This is a SAML 2.0 authentication provider for Passport, the Node.js authentication library.
The code was originally based on Michael Bosworth's express-saml library.
Passport-SAML has been tested to work with Onelogin, Okta, Shibboleth, SimpleSAMLphp based Identity Providers, and with Active Directory Federation Services.
$ npm install passport-saml
/
The examples utilize the Feide OpenIdp identity provider. You need an account there to log in with this. You also need to register your site as a service provider.
The SAML identity provider will redirect you to the URL provided by the path
configuration.
const SamlStrategy = require('passport-saml').Strategy;
[...]
passport.use(new SamlStrategy(
{
path: '/login/callback',
entryPoint: 'https://openidp.feide.no/simplesaml/saml2/idp/SSOService.php',
issuer: 'passport-saml',
cert: 'fake cert', // cert must be provided
},
function(profile, done) {
findByEmail(profile.email, function(err, user) {
if (err) {
return done(err);
}
return done(null, user);
});
})
);
You can pass a getSamlOptions
parameter to MultiSamlStrategy
which will be called before the SAML flows. Passport-SAML will pass in the request object so you can decide which configuation is appropriate.
const { MultiSamlStrategy } = require('passport-saml');
[...]
passport.use(new MultiSamlStrategy(
{
passReqToCallback: true, // makes req available in callback
getSamlOptions: function(request, done) {
findProvider(request, function(err, provider) {
if (err) {
return done(err);
}
return done(null, provider.configuration);
});
}
},
function(req, profile, done) {
findByEmail(profile.email, function(err, user) {
if (err) {
return done(err);
}
return done(null, user);
});
})
);
The options passed when the MultiSamlStrategy
is initialized are also passed as default values to each provider.
e.g. If you provide an issuer
on MultiSamlStrategy
, this will be also a default value for every provider.
You can override these defaults by passing a new value through the getSamlOptions
function.
Using multiple providers supports validateInResponseTo
, but all the InResponse
values are stored on the same Cache. This means, if you're using the default InMemoryCache
, that all providers have access to it and a provider might get its response validated against another's request. Issue Report. To amend this you should provide a different cache provider per SAML provider, through the getSamlOptions
function.
⚠️ There's a race condition bug in versions < 1.3.3 which makes it vulnerable to DOS attacks: Please use > 1.3.3 if you want to use this issue
The profile object referenced above contains the following:
type Profile = {
issuer?: string;
sessionIndex?: string;
nameID?: string;
nameIDFormat?: string;
nameQualifier?: string;
spNameQualifier?: string;
mail?: string; // InCommon Attribute urn:oid:0.9.2342.19200300.100.1.3
email?: string; // `mail` if not present in the assertion
getAssertionXml(): string; // get the raw assertion XML
getAssertion(): object; // get the assertion XML parsed as a JavaScript object
getSamlResponseXml(): string; // get the raw SAML response XML
ID?: string;
} & {
[attributeName: string]: unknown; // arbitrary `AttributeValue`s
};
-
Core
-
callbackUrl
: full callbackUrl (overrides path/protocol if supplied) -
path
: path to callback; will be combined with protocol and server host information to construct callback url ifcallbackUrl
is not specified (default:/saml/consume
) -
protocol
: protocol for callback; will be combined with path and server host information to construct callback url ifcallbackUrl
is not specified (default:http://
) -
host
: host for callback; will be combined with path and protocol to construct callback url ifcallbackUrl
is not specified (default:localhost
) -
entryPoint
: identity provider entrypoint (is required to be spec-compliant when the request is signed) -
issuer
: issuer string to supply to identity provider -
audience
: expected saml response Audience (if not provided, Audience won't be verified) -
cert
: the IDP's public signing certificate used to validate the signatures of the incoming SAML Responses, see Security and signatures -
privateKey
: see Security and signatures. -
decryptionPvk
: optional private key that will be used to attempt to decrypt any encrypted assertions that are received -
signatureAlgorithm
: optionally set the signature algorithm for signing requests, valid values are 'sha1' (default), 'sha256', or 'sha512' -
digestAlgorithm
: optionally set the digest algorithm used to provide a digest for the signed data object, valid values are 'sha1' (default), 'sha256', or 'sha512' -
xmlSignatureTransforms
: optionally set an array of signature transforms to be used in HTTP-POST signatures. By default this is[ 'http://www.w3.org/2000/09/xmldsig#enveloped-signature', 'http://www.w3.org/2001/10/xml-exc-c14n#' ]
