/* * CMS Encoding Operations * (C) 1999-2007 Jack Lloyd * * Distributed under the terms of the Botan license */ #include #include #include #include #include #include #include #include #include #include namespace Botan { namespace { /* * Choose an algorithm */ std::string choose_algo(const std::string& user_algo, const std::string& default_algo) { if(user_algo == "") return global_state().deref_alias(default_algo); return global_state().deref_alias(user_algo); } /* * Encode a SignerIdentifier/RecipientIdentifier */ DER_Encoder& encode_si(DER_Encoder& der, const X509_Certificate& cert, bool use_skid_encoding = false) { if(cert.subject_key_id().size() && use_skid_encoding) der.encode(cert.subject_key_id(), OCTET_STRING, ASN1_Tag(0)); else { der.start_cons(SEQUENCE). encode(cert.issuer_dn()). encode(BigInt::decode(cert.serial_number())). end_cons(); } return der; } /* * Compute the hash of some content */ SecureVector hash_of(const SecureVector& content, const std::string& hash_name) { Algorithm_Factory& af = global_state().algorithm_factory(); std::auto_ptr hash_fn(af.make_hash_function(hash_name)); return hash_fn->process(content); } /* * Encode Attributes containing info on content */ SecureVector encode_attr(const SecureVector& data, const std::string& type, const std::string& hash) { SecureVector digest = hash_of(data, hash); DER_Encoder encoder; encoder.encode(OIDS::lookup(type)); Attribute content_type("PKCS9.ContentType", encoder.get_contents()); encoder.encode(digest, OCTET_STRING); Attribute message_digest("PKCS9.MessageDigest", encoder.get_contents()); encoder.start_cons(SET) .encode(content_type) .encode(message_digest) .end_cons(); return encoder.get_contents(); } } /* * Encrypt a message */ void CMS_Encoder::encrypt(RandomNumberGenerator& rng, const X509_Certificate& to, const std::string user_cipher) { const std::string cipher = choose_algo(user_cipher, "TripleDES"); std::auto_ptr key(to.subject_public_key()); const std::string algo = key->algo_name(); Key_Constraints constraints = to.constraints(); if(algo == "RSA") { if(constraints != NO_CONSTRAINTS && !(constraints & KEY_ENCIPHERMENT)) throw Invalid_Argument("CMS: Constraints not set for encryption"); encrypt_ktri(rng, to, key.get(), cipher); } else if(algo == "DH") { if(constraints != NO_CONSTRAINTS && !(constraints & KEY_AGREEMENT)) throw Invalid_Argument("CMS: Constraints not set for key agreement"); encrypt_kari(rng, to, key.get(), cipher); } else throw Invalid_Argument("Unknown CMS PK encryption algorithm " + algo); } /* * Encrypt a message with a key transport algo */ void CMS_Encoder::encrypt_ktri(RandomNumberGenerator& rng, const X509_Certificate& to, Public_Key* pub_key, const std::string& cipher) { const std::string padding = "EME-PKCS1-v1_5"; const std::string pk_algo = pub_key->algo_name(); PK_Encryptor_EME encryptor(*pub_key, padding); SymmetricKey cek = setup_key(rng, cipher); AlgorithmIdentifier alg_id(OIDS::lookup(pk_algo + '/' + padding), AlgorithmIdentifier::USE_NULL_PARAM); DER_Encoder encoder; encoder.start_cons(SEQUENCE) .encode((u32bit)0) .start_cons(SET) .start_cons(SEQUENCE) .encode((u32bit)0); encode_si(encoder, to) .encode(alg_id) .encode(encryptor.encrypt(cek.bits_of(), rng), OCTET_STRING) .end_cons() .end_cons() .raw_bytes(do_encrypt(rng, cek, cipher)) .end_cons(); add_layer("CMS.EnvelopedData", encoder); } /* * Encrypt a message with a key agreement algo */ void CMS_Encoder::encrypt_kari(RandomNumberGenerator&, const X509_Certificate&, Public_Key*, const std::string&) { throw Internal_Error("FIXME: unimplemented"); #if 0 SymmetricKey cek = setup_key(rng, cipher); DER_Encoder encoder; encoder.start_cons(SEQUENCE); encoder.encode(2); encoder.start_cons(SET); encoder.start_sequence(ASN1_Tag(1)); encoder.encode(3); encode_si(encoder, to); encoder.encode(AlgorithmIdentifier(pk_algo + "/" + padding)); encoder.encode(encrypted_cek, OCTET_STRING); encoder.end_cons(); encoder.end_cons(); encoder.raw_bytes(do_encrypt(rng, cek, cipher)); encoder.end_cons(); add_layer("CMS.EnvelopedData", encoder); #endif } /* * Encrypt a message with a shared key */ void CMS_Encoder::encrypt(RandomNumberGenerator& rng, const SymmetricKey& kek, const std::string& user_cipher) { throw Internal_Error("FIXME: untested"); const std::string cipher = choose_algo(user_cipher, "TripleDES"); SymmetricKey cek = setup_key(rng, cipher); SecureVector kek_id; // FIXME: ? DER_Encoder