wai-rate-limit
Rate limiting as WAI middleware
https://github.com/mbg/wai-rate-limit#readme
LTS Haskell 22.39: | 0.3.0.0 |
Stackage Nightly 2024-10-31: | 0.3.0.0 |
Latest on Hackage: | 0.3.0.0 |
wai-rate-limit-0.3.0.0@sha256:a1477748218c994d04345b0ff2c6c944badac0f4813ec24e18e856291a2bac09,1218
Module documentation for 0.3.0.0
- Network
Rate limiting for Servant and as WAI middleware
Package | Version |
---|---|
wai-rate-limit |
|
wai-rate-limit-redis |
|
servant-rate-limit |
This repository contains WAI middleware for rate limiting as well as a library which provides Servant combinators for including rate limiting strategies in API type specifications. The main library is wai-rate-limit
which provides the WAI middleware as well as implementations of different rate limiting strategies. For use with Servant, the servant-rate-limit
library provides the required combinators as well as type class instances.
To limit dependencies introduced by wai-rate-limit
, storage backends are split up into their own packages:
- A Redis backend is provided by
wai-rate-limit-redis
To limit dependencies for servant-rate-limit
, build flags control the inclusion of different Servant dependencies and modules. All flags are on by default, but can be toggled off:
servant-rate-limit:server
is the flag that controls the inclusion of a dependency onservant-server
and theServant.RateLimit.Server
module.servant-rate-limit:client
is the flag that controls the inclusion of a dependency onservant-client
and theServant.RateLimit.Client
module.
Usage as Middleware
Sliding Window
The following example demonstrates how to use the middleware with a sliding window strategy and a Redis backend. The resulting middleware will limit requests to 50 requests per sliding window of 29 seconds based on keys derived from the client’s IP address. In other words, if we receive a request, we check whether the limit of 50 has been exceed for the client based on their IP and if not, the request is allowed, the request count is increased, and the window is extended by 29 seconds. If the limit is exceeded, the client will always have to wait 29 seconds before making another request.
import qualified Data.ByteString.Char8 as C8
import Database.Redis as Redis
import Network.Wai.RateLimit
import Network.Wai.RateLimit.Strategy
import Network.Wai.RateLimit.Redis
middleware :: Redis.Connection -> Middleware
middleware conn = rateLimiting strategy
where backend = redisBackend conn
getKey = pure . C8.pack . show . remoteHost
strategy = slidingWindow backend 29 50 getKey
The behaviour described above can be changed by altering the parameters to slidingWindow
accordingly. In particular, for e.g. REST APIs, you may wish to use e.g. API keys or other user identifiers in place of IP addresses.
Fixed Window
The following example demonstrates how to use the middleware with a fixed window strategy and a Redis backend. The resulting middleware will limit requests to 50 requests per window of 29 seconds based on keys derived from the client’s IP address.
import qualified Data.ByteString.Char8 as C8
import Database.Redis as Redis
import Network.Wai.RateLimit
import Network.Wai.RateLimit.Strategy
import Network.Wai.RateLimit.Redis
middleware :: Redis.Connection -> Middleware
middleware conn = rateLimiting strategy
where backend = redisBackend conn
getKey = pure . C8.pack . show . remoteHost
strategy = fixedWindow backend 29 50 getKey
The behaviour described above can be changed by altering the parameters to fixedWindow
accordingly. In particular, for e.g. REST APIs, you may wish to use e.g. API keys or other user identifiers in place of IP addresses.
Custom strategies
In addition to the provided strategies, you can implement your own Strategy
values or customise existing ones. The Strategy
type is currently defines as follows, so a custom strategy is essentially a function Request -> IO Bool
which should return True
if the request should proceed or False
if it should be rejected:
-- | Represents rate limiting strategies.
data Strategy = MkStrategy {
-- | 'strategyOnRequest' @request@ is a computation which determines
-- whether the request should be allowed or not, based on the rate
-- limiting strategy.
strategyOnRequest :: Request -> IO Bool
}
Modifying existing strategies makes it relatively easy to e.g. selectively apply rate limiting to some paths:
import qualified Data.ByteString.Char8 as C8
import Database.Redis as Redis
import Network.Wai.RateLimit
import Network.Wai.RateLimit.Strategy
import Network.Wai.RateLimit.Redis
middleware :: Redis.Connection -> Middleware
middleware conn = rateLimiting strategy{ strategyOnRequest = customHandler }
where backend = redisBackend conn
getKey = pure . C8.pack . show . remoteHost
strategy = fixedWindow backend 29 50 getKey
customHandler req =
if rawPathInfo req == "/index.html"
then pure True -- always allow access to /index.html
else strategyOnRequest strategy req
Usage with Servant
The Servant.RateLimit
module exports types for describing rate-limiting strategies and policies at the type-level. Consider the following API type specification:
import Servant
import Servant.RateLimit
type TestAPI
= RateLimit (FixedWindow 2 50) (IPAddressPolicy "fixed:") :>
"fixed-window" :>
Get '[JSON] String
:<|> RateLimit (SlidingWindow 2 50) (IPAddressPolicy "sliding:") :>
"sliding-window" :>
Get '[JSON] String
:<|> "unrestricted" :>
Get '[JSON] String
We have three API endpoints:
/fixed-window
to which we apply a fixed window strategy which ensures that no more than 50 requests are made in a 2 second window./sliding-window
to which we apply a sliding window strategy which extends the window during which up to 50 requests may be made by 2 seconds every time there is a successful request./unrestricted
to which no rate limiting strategy is applied.
For the two restricted endpoints, we use IPAddressPolicy
to identify clients. This is a rate limiting policy which identifies client by their IP address. The string parameter is used to identify different scopes. I.e. the rate limits for each of the two endpoints are separate. This policy is OK for testing purposes, but for use in production you may wish to implement a more sophisticated policy which applies the rate limit based on identifiers that are available as a result of authentication. For example:
import qualified Data.Vault.Lazy as V
type UserId = ByteString -- for simplicity
{-# NOINLINE userKey #-}
userKey :: V.Key UserId
userKey = unsafePerformIO newKey
data MyPolicy
instance HasRateLimitPolicy MyPolicy where
type RateLimitPolicyKey MyPolicy = ByteString
policyGetIdentifier req =
fromMaybe (error "expected to have a user id in the vault") $
V.lookup userKey (vault req)
Changes
Changelog for wai-rate-limit
0.3
- Use the
Second
type fromData.Time.Units
to more accurately represent the expected arguments for the rate-limiting strategies.
0.2
- Change how errors are handled by
Backend
s to use exceptions
0.1
- Support for fixed and sliding window strategies