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/*
* Copyright (C) 2011 Emweb bvba, Kessel-Lo, Belgium.
*
* See the LICENSE file for terms of use.
*/
#ifndef WT_AUTH_OAUTH_H_
#define WT_AUTH_OAUTH_H_
#include <Wt/WObject>
#include <Wt/WJavaScript>
#include <Wt/WString>
#include <Wt/Auth/Identity>
#include <Wt/Auth/User>
#include <Wt/Http/Message>
#include <Wt/Http/Method>
#include <boost/system/error_code.hpp>
namespace Wt {
namespace Auth {
class AuthService;
class OAuthService;
class OAuthRedirectEndpoint;
/*! \class OAuthAccessToken Wt/Auth/OAuthService
* \brief An OAuth access token.
*
* A access token is the result of an authorization process, and
* encapsulates the authorization to access protected information.
*
* Next to its value(), it also contains optionally an expires date
* and a refresh token.
*
* \sa OAuthProcess::startAuthorize(), OAuthProcess::authorized()
*
* \ingroup auth
*/
class OAuthAccessToken
{
public:
/*! \brief Default constructor.
*
* Creates an invalid access token.
*/
OAuthAccessToken();
/*! \brief Constructor.
*/
OAuthAccessToken(const std::string& value,
const WDateTime& expires,
const std::string& refreshToken);
/*! \brief Returns whether the token is valid.
*
* An invalid access token is used to signal for example that the
* user denied the authorization request.
*/
bool isValid() const { return !accessToken_.empty(); }
/*! \brief Returns the access token value.
*
* This value can be used to access protected resources.
*/
const std::string& value() const { return accessToken_; }
/*! \brief Returns the token expires time (if available).
*
* \if cpp
* Returns a Null date-time if not available.
* \elseif java
* Returns null if not available.
* \endif
*/
WDateTime expires() const { return expires_; }
/*! \brief Returns the refresh token (if available).
*
* The refresh token is an optional token that can be used when the
* access token has expired.
*
* If not available, returns an empty string.
*/
const std::string& refreshToken() const { return refreshToken_; }
/*! \brief An invalid token constant
*
* This is a token that is not isValid().
*/
static const OAuthAccessToken Invalid;
private:
std::string accessToken_, refreshToken_;
WDateTime expires_;
};
/*! \class OAuthProcess Auth/OAuthService
* \brief An OAuth authorization (and authentication) process.
*
* The process implements the state machine that is needed to complete
* an %OAuth authorization cycle.
*
* Optionally, it also provides authentication, by using the
* service-specific logic which uses the access token to return
* identity information.
*
* A process is created for a particular scope, which represents
* what kind of information one wants to access, and which is used
* to inform the user of the kind of operations he needs to
* authorize for your application to make with his protected data.
*
* \if cpp
* The configuration of the service is done using properties which are
* specific to the 3rd party provider and discussed in sub classes of
* this class. There is one property, which is optional, which can be
* configured here which is a secret used for creating the OAuth2
* 'state' hash. By default, the library will create this secret from a
* random generator, and this is sufficient for single-process deployments.
* For multi-process deployments (e.g. FastCGI), however the same value
* must be used in all processes and thus needs to be pre-configured.
*
* - <tt>oauth2-secret</tt>: a secret used for creating a state hashes.
*
* For example:
* \code
* <properties>
* ...
* <property name="oauth2-secret">U6EKaj5QurAJCWwBonvkM4i4pi7Wro2z9lEJRAKY</property>
* </properties>
* \endcode
* \endif
*
* \sa OAuthService::createProcess()
*
* \ingroup auth
*/
class OAuthProcess : public WObject
{
public:
/*! \brief Returns the scope for which this process was created.
*
* The scope represents how much protected information the web
* application wants to access, and in what way.
*
* \sa OAuthService::createProcess(), OAuthService::authenticationScope()
*/
const std::string& scope() const { return scope_; }
/*! \brief Returns the %OAuth service which spawned this process.
*
* \sa OAuthService::createProcess()
*/
const OAuthService& service() const { return service_; }
/*! \brief Starts an authorization process.
*
* This starts an authorization process to request an accesstoken
* to access protected information within the process scope.
