registry/health/doc.go
Aaron Lehmann b9b9cafa8f Expose a Registry type in health package, so unit tests can stay isolated from each other
Update docs.

Change health_test.go tests to create their own registries and register
the checks there. The tests now call CheckStatus directly instead of
polling the HTTP handler, which returns results from the default
registry.

Signed-off-by: Aaron Lehmann <aaron.lehmann@docker.com>
2015-08-20 15:07:54 -07:00

130 lines
5.3 KiB
Go

// Package health provides a generic health checking framework.
// The health package works expvar style. By importing the package the debug
// server is getting a "/debug/health" endpoint that returns the current
// status of the application.
// If there are no errors, "/debug/health" will return a HTTP 200 status,
// together with an empty JSON reply "{}". If there are any checks
// with errors, the JSON reply will include all the failed checks, and the
// response will be have an HTTP 503 status.
//
// A Check can either be run synchronously, or asynchronously. We recommend
// that most checks are registered as an asynchronous check, so a call to the
// "/debug/health" endpoint always returns immediately. This pattern is
// particularly useful for checks that verify upstream connectivity or
// database status, since they might take a long time to return/timeout.
//
// Installing
//
// To install health, just import it in your application:
//
// import "github.com/docker/distribution/health"
//
// You can also (optionally) import "health/api" that will add two convenience
// endpoints: "/debug/health/down" and "/debug/health/up". These endpoints add
// "manual" checks that allow the service to quickly be brought in/out of
// rotation.
//
// import _ "github.com/docker/distribution/registry/health/api"
//
// # curl localhost:5001/debug/health
// {}
// # curl -X POST localhost:5001/debug/health/down
// # curl localhost:5001/debug/health
// {"manual_http_status":"Manual Check"}
//
// After importing these packages to your main application, you can start
// registering checks.
//
// Registering Checks
//
// The recommended way of registering checks is using a periodic Check.
// PeriodicChecks run on a certain schedule and asynchronously update the
// status of the check. This allows CheckStatus to return without blocking
// on an expensive check.
//
// A trivial example of a check that runs every 5 seconds and shuts down our
// server if the current minute is even, could be added as follows:
//
// func currentMinuteEvenCheck() error {
// m := time.Now().Minute()
// if m%2 == 0 {
// return errors.New("Current minute is even!")
// }
// return nil
// }
//
// health.RegisterPeriodicFunc("minute_even", currentMinuteEvenCheck, time.Second*5)
//
// Alternatively, you can also make use of "RegisterPeriodicThresholdFunc" to
// implement the exact same check, but add a threshold of failures after which
// the check will be unhealthy. This is particularly useful for flaky Checks,
// ensuring some stability of the service when handling them.
//
// health.RegisterPeriodicThresholdFunc("minute_even", currentMinuteEvenCheck, time.Second*5, 4)
//
// The lowest-level way to interact with the health package is calling
// "Register" directly. Register allows you to pass in an arbitrary string and
// something that implements "Checker" and runs your check. If your method
// returns an error with nil, it is considered a healthy check, otherwise it
// will make the health check endpoint "/debug/health" start returning a 503
// and list the specific check that failed.
//
// Assuming you wish to register a method called "currentMinuteEvenCheck()
// error" you could do that by doing:
//
// health.Register("even_minute", health.CheckFunc(currentMinuteEvenCheck))
//
// CheckFunc is a convenience type that implements Checker.
//
// Another way of registering a check could be by using an anonymous function
// and the convenience method RegisterFunc. An example that makes the status
// endpoint always return an error:
//
// health.RegisterFunc("my_check", func() error {
// return Errors.new("This is an error!")
// }))
//
// Examples
//
// You could also use the health checker mechanism to ensure your application
// only comes up if certain conditions are met, or to allow the developer to
// take the service out of rotation immediately. An example that checks
// database connectivity and immediately takes the server out of rotation on
// err:
//
// updater = health.NewStatusUpdater()
// health.RegisterFunc("database_check", func() error {
// return updater.Check()
// }))
//
// conn, err := Connect(...) // database call here
// if err != nil {
// updater.Update(errors.New("Error connecting to the database: " + err.Error()))
// }
//
// You can also use the predefined Checkers that come included with the health
// package. First, import the checks:
//
// import "github.com/docker/distribution/health/checks
//
// After that you can make use of any of the provided checks. An example of
// using a `FileChecker` to take the application out of rotation if a certain
// file exists can be done as follows:
//
// health.Register("fileChecker", health.PeriodicChecker(checks.FileChecker("/tmp/disable"), time.Second*5))
//
// After registering the check, it is trivial to take an application out of
// rotation from the console:
//
// # curl localhost:5001/debug/health
// {}
// # touch /tmp/disable
// # curl localhost:5001/debug/health
// {"fileChecker":"file exists"}
//
// You could also test the connectivity to a downstream service by using a
// "HTTPChecker", but ensure that you only mark the test unhealthy if there
// are a minimum of two failures in a row:
//
// health.Register("httpChecker", health.PeriodicThresholdChecker(checks.HTTPChecker("https://www.google.pt"), time.Second*5, 2))
package health