Package saml contains a partial implementation of the SAML standard in golang. SAML is a standard for identity federation, i.e. either allowing a third party to authenticate your users or allowing third parties to rely on us to authenticate their users.
In SAML parlance an Identity Provider (IDP) is a service that knows how to authenticate users. A Service Provider (SP) is a service that delegates authentication to an IDP. If you are building a service where users log in with someone else's credentials, then you are a Service Provider. This package supports implementing both service providers and identity providers.
The core package contains the implementation of SAML. The package samlsp provides helper middleware suitable for use in Service Provider applications. The package samlidp provides a rudimentary IDP service that is useful for testing or as a starting point for other integrations.
Note: between version 0.2.0 and the current master include changes to the API that will break your existing code a little.
This change turned some fields from pointers to a single optional struct into
the more correct slice of struct, and to pluralize the field name. For example,
IDPSSODescriptor *IDPSSODescriptor
has become
IDPSSODescriptors []IDPSSODescriptor
. This more accurately reflects the
standard.
The struct Metadata
has been renamed to EntityDescriptor
. In 0.2.0 and before,
every struct derived from the standard has the same name as in the standard,
except for Metadata
which should always have been called EntityDescriptor
.
In various places url.URL
is now used where string
was used <= version 0.1.0.
In various places where keys and certificates were modeled as string
<= version 0.1.0 (what was I thinking?!) they are now modeled as
*rsa.PrivateKey
, *x509.Certificate
, or crypto.PrivateKey
as appropriate.
Let us assume we have a simple web application to protect. We'll modify this application so it uses SAML to authenticate users.
package main
import "net/http"
func hello(w http.ResponseWriter, r *http.Request) {
fmt.Fprintf(w, "Hello, World!")
}
func main() {
app := http.HandlerFunc(hello)
http.Handle("/hello", app)
http.ListenAndServe(":8000", nil)
}
Each service provider must have an self-signed X.509 key pair established. You can generate your own with something like this:
openssl req -x509 -newkey rsa:2048 -keyout myservice.key -out myservice.cert -days 365 -nodes -subj "/CN=myservice.example.com"
We will use samlsp.Middleware
to wrap the endpoint we want to protect. Middleware provides both an http.Handler
to serve the SAML specific URLs and a set of wrappers to require the user to be logged in. We also provide the URL where the service provider can fetch the metadata from the IDP at startup. In our case, we'll use testshib.org, an identity provider designed for testing.
package main
import (
"crypto/rsa"
"crypto/tls"
"crypto/x509"
"fmt"
"net/http"
"net/url"
"github.com/crewjam/saml/samlsp"
)
func hello(w http.ResponseWriter, r *http.Request) {
fmt.Fprintf(w, "Hello, %s!", samlsp.Token(r.Context()).Attributes.Get("cn"))
}
func main() {
keyPair, err := tls.LoadX509KeyPair("myservice.cert", "myservice.key")
if err != nil {
panic(err) // TODO handle error
}
keyPair.Leaf, err = x509.ParseCertificate(keyPair.Certificate[0])
if err != nil {
panic(err) // TODO handle error
}
idpMetadataURL, err := url.Parse("https://www.testshib.org/metadata/testshib-providers.xml")
if err != nil {
panic(err) // TODO handle error
}
rootURL, err := url.Parse("http://localhost:8000")
if err != nil {
panic(err) // TODO handle error
}
samlSP, _ := samlsp.New(samlsp.Options{
URL: *rootURL,
Key: keyPair.PrivateKey.(*rsa.PrivateKey),
Certificate: keyPair.Leaf,
IDPMetadataURL: idpMetadataURL,
})
app := http.HandlerFunc(hello)
http.Handle("/hello", samlSP.RequireAccount(app))
http.Handle("/saml/", samlSP)
http.ListenAndServe(":8000", nil)
}
Next we'll have to register our service provider with the identity provider to establish trust from the service provider to the IDP. For testshib.org, you can do something like:
mdpath=saml-test-$USER-$HOST.xml
curl localhost:8000/saml/metadata > $mdpath
Navigate to https://www.testshib.org/register.html and upload the file you fetched.
Now you should be able to authenticate. The flow should look like this:
-
You browse to
localhost:8000/hello
-
The middleware redirects you to
https://idp.testshib.org/idp/profile/SAML2/Redirect/SSO
-
testshib.org prompts you for a username and password.
-
testshib.org returns you an HTML document which contains an HTML form setup to POST to
localhost:8000/saml/acs
. The form is automatically submitted if you have javascript enabled. -
The local service validates the response, issues a session cookie, and redirects you to the original URL,
localhost:8000/hello
. -
This time when
localhost:8000/hello
is requested there is a valid session and so the main content is served.
Please see examples/idp/
for a substantially complete example of how to use the library and helpers to be an identity provider.
The SAML standard is huge and complex with many dark corners and strange, unused features. This package implements the most commonly used subset of these features required to provide a single sign on experience. The package supports at least the subset of SAML known as interoperable SAML.
This package supports the Web SSO profile. Message flows from the service provider to the IDP are supported using the HTTP Redirect binding and the HTTP POST binding. Message flows from the IDP to the service provider are supported via the HTTP POST binding.
The package supports signed and encrypted SAML assertions. It does not support signed or encrypted requests.
The RelayState parameter allows you to pass user state information across the authentication flow. The most common use for this is to allow a user to request a deep link into your site, be redirected through the SAML login flow, and upon successful completion, be directed to the originally requested link, rather than the root.
Unfortunately, RelayState is less useful than it could be. Firstly, it is not authenticated, so anything you supply must be signed to avoid XSS or CSRF. Secondly, it is limited to 80 bytes in length, which precludes signing. (See section 3.6.3.1 of SAMLProfiles.)
The SAML specification is a collection of PDFs (sadly):
-
SAMLCore defines data types.
-
SAMLBindings defines the details of the HTTP requests in play.
-
SAMLProfiles describes data flows.
-
SAMLConformance includes a support matrix for various parts of the protocol.
TestShib is a testing ground for SAML service and identity providers.
Please do not report security issues in the issue tracker. Rather, please contact me directly at [email protected] (PGP Key 78B6038B3B9DFB88
).