mediocre-go-lib/mdb/mpubsub/pubsub.go

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// Package mpubsub implements connecting to Google's PubSub service and
// simplifying a number of interactions with it.
package mpubsub
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import (
"context"
"errors"
"sync"
"time"
"cloud.google.com/go/pubsub"
"github.com/mediocregopher/mediocre-go-lib/mctx"
"github.com/mediocregopher/mediocre-go-lib/mdb"
"github.com/mediocregopher/mediocre-go-lib/merr"
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"github.com/mediocregopher/mediocre-go-lib/mlog"
"github.com/mediocregopher/mediocre-go-lib/mrun"
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oldctx "golang.org/x/net/context"
"google.golang.org/grpc/codes"
"google.golang.org/grpc/status"
)
// TODO Consume (and probably BatchConsume) don't properly handle the Client
// being closed.
func isErrAlreadyExists(err error) bool {
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if err == nil {
return false
}
s, ok := status.FromError(err)
return ok && s.Code() == codes.AlreadyExists
}
// Message aliases the type in the official driver
type Message = pubsub.Message
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// PubSub is a wrapper around a pubsub client providing more functionality.
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type PubSub struct {
*pubsub.Client
gce *mdb.GCE
ctx context.Context
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}
// MNew returns a PubSub instance which will be initialized and configured when
// the start event is triggered on the returned Context (see mrun.Start). The
// PubSub instance will have Close called on it when the stop event is triggered
// on the returned Context(see mrun.Stop).
//
// gce is optional and can be passed in if there's an existing gce object which
// should be used, otherwise a new one will be created with mdb.MGCE.
func MNew(ctx context.Context, gce *mdb.GCE) (context.Context, *PubSub) {
if gce == nil {
ctx, gce = mdb.MGCE(ctx, "")
}
ps := &PubSub{
gce: gce,
ctx: mctx.NewChild(ctx, "pubsub"),
}
// TODO the equivalent functionality as here will be added with annotations
// ps.log.SetKV(ps)
ps.ctx = mrun.OnStart(ps.ctx, func(innerCtx context.Context) error {
mlog.Info(ps.ctx, "connecting to pubsub")
var err error
ps.Client, err = pubsub.NewClient(innerCtx, ps.gce.Project, ps.gce.ClientOptions()...)
return merr.WithKV(err, ps.KV())
})
ps.ctx = mrun.OnStop(ps.ctx, func(context.Context) error {
return ps.Client.Close()
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})
return mctx.WithChild(ctx, ps.ctx), ps
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}
// KV implements the mlog.KVer interface
func (ps *PubSub) KV() map[string]interface{} {
return ps.gce.KV()
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}
// Topic provides methods around a particular topic in PubSub
type Topic struct {
ps *PubSub
topic *pubsub.Topic
name string
}
// Topic returns, after potentially creating, a topic of the given name
func (ps *PubSub) Topic(ctx context.Context, name string, create bool) (*Topic, error) {
t := &Topic{
ps: ps,
name: name,
}
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var err error
if create {
t.topic, err = ps.Client.CreateTopic(ctx, name)
if isErrAlreadyExists(err) {
t.topic = ps.Client.Topic(name)
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} else if err != nil {
return nil, merr.WithKV(err, t.KV())
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}
} else {
t.topic = ps.Client.Topic(name)
if exists, err := t.topic.Exists(ctx); err != nil {
return nil, merr.WithKV(err, t.KV())
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} else if !exists {
err := merr.New("topic dne")
return nil, merr.WithKV(err, t.KV())
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}
}
return t, nil
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}
// KV implements the mlog.KVer interface
func (t *Topic) KV() map[string]interface{} {
kv := t.ps.KV()
kv["topicName"] = t.name
return kv
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}
// Publish publishes a message with the given data as its body to the Topic
func (t *Topic) Publish(ctx context.Context, data []byte) error {
_, err := t.topic.Publish(ctx, &Message{Data: data}).Get(ctx)
if err != nil {
return merr.WithKV(err, t.KV())
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}
return nil
}
// Subscription provides methods around a subscription to a topic in PubSub
type Subscription struct {
topic *Topic
sub *pubsub.Subscription
name string
// only used in tests to trigger batch processing
batchTestTrigger chan bool
}
// Subscription returns a Subscription instance, after potentially creating it,
// for the Topic
func (t *Topic) Subscription(ctx context.Context, name string, create bool) (*Subscription, error) {
name = t.name + "_" + name
s := &Subscription{
topic: t,
name: name,
}
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var err error
if create {
s.sub, err = t.ps.CreateSubscription(ctx, name, pubsub.SubscriptionConfig{
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Topic: t.topic,
})
if isErrAlreadyExists(err) {
s.sub = t.ps.Subscription(name)
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} else if err != nil {
return nil, merr.WithKV(err, s.KV())
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}
} else {
s.sub = t.ps.Subscription(name)
if exists, err := s.sub.Exists(ctx); err != nil {
return nil, merr.WithKV(err, s.KV())
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} else if !exists {
err := merr.New("sub dne")
return nil, merr.WithKV(err, s.KV())
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}
}
return s, nil
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}
// KV implements the mlog.KVer interface
func (s *Subscription) KV() map[string]interface{} {
kv := s.topic.KV()
kv["subName"] = s.name
return kv
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}
// ConsumerFunc is a function which messages being consumed will be passed. The
// returned boolean and returned error are independent. If the bool is false the
// message will be returned to the queue for retrying later. If an error is
// returned it will be logged.
