emitter-io alternatives and similar packages
Based on the "Distributed Systems" category.
Alternatively, view emitter-io alternatives based on common mentions on social networks and blogs.
-
-
-
Nomad
Nomad is an easy-to-use, flexible, and performant workload orchestrator that can deploy a mix of microservice, batch, containerized, and non-containerized applications. Nomad is easy to operate and scale and has native Consul and Vault integrations. -
go-zero
go-zero is a web and rpc framework written in Go. It's born to ensure the stability of the busy sites with resilient design. Builtin goctl greatly improves the development productivity. [Moved to: https://github.com/zeromicro/go-zero] -
-
-
rpcx
Best microservices framework in Go, like alibaba Dubbo, but with more features, Scale easily. Try it. Test it. If you feel it's better, use it! ๐๐๐ฏ๐ๆ๐๐ฎ๐๐๐จ, ๐๐จ๐ฅ๐๐ง๐ ๆ๐ซ๐ฉ๐๐ฑ! build for cloud! -
-
ringpop-go
Scalable, fault-tolerant application-layer sharding for Go applications -
Kitex
Go RPC framework with high-performance and strong-extensibility for building micro-services. -
-
KrakenD
Ultra performant API Gateway with middlewares. A project hosted at The Linux Foundation -
dragonboat
A feature complete and high performance multi-group Raft library in Go. -
Encore
Encore is the Backend Development Platform purpose-built to help you create event-driven and distributed systems. -
Dkron
Dkron - Distributed, fault tolerant job scheduling system https://dkron.io -
gleam
Fast, efficient, and scalable distributed map/reduce system, DAG execution, in memory or on disk, written in pure Go, runs standalone or distributedly. -
glow
Glow is an easy-to-use distributed computation system written in Go, similar to Hadoop Map Reduce, Spark, Flink, Storm, etc. I am also working on another similar pure Go system, https://github.com/chrislusf/gleam , which is more flexible and more performant. -
Olric
Distributed in-memory object store. It can be used as an embedded Go library and a language-independent service. -
-
-
Dragonfly
Dragonfly is an open source P2P-based file distribution and image acceleration system. It is hosted by the Cloud Native Computing Foundation (CNCF) as an Incubating Level Project. -
go-doudou
go-doudou๏ผdoudou pronounce /dษudษu/๏ผis OpenAPI 3.0 (for REST) spec and Protobuf v3 (for grpc) based lightweight microservice framework. It supports monolith service application as well. -
hprose
Hprose is a cross-language RPC. This project is Hprose for Golang. -
redis-lock
Simplified distributed locking implementation using Redis -
go-health
Library for enabling asynchronous health checks in your service -
arpc
More effective network communication, two-way calling, notify and broadcast supported. -
resgate
A Realtime API Gateway used with NATS to build REST, real time, and RPC APIs, where all your clients are synchronized seamlessly. -
-
-
-
go-sundheit
A library built to provide support for defining service health for golang services. It allows you to register async health checks for your dependencies and the service itself, provides a health endpoint that exposes their status, and health metrics. -
sleuth
A Go library for master-less peer-to-peer autodiscovery and RPC between HTTP services -
-
Maestro
Take control of your data, connect with anything, and expose it anywhere through protocols such as HTTP, GraphQL, and gRPC. -
-
celeriac
Golang client library for adding support for interacting and monitoring Celery workers, tasks and events. -
drmaa
Compute cluster (HPC) job submission library for Go (#golang) based on the open DRMAA standard. -
flowgraph
Flowgraph package for scalable asynchronous system development
WorkOS - The modern identity platform for B2B SaaS
Do you think we are missing an alternative of emitter-io or a related project?
|
InfluxDB - Power Real-Time Data Analytics at Scale
sponsored
www.influxdata.com
|
Popular Comparisons
-
emitter-iovsKrakenD
-
emitter-iovsresgate
-
emitter-iovsdynamolock
-
emitter-iovsrpcx
-
emitter-iovsglow
|
SaaSHub - Software Alternatives and Reviews
sponsored
www.saashub.com
|
README
Emitter: Distributed Publish-Subscribe Platform
Emitter is a distributed, scalable and fault-tolerant publish-subscribe platform built with MQTT protocol and featuring message storage, security, monitoring and more:
- Publish/Subscribe using MQTT over TCP or Websockets.
