-rw-r--r-- | include/Makefile.am | 3 | ||||
-rw-r--r-- | include/opkele/consumer.h | 6 | ||||
-rw-r--r-- | include/opkele/server.h | 4 | ||||
-rw-r--r-- | include/opkele/types.h | 7 |
4 files changed, 10 insertions, 10 deletions
diff --git a/include/Makefile.am b/include/Makefile.am index 078c6dc..26cb614 100644 --- a/include/Makefile.am +++ b/include/Makefile.am @@ -1,19 +1,20 @@ nobase_include_HEADERS = \ opkele/acconfig.h \ opkele/opkele-config.h \ opkele/types.h \ opkele/association.h \ opkele/exception.h \ opkele/server.h \ opkele/consumer.h \ opkele/extension.h \ opkele/sreg.h \ opkele/extension_chain.h \ opkele/xconsumer.h \ opkele/xserver.h \ opkele/discovery.h \ - opkele/uris.h + opkele/uris.h \ + opkele/tr1-mem.h EXTRA_DIST = \ opkele/data.h \ opkele/curl.h opkele/expat.h \ opkele/util.h diff --git a/include/opkele/consumer.h b/include/opkele/consumer.h index c463787..3c1d318 100644 --- a/include/opkele/consumer.h +++ b/include/opkele/consumer.h @@ -1,174 +1,174 @@ #ifndef __OPKELE_CONSUMER_H #define __OPKELE_CONSUMER_H #include <opkele/types.h> #include <opkele/extension.h> /** * @file * @brief OpenID consumer-side functionality */ namespace opkele { /** * implementation of basic consumer functionality * * @note * The consumer uses libcurl internally, which means that if you're using * libopkele in multithreaded environment you should call curl_global_init * yourself before spawning any threads. */ class consumer_t { public: virtual ~consumer_t() { } /** * store association. The function should be overridden in the real * implementation to provide persistent associations store. * @param server the OpenID server * @param handle association handle * @param secret the secret associated with the server and handle * @param expires_in the number of seconds until the handle is expired - * @return the auto_ptr<> for the newly allocated association_t object + * @return the assoc_t for the newly allocated association_t object */ virtual assoc_t store_assoc(const string& server,const string& handle,const secret_t& secret,int expires_in) = 0; /** * retrieve stored association. The function should be overridden * in the real implementation to provide persistent assocations * store. * * @note * The user is responsible for handling associations expiry and * this function should never return an expired or invalidated * association. * * @param server the OpenID server * @param handle association handle * @return the autho_ptr<> for the newly allocated association_t object * @throw failed_lookup if no unexpired association found */ virtual assoc_t retrieve_assoc(const string& server,const string& handle) = 0; /** * invalidate stored association. The function should be overridden * in the real implementation of the consumer. * @param server the OpenID server * @param handle association handle */ virtual void invalidate_assoc(const string& server,const string& handle) = 0; /** * retrieve any unexpired association for the server. If the * function is not overridden in the real implementation, the new * association will be established for each request. * * @note * The user is responsible for handling associations and this * function should never return an expired or invalidated * association. * * @note * It may be a good idea to pre-expire associations shortly before * their time is really up to avoid association expiry in the * middle of negotiations. * * @param server the OpenID server - * @return the auto_ptr<> for the newly allocated association_t object + * @return the assoc_t for the newly allocated association_t object * @throw failed_lookup in case of absence of the handle */ virtual assoc_t find_assoc(const string& server); /** * retrieve the metainformation contained in link tags from the * page pointed by url. the function may implement caching of the * information. * @param url url to harvest for link tags * @param server reference to the string object where to put * openid.server value * @param delegate reference to the string object where to put the * openid.delegate value (if any) */ virtual void retrieve_links(const string& url,string& server,string& delegate); /** * perform the associate request to OpenID server. * @param server the OpenID server - * @return the auto_ptr<> for the newly allocated association_t + * @return the assoc_t for the newly allocated association_t * object, representing established association * @throw exception in case of error */ assoc_t associate(const string& server); /** * prepare the parameters for the checkid_immediate * request. * @param identity the identity to verify * @param return_to the return_to url to pass with the request * @param trust_root the trust root to advertise with the request * @param ext pointer to an extension(s) hooks object * @return the location string * @throw exception in case of error */ virtual string checkid_immediate(const string& identity,const string& return_to,const string& trust_root="",extension_t *ext=0); /** * prepare the parameters for the checkid_setup * request. * @param identity the identity to verify * @param return_to the return_to url to pass with the request * @param trust_root the trust root to advertise with the request * @param ext pointer to an