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/*
* (C) 2007 FlexSecure GmbH
* 2008-2010 Jack Lloyd
*
* Botan is released under the Simplified BSD License (see license.txt)
*/
#include <botan/cvc_self.h>
#include <botan/ecc_key.h>
#include <botan/point_gfp.h>
#include <botan/oids.h>
#include <sstream>
namespace Botan {
namespace {
/*
* cvc CHAT values
*/
enum CHAT_values{
CVCA = 0xC0,
DVCA_domestic = 0x80,
DVCA_foreign = 0x40,
IS = 0x00,
IRIS = 0x02,
FINGERPRINT = 0x01
};
void encode_eac_bigint(DER_Encoder& der, const BigInt& x, ASN1_Tag tag)
{
der.encode(BigInt::encode_1363(x, x.bytes()), OCTET_STRING, tag);
}
std::vector<byte> eac_1_1_encoding(const EC_PublicKey* key,
const OID& sig_algo)
{
if(key->domain_format() == EC_DOMPAR_ENC_OID)
throw Encoding_Error("CVC encoder: cannot encode parameters by OID");
const EC_Group& domain = key->domain();
// This is why we can't have nice things
DER_Encoder enc;
enc.start_cons(ASN1_Tag(73), APPLICATION)
.encode(sig_algo);
if(key->domain_format() == EC_DOMPAR_ENC_EXPLICIT)
{
encode_eac_bigint(enc, domain.get_curve().get_p(), ASN1_Tag(1));
encode_eac_bigint(enc, domain.get_curve().get_a(), ASN1_Tag(2));
encode_eac_bigint(enc, domain.get_curve().get_b(), ASN1_Tag(3));
enc.encode(EC2OSP(domain.get_base_point(), PointGFp::UNCOMPRESSED),
OCTET_STRING, ASN1_Tag(4));
encode_eac_bigint(enc, domain.get_order(), ASN1_Tag(4));
}
enc.encode(EC2OSP(key->public_point(), PointGFp::UNCOMPRESSED),
OCTET_STRING, ASN1_Tag(6));
if(key->domain_format() == EC_DOMPAR_ENC_EXPLICIT)
encode_eac_bigint(enc, domain.get_cofactor(), ASN1_Tag(7));
enc.end_cons();
return enc.get_contents_unlocked();
}
std::string padding_and_hash_from_oid(OID const& oid)
{
std::string padding_and_hash = OIDS::lookup(oid); // use the hash
if(padding_and_hash.substr(0,6) != "ECDSA/")
throw Invalid_State("CVC: Can only use ECDSA, not " + padding_and_hash);
padding_and_hash.erase(0, padding_and_hash.find("/") + 1);
return padding_and_hash;
}
}
namespace CVC_EAC {
EAC1_1_CVC create_self_signed_cert(Private_Key const& key,
EAC1_1_CVC_Options const& opt,
RandomNumberGenerator& rng)
{
// NOTE: we ignore the value of opt.chr
const ECDSA_PrivateKey* priv_key = dynamic_cast<const ECDSA_PrivateKey*>(&key);
if(priv_key == 0)
throw Invalid_Argument("CVC_EAC::create_self_signed_cert(): unsupported key type");
ASN1_Chr chr(opt.car.value());
AlgorithmIdentifier sig_algo;
std::string padding_and_hash("EMSA1(" + opt.hash_alg + ")");
sig_algo.oid = OIDS::lookup(priv_key->algo_name() + "/" + padding_and_hash);
sig_algo = AlgorithmIdentifier(sig_algo.oid, AlgorithmIdentifier::USE_NULL_PARAM);
PK_Signer signer(*priv_key, padding_and_hash);
std::vector<byte> enc_public_key = eac_1_1_encoding(priv_key, sig_algo.oid);
return make_cvc_cert(signer,
enc_public_key,
opt.car, chr,
opt.holder_auth_templ,
opt.ced, opt.cex, rng);
}
EAC1_1_Req create_cvc_req(Private_Key const& key,
ASN1_Chr const& chr,
std::string const& hash_alg,
RandomNumberGenerator& rng)
{
ECDSA_PrivateKey const* priv_key = dynamic_cast<ECDSA_PrivateKey const*>(&key);
if (priv_key == 0)
{
throw Invalid_Argument("CVC_EAC::create_self_signed_cert(): unsupported key type");
}
AlgorithmIdentifier sig_algo;
