discourse/spec/lib/discourse_webauthn/authentication_service_spec.rb

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# frozen_string_literal: true
require "discourse_webauthn"
##
# These tests use the following parameters generated on a local discourse
# instance to test an actual authentication flow:
#
# - credential_id
# - public_key
# - challenge
# - signature
# - authenticator_data
# - client_data_origin
#
# To create another test (e.g. for a different COSE algorithm) you need to:
#
# 1. Add a security key for a user on a local discourse instance. Go into
# the console and get the credential_id and public_key params from there.
# 2. Log out and try to log back in to that user to get the security
# key challenge
# 3. Touch the security key. Inside the authenticate_security_key method
# you need to add puts debugger statements (or use binding.pry) like so:
#
# puts client_data
# puts @params
#
# The client_data will have the challenge param, but you must Base64.decode64 to
# use it in the let(:challenge) variable.
#
# puts Base64.decode64(client_data["challenge"])
#
# You also need to make sure that client_data_param has the exact same structure
# and order of keys, otherwise even with everything else right the
# public key verification will fail.
#
# @params will contain authenticatorData and signature which you can use as is.
#
# The origin param needs to be http://localhost:3000 (that's the port tests run on)
RSpec.describe DiscourseWebauthn::AuthenticationService do
subject(:service) { described_class.new(current_user, params, **options) }
let(:security_key_user) { current_user }
let!(:security_key) do
Fabricate(
:user_security_key,
credential_id: credential_id,
public_key: public_key,
user: security_key_user,
factor_type: UserSecurityKey.factor_types[:second_factor],
last_used: nil,
name: "Some key",
)
end
let(:public_key) do
"pQECAyYgASFYIMNgw4GCpwBUlR2SznJ1yY7B9yFvsuxhfo+C9kcA4IitIlggRdofrCezymy2B/YarX+gfB6gZKg648/cHIMjf6wWmmU="
end
let(:credential_id) do
"mJAJ4CznTO0SuLkJbYwpgK75ao4KMNIPlU5KWM92nq39kRbXzI9mSv6GxTcsMYoiPgaouNw7b7zBiS4vsQaO6A=="
end
let(:secure_session) { SecureSession.new("tester") }
let(:challenge) { "81d4acfbd69eafa8f02bc2ecbec5267be8c9b28c1e0ba306d52b79f0f13d" }
let(:client_data_challenge) { Base64.strict_encode64(challenge) }
let(:client_data_webauthn_type) { "webauthn.get" }
let(:client_data_origin) { "http://localhost:3000" }
##
# IMPORTANT: For the SHA256 hash to match the same one as was used to generate
# the values for this spec, the three keys and values must be in the same order
# (challenge, origin, type)
let(:client_data_param) do
{
challenge: client_data_challenge,
origin: client_data_origin,
type: client_data_webauthn_type,
}
end
##
# These are sourced from an actual login using the UserSecurityKey credential
# defined in this spec, generated via a local discourse.
let(:signature) do
"MEUCIBppPyK8blxBDoktU54mI1vWEY96r1V5H1rEBtPDxwcGAiEAoi7LCmMoEAuWYu0krZpflZlULsbURCGcqOwP06amXYE="
end
let(:authenticator_data) { "SZYN5YgOjGh0NBcPZHZgW4/krrmihjLHmVzzuoMdl2MBAAAAVw==" }
let(:params) do
{
clientData: Base64.strict_encode64(client_data_param.to_json),
credentialId: credential_id,
authenticatorData: authenticator_data,
signature: signature,
}
end
let(:options) do
{ session: secure_session, factor_type: UserSecurityKey.factor_types[:second_factor] }
end
let(:current_user) { Fabricate(:user) }
before do
# we have to stub here because the public key was created using this specific challenge
DiscourseWebauthn.stubs(:challenge).returns(challenge)
end
it "updates last_used when the security key and params are valid" do
expect(service.authenticate_security_key).to eq(security_key)
expect(security_key.reload.last_used).not_to eq(nil)
end
