gorouter
This repository contains the source code for a Go implementation of the Cloud
Foundry router.
This router is now used on CloudFoundry.com, replacing the old implementation.
Summary
The original router can be found at cloudfoundry/router. The original router is
backed by nginx, that uses Lua code to connect to a Ruby server that -- based
on the headers of a client's request -- will tell nginx whick backend it should
use. The main limitations in this architecture are that nginx does not support
non-HTTP (e.g. traffic to services) and non-request/response type traffic (e.g.
to support WebSockets), and that it requires a round trip to a Ruby server for
every request.
The Go implementation of the Cloud Foundry router is an attempt in solving
these limitations. First, with full control over every connection to the
router, it can more easily support WebSockets, and other types of traffic (e.g.
via HTTP CONNECT). Second, all logic is contained in a single process,
removing unnecessary latency.
Getting started
The following instructions may help you get started with gorouter in a
standalone environment.
Setup
export GOPATH=~/go # or wherever
export PATH=$GOPATH/bin:$PATH
cd $GOPATH
mkdir -p src/github.com/cloudfoundry
(
cd src/github.com/cloudfoundry
git clone https://github.com/cloudfoundry/gorouter.git
)
go get -v ./src/github.com/cloudfoundry/gorouter/...
gem install nats
Running Tests
We are using Gocheck, to run tests
go env
go get -v ./...
go build -v ./...
go test -v ./...
# just run tests whose names match Registry
go test -v ./... -gocheck.f=Registry
# run the tests for only the registry package
go test -v ./registry
Start
# Start NATS server in daemon mode
go get github.com/apcera/gnatsd
gnatsd &
# Start gorouter
router
Usage
When gorouter starts, it sends router.start
. This message contains an
interval that other components should then send router.register
on. If they
do not send a router.register
for an amount of time considered "stale" by the
router, the routes are pruned. The default "staleness" is 2 minutes.
The format of this message is as follows:
{
"id": "some-router-id",
"hosts": ["1.2.3.4"],
"minimumRegisterIntervalInSeconds": 5
}
If a component comes online after the router, it must make a NATS request
called router.greet
in order to determine the interval. The response to this
message will be the same format as router.start
.
The format of route updates are as follows:
{
"host": "127.0.0.1",
"port": 4567,
"uris": [
"my_first_url.vcap.me",
"my_second_url.vcap.me"
],
"tags": {
"another_key": "another_value",
"some_key": "some_value"
}
}
Such a message can be sent to both the router.register
subject to register
URIs, and to the router.unregister
subject to unregister URIs, respectively.
$ nohup ruby -rsinatra -e 'get("/") { "Hello!" }' &
$ nats-pub 'router.register' '{"host":"127.0.0.1","port":4567,"uris":["my_first_url.vcap.me","my_second_url.vcap.me"],"tags":{"another_key":"another_value","some_key":"some_value"}}'
Published [router.register] : '{"host":"127.0.0.1","port":4567,"uris":["my_first_url.vcap.me","my_second_url.vcap.me"],"tags":{"another_key":"another_value","some_key":"some_value"}}'
$ curl my_first_url.vcap.me:8080
Hello!
Instrumentation
Gorouter provides /varz
and /healthz
http endpoints for monitoring.
The /routes
endpoint returns the entire routing table as JSON. Each route has an associated array of host:port entries.
All of the endpoints require http basic authentication, credentials for which
can be acquired through NATS. The port
, user
and password (pass
is the config attribute) can be explicitly set in the gorouter.yml config
file's status
section.
status:
port: 8080
user: some_user
pass: some_password
Example interaction with curl:
curl -vvv "http://someuser:somepass@127.0.0.1:8080/routes"
* About to connect() to 127.0.0.1 port 8080 (#0)
* Trying 127.0.0.1...
* connected
* Connected to 127.0.0.1 (127.0.0.1) port 8080 (#0)
* Server auth using Basic with user 'someuser'
> GET /routes HTTP/1.1
> Authorization: Basic c29tZXVzZXI6c29tZXBhc3M=
> User-Agent: curl/7.24.0 (x86_64-apple-darwin12.0) libcurl/7.24.0 OpenSSL/0.9.8r zlib/1.2.5
> Host: 127.0.0.1:8080
> Accept: */*
>
< HTTP/1.1 200 OK
< Content-Type: application/json
< Date: Mon, 25 Mar 2013 20:31:27 GMT
< Transfer-Encoding: chunked
<
{"0295dd314aaf582f201e655cbd74ade5.cloudfoundry.me":["127.0.0.1:34567"],"03e316d6aa375d1dc1153700da5f1798.cloudfoundry.me":["127.0.0.1:34568"]}
Logs
The router's logging is specified in its YAML configuration file, in a steno configuration format.
The meanings of the router's log levels are as follows:
fatal
- An error has occurred that makes the current request unservicable.
Examples: the router can't bind to its TCP port, a CF component has published invalid data to the router.
warn
- An unexpected state has occurred. Examples: the router tried to publish data that could not be encoded as JSON
info
, debug
- An expected event has occurred. Examples: a new CF component was registered with the router, the router has begun
to prune routes for stale droplets.
Contributing
Please read the contributors' guide