//
// The Context will be canceled once the deadline has been reached (as set when
// Consume is called).
type ConsumerFunc func(context.Context, *Message) (bool, error)
// ConsumerOpts are options which effect the behavior of a Consume method call
type ConsumerOpts struct {
// Default 30s. The timeout each message has to complete before its context
// is cancelled and the server re-publishes it
Timeout time.Duration
// Default 1. Number of concurrent messages to consume at a time
Concurrent int
// TODO DisableBatchAutoTrigger
// Currently there is no auto-trigger behavior, batches only get processed
// on a dumb ticker. This is necessary for the way I plan to have the
// datastore writing, but it's not the expected behavior of a batch getting
// triggered everytime <Concurrent> messages come in.
}
func (co ConsumerOpts) withDefaults() ConsumerOpts {
if co.Timeout == 0 {
co.Timeout = 30 * time.Second
}
if co.Concurrent == 0 {
co.Concurrent = 1
}
return co
}
// Consume uses the given ConsumerFunc and ConsumerOpts to process messages off
// the Subscription
func (s *Subscription) Consume(ctx context.Context, fn ConsumerFunc, opts ConsumerOpts) {
opts = opts.withDefaults()
s.sub.ReceiveSettings.MaxExtension = opts.Timeout
s.sub.ReceiveSettings.MaxOutstandingMessages = opts.Concurrent
octx := oldctx.Context(ctx)
for {
err := s.sub.Receive(octx, func(octx oldctx.Context, msg *Message) {
innerCtx, cancel := oldctx.WithTimeout(octx, opts.Timeout)
defer cancel()
ok, err := fn(context.Context(innerCtx), msg)
if err != nil {
mlog.Warn(s.topic.ps.ctx, "error consuming pubsub message", s, merr.KV(err))
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}
if ok {
msg.Ack()
} else {
msg.Nack()
}
})
if octx.Err() == context.Canceled || err == nil {
return
} else if err != nil {
mlog.Warn(s.topic.ps.ctx, "error consuming from pubsub", s, merr.KV(err))
time.Sleep(1 * time.Second)
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}
}
}
// BatchConsumerFunc is similar to ConsumerFunc, except it takes in a batch of
// multiple messages at once. If the boolean returned will apply to every
// message in the batch.
type BatchConsumerFunc func(context.Context, []*Message) (bool, error)
// BatchGroupFunc is an optional param to BatchConsume which allows for grouping
// messages into separate groups. Each message received is attempted to be
// placed in a group. Grouping is done by calling this function with the
// received message and a random message from a group, and if this function
// returns true then the received message is placed into that group. If this
// returns false for all groups then a new group is created.
//
// This function should be a pure function.
type BatchGroupFunc func(a, b *Message) bool
// BatchConsume is like Consume, except it groups incoming messages together,
// allowing them to be processed in batches instead of individually.
//
// BatchConsume first collects messages internally for half the
// ConsumerOpts.Timeout value. Once that time has passed it will group all
// messages based on the BatchGroupFunc (if nil then all collected messages form
// one big group). The BatchConsumerFunc is called for each group, with the
// context passed in having a timeout of ConsumerOpts.Timeout/2.
//
// The ConsumerOpts.Concurrent value determines the maximum number of messages
// collected during the first section of the process (before BatchConsumerFn is
// called).
func (s *Subscription) BatchConsume(
ctx context.Context,
fn BatchConsumerFunc, gfn BatchGroupFunc,
opts ConsumerOpts,
) {
opts = opts.withDefaults()
type promise struct {
msg *Message
retCh chan bool // must be buffered by one
}
var groups [][]promise
var groupsL sync.Mutex
groupProm := func(prom promise) {
groupsL.Lock()
defer groupsL.Unlock()
for i := range groups {
if gfn == nil || gfn(groups[i][0].msg, prom.msg) {
groups[i] = append(groups[i], prom)
return
}
}
groups = append(groups, []promise{prom})
}
wg := new(sync.WaitGroup)
defer wg.Wait()
processGroups := func() {
groupsL.Lock()
thisGroups := groups
groups = nil
groupsL.Unlock()
// we do a waitgroup chain so as to properly handle the cancel
// function. We hold wg (by adding one) until all routines spawned
// here have finished, and once they have release wg and cancel
thisCtx, cancel := context.WithTimeout(ctx, opts.Timeout/2)
thisWG := new(sync.WaitGroup)
thisWG.Add(1)
wg.Add(1)
go func() {
thisWG.Wait()
cancel()
wg.Done()
}()
for i := range thisGroups {
thisGroup := thisGroups[i]
thisWG.Add(1)
go func() {
defer thisWG.Done()
msgs := make([]*Message, len(thisGroup))
for i := range thisGroup {
msgs[i] = thisGroup[i].msg
}
ret, err := fn(thisCtx, msgs)
if err != nil {
mlog.Warn(s.topic.ps.ctx, "error consuming pubsub batch messages", s, merr.KV(err))
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}
for i := range thisGroup {
thisGroup[i].retCh <- ret // retCh is buffered
}
}()
}
thisWG.Done()
}
wg.Add(1)
go func() {
defer wg.Done()
tick := time.NewTicker(opts.Timeout / 2)
defer tick.Stop()
for {
select {
case <-tick.C:
processGroups()
case <-s.batchTestTrigger:
processGroups()
case <-ctx.Done():
return
}
}
}()
s.Consume(ctx, func(ctx context.Context, msg *Message) (bool, error) {
retCh := make(chan bool, 1)
groupProm(promise{msg: msg, retCh: retCh})
select {
case ret := <-retCh:
return ret, nil
case <-ctx.Done():
return false, errors.New("reading from batch grouping process timed out")
}
}, opts)
}