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GoRouter

This repository contains the source code for a Go implementation of the Cloud Foundry router.

You can find the old router here

Getting started

The following instructions may help you get started with gorouter in a standalone environment.

External Dependencies

  • Go should be installed and in the PATH
  • GOPATH should be set as described in http://golang.org/doc/code.html
  • gnatsd installed and in the PATH
  • godep installed and in the PATH
  • Install direnv if you are planning to do gorouter development as part of cf-release.

Development Setup

Download gorouter:

Option 1: GoRouter (standalone)

go get -d github.com/cloudfoundry/gorouter
cd $GOPATH/src/github.com/cloudfoundry/gorouter

Option 2: GoRouter (as part of cf-release)

git clone https://github.com/cloudfoundry/cf-release
cd cf-release
./update
cd cf-release/src/github.com/cloudfoundry/gorouter

Note: direnv will automatically set your GOPATH when you cd into the gorouter directory. You will need to run direnv allow the first time.

To install exactly the dependencies vendored with gorouter, use godep:

go get -v github.com/tools/godep
godep restore ./...

Running Tests

We are using Ginkgo, to run tests.

Running scripts/test will:

  • Check for Go
  • Check that GOPATH is set
  • Download & Install gnatsd (or use the one already downloaded into the GOPATH)
  • Update the PATH to prepend the godep workspace
  • Install ginkgo (from the godep vendored sources into the godep workspace bin)
  • Run all the tests with ginkgo (in random order, without benchmarks, using the vendored godep dependencies)

Any flags passed into scripts/test will be passed into ginkgo.

# run all the tests
scripts/test

# run only tests whose names match Registry
scripts/test -focus=Registry

# run only the tests in the registry package
scripts/test registry

To run the tests using GOPATH dependency sources (bypassing vendored dependencies):

ginkgo -r

Building

Building creates an executable in the gorouter/ dir:

go build

Installing

Installing creates an executable in the $GOPATH/bin dir:

go install

Start

# Start NATS server in daemon mode
go get github.com/apcera/gnatsd
gnatsd &

# Start gorouter
gorouter

Usage

When the gorouter starts, it sends a router.start message. This message contains an interval that other components should then send router.register on, minimumRegisterIntervalInSeconds. It is recommended that clients should send router.register messages on this interval. This minimumRegisterIntervalInSeconds value is configured through the start_response_delay_interval configuration value. The gorouter will prune routes that it considers to be stale based upon a seperate "staleness" value, droplet_stale_threshold, which defaults to 120 seconds. The gorouter will check if routes have become stale on an interval defined by prune_stale_droplets_interval, which defaults to 30 seconds. All of these values are represented in seconds and will always be integers.

The format of the router.start message is as follows:

{
  "id": "some-router-id",
  "hosts": ["1.2.3.4"],
  "minimumRegisterIntervalInSeconds": 5,
  "prunteThresholdInSeconds": 120,
}

After a router.start message is received by a client, the client should send router.register messages. This ensures that the new router can update its routing table and synchronize with existing routers.

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 the router.register message is 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"
  },
  "app": "some_app_guid",
  "stale_threshold_in_seconds": 120,
  "private_instance_id": "some_app_instance_id"
}

stale_threshold_in_seconds is the custom staleness threshold for the route being registered. If this value is not sent, it will default to the router's default staleness threshold. app is a unique identifier for an application that the route is registered for. It is used to emit router access logs associated with the app through dropsonde. private_instance_id is a unique identifier for an instance associated with the app identified by the app field. X-CF-InstanceID is set to this value on the request to the endpoint registered.

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.

###Example

Create a simple app

$ nohup ruby -rsinatra -e 'get("/") { "Hello!" }' &

Send a register message

$ 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"}}'

See that it works!

$ curl my_first_url.vcap.me:8080
Hello!

Instrumentation

Gorouter provides a /varz http endpoint for monitoring.

There is a deprecated healthz endpoint that provides no useful information about the router. To check on the health of the router, we currently recommend checking the status of TCP port 80.

The /routes endpoint returns the entire routing table as JSON. Each route has an associated array of host:port entries.

Aside from the two monitoring http endpoints (which are only reachable via the status port), specifying the User-Agent header with a value of HTTP-Monitor/1.1 also returns the current health of the router. This is particularly useful when performing healthchecks from a Load Balancer.

Because of the nature of the data present in /varz and /routes, they require http basic authentication credentials 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 -A "HTTP-Monitor/1.1" http://127.0.0.1/
* About to connect() to 127.0.0.1 port 80 (#0)
*   Trying 127.0.0.1... connected
> GET / HTTP/1.1
> User-Agent: HTTP-Monitor/1.1
> Host: 127.0.0.1
> Accept: */*
>
< HTTP/1.1 200 OK
< Cache-Control: private, max-age=0
< Expires: 0
< Date: Mon, 10 Feb 2014 00:55:25 GMT
< Transfer-Encoding: chunked
<
ok
* Connection #0 to host 127.0.0.1 left intact
* Closing connection #0

curl -vvv "http://someuser:[email protected]: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"]}

Profiling the Server

The GoRouter runs the cf_debug_server, which is a wrapper around the go pprof tool. In order to generate this profile, do the following:

# Establish a SSH tunnel to your server (not necessary if you can connect directly)
ssh -L localhost:8080:[INTERNAL_SERVER_IP]:17001 vcap@[BOSH_DIRECTOR]
# Run the profile tool.
go tool pprof http://localhost:8080/debug/pprof/profile

Load Balancing

The GoRouter is, in simple terms, a reverse proxy that load balances between many backend instances. The implementation currently uses simple round-robin load balancing and will retry a request if the chosen backend does not accept the TCP connection.

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

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