/************************************************* * X.509 Public Key Source File * * (C) 1999-2007 The Botan Project * *************************************************/ #include #include #include #include #include #include #include #include #include namespace Botan { namespace X509 { /************************************************* * DER or PEM encode a X.509 public key * *************************************************/ void encode(const Public_Key& key, Pipe& pipe, X509_Encoding encoding) { std::auto_ptr encoder(key.x509_encoder()); if(!encoder.get()) throw Encoding_Error("X509::encode: Key does not support encoding"); MemoryVector der = DER_Encoder() .start_cons(SEQUENCE) .encode(encoder->alg_id()) .encode(encoder->key_bits(), BIT_STRING) .end_cons() .get_contents(); if(encoding == PEM) pipe.write(PEM_Code::encode(der, "PUBLIC KEY")); else pipe.write(der); } /************************************************* * PEM encode a X.509 public key * *************************************************/ std::string PEM_encode(const Public_Key& key) { Pipe pem; pem.start_msg(); encode(key, pem, PEM); pem.end_msg(); return pem.read_all_as_string(); } /************************************************* * Extract a public key and return it * *************************************************/ Public_Key* load_key(DataSource& source) { try { AlgorithmIdentifier alg_id; MemoryVector key_bits; if(ASN1::maybe_BER(source) && !PEM_Code::matches(source)) { BER_Decoder(source) .start_cons(SEQUENCE) .decode(alg_id) .decode(key_bits, BIT_STRING) .verify_end() .end_cons(); } else { DataSource_Memory ber( PEM_Code::decode_check_label(source, "PUBLIC KEY") ); BER_Decoder(ber) .start_cons(SEQUENCE) .decode(alg_id) .decode(key_bits, BIT_STRING) .verify_end() .end_cons(); } if(key_bits.is_empty()) throw Decoding_Error("X.509 public key decoding failed"); const std::string alg_name = OIDS::lookup(alg_id.oid); if(alg_name == "") throw Decoding_Error("Unknown algorithm OID: " + alg_id.oid.as_string()); std::auto_ptr key_obj(get_public_key(alg_name)); if(!key_obj.get()) throw Decoding_Error("Unknown PK algorithm/OID: " + alg_name + ", " + alg_id.oid.as_string()); std::auto_ptr decoder(key_obj->x509_decoder()); if(!decoder.get()) throw Decoding_Error("Key does not support X.509 decoding"); decoder->alg_id(alg_id); decoder->key_bits(key_bits); return key_obj.release(); } catch(Decoding_Error) { throw Decoding_Error("X.509 public key decoding failed"); } } /************************************************* * Extract a public key and return it * *************************************************/ Public_Key* load_key(const std::string& fsname) { DataSource_Stream source(fsname, true); return X509::load_key(source); } /************************************************* * Extract a public key and return it * *************************************************/ Public_Key* load_key(const MemoryRegion& mem) { DataSource_Memory source(mem); return X509::load_key(source); } /************************************************* * Make a copy of this public key * *************************************************/ Public_Key* copy_key(const Public_Key& key) { Pipe bits; bits.start_msg(); X509::encode(key, bits, RAW_BER); bits.end_msg(); DataSource_Memory source(bits.read_all()); return X509::load_key(source); } /************************************************* * Find the allowable key constraints * *************************************************/ Key_Constraints find_constraints(const Public_Key& pub_key, Key_Constraints limits) { const Public_Key* key = &pub_key; u32bit constraints = 0; if(dynamic_cast(key)) constraints |= KEY_ENCIPHERMENT; if(dynamic_cast(key)) constraints |= KEY_AGREEMENT; if(dynamic_cast(key) || dynamic_cast(key)) constraints |= DIGITAL_SIGNATURE | NON_REPUDIATION; if(limits) constraints &= limits; return Key_Constraints(constraints); } } }