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/*
* CVC EAC1.1 tests
*
* (C) 2008 Falko Strenzke (strenzke@flexsecure.de)
* 2008 Jack Lloyd
*/
#include "validate.h"
#include <botan/build.h>
#if defined(BOTAN_HAS_CARD_VERIFIABLE_CERTIFICATES)
#include <iosfwd>
#include <iostream>
#include <iterator>
#include <algorithm>
#include <fstream>
#include <vector>
#include <botan/ecdsa.h>
#include <botan/rsa.h>
#include <botan/x509cert.h>
#include <botan/x509self.h>
#include <botan/oids.h>
#include <botan/cvc_self.h>
#include <botan/cvc_cert.h>
#include <botan/cvc_ado.h>
#include <botan/time.h>
#define TEST_DATA_DIR "checks/ecc_testdata"
using namespace Botan;
#define CHECK_MESSAGE(expr, print) try { if(!(expr)) std::cout << print << "\n"; } catch(std::exception& e) { std::cout << __FUNCTION__ << ": " << e.what() << "\n"; }
#define CHECK(expr) try { if(!(expr)) std::cout << #expr << "\n"; } catch(std::exception& e) { std::cout << __FUNCTION__ << ": " << e.what() << "\n"; }
namespace {
// helper functions
void helper_write_file(EAC_Signed_Object const& to_write, std::string const& file_path)
{
SecureVector<byte> sv = to_write.BER_encode();
std::ofstream cert_file(file_path.c_str(), std::ios::binary);
cert_file.write((char*)&sv[0], sv.size());
cert_file.close();
}
bool helper_files_equal(std::string const& file_path1, std::string const& file_path2)
{
std::ifstream cert_1_in(file_path1.c_str());
std::ifstream cert_2_in(file_path2.c_str());
SecureVector<byte> sv1;
SecureVector<byte> sv2;
if (!cert_1_in || !cert_2_in)
{
return false;
}
while (!cert_1_in.eof())
{
char now;
cert_1_in.read(&now, 1);
sv1.push_back(now);
}
while (!cert_2_in.eof())
{
char now;
cert_2_in.read(&now, 1);
sv2.push_back(now);
}
if (sv1.size() == 0)
{
return false;
}
return sv1 == sv2;
}
void test_enc_gen_selfsigned(RandomNumberGenerator& rng)
{
std::cout << '.' << std::flush;
EAC1_1_CVC_Options opts;
//opts.cpi = 0;
opts.chr = ASN1_Chr("my_opt_chr"); // not used
opts.car = ASN1_Car("my_opt_car");
opts.cex = ASN1_Cex("2010 08 13");
opts.ced = ASN1_Ced("2010 07 27");
opts.holder_auth_templ = 0xC1;
opts.hash_alg = "SHA-256";
// creating a non sense selfsigned cert w/o dom pars
EC_Domain_Params dom_pars(OID("1.3.36.3.3.2.8.1.1.11"));
ECDSA_PrivateKey key(rng, dom_pars);
key.set_parameter_encoding(EC_DOMPAR_ENC_IMPLICITCA);
EAC1_1_CVC cert = CVC_EAC::create_self_signed_cert(key, opts, rng);
SecureVector<byte> der(cert.BER_encode());
std::ofstream cert_file;
cert_file.open(TEST_DATA_DIR "/my_cv_cert.ber", std::ios::binary);
//cert_file << der; // this is bad !!!
cert_file.write((char*)&der[0], der.size());
cert_file.close();
EAC1_1_CVC cert_in(TEST_DATA_DIR "/my_cv_cert.ber");
CHECK(cert == cert_in);
// encoding it again while it has no dp
SecureVector<byte> der2(cert_in.BER_encode());
std::ofstream cert_file2(TEST_DATA_DIR "/my_cv_cert2.ber", std::ios::binary);
cert_file2.write((char*)&der2[0], der2.size());
cert_file2.close();
// read both and compare them
std::ifstream cert_1_in(TEST_DATA_DIR "/my_cv_cert.ber");
std::ifstream cert_2_in(TEST_DATA_DIR "/my_cv_cert2.ber");
SecureVector<byte> sv1;
SecureVector<byte> sv2;
if (!cert_1_in || !cert_2_in)
{
CHECK_MESSAGE(false, "could not read certificate files");
}
while (!cert_1_in.eof())
{
char now;
cert_1_in.read(&now, 1);
sv1.push_back(now);
}
while (!cert_2_in.eof())
{
char now;
cert_2_in.read(&now, 1);
sv2.push_back(now);
}
CHECK(sv1.size() > 10);
CHECK_MESSAGE(sv1 == sv2, "reencoded file of cert without domain parameters is different from original");
//cout << "reading cert again\n";
CHECK(cert_in.get_car().value() == "my_opt_car");
CHECK(cert_in.get_chr().value() == "my_opt_car");
CHECK(cert_in.get_ced().as_string() == "20100727");
CHECK(cert_in.get_ced().readable_string() == "2010/07/27 ");
bool ill_date_exc = false;
try
{
ASN1_Ced("1999 01 01");
}
catch (...)
