#ifndef CRYPTOKI_HXX #define CRYPTOKI_HXX /*! @file @id $Id$ */ // 1 2 3 4 5 6 7 8 // 45678901234567890123456789012345678901234567890123456789012345678901234567890 // interface #include #include #include #include #include // for inline implementations only #include #include // malloc/free //! C++ Wrapper around Cryptoki API namespace cryptoki { #ifndef CRYPTOKI_FN_LOG #if __GNUC__ >= 2 #define CRYPTOKI_FN_LOG(X) (std::string(X " failed in ") \ +std::string(__PRETTY_FUNCTION__)) #else #define CRYPTOKI_FN_LOG(X) X " failed in \ " __FILE__ ":" CRYPTOKI_QUOTE(__LINE__) #endif #define UNDEF_CRYPTOKI_FN_LOG #endif template std::vector toVector(TYPE in[NUM]) { return std::vector(in, in+NUM); } #define CRYPTOKI_TO_VECTOR(ARRAY) \ toVector(ARRAY) //============================================================================ class exception: public std::exception { public: exception(const std::string& reason) throw(): _what("cryptoki: "+reason) { } ~exception() throw() {} const char* what() const throw() { return _what.c_str(); } private: std::string _what; }; //---------------------------------------------------------------------------- class not_implemented: public exception { public: not_implemented(const std::string& reason) throw(): exception("feature is not implemented:\n"+reason) { } }; //---------------------------------------------------------------------------- class access_error: public exception { public: access_error(const std::string& reason) throw(): exception("smardcard access error:\n"+reason) { } }; class Slot; typedef std::vector SlotList; class Object; typedef std::vector ObjectList; typedef std::set MechanismList; typedef std::vector AttributeTypeList; struct Attribute { Attribute(CK_ATTRIBUTE_TYPE t): type(t) {} Attribute(CK_ATTRIBUTE& attr): type(attr.type), value((char*)attr.pValue, attr.ulValueLen) { free(attr.pValue); attr.pValue = 0; } Attribute& operator=(const std::string& v) { value = v; return *this; } CK_ATTRIBUTE_TYPE type; std::string value; }; typedef std::map AttributeMap; typedef std::vector AttributeList; // //! Map Attribute Class to type // /*! @todo to be completed ... */ // template class AttributeType {}; // template<> class AttributeType { // public: typedef CK_OBJECT_CLASS Type; // public: typedef Type Param; // }; // template<> class AttributeType { // public: typedef CK_KEY_TYPE Type; // public: typedef Type Param; // }; // template<> class AttributeType { // public: typedef CK_CHAR Type; // public: typedef std::string Param; // }; // template<> class AttributeType { // public: typedef CKA_BYTE Type; // public: typedef std::string Param; // }; // template<> class AttributeType<> { // public: typedef Type; // public: typedef Type Param; // }; template class FixString: public std::string { public: FixString() {} FixString(const char* const cStr) { *this = std::string(cStr, SIZE); size_type pos(find_last_not_of(" ")); if (pos!=npos) resize(pos+1); else resize(0); } FixString(const unsigned char* const cStr) { *this = std::string((const char*)cStr, SIZE); size_type pos(find_last_not_of(" ")); if (pos!=npos) resize(pos+1); else resize(0); } FixString& operator=(const std::string& other) { std::string::operator=(other); return *this; } FixString& operator=(const char* const cStr) { *this = std::string(cStr, SIZE); size_type pos(find_last_not_of(" ")); if (pos!=npos) resize(pos+1); else resize(0); return *this; } FixString& operator=(const unsigned char* const cStr) { *this = std::string((const char*)cStr, SIZE); size_type pos(find_last_not_of(" ")); if (pos!=npos) resize(pos+1); else resize(0); return *this; } operator unsigned char*() { return (unsigned char*)begin().operator->(); } FixString fix() { FixString cpy(*this); cpy.resize(SIZE, ' '); return cpy; } }; struct MechanismInfo { CK_MECHANISM_TYPE id; std::string name; CK_ULONG minKeySize; CK_ULONG maxKeySize; CK_FLAGS flags; MechanismInfo(CK_MECHANISM_TYPE type): id(type) { switch (id) { case CKM_RSA_PKCS_KEY_PAIR_GEN: name="CKM_RSA_PKCS_KEY_PAIR_GEN"; break; case CKM_RSA_PKCS: name="CKM_RSA_PKCS"; break; case CKM_RSA_9796: name="CKM_RSA_9796"; break; case CKM_RSA_X_509: name="CKM_RSA_X_509"; break; case CKM_MD2_RSA_PKCS: name="CKM_MD2_RSA_PKCS"; break; case CKM_MD5_RSA_PKCS: name="CKM_MD5_RSA_PKCS"; break; case CKM_SHA1_RSA_PKCS: name="CKM_SHA1_RSA_PKCS"; break; case CKM_RIPEMD128_RSA_PKCS: name="CKM_RIPEMD128_RSA_PKCS"; break; case CKM_RIPEMD160_RSA_PKCS: name="CKM_RIPEMD160_RSA_PKCS"; break; case CKM_RSA_PKCS_OAEP: name="CKM_RSA_PKCS_OAEP"; break; case CKM_RSA_X9_31_KEY_PAIR_GEN: name="CKM_RSA_X9_31_KEY_PAIR_GEN"; break; case CKM_RSA_X9_31: name="CKM_RSA_X9_31"; break; case CKM_SHA1_RSA_X9_31: name="CKM_SHA1_RSA_X9_31"; break; case CKM_RSA_PKCS_PSS: name="CKM_RSA_PKCS_PSS"; break; case CKM_SHA1_RSA_PKCS_PSS: name="CKM_SHA1_RSA_PKCS_PSS"; break; case CKM_DSA_KEY_PAIR_GEN: name="CKM_DSA_KEY_PAIR_GEN"; break; case CKM_DSA: name="CKM_DSA"; break; case CKM_DSA_SHA1: name="CKM_DSA_SHA1"; break; case CKM_DH_PKCS_KEY_PAIR_GEN: