@bsneddon/npme-auth-github
v1.4.0
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GitHub authentication and authorization strategy for npm Enterprise
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npme-auth-github
GitHub authentication and authorization strategy for npm Enterprise.
Implementing your own authentication strategy
npm Enterprise authentication flow
- npm CLI calls the frontdoor host with a request to authenticate when
npm login
is invoked. - Frontdoor host calls the authentication webservice with a payload including the credentials user input.
- Authentication webservice calls its configured authentication strategy, passing the payload received to it.
- Authentication strategy either returns an object with a token and an user object to persist into the session store if authentication succeeded or no token and an optional message if authentication failed (see below for the exact API).
- If authentication succeeded, frontdoor passes the token back to npm CLI. npm CLI will further use the token to authorize its request.
Authentication strategy API
Your module needs to export an Authenticator
property. Authenticator
is
called with an object containing options for the running npm Enterprise instance
and needs to return an object with an authenticate
function, for example:
var Authenticator = exports.Authenticator = function(opts) {
};
Authenticator.prototype.authenticate = function(credentials, cb) {
};
or
exports.Authenticator = function (opts) {
function authenticate(credentials, cb) {
}
return {
authenticate: authenticate
};
};
The authenticate
function is called with an object containing a body
property,
which is what the npm CLI called the frontdoor host with:
{
body: {
name: 'foobar',
email: '[email protected]',
password: 'iloveicecream'
}
}
Basing on this, you should authenticate the user.
If authentication succeeds, you should call the callback with no error and an
object with token
and user
properties. token
will be passed back to npm
CLI in order to authorize further requests, and user
will be persisted into
the session store.
cb(null, {
token: "username-authtoken",
user: {
name: 'foobar',
email: '[email protected]'
}
});
If authentication isn't correct, you should call the callback with no error
and an object with optional message
property which will be displayed to the
user:
cb(null, {
message: "You don't work here anymore"
});
If authentication errors out (for example, your internal authentication server is down, you should call the callback with an error object:
cb(new Error('Internal authentication server unreachable'));
So, a basic implementation of an authentication strategy based on an abstract HTTP authentication service could look something like that:
var request = require('request');
var Authenticator = exports.Authenticator = function(opts) {
this.myAuthenticationHost = opts.myAuthenticationHost;
};
Authenticator.prototype.authenticate = function(credentials, cb) {
request({
url: this.myAuthenticationHost + '/auth',
method: 'POST',
json: true,
body: {
username: credentials.body.username,
password: credentials.body.password
}
}, function (err, res, body) {
if (err) {
return cb(err);
}
if (res.statusCode !== 200) {
return cb(null, {
message: 'Authentication failed'
});
}
return cb(null, {
token: body.token,
user: body.user
});
});
};
Implementing your own authorization strategy
npm Enterprise authorization flow
- With each request npm CLI makes it sends a token previously received from the
frontdoor by the way of
npm login
. - Unless specified otherwise, frontdoor checks the authorization token on every request by calling the authentication webservice.
- Authentication webservice calls its configured authorization strategy, passing the token to it and request context to it.
- Authorization strategy either returns whether authorization was successful or not.
- If authorization succeeded, and session store has a session for this token, frontdoor allows the request to go through.
Authorization strategy API
Your module needs to export an Authorizer
property. Authorizer
is called
with an object containing options for the running npm Enterprise instance
and needs to return an object with an authorize
function, for example:
var Authorizer = exports.Authorizer = function(opts) {
};
Authorizer.prototype.authorize = function(credentials, cb) {
};
or
exports.Authorizer = function (opts) {
function authorize(credentials, cb) {
}
return {
authorize: authorize
};
};
The authorize
function is called with an object that looks similar to this:
{
path: '/mymodule',
method: 'PUT',
headers: {
// ...
referer: 'npm publish',
authorization: 'Bearer ...'
},
body: {
// request body
}
}
Basing on this, you should authorize the user.