*
* The authorization process ends with the authorized() signal which
* signals the obtained token.
*
* \note To be able to use a popup (instead of a page redirect), you
* should connect this method directly to an, since popup
* windows are blocked in most web browsers unless they are
* the direct consequence of an event.
*/
virtual void startAuthorize();
/*! \brief Starts an authorization and authentication process.
*
* This is startAuthorize() followed by getIdentity().
*
* This requires that the process is created with an authorization
* scope that includes sufficient rights for authentication (at
* least OAuthService::authenticationScope())
*
* The authentication process ends with the authenticated() signal which
* signals the obtained identity.
*
* \note To be able to use a popup (instead of a page redirect), you
* should connect this method directly to an, since popup
* windows are blocked in most web browsers unless they are
* the direct consequence of an event.
*/
virtual void startAuthenticate();
#ifdef WT_TARGET_JAVA
/*! \brief Connects an implementation to start an authentication process to a signal
*
* If JavaScript is available, this method connects a JavaScript function to
* the \p signal, otherwise startAuthenticate() is connected to \p signal.
*/
void connectStartAuthenticate(EventSignalBase &signal);
#endif
/*! \brief Obtains an authenticated identity.
*
* The authentication process uses an access token to issue one or
* more protected requests for obtaining identity
* information. This is not part of the %OAuth protocol, since
* %OAuth does not standardize the use of the access token to obtain
* this information.
*
* The authentication process ends with the authenticated() signal
* which signals the obtained identity.
*/
virtual void getIdentity(const OAuthAccessToken& token);
/*! \brief Error information, in case authentication or identification
* failed.
*
* The error message contains details when the authorized() or
* authenticated() signals indicate respectively an invalid token
* or invalid identity.
*/
WString error() const { return error_; }
/*! \brief Returns the access token.
*
* This returns the access token that was obtained in the last
* authorization cycle.
*/
const OAuthAccessToken& token() const { return token_; }
/*! \brief Authorization signal.
*
* This signal indicates the end of an authorization process
* started with startAuthorize(). If the authorization process was
* successful, then the parameter carries a valid access token
* that was obtained. If the authorization process failed then the
* access token parameter is invalid, and you can get more
* information using error().
*
* Authorization can fail because of a protocol error,
* aconfiguration problem, or because the user denied the
* authorization.
*
* \sa startAuthorize(), OAuthAccessToken::isValid()
*/
Signal<OAuthAccessToken>& authorized() { return authorized_; }
/*! \brief Authentication signal.
*
* This signal indicates the end of an authentication process
* started with startAuthenticate() or getIdentity(). If the
* authentication process was successful, then the parameter is a
* valid and authentic identity. If the authentication process
* failed then the identity parameter is invalid, and you can get
* more information using error().
*
* Authentication can fail because authorization failed (in case
* of startAuthenticate()), or because of a protocol error,
* or configuration problem.
*
* \sa startAuthenticate(), getIdentity(), Identity::isValid()
*/
Signal<Identity>& authenticated() { return authenticated_; }
protected:
/*! \brief Constructor.
*
* \sa OAuthService::createProcess()
*/
OAuthProcess(const OAuthService& service, const std::string& scope);
/*! \brief Exception thrown while parsing a token response.
*
* \sa parseTokenResponse()
*/
class TokenError
#ifdef WT_TARGET_JAVA
: public std::exception
#endif
{
public:
/*! \brief Constructor.
*/
TokenError(const WString& error) : error_(error) { }
/*! \brief The error.
*/
WString error() const { return error_; }
private:
WString error_;
};
/*! \brief Parses the response for a token request.
*
* Throws a TokenError when the response indicates an error,
* or when the response could not be properly parsed.
*
* Some OAuth implementations may uses a non-standard encoding of
* the token.
*/
virtual OAuthAccessToken parseTokenResponse(const Http::Message& response);
/*! \brief Sets the error.
*
* This should be used in getIdentity() implementations to set the
* error, before emitting authenticated() with an invalid Identity.