encoder; encoder.start_cons(SEQUENCE) .encode((u32bit)2) .start_explicit(ASN1_Tag(2)) .encode((u32bit)4) .start_cons(SEQUENCE) .encode(kek_id, OCTET_STRING) .end_cons() .encode(AlgorithmIdentifier(OIDS::lookup("KeyWrap." + cipher), AlgorithmIdentifier::USE_NULL_PARAM)) .encode(wrap_key(rng, cipher, cek, kek), OCTET_STRING) .end_cons() .raw_bytes(do_encrypt(rng, cek, cipher)) .end_cons(); add_layer("CMS.EnvelopedData", encoder); } /* * Encrypt a message with a passphrase */ void CMS_Encoder::encrypt(RandomNumberGenerator&, const std::string&, const std::string& user_cipher) { const std::string cipher = choose_algo(user_cipher, "TripleDES"); throw Internal_Error("FIXME: unimplemented"); /* SymmetricKey cek = setup_key(key); DER_Encoder encoder; encoder.start_cons(SEQUENCE); encoder.encode(0); encoder.raw_bytes(do_encrypt(rng, cek, cipher)); encoder.end_cons(); add_layer("CMS.EnvelopedData", encoder); */ } /* * Encrypt the content with the chosen key/cipher */ SecureVector CMS_Encoder::do_encrypt(RandomNumberGenerator& rng, const SymmetricKey& key, const std::string& cipher_name) { Algorithm_Factory& af = global_state().algorithm_factory(); const BlockCipher* cipher = af.prototype_block_cipher(cipher_name); if(!cipher) throw Invalid_Argument("CMS: Can't encrypt with non-existent cipher " + cipher_name); if(!OIDS::have_oid(cipher->name() + "/CBC")) throw Encoding_Error("CMS: No OID assigned for " + cipher_name + "/CBC"); InitializationVector iv(rng, cipher->block_size()); AlgorithmIdentifier content_cipher; content_cipher.oid = OIDS::lookup(cipher->name() + "/CBC"); content_cipher.parameters = encode_params(cipher->name(), key, iv); Pipe pipe(new CBC_Encryption(cipher->clone(), new PKCS7_Padding, key, iv)); pipe.process_msg(data); DER_Encoder encoder; encoder.start_cons(SEQUENCE); encoder.encode(OIDS::lookup(type)); encoder.encode(content_cipher); encoder.encode(pipe.read_all(), OCTET_STRING, ASN1_Tag(0)); encoder.end_cons(); return encoder.get_contents(); } /* * Sign a message */ void CMS_Encoder::sign(const X509_Certificate& cert, const Private_Key& key, RandomNumberGenerator& rng, const std::vector& chain, const std::string& hash, const std::string& pad_algo) { std::string padding = pad_algo + "(" + hash + ")"; Signature_Format format = IEEE_1363; PK_Signer signer(key, padding, format); AlgorithmIdentifier sig_algo(OIDS::lookup(key.algo_name() + "/" + padding), AlgorithmIdentifier::USE_NULL_PARAM); SecureVector signed_attr = encode_attr(data, type, hash); signer.update(signed_attr); SecureVector signature = signer.signature(rng); signed_attr[0] = 0xA0; const u32bit SI_VERSION = cert.subject_key_id().size() ? 3 : 1; const u32bit CMS_VERSION = (type != "CMS.DataContent") ? 3 : SI_VERSION; DER_Encoder encoder; encoder.start_cons(SEQUENCE) .encode(CMS_VERSION) .start_cons(SET) .encode(AlgorithmIdentifier(OIDS::lookup(hash), AlgorithmIdentifier::USE_NULL_PARAM)) .end_cons() .raw_bytes(make_econtent(data, type)); encoder.start_cons(ASN1_Tag(0), CONTEXT_SPECIFIC); for(u32bit j = 0; j != chain.size(); j++) encoder.raw_bytes(chain[j].BER_encode()); encoder.raw_bytes(cert.BER_encode()).end_cons(); encoder.start_cons(SET) .start_cons(SEQUENCE) .encode(SI_VERSION); encode_si(encoder, cert, ((SI_VERSION == 3) ? true : false)) .encode( AlgorithmIdentifier(OIDS::lookup(hash), AlgorithmIdentifier::USE_NULL_PARAM) ) .raw_bytes(signed_attr) .encode(sig_algo) .encode(signature, OCTET_STRING) .end_cons() .end_cons() .end_cons(); add_layer("CMS.SignedData", encoder); } /* * Digest a message */ void CMS_Encoder::digest(const std::string& user_hash) { const std::string hash = choose_algo(user_hash, "SHA-1"); if(!OIDS::have_oid(hash)) throw Encoding_Error("CMS: No OID assigned for " + hash); const u32bit VERSION = (type != "CMS.DataContent") ? 2 : 0; DER_Encoder encoder; encoder.start_cons(SEQUENCE) .encode(VERSION) .encode(AlgorithmIdentifier(OIDS::lookup(hash), AlgorithmIdentifier::USE_NULL_PARAM)) .raw_bytes(make_econtent(data, type)) .encode(hash_of(data, hash), OCTET_STRING) .end_cons(); add_layer("CMS.DigestedData", encoder); } /* * MAC a message with an encrypted key */ void CMS_Encoder::authenticate(const X509_Certificate&, const std::string& mac_algo) { const std::string mac = choose_algo(mac_algo, "HMAC(SHA-1)"); throw Internal_Error("FIXME: unimplemented"); } /* * MAC a message with a shared key */ void CMS_Encoder::authenticate(const SymmetricKey&, const std::string& mac_algo) { const std::string mac = choose_algo(mac_algo, "HMAC(SHA-1)"); throw Internal_Error("FIXME: unimplemented"); } /* * MAC a message with a passphrase */ void CMS_Encoder::authenticate(const std::string&, const std::string& mac_algo) { const std::string mac = choose_algo(mac_algo, "HMAC(SHA-1)"); throw Internal_Error("FIXME: unimplemented"); } }