6.1 KiB
node-fetch-cache
node-fetch with caching of responses.
The first fetch with any given arguments will result in an HTTP request and any subsequent fetch with the same arguments will read the response from the cache.
By default responses are cached in memory, but you can also cache to files on disk, or implement your own cache. See the Cache Customization section for more info.
Usage
Require it and use it the same way you would use node-fetch:
const fetch = require('node-fetch-cache');
fetch('http://google.com')
.then(response => response.text())
.then(text => console.log(text));
The next time you fetch('http://google.com')
, the response will be returned from the cache. No HTTP request will be made.
API
This module's fetch function has almost the exact same API as node-fetch, and you should consult the node-fetch documentation for how to use it.
This module just adds one extra function to the response object:
res.ejectFromCache(): Promise
This function can be used to eject the response from the cache, so that the next request will perform a true HTTP request rather than returning a cached response.
This module caches ALL responses, even those with 4xx and 5xx response statuses. You can use this function to uncache such responses if desired. For example:
const fetch = require('node-fetch-cache');
fetch('http://google.com')
.then(async response => {
if (!response.ok) {
await response.ejectFromCache();
throw new Error('Non-okay response from google.com');
} else {
return response.text();
}
}).then(text => console.log(text));
Streaming
This module does not support Stream bodies, except for fs.ReadStream. And when using fs.ReadStream, the cache key is generated based only on the path of the stream, not its content. That means if you stream /my/desktop/image.png
twice, you will get a cached response the second time, even if the content of image.png has changed.
Streams don't quite play nice with the concept of caching based on request characteristics, because we would have to read the stream to the end to find out what's in it and hash it into a proper cache key.
Cache Customization
By default responses are cached in memory, but you can also cache to files on disk, or implement your own cache.
MemoryCache
This is the default cache delegate. It caches responses in-process in a POJO.
Usage:
const { fetchBuilder, MemoryCache } = require('node-fetch-cache');
const fetch = fetchBuilder.withCache(new MemoryCache(options));
Options:
{
ttl: 1000, // Time to live. How long (in ms) responses remain cached before being automatically ejected. If undefined, responses are never automatically ejected from the cache.
}
Note that by default (if you don't use withCache()
) a shared MemoryCache will be used (you can import this module in multiple files and they will all share the same cache). If you instantiate and provide a new MemoryCache()
as shown above however, the cache is NOT shared unless you explicitly pass it around and pass it into withCache()
in each of your source files.
FileSystemCache
Cache to a directory on disk. This allows the cache to survive the process exiting.
Usage:
const { fetchBuilder, FileSystemCache } = require('node-fetch-cache');
const fetch = fetchBuilder.withCache(new FileSystemCache(options));
Options:
{
cacheDirectory: '/my/cache/directory/path', // Specify where to keep the cache. If undefined, '.cache' is used by default. If this directory does not exist, it will be created.
ttl: 1000, // Time to live. How long (in ms) responses remain cached before being automatically ejected. If undefined, responses are never automatically ejected from the cache.
}
Provide Your Own
You can implement a caching delegate yourself. The cache simply needs to be an object that has set(key, value)
, get(key)
, and remove(key)
functions.
The set function must accept a key (which will be a string) and a value (which will be a JSON-serializable JS object) and store them.
The get function should accept a key and return whatever value was set for that key (or undefined
/null
if there is no value for that key).
The remove function should accept a key and remove the cached value associated with that key, if any. It is also safe for your caching delegate to remove values from the cache arbitrarily if desired (for example if you want to implement a TTL in the caching delegate).
All three functions may be async.
For example, you could make and use your own simple memory cache like this:
class MyMemoryCache {
set(key, value) {
this[key] = value;
}
get(key) {
return this[key];
}
remove(key) {
delete this[key];
}
}
const fetchBuilder = require('node-fetch-cache');
const fetch = fetchBuilder.withCache(new MyMemoryCache());
fetch('http://google.com')
.then(response => response.text())
.then(text => console.log(text));
Importing as an ES Module
You can import this library as an ES module:
import fetch from 'node-fetch-cache';
fetch('http://google.com')
.then(response => response.text())
.then(text => console.log(text));
The default import also doubles as a fetchBuilder
, so you can use it like so if you want to customize the caching:
import fetchBuilder from 'node-fetch-cache';
const fetch = fetchBuilder.withCache(new fetchBuilder.MemoryCache({ ttl: 10000 }));
fetch('http://google.com')
.then(response => response.text())
.then(text => console.log(text));
Bugs / Help / Feature Requests / Contributing
For feature requests or help, please visit the discussions page on GitHub.
For bug reports, please file an issue on the issues page on GitHub.
Contributions welcome! Please open a pull request on GitHub with your changes. You can run them by me first on the discussions page if you'd like.