*/
virtual void setError(const WString& e);
private:
const OAuthService& service_;
std::string scope_;
bool authenticate_;
Signal<OAuthAccessToken> authorized_;
Signal<Identity> authenticated_;
JSignal<> redirected_;
std::string oAuthState_;
OAuthAccessToken token_;
WString error_;
std::string startInternalPath_;
OAuthRedirectEndpoint *redirectEndpoint_;
void requestToken(const std::string& authorizationCode);
void handleToken(boost::system::error_code err,
const Http::Message& response);
OAuthAccessToken parseUrlEncodedToken(const Http::Message& response);
OAuthAccessToken parseJsonToken(const Http::Message& response);
std::string authorizeUrl() const;
void handleRedirectPath(const std::string& internalPath);
void doParseTokenResponse(const Http::Message& response);
void onOAuthDone();
friend class OAuthRedirectEndpoint;
};
/*! \class OAuthService Wt/Auth/OAuthService
* \brief An %OAuth authorization (and authentication) service provider.
*
* This class implements an %OAuth client (<a
* href="http://tools.ietf.org/html/draft-ietf-oauth-v2-22">2.0
* draft</a>), which can be used to allow the user to authorize access
* to information provided by a third-party %OAuth service
* provider. This allows, among other things, for a user to safely
* authenticate with your web application without needing to store or
* even handle his authorization credentials (such as a password), a
* pattern called "OAuth2 connect".
*
* The %OAuth protocol provides a standard for a user to authorize
* access to protected resources made available by a third party
* service. The process starts with the user authenticating on an
* "authorization page" and authorizing access. This results
* eventually in an access token for the web application. The actual
* use of this token, to obtain certain information (such as an
* authenticated identity) from the third party is however not
* standardized, and there are many other uses of %OAuth besides
* authentication.
*
* Because the focus of the %Wt::Auth library is authentication, the
* %OAuth class also contains the implementation for using the access
* token for authentication (OAuthProcess::getIdentity()).
*
* Like all <b>service classes</b>, this class holds only
* configuration state. Thus, once configured, it can be safely shared
* between multiple sessions since its state (the configuration) is
* read-only.
* \if cpp
* A "const OAuthService" object is thus thread-safe.
* \endif
*
* The %OAuth authorization protocol, including the subsequent use for
* authentication, consists of a number of consecutive steps, some of
* which require user interaction, and some which require the use of
* remote web services. The state machine for this process is
* implemented in an OAuthProcess. To use %OAuth, you need to create
* such a process and listen for state changes.
*
* Usage example:
* \if cpp
* \code
* const OAuthService *oauth = ...;
*
* // Creates an icon which prompts for authentication using this OAuth service.
* WImage *icon = new WImage("css/oauth-" + auth->name() + ".png", icons);
* icon->setToolTip(auth->description());
*
* // Creates a new process for authentication, which is started by a click on the icon
* process = oauth->createProcess(oauth->authenticationScope());
* icon->clicked().connect(process_, &OAuthProcess::startAuthenticate);
*
* // And capture the result in a method.
* process_->authenticated().connect(this, &MyWidget::oauthDone);
* \endcode
* \elseif java
* \code
* OAuthService oauth = ...;
*
* // Creates an icon which prompts for authentication using this %OAuth service.
* WImage icon = new WImage("css/oauth-" + auth.getName() + ".png", icons);
* icon.setToolTip(auth.getDescription());
*
* // Creates a new process for authentication, which is started by a click on the icon
* process = oauth.createProcess(oauth.getAuthenticationScope());
* process.connectStartAuthenticate(icon.clicked());
*
* // And capture the result in a method.
* process.authenticated().addListener(this, new Signal1.Listener<Identity>() {
* public void trigger(Identity id) {
* MyWidget.this.oAuthDone(id);
* }
* });
* \endcode
* \endif
*
* \ingroup auth
*/
class WT_API OAuthService
{
public:
/*! \brief Constructor.
*
* Creates a new %OAuth service.
*/
OAuthService(const AuthService& baseAuth);
/*! \brief Destructor.
*/
virtual ~OAuthService();
/*! \brief Returns the basic authentication service.
*/
const AuthService& baseAuth() const { return baseAuth_; }
/*! \brief Creates a new authorizaiton process.