{
ill_date_exc = true;
}
CHECK(ill_date_exc);
bool ill_date_exc2 = false;
try
{
ASN1_Ced("2100 01 01");
}
catch (...)
{
ill_date_exc2 = true;
}
CHECK(ill_date_exc2);
//cout << "readable = '" << cert_in.get_ced().readable_string() << "'\n";
std::auto_ptr<Public_Key> p_pk = cert_in.subject_public_key();
//auto_ptr<ECDSA_PublicKey> ecdsa_pk = dynamic_cast<auto_ptr<ECDSA_PublicKey> >(p_pk);
ECDSA_PublicKey* p_ecdsa_pk = dynamic_cast<ECDSA_PublicKey*>(p_pk.get());
// let´s see if encoding is truely implicitca, because this is what the key should have
// been set to when decoding (see above)(because it has no domain params):
//cout << "encoding = " << p_ecdsa_pk->get_parameter_encoding() << std::endl;
CHECK(p_ecdsa_pk->domain_format() == EC_DOMPAR_ENC_IMPLICITCA);
bool exc = false;
try
{
std::cout << "order = " << p_ecdsa_pk->domain().get_order() << std::endl;
}
catch (Invalid_State)
{
exc = true;
}
CHECK(exc);
// set them and try again
//cert_in.set_domain_parameters(dom_pars);
std::auto_ptr<Public_Key> p_pk2 = cert_in.subject_public_key();
ECDSA_PublicKey* p_ecdsa_pk2 = dynamic_cast<ECDSA_PublicKey*>(p_pk2.get());
//p_ecdsa_pk2->set_domain_parameters(dom_pars);
CHECK(p_ecdsa_pk2->domain().get_order() == dom_pars.get_order());
bool ver_ec = cert_in.check_signature(*p_pk2);
CHECK_MESSAGE(ver_ec, "could not positively verify correct selfsigned cvc certificate");
}
void test_enc_gen_req(RandomNumberGenerator& rng)
{
std::cout << "." << std::flush;
EAC1_1_CVC_Options opts;
//opts.cpi = 0;
opts.chr = ASN1_Chr("my_opt_chr");
opts.hash_alg = "SHA-160";
// creating a non sense selfsigned cert w/o dom pars
EC_Domain_Params dom_pars(OID("1.3.132.0.8"));
ECDSA_PrivateKey key(rng, dom_pars);
key.set_parameter_encoding(EC_DOMPAR_ENC_IMPLICITCA);
EAC1_1_Req req = CVC_EAC::create_cvc_req(key, opts.chr, opts.hash_alg, rng);
SecureVector<byte> der(req.BER_encode());
std::ofstream req_file(TEST_DATA_DIR "/my_cv_req.ber", std::ios::binary);
req_file.write((char*)&der[0], der.size());
req_file.close();
// read and check signature...