-
Additional SAML behaviors
-
additionalParams
: dictionary of additional query params to add to all requests; if an object with this key is passed toauthenticate
, the dictionary of additional query params will be appended to those present on the returned URL, overriding any specified by initialization options' additional parameters (additionalParams
,additionalAuthorizeParams
, andadditionalLogoutParams
) -
additionalAuthorizeParams
: dictionary of additional query params to add to 'authorize' requests -
identifierFormat
: optional name identifier format to request from identity provider (default:urn:oasis:names:tc:SAML:1.1:nameid-format:emailAddress
) -
wantAssertionsSigned
: if truthy, addWantAssertionsSigned="true"
to the metadata, to specify that the IdP should always sign the assertions. -
acceptedClockSkewMs
: Time in milliseconds of skew that is acceptable between client and server when checkingOnBefore
andNotOnOrAfter
assertion condition validity timestamps. Setting to-1
will disable checking these conditions entirely. Default is0
. -
maxAssertionAgeMs
: Amount of time after which the framework should consider an assertion expired. If the limit imposed by this variable is stricter than the limit imposed byNotOnOrAfter
, this limit will be used when determining if an assertion is expired. -
attributeConsumingServiceIndex
: optionalAttributeConsumingServiceIndex
attribute to add to AuthnRequest to instruct the IDP which attribute set to attach to the response (link) -
disableRequestedAuthnContext
: if truthy, do not request a specific authentication context. This is known to help when authenticating against Active Directory (AD FS) servers. -
authnContext
: if truthy, name identifier format to request auth context (default:urn:oasis:names:tc:SAML:2.0:ac:classes:PasswordProtectedTransport
); array of values is also supported -
racComparison
: Requested Authentication Context comparison type. Possible values are 'exact','minimum','maximum','better'. Default is 'exact'. -
forceAuthn
: if set to true, the initial SAML request from the service provider specifies that the IdP should force re-authentication of the user, even if they possess a valid session. -
providerName
: optional human-readable name of the requester for use by the presenter's user agent or the identity provider -
skipRequestCompression
: if set to true, the SAML request from the service provider won't be compressed. -
authnRequestBinding
: if set toHTTP-POST
, will request authentication from IDP via HTTP POST binding, otherwise defaults to HTTP Redirect -
disableRequestAcsUrl
: if truthy, SAML AuthnRequest from the service provider will not include the optional AssertionConsumerServiceURL. Default is falsy so it is automatically included. -
scoping
: An optional configuration which implements the functionality explained in the SAML spec paragraph "3.4.1.2 Element ". The config object is structured as following:
{
idpList: [ // optional
{
entries: [ // required
{
providerId: 'yourProviderId', // required for each entry
name: 'yourName', // optional
loc: 'yourLoc', // optional
}
],
getComplete: 'URI to your complete IDP list', // optional
},
],
proxyCount: 2, // optional
requesterId: 'requesterId', // optional
}
- InResponseTo Validation
validateInResponseTo
: if truthy, then InResponseTo will be validated from incoming SAML responsesrequestIdExpirationPeriodMs
: Defines the expiration time when a Request ID generated for a SAML request will not be valid if seen in a SAML response in theInResponseTo
field. Default is 8 hours.cacheProvider
: Defines the implementation for a cache provider used to store request Ids generated in SAML requests as part ofInResponseTo
validation. Default is a built-in in-memory cache provider. For details see the 'Cache Provider' section.- Issuer Validation
idpIssuer
: if provided, then the IdP issuer will be validated for incoming Logout Requests/Responses. For ADFS this looks likehttps://acme_tools.windows.net/deadbeef
- Passport
passReqToCallback
: if truthy,req
will be passed as the first argument to the verify callback (default:false
)name
: Optionally, provide a custom name. (default:saml
). Useful If you want to instantiate the strategy multiple times with different configurations, allowing users to authenticate against multiple different SAML targets from the same site. You'll need to use a unique set of URLs for each target, and use this custom name when callingpassport.authenticate()
as well.- Logout
logoutUrl
: base address to call with logout requests (default:entryPoint
)additionalLogoutParams
: dictionary of additional query params to add to 'logout' requestslogoutCallbackUrl
: The value with which to populate theLocation
attribute in theSingleLogoutService
elements in the generated service provider metadata.
