diff options
author | lloyd <[email protected]> | 2014-01-18 22:22:24 +0000 |
---|---|---|
committer | lloyd <[email protected]> | 2014-01-18 22:22:24 +0000 |
commit | a769d409b252f62d97e9f71dd38a7131f8b8155e (patch) | |
tree | cb4030a6267df4b2ca2219e00e5e195fe09402c2 /src | |
parent | 97da227cbde0257f14b7cde001680bc69cf941c9 (diff) |
unique_ptr all the things
Diffstat (limited to 'src')
-rw-r--r-- | src/lib/pubkey/pubkey.cpp | 142 | ||||
-rw-r--r-- | src/lib/pubkey/pubkey.h | 54 |
2 files changed, 86 insertions, 110 deletions
diff --git a/src/lib/pubkey/pubkey.cpp b/src/lib/pubkey/pubkey.cpp index 313d54c16..245551c22 100644 --- a/src/lib/pubkey/pubkey.cpp +++ b/src/lib/pubkey/pubkey.cpp @@ -29,15 +29,15 @@ PK_Encryptor_EME::PK_Encryptor_EME(const Public_Key& key, while(const Engine* engine = i.next()) { - op = engine->get_encryption_op(key, rng); - if(op) + m_op.reset(engine->get_encryption_op(key, rng)); + if(m_op) break; } - if(!op) + if(!m_op) throw Lookup_Error("Encryption with " + key.algo_name() + " not supported"); - eme = (eme_name == "Raw") ? nullptr : get_eme(eme_name); + m_eme.reset(get_eme(eme_name)); } /* @@ -48,22 +48,22 @@ PK_Encryptor_EME::enc(const byte in[], size_t length, RandomNumberGenerator& rng) const { - if(eme) + if(m_eme) { secure_vector<byte> encoded = - eme->encode(in, length, op->max_input_bits(), rng); + m_eme->encode(in, length, m_op->max_input_bits(), rng); - if(8*(encoded.size() - 1) + high_bit(encoded[0]) > op->max_input_bits()) + if(8*(encoded.size() - 1) + high_bit(encoded[0]) > m_op->max_input_bits()) throw Invalid_Argument("PK_Encryptor_EME: Input is too large"); - return unlock(op->encrypt(&encoded[0], encoded.size(), rng)); + return unlock(m_op->encrypt(&encoded[0], encoded.size(), rng)); } else { - if(8*(length - 1) + high_bit(in[0]) > op->max_input_bits()) + if(8*(length - 1) + high_bit(in[0]) > m_op->max_input_bits()) throw Invalid_Argument("PK_Encryptor_EME: Input is too large"); - return unlock(op->encrypt(&in[0], length, rng)); + return unlock(m_op->encrypt(&in[0], length, rng)); } } @@ -72,10 +72,10 @@ PK_Encryptor_EME::enc(const byte in[], */ size_t PK_Encryptor_EME::maximum_input_size() const { - if(!eme) - return (op->max_input_bits() / 8); + if(!m_eme) + return (m_op->max_input_bits() / 8); else - return eme->maximum_input_size(op->max_input_bits()); + return m_eme->maximum_input_size(m_op->max_input_bits()); } /* @@ -89,15 +89,15 @@ PK_Decryptor_EME::PK_Decryptor_EME(const Private_Key& key, while(const Engine* engine = i.next()) { - op = engine->get_decryption_op(key, rng); - if(op) + m_op.reset(engine->get_decryption_op(key, rng)); + if(m_op) break; } - if(!op) + if(!m_op) throw Lookup_Error("Decryption with " + key.algo_name() + " not supported"); - eme = (eme_name == "Raw") ? nullptr : get_eme(eme_name); + m_eme.reset(get_eme(eme_name)); } /* @@ -107,9 +107,9 @@ secure_vector<byte> PK_Decryptor_EME::dec(const byte msg[], size_t length) const { try { - secure_vector<byte> decrypted = op->decrypt(msg, length); - if(eme) - return eme->decode(decrypted, op->max_input_bits()); + secure_vector<byte> decrypted = m_op->decrypt(msg, length); + if(m_eme) + return m_eme->decode(decrypted, m_op->max_input_bits()); else return decrypted; } @@ -130,26 +130,26 @@ PK_Signer::PK_Signer(const Private_Key& key, Algorithm_Factory::Engine_Iterator i(global_state().algorithm_factory()); RandomNumberGenerator& rng = global_state().global_rng(); - op = nullptr; - verify_op = nullptr; + m_op = nullptr; + m_verify_op = nullptr; while(const