stream string
deliver string
pull bool
durable bool
attached bool
// Heartbeats and Flow Control handling from push consumers.
hbs bool
fc bool
cmeta string
fcs map[uint64]string
}
// newFetchReply generates a unique inbox used for a fetch request.
func (jsi *jsSub) newFetchReply() string {
jsi.mu.Lock()
rpre := jsi.rpre
rn := jsi.rr.Int63()
jsi.mu.Unlock()
var sb strings.Builder
sb.WriteString(rpre)
var b [aReplyTokensize]byte
for i, l := 0, rn; i < len(b); i++ {
b[i] = rdigits[l%base]
l /= base
}
sb.Write(b[:])
return sb.String()
}
// handleFetch is delivered a message requested by pull subscribers
// when calling Fetch.
func (jsi *jsSub) handleFetch(m *Msg) {
jsi.mu.Lock()
if len(jsi.freqs) == 0 {
nc := jsi.js.nc
sub := jsi.psub
nc.mu.Lock()
errCB := nc.Opts.AsyncErrorCB
err := fmt.Errorf("nats: fetch response delivered but requestor has gone away")
if errCB != nil {
nc.ach.push(func() { errCB(nc, sub, err) })
}
nc.mu.Unlock()
jsi.mu.Unlock()
return
}
mch := jsi.freqs[0]
if len(jsi.freqs) > 1 {
jsi.freqs = append(jsi.freqs[:0], jsi.freqs[1:]...)
} else {
jsi.freqs = jsi.freqs[:0]
}
jsi.mu.Unlock()
mch <- m
}
// fetchNoWait makes a request to get a single message using no wait.
func (jsi *jsSub) fetchNoWait(ctx context.Context, subj string, payload []byte) (*Msg, error) {
nc := jsi.js.nc
m := NewMsg(subj)
m.Reply = jsi.newFetchReply()
m.Data = payload
mch := make(chan *Msg, 1)
jsi.mu.Lock()
jsi.freqs = append(jsi.freqs, mch)
jsi.mu.Unlock()
if err := nc.PublishMsg(m); err != nil {
return nil, err
}
var ok bool
var msg *Msg
select {
case msg, ok = <-mch:
if !ok {
return nil, ErrConnectionClosed
}
case <-ctx.Done():
return nil, ctx.Err()
}
return msg, nil
}
func (jsi *jsSub) unsubscribe(drainMode bool) error {
if drainMode && (jsi.durable || jsi.attached) {
// Skip deleting consumer for durables/attached
// consumers when using drain mode.
return nil
}
// Clear the extra async pull subscription used for fetch requests.
if jsi.psub != nil {
jsi.psub.Drain()
}
js := jsi.js
return js.DeleteConsumer(jsi.stream, jsi.consumer)
}
// SubOpt configures options for subscribing to JetStream consumers.
type SubOpt interface {
configureSubscribe(opts *subOpts) error
}
// subOptFn is a function option used to configure a JetStream Subscribe.
type subOptFn func(opts *subOpts) error
func (opt subOptFn) configureSubscribe(opts *subOpts) error {
return opt(opts)
}
// Subscribe will create a subscription to the appropriate stream and consumer.
func (js *js) Subscribe(subj string, cb MsgHandler, opts ...SubOpt) (*Subscription, error) {
if cb == nil {
return nil, ErrBadSubscription
}
return js.subscribe(subj, _EMPTY_, cb, nil, false, opts)
}
// SubscribeSync will create a sync subscription to the appropriate stream and consumer.
func (js *js) SubscribeSync(subj string, opts ...SubOpt) (*Subscription, error) {
mch := make(chan *Msg, js.nc.Opts.SubChanLen)
return js.subscribe(subj, _EMPTY_, nil, mch, true, opts)
}
// QueueSubscribe will create a subscription to the appropriate stream and consumer with queue semantics.
func (js *js) QueueSubscribe(subj, queue string, cb MsgHandler, opts ...SubOpt) (*Subscription, error) {
if cb == nil {
return nil, ErrBadSubscription
}
return js.subscribe(subj, queue, cb, nil, false, opts)
}
// QueueSubscribeSync will create a sync subscription to the appropriate stream and consumer with queue semantics.
func (js *js) QueueSubscribeSync(subj, queue string, opts ...SubOpt) (*Subscription, error) {
mch := make(chan *Msg, js.nc.Opts.SubChanLen)
return js.subscribe(subj, queue, nil, mch, true, opts)
}
// ChanSubscribe will create a subscription to the appropriate stream and consumer using a channel.
func (js *js) ChanSubscribe(subj string, ch chan *Msg, opts ...SubOpt) (*Subscription, error) {
return js.subscribe(subj, _EMPTY_, nil, ch, false, opts)
}
// ChanQueueSubscribe will create a subscription to the appropriate stream and consumer using a channel.
func (js *js) ChanQueueSubscribe(subj, queue string, ch chan *Msg, opts ...SubOpt) (*Subscription, error) {
return js.subscribe(subj, queue, nil, ch, false, opts)
}
// PullSubscribe creates a pull subscriber.
func (js *js) PullSubscribe(subj, durable string, opts ...SubOpt) (*Subscription, error) {
return js.subscribe(subj, _EMPTY_, nil, nil, false, append(opts, Durable(durable)))
}
func (js *js) subscribe(subj, queue string, cb MsgHandler, ch chan *Msg, isSync bool, opts []SubOpt) (*Subscription, error) {
cfg := ConsumerConfig{AckPolicy: ackPolicyNotSet}
o := subOpts{cfg: &cfg}
if len(opts) > 0 {