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A simple caching library for node.js, inspired by the Play cache API

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cached

A simple caching library, inspired by the Play cache API and biased towards showing stale data instead of dog piling. The interface only exposes very limited functionality, there's no multi-get or deletion of cached data. The library is designed to support different caching backends, though right now only memcached is implemented.

It supports both promise- and callback-based usage.

Install

npm install --save cached

Usage

More detailed API docs are in the next section.

Getting and setting

const cached = require('cached');

const kittens = cached('kittens');

async function cacheKittens() {

  // Set a key using a plain value
  await kittens.set('my.key', 'Hello World');
  
  // Set a key using a lazily created promise
  await kittens.set('my.key', () => {
    return cache.get('other.key');
  });
  
  // Set a key using a callback-style function
  await kittens.set('my.key', cached.deferred(done => {
    done(null, 'Hello World');
  }));
  
  const data = await kittens.getOrElse('my.key', () => {
    // This will store "Hello World" for key "my.key" if
    // "my.key" was not found
    return 'Hello World';
  });
  
  // Handle it the promise way
  let res;
  try {
    res = await kittens.get('my.key')
  } catch (e) {
    /* ... */
  }
}

Supported backends

Memory

Stores all the data in an in-memory object. This backend is set as default.

Caveat: get() will return a reference to the stored value. Mutating the returned value will affect the value in the cache.

Memcached

A thin wrapper around memcached-elasticache. You can either provide a readily configured client, or a combination of hosts and additional options. Without any additional options it will default to a local memcached on 11211.

Custom client instance

const Memcached = require('memcached-elasticache');

cached('myStuff', { backend: {
  type: 'memcached',
  client: new Memcached('192.168.0.102:11212', { poolSize: 15 }),
}});

Let cached create the instance

This will create the same cache as above.

cached('myStuff', { backend: {
  type: 'memcached',
  hosts: '192.168.0.102:11212',
  poolSize: 15,
}});

Example

cached('myStuff', { backend: {
  type: 'memory',
}});

API

cached(name: string, options) -> Cache

Creates a new named cache or returns a previously initialized cache.

  • name: (required) A meaningful name for what is in the cache. This will also be used as a key-prefix. If the name is "cars", all keys will be prefixed with "cars:"
  • options: (optional)
    • backend: An object that has at least a type property. If no backend is configured, the cache will run in "noop"-mode, not caching anything. All other properties are forwarded to the backend, see using different backends for which backend types exist and what options they support.
    • defaults: Defaults to apply for all cache operations. See Cache.setDefaults

cached.createCache(options) -> Cache

This allows you to circumvent the global named caches. The options are the same as above, just name is also part of the options object when using this function.

cached.dropNamedCache(name: string) -> cached

Drop the given named cache.

cached.dropNamedCaches() -> cached

Drop all named caches.

cached.deferred(fn) -> () -> Promise

Convert a node-style function that takes a callback as its first parameter into a parameterless function that generates a promise. In other words: this is what you'd want to wrap your node-style functions in when using them as value arguments to set or getOrElse.

Example:

const http = require('http');

const cache = cached('myStuff');
const f = cached.deferred(cb => {
  const req = http.get(myUrl, res => {
    cb(null, res.statusCode);
  });
  req.once('error', cb);
});

// f can now be called and the return value will be a promise
f().then(function(statusCode) { console.log(statusCode); });

// More importantly it can be passed into cache.set
await cache.set('someKey', f);

Cache.setDefaults(defaults) -> Cache.defaults

Extends the current defaults with the provided defaults. The two important ones are freshFor and expire:

  • expire is the time in seconds after which a value should be deleted from the cache (or whatever expiring natively means for the backend). Usually you'd want this to be 0 (never expire).
  • freshFor is the time in seconds after which a value should be replaced. Replacing the value is done in the background and while the new value is generated (e.g. data is fetched from some service) the stale value is returned. Think of freshFor as a smarter expire.
  • timeout is the maximum time in milliseconds to wait for cache operations to complete. Configuring a timeout ensures that all get, set, and unset operations fail fast. Otherwise, there will be situations where one of the cache hosts goes down and reads hang for minutes while the memcached client retries to establish a connection. It's highly recommended to set a timeout. If timeout is left undefined, no timeout will be set, and the operations will only fail once the underlying client, e.g. memcached, gave up.

Cache.get(key) -> Promise<value>

Cache retrieve operation. key has to be a string. Cache misses are generally treated the same as retrieving null, errors should only be caused by transport errors and connection problems. If you want to cache null/undefined (e.g. 404 responses), you may want to wrap it or choose a different value, like false, to represent this condition.

Example:

await cache.get('foo');

Cache.getOrElse(key, value, opts) -> Promise<value>

This is the function you'd want to use most of the time. It takes the same arguments as set but it will check the cache first. If a value is already cached, it will return it directly (respond as fast as possible). If the value is marked as stale (generated n seconds ago with n > freshFor), it will replace the value in the cache. When multiple getOrElse calls concurrently encounter the same stale value, it will only replace the value once. This is done on a per-instance level, so if you create many cache instances reading and writing the same keys, you are asking for trouble. If you don't, the worst case is every process in your system fetching the value at once. Which should be a smaller number than the number of concurrent requests in most cases.

Examples:

// with a value
const res = await cache.getOrElse('foo', 'bar');

// with a function returning a value
const res = await cache.getOrElse('foo', () => { return 'bar' });

// with a function returning a promise
const res = await cache.getOrElse('foo', () => { return Promise.resolve('bar') });

// with a promise function
const res = await cache.getOrElse('foo', async () => { return 'bar' });

Cache.set(key, value, opts) -> Promise<void>

Cache store operation. key has to be a string, for possible opts see Cache.setDefaults. The value can be any of the following:

a) Anything that can be converted to JSON
b) A Promise of (a)
c) A function returning (a) or (b)

Examples:

// with a value
await cache.set('foo', 'bar');

// with a function returning a value
await cache.set('foo', () => { return 'bar' });

// with a function returning a promise
await cache.set('foo', () => { return Promise.resolve('bar') });

// with a promise function
await cache.set('foo', async () => { return 'bar' });

Cache.flush() -> Promise<void>

Flushes backend.

Example:

await cache.flush()

Cache.unset(key) -> Promise<void>

Cache delete operation. key has to be a string.

Example:

await cache.unset('foo');