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context "when params is blank" do
let(:params) { nil }
it "raises a MalformedPublicKeyCredentialError" do
expect { service.authenticate_security_key }.to raise_error(
DiscourseWebauthn::MalformedPublicKeyCredentialError,
I18n.t("webauthn.validation.malformed_public_key_credential_error"),
)
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end
end
context "when params is not blank and not a hash" do
let(:params) { "test" }
it "raises a MalformedPublicKeyCredentialError" do
expect { service.authenticate_security_key }.to raise_error(
DiscourseWebauthn::MalformedPublicKeyCredentialError,
I18n.t("webauthn.validation.malformed_public_key_credential_error"),
)
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end
end
context "when the credential ID does not match any user security key in the database" do
before { security_key.destroy }
it "raises a NotFoundError" do
expect { service.authenticate_security_key }.to raise_error(
DiscourseWebauthn::KeyNotFoundError,
I18n.t("webauthn.validation.not_found_error"),
)
end
end
context "when the credential ID does exist but it is for a different user" do
let(:security_key_user) { Fabricate(:user) }
it "raises an OwnershipError" do
expect { service.authenticate_security_key }.to raise_error(
DiscourseWebauthn::OwnershipError,
I18n.t("webauthn.validation.ownership_error"),
)
end
end
context "when the second-factor authentication is initiated without a user" do
let(:current_user) { nil }
let(:security_key_user) { Fabricate(:user) }
it "raises an OwnershipError" do
expect { service.authenticate_security_key }.to raise_error(
DiscourseWebauthn::OwnershipError,
I18n.t("webauthn.validation.ownership_error"),
)
end
end
context "when the client data webauthn type is not webauthn.get" do
let(:client_data_webauthn_type) { "webauthn.explode" }
it "raises an InvalidTypeError" do
expect { service.authenticate_security_key }.to raise_error(
DiscourseWebauthn::InvalidTypeError,
I18n.t("webauthn.validation.invalid_type_error"),
)
end
end
context "when the decoded challenge does not match the original challenge provided by the server" do
let(:client_data_challenge) { Base64.strict_encode64("invalid challenge") }
it "raises a ChallengeMismatchError" do
expect { service.authenticate_security_key }.to raise_error(
DiscourseWebauthn::ChallengeMismatchError,
I18n.t("webauthn.validation.challenge_mismatch_error"),
)
end
end
context "when the origin of the client data does not match the server origin" do
let(:client_data_origin) { "https://someothersite.com" }
it "raises a InvalidOriginError" do
expect { service.authenticate_security_key }.to raise_error(
DiscourseWebauthn::InvalidOriginError,
I18n.t("webauthn.validation.invalid_origin_error"),
)
end
end
context "when the sha256 hash of the relaying party ID does not match the one in attestation.authData" do
it "raises a InvalidRelyingPartyIdError" do
DiscourseWebauthn.stubs(:rp_id).returns("bad_rp_id")
expect { service.authenticate_security_key }.to raise_error(
DiscourseWebauthn::InvalidRelyingPartyIdError,
I18n.t("webauthn.validation.invalid_relying_party_id_error"),
)
end
end
context "when there is a problem verifying the public key (e.g. invalid signature)" do
let(:signature) { Base64.strict_encode64("badsig") }
it "raises a PublicKeyError" do
expect { service.authenticate_security_key }.to raise_error(
DiscourseWebauthn::PublicKeyError,
I18n.t("webauthn.validation.public_key_error"),
)
end
end
context "when the COSE algorithm used cannot be found" do
before { COSE::Algorithm.expects(:find).returns(nil) }
it "raises a UnknownCOSEAlgorithmError" do
expect { service.authenticate_security_key }.to raise_error(
DiscourseWebauthn::UnknownCOSEAlgorithmError,
I18n.t("webauthn.validation.unknown_cose_algorithm_error"),
)