EAC1_1_Req req_in(TEST_DATA_DIR "/my_cv_req.ber");
//req_in.set_domain_parameters(dom_pars);
std::auto_ptr<Public_Key> p_pk = req_in.subject_public_key();
ECDSA_PublicKey* p_ecdsa_pk = dynamic_cast<ECDSA_PublicKey*>(p_pk.get());
//p_ecdsa_pk->set_domain_parameters(dom_pars);
CHECK(p_ecdsa_pk->domain().get_order() == dom_pars.get_order());
bool ver_ec = req_in.check_signature(*p_pk);
CHECK_MESSAGE(ver_ec, "could not positively verify correct selfsigned (created by myself) cvc request");
}
void test_cvc_req_ext(RandomNumberGenerator&)
{
std::cout << "." << std::flush;
EAC1_1_Req req_in(TEST_DATA_DIR "/DE1_flen_chars_cvcRequest_ECDSA.der");
EC_Domain_Params dom_pars(OID("1.3.36.3.3.2.8.1.1.5")); // "german curve"
//req_in.set_domain_parameters(dom_pars);
std::auto_ptr<Public_Key> p_pk = req_in.subject_public_key();
ECDSA_PublicKey* p_ecdsa_pk = dynamic_cast<ECDSA_PublicKey*>(p_pk.get());
//p_ecdsa_pk->set_domain_parameters(dom_pars);
CHECK(p_ecdsa_pk->domain().get_order() == dom_pars.get_order());
bool ver_ec = req_in.check_signature(*p_pk);
CHECK_MESSAGE(ver_ec, "could not positively verify correct selfsigned (external testdata) cvc request");
}
void test_cvc_ado_ext(RandomNumberGenerator&)
{
std::cout << "." << std::flush;
EAC1_1_ADO req_in(TEST_DATA_DIR "/ado.cvcreq");
EC_Domain_Params dom_pars(OID("1.3.36.3.3.2.8.1.1.5")); // "german curve"
//cout << "car = " << req_in.get_car().value() << std::endl;
//req_in.set_domain_parameters(dom_pars);
}
void test_cvc_ado_creation(RandomNumberGenerator& rng)
{
std::cout << "." << std::flush;
EAC1_1_CVC_Options opts;
//opts.cpi = 0;
opts.chr = ASN1_Chr("my_opt_chr");
opts.hash_alg = "SHA-256";
// creating a non sense selfsigned cert w/o dom pars
EC_Domain_Params dom_pars(OID("1.3.36.3.3.2.8.1.1.11"));
//cout << "mod = " << hex << dom_pars.get_curve().get_p() << std::endl;
ECDSA_PrivateKey req_key(rng, dom_pars);
req_key.set_parameter_encoding(EC_DOMPAR_ENC_IMPLICITCA);
//EAC1_1_Req req = CVC_EAC::create_cvc_req(req_key, opts);
EAC1_1_Req req = CVC_EAC::create_cvc_req(req_key, opts.chr, opts.hash_alg, rng);
SecureVector<byte> der(req.BER_encode());
std::ofstream req_file(TEST_DATA_DIR "/my_cv_req.ber", std::ios::binary);
req_file.write((char*)&der[0], der.size());
req_file.close();
// create an ado with that req
ECDSA_PrivateKey ado_key(rng, dom_pars);
EAC1_1_CVC_Options ado_opts;
ado_opts.car = ASN1_Car("my_ado_car");
ado_opts.hash_alg = "SHA-256"; // must be equal to req´s hash alg, because ado takes his sig_algo from it´s request
//EAC1_1_ADO ado = CVC_EAC::create_ado_req(ado_key, req, ado_opts);
EAC1_1_ADO ado = CVC_EAC::create_ado_req(ado_key, req, ado_opts.car, rng);
CHECK_MESSAGE(ado.check_signature(ado_key), "failure of ado verification after creation");
std::ofstream ado_file(TEST_DATA_DIR "/ado", std::ios::binary);
SecureVector<byte> ado_der(ado.BER_encode());
ado_file.write((char*)&ado_der[0], ado_der.size());
ado_file.close();
// read it again and check the signature
EAC1_1_ADO ado2(TEST_DATA_DIR "/ado");
CHECK(ado == ado2);
//ECDSA_PublicKey* p_ado_pk = dynamic_cast<ECDSA_PublicKey*>(&ado_key);
//bool ver = ado2.check_signature(*p_ado_pk);
bool ver = ado2.check_signature(ado_key);
CHECK_MESSAGE(ver, "failure of ado verification after reloading");
}
void test_cvc_ado_comparison(RandomNumberGenerator& rng)
{
std::cout << "." << std::flush;