You need to provide a route corresponding to the path
configuration parameter given to the strategy:
The authentication callback must be invoked after the body-parser
middlerware.
const bodyParser = require("body-parser");
app.post(
"/login/callback",
bodyParser.urlencoded({ extended: false }),
passport.authenticate("saml", { failureRedirect: "/", failureFlash: true }),
function (req, res) {
res.redirect("/");
}
);
Use passport.authenticate()
, specifying saml
as the strategy:
app.get(
"/login",
passport.authenticate("saml", { failureRedirect: "/", failureFlash: true }),
function (req, res) {
res.redirect("/");
}
);
...or, if you wish to add or override query string parameters:
app.get(
"/login",
passport.authenticate("saml", {
additionalParams: { username: "user@domain.com" },
}),
function (req, res) {
res.redirect("/");
}
);
As a convenience, the strategy object exposes a generateServiceProviderMetadata
method which will generate a service provider metadata document suitable for supplying to an identity provider. This method will only work on strategies which are configured with a callbackUrl
(since the relative path for the callback is not sufficient information to generate a complete metadata document).
The decryptionCert
argument should be a public certificate matching the decryptionPvk
and is required if the strategy is configured with a decryptionPvk
.
The signingCert
argument should be a public certificate matching the privateCert
and is required if the strategy is configured with a privateCert
.
The generateServiceProviderMetadata
method is also available on the MultiSamlStrategy
, but needs an extra request and a callback argument (generateServiceProviderMetadata( req, decryptionCert, signingCert, next )
), which are passed to the getSamlOptions
to retrieve the correct configuration.
Passport-SAML uses the HTTP Redirect Binding for its AuthnRequest
s (unless overridden with the authnRequestBinding
parameter), and expects to receive the messages back via the HTTP POST binding.
Authentication requests sent by Passport-SAML can be signed using RSA signature with SHA1, SHA256 or SHA512 hashing algorithms.
To select hashing algorithm, use:
...
signatureAlgorithm: 'sha1' // (default, but not recommended anymore these days)
signatureAlgorithm: 'sha256', // (preferred - your IDP should support it, otherwise think about upgrading it)
signatureAlgorithm: 'sha512' // (most secure - check if your IDP supports it)
...
To sign them you need to provide a private key in the PEM format via the privateKey
configuration key.
Formats supported for privateKey
field are,
- Well formatted PEM:
-----BEGIN PRIVATE KEY-----
<private key contents here delimited at 64 characters per row>
-----END PRIVATE KEY-----
-----BEGIN RSA PRIVATE KEY-----
<private key contents here delimited at 64 characters per row>
-----END RSA PRIVATE KEY-----
(both versions work) See example from tests of the first version of well formatted private key.
- Alternativelly a single line private key without start/end lines where all rows are joined into single line:
See example from tests of singleline private key.
Add it to strategy options like this:
privateCert: fs.readFileSync("./privateCert.pem", "utf-8");
It is a good idea to validate the signatures of the incoming SAML Responses. For this, you can provide the Identity Provider's public PEM-encoded X.509 signing certificate using the cert
configuration key. The "BEGIN CERTIFICATE" and "END CERTIFICATE" lines should be stripped out and the certificate should be provided on a single line.