If authorization succeeds, you should call the callback with no error and true
.
cb(null, true);
If authorization fails, you should call the callback with no error and false
.
cb(null, false);
If authorization errors out (for example, your internal authorization server is down), you should call the callback with an error object:
cb(new Error('Internal authorization server unreachable'));
So, here's an example of using an abstract HTTP authorization service:
var request = require('request');
var Authorizer = exports.Authorizer = function(opts) {
this.myAuthorizationHost = opts.myAuthorizationHost;
};
Authorizer.prototype.authorize = function(credentials, cb) {
if (!credentials.headers.authorization ||
!credentials.headers.authorization.match(/Bearer /)) {
return cb(null, false);
}
request({
url: this.myAuthorizationHost + '/authorize',
method: 'POST',
json: true,
body: {
token: credentials.headers.authorization.replace('Bearer ', '')
}
}, function (err, res, body) {
if (err) {
return cb(err);
}
if (res.statusCode !== 200) {
return cb(null, false);
}
return cb(null, true);
});
};
Since you have access to the package.json
, if one is being sent by npm,
your authorization can involve various checks based on it. For example, GitHub
authorization plugin uses the repository
field in connection with using GitHub
token as the authorization token to determine if user has write access to the
package they are trying to publish.
Implementing your own session handler
Session handler is used by the authentication webservice to persist user's name and email, keyed by the token created by the authentication strategy.
The point of creating custom session handlers is to provide strategy-specific
fallbacks for when user tries authorizing requests against an npm Enterprise
instance without the token present in the session store.
For example, GitHub strategy provides a custom session store which first checks
Redis for the token, and if it's not present there, it attempts to authenticate
with GitHub with the same token. If GitHub authentication succeeds, user's
GitHub email and login are persisted back to Redis.
npm Enterprise session flow
Authentication
See npm Enterprise authentication flow for exact description of the authentication flow.
- Frontdoor host calls the authentication webservice with a payload including the credentials user input.
- Authentication webservice calls its configured authentication strategy, passing the payload received to it.
- If authentication strategy succeeds, a token is returned.
- Session handler is called with a key (in form of
"user-" + token
), and session data to persist.
Authorization
See npm Enterprise authorization flow for exact description of the authorization flow.
- With each request npm CLI makes it sends a token previously received from the
frontdoor by the way of
npm login
. - Unless specified otherwise, frontdoor checks the authorization token on every request by calling the authentication webservice.
- Authentication webservice calls its configured authorization strategy, passing the token and request context to it.
- Authorization strategy returns whether authorization was successful or not.
- If authorization succeeded, session store is called with a key (in form of
"user-" + token
) to retrieve.
Session handler API
Your module needs to export a Session
property. Session
is called with an
object containing options for the running npm Enterprise instance and needs to
return an object with get
and set
functions.
var Session = exports.Session = function(opts) {
};
Session.prototype.get = function(key, cb) {
};
Session.prototype.set = function(key, session, cb) {
};
or
exports.Session = function (opts) {
function get(key, cb) {
}
function set(key, session, cb) {
}
return {
get: get,
set: set
};
};
The get
function is called with a key to retrieve from the session store.
If getting the key from session store succeeds, you should call the callback
with the session content.
cb(null, {
name: 'foobar',
email: '[email protected]'
});
If getting the key fails, you should call the callback with an error.
cb(new Error('No such key'));
The set
function is called with a key and data to persist into the session
store. If storing the key succeeds, you should call the callback without an
error. If storing the key fails, you should call the callback with an error.
Here's an example of using a Redis-based session store, which fails over to an abstract HTTP-based authorization service:
var request = require('request');
var redis = require('redis');
var Session = exports.Session = function(opts) {
this.myAuthorizationHost = opts.myAuthorizationHost;
this.redis = redis.createClient();
};
Session.prototype._lookup = function(key, cb) {
var self = this;
request({
url: this.myAuthenticationHost + '/authorize',
method: 'POST',
json: true,
body: {
token: key.split('-').splice(1).join('-')
}
}, function (err, res, body) {
if (err) {
return cb(err);
}
if (res.statusCode !== 200) {
return cb(new Error('Authorization failed'));
}
var session = {
name: body.username,
email: body.email
};
self.set(key, session, function (err) {
if (err) {
return cb(err);
}
cb(null, session);
});
});
};
Session.prototype.get = function(key, cb) {
var self = this;
this.client.get(key, function(err, data) {
if (err) return cb(err);
if (data) return cb(null, JSON.parse(data));
self._lookup(key, cb);
});
};
Session.prototype.set = function(key, session, cb) {
this.client.set(key, JSON.stringify(session), cb);
};