Forked from https://github.com/lawrencepit/ruby-saml-idp
The ruby SAML Identity Provider library is for implementing the server side of SAML authentication. It allows your application to act as an IdP (Identity Provider) using the SAML v2.0 protocol. It provides a means for managing authentication requests and confirmation responses for SPs (Service Providers).
This was originally setup by @lawrencepit to test SAML Clients. I took it closer to a real SAML IDP implementation.
Add this to your Gemfile:
gem 'saml_idp'
Include SamlIdp::Controller
and see the examples that use rails. It should be straightforward for you.
Basically you call decode_request(params[:SAMLRequest])
on an incoming request and then use the value
saml_acs_url
to determine the source for which you need to authenticate a user. How you authenticate
a user is entirely up to you.
Once a user has successfully authenticated on your system send the Service Provider a SAMLResponse by
posting to saml_acs_url
the parameter SAMLResponse
with the return value from a call to
encode_response(user_email)
.
Check out our Wiki page for Rails integration Rails Integration guide
By default SAML Assertion will be signed with an algorithm which defined to config.algorithm
. Because SAML assertions contain secure information used for authentication such as NameID.
Signing SAML Response is optional, but some security perspective SP services might require Response message itself must be signed.
For that, you can enable it with config.signed_message
option. More about SAML spec
Following algorithms you can set in your response signing algorithm :sha1 - RSA-SHA1 default value but not recommended to production environment Highly recommended to use one of following algorithm, suit with your computing power. :sha256 - RSA-SHA256 :sha384 - RSA-SHA384 :sha512 - RSA-SHA512
Be sure to load a file like this during your app initialization:
SamlIdp.configure do |config|
base = "http://example.com"
