An Elixir library for safely using external service or API using customizable retry logic, automatic rate limiting, and the circuit breaker pattern. Calls to external services can be synchronous, asynchronous background tasks, or multiple calls can be made in parallel for MapReduce style processing.
ExternalService
is, in essence, the combination of two techniques: retrying individual requests that have failed and preventing cascading failures with circuit breakers. The basic approach to using ExternalService
is to wrap all usages of any external services in an Elixir function and pass this function to the ExternalService.call
function, together with some options that control the retry mechanism. By doing so, ExternalService
can manage calls to the external API that you’re using, and apply retry logic to individual calls while ensuring that your application is protected from outages or other problems with the external API by using “circuit breakers” (described in more detail below).
In addition to the call
function, ExternalService
also provides a call_async
function, which uses an Elixir Task to call the external service asynchronously, and a call_async_stream
function, which makes multiple calls to the external service in parallel.
Both of these functions apply the same retry and “circuit breaker” mechanisms as the regular call function. Let’s look at these mechanisms in further detail.
Many of the failures that occur when accessing external services are transient in nature. For example, there could be network congestion causing a request to timeout, or the service could be under heavy load and is not able to handle any more requests at the time. The best strategy for dealing with such transient failures is to simply retry the failed request – perhaps after a brief backoff period. The external_service
package uses the retry library from Safwan Kamarrudin to automate retry logic. This retry library provides flexible configuration to control various aspects of retry logic, such as whether to use linear or exponential backoff, the maximum delay between retries, and the total amount of time to spend retrying before giving up.
The Circuit Breaker pattern was first described in Michael Nygard's landmark book Release It! and was later popularized by Martin Fowler on his bliki post. To quote Nygard, “Circuit breakers are a way to automatically degrade functionality when the system is under stress.”
The Circuit Breaker pattern is modeled after electrical circuit breakers, which are designed to protect electrical circuits from damage caused by excess current. Like these electrical circuit breakers, software “circuit breakers” are designed to protect the system at large from damage caused by faults in a component of the system. By protecting calls to external services, the circuit breaker can monitor for failures. If the failures reach some given threshold, the circuit breaker “trips” and further calls to the service will immediately return an error without even making a call to the external API itself. After a configurable period of time, the circuit breaker is automatically reset and calls to the external service will once again be attempted with the same monitoring as before.
In contrast to retry logic, which is applied to each individual call to a service, the circuit breaker for a given service is global to the entire system. If a circuit trips, then it trips for all users of the associated service. This is a key feature of the Circuit Breaker pattern, and is what allows it to prevent cascading failures.
The external_service
package uses the Erlang fuse library from Jesper Louis Andersen for implementing circuit breakers. To extend the electrical analogies, circuit breakers in the fuse library are called “fuses.” These fuses can be used to protect against cascading failure by first asking the fuse if it is OK to proceed using the :fuse.ask
function. If this function returns :ok
then it is OK to proceed to calling on the external service. If, on the other hand, it returns :blown
, then the fuse has been tripped and it is not safe to call the external service. In this scenario, your code must have a fallback option to compensate for the fact that the external service is unavailable, which might mean returning cached data or indicating to the user that the functionality is not currently available.
What causes a fuse to trip?
When using a fuse, your application code must tell the fuse about any failures that occur. If you’ve asked the fuse if it is OK to proceed but then receive an error from the external service, your code should call the :fuse.melt
function, which “melts the fuse a little bit”. Once the fuse has been “melted” enough times, the fuse is tripped and future calls to :fuse.ask
for that fuse will return :blown
.
ExternalService wraps the functionality provided by fuse in a convenient interface and automates the handling of the fuse so that you don’t need to explicitly call :fuse.ask
or :fuse.melt
in your code. Instead, you simply use the ExternalService.call function with the name of the fuse as the first argument, together with the function in which you’ve wrapped your call to the external API. Then, the ExternalService.call function will first ask the given fuse before making the call and will return {:error, :fuse_blown}
if the fuse is blown. It will also automatically call :fuse.melt
any time the call to the given function results in a retry. This eventually results in a blown fuse if there are enough failed requests to the service being protected by the fuse.
The only requirement for using a fuse for a particular service is that it must be initialized before using the service. This is done with the ExternalService.start/2
function, which takes the fuse name and options as arguments. The fuse name is an atom which must uniquely identify the external service to which the fuse applies. This function should be called in your application startup code, which is typically the Application.start
function for your application.