name="CKM_DH_PKCS_KEY_PAIR_GEN"; break; case CKM_DH_PKCS_DERIVE: name="CKM_DH_PKCS_DERIVE"; break; case CKM_X9_42_DH_KEY_PAIR_GEN: name="CKM_X9_42_DH_KEY_PAIR_GEN"; break; case CKM_X9_42_DH_DERIVE: name="CKM_X9_42_DH_DERIVE"; break; case CKM_X9_42_DH_HYBRID_DERIVE: name="CKM_X9_42_DH_HYBRID_DERIVE"; break; case CKM_X9_42_MQV_DERIVE: name="CKM_X9_42_MQV_DERIVE"; break; case CKM_SHA256_RSA_PKCS: name="CKM_SHA256_RSA_PKCS"; break; case CKM_RC2_KEY_GEN: name="CKM_RC2_KEY_GEN"; break; case CKM_RC2_ECB: name="CKM_RC2_ECB"; break; case CKM_RC2_CBC: name="CKM_RC2_CBC"; break; case CKM_RC2_MAC: name="CKM_RC2_MAC"; break; case CKM_RC2_MAC_GENERAL: name="CKM_RC2_MAC_GENERAL"; break; case CKM_RC2_CBC_PAD: name="CKM_RC2_CBC_PAD"; break; case CKM_RC4_KEY_GEN: name="CKM_RC4_KEY_GEN"; break; case CKM_RC4: name="CKM_RC4"; break; case CKM_DES_KEY_GEN: name="CKM_DES_KEY_GEN"; break; case CKM_DES_ECB: name="CKM_DES_ECB"; break; case CKM_DES_CBC: name="CKM_DES_CBC"; break; case CKM_DES_MAC: name="CKM_DES_MAC"; break; case CKM_DES_MAC_GENERAL: name="CKM_DES_MAC_GENERAL"; break; case CKM_DES_CBC_PAD: name="CKM_DES_CBC_PAD"; break; case CKM_DES2_KEY_GEN: name="CKM_DES2_KEY_GEN"; break; case CKM_DES3_KEY_GEN: name="CKM_DES3_KEY_GEN"; break; case CKM_DES3_ECB: name="CKM_DES3_ECB"; break; case CKM_DES3_CBC: name="CKM_DES3_CBC"; break; case CKM_DES3_MAC: name="CKM_DES3_MAC"; break; case CKM_DES3_MAC_GENERAL: name="CKM_DES3_MAC_GENERAL"; break; case CKM_DES3_CBC_PAD: name="CKM_DES3_CBC_PAD"; break; case CKM_CDMF_KEY_GEN: name="CKM_CDMF_KEY_GEN"; break; case CKM_CDMF_ECB: name="CKM_CDMF_ECB"; break; case CKM_CDMF_CBC: name="CKM_CDMF_CBC"; break; case CKM_CDMF_MAC: name="CKM_CDMF_MAC"; break; case CKM_CDMF_MAC_GENERAL: name="CKM_CDMF_MAC_GENERAL"; break; case CKM_CDMF_CBC_PAD: name="CKM_CDMF_CBC_PAD"; break; case CKM_MD2: name="CKM_MD2"; break; case CKM_MD2_HMAC: name="CKM_MD2_HMAC"; break; case CKM_MD2_HMAC_GENERAL: name="CKM_MD2_HMAC_GENERAL"; break; case CKM_MD5: name="CKM_MD5"; break; case CKM_MD5_HMAC: name="CKM_MD5_HMAC"; break; case CKM_MD5_HMAC_GENERAL: name="CKM_MD5_HMAC_GENERAL"; break; case CKM_SHA_1: name="CKM_SHA_1"; break; case CKM_SHA_1_HMAC: name="CKM_SHA_1_HMAC"; break; case CKM_SHA_1_HMAC_GENERAL: name="CKM_SHA_1_HMAC_GENERAL"; break; case CKM_RIPEMD128: name="CKM_RIPEMD128"; break; case CKM_RIPEMD128_HMAC: name="CKM_RIPEMD128_HMAC"; break; case CKM_RIPEMD128_HMAC_GENERAL: name="CKM_RIPEMD128_HMAC_GENERAL"; break; case CKM_RIPEMD160: name="CKM_RIPEMD160"; break; case CKM_RIPEMD160_HMAC: name="CKM_RIPEMD160_HMAC"; break; case CKM_RIPEMD160_HMAC_GENERAL: name="CKM_RIPEMD160_HMAC_GENERAL"; break; case CKM_SHA256: name="CKM_SHA256"; break; case CKM_SHA256_HMAC: name="CKM_SHA256_HMAC"; break; case CKM_SHA256_HMAC_GENERAL: name="CKM_SHA256_HMAC_GENERAL"; break; case CKM_SHA384: name="CKM_SHA384"; break; case CKM_SHA384_HMAC: name="CKM_SHA384_HMAC"; break; case CKM_SHA384_HMAC_GENERAL: name="CKM_SHA384_HMAC_GENERAL"; break; case CKM_SHA512: name="CKM_SHA512"; break; case CKM_SHA512_HMAC: name="CKM_SHA512_HMAC"; break; case CKM_SHA512_HMAC_GENERAL: name="CKM_SHA512_HMAC_GENERAL"; break; case CKM_CAST_KEY_GEN: name="CKM_CAST_KEY_GEN"; break; case CKM_CAST_ECB: name="CKM_CAST_ECB"; break; case CKM_CAST_CBC: name="CKM_CAST_CBC"; break; case CKM_CAST_MAC: name="CKM_CAST_MAC"; break; case CKM_CAST_MAC_GENERAL: name="CKM_CAST_MAC_GENERAL"; break; case CKM_CAST_CBC_PAD: name="CKM_CAST_CBC_PAD"; break; case CKM_CAST3_KEY_GEN: name="CKM_CAST3_KEY_GEN"; break; case CKM_CAST3_ECB: name="CKM_CAST3_ECB"; break; case CKM_CAST3_CBC: name="CKM_CAST3_CBC"; break; case CKM_CAST3_MAC: name="CKM_CAST3_MAC"; break; case CKM_CAST3_MAC_GENERAL: name="CKM_CAST3_MAC_GENERAL"; break; case CKM_CAST3_CBC_PAD: name="CKM_CAST3_CBC_PAD"; break; //case CKM_CAST5_KEY_GEN: name="CKM_CAST5_KEY_GEN"; break; case CKM_CAST128_KEY_GEN: name="CKM_CAST5_KEY_GEN or CKM_CAST128_KEY_GEN"; break; //case CKM_CAST5_ECB: name="CKM_CAST5_ECB"; break; case CKM_CAST128_ECB: name="CKM_CAST5_ECB or CKM_CAST128_ECB"; break; //case CKM_CAST5_CBC: name="CKM_CAST5_CBC"; break; case CKM_CAST128_CBC: name="CKM_CAST5_CBC or CKM_CAST128_CBC"; break; //case CKM_CAST5_MAC: name="CKM_CAST5_MAC"; break; case CKM_CAST128_MAC: name="CKM_CAST5_MAC or CKM_CAST128_MAC"; break; //case CKM_CAST5_MAC_GENERAL: name="CKM_CAST5_MAC_GENERAL"; break; case CKM_CAST128_MAC_GENERAL: name="CKM_CAST5_MAC_GENERAL or CKM_CAST128_MAC_GENERAL"; break; //case CKM_CAST5_CBC_PAD: name="CKM_CAST5_CBC_PAD"; break; case CKM_CAST128_CBC_PAD: name="CKM_CAST5_CBC_PAD or CKM_CAST128_CBC_PAD"; break; case CKM_RC5_KEY_GEN: name="CKM_RC5_KEY_GEN"; break; case CKM_RC5_ECB: name="CKM_RC5_ECB"; break; case CKM_RC5_CBC: name="CKM_RC5_CBC"; break; case CKM_RC5_MAC: name="CKM_RC5_MAC"; break; case CKM_RC5_MAC_GENERAL: name="CKM_RC5_MAC_GENERAL"; break; case CKM_RC5_CBC_PAD: name="CKM_RC5_CBC_PAD"; break; case CKM_IDEA_KEY_GEN: name="CKM_IDEA_KEY_GEN"; break; case CKM_IDEA_ECB: name="CKM_IDEA_ECB"; break; case CKM_IDEA_CBC: name="CKM_IDEA_CBC"; break; case CKM_IDEA_MAC: name="CKM_IDEA_MAC"; break; case CKM_IDEA_MAC_GENERAL: name="CKM_IDEA_MAC_GENERAL"; break; case CKM_IDEA_CBC_PAD: name="CKM_IDEA_CBC_PAD"; break; case CKM_GENERIC_SECRET_KEY_GEN: name="CKM_GENERIC_SECRET_KEY_GEN"; break; case CKM_CONCATENATE_BASE_AND_KEY: name="CKM_CONCATENATE_BASE_AND_KEY"; break; case CKM_CONCATENATE_BASE_AND_DATA: name="CKM_CONCATENATE_BASE_AND_DATA"; break; case CKM_CONCATENATE_DATA_AND_BASE: name="CKM_CONCATENATE_DATA_AND_BASE"; break; case CKM_XOR_BASE_AND_DATA: name="CKM_XOR_BASE_AND_DATA"; break; case CKM_EXTRACT_KEY_FROM_KEY: name="CKM_EXTRACT_KEY_FROM_KEY"; break; case CKM_SSL3_PRE_MASTER_KEY_GEN: name="CKM_SSL3_PRE_MASTER_KEY_GEN"; break; case CKM_SSL3_MASTER_KEY_DERIVE: name="CKM_SSL3_MASTER_KEY_DERIVE"; break; case CKM_SSL3_KEY_AND_MAC_DERIVE: name="CKM_SSL3_KEY_AND_MAC_DERIVE"; break; case CKM_SSL3_MASTER_KEY_DERIVE_DH: name="CKM_SSL3_MASTER_KEY_DERIVE_DH"; break; case CKM_TLS_PRE_MASTER_KEY_GEN: name="CKM_TLS_PRE_MASTER_KEY_GEN"; break; case CKM_TLS_MASTER_KEY_DERIVE: name="CKM_TLS_MASTER_KEY_DERIVE"; break; case CKM_TLS_KEY_AND_MAC_DERIVE: name="CKM_TLS_KEY_AND_MAC_DERIVE"; break; case CKM_TLS_MASTER_KEY_DERIVE_DH: name="CKM_TLS_MASTER_KEY_DERIVE_DH"; break; case CKM_SSL3_MD5_MAC: name="CKM_SSL3_MD5_MAC"; break; case CKM_SSL3_SHA1_MAC: name="CKM_SSL3_SHA1_MAC"; break; case CKM_MD5_KEY_DERIVATION: name="CKM_MD5_KEY_DERIVATION"; break; case CKM_MD2_KEY_DERIVATION: name="CKM_MD2_KEY_DERIVATION"; break; case CKM_SHA1_KEY_DERIVATION: name="CKM_SHA1_KEY_DERIVATION"; break; case CKM_SHA256_KEY_DERIVATION: name="CKM_SHA256_KEY_DERIVATION"; break; case CKM_PBE_MD2_DES_CBC: name="CKM_PBE_MD2_DES_CBC"; break; case CKM_PBE_MD5_DES_CBC: name="CKM_PBE_MD5_DES_CBC"; break; case CKM_PBE_MD5_CAST_CBC: name="CKM_PBE_MD5_CAST_CBC"; break; case CKM_PBE_MD5_CAST3_CBC: name="CKM_PBE_MD5_CAST3_CBC"; break; //case CKM_PBE_MD5_CAST5_CBC: name="CKM_PBE_MD5_CAST5_CBC"; break; case CKM_PBE_MD5_CAST128_CBC: name="CKM_PBE_MD5_CAST5_CBC or CKM_PBE_MD5_CAST128_CBC"; break; //case CKM_PBE_SHA1_CAST5_CBC: name="CKM_PBE_SHA1_CAST5_CBC"; break; case CKM_PBE_SHA1_CAST128_CBC: name="CKM_PBE_SHA1_CAST5_CBC or CKM_PBE_SHA1_CAST128_CBC"; break; case CKM_PBE_SHA1_RC4_128: name="CKM_PBE_SHA1_RC4_128"; break; case CKM_PBE_SHA1_RC4_40: name="CKM_PBE_SHA1_RC4_40"; break; case CKM_PBE_SHA1_DES3_EDE_CBC: name="CKM_PBE_SHA1_DES3_EDE_CBC"; break; case CKM_PBE_SHA1_DES2_EDE_CBC: name="CKM_PBE_SHA1_DES2_EDE_CBC"; break; case CKM_PBE_SHA1_RC2_128_CBC: name="CKM_PBE_SHA1_RC2_128_CBC"; break; case CKM_PBE_SHA1_RC2_40_CBC: name="CKM_PBE_SHA1_RC2_40_CBC"; break; case CKM_PKCS5_PBKD2: name="CKM_PKCS5_PBKD2"; break; case CKM_PBA_SHA1_WITH_SHA1_HMAC: name="CKM_PBA_SHA1_WITH_SHA1_HMAC"; break; case CKM_KEY_WRAP_LYNKS: name="CKM_KEY_WRAP_LYNKS"; break; case CKM_KEY_WRAP_SET_OAEP: name="CKM_KEY_WRAP_SET_OAEP"; break; case CKM_SKIPJACK_KEY_GEN: name="CKM_SKIPJACK_KEY_GEN"; break; case CKM_SKIPJACK_ECB64: name="CKM_SKIPJACK_ECB64"; break; case CKM_SKIPJACK_CBC64: name="CKM_SKIPJACK_CBC64"; break; case CKM_SKIPJACK_OFB64: name="CKM_SKIPJACK_OFB64"; break; case CKM_SKIPJACK_CFB64: name="CKM_SKIPJACK_CFB64"; break; case CKM_SKIPJACK_CFB32: name="CKM_SKIPJACK_CFB32"; break; case CKM_SKIPJACK_CFB16: name="CKM_SKIPJACK_CFB16"; break; case CKM_SKIPJACK_CFB8: name="CKM_SKIPJACK_CFB8"; break; case CKM_SKIPJACK_WRAP: name="CKM_SKIPJACK_WRAP"; break; case CKM_SKIPJACK_PRIVATE_WRAP: name="CKM_SKIPJACK_PRIVATE_WRAP"; break; case CKM_SKIPJACK_RELAYX: name="CKM_SKIPJACK_RELAYX"; break; case CKM_KEA_KEY_PAIR_GEN: name="CKM_KEA_KEY_PAIR_GEN"; break; case CKM_KEA_KEY_DERIVE: name="CKM_KEA_KEY_DERIVE"; break; case CKM_FORTEZZA_TIMESTAMP: name="CKM_FORTEZZA_TIMESTAMP"; break; case CKM_BATON_KEY_GEN: name="CKM_BATON_KEY_GEN"; break; case CKM_BATON_ECB128: name="CKM_BATON_ECB128"; break; case CKM_BATON_ECB96: name="CKM_BATON_ECB96"; break; case CKM_BATON_CBC128: name="CKM_BATON_CBC128"; break; case CKM_BATON_COUNTER: name="CKM_BATON_COUNTER"; break; case CKM_BATON_SHUFFLE: name="CKM_BATON_SHUFFLE"; break; case CKM_BATON_WRAP: name="CKM_BATON_WRAP"; break; //case CKM_ECDSA_KEY_PAIR_GEN: name="CKM_ECDSA_KEY_PAIR_GEN"; break; case CKM_EC_KEY_PAIR_GEN: name="CKM_ECDSA_KEY_PAIR_GEN or CKM_EC_KEY_PAIR_GEN"; break; case CKM_ECDSA: name="CKM_ECDSA"; break; case CKM_ECDSA_SHA1: name="CKM_ECDSA_SHA1"; break; case CKM_ECDH1_DERIVE: name="CKM_ECDH1_DERIVE"; break; case CKM_ECDH1_COFACTOR_DERIVE: name="CKM_ECDH1_COFACTOR_DERIVE"; break; case CKM_ECMQV_DERIVE: name="CKM_ECMQV_DERIVE"; break; case CKM_JUNIPER_KEY_GEN: name="CKM_JUNIPER_KEY_GEN"; break; case CKM_JUNIPER_ECB128: name="CKM_JUNIPER_ECB128"; break; case CKM_JUNIPER_CBC128: name="CKM_JUNIPER_CBC128"; break; case CKM_JUNIPER_COUNTER: name="CKM_JUNIPER_COUNTER"; break; case CKM_JUNIPER_SHUFFLE: name="CKM_JUNIPER_SHUFFLE"; break; case CKM_JUNIPER_WRAP: name="CKM_JUNIPER_WRAP"; break; case CKM_FASTHASH: name="CKM_FASTHASH"; break; case CKM_AES_KEY_GEN: name="CKM_AES_KEY_GEN"; break; case CKM_AES_ECB: name="CKM_AES_ECB"; break; case