authelia/internal/oidc/client.go

315 lines
9.9 KiB
Go

package oidc
import (
"github.com/go-crypt/crypt/algorithm"
"github.com/ory/fosite"
"github.com/ory/x/errorsx"
"gopkg.in/square/go-jose.v2"
"github.com/authelia/authelia/v4/internal/authentication"
"github.com/authelia/authelia/v4/internal/authorization"
"github.com/authelia/authelia/v4/internal/configuration/schema"
"github.com/authelia/authelia/v4/internal/model"
)
// NewClient creates a new Client.
func NewClient(config schema.OpenIDConnectClientConfiguration) (client Client) {
base := &BaseClient{
ID: config.ID,
Description: config.Description,
Secret: config.Secret,
SectorIdentifier: config.SectorIdentifier.String(),
Public: config.Public,
EnforcePKCE: config.EnforcePKCE || config.PKCEChallengeMethod != "",
EnforcePKCEChallengeMethod: config.PKCEChallengeMethod != "",
PKCEChallengeMethod: config.PKCEChallengeMethod,
Audience: config.Audience,
Scopes: config.Scopes,
RedirectURIs: config.RedirectURIs,
GrantTypes: config.GrantTypes,
ResponseTypes: config.ResponseTypes,
ResponseModes: []fosite.ResponseModeType{},
EnforcePAR: config.EnforcePAR,
UserinfoSigningAlgorithm: config.UserinfoSigningAlgorithm,
Policy: authorization.NewLevel(config.Policy),
Consent: NewClientConsent(config.ConsentMode, config.ConsentPreConfiguredDuration),
}
for _, mode := range config.ResponseModes {
base.ResponseModes = append(base.ResponseModes, fosite.ResponseModeType(mode))
}
if config.TokenEndpointAuthMethod != "" && config.TokenEndpointAuthMethod != "auto" {
client = &FullClient{
BaseClient: base,
TokenEndpointAuthMethod: config.TokenEndpointAuthMethod,
TokenEndpointAuthSigningAlgorithm: config.TokenEndpointAuthSigningAlg,
}
} else {
client = base
}
return client
}
// GetID returns the ID.
func (c *BaseClient) GetID() string {
return c.ID
}
// GetDescription returns the Description.
func (c *BaseClient) GetDescription() string {
if c.Description == "" {
c.Description = c.GetID()
}
return c.Description
}
// GetSecret returns the Secret.
func (c *BaseClient) GetSecret() algorithm.Digest {
return c.Secret
}
// GetSectorIdentifier returns the SectorIdentifier for this client.
func (c *BaseClient) GetSectorIdentifier() string {
return c.SectorIdentifier
}
// GetHashedSecret returns the Secret.
func (c *BaseClient) GetHashedSecret() (secret []byte) {
if c.Secret == nil {
return []byte(nil)
}
return []byte(c.Secret.Encode())
}
// GetRedirectURIs returns the RedirectURIs.
func (c *BaseClient) GetRedirectURIs() (redirectURIs []string) {
return c.RedirectURIs
}
// GetGrantTypes returns the GrantTypes.
func (c *BaseClient) GetGrantTypes() fosite.Arguments {
if len(c.GrantTypes) == 0 {
return fosite.Arguments{"authorization_code"}
}
return c.GrantTypes
}
// GetResponseTypes returns the ResponseTypes.
func (c *BaseClient) GetResponseTypes() fosite.Arguments {
if len(c.ResponseTypes) == 0 {
return fosite.Arguments{"code"}
}
return c.ResponseTypes
}
// GetScopes returns the Scopes.
func (c *BaseClient) GetScopes() fosite.Arguments {
return c.Scopes
}
// GetAudience returns the Audience.
func (c *BaseClient) GetAudience() fosite.Arguments {
return c.Audience
}
// GetResponseModes returns the valid response modes for this client.
//
// Implements the fosite.ResponseModeClient.
func (c *BaseClient) GetResponseModes() []fosite.ResponseModeType {
return c.ResponseModes
}
// GetUserinfoSigningAlgorithm returns the UserinfoSigningAlgorithm.
func (c *BaseClient) GetUserinfoSigningAlgorithm() string {
if c.UserinfoSigningAlgorithm == "" {
c.UserinfoSigningAlgorithm = SigningAlgNone
}
return c.UserinfoSigningAlgorithm
}
// GetPAREnforcement returns EnforcePAR.
func (c *BaseClient) GetPAREnforcement() bool {
return c.EnforcePAR
}
// GetPKCEEnforcement returns EnforcePKCE.
func (c *BaseClient) GetPKCEEnforcement() bool {
return c.EnforcePKCE
}
// GetPKCEChallengeMethodEnforcement returns EnforcePKCEChallengeMethod.
func (c *BaseClient) GetPKCEChallengeMethodEnforcement() bool {
return c.EnforcePKCEChallengeMethod
}
// GetPKCEChallengeMethod returns PKCEChallengeMethod.
func (c *BaseClient) GetPKCEChallengeMethod() string {
return c.PKCEChallengeMethod
}
// GetAuthorizationPolicy returns Policy.
func (c *BaseClient) GetAuthorizationPolicy() authorization.Level {
return c.Policy
}
// GetConsentPolicy returns Consent.
func (c *BaseClient) GetConsentPolicy() ClientConsent {
return c.Consent
}
// GetConsentResponseBody returns the proper consent response body for this session.OIDCWorkflowSession.