extension(s) hooks object * @return the location string * @throw exception in case of error */ virtual string checkid_setup(const string& identity,const string& return_to,const string& trust_root="",extension_t *ext=0); /** * the actual implementation behind checkid_immediate() and * checkid_setup() functions. * @param mode checkid_* mode - either mode_checkid_immediate or mode_checkid_setup * @param identity the identity to verify * @param return_to the return_to url to pass with the request * @param trust_root the trust root to advertise with the request * @param ext pointer to an extension(s) hooks object * @return the location string * @throw exception in case of error */ virtual string checkid_(mode_t mode,const string& identity,const string& return_to,const string& trust_root="",extension_t *ext=0); /** * verify the id_res response * @param pin the response parameters * @param identity the identity being checked (if not specified, * @param ext pointer to an extension(s) hooks object * extracted from the openid.identity parameter * @throw id_res_mismatch in case of signature mismatch * @throw id_res_setup in case of openid.user_setup_url failure * (supposedly checkid_immediate only) * @throw id_res_failed in case of failure * @throw id_res_expired_on_delivery if the association expired before it could've been verified * @throw exception in case of other failures */ virtual void id_res(const params_t& pin,const string& identity="",extension_t *ext=0); /** * perform a check_authentication request. * @param server the OpenID server * @param p request parameters */ void check_authentication(const string& server,const params_t& p); /** * normalize URL by adding http:// and trailing slash if needed. * @param url * @return normalized url */ static string normalize(const string& url); /** * Canonicalize URL, by normalizing its appearance and following redirects. * @param url * @return canonicalized url */ virtual string canonicalize(const string& url); }; } #endif /* __OPKELE_CONSUMER_H */ diff --git a/include/opkele/server.h b/include/opkele/server.h index dd7fc41..3c25646 100644 --- a/include/opkele/server.h +++ b/include/opkele/server.h @@ -1,98 +1,98 @@ #ifndef __OPKELE_SERVER_H #define __OPKELE_SERVER_H /** * @file * @brief OpenID server-side functionality */ #include <opkele/types.h> #include <opkele/extension.h> namespace opkele { /** * implementation of basic server functionality */ class server_t { public: virtual ~server_t() { } /** * allocate the new association. The function should be overridden * in the real implementation to provide persistent assocations * store. * @param mode the mode of request being processed to base the * statelessness of the association upon - * @return the auto_ptr<> for the newly allocated association_t object + * @return the assoc_t for the newly allocated association_t object */ virtual assoc_t alloc_assoc(mode_t mode) = 0; /** * retrieve the association. The function should be overridden in * the reqal implementation to provide persistent assocations * store. * @param h association handle - * @return the auto_ptr<> for the newly allocated association_t object + * @return the assoc_t for the newly allocated association_t object * @throw failed_lookup in case of failure */ virtual assoc_t retrieve_assoc(const string& h) = 0; /** * validate the identity. * @param assoc association object * @param pin incoming request parameters * @param identity being verified * @param trust_root presented in the request * @throw exception if identity can not be confirmed */ virtual void validate(const association_t& assoc,const params_t& pin,const string& identity,const string& trust_root) = 0; /** * process the associate request. * @param pin the incoming request parameters * @param pout the store for the response parameters */ void associate(const params_t& pin,params_t& pout); /** * process the checkid_immediate request. * @param pin the incoming request parameters * @param return_to reference to the object to store return_to url to * @param pout the response parameters * @param ext pointer to the extension hooks object * @throw exception in case of errors or negative reply */ virtual void checkid_immediate(const params_t& pin,string& return_to,params_t& pout,extension_t *ext=0); /** * process the checkid_setup request. * @param pin the incoming request parameters * @param return_to reference to the object to store return_to url to * @param pout the response parameters * @param ext pointer to the extension hooks object * @throw exception in case of errors or negative reply */ virtual void checkid_setup(const params_t& pin,string& return_to,params_t& pout,extension_t *ext=0); /** * the actual functionality behind checkid_immediate() and * checkid_setup() * @param mode the request being processed (either * mode_checkid_immediate or mode_checkid_setup) * @param pin the incoming request parameters * @param return_to reference to the object to store return_to url to * @param pout the response parameters * @param ext pointer to the extension hooks object * @throw exception in case of errors or negative reply */ virtual void checkid_(mode_t mode,const params_t& pin,string& return_to,params_t& pout,extension_t *ext=0); /** * process