- Resilient, highly available and partition tolerant (AP in CAP terms).
- Able to handle 3+ million of messages/sec on a single broker.
- Supports message storage with history and message-level expiry.
- Provides secure channel keys with permissions and can face the internet.
- Automatic TLS/SSL and encrypted inter-broker communication.
- Built-in monitoring with Prometheus, StatsD and more.
- Shared subscriptions, links and private links for channels.
- Easy deployment with Docker and Kubernetes of production-ready clusters.
Emitter can be used for online gaming and mobile apps by satisfying the requirements for low latency, binary messaging and high throughput. It can also be used for the real-time web application such as dashboards or visual analytics or chat systems. Moreover, Emitter is perfect for the internet of things and allows sensors to be controlled and data gathered and analyzed.
Tutorials & Demos
The following video tutorials demonstrate various features of Emitter in action.
How to Deploy
Quick Start
Run Server
The quick way to start an Emitter broker is by using docker run command as shown below.
Notice: You must use -e for docker environment.You could get it from your docker log.
docker run -d --name emitter -p 8080:8080 --restart=unless-stopped emitter/server
Alternatively, you might compile this repository and use go get command to rebuild and run from source.
go get -u github.com/emitter-io/emitter && emitter
Get License
Both commands above start a new server and if no configuration or environment variables were supplied, it will print out a message(or you could find it in the docker log) similar to the message below once the server has started :
[service] unable to find a license, make sure 'license' value is set in the config file or EMITTER_LICENSE environment variable
[service] generated new license: uppD0PFIcNK6VY-7PTo7uWH8EobaOGgRAAAAAAAAAAI
[service] generated new secret key: JUoOxjoXLc4muSxXynOpTc60nWtwUI3o
This message shows that a new security configuration was generated, you can then re-run EMITTER_LICENSE set to the specified value. Alternatively, you can set "license" property in the emitter.conf configuration file.
Re-Run Command
References are available. Please replace your EMITTER_LICENSE to it.
docker run -d --name emitter -p 8080:8080 -e EMITTER_LICENSE=uppD0PFIcNK6VY-7PTo7uWH8EobaOGgRAAAAAAAAAAI --restart=unless-stopped emitter/server
Generate Key
Finally, open a browser and navigate to http://127.0.0.1:8080/keygen in order to generate your key. Now you can use the secret key generated to create channel keys, which allow you to secure individual channels and start using emitter.
Warning: If you use upon command, you secret is JUoOxjoXLc4muSxXynOpTc60nWtwUI3o. And it's not safe!!!
Usage Example
The code below shows a small example of usage of emitter with the Javascript SDK. As you can see, the API exposes straightforward methods such as publish and subscribe which can take binary payload and are secured through channel keys.
// connect to emitter service
var connection = emitter.connect({ host: '127.0.0.1' });
// once we're connected, subscribe to the 'chat' channel
emitter.on('connect', function(){
emitter.subscribe({
key: "<channel key>",
channel: "chat"
});
});
// publish a message to the chat channel
emitter.publish({
key: "<channel key>",
channel: "chat/my_name",
message: "hello, emitter!"
});
Further documentation, demos and language/platform SDKs are available in the develop section of our website. Make sure to check out the getting started tutorial which explains the basic usage of emitter and MQTT.
Command line arguments
The Emitter broker accepts command line arguments, allowing you to specify a configuration file, usage is shown below.
-config string
The configuration file to use for the broker. (default "emitter.conf")
-help
Shows the help and usage instead of running the broker.
Configuration File
The configuration file (defaulting to emitter.conf) is the main way of configuring the broker. The configuration file is however, not the only way of configuring it as it allows a multi-level override through environment variables and/or hashicorp Vault.
