GT2/GT2-iOS/node_modules/hawk/lib/server.js

551 lines
18 KiB
JavaScript
Executable File

'use strict';
// Load modules
const Boom = require('boom');
const Hoek = require('hoek');
const Cryptiles = require('cryptiles');
const Crypto = require('./crypto');
const Utils = require('./utils');
// Declare internals
const internals = {};
// Hawk authentication
/*
req: node's HTTP request object or an object as follows:
const request = {
method: 'GET',
url: '/resource/4?a=1&b=2',
host: 'example.com',
port: 8080,
authorization: 'Hawk id="dh37fgj492je", ts="1353832234", nonce="j4h3g2", ext="some-app-ext-data", mac="6R4rV5iE+NPoym+WwjeHzjAGXUtLNIxmo1vpMofpLAE="'
};
credentialsFunc: required function to lookup the set of Hawk credentials based on the provided credentials id.
The credentials include the MAC key, MAC algorithm, and other attributes (such as username)
needed by the application. This function is the equivalent of verifying the username and
password in Basic authentication.
const credentialsFunc = function (id, callback) {
// Lookup credentials in database
db.lookup(id, function (err, item) {
if (err || !item) {
return callback(err);
}
const credentials = {
// Required
key: item.key,
algorithm: item.algorithm,
// Application specific
user: item.user
};
return callback(null, credentials);
});
};
options: {
hostHeaderName: optional header field name, used to override the default 'Host' header when used
behind a cache of a proxy. Apache2 changes the value of the 'Host' header while preserving
the original (which is what the module must verify) in the 'x-forwarded-host' header field.
Only used when passed a node Http.ServerRequest object.
nonceFunc: optional nonce validation function. The function signature is function(key, nonce, ts, callback)
where 'callback' must be called using the signature function(err).
timestampSkewSec: optional number of seconds of permitted clock skew for incoming timestamps. Defaults to 60 seconds.
Provides a +/- skew which means actual allowed window is double the number of seconds.
localtimeOffsetMsec: optional local clock time offset express in a number of milliseconds (positive or negative).
Defaults to 0.
payload: optional payload for validation. The client calculates the hash value and includes it via the 'hash'
header attribute. The server always ensures the value provided has been included in the request
MAC. When this option is provided, it validates the hash value itself. Validation is done by calculating
a hash value over the entire payload (assuming it has already be normalized to the same format and
encoding used by the client to calculate the hash on request). If the payload is not available at the time
of authentication, the authenticatePayload() method can be used by passing it the credentials and
attributes.hash returned in the authenticate callback.
host: optional host name override. Only used when passed a node request object.
port: optional port override. Only used when passed a node request object.
}
callback: function (err, credentials, artifacts) { }
*/
exports.authenticate = function (req, credentialsFunc, options, callback) {
callback = Hoek.nextTick(callback);
// Default options
options.nonceFunc = options.nonceFunc || internals.nonceFunc;
options.timestampSkewSec = options.timestampSkewSec || 60; // 60 seconds
// Application time
const now = Utils.now(options.localtimeOffsetMsec); // Measure now before any other processing
// Convert node Http request object to a request configuration object
const request = Utils.parseRequest(req, options);
if (request instanceof Error) {
return callback(Boom.badRequest(request.message));
}
// Parse HTTP Authorization header
const attributes = Utils.parseAuthorizationHeader(request.authorization);
if (attributes instanceof Error) {
return callback(attributes);
}
// Construct artifacts container
const artifacts = {
method: request.method,
host: request.host,
port: request.port,
resource: request.url,
ts: attributes.ts,
nonce: attributes.nonce,
hash: attributes.hash,
ext: attributes.ext,
app: attributes.app,
dlg: attributes.dlg,
mac: attributes.mac,
id: attributes.id
};
// Verify required header attributes
if (!attributes.id ||
!attributes.ts ||
!attributes.nonce ||
!attributes.mac) {
return callback(Boom.badRequest('Missing attributes'), null, artifacts);
}
// Fetch Hawk credentials
credentialsFunc(attributes.id, (err, credentials) => {
if (err) {
return callback(err, credentials || null, artifacts);
}
if (!credentials) {
return callback(Utils.unauthorized('Unknown credentials'), null, artifacts);
}
if (!credentials.key ||
!credentials.algorithm) {
return callback(Boom.internal('Invalid credentials'), credentials, artifacts);