Since version 0.8.0, ExternalService
allows for rate limiting of calls to a service by specifying the rate limit as an optional argument to ExternalService.start
. If the rate_limit
option is passed to ExternalService.start
, then all calls to the external service will be automatically rate-limited. Once the number of calls to the external service has exceeded the limits for a given time window, then ExternalService
will delay the call to the service until the time window has expired and calls to the service are allowed again. By default, the delay is accomplished using Elixir's Process.sleep/1
function, so if you are using ExternalService.call
then the calling process is put to sleep for the specified time window. If, on the other hand, you are using ExternalService.call_async
or ExternalService.call_async_stream
, then it is the background process(es) that are put to sleep, and the calling process is not put to sleep in this case. The sleep function can be configured by passing the :sleep_function
option to ExternalService.start
. In any case, the rate-limiting is applied to all calls to a particular service across your application so that you can rest assured that you will not violate the rate limits imposed by the external service that you are calling.
Applying rate limits to an external service is as simple as specifying the limits in ExternalService.start
, as in the following example, which limits calls to :some_external_service
a maximum of 10 times per second:
ExternalService.start(:some_external_service, rate_limit: {10, 1000})
Below are some example usages of ExternalService
that illustrate how to configure fuses and retries, and how to use the various forms of the call
functions for using an external service reliably. Some of the examples are adapted from the Ropig code base that was the original use case for ExternalService
, and they show how to use ExternalService
for interacting with Google's Pub/Sub
messaging service.
This example shows how to initialize the fuse for a service, as well as how to apply automatic rate limiting to that service.
defmodule PubSub do
@fuse_name __MODULE__
@fuse_options [
# Tolerate 5 failures for every 1 second time window.
fuse_strategy: {:standard, 5, 1_000},
# Reset the fuse 5 seconds after it is blown.
fuse_refresh: 5_000,
# Limit to 100 calls per second.
rate_limit: {100, 1_000}
]
def start do
ExternalService.start(@fuse_name, @fuse_options)
end
end
This example illustrates the usage of the ExternalService.call
function and some of the retry options that can be used to control retry behavior. Notice how we delegate to a named function in call
.
defmodule PubSub do
@retry_errors [
408, # TIMEOUT
429, # RESOURCE_EXHAUSTED
499, # CANCELLED
500, # INTERNAL
503, # UNAVAILABLE
504, # DEADLINE_EXCEEDED
]
@retry_opts %ExternalService.RetryOptions{
# Use linear backoff. Exponential backoff is also available.
backoff: {:linear, 100, 1},
# Stop retrying after 5 seconds.
expiry: 5_000,
}
def publish(message, topic) do
ExternalService.call(PubSub, @retry_opts, fn -> try_publish(message, topic) end)
end
defp try_publish(message, topic) do
message
|> Kane.Message.publish(%Kane.Topic{name: topic})
|> case do
{:error, reason, code} when code in @retry_errors ->
{:retry, reason}
kane_result ->
# If not a retriable error, just return the result.
kane_result
end
end
end
We wrap our call to the external service in a function and pass this function to ExternalService.call
with retry options as the second argument. Importantly, we use a special return value from our anonymous function to trigger a retry. A retry is triggered by one of three mechanisms:
- the function returns
:retry
- the function returns a tuple of the form
{:retry, reason}
- the function raises an Elixir
RuntimeError
, or another exception type specified in therescue_only
option
In our example code, we examine the result of calling Kane.Message.publish and if it is an error response with an error code that matches one of our predetermined @retry_errors
, we then trigger a retry.
Not all failed requests should be retried, of course. Some failures are due to bugs in the calling code; such calls can never succeed and therefore should not be retried. In our case, we consulted the documentation for Google Pub/Sub to determine which error codes should result in a retry. You will have to decide on a strategy to determine what error conditions are retriable for your service.
Although the retry mechanism goes a long way towards eliminating transient failures, there will be times when a service is unavailable for a long enough time that retries ultimately fail. If, for example, a request has been retried several times and the time spent on retries exceeds the configured expiry
time for that request, then ExternalService.call
will give up and return the tuple {:error, :retries_exhausted}
.
Another failure scenario is when there are many different processes using an external service concurrently, such as for example many different web requests. If the service or API being used is temporarily unable to handle requests, then all of these concurrent calls to the service will eventually trip the circuit breaker associated with that external service. Then, ExternalService.call
will return the tuple {:error, :fuse_blown}
. Further calls to the service at this point would immediately result in the {:error, :fuse_blown}
until the fuse is reset, which happens automatically after the configured fuse_refresh
time for the fuse.