end
end
context "for windows hello (alg -257)" do
##
# These are sourced from an actual login using the UserSecurityKey credential
# defined in this spec, generated via a local discourse.
let(:challenge) { "fa7cb122f8713745dc08e16863e087ffa2d3bfda7f1b0386ea4b14635bb6" }
let(:signature) do
"OKEP/8oiojjE+LBwg6F37yJzjOTT9mBPukrW1E8Sih5Vh/3p9WHrqZdylxr1x9z/c8GplC0ABayanpAqN/miQezt3wm97gIwoHq/6rrmHDZu6irQhpjeX9yHRlu0lQw+SUEZfoW3iB4oP/d2ryYlafFA9intm++lLlP/qI3mvpCQwkAeotaelx7fn0RwiY767dG+bGVPyYuUicGHcLLvCY2k0G8kRQ7I5SQqB+dIcOINWikC9I2xvUKu6Br7hZZIrDy+soFtdnnCnvi2q/3ocOPYL5jy58wdpCTsh1RRPIEF/fQFVDOXtdS7PVgaa0PMBcWMCe5TimwGlTlICnsm+g=="
end
let(:authenticator_data) { "SZYN5YgOjGh0NBcPZHZgW4/krrmihjLHmVzzuoMdl2MFAAAABA==" }
let(:credential_id) { "8AddFow3jT87k1UPWvjn+rOetCEambpESGZ+z/63hOE=" }
let(:public_key) do
"pAEDAzkBACBZAQCqsl50KrR5zVm/QT9vWkeGTGxby32m0QRtCRh2UWseqoG0ZmBhGeWEYvkdoYlB1jObQKEHsAeB+1NBf5q69/88AA5zv4fzrvCydCtL41EUsHYFEbaPGnB61zZmYVLTPI7BYa+fu4F4MzFa924s36tVlU/L7n04peviJVZW2C1YIQfwOGDZJSvUpqJoZMQtw1vGRfrb4cQKlHfrpDZUpa3QLE8phh4ce4nwtX1tUnUGgCy8sOaFVkDNufENGTNr8HdAIHcinUiax3yy/Q8LjSZb8UR2ha6oXSe1vRHhj001B/P/mr5AdVMxSrOT1sUNXWkHv8L8IzS/iTBQpsC8CADZIUMBAAE="
end
# This key was generated using this specific origin
let(:client_data_origin) { "http://localhost:4200" }
# This has to be in the exact same order with the same data as it was originally
# generated.
let(:client_data_param) do
{
type: client_data_webauthn_type,
challenge: client_data_challenge,
origin: client_data_origin,
crossOrigin: false,
other_keys_can_be_added_here:
"do not compare clientDataJSON against a template. See https://goo.gl/yabPex",
}
end
it "updates last_used when the security key and params are valid" do
DiscourseWebauthn.stubs(:origin).returns("http://localhost:4200")
expect(service.authenticate_security_key).to eq(security_key)
expect(security_key.reload.last_used).not_to eq(nil)
end
end
it "all supported algorithms are implemented" do
DiscourseWebauthn::SUPPORTED_ALGORITHMS.each do |alg|
expect(COSE::Algorithm.find(alg)).not_to be_nil
end
end
describe "authenticating passkeys" do
let(:options) do
{ factor_type: UserSecurityKey.factor_types[:first_factor], session: secure_session }
end
##
# These are sourced from an actual key, see instructions at the top of this spec for details
#
let(:public_key) { valid_passkey_data[:public_key] }
let(:credential_id) { valid_passkey_data[:credential_id] }
let(:signature) { valid_passkey_auth_data[:signature] }
let(:authenticator_data) { valid_passkey_auth_data[:authenticatorData] }
let(:challenge) { valid_passkey_challenge }
let(:client_data_param) { passkey_client_data_param("webauthn.get") }
let!(:security_key) do
Fabricate(
:user_security_key,
credential_id: credential_id,
public_key: public_key,
user: security_key_user,
factor_type: UserSecurityKey.factor_types[:first_factor],
last_used: nil,
name: "A key",
)
end
before do
# this essentially bypasses the user handle check for this key
# a real test would need to go through the full registration/authentication flow in one go
params[:userHandle] = Base64.strict_encode64(
security_key_user.create_or_fetch_secure_identifier,
)
end
context "with a valid passkey" do
it "works and returns the correct key credential" do
key = service.authenticate_security_key
expect(key).to eq(security_key)
expect(key.factor_type).to eq(UserSecurityKey.factor_types[:first_factor])
end
end
context "when the user verification flag in the key is false" do
it "raises a UserVerificationError" do
# simulate missing user verification in the key data
# by setting third bit to 0
flags = "10000010" # correct flag sequence is "10100010"
overriden_auth_data = service.send(:auth_data)
overriden_auth_data[32] = [flags].pack("b*")
service.instance_variable_set(:@auth_data, overriden_auth_data)
expect { service.authenticate_security_key }.to raise_error(
DiscourseWebauthn::UserVerificationError,
I18n.t("webauthn.validation.user_verification_error"),
)
end
end
context "when the user handle does not match" do
it "raises an OwnershipError" do
params[:userHandle] = Base64.strict_encode64(SecureRandom.hex(20))
expect { service.authenticate_security_key }.to raise_error(
DiscourseWebauthn::OwnershipError,
I18n.t("webauthn.validation.ownership_error"),
)
end
end
end
end