CKM_AES_CBC: name="CKM_AES_CBC"; break; case CKM_AES_MAC: name="CKM_AES_MAC"; break; case CKM_AES_MAC_GENERAL: name="CKM_AES_MAC_GENERAL"; break; case CKM_AES_CBC_PAD: name="CKM_AES_CBC_PAD"; break; case CKM_DSA_PARAMETER_GEN: name="CKM_DSA_PARAMETER_GEN"; break; case CKM_DH_PKCS_PARAMETER_GEN: name="CKM_DH_PKCS_PARAMETER_GEN"; break; case CKM_X9_42_DH_PARAMETER_GEN: name="CKM_X9_42_DH_PARAMETER_GEN"; break; case CKM_VENDOR_DEFINED: name="CKM_VENDOR_DEFINED"; break; default: { std::stringstream ss; ss<<"unknown mechanism: "< slotDescription; FixString<32> manufacturerID; CK_FLAGS flags; CK_VERSION hardwareVersion; CK_VERSION firmwareVersion; }; struct TokenInfo { FixString<32> label; FixString<32> manufacturerID; FixString<16> model; FixString<16> serialNumber; CK_FLAGS flags; CK_ULONG maxSessionCount; CK_ULONG sessionCount; CK_ULONG maxRwSessionCount; CK_ULONG rwSessionCount; CK_ULONG maxPinLen; CK_ULONG minPinLen; CK_ULONG totalPublicMemory; CK_ULONG freePublicMemory; CK_ULONG totalPrivateMemory; CK_ULONG freePrivateMemory; CK_VERSION hardwareVersion; CK_VERSION firmwareVersion; FixString<16> utcTime; }; struct Info { CK_VERSION cryptokiVersion; FixString<32> manufacturerID; CK_FLAGS flags; FixString<32> libraryDescription; CK_VERSION libraryVersion; }; //! to be instanciated before first use class Init { private: friend class Slot; friend class Session; friend class Object; bool _exc; CK_RV _res; CK_FUNCTION_LIST* _fn; Init(const Init&); // forbidden Init& operator=(const Init&); // forbidden //! Initialize Funcion List for this Instance bool functionList(const std::string& library); bool check(CK_RV result, const std::string& context=""); /*! @return error text of last cryptoki call */ std::string error(CK_RV res); public: //! Initialize for a given library (default cryptoki) /*! Please notem, that you must not instanciate more than one Init per unique function list! @param fn function list to be used within this instance @param exc wether exceptions should be thrown */ Init(const std::string& library="onepin-opensc-pkcs11.so", bool exc=true); /*! @name C Like Error Handling You are strongly recommended not to disable exception handling. If you disable it, you must check after every operation whether it was successful or not. These methods provide all you need for that. */ //@{ /*! @return @c true if last cryptoki on this object call was successful */ operator bool(); /*! @return error text of last cryptoki call */ std::string error(); //@} Info info() { Info inf; CK_INFO cInf; //! calls @c C_GetInfo if (!check(_fn->C_GetInfo(&cInf), CRYPTOKI_FN_LOG("C_GetInfo"))) return inf; inf.cryptokiVersion = cInf.cryptokiVersion; inf.manufacturerID = cInf.manufacturerID; inf.flags = cInf.flags; inf.libraryDescription = cInf.libraryDescription; inf.libraryVersion = cInf.libraryVersion; return inf; } //! Get a list of available slots /*! @param tokenPresent whether a token must be inserted into the reader @return list of matching slots */ SlotList slotList(bool tokenPresent=true); }; //! Slot and Token Management class Slot { private: friend class Init; friend class Session; friend class Object; Init* _init; CK_SLOT_ID _slot; CK_RV _res; Slot(Init& init, CK_SLOT_ID slot): _init(&init), _slot(slot), _res(CKR_OK) { } bool check(CK_RV result, const std::string& context="") { _res = result; if (_init->_exc && !*this) if (context.size()) throw access_error(context+": "+error()); else throw access_error(error()); return _res==CKR_OK; } public: /*! @name C Like Error Handling You are strongly recommended not to disable exception handling. If you disable it, you must check after every operation whether it was successful or not. These methods provide all you need for that. */ //@{ /*! @return @c true if last cryptoki on this object call was successful */ operator bool() { return _res==CKR_OK; } /*! @return error text of last cryptoki call */ std::string error() { return _init->error(_res); } //@} MechanismInfo mechanisminfo(CK_MECHANISM_TYPE mechanism) { MechanismInfo info(mechanism); CK_MECHANISM_INFO cInfo; //! calls @c C_GetMechanismInfo check(_init->_fn->C_GetMechanismInfo(_slot, mechanism, &cInfo), CRYPTOKI_FN_LOG("C_GetMechanismInfo")); info.minKeySize = cInfo.ulMinKeySize; info.maxKeySize = cInfo.ulMaxKeySize; info.flags = cInfo.flags; return info; } MechanismList mechanismlist() { MechanismList res; CK_ULONG count(0); //! calls @c C_GetMechanismList if (!check(_init->_fn->C_GetMechanismList(_slot, 0, &count), CRYPTOKI_FN_LOG("C_GetMechanismList")) || !count) return res; CK_MECHANISM_TYPE* mechanisms = 0; try { mechanisms = new CK_MECHANISM_TYPE[count]; if (!check(_init->_fn->C_GetMechanismList(_slot, mechanisms, &count), CRYPTOKI_FN_LOG("C_GetMechanismList"))) { delete[] mechanisms; return res; } for (CK_ULONG i(0); i_fn->C_GetSlotInfo(_slot, &cInfo), CRYPTOKI_FN_LOG("C_GetSlotInfo"))) return info; info.slotDescription = cInfo.slotDescription; info.manufacturerID = cInfo.manufacturerID; info.flags = cInfo.flags; info.hardwareVersion = cInfo.hardwareVersion; info.firmwareVersion = cInfo.firmwareVersion; return info; } TokenInfo tokeninfo() { TokenInfo info; //! calls @c C_GetTokenInfo CK_TOKEN_INFO cInfo; if (!check(_init->_fn->C_GetTokenInfo(_slot, &cInfo), CRYPTOKI_FN_LOG("C_GetTokenInfo"))) return info; info.label = cInfo.label; info.manufacturerID = cInfo.manufacturerID; info.model = cInfo.model; info.serialNumber = cInfo.serialNumber; info.flags = cInfo.flags; info.maxSessionCount = cInfo.ulMaxSessionCount; info.sessionCount = cInfo.ulSessionCount; info.maxRwSessionCount = cInfo.ulMaxRwSessionCount; info.rwSessionCount = cInfo.ulRwSessionCount; info.maxPinLen = cInfo.ulMaxPinLen; info.minPinLen = cInfo.ulMinPinLen; info.totalPublicMemory = cInfo.ulTotalPublicMemory; info.freePublicMemory = cInfo.ulFreePublicMemory; info.totalPrivateMemory = cInfo.ulTotalPrivateMemory; info.freePrivateMemory = cInfo.ulFreePrivateMemory; info.hardwareVersion = cInfo.hardwareVersion; info.firmwareVersion = cInfo.firmwareVersion; info.utcTime = cInfo.utcTime; return info; } /*! @bug does not compile: @code bool inittoken(std::string pin, FixString<32> label) { //! calls @c C_InitToken return check(_init->_fn->C_InitToken (_slot, (unsigned char*)pin.begin().operator->(), pin.size(), (unsigned char*)label.fix().begin().operator->()) CRYPTOKI_FN_LOG("C_InitToken")); } @endcode */ /*! @todo Not implemented: @code class SlotEventListener { public: virtual void slotEvent() = 0; } bool registerforslotevent(SlotEventListener&) { //! calls @c C_WaitForSlotEvent return check(_init->_fn->C_WaitForSlotEvent(CK_FLAGS, &_slot, CK_VOID_PTR), CRYPTOKI_FN_LOG("C_WaitForSlotEvent")); } @endcode */ }; //! Session Management //! Not implemented: CK_RV C_CloseAllSessions(CK_SLOT_ID); class Session { private: friend class Object; Slot& _slot; CK_SESSION_HANDLE _session; CK_RV _res; Session(); // forbidden Session(const Session&); // forbidden Session& operator=(const Session&); // forbidden bool check(CK_RV result, const std::string& context="") { _res = result; if (_slot._init->_exc && !*this) if (context.size()) throw access_error(context+": "+error()); else throw access_error(error()); return _res==CKR_OK; } public: //! Opens a new session. /*! @param slot slot to open a session on */ Session(Slot& slot): _slot(slot), _session(0), _res(CKR_OK) { //! calls @c C_OpenSession check(_slot._init->_fn->C_OpenSession (_slot._slot, CKF_SERIAL_SESSION, 0, 0, &_session), CRYPTOKI_FN_LOG("C_OpenSession")); //! @todo pass parameter } //! Closes actual session ~Session() { try { //! calls @c C_CloseSession check(_slot._init->_fn->C_CloseSession(_session), CRYPTOKI_FN_LOG("C_CloseSession")); } catch (...) { if (!std::uncaught_exception()) throw; } } /*! @name Comfortable Access Use these methods in favour of the Low Level Cryptoki Functions. They provide a higher level simpler access. */ //@{ ObjectList find(const AttributeList& attrs=AttributeList()); //@} /*! @name C Like Error Handling You are strongly recommended not to disable exception handling. If you disable it, you must check after every operation whether it was successful or not. These methods provide all you need for that. */ //@{ /*! @return @c true if last cryptoki on this object call was successful */ operator bool() { return _res==CKR_OK; } /*! @return error text of last cryptoki call */ std::string error() { return _slot._init->error(_res); } //@} /*! @name Low Level Cryptoki Functions Direct access to the low level cryptoki API. Better use the comfort methods. */ //@{ bool cancel() { //! calls @c C_CancelFunction return check(_slot._init->_fn->C_CancelFunction(_session), CRYPTOKI_FN_LOG("C_CancelFunction")); } std::string decrypt(std::string in) { std::string res; res.resize(in.size()); CK_ULONG size(res.size()); //! @todo check if size is ok (seems so ...) //! calls @c C_Decrypt check(_slot._init->_fn->C_Decrypt (_session, (unsigned char*)in.begin().operator->(), in.size(), (unsigned char*)res.begin().operator->(), &size), CRYPTOKI_FN_LOG("C_Decrypt")); res.resize(size); return res; } std::string decryptdigestupdate(std::string in) { std::string res; res.resize(in.size()); CK_ULONG size(res.size()); //! @todo check if size is ok //! calls @c C_DecryptDigestUpdate check(_slot._init->_fn->C_DecryptDigestUpdate (_session, (unsigned char*)in.begin().operator->(), in.size(), (unsigned char*)res.begin().operator->(), &size), CRYPTOKI_FN_LOG("C_DecryptDigestUpdate")); res.resize(size); return res; } bool decryptfinal() { //! calls @c C_DecryptFinal return check(_slot._init->_fn->C_DecryptFinal(_session, 0, 0), CRYPTOKI_FN_LOG("C_DecryptFinal")); //! @todo does this work? } std::string decryptupdate(std::string in) { std::string res; res.resize(in.size()); CK_ULONG size(res.size()); //! @todo check if size is ok //! calls @c C_DecryptUpdate check(_slot._init->_fn->C_DecryptUpdate (_session, (unsigned char*)in.begin().operator->(), in.size(), (unsigned char*)res.begin().operator->(), &size), CRYPTOKI_FN_LOG("C_DecryptUpdate")); res.resize(size); return