Engine* engine = i.next()) { - if(!op) - op = engine->get_signature_op(key, rng); + if(!m_op) + m_op.reset(engine->get_signature_op(key, rng)); - if(!verify_op && prot == ENABLE_FAULT_PROTECTION) - verify_op = engine->get_verify_op(key, rng); + if(!m_verify_op && prot == ENABLE_FAULT_PROTECTION) + m_verify_op.reset(engine->get_verify_op(key, rng)); - if(op && (verify_op || prot == DISABLE_FAULT_PROTECTION)) + if(m_op && (m_verify_op || prot == DISABLE_FAULT_PROTECTION)) break; } - if(!op || (!verify_op && prot == ENABLE_FAULT_PROTECTION)) + if(!m_op || (!m_verify_op && prot == ENABLE_FAULT_PROTECTION)) throw Lookup_Error("Signing with " + key.algo_name() + " not supported"); - emsa = get_emsa(emsa_name); - sig_format = format; + m_emsa.reset(get_emsa(emsa_name)); + m_sig_format = format; } /* @@ -167,7 +167,7 @@ std::vector<byte> PK_Signer::sign_message(const byte msg[], size_t length, */ void PK_Signer::update(const byte in[], size_t length) { - emsa->update(in, length); + m_emsa->update(in, length); } /* @@ -176,13 +176,13 @@ void PK_Signer::update(const byte in[], size_t length) bool PK_Signer::self_test_signature(const std::vector<byte>& msg, const std::vector<byte>& sig) const { - if(!verify_op) + if(!m_verify_op) return true; // checking disabled, assume ok - if(verify_op->with_recovery()) + if(m_verify_op->with_recovery()) { std::vector<byte> recovered = - unlock(verify_op->verify_mr(&sig[0], sig.size())); + unlock(m_verify_op->verify_mr(&sig[0], sig.size())); if(msg.size() > recovered.size()) { @@ -198,7 +198,7 @@ bool PK_Signer::self_test_signature(const std::vector<byte>& msg, return (recovered == msg); } else - return verify_op->verify(&msg[0], msg.size(), + return m_verify_op->verify(&msg[0], msg.size(), &sig[0], sig.size()); } @@ -207,24 +207,24 @@ bool PK_Signer::self_test_signature(const std::vector<byte>& msg, */ std::vector<byte> PK_Signer::signature(RandomNumberGenerator& rng) { - std::vector<byte> encoded = unlock(emsa->encoding_of(emsa->raw_data(), - op->max_input_bits(), + std::vector<byte> encoded = unlock(m_emsa->encoding_of(m_emsa->raw_data(), + m_op->max_input_bits(), rng)); - std::vector<byte> plain_sig = unlock(op->sign(&encoded[0], encoded.size(), rng)); + std::vector<byte> plain_sig = unlock(m_op->sign(&encoded[0], encoded.size(), rng)); BOTAN_ASSERT(self_test_signature(encoded, plain_sig), "Signature was consistent"); - if(op->message_parts() == 1 || sig_format == IEEE_1363) + if(m_op->message_parts() == 1 || m_sig_format == IEEE_1363) return plain_sig; - if(sig_format == DER_SEQUENCE) + if(m_sig_format == DER_SEQUENCE) { - if(plain_sig.size() % op->message_parts()) + if(plain_sig.size() % m_op->message_parts()) throw Encoding_Error("PK_Signer: strange signature size found"); - const size_t SIZE_OF_PART = plain_sig.size() / op->message_parts(); + const size_t SIZE_OF_PART = plain_sig.size() / m_op->message_parts(); - std::vector<BigInt> sig_parts(op->message_parts()); + std::vector<BigInt> sig_parts(m_op->message_parts()); for(size_t j = 0; j != sig_parts.size(); ++j) sig_parts[j].binary_decode(&plain_sig[SIZE_OF_PART*j], SIZE_OF_PART); @@ -236,7 +236,7 @@ std::vector<byte> PK_Signer::signature(RandomNumberGenerator& rng) } else throw Encoding_Error("PK_Signer: Unknown signature format " + - std::to_string(sig_format)); + std::to_string(m_sig_format)); } /* @@ -251,16 +251,16 @@ PK_Verifier::PK_Verifier(const Public_Key& key, while(const Engine* engine = i.next()) { - op = engine->get_verify_op(key, rng); - if(op) + m_op.reset(engine->get_verify_op(key, rng)); + if(m_op) break; } - if(!op) + if(!m_op) throw Lookup_Error("Verification with " + key.algo_name() + " not supported"); - emsa = get_emsa(emsa_name); - sig_format = format; + m_emsa.reset(get_emsa(emsa_name)); + m_sig_format = format; } /* @@ -268,9 +268,9 @@ PK_Verifier::PK_Verifier(const Public_Key& key, */ void PK_Verifier::set_input_format(Signature_Format format) { - if(op->message_parts() == 1 && format != IEEE_1363) + if(m_op->message_parts() == 1 && format != IEEE_1363) throw Invalid_State("PK_Verifier: This algorithm always uses IEEE 1363"); - sig_format = format; + m_sig_format = format; } /* @@ -288,7 +288,7 @@ bool PK_Verifier::verify_message(const byte msg[], size_t msg_length, */ void PK_Verifier::update(const byte in[], size_t length) { - emsa->update(in, length); + m_emsa->update(in, length); } /* @@ -297,9 +297,9 @@ void PK_Verifier::update(const byte in[], size_t length) bool PK_Verifier::check_signature(const byte sig[], size_t length) { try { - if(sig_format == IEEE_1363) - return validate_signature(emsa->raw_data(), sig, length); - else if(sig_format == DER_SEQUENCE) + if(m_sig_format == IEEE_1363) + return validate_signature(m_emsa->raw_data(), sig, length); + else if(m_sig_format == DER_SEQUENCE) { BER_Decoder decoder(sig, length); BER_Decoder ber_sig = decoder.start_cons(SEQUENCE); @@ -310,19 +310,19 @@ bool PK_Verifier::check_signature(const byte sig[], size_t length) { BigInt sig_part; ber_sig.decode(sig_part); - real_sig += BigInt::encode_1363(sig_part, op->message_part_size()); + real_sig += BigInt::encode_1363(sig_part, m_op->message_part_size()); ++count; } - if(count != op->message_parts()) + if(count != m_op->message_parts()) throw Decoding_Error("PK_Verifier: signature size invalid"); - return validate_signature(emsa->raw_data(), + return validate_signature(m_emsa->raw_data(), &real_sig[0], real_sig.size()); } else throw Decoding_Error("PK_Verifier: Unknown signature format " + - std::to_string(sig_format)); + std::to_string(m_sig_format)); } catch(Invalid_Argument) { return false; } } @@ -333,19 +333,19 @@ bool PK_Verifier::check_signature(const byte sig[], size_t length) bool PK_Verifier::validate_signature(const secure_vector<byte>& msg, const byte sig[], size_t sig_len) { - if(op->with_recovery()) + if(m_op->with_recovery()) { - secure_vector<byte> output_of_key = op->verify_mr(sig, sig_len); - return emsa->verify(output_of_key, msg, op->max_input_bits()); + secure_vector<byte> output_of_key = m_op->verify_mr(sig, sig_len); + return m_emsa->verify(output_of_key, msg, m_op->max_input_bits()); } else { RandomNumberGenerator& rng = global_state().global_rng(); secure_vector<byte> encoded = - emsa->encoding_of(msg, op->max_input_bits(), rng); + m_emsa->encoding_of(msg, m_op->max_input_bits(), rng); - return op->verify(&encoded[0], encoded.size(), sig, sig_len); + return m_op->verify(&encoded[0], encoded.size(), sig, sig_len); } } @@ -360,27 +360,27 @@ PK_Key_Agreement::PK_Key_Agreement(const PK_Key_Agreement_Key& key, while(const Engine* engine = i.next()) { - op = engine->get_key_agreement_op(key, rng); - if(op) + m_op.reset(engine->get_key_agreement_op(key, rng)); + if(m_op) break; } - if(!op) + if(!m_op) throw Lookup_Error("Key agreement with " + key.algo_name() + " not supported"); - kdf = (kdf_name == "Raw") ? nullptr : get_kdf(kdf_name); + m_kdf.reset(get_kdf(kdf_name)); } SymmetricKey PK_Key_Agreement::derive_key(size_t key_len, const byte in[], size_t in_len, const byte params[], size_t params_len) const { - secure_vector<byte> z = op->agree(in, in_len); + secure_vector<byte> z = m_op->agree(in, in_len); - if(!kdf) + if(!m_kdf) return z; - return kdf->derive_key(key_len, z, params, params_len); + return m_kdf->derive_key(key_len, z, params, params_len); } } diff --git a/src/lib/pubkey/pubkey.h b/src/lib/pubkey/pubkey.h index cfa46109c..431f30f6e 100644 --- a/src/lib/pubkey/pubkey.h +++ b/src/lib/pubkey/pubkey.h @@ -15,6 +15,7 @@ #include <botan/eme.h> #include <botan/emsa.h> #include <botan/kdf.h> +#include <memory> namespace Botan { @@ -183,7 +184,7 @@ class BOTAN_DLL PK_Signer * Set the output format of the signature. * @param format the signature format to use */ - void set_output_format(Signature_Format format) { sig_format = format; } + void set_output_format(Signature_Format format) { m_sig_format = format; } /** * Construct a PK Signer. @@ -197,19 +198,14 @@ class BOTAN_DLL PK_Signer const std::string& emsa, Signature_Format format = IEEE_1363, Fault_Protection prot = ENABLE_FAULT_PROTECTION); - - PK_Signer(const PK_Signer&) = delete; - PK_Signer& operator=(const PK_Signer&) = delete; - - ~PK_Signer() { delete op; delete verify_op; delete emsa; } private: bool self_test_signature(const std::vector<byte>& msg, const std::vector<byte>& sig) const; - PK_Ops::Signature* op; - PK_Ops::Verification* verify_op; - EMSA* emsa; - Signature_Format sig_format; + std::unique_ptr<PK_Ops::Signature> m_op; + std::unique_ptr<PK_Ops::Verification> m_verify_op; + std::unique_ptr<EMSA> m_emsa; + Signature_Format m_sig_format; }; /** @@ -303,18 +299,13 @@ class BOTAN_DLL PK_Verifier PK_Verifier(const Public_Key& pub_key, const std::string& emsa, Signature_Format format = IEEE_1363); - - PK_Verifier(const PK_Verifier&) = delete; - PK_Verifier& operator=(const PK_Verifier&) = delete; - - ~PK_Verifier() { delete op; delete emsa; } private: bool validate_signature(const secure_vector<byte>& msg, const byte sig[], size_t sig_len); - PK_Ops::Verification* op; - EMSA* emsa; - Signature_Format sig_format; + std::unique_ptr<PK_Ops::Verification> m_op; + std::unique_ptr<EMSA> m_emsa; + Signature_Format m_sig_format; }; /** @@ -393,14 +384,9 @@ class BOTAN_DLL PK_Key_Agreement */ PK_Key_Agreement(const PK_Key_Agreement_Key& key, const std::string& kdf); - - PK_Key_Agreement(const PK_Key_Agreement_Key&) = delete; - PK_Key_Agreement& operator=(const PK_Key_Agreement&) = delete; - - ~PK_Key_Agreement() { delete op; delete kdf; } private: - PK_Ops::Key_Agreement* op; - KDF* kdf; + std::unique_ptr<PK_Ops::Key_Agreement> m_op; + std::unique_ptr<KDF> m_kdf; }; /** @@ -418,14 +404,12 @@ class BOTAN_DLL PK_Encryptor_EME : public PK_Encryptor */ PK_Encryptor_EME(const Public_Key& key, const std::string& eme); - - ~PK_Encryptor_EME() { delete op; delete eme; } private: std::vector<byte> enc(const byte[], size_t, RandomNumberGenerator& rng) const; - PK_Ops::Encryption* op; - const EME* eme; + std::unique_ptr<PK_Ops::Encryption> m_op; + std::unique_ptr<EME> m_eme; }; /** @@ -441,21 +425,13 @@ class BOTAN_DLL PK_Decryptor_EME : public PK_Decryptor */ PK_Decryptor_EME(const Private_Key& key, const std::string& eme); - - ~PK_Decryptor_EME() { delete op; delete eme; } private: secure_vector<byte> dec(const byte[], size_t) const; - PK_Ops::Decryption* op; - const EME* eme; + std::unique_ptr<PK_Ops::Decryption> m_op; + std::unique_ptr<EME> m_eme; }; -/* -* Typedefs for compatability with 1.8 -*/ -typedef PK_Encryptor_EME PK_Encryptor_MR_with_EME; -typedef PK_Decryptor_EME PK_Decryptor_MR_with_EME; - } #endif |