This is a JavaScript tool which provides RPKI lookup/validation functionalities.
This tool is designed to be used for data analysis and visualization, and it is able to check more than 20k prefixes per second. It works both server side with node.js or in the browser.
This tool is not designed for routing security implementation. There is no cryptography involved in this tool, the validation is based on Validated ROA Payloads files (VRPs)
VRP files are provided by:
Run:
npm install rpki-validator
Place in your code: import RpkiValidator from "rpki-validator";
To validate the a <prefix, origin> pair:
const prefix = "165.254.225.0/24";
const origin = 15562;
const verbose = true;
const rpki = new RpkiValidator();
rpki.validate(prefix, origin, verbose)
.then((result) => {
// Do something with "result"
})
The parameter verbose defines the amount of information provided as a result.
If verbose is false or missing, the result will be one of:
true- if rpki validfalse- if rpki invalidnull- if no ROA was found for this prefix
If verbose is true, the result will be an object like:
{
valid: true|false|null,
reason: "A string describing the reason",
covering: [{
asn: 15562,
prefix: "165.254.225.0/21",
maxLength: 24,
expires: 1633702845
}]
}
Possible reason values are:
- Not valid origin
- Not valid prefix length
- No ROA available for this prefix
null(whenvalidistrue)
The covering array is the list of ROAs covering the queried prefix.
IMPORTANT: In this case you are not using a VRP file, but an online API. Please, read the section below to understand how to load a VRP file and do more frequent validations.
If you are planning to validate many <prefix, origin> pairs, use preCache as shown below:
rpki.preCache()
.then(() => {
// The cache is loaded, do here your validations
rpki.validate(prefix, origin, verbose)
.then((result) => {
// Do something with "result"
})
})
The preCache method downloads a complete VRP list, this may take some seconds. Do your validations inside the .then if you want to be sure all validations are happening in cache.
If you instead do validations outside the .then, these will be executed online up to when the cache is ready. When the cache is ready, all validations will happen based on the cache.
The .preCache() method can take an optional parameter indicating after how many minutes the cache will be automatically refreshed (see below for more info). E.g., prki.preCache(60) to refresh the cache every hour.
IMPORTANT:
preCacheuses a good amount of memory (at the moment ~40Mb, but this will grow in the future) to store the cache. This may be less suitable for running in a browser.
It is possible to specify options while creating the validator. In the following way:
const options = {
httpsAgent, // an http(s) agent, e.g., to use a proxy https://www.npmjs.com/package/https-proxy-agent
connector //one of "rpkiclient", "ntt", "cloudflare", "ripe", "external", "api" (default: "rpkiclient")
};
const rpki = new RpkiValidator(options);Example, to change the VRP provider to NTT:
const rpki = new RpkiValidator({ connector: "ntt" });The VRP provider can also be changed at runtime
rpki.setConnector("ripe");Each connector has limits on how much time can be specified for the auto-refresh option:
- rpkiclient, 5 min
- ntt, 15 min
- ripe, 10 min
- cloudflare, 20 min
- external, not available (based on when new data is applied)
- api, 5 min
You can load your VRPs in the following way:
const rpki = new rpkiValidator({ connector: "external" });
rpki.setVRPs([{
prefix: "123.4.5.0/24",
maxLength: 24,
asn: 1234
}, {
prefix: "321.4.5.0/22",
maxLength: 22,
asn: 9876
}
]);
rpki.preCache()
.then(() => {
// External VRPs loaded
rpki.validate(prefix, origin, verbose)
.then((result) => {
// Do something with "result"
})
})Also, you can load your VRPs by providing a URL of an API.
const rpki = new rpkiValidator({ connector: "api", url: "https://my-api.api.com/vrps/" });
rpki.preCache()
.then(() => {
// VRPs from API loaded
rpki.validate(prefix, origin, verbose)
.then((result) => {
// Do something with "result"
})
})The API must produce a JSON output like:
{
"roas": [{
"prefix": "123.4.5.0/24",
"maxLength": 24,
"asn": 1234
}, {
"prefix": "321.4.5.0/22",
"maxLength": 22,
"asn": 9876
}]
}