*
* This creates a new authorization process for the indicated scope.
* Valid names for the scope are service provider dependent.
*
* \sa authenticationScope()
*/
virtual OAuthProcess *createProcess(const std::string& scope) const = 0;
/*! \brief Returns the provider name.
*
* This is a short identifier.
*
* \sa description()
*/
virtual std::string name() const = 0;
/*! \brief Returns the provider description.
*
* This returns a description useful for e.g. tool tips on a login
* icon.
*
* \sa name()
*/
virtual WString description() const = 0;
/*! \brief Returns the desired width for the popup window.
*
* \sa popupHeight()
*/
virtual int popupWidth() const = 0;
/*! \brief Returns the desired height for the popup window.
*
* \sa popupWidth()
*/
virtual int popupHeight() const = 0;
// FIXME: add flags to include email (and "real name" ?)
/*! \brief Returns the scope needed for authentication.
*
* This returns the scope that is needed (and sufficient) for
* obtaining identity information, and thus to authenticate the
* user.
*
* \sa OAuthProcess::getIdentity(), OAuthProcess::startAuthenticate()
*/
virtual std::string authenticationScope() const = 0;
/*! \brief Returns the redirection endpoint URL.
*
* This is the local URL to which the browser is redirect from the
* service provider, after the authorization process. You need to
* configure this URL with the third party authentication service.
*
* A static resource will be deployed at this URL.
*
* \if cpp
* \sa WServer::addResource()
* \elseif java
* @see WtServlet#addResource(WResource r, String path)
* \endif
*/
virtual std::string redirectEndpoint() const = 0;
/*! \brief Returns the deployment path of the redirection endpoint.
*
* This returns the path at which the static resource is deployed
* that corresponds to the redirectEndpoint().
*
* The default implementation will derive this path from the
* redirectEndpoint() URL.
*/
virtual std::string redirectEndpointPath() const;
/*! \brief Returns the authorization endpoint URL.
*
* This is a remote URL which hosts the %OAuth authorization user
* interface. This URL is loaded in the popup window at the start of
* an authorization process.
*/
virtual std::string authorizationEndpoint() const = 0;
/*! \brief Returns the token endpoint URL.
*
* This is a remote URL which hosts a web-service that generates access
* tokens.
*/
virtual std::string tokenEndpoint() const = 0;
/*! \brief Returns the client ID.
*
* This is the identification for this web application with the
* %OAuth authorization server.
*/
virtual std::string clientId() const = 0;
/*! \brief Returns the client secret.
*
* This is the secret credentials for this web application with the
* %OAuth authorization server.
*/
virtual std::string clientSecret() const = 0;
/*! \brief Derives a state value from the session ID.
*
* The state value protects the authorization protocol against
* misuse, and is used to connect an authorization code response
* with a particular request.
*
* In the default implementation the state is the \p sessionId,
* crytpographically signed. This signature is verified in
* decodeState().
*/
virtual std::string encodeState(const std::string& sessionId) const;
/*! \brief Validates and decodes a state parameter.
*
* This function returns the sessionId that is encoded in the state,
* if the signature validates that it is an authentic state
* generated by encodeState().
*/
virtual std::string decodeState(const std::string& state) const;
/*! \brief Returns the HTTP method used for the token request.
*
* While the current %OAuth 2.0 draft mandates the use of POST, some
* implementations (like Facebook) use URL-encoding and a GET
* request.
*
* The default implementation returns Http::Post (corresponding to the
* current draft).
*/
virtual Http::Method tokenRequestMethod() const;
std::string generateRedirectEndpoint() const;
// FIXME document later
virtual std::string redirectInternalPath() const;
/*! \brief Configures the static resource implementing the redirect endpoint.
*
* By default, this endpoint is configured whenever it's necessary,
* but one may also configure it in advance, for example in a
* multi-process deployment (FastCGI).
*/
void configureRedirectEndpoint() const;
protected:
static std::string configurationProperty(const std::string& property);
private:
OAuthService(const OAuthService&);
const AuthService& baseAuth_;
struct Impl;
Impl *impl_;
};
}
}
#endif // WT_AUTH_OAUTH_H_
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