std::string padding_and_hash("EMSA1(" + hash_alg + ")");
sig_algo.oid = OIDS::lookup(priv_key->algo_name() + "/" + padding_and_hash);
sig_algo = AlgorithmIdentifier(sig_algo.oid, AlgorithmIdentifier::USE_NULL_PARAM);
PK_Signer signer(*priv_key, padding_and_hash);
std::vector<byte> enc_public_key = eac_1_1_encoding(priv_key, sig_algo.oid);
std::vector<byte> enc_cpi;
enc_cpi.push_back(0x00);
std::vector<byte> tbs = DER_Encoder()
.encode(enc_cpi, OCTET_STRING, ASN1_Tag(41), APPLICATION)
.raw_bytes(enc_public_key)
.encode(chr)
.get_contents_unlocked();
std::vector<byte> signed_cert =
EAC1_1_gen_CVC<EAC1_1_Req>::make_signed(signer,
EAC1_1_gen_CVC<EAC1_1_Req>::build_cert_body(tbs),
rng);
DataSource_Memory source(signed_cert);
return EAC1_1_Req(source);
}
EAC1_1_ADO create_ado_req(Private_Key const& key,
EAC1_1_Req const& req,
ASN1_Car const& car,
RandomNumberGenerator& rng)
{
ECDSA_PrivateKey const* priv_key = dynamic_cast<ECDSA_PrivateKey const*>(&key);
if (priv_key == 0)
{
throw Invalid_Argument("CVC_EAC::create_self_signed_cert(): unsupported key type");
}
std::string padding_and_hash = padding_and_hash_from_oid(req.signature_algorithm().oid);
PK_Signer signer(*priv_key, padding_and_hash);
std::vector<byte> tbs_bits = req.BER_encode();
tbs_bits += DER_Encoder().encode(car).get_contents();
std::vector<byte> signed_cert =
EAC1_1_ADO::make_signed(signer, tbs_bits, rng);
DataSource_Memory source(signed_cert);
return EAC1_1_ADO(source);
}
} // namespace CVC_EAC
namespace DE_EAC
{
EAC1_1_CVC create_cvca(Private_Key const& key,
std::string const& hash,
ASN1_Car const& car, bool iris, bool fingerpr,
u32bit cvca_validity_months,
RandomNumberGenerator& rng)
{
ECDSA_PrivateKey const* priv_key = dynamic_cast<ECDSA_PrivateKey const*>(&key);
if (priv_key == 0)
{
throw Invalid_Argument("CVC_EAC::create_self_signed_cert(): unsupported key type");
}
EAC1_1_CVC_Options opts;
opts.car = car;
opts.ced = ASN1_Ced(std::chrono::system_clock::now());
opts.cex = ASN1_Cex(opts.ced);
opts.cex.add_months(cvca_validity_months);
opts.holder_auth_templ = (CVCA | (iris * IRIS) | (fingerpr * FINGERPRINT));
opts.hash_alg = hash;
return CVC_EAC::create_self_signed_cert(*priv_key, opts, rng);
}
EAC1_1_CVC link_cvca(EAC1_1_CVC const& signer,
Private_Key const& key,
EAC1_1_CVC const& signee,
RandomNumberGenerator& rng)
{
const ECDSA_PrivateKey* priv_key = dynamic_cast<ECDSA_PrivateKey const*>(&key);
if (priv_key == 0)
throw Invalid_Argument("link_cvca(): unsupported key type");
ASN1_Ced ced(std::chrono::system_clock::now());
ASN1_Cex cex(signee.get_cex());
if (*static_cast<EAC_Time*>(&ced) > *static_cast<EAC_Time*>(&cex))
{
std::string detail("link_cvca(): validity periods of provided certificates don't overlap: currend time = ced = ");
detail += ced.as_string();
detail += ", signee.cex = ";
detail += cex.as_string();
throw Invalid_Argument(detail);
}
if (signer.signature_algorithm() != signee.signature_algorithm())
{
throw Invalid_Argument("link_cvca(): signature algorithms of signer and signee don't match");
}
AlgorithmIdentifier sig_algo = signer.signature_algorithm();
std::string padding_and_hash = padding_and_hash_from_oid(sig_algo.oid);