config.x509_certificate = <<-CERT
-----BEGIN CERTIFICATE-----
CERTIFICATE DATA
-----END CERTIFICATE-----
CERT
config.secret_key = <<-CERT
-----BEGIN RSA PRIVATE KEY-----
KEY DATA
-----END RSA PRIVATE KEY-----
CERT
# config.password = "secret_key_password"
# config.algorithm = :sha256 # Default: sha1 only for development.
# config.organization_name = "Your Organization"
# config.organization_url = "http://example.com"
# config.base_saml_location = "#{base}/saml"
# config.reference_id_generator # Default: -> { SecureRandom.uuid }
# config.single_logout_service_post_location = "#{base}/saml/logout"
# config.single_logout_service_redirect_location = "#{base}/saml/logout"
# config.attribute_service_location = "#{base}/saml/attributes"
# config.single_service_post_location = "#{base}/saml/auth"
# config.session_expiry = 86400 # Default: 0 which means never
# config.signed_message = true # Default: false which means unsigned SAML Response
# Principal (e.g. User) is passed in when you `encode_response`
#
# config.name_id.formats =
# { # All 2.0
# email_address: -> (principal) { principal.email_address },
# transient: -> (principal) { principal.id },
# persistent: -> (p) { p.id },
# }
# OR
#
# {
# "1.1" => {
# email_address: -> (principal) { principal.email_address },
# },
# "2.0" => {
# transient: -> (principal) { principal.email_address },
# persistent: -> (p) { p.id },
# },
# }
# If Principal responds to a method called `asserted_attributes`
# the return value of that method will be used in lieu of the
# attributes defined here in the global space. This allows for
# per-user attribute definitions.
#
## EXAMPLE **
# class User
# def asserted_attributes
# {
# phone: { getter: :phone },
# email: {
# getter: :email,
# name_format: Saml::XML::Namespaces::Formats::NameId::EMAIL_ADDRESS,
# name_id_format: Saml::XML::Namespaces::Formats::NameId::EMAIL_ADDRESS
# }
# }
# end
# end
#
# If you have a method called `asserted_attributes` in your Principal class,
# there is no need to define it here in the config.
# config.attributes # =>
# {
# <friendly_name> => { # required (ex "eduPersonAffiliation")
# "name" => <attrname> # required (ex "urn:oid:1.3.6.1.4.1.5923.1.1.1.1")
# "name_format" => "urn:oasis:names:tc:SAML:2.0:attrname-format:uri", # not required
# "getter" => ->(principal) { # not required
# principal.get_eduPersonAffiliation # If no "getter" defined, will try
# } # `principal.eduPersonAffiliation`, or no values will
# } # be output
#
## EXAMPLE ##
# config.attributes = {
# GivenName: {
# getter: :first_name,
# },
# SurName: {
# getter: :last_name,
# },
# }
## EXAMPLE ##
# config.technical_contact.company = "Example"
# config.technical_contact.given_name = "Jonny"
# config.technical_contact.sur_name = "Support"
# config.technical_contact.telephone = "55555555555"
# config.technical_contact.email_address = "example@example.com"
service_providers = {
"some-issuer-url.com/saml" => {
fingerprint: "9E:65:2E:03:06:8D:80:F2:86:C7:6C:77:A1:D9:14:97:0A:4D:F4:4D",
metadata_url: "http://some-issuer-url.com/saml/metadata",
# We now validate AssertionConsumerServiceURL will match the MetadataURL set above.
# *If* it's not going to match your Metadata URL's Host, then set this so we can validate the host using this list
response_hosts: ["foo.some-issuer-url.com"]
},
}
# `identifier` is the entity_id or issuer of the Service Provider,
# settings is an IncomingMetadata object which has a to_h method that needs to be persisted
config.service_provider.metadata_persister = ->(identifier, settings) {
fname = identifier.to_s.gsub(/\/|:/,"_")
FileUtils.mkdir_p(Rails.root.join('cache', 'saml', 'metadata').to_s)
File.open Rails.root.join("cache/saml/metadata/#{fname}"), "r+b" do |f|
Marshal.dump settings.to_h, f
end
}
# `identifier` is the entity_id or issuer of the Service Provider,
# `service_provider` is a ServiceProvider object. Based on the `identifier` or the
# `service_provider` you should return the settings.to_h from above
config.service_provider.persisted_metadata_getter = ->(identifier, service_provider){
fname = identifier.to_s.gsub(/\/|:/,"_")
FileUtils.mkdir_p(Rails.root.join('cache', 'saml', 'metadata').to_s)
full_filename = Rails.root.join("cache/saml/metadata/#{fname}")
if File.file?(full_filename)
File.open full_filename, "rb" do |f|
Marshal.load f
end
end
}
# Find ServiceProvider metadata_url and fingerprint based on our settings
config.service_provider.finder = ->(issuer_or_entity_id) do
service_providers[issuer_or_entity_id]
end
end
To generate the SAML Response it uses a default X.509 certificate and secret key... which isn't so secret.
You can find them in SamlIdp::Default
. The X.509 certificate is valid until year 2032.
Obviously you shouldn't use these if you intend to use this in production environments. In that case,
within the controller set the properties x509_certificate
and secret_key
using a prepend_before_action
callback within the current request context or set them globally via the SamlIdp.config.x509_certificate
and SamlIdp.config.secret_key
properties.
The fingerprint to use, if you use the default X.509 certificate of this gem, is:
9E:65:2E:03:06:8D:80:F2:86:C7:6C:77:A1:D9:14:97:0A:4D:F4:4D
The gem provides an helper to generate a fingerprint for a X.509 certificate.
The second parameter is optional and default to your configuration SamlIdp.config.algorithm
Fingerprint.certificate_digest(x509_cert, :sha512)
To act as a Service Provider which generates SAML Requests and can react to SAML Responses use the excellent ruby-saml gem.
Jon Phenow, jon@jphenow.com, jphenow.com, @jphenow
Lawrence Pit, lawrence.pit@gmail.com, lawrencepit.com, @lawrencepit
Copyright (c) 2012 Sport Ngin. Portions Copyright (c) 2010 OneLogin, LLC Portions Copyright (c) 2012 Lawrence Pit (http://lawrencepit.com)
See LICENSE for details.