rate-limiter-flexible counts and limits number of actions by key and protects from DDoS and brute force attacks at any scale.
It works with Redis, process Memory, DynamoDB, Cluster or PM2, Memcached, MongoDB, MySQL, PostgreSQL and allows to control requests rate in single process or distributed environment.
Memory limiter also works in browser.
Atomic increments. All operations in memory or distributed environment use atomic increments against race conditions.
Allow traffic bursts with BurstyRateLimiter.
Fast. Average request takes 0.7ms
in Cluster and 2.5ms
in Distributed application. See benchmarks.
Flexible. Combine limiters, block key for some duration, delay actions, manage failover with insurance options, configure smart key blocking in memory and many others.
Ready for growth. It provides unified API for all limiters. Whenever your application grows, it is ready. Prepare your limiters in minutes.
Friendly. No matter which node package you prefer: redis
or ioredis
, sequelize
/typeorm
or knex
, memcached
, native driver or mongoose
. It works with all of them.
In memory blocks. Avoid extra requests to store with inMemoryBlockOnConsumed.
Deno compatible See this example
It uses fixed window as it is much faster than rolling window. See comparative benchmarks with other libraries here
npm i --save rate-limiter-flexible
yarn add rate-limiter-flexible
// CommonJS
const { RateLimiterMemory } = require("rate-limiter-flexible");
// or
// ECMAScript
import { RateLimiterMemory } from "rate-limiter-flexible";
Points can be consumed by IP address, user ID, authorisation token, API route or any other string.
const opts = {
points: 6, // 6 points
duration: 1, // Per second
};
const rateLimiter = new RateLimiterMemory(opts);
rateLimiter.consume(remoteAddress, 2) // consume 2 points
.then((rateLimiterRes) => {
// 2 points consumed
})
.catch((rateLimiterRes) => {
// Not enough points to consume
});
Both Promise resolve and reject return object of RateLimiterRes
class if there is no any error.
Object attributes:
RateLimiterRes = {
msBeforeNext: 250, // Number of milliseconds before next action can be done
remainingPoints: 0, // Number of remaining points in current duration
consumedPoints: 5, // Number of consumed points in current duration
isFirstInDuration: false, // action is first in current duration
}
You may want to set next HTTP headers to response:
const headers = {
"Retry-After": rateLimiterRes.msBeforeNext / 1000,
"X-RateLimit-Limit": opts.points,
"X-RateLimit-Remaining": rateLimiterRes.remainingPoints,
"X-RateLimit-Reset": new Date(Date.now() + rateLimiterRes.msBeforeNext)
}
- no race conditions
- no production dependencies
- TypeScript declaration bundled
- allow traffic burst with BurstyRateLimiter
- Block Strategy against really powerful DDoS attacks (like 100k requests per sec) Read about it and benchmarking here
- Insurance Strategy as emergency solution if database / store is down Read about Insurance Strategy here
- works in Cluster or PM2 without additional software See RateLimiterCluster benchmark and detailed description here
- useful
get
,set
,block
,delete
,penalty
andreward
methods
- Express middleware
- Koa middleware
- Hapi plugin
- GraphQL graphql-rate-limit-directive
- NestJS try nestjs-rate-limiter
- Fastify based NestJS app try nestjs-fastify-rate-limiter
Some copy/paste examples on Wiki:
- Minimal protection against password brute-force
- Login endpoint protection
- Websocket connection prevent flooding
- Dynamic block duration
- Authorized users specific limits
- Different limits for different parts of application
- Apply Block Strategy
- Setup Insurance Strategy
- Third-party API, crawler, bot rate limiting
- express-brute Bonus: race conditions fixed, prod deps removed
- limiter Bonus: multi-server support, respects queue order, native promises
- Options
- API methods
- BurstyRateLimiter Traffic burst support
- RateLimiterRedis
- RateLimiterDynamo
- RateLimiterMemcache
- RateLimiterMongo (with sharding support)
- RateLimiterMySQL (support Sequelize and Knex)
- RateLimiterPostgres (support Sequelize, TypeORM and Knex)
- RateLimiterCluster (PM2 cluster docs read here)
- RateLimiterMemory
- RateLimiterUnion Combine 2 or more limiters to act as single
- RLWrapperBlackAndWhite Black and White lists
- RateLimiterQueue Rate limiter with FIFO queue
See releases for detailed changelog.
-
points
Default: 4
Maximum number of points can be consumed over duration
-
duration
Default: 1
Number of seconds before consumed points are reset.
Never reset points, if
duration
is set to 0. -
storeClient
Required for store limiters
Have to be
redis
,ioredis
,memcached
,mongodb
,pg
,mysql2
,mysql
or any other related pool or connection.
- keyPrefix Make keys unique among different limiters.
- blockDuration Block for N seconds, if consumed more than points.
- inMemoryBlockOnConsumed Avoid extra requests to store.
- inMemoryBlockDuration
- insuranceLimiter Make it more stable with less efforts.
- storeType Have to be set to
knex
, if you use it. - dbName Where to store points.
- tableName Table/collection.
- tableCreated Is table already created in MySQL or PostgreSQL.
- clearExpiredByTimeout For MySQL and PostgreSQL.
Smooth out traffic picks:
Specific:
- indexKeyPrefix Combined indexes of MongoDB.
- timeoutMs For Cluster.
- rejectIfRedisNotReady
- useRedisPackage
- useRedis3AndLowerPackage
Read detailed description on Wiki.
- consume(key, points = 1) Consume points by key.
- get(key) Get
RateLimiterRes
ornull
. - set(key, points, secDuration) Set points by key.
- block(key, secDuration) Block key for
secDuration
seconds. - delete(key) Reset consumed points.
- deleteInMemoryBlockedAll
- penalty(key, points = 1) Increase number of consumed points in current duration.
- reward(key, points = 1) Decrease number of consumed points in current duration.
- getKey(key) Get internal prefixed key.
Average latency during test pure NodeJS endpoint in cluster of 4 workers with everything set up on one server.
1000 concurrent clients with maximum 2000 requests per sec during 30 seconds.
1. Memory 0.34 ms
2. Cluster 0.69 ms
3. Redis 2.45 ms
4. Memcached 3.89 ms
5. Mongo 4.75 ms
500 concurrent clients with maximum 1000 req per sec during 30 seconds
6. PostgreSQL 7.48 ms (with connection pool max 100)
7. MySQL 14.59 ms (with connection pool 100)
Note, you can speed up limiters with inMemoryBlockOnConsumed option.
Appreciated, feel free!
Make sure you've launched npm run eslint
before creating PR, all errors have to be fixed.
You can try to run npm run eslint-fix
to fix some issues.
Any new limiter with storage have to be extended from RateLimiterStoreAbstract
.
It has to implement 4 methods:
-
_getRateLimiterRes
parses raw data from store toRateLimiterRes
object. -
_upsert
may be atomic or non-atomic upsert (increment). It inserts or updates value by key and returns raw data. If it doesn't make atomic upsert (increment), the class should be suffixed withNonAtomic
, e.g.RateLimiterRedisNonAtomic
.It must support
forceExpire
mode to overwrite key expiration time. -
_get
returns raw data by key ornull
if there is no key. -
_delete
deletes all key related data and returnstrue
on deleted,false
if key is not found.
All other methods depends on store. See RateLimiterRedis
or RateLimiterPostgres
for example.
Note: all changes should be covered by tests.