}
if (Crypto.algorithms.indexOf(credentials.algorithm) === -1) {
return callback(Boom.internal('Unknown algorithm'), credentials, artifacts);
}
// Calculate MAC
const mac = Crypto.calculateMac('header', credentials, artifacts);
if (!Cryptiles.fixedTimeComparison(mac, attributes.mac)) {
return callback(Utils.unauthorized('Bad mac'), credentials, artifacts);
}
// Check payload hash
if (options.payload ||
options.payload === '') {
if (!attributes.hash) {
return callback(Utils.unauthorized('Missing required payload hash'), credentials, artifacts);
}
const hash = Crypto.calculatePayloadHash(options.payload, credentials.algorithm, request.contentType);
if (!Cryptiles.fixedTimeComparison(hash, attributes.hash)) {
return callback(Utils.unauthorized('Bad payload hash'), credentials, artifacts);
}
}
// Check nonce
options.nonceFunc(credentials.key, attributes.nonce, attributes.ts, (err) => {
if (err) {
return callback(Utils.unauthorized('Invalid nonce'), credentials, artifacts);
}
// Check timestamp staleness
if (Math.abs((attributes.ts * 1000) - now) > (options.timestampSkewSec * 1000)) {
const tsm = Crypto.timestampMessage(credentials, options.localtimeOffsetMsec);
return callback(Utils.unauthorized('Stale timestamp', tsm), credentials, artifacts);
}
// Successful authentication
return callback(null, credentials, artifacts);
});
});
};
// Authenticate payload hash - used when payload cannot be provided during authenticate()
/*
payload: raw request payload
credentials: from authenticate callback
artifacts: from authenticate callback
contentType: req.headers['content-type']
*/
exports.authenticatePayload = function (payload, credentials, artifacts, contentType) {
const calculatedHash = Crypto.calculatePayloadHash(payload, credentials.algorithm, contentType);
return Cryptiles.fixedTimeComparison(calculatedHash, artifacts.hash);
};
// Authenticate payload hash - used when payload cannot be provided during authenticate()
/*
calculatedHash: the payload hash calculated using Crypto.calculatePayloadHash()
artifacts: from authenticate callback
*/
exports.authenticatePayloadHash = function (calculatedHash, artifacts) {
return Cryptiles.fixedTimeComparison(calculatedHash, artifacts.hash);
};
// Generate a Server-Authorization header for a given response
/*
credentials: {}, // Object received from authenticate()
artifacts: {} // Object received from authenticate(); 'mac', 'hash', and 'ext' - ignored
options: {
ext: 'application-specific', // Application specific data sent via the ext attribute
payload: '{"some":"payload"}', // UTF-8 encoded string for body hash generation (ignored if hash provided)
contentType: 'application/json', // Payload content-type (ignored if hash provided)
hash: 'U4MKKSmiVxk37JCCrAVIjV=' // Pre-calculated payload hash
}
*/
exports.header = function (credentials, artifacts, options) {
// Prepare inputs
options = options || {};
if (!artifacts ||
typeof artifacts !== 'object' ||
typeof options !== 'object') {
return '';
}
artifacts = Hoek.clone(artifacts);
delete artifacts.mac;
artifacts.hash = options.hash;
artifacts.ext = options.ext;
// Validate credentials
if (!credentials ||
!credentials.key ||
!credentials.algorithm) {
// Invalid credential object
return '';
}
if (Crypto.algorithms.indexOf(credentials.algorithm) === -1) {
return '';
}
// Calculate payload hash
if (!artifacts.hash &&
(options.payload || options.payload === '')) {
artifacts.hash = Crypto.calculatePayloadHash(options.payload, credentials.algorithm, options.contentType);
}
const mac = Crypto.calculateMac('response', credentials, artifacts);
// Construct header
let header = 'Hawk mac="' + mac + '"' +
(artifacts.hash ? ', hash="' + artifacts.hash + '"' : '');
if (artifacts.ext !== null &&
artifacts.ext !== undefined &&
artifacts.ext !== '') { // Other falsey values allowed
header = header + ', ext="' + Hoek.escapeHeaderAttribute(artifacts.ext) + '"';
}
return header;
};
/*
* Arguments and options are the same as authenticate() with the exception that the only supported options are:
* 'hostHeaderName', 'localtimeOffsetMsec', 'host', 'port'
*/
// 1 2 3 4
internals.bewitRegex = /^(\/.*)([\?&])bewit\=([^&$]*)(?:&(.+))?$/;
exports.authenticateBewit = function (req, credentialsFunc, options, callback) {
callback = Hoek.nextTick(callback);
// Application time
const now = Utils.now(options.localtimeOffsetMsec);
// Convert node Http request object to a request configuration object
const request = Utils.parseRequest(req, options);
if (request instanceof Error) {
return callback(Boom.badRequest(request.message));
}
// Extract bewit
if (request.url.length > Utils.limits.maxMatchLength) {