res; } std::string decryptverifyupdate(std::string in) { std::string res; res.resize(in.size()); CK_ULONG size(res.size()); //! @todo check if size is ok //! calls @c C_DecryptVerifyUpdate check(_slot._init->_fn->C_DecryptVerifyUpdate (_session, (unsigned char*)in.begin().operator->(), in.size(), (unsigned char*)res.begin().operator->(), &size), CRYPTOKI_FN_LOG("C_DecryptVerifyUpdate")); res.resize(size); return res; } std::string digest(std::string in) { std::string res; res.resize(in.size()); CK_ULONG size(res.size()); //! @todo check if size is ok //! calls @c C_Digest check(_slot._init->_fn->C_Digest (_session, (unsigned char*)in.begin().operator->(), in.size(), (unsigned char*)res.begin().operator->(), &size), CRYPTOKI_FN_LOG("C_Digest")); res.resize(size); return res; } std::string digestencryptupdate(std::string in) { std::string res; res.resize(in.size()); CK_ULONG size(res.size()); //! @todo check if size is ok //! calls @c C_DigestEncryptUpdate check(_slot._init->_fn->C_DigestEncryptUpdate (_session, (unsigned char*)in.begin().operator->(), in.size(), (unsigned char*)res.begin().operator->(), &size), CRYPTOKI_FN_LOG("C_DigestEncryptUpdate")); res.resize(size); return res; } /*! @todo Not implemented: @code bool digestfinal() { //! calls @c C_DigestFinal return check(_slot._init->_fn->C_DigestFinal(_session, CK_BYTE_PTR, CK_ULONG_PTR), CRYPTOKI_FN_LOG("C_DigestFinal")); } @endcode */ /*! @todo Not implemented: @code bool digestinit() { //! calls @c C_DigestInit return check(_slot._init->_fn->C_DigestInit(_session, CK_MECHANISM_PTR), CRYPTOKI_FN_LOG("C_DigestInit")); } @endcode */ /*! @todo Not implemented: @code bool digestupdate() { //! calls @c C_DigestUpdate return check(_slot._init->_fn->C_DigestUpdate(_session, CK_BYTE_PTR, CK_ULONG), CRYPTOKI_FN_LOG("C_DigestUpdate")); } @endcode */ std::string encrypt(std::string in) { std::string res; res.resize(in.size()); CK_ULONG size(res.size()); //! @todo check if size is ok //! calls @c C_Encrypt check(_slot._init->_fn->C_Encrypt (_session, (unsigned char*)in.begin().operator->(), in.size(), (unsigned char*)res.begin().operator->(), &size), CRYPTOKI_FN_LOG("C_Encrypt")); res.resize(size); return res; } /*! @todo Not implemented: @code bool encryptfinal() { //! calls @c C_EncryptFinal return check(_slot._init->_fn->C_EncryptFinal(_session, CK_BYTE_PTR, CK_ULONG_PTR), CRYPTOKI_FN_LOG("C_EncryptFinal")); } @endcode */ std::string encryptupdate(std::string in) { std::string res; res.resize(in.size()); CK_ULONG size(res.size()); //! @todo check if size is ok //! calls @c C_EncryptUpdate check(_slot._init->_fn->C_EncryptUpdate (_session, (unsigned char*)in.begin().operator->(), in.size(), (unsigned char*)res.begin().operator->(), &size), CRYPTOKI_FN_LOG("C_EncryptUpdate")); res.resize(size); return res; } /*! @todo Not implemented: @code bool finalize() { //! calls @c C_Finalize return check(_slot._init->_fn->C_Finalize(CK_VOID_PTR), CRYPTOKI_FN_LOG("C_Finalize")); } @endcode */ /*! @todo Not implemented: @code bool findobjectsfinal() { //! calls @c C_FindObjectsFinal return check(_slot._init->_fn->C_FindObjectsFinal(_session), CRYPTOKI_FN_LOG("C_FindObjectsFinal")); } @endcode */ /*! @todo Not implemented: @code bool findobjectsinit() { //! calls @c C_FindObjectsInit return check(_slot._init->_fn->C_FindObjectsInit(_session, CK_ATTRIBUTE_PTR, CK_ULONG), CRYPTOKI_FN_LOG("C_FindObjectsInit")); } @endcode */ /*! @todo Not implemented: @code bool findobjects() { //! calls @c C_FindObjects return check(_session._slot._init->_fn->C_FindObjects(_session, CK_OBJECT_HANDLE_PTR, CK_ULONG, CK_ULONG_PTR), CRYPTOKI_FN_LOG("C_FindObjects")); } @endcode */ /*! @todo Not implemented: @code bool generaterandom() { //! calls @c C_GenerateRandom return check(_slot._init->_fn->C_GenerateRandom(_session, CK_BYTE_PTR, CK_ULONG), CRYPTOKI_FN_LOG("C_GenerateRandom")); } @endcode */ /*! @todo Not implemented: @code bool getfunctionstatus() { //! calls @c C_GetFunctionStatus return check(_slot._init->_fn->C_GetFunctionStatus(_session), CRYPTOKI_FN_LOG("C_GetFunctionStatus")); } @endcode */ /*! @todo Not implemented: @code bool getoperationstate() { //! calls @c C_GetOperationState return check(_slot._init->_fn->C_GetOperationState(_session, CK_BYTE_PTR, CK_ULONG_PTR), CRYPTOKI_FN_LOG("C_GetOperationState")); } @endcode */ /*! @todo Not implemented: @code bool getsessioninfo() { //! calls @c C_GetSessionInfo return check(_slot._init->_fn->C_GetSessionInfo(_session, CK_SESSION_INFO_PTR), CRYPTOKI_FN_LOG("C_GetSessionInfo")); } @endcode */ /*! @todo Not implemented: @code bool initpin() { //! calls @c C_InitPIN return check(_slot._init->_fn->C_InitPIN(_session, CK_CHAR_PTR, CK_ULONG), CRYPTOKI_FN_LOG("C_InitPIN")); } @endcode */ /*! @todo Not implemented: @code bool login() { //! calls @c C_Login return check(_slot._init->_fn->C_Login(_session, CK_USER_TYPE, CK_CHAR_PTR, CK_ULONG), CRYPTOKI_FN_LOG("C_Login")); } @endcode */ /*! @todo Not implemented: @code bool logout() { //! calls @c C_Logout