func (c *BaseClient) GetConsentResponseBody(consent *model.OAuth2ConsentSession) ConsentGetResponseBody {
body := ConsentGetResponseBody{
ClientID: c.ID,
ClientDescription: c.Description,
PreConfiguration: c.Consent.Mode == ClientConsentModePreConfigured,
}
if consent != nil {
body.Scopes = consent.RequestedScopes
body.Audience = consent.RequestedAudience
}
return body
}
// IsPublic returns the value of the Public property.
func (c *BaseClient) IsPublic() bool {
return c.Public
}
// IsAuthenticationLevelSufficient returns if the provided authentication.Level is sufficient for the client of the AutheliaClient.
func (c *BaseClient) IsAuthenticationLevelSufficient(level authentication.Level) bool {
if level == authentication.NotAuthenticated {
return false
}
return authorization.IsAuthLevelSufficient(level, c.Policy)
}
// ValidatePKCEPolicy is a helper function to validate PKCE policy constraints on a per-client basis.
func (c *BaseClient) ValidatePKCEPolicy(r fosite.Requester) (err error) {
form := r.GetRequestForm()
if c.EnforcePKCE {
if form.Get(FormParameterCodeChallenge) == "" {
return errorsx.WithStack(fosite.ErrInvalidRequest.
WithHint("Clients must include a code_challenge when performing the authorize code flow, but it is missing.").
WithDebug("The server is configured in a way that enforces PKCE for this client."))
}
if c.EnforcePKCEChallengeMethod {
if method := form.Get(FormParameterCodeChallengeMethod); method != c.PKCEChallengeMethod {
return errorsx.WithStack(fosite.ErrInvalidRequest.
WithHintf("Client must use code_challenge_method=%s, %s is not allowed.", c.PKCEChallengeMethod, method).
WithDebugf("The server is configured in a way that enforces PKCE %s as challenge method for this client.", c.PKCEChallengeMethod))
}
}
}
return nil
}
// ValidatePARPolicy is a helper function to validate additional policy constraints on a per-client basis.
func (c *BaseClient) ValidatePARPolicy(r fosite.Requester, prefix string) (err error) {
if c.EnforcePAR {
if !IsPushedAuthorizedRequest(r, prefix) {
switch requestURI := r.GetRequestForm().Get(FormParameterRequestURI); requestURI {
case "":
return errorsx.WithStack(ErrPAREnforcedClientMissingPAR.WithDebug("The request_uri parameter was empty."))
default:
return errorsx.WithStack(ErrPAREnforcedClientMissingPAR.WithDebugf("The request_uri parameter '%s' is malformed.", requestURI))
}
}
}
return nil
}
// ValidateResponseModePolicy is an additional check to the response mode parameter to ensure if it's omitted that the
// default response mode for the fosite.AuthorizeRequester is permitted.
func (c *BaseClient) ValidateResponseModePolicy(r fosite.AuthorizeRequester) (err error) {
if r.GetResponseMode() != fosite.ResponseModeDefault {
return nil
}
m := r.GetDefaultResponseMode()
modes := c.GetResponseModes()
if len(modes) == 0 {
return nil
}
for _, mode := range modes {
if m == mode {
return nil
}
}
return errorsx.WithStack(fosite.ErrUnsupportedResponseMode.WithHintf(`The request omitted the response_mode making the default response_mode "%s" based on the other authorization request parameters but registered OAuth 2.0 client doesn't support this response_mode`, m))
}
// GetRequestURIs is an array of request_uri values that are pre-registered by the RP for use at the OP. Servers MAY
// cache the contents of the files referenced by these URIs and not retrieve them at the time they are used in a request.
// OPs can require that request_uri values used be pre-registered with the require_request_uri_registration
// discovery parameter.
func (c *FullClient) GetRequestURIs() []string {
return c.RequestURIs
}
// GetJSONWebKeys returns the JSON Web Key Set containing the public key used by the client to authenticate.
func (c *FullClient) GetJSONWebKeys() *jose.JSONWebKeySet {
return c.JSONWebKeys
}
// GetJSONWebKeysURI returns the URL for lookup of JSON Web Key Set containing the
// public key used by the client to authenticate.
func (c *FullClient) GetJSONWebKeysURI() string {
return c.JSONWebKeysURI
}
// GetRequestObjectSigningAlgorithm returns the JWS [JWS] alg algorithm [JWA] that MUST be used for signing Request
// Objects sent to the OP. All Request Objects from this Client MUST be rejected, if not signed with this algorithm.
func (c *FullClient) GetRequestObjectSigningAlgorithm() string {
return c.RequestObjectSigningAlgorithm
}
// GetTokenEndpointAuthMethod returns the requested Client Authentication Method for the Token Endpoint. The options are
// client_secret_post, client_secret_basic, client_secret_jwt, private_key_jwt, and none.
func (c *FullClient) GetTokenEndpointAuthMethod() string {
if c.TokenEndpointAuthMethod == "" {
if c.Public {
c.TokenEndpointAuthMethod = ClientAuthMethodNone
} else {
c.TokenEndpointAuthMethod = ClientAuthMethodClientSecretPost
}
}
return c.TokenEndpointAuthMethod
}
// GetTokenEndpointAuthSigningAlgorithm returns the JWS [JWS] alg algorithm [JWA] that MUST be used for signing the JWT
// [JWT] used to authenticate the Client at the Token Endpoint for the private_key_jwt and client_secret_jwt
// authentication methods.
func (c *FullClient) GetTokenEndpointAuthSigningAlgorithm() string {
if c.TokenEndpointAuthSigningAlgorithm == "" {
c.TokenEndpointAuthSigningAlgorithm = SigningAlgRSAUsingSHA256
}
return c.TokenEndpointAuthSigningAlgorithm
}