The configuration file is in JSON format, but you can override any value by providing an environment variable which follows a particular format, for example if you'd like to provide a license through environment variable, simply define EMITTER_LICENSE environment variable, similarly, if you want to specify a certificate, define EMITTER_TLS_CERTIFICATE environment variable. Example of configuration file:
{
"listen": ":8080",
"license": "/*The license*/",
"tls": {
"listen": ":443",
"host": "example.com"
},
"cluster": {
"listen": ":4000",
"seed": " 192.168.0.2:4000",
"advertise": "public:4000"
},
"storage": {
"provider": "inmemory"
}
}
The structure of the configuration is described below:
| Property | Env. Variable | Description |
|---|---|---|
license |
EMITTER_LICENSE |
The license file to use for the broker. This contains the encryption key. |
listen |
EMITTER_LISTEN |
The API address used for TCP & Websocket communication, in IP:PORT format (e.g: :8080). |
limit.messageSize |
EMITTER_LIMIT_MESSAGESIZE |
Maximum message size. Default is 64KB. |
tls.listen |
EMITTER_TLS_LISTEN |
The API address used for Secure TCP & Websocket communication, in IP:PORT format (e.g: :443). |
tls.host |
EMITTER_TLS_HOST |
The hostname to whitelist for the certificate. |
tls.email |
EMITTER_TLS_EMAIL |
The email account to use for autocert. |
vault.address |
EMITTER_VAULT_ADDRESS |
The Hashicorp Vault address to use to further override configuration. |
vault.app |
EMITTER_VAULT_APP |
The Hashicorp Vault application ID to use. |
cluster.name |
EMITTER_CLUSTER_NAME |
The name of this node. This must be unique in the cluster. If this is not set, Emitter will set it to the external IP address of the running machine. |
cluster.listen |
EMITTER_CLUSTER_LISTEN |
The IP address and port that is used to bind the inter-node communication network. This is used for the actual binding of the port. |
cluster.advertise |
EMITTER_CLUSTER_ADVERTISE |
The address and port to advertise inter-node communication network. This is used for nat traversal. |
cluster.seed |
EMITTER_CLUSTER_SEED |
The seed address (or a domain name) for cluster join. |
cluster.passphrase |
EMITTER_CLUSTER_PASSPHRASE |
Passphrase is used to initialize the primary encryption key in a keyring. This key is used for encrypting all the gossip messages (message-level encryption). |
storage.provider |
EMITTER_STORAGE_PROVIDER |
This property represents the publishers publish message storage mode. there are two kinds of can use, they are respectively inmemory and ssd, defaults to the former. |
storage.config.dir |
EMITTER_STORAGE_CONFIG |
If the storage mode is ssd, this property indicates where the messages are stored (emitter server nodes are not allowed to use the same directory within the same machine) |
Building and Testing
The server requires Golang 1.9 to be installed. Once you have this installed, simply go get this repository and run the following commands to download the package and run the server.
go get -u github.com/emitter-io/emitter && emitter
If you want to run the tests, simply run go test command as demonstrated below.
go test ./...
Deploying as Docker Container
Emitter is conveniently packaged as a docker container. To run the emitter service on a single server, use the command below. Once the server is started, it will generate a new security configuration, you can then re-run the same command with an additional environment variable -e EMITTER_LICENSE set to the provided value.
docker run -d -p 8080:8080 emitter/server
For the clustered (multi-server) mode, the container can be started using the simple docker run with 3 main parameters.
docker run -d -p 8080:8080 -p 4000:4000 -e EMITTER_LICENSE=[key] -e EMITTER_CLUSTER_SEED=[seed] -e EMITTER_CLUSTER_PASSPHRASE=[name] emitter/server
Support, Discussion, and Community
If you need any help with Emitter Server or any of our client SDKs, please join us at either our gitter chat where most of our team hangs out at or drop us an e-mail at [email protected].
Please submit any Emitter bugs, issues, and feature requests to emitter-io>emitter. If there are any security issues, please email [email protected] instead of posting an open issue in Github.
Contributing
If you'd like to contribute, please fork the repository and use a feature branch. Pull requests are warmly welcome.
Licensing
Copyright (c) 2009-2019 Misakai Ltd. This project is licensed under Affero General Public License v3.
Emitter offers support contracts and is now also offered via a commercial license. Please contact [email protected] for more information.
*Note that all licence references and agreements mentioned in the emitter-io README section above
are relevant to that project's source code only.