#pragma once // This class implements an abstract pgp handler to be used in RetroShare. // #include #include #include #include #include #include extern "C" { #include #include #include } typedef std::string (*PassphraseCallback)(void *data, const char *uid_hint, const char *passphrase_info, int prev_was_bad) ; class PGPIdType { public: static const int KEY_ID_SIZE = 8 ; PGPIdType() {} static PGPIdType fromUserId_hex(const std::string& hex_string) ; static PGPIdType fromFingerprint_hex(const std::string& hex_string) ; explicit PGPIdType(const unsigned char bytes[]) ; std::string toStdString() const ; uint64_t toUInt64() const ; const unsigned char *toByteArray() const { return &bytes[0] ; } private: unsigned char bytes[KEY_ID_SIZE] ; std::string _string_id ; }; class PGPFingerprintType { public: static const int KEY_FINGERPRINT_SIZE = 20 ; static PGPFingerprintType fromFingerprint_hex(const std::string& hex_string) ; explicit PGPFingerprintType(const unsigned char bytes[]) ; std::string toStdString() const ; const unsigned char *toByteArray() const { return &bytes[0] ; } bool operator==(const PGPFingerprintType& fp) const { for(int i=0;i signers; uint32_t _trustLvl; uint32_t _validLvl; uint32_t _flags ; PGPFingerprintType _fpr; /* fingerprint */ PGPIdType _key_id ; uint32_t _key_index ; // index to array of keys in the public keyring static const uint32_t PGP_CERTIFICATE_FLAG_ACCEPT_CONNEXION = 0x0001 ; static const uint32_t PGP_CERTIFICATE_FLAG_HAS_OWN_SIGNATURE = 0x0002 ; static const uint32_t PGP_CERTIFICATE_FLAG_HAS_SIGNED_ME = 0x0004 ; }; class PGPHandler { public: PGPHandler(const std::string& path_to_public_keyring, const std::string& path_to_secret_keyring) ; virtual ~PGPHandler() ; /** * @param ids list of gpg certificate ids (note, not the actual certificates) */ bool getGPGFilteredList(std::list& list,bool (*filter)(const PGPCertificateInfo&) = NULL) const ; bool availableGPGCertificatesWithPrivateKeys(std::list& ids); bool GeneratePGPCertificate(const std::string& name, const std::string& email, const std::string& passwd, PGPIdType& pgpId, std::string& errString) ; bool LoadCertificateFromString(const std::string& pem, PGPIdType& gpg_id, std::string& error_string); std::string SaveCertificateToString(const PGPIdType& id,bool include_signatures) ; bool TrustCertificate(const PGPIdType& id, int trustlvl); bool SignDataBin(const PGPIdType& id,const void *data, const uint32_t len, unsigned char *sign, unsigned int *signlen) ; bool VerifySignBin(const void *data, uint32_t data_len, unsigned char *sign, unsigned int sign_len, const PGPFingerprintType& withfingerprint) ; bool encryptTextToFile(const PGPIdType& key_id,const std::string& text,const std::string& outfile) ; bool decryptTextFromFile(const PGPIdType& key_id,std::string& text,const std::string& inputfile) ; bool getKeyFingerprint(const PGPIdType& id,PGPFingerprintType& fp) const ; void setAcceptConnexion(const PGPIdType&,bool) ; // Debug stuff. virtual bool printKeys() const ; const PGPCertificateInfo *getCertificateInfo(const PGPIdType& id) const ; bool isGPGId(const std::string &id); bool isGPGSigned(const std::string &id); bool isGPGAccepted(const std::string &id); static void setPassphraseCallback(PassphraseCallback cb) ; static PassphraseCallback passphraseCallback() { return _passphrase_callback ; } private: static std::string makeRadixEncodedPGPKey(const ops_keydata_t *key) ; static ops_keyring_t *allocateOPSKeyring() ; static void addNewKeyToOPSKeyring(ops_keyring_t*, const ops_keydata_t&) ; void initCertificateInfo(PGPCertificateInfo& cert,const ops_keydata_t *keydata,uint32_t i) ; const ops_keydata_t *getPublicKey(const PGPIdType&) const ; const ops_keydata_t *getSecretKey(const PGPIdType&) const ; RsMutex pgphandlerMtx ; ops_keyring_t *_pubring ; ops_keyring_t *_secring ; std::map _public_keyring_map ; // used for fast access to keys. Gives the index in the keyring. std::map _secret_keyring_map ; const std::string _pubring_path ; const std::string _secring_path ; static PassphraseCallback _passphrase_callback ; };