e4323b6047
Signed-off-by: Kris Nóva <kris@nivenly.com> |
||
---|---|---|
.. | ||
.codecov.yml | ||
.gitignore | ||
.golangci.yml | ||
CODE_OF_CONDUCT.md | ||
CONTRIBUTING.md | ||
LICENSE | ||
Makefile | ||
README.md | ||
go.mod | ||
go.sum | ||
hub.go | ||
matching.go | ||
matching_cstrie.go | ||
message.go | ||
subscriber.go |
README.md
Hub
📨 A fast enough Event Hub for go applications using publish/subscribe with support patterns on topics like rabbitMQ exchanges.
Table of Contents
Install
To install this library you can go get
it but I encourage you to always vendor your dependencies or use one of the version tags of this project.
go get -u github.com/leandro-lugaresi/hub
dep ensure --add github.com/leandro-lugaresi/hub
Usage
Subscribers
Hub provides subscribers as buffered (cap > 0
) and unbuffered (cap = 0) channels but we have two different types of subscribers:
Subscriber
this is the default subscriber and it's a blocking subscriber so if the channel is full and you try to send another message the send operation will block until the subscriber consumes some message.NonBlockingSubscriber
this subscriber will never block on the publish side but if the capacity of the channel is reached the publish operation will be lost and an alert will be trigged. This should be used only if loose data is acceptable. ie: metrics, logs
Topics
This library uses the same concept of topic exchanges on rabbiMQ, so the message name is used to find all the subscribers that match the topic, like a route.
The topic must be a list of words delimited by dots (.
) however, there is one important special case for binding keys:
*
(star) can substitute for exactly one word.
Examples & Demos
package main
import (
"fmt"
"sync"
"github.com/leandro-lugaresi/hub"
)
func main() {
h := hub.New()
var wg sync.WaitGroup
// the cap param is used to create one buffered channel with cap = 10
// If you wan an unbuferred channel use the 0 cap
sub := h.Subscribe(10, "account.login.*", "account.changepassword.*")
wg.Add(1)
go func(s hub.Subscription) {
for msg := range s.Receiver {
fmt.Printf("receive msg with topic %s and id %d\n", msg.Name, msg.Fields["id"])
}
wg.Done()
}(sub)
h.Publish(hub.Message{
Name: "account.login.failed",
Fields: hub.Fields{"id": 123},
})
h.Publish(hub.Message{
Name: "account.changepassword.failed",
Fields: hub.Fields{"id": 456},
})
h.Publish(hub.Message{
Name: "account.login.success",
Fields: hub.Fields{"id": 123},
})
// message not routed to this subscriber
h.Publish(hub.Message{
Name: "account.foo.failed",
Fields: hub.Fields{"id": 789},
})
// close all the subscribers
h.Close()
// wait until finish all the messages on buffer
wg.Wait()
// Output:
// receive msg with topic account.login.failed and id 123
// receive msg with topic account.changepassword.failed and id 456
// receive msg with topic account.login.success and id 123
}
See more here!
Benchmarks
To run the benchmarks you can execute:
make bench
Currently, I only have the benchmarks of the CSTrie used internally. I will provide more benchmarks.
Throughput
The project have one test for throughput, just execute:
make throughput
In a intel(R) core(TM) i5-4460 CPU @ 3.20GHz x4 we got this results:
go test -v -timeout 60s github.com/leandro-lugaresi/hub -run ^TestThroughput -args -throughput
=== RUN TestThroughput
1317530.091292 msg/sec
--- PASS: TestThroughput (3.04s)
PASS
ok github.com/leandro-lugaresi/hub 3.192s
CSTrie
This project uses internally an awesome Concurrent Subscription Trie done by @tylertreat. If you want to learn more about see this blog post and the code is here
This project adheres to the Contributor Covenant code of conduct. By participating, you are expected to uphold this code. We appreciate your contribution. Please refer to our contributing guidelines for further information