return check(_slot._init->_fn->C_Logout(_session), CRYPTOKI_FN_LOG("C_Logout")); } @endcode */ /*! @todo Not implemented: @code bool seedrandom() { //! calls @c C_SeedRandom return check(_slot._init->_fn->C_SeedRandom(_session, CK_BYTE_PTR, CK_ULONG), CRYPTOKI_FN_LOG("C_SeedRandom")); } @endcode */ /*! @todo Not implemented: @code bool setpin() { //! calls @c C_SetPIN return check(_slot._init->_fn->C_SetPIN(_session, CK_CHAR_PTR, CK_ULONG, CK_CHAR_PTR, CK_ULONG), CRYPTOKI_FN_LOG("C_SetPIN")); } @endcode */ std::string sign(std::string in) { std::string res; res.resize(in.size()); CK_ULONG size(res.size()); //! @todo check if size is ok //! calls @c C_Sign check(_slot._init->_fn->C_Sign (_session, (unsigned char*)in.begin().operator->(), in.size(), (unsigned char*)res.begin().operator->(), &size), CRYPTOKI_FN_LOG("C_Sign")); res.resize(size); return res; } std::string signencryptupdate(std::string in) { std::string res; res.resize(in.size()); CK_ULONG size(res.size()); //! @todo check if size is ok //! calls @c C_SignEncryptUpdate check(_slot._init->_fn->C_SignEncryptUpdate (_session, (unsigned char*)in.begin().operator->(), in.size(), (unsigned char*)res.begin().operator->(), &size), CRYPTOKI_FN_LOG("C_SignEncryptUpdate")); res.resize(size); return res; } /*! @todo Not implemented: @code bool signfinal() { //! calls @c C_SignFinal return check(_slot._init->_fn->C_SignFinal(_session, CK_BYTE_PTR, CK_ULONG_PTR), CRYPTOKI_FN_LOG("C_SignFinal")); } @endcode */ std::string signrecover(std::string in) { std::string res; res.resize(in.size()); CK_ULONG size(res.size()); //! @todo check if size is ok //! calls @c C_SignRecover check(_slot._init->_fn->C_SignRecover (_session, (unsigned char*)in.begin().operator->(), in.size(), (unsigned char*)res.begin().operator->(), &size), CRYPTOKI_FN_LOG("C_SignRecover")); res.resize(size); return res; } /*! @todo Not implemented: @code bool signupdate() { //! calls @c C_SignUpdate return check(_slot._init->_fn->C_SignUpdate(_session, CK_BYTE_PTR, CK_ULONG), CRYPTOKI_FN_LOG("C_SignUpdate")); } @endcode */ /*! @todo Not implemented: @code bool verify() { //! calls @c C_Verify return check(_slot._init->_fn->C_Verify(_session, CK_BYTE_PTR, CK_ULONG, CK_BYTE_PTR, CK_ULONG), CRYPTOKI_FN_LOG("C_Verify")); } @endcode */ /*! @todo Not implemented: @code bool verifyfinal() { //! calls @c C_VerifyFinal return check(_slot._init->_fn->C_VerifyFinal(_session, CK_BYTE_PTR, CK_ULONG), CRYPTOKI_FN_LOG("C_VerifyFinal")); } @endcode */ std::string verifyrecover(std::string in) { std::string res; res.resize(in.size()); CK_ULONG size(res.size()); //! @todo check if size is ok //! calls @c C_VerifyRecover check(_slot._init->_fn->C_VerifyRecover (_session, (unsigned char*)in.begin().operator->(), in.size(), (unsigned char*)res.begin().operator->(), &size), CRYPTOKI_FN_LOG("C_VerifyRecover")); res.resize(size); return res; } /*! @todo Not implemented: @code bool verifyupdate() { //! calls @c C_VerifyUpdate return check(_slot._init->_fn->C_VerifyUpdate(_session, CK_BYTE_PTR, CK_ULONG), CRYPTOKI_FN_LOG("C_VerifyUpdate")); } @endcode */ //@} }; class Object { private: friend class Session; CK_OBJECT_HANDLE _object; Session* _session; CK_RV _res; bool check(CK_RV result, const std::string& context="") { _res = result; if (_session->_slot._init->_exc && !*this) if (context.size()) throw access_error(context+": "+error()); else throw access_error(error()); return _res==CKR_OK; } Object() { } Object(Session& session, CK_OBJECT_HANDLE obj): _session(&session), _object(obj), _res(CKR_OK) { } public: Object& operator=(Object& o) { _object = o._object; _session = o._session; _res = o._res; return *this; } /*! @name C Like Error Handling You are strongly recommended not to disable exception handling. If you disable it, you must check after every operation whether it was successful or not. These methods provide all you need for that. */ //@{ /*! @return @c true if last cryptoki on this object call was successful */ operator bool() { return _res==CKR_OK; } /*! @return error text of last cryptoki call */ std::string error() { return _session->_slot._init->error(_res); } //@} /*! @name Low Level Cryptoki Functions Direct access to the low level cryptoki API. Better use the comfort methods. */ //@{ /*! @todo Not implemented: @code bool copyobject() { //! calls @c C_CopyObject return check(_session->_slot._init->_fn->C_CopyObject(_session->_session, CK_OBJECT_HANDLE, CK_ATTRIBUTE_PTR, CK_ULONG, CK_OBJECT_HANDLE_PTR), CRYPTOKI_FN_LOG("C_CopyObject")); } @endcode */ /*! @todo Not implemented: @code bool createobject() { //! calls @c C_CreateObject return check(_session->_slot._init->_fn->C_CreateObject(_session->_session, CK_ATTRIBUTE_PTR, CK_ULONG, CK_OBJECT_HANDLE_PTR), CRYPTOKI_FN_LOG("C_CreateObject")); } @endcode */ bool decryptinit(CK_MECHANISM_TYPE type, std::string param, const Object& key) { CK_MECHANISM mech = { type, param.begin().operator->(), param.size() }; //! calls @c C_DecryptInit return check(_session->_slot._init->_fn->C_DecryptInit (_session->_session, &mech, key._object), CRYPTOKI_FN_LOG("C_DecryptInit")); } /*! @todo Not implemented: @code bool derivekey() { //! calls @c C_DeriveKey return check(_session->_slot._init->_fn->C_DeriveKey(_session->_session, CK_MECHANISM_PTR, CK_OBJECT_HANDLE, CK_ATTRIBUTE_PTR, CK_ULONG, CK_OBJECT_HANDLE_PTR), CRYPTOKI_FN_LOG("C_DeriveKey")); } @endcode */ /*! @todo Not implemented: @code bool destroyobject() { //! calls @c C_DestroyObject return check(_session->_slot._init->_fn->C_DestroyObject(_session->_session, CK_OBJECT_HANDLE), CRYPTOKI_FN_LOG("C_DestroyObject")); } @endcode */ /*! @todo Not implemented: @code bool digestkey() { //! calls @c C_DigestKey return check(_session->_slot._init->_fn->C_DigestKey(_session->_session, CK_OBJECT_HANDLE), CRYPTOKI_FN_LOG("C_DigestKey")); } @endcode */ /*! @todo Not implemented: @code bool encryptinit() { //! calls @c C_EncryptInit return check(_session->_slot._init->_fn->C_EncryptInit(_session->_session, CK_MECHANISM_PTR, CK_OBJECT_HANDLE), CRYPTOKI_FN_LOG("C_EncryptInit")); } @endcode */ /*! @todo Not implemented: @code bool generatekey() { //! calls @c C_GenerateKey return check(_session->_slot._init->_fn->C_GenerateKey(_session->_session, CK_MECHANISM_PTR, CK_ATTRIBUTE_PTR, CK_ULONG, CK_OBJECT_HANDLE_PTR), CRYPTOKI_FN_LOG("C_GenerateKey")); } @endcode */ /*! @todo Not implemented: @code bool generatekeypair() { //! calls @c C_GenerateKeyPair return check(_session->_slot._init->_fn->C_GenerateKeyPair(_session->_session, CK_MECHANISM_PTR, CK_ATTRIBUTE_PTR, CK_ULONG, CK_ATTRIBUTE_PTR, CK_ULONG, CK_OBJECT_HANDLE_PTR, CK_OBJECT_HANDLE_PTR), CRYPTOKI_FN_LOG("C_GenerateKeyPair")); } @endcode */ AttributeMap getattributevalue(const AttributeTypeList& attributes) { AttributeMap res; CK_ATTRIBUTE* attrs(new CK_ATTRIBUTE[attributes.size()]); AttributeTypeList::const_iterator it(attributes.begin()); for (AttributeTypeList::size_type i(0); it!=attributes.end(); ++it, ++i) attrs[i] = (CK_ATTRIBUTE){*it, 0, 0}; try { //! calls @c C_GetAttributeValue if (check(_session->_slot._init->_fn->C_GetAttributeValue (_session->_session, _object, attrs, attributes.size()), CRYPTOKI_FN_LOG("C_GetAttributeValue"))) { for (AttributeTypeList::size_type i(0); i0) attrs[i].pValue = malloc(attrs[i].ulValueLen); check(_session->_slot._init->_fn->C_GetAttributeValue (_session->_session, _object, attrs, attributes.size()), CRYPTOKI_FN_LOG("C_GetAttributeValue")); } for (AttributeTypeList::size_type i(0); i0) res.insert(std::make_pair(attrs[i].type, Attribute(attrs[i]))); return res; } catch (...) { for (AttributeTypeList::size_type i(0); i_slot._init->_fn->C_GetObjectSize(_session->_session, CK_OBJECT_HANDLE, CK_ULONG_PTR), CRYPTOKI_FN_LOG("C_GetObjectSize")); } @endcode */ /*! @todo Not implemented: @code bool setattributevalue() { //! calls @c C_SetAttributeValue return check(_session->_slot._init->_fn->C_SetAttributeValue(_session->_session, CK_OBJECT_HANDLE, CK_ATTRIBUTE_PTR, CK_ULONG), CRYPTOKI_FN_LOG("C_SetAttributeValue")); } @endcode */ /*! @todo Not implemented: @code bool setoperationstate() { //! calls @c C_SetOperationState return check(_session->_slot._init->_fn->C_SetOperationState(_session->_session, CK_BYTE_PTR, CK_ULONG, CK_OBJECT_HANDLE, CK_OBJECT_HANDLE), CRYPTOKI_FN_LOG("C_SetOperationState")); } @endcode */ /*! @todo Not implemented: @code bool signinit() { //! calls @c C_SignInit return check(_session->_slot._init->_fn->C_SignInit(_session->_session, CK_MECHANISM_PTR, CK_OBJECT_HANDLE), CRYPTOKI_FN_LOG("C_SignInit")); } @endcode */ /*! @todo Not implemented: @code bool signrecoverinit() { //! calls @c C_SignRecoverInit return check(_session->_slot._init->_fn->C_SignRecoverInit(_session->_session, CK_MECHANISM_PTR, CK_OBJECT_HANDLE), CRYPTOKI_FN_LOG("C_SignRecoverInit")); } @endcode */ /*! @todo Not implemented: @code bool unwrapkey() { //! calls @c C_UnwrapKey return check(_session->_slot._init->_fn->C_UnwrapKey(_session->_session, CK_MECHANISM_PTR, CK_OBJECT_HANDLE, CK_BYTE_PTR, CK_ULONG, CK_ATTRIBUTE_PTR, CK_ULONG, CK_OBJECT_HANDLE_PTR), CRYPTOKI_FN_LOG("C_UnwrapKey")); } @endcode */ /*! @todo Not implemented: @code bool verifyinit() { //! calls @c C_VerifyInit return check(_session->_slot._init->_fn->C_VerifyInit(_session->_session, CK_MECHANISM_PTR, CK_OBJECT_HANDLE), CRYPTOKI_FN_LOG("C_VerifyInit")); } @endcode */ /*! @todo Not implemented: @code bool verifyrecoverinit() { //! calls @c C_VerifyRecoverInit return check(_session->_slot._init->_fn->C_VerifyRecoverInit(_session->_session, CK_MECHANISM_PTR, CK_OBJECT_HANDLE), CRYPTOKI_FN_LOG("C_VerifyRecoverInit")); } @endcode */ /*! @todo Not implemented: @code bool wrapkey() { //! calls @c C_WrapKey return check(_session->_slot._init->_fn->C_WrapKey(_session->_session, CK_MECHANISM_PTR, CK_OBJECT_HANDLE, CK_OBJECT_HANDLE, CK_BYTE_PTR, CK_ULONG_PTR), CRYPTOKI_FN_LOG("C_WrapKey")); } @endcode */ //@} }; #endif #ifdef UNDEF_CRYPTOKI_FN_LOG // cleanup if it was set in here #undef CRYPTOKI_FN_LOG #undef CRYPTOKI_QUOTE #endif }