Skip to content
/ nerve Public

A service registration daemon that performs health checks; companion to airbnb/synapse

License

Notifications You must be signed in to change notification settings

airbnb/nerve

Repository files navigation

Build Status

Nerve

Nerve is a utility for tracking the status of machines and services. It runs locally on the boxes which make up a distributed system, and reports state information to a distributed key-value store. At Airbnb, we use Zookeeper as our key-value store. The combination of Nerve and Synapse make service discovery in the cloud easy!

Motivation

We already use Synapse to discover remote services. However, those services needed boilerplate code to register themselves in Zookeeper. Nerve simplifies underlying services, enables code reuse, and allows us to create a more composable system. It does so by factoring out the boilerplate into it's own application, which independently handles monitoring and reporting.

Beyond those benefits, nerve also acts as a general watchdog on systems. The information it reports can be used to take action from a centralized automation center: action like scaling distributed systems up or down or alerting ops or engineering about downtime.

Installation

To download and run the nerve binary, first install a version of ruby. Then, install nerve with:

$ mkdir -p /opt/smartstack/nerve

# If you want to install specific versions of dependencies such as an older
# version of the aws-sdk, the docker-api, etc, gem install that here *before*
# gem installing nerve. This is also where you would gem install
# custom reporters.

# If you are on Ruby 2.X use --no-document instead of --no-ri --no-rdoc
$ gem install nerve --install-dir /opt/smartstack/nerve --no-ri --no-rdoc

This will download nerve and its dependencies into /opt/smartstack/nerve. You might wish to omit the --install-dir flag to use your system's default gem path, however this will require you to run gem install nerve with root permissions. You can also install via bundler, but keep in mind you'll pick up Nerve's version of library dependencies and possibly not the ones you need for your infra/apps.

You can now run the nerve binary like:

export GEM_PATH=/opt/smartstack/nerve
/opt/smartstack/nerve/bin/nerve --help

Configuration

Nerve depends on a single configuration file, in json format. It is usually called nerve.conf.json. An example config file is available in example/nerve.conf.json. The config file is composed of two main sections:

  • instance_id: the name nerve will submit when registering services; makes debugging easier
  • heartbeat_path: a path to a file on disk to touch as nerve makes progress. This allows you to work around zk-ruby/zk#50 by restarting a stuck nerve.
  • services: the hash (from service name to config) of the services nerve will be monitoring
  • service_conf_dir: path to a directory in which each json file will be interpreted as a service with the basename of the file minus the .json extension

Services Config

Each service that nerve will be monitoring is specified in the services hash. The key is the name of the service, and the value is a configuration hash telling nerve how to monitor the service. The configuration contains the following options:

  • host: the default host on which to make service checks; you should make this your public ip to ensure your service is publicly accessible
  • port: the default port for service checks; nerve will report the host:port combo via your chosen reporter
  • reporter_type: the mechanism used to report up/down information; depending on the reporter you choose, additional parameters may be required. Defaults to zookeeper
  • check_interval: the frequency with which service checks will be initiated; defaults to 500ms
  • check_mocked: whether or not health check is mocked, the host check always returns healthy and report up when the value is true
  • checks: a list of checks that nerve will perform; if all of the pass, the service will be registered; otherwise, it will be un-registered
  • rate_limiting (optional): a hash containing the configuration for rate limiting (see 'Rate Limiting' below)
  • weight (optional): a positive integer weight value which can be used to affect the haproxy backend weighting in synapse.
  • haproxy_server_options (optional): a string containing any special haproxy server options for this service instance. For example if you wanted to set a service instance as a backup.
  • labels (optional): an object containing user-defined key-value pairs that describe this service instance. For example, you could label service instances with datacenter information.

Rate Limiting

Rate limiting is configured in the rate_limiting hash. If enabled, rate limiting is done via the Token-Bucket algorithm. That hash contains the following values:

  • shadow_mode (optional): shadow mode emits metrics/logs for rate limiting, but does not actually throttle requests (defaults to true). Set to false to throttle requests.
  • average_rate (optional): enforced average rate limit for reporting (defaults to infinity)
  • max_burst (optional): enforced maximum burst for reporting (defaults to infinity)

Zookeeper Reporter

If you set your reporter_type to "zookeeper" you should also set these parameters:

  • zk_hosts: a list of the zookeeper hosts comprising the ensemble that nerve will submit registration to
  • zk_path: the path (or znode) where the registration will be created
  • use_path_encoding: optional flag to turn on path encoding optimization, the canonical config data at host level (e.g. ip, port, az) is encoded using json base64 and written as zk child name, the zk child data will still be written for backward compatibility
  • node_type: the type of znode that nerve will register as. The available types are ephemeral_sequential, persistent_sequential, persistent, and ephemeral. If not specified, nerve will create the znode as ephemeral_sequential type by default
  • ttl_seconds: repeatedly 'touch' the created node at this interval in order to update the mtime. If nil (the default), it will not perform this periodic update.

Etcd Reporter

Note: Etcd support is currently experimental!

If you set your reporter_type to "etcd" you should also set these parameters:

  • etcd_host: etcd host that nerve will submit registration to
  • etcd_port: port to connect to etcd.
  • etcd_path: the path where the registration will be created; nerve will create a node with a 30s ttl that is the registration as a child of this path, and then update it every few seconds

Checks

The core of nerve is a set of service checks. Each service can define a number of checks, and all of them must pass for the service to be registered. Although the exact parameters passed to each check are different, all take a number of common arguments:

  • type: (required) the kind of check; you can see available check types in the lib/nerve/service_watcher dir of this repo
  • name: (optional) a descriptive, human-readable name for the check; it will be auto-generated based on the other parameters if not specified
  • host: (optional) the host on which the check will be performed; defaults to the host of the service to which the check belongs
  • port: (optional) the port on which the check will be performed; like host, it defaults to the port of the service
  • timeout: (optional) maximum time the check can take; defaults to 100ms
  • rise: (optional) how many consecutive checks must pass before the check is considered passing; defaults to 1
  • fall: (optional) how many consecutive checks must fail before the check is considered failing; defaults to 1

Custom External Checks

If you would like to run a custom check but don't feel like trying to get it merged into this project, there is a mechanism for including external checks thanks to @bakins (#36). Build your custom check as a separate gem and make sure to bundle install it on your system.

Ideally, you should name your gem "nerve-watcher-#{type}", as that is what nerve will require on boot. However, if you have a custom name for your gem, you can specify that in the module argument to the check.

Contributing

  1. Fork it
  2. Create your feature branch (git checkout -b my-new-feature)
  3. Commit your changes (git commit -am 'Add some feature')
  4. Push to the branch (git push origin my-new-feature)
  5. Create new Pull Request