It is up to the caller to determine how to handle these errors. A web application might, for example, log the error and return a 503 Service Unavailable status code. Background jobs could log the error and pause until the service is fully functioning again. This example shows a Phoenix controller that uses the PubSub.publish
function from above and handles failed requests by returning a 503 status code.
defmodule MyApp.MyController do
use MyAppWeb, :controller
require Logger
@topic "some_topic"
def create(conn, %{"message" => message}) do
case PubSub.publish(message, @topic) do
{:ok, _result} ->
send_resp(conn, 201, "")
{:error, {:retries_exhausted, reason}} ->
Logger.error("Retries exhausted while trying to publish to #{@topic}: #{inspect(reason)}")
send_resp(conn, 503, "")
{:error, {:fuse_blown, fuse_name}} ->
Logger.error("Fuse blown while trying to publish to #{@topic}: #{inspect(fuse_name)}")
send_resp(conn, 503, "")
error ->
# If we got here it means that we did not an :ok response from Kane, nor did we get one of
# the error tuples meaning retries_exhausted or fuse_blown, so it must be some other kind
# of non-retriable error response from Kane itself. Log the error and send back a 503.
Logger.error("Unknown error while trying to publish to #{@topic}: #{inspect(error)}")
send_resp(conn, 503, "")
end
end
end
As seen in the above example, error handling code can be somewhat intricate because we must distinguish between error responses that are created by ExternalService.call
versus responses that originate from the service itself. In cases like this it can be useful to use ExternalService.call!
so that error responses created by ExternalService
are raised as exceptions instead of returned as error tuples. To show how this works, let's add a new publish!
function to the PubSub
module, which is just like publish
except that it uses call!
instead of call
.
defmodule PubSub do
# same @retry_errors and @retry_opts from above example...
# Will raise a `RetriesExhaustedError` or `FuseBlownError` in event of failure.
def publish!(message, topic) do
ExternalService.call!(PubSub, @retry_opts, fn -> try_publish(message, topic) end)
end
end
Now let's see how this impacts our calling code in the hypothetical controller:
defmodule MyApp.MyController do
use MyAppWeb, :controller
require Logger
@topic "some_topic"
def create(conn, %{"message" => message}) do
try do
case PubSub.publish!(message, @topic) do
{:ok, _result} ->
send_resp(conn, 201, "")
error ->
Logger.error("Unknown error while trying to publish to #{@topic}: #{inspect(error)}")
send_resp(conn, 503, "")
end
rescue
e in [ExternalService.RetriesExhaustedError, ExternalService.FuseBlownError] ->
Logger.error(Exception.format(:error, e))
send_resp(conn, 503, "")
end
end
end
By using call!
, it is much more apparent which kinds of errors are coming from the actual service being used, rather than those that are created by ExternalService
.
In addition to the call
function demonstrated above, the ExternalService
module also provides call_async
and call_async_stream
:
call_async
- asynchronous version ofcall
that returns an ElixirTask
that can be used to retrieve the resultcall_async_stream
- parallel, streaming version ofcall
that is modeled after Elixir's built-inTask.async_stream
function
Both of these asynchronous functions apply the same retry and circuit breaker mechanisms as the synchronous call
function, so any necessary retries are performed transparently in the background task(s).
In the code examples that follow, these asynchronous forms of call
are illustrated using the same @retry_errors
, @retry_opts
, and try_publish/2
function from the previous example above.
defmodule PubSub do
# same @retry_errors and @retry_opts from above example...
# Returns an Elixir `Task`, which can be used to retrieve the result,
# using `Task.await`, for example.
def publish_async(message, topic) do
ExternalService.call_async(PubSub, @retry_opts, fn -> try_publish(message, topic) end)
end
# Publish many messages in parallel and return a Stream of results as described by `Task.async_stream`.
def publish_async_stream(messages, topic) when is_list(messages) do
ExternalService.call_async_stream(messages, PubSub, @retry_opts, fn message ->
try_publish(message, topic)
end)
end
end
Using the async version is a simple means of achieving paralellism since other work can be accomplished while the external calls are taking place. For example:
task = PubSub.publish_async("Hello", "world")
do_other_things()
case Task.await(task) do
{:ok, _result} ->
:ok
{:error, {:retries_exhausted, reason}} ->
:error
{:error, {:fuse_blown, fuse_name}} ->
:error
end
See my blog post for overview documentation, and then check out the API reference for full details.
external_service
is available in Hex, and can be installed
by adding external_service
to your list of dependencies in mix.exs
:
def deps do
[{:external_service, "~> 1.0.1"}]
end
Documentation can be generated with ExDoc and published on HexDocs. Once published, the docs can be found at https://hexdocs.pm/external_service.
Sponsored by Ropig http://ropig.com