cert: "MIICizCCAfQCCQCY8tKaMc0BMjANBgkqh ... W==";
If you have a certificate in the binary DER encoding, you can convert it to the necessary PEM encoding like this:
openssl x509 -inform der -in my_certificate.cer -out my_certificate.pem
If the Identity Provider has multiple signing certificates that are valid (such as during the rolling from an old key to a new key and responses signed with either key are valid) then the cert
configuration key can be an array:
cert: ["MIICizCCAfQCCQCY8tKaMc0BMjANBgkqh ... W==", "MIIEOTCCAyGgAwIBAgIJAKZgJdKdCdL6M ... g="];
The cert
configuration key can also be a function that receives a callback as argument calls back a possible error and a certificate or array of certificates. This allows the Identity Provider to be polled for valid certificates and the new certificate can be used if it is changed:
cert: function(callback) { callback(null,polledCertificates); }
Here is a configuration that has been proven to work with ADFS:
{
entryPoint: 'https://ad.example.net/adfs/ls/',
issuer: 'https://your-app.example.net/login/callback',
callbackUrl: 'https://your-app.example.net/login/callback',
cert: 'MIICizCCAfQCCQCY8tKaMc0BMjANBgkqh ... W==',
authnContext: 'http://schemas.microsoft.com/ws/2008/06/identity/authenticationmethod/windows',
identifierFormat: null
}
Please note that ADFS needs to have a trust established to your service in order for this to work.
For more detailed instructions, see ADFS documentation.
If the NotBefore
or the NotOnOrAfter
attributes are returned in the SAML response, Passport-SAML will validate them
against the current time +/- a configurable clock skew value. The default for the skew is 0s. This is to account for
differences between the clock time on the client (Node server with Passport-SAML) and the server (Identity provider).
NotBefore
and NotOnOrAfter
can be part of either the SubjectConfirmation
element, or within in the Assertion/Conditions
element
in the SAML response.
When configured (turn validateInResponseTo
to true
in the Passport-SAML config), the InResponseTo
attribute will be validated.
Validation will succeed if Passport-SAML previously generated a SAML request with an id that matches the value of InResponseTo
.
Also note that InResponseTo
is validated as an attribute of the top level Response
element in the SAML response, as well
as part of the SubjectConfirmation
element.
Previous request id's generated for SAML requests will eventually expire. This is controlled with the requestIdExpirationPeriodMs
option
passed into the Passport-SAML config. The default is 28,800,000 ms (8 hours). Once expired, a subsequent SAML response
received with an InResponseTo
equal to the expired id will not validate and an error will be returned.
When InResponseTo
validation is turned on, Passport-SAML will store generated request ids used in SAML requests to the IdP. The implementation
of how things are stored, checked to see if they exist, and eventually removed is from the Cache Provider used by Passport-SAML.
The default implementation is a simple in-memory cache provider. For multiple server/process scenarios, this will not be sufficient as
the server/process that generated the request id and stored in memory could be different than the server/process handling the
SAML response. The InResponseTo
could fail in this case erroneously.
To support this scenario you can provide an implementation for a cache provider by providing an object with following functions:
{
save: function(key, value, callback) {
// save the key with the optional value, invokes the callback with the value saves
},
get: function(key, callback) {
// invokes 'callback' and passes the value if found, null otherwise
},
remove: function(key, callback) {
// removes the key from the cache, invokes `callback` with the
// key removed, null if no key is removed
}
}
The callback
argument is a function in the style of normal Node callbacks:
function callback(err, result)
{
}
Provide an instance of an object which has these functions passed to the cacheProvider
config option when using Passport-SAML.
Passport-SAML has built in support for SLO including
- Signature validation
- IdP initiated and SP initiated logouts
- Decryption of encrypted name identifiers in IdP initiated logout
Redirect
andPOST
SAML Protocol Bindings
See Releases to find the changes that go into each release.
Gerard Braad has provided an example app at https://github.com/gbraad/passport-saml-example/
We only support Long-Term Support versions of Node.
We specifically limit our support to LTS versions of Node, not because this package won't work on other versions, but because we have a limited amount of time, and supporting LTS offers the greatest return on that investment.
It's possible this package will work correctly on newer versions of Node. It may even be possible to use this package on older versions of Node, though that's more unlikely as we'll make every effort to take advantage of features available in the oldest LTS version we support.
As each Node LTS version reaches its end-of-life we will remove that version from the node
engines
property of our package's package.json
file. Removing a Node version is considered a breaking change and will entail the publishing of a new major version of this package. We will not accept any requests to support an end-of-life version of Node. Any merge requests or issues supporting an end-of-life version of Node will be closed.
We will accept code that allows this package to run on newer, non-LTS, versions of Node.