the check_authentication request. * @param pin incoming request parameters * @param pout response parameters */ void check_authentication(const params_t& pin,params_t& pout); }; } #endif /* __OPKELE_SERVER_H */ diff --git a/include/opkele/types.h b/include/opkele/types.h index ca07df5..d959021 100644 --- a/include/opkele/types.h +++ b/include/opkele/types.h @@ -1,209 +1,208 @@ #ifndef __OPKELE_TYPES_H #define __OPKELE_TYPES_H /** * @file * @brief various types declarations */ #include <ostream> #include <vector> #include <string> #include <map> -#include <memory> #include <set> +#include <opkele/tr1-mem.h> namespace opkele { using std::vector; using std::string; using std::map; using std::ostream; - using std::auto_ptr; using std::multimap; using std::set; /** * the OpenID operation mode */ typedef enum _mode_t { mode_associate, mode_checkid_immediate, mode_checkid_setup, mode_check_association } mode_t; /** * the association secret container */ class secret_t : public vector<unsigned char> { public: /** * xor the secret and hmac together and encode, using base64 * @param key_d pointer to the message digest * @param rv reference to the return value */ void enxor_to_base64(const unsigned char *key_d,string& rv) const; /** * decode base64-encoded secret and xor it with the message digest * @param key_d pointer to the message digest * @param b64 base64-encoded secret value */ void enxor_from_base64(const unsigned char *key_d,const string& b64); /** * plainly encode to base64 representation * @param rv reference to the return value */ void to_base64(string& rv) const; /** * decode cleartext secret from base64 * @param b64 base64-encoded representation of the secret value */ void from_base64(const string& b64); }; /** * Interface to the association. */ class association_t { public: virtual ~association_t() { } /** * retrieve the server with which association was established. * @return server name */ virtual string server() const = 0; /** * retrieve the association handle. * @return handle */ virtual string handle() const = 0; /** * retrieve the association type. * @return association type */ virtual string assoc_type() const = 0; /** * retrieve the association secret. * @return association secret */ virtual secret_t secret() const = 0; /** * retrieve the number of seconds the association expires in. * @return seconds till expiration */ virtual int expires_in() const = 0; /** * check whether the association is stateless. * @return true if stateless */ virtual bool stateless() const = 0; /** * check whether the association is expired. * @return true if expired */ virtual bool is_expired() const = 0; }; /** - * the auto_ptr<> for association_t object type + * the shared_ptr<> for association_t object type */ - typedef auto_ptr<association_t> assoc_t; + typedef tr1mem::shared_ptr<association_t> assoc_t; /** * request/response parameters map */ class params_t : public map<string,string> { public: /** * check whether the parameter is present. * @param n the parameter name * @return true if yes */ bool has_param(const string& n) const; /** * retrieve the parameter (const version) * @param n the parameter name * @return the parameter value * @throw failed_lookup if there is no such parameter */ const string& get_param(const string& n) const; /** * retrieve the parameter. * @param n the parameter name * @return the parameter value * @throw failed_lookup if there is no such parameter */ string& get_param(const string& n); /** * parse the OpenID key/value data. * @param kv the OpenID key/value data */ void parse_keyvalues(const string& kv); /** * sign the fields. * @param secret the secret used for signing * @param sig reference to the string, containing base64-encoded * result * @param slist the comma-separated list of fields to sign * @param prefix the string to prepend to parameter names */ void sign(secret_t secret,string& sig,const string& slist,const char *prefix=0) const; /** * append parameters to the URL as a GET-request parameters. * @param url the base URL * @param prefix the string to prepend to parameter names * @return the ready-to-use location */ string append_query(const string& url,const char *prefix = "openid.") const; /** * make up a query string suitable for use in GET and POST * requests. * @param prefix string to prened to parameter names * @return query string */ string query_string(const char *prefix = "openid.") const; }; /** * dump the key/value pairs for the parameters to the stream. * @param o output stream * @param p the parameters */ ostream& operator << (ostream& o,const params_t& p); namespace xrd { struct priority_compare { inline bool operator()(long a,long b) const { return (a<0) ? false : (b<0) ? false : (a<b); } }; template <typename _DT> class priority_map : public multimap<long,_DT,priority_compare> { typedef multimap<long,_DT,priority_compare> map_type; public: inline _DT& add(long priority,const _DT& d) { return insert(typename map_type::value_type(priority,d))->second; } }; typedef priority_map<string> canonical_ids_t; typedef priority_map<string> local_ids_t; typedef set<string> types_t; typedef priority_map<string> uris_t; class service_t { public: types_t types; uris_t uris; local_ids_t local_ids; |