PK_Signer pk_signer(*priv_key, padding_and_hash);
std::unique_ptr<Public_Key> pk(signee.subject_public_key());
ECDSA_PublicKey* subj_pk = dynamic_cast<ECDSA_PublicKey*>(pk.get());
subj_pk->set_parameter_encoding(EC_DOMPAR_ENC_EXPLICIT);
std::vector<byte> enc_public_key = eac_1_1_encoding(priv_key, sig_algo.oid);
return make_cvc_cert(pk_signer, enc_public_key,
signer.get_car(),
signee.get_chr(),
signer.get_chat_value(),
ced, cex,
rng);
}
EAC1_1_CVC sign_request(EAC1_1_CVC const& signer_cert,
Private_Key const& key,
EAC1_1_Req const& signee,
u32bit seqnr,
u32bit seqnr_len,
bool domestic,
u32bit dvca_validity_months,
u32bit ca_is_validity_months,
RandomNumberGenerator& rng)
{
ECDSA_PrivateKey const* priv_key = dynamic_cast<ECDSA_PrivateKey const*>(&key);
if (priv_key == 0)
{
throw Invalid_Argument("CVC_EAC::create_self_signed_cert(): unsupported key type");
}
std::string chr_str = signee.get_chr().value();
std::string seqnr_string = std::to_string(seqnr);
while(seqnr_string.size() < seqnr_len)
seqnr_string = '0' + seqnr_string;
chr_str += seqnr_string;
ASN1_Chr chr(chr_str);
std::string padding_and_hash = padding_and_hash_from_oid(signee.signature_algorithm().oid);
PK_Signer pk_signer(*priv_key, padding_and_hash);
std::unique_ptr<Public_Key> pk(signee.subject_public_key());
ECDSA_PublicKey* subj_pk = dynamic_cast<ECDSA_PublicKey*>(pk.get());
std::unique_ptr<Public_Key> signer_pk(signer_cert.subject_public_key());
// for the case that the domain parameters are not set...
// (we use those from the signer because they must fit)
//subj_pk->set_domain_parameters(priv_key->domain_parameters());
subj_pk->set_parameter_encoding(EC_DOMPAR_ENC_IMPLICITCA);
AlgorithmIdentifier sig_algo(signer_cert.signature_algorithm());
ASN1_Ced ced(std::chrono::system_clock::now());
u32bit chat_val;
u32bit chat_low = signer_cert.get_chat_value() & 0x3; // take the chat rights from signer
ASN1_Cex cex(ced);
if ((signer_cert.get_chat_value() & CVCA) == CVCA)
{
// we sign a dvca
cex.add_months(dvca_validity_months);
if (domestic)
chat_val = DVCA_domestic | chat_low;
else
chat_val = DVCA_foreign | chat_low;
}
else if ((signer_cert.get_chat_value() & DVCA_domestic) == DVCA_domestic ||
(signer_cert.get_chat_value() & DVCA_foreign) == DVCA_foreign)
{
cex.add_months(ca_is_validity_months);
chat_val = IS | chat_low;
}
else
{
throw Invalid_Argument("sign_request(): encountered illegal value for CHAT");
// (IS cannot sign certificates)
}
std::vector<byte> enc_public_key = eac_1_1_encoding(priv_key, sig_algo.oid);
return make_cvc_cert(pk_signer, enc_public_key,
ASN1_Car(signer_cert.get_chr().iso_8859()),
chr,
chat_val,
ced,
cex,
rng);
}
EAC1_1_Req create_cvc_req(Private_Key const& prkey,
ASN1_Chr const& chr,
std::string const& hash_alg,
RandomNumberGenerator& rng)
{
ECDSA_PrivateKey const* priv_key = dynamic_cast<ECDSA_PrivateKey const*>(&prkey);
if (priv_key == 0)
{
throw Invalid_Argument("CVC_EAC::create_self_signed_cert(): unsupported key type");
}
ECDSA_PrivateKey key(*priv_key);
key.set_parameter_encoding(EC_DOMPAR_ENC_IMPLICITCA);
return CVC_EAC::create_cvc_req(key, chr, hash_alg, rng);
}
} // namespace DE_EAC
}
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