return callback(Boom.badRequest('Resource path exceeds max length'));
}
const resource = request.url.match(internals.bewitRegex);
if (!resource) {
return callback(Utils.unauthorized());
}
// Bewit not empty
if (!resource[3]) {
return callback(Utils.unauthorized('Empty bewit'));
}
// Verify method is GET
if (request.method !== 'GET' &&
request.method !== 'HEAD') {
return callback(Utils.unauthorized('Invalid method'));
}
// No other authentication
if (request.authorization) {
return callback(Boom.badRequest('Multiple authentications'));
}
// Parse bewit
const bewitString = Hoek.base64urlDecode(resource[3]);
if (bewitString instanceof Error) {
return callback(Boom.badRequest('Invalid bewit encoding'));
}
// Bewit format: id\exp\mac\ext ('\' is used because it is a reserved header attribute character)
const bewitParts = bewitString.split('\\');
if (bewitParts.length !== 4) {
return callback(Boom.badRequest('Invalid bewit structure'));
}
const bewit = {
id: bewitParts[0],
exp: parseInt(bewitParts[1], 10),
mac: bewitParts[2],
ext: bewitParts[3] || ''
};
if (!bewit.id ||
!bewit.exp ||
!bewit.mac) {
return callback(Boom.badRequest('Missing bewit attributes'));
}
// Construct URL without bewit
let url = resource[1];
if (resource[4]) {
url = url + resource[2] + resource[4];
}
// Check expiration
if (bewit.exp * 1000 <= now) {
return callback(Utils.unauthorized('Access expired'), null, bewit);
}
// Fetch Hawk credentials
credentialsFunc(bewit.id, (err, credentials) => {
if (err) {
return callback(err, credentials || null, bewit.ext);
}
if (!credentials) {
return callback(Utils.unauthorized('Unknown credentials'), null, bewit);
}
if (!credentials.key ||
!credentials.algorithm) {
return callback(Boom.internal('Invalid credentials'), credentials, bewit);
}
if (Crypto.algorithms.indexOf(credentials.algorithm) === -1) {
return callback(Boom.internal('Unknown algorithm'), credentials, bewit);
}
// Calculate MAC
const mac = Crypto.calculateMac('bewit', credentials, {
ts: bewit.exp,
nonce: '',
method: 'GET',
resource: url,
host: request.host,
port: request.port,
ext: bewit.ext
});
if (!Cryptiles.fixedTimeComparison(mac, bewit.mac)) {
return callback(Utils.unauthorized('Bad mac'), credentials, bewit);
}
// Successful authentication
return callback(null, credentials, bewit);
});
};
/*
* options are the same as authenticate() with the exception that the only supported options are:
* 'nonceFunc', 'timestampSkewSec', 'localtimeOffsetMsec'
*/
exports.authenticateMessage = function (host, port, message, authorization, credentialsFunc, options, callback) {
callback = Hoek.nextTick(callback);
// Default options
options.nonceFunc = options.nonceFunc || internals.nonceFunc;
options.timestampSkewSec = options.timestampSkewSec || 60; // 60 seconds
// Application time
const now = Utils.now(options.localtimeOffsetMsec); // Measure now before any other processing
// Validate authorization
if (!authorization.id ||
!authorization.ts ||
!authorization.nonce ||
!authorization.hash ||
!authorization.mac) {
return callback(Boom.badRequest('Invalid authorization'));
}
// Fetch Hawk credentials
credentialsFunc(authorization.id, (err, credentials) => {
if (err) {
return callback(err, credentials || null);
}
if (!credentials) {
return callback(Utils.unauthorized('Unknown credentials'));
}
if (!credentials.key ||
!credentials.algorithm) {
return callback(Boom.internal('Invalid credentials'), credentials);
}
if (Crypto.algorithms.indexOf(credentials.algorithm) === -1) {
return callback(Boom.internal('Unknown algorithm'), credentials);
}
// Construct artifacts container
const artifacts = {
ts: authorization.ts,
nonce: authorization.nonce,
host,
port,
hash: authorization.hash
};
// Calculate MAC
const mac = Crypto.calculateMac('message', credentials, artifacts);
if (!Cryptiles.fixedTimeComparison(mac, authorization.mac)) {
return callback(Utils.unauthorized('Bad mac'), credentials);
}
// Check payload hash
const hash = Crypto.calculatePayloadHash(message, credentials.algorithm);
if (!Cryptiles.fixedTimeComparison(hash, authorization.hash)) {
return callback(Utils.unauthorized('Bad message hash'), credentials);
}
// Check nonce
options.nonceFunc(credentials.key, authorization.nonce, authorization.ts, (err) => {
if (err) {
return callback(Utils.unauthorized('Invalid nonce'), credentials);
}
// Check timestamp staleness
if (Math.abs((authorization.ts * 1000) - now) > (options.timestampSkewSec * 1000)) {
return callback(Utils.unauthorized('Stale timestamp'), credentials);
}
// Successful authentication
return callback(null, credentials);
});
});
};
internals.nonceFunc = function (key, nonce, ts, nonceCallback) {
return nonceCallback(); // No validation
};