EAC1_1_CVC_Options opts;
//opts.cpi = 0;
opts.chr = ASN1_Chr("my_opt_chr");
opts.hash_alg = "SHA-224";
// creating a non sense selfsigned cert w/o dom pars
EC_Domain_Params dom_pars(OID("1.3.36.3.3.2.8.1.1.11"));
ECDSA_PrivateKey req_key(rng, dom_pars);
req_key.set_parameter_encoding(EC_DOMPAR_ENC_IMPLICITCA);
//EAC1_1_Req req = CVC_EAC::create_cvc_req(req_key, opts);
EAC1_1_Req req = CVC_EAC::create_cvc_req(req_key, opts.chr, opts.hash_alg, rng);
// create an ado with that req
ECDSA_PrivateKey ado_key(rng, dom_pars);
EAC1_1_CVC_Options ado_opts;
ado_opts.car = ASN1_Car("my_ado_car1");
ado_opts.hash_alg = "SHA-224"; // must be equal to req's hash alg, because ado takes his sig_algo from it's request
//EAC1_1_ADO ado = CVC_EAC::create_ado_req(ado_key, req, ado_opts);
EAC1_1_ADO ado = CVC_EAC::create_ado_req(ado_key, req, ado_opts.car, rng);
CHECK_MESSAGE(ado.check_signature(ado_key), "failure of ado verification after creation");
// make a second one for comparison
EAC1_1_CVC_Options opts2;
//opts2.cpi = 0;
opts2.chr = ASN1_Chr("my_opt_chr");
opts2.hash_alg = "SHA-160"; // this is the only difference
ECDSA_PrivateKey req_key2(rng, dom_pars);
req_key.set_parameter_encoding(EC_DOMPAR_ENC_IMPLICITCA);
//EAC1_1_Req req2 = CVC_EAC::create_cvc_req(req_key2, opts2, rng);
EAC1_1_Req req2 = CVC_EAC::create_cvc_req(req_key2, opts2.chr, opts2.hash_alg, rng);
ECDSA_PrivateKey ado_key2(rng, dom_pars);
EAC1_1_CVC_Options ado_opts2;
ado_opts2.car = ASN1_Car("my_ado_car1");
ado_opts2.hash_alg = "SHA-160"; // must be equal to req's hash alg, because ado takes his sig_algo from it's request
EAC1_1_ADO ado2 = CVC_EAC::create_ado_req(ado_key2, req2, ado_opts2.car, rng);
CHECK_MESSAGE(ado2.check_signature(ado_key2), "failure of ado verification after creation");
CHECK_MESSAGE(ado != ado2, "ado's found to be equal where they are not");
// std::ofstream ado_file(TEST_DATA_DIR "/ado");
// SecureVector<byte> ado_der(ado.BER_encode());
// ado_file.write((char*)&ado_der[0], ado_der.size());
// ado_file.close();
// read it again and check the signature
// EAC1_1_ADO ado2(TEST_DATA_DIR "/ado");
// ECDSA_PublicKey* p_ado_pk = dynamic_cast<ECDSA_PublicKey*>(&ado_key);
// //bool ver = ado2.check_signature(*p_ado_pk);
// bool ver = ado2.check_signature(ado_key);
// CHECK_MESSAGE(ver, "failure of ado verification after reloading");
}
void test_eac_time(RandomNumberGenerator&)
{
std::cout << "." << std::flush;
const u64bit current_time = system_time();
EAC_Time time(current_time);
// std::cout << "time as std::string = " << time.as_string() << std::endl;
EAC_Time sooner("", ASN1_Tag(99));
//X509_Time sooner("", ASN1_Tag(99));
sooner.set_to("2007 12 12");
// std::cout << "sooner as std::string = " << sooner.as_string() << std::endl;
EAC_Time later("2007 12 13");
//X509_Time later("2007 12 13");
// std::cout << "later as std::string = " << later.as_string() << std::endl;
CHECK(sooner <= later);
CHECK(sooner == sooner);
ASN1_Cex my_cex("2007 08 01");
my_cex.add_months(12);
CHECK(my_cex.get_year() == 2008);
CHECK_MESSAGE(my_cex.get_month() == 8, "shoult be 8, was " << my_cex.get_month());
my_cex.add_months(4);
CHECK(my_cex.get_year() == 2008);
CHECK(my_cex.get_month() == 12);
my_cex.add_months(4);
CHECK(my_cex.get_year() == 2009);
CHECK(my_cex.get_month() == 4);
my_cex.add_months(41);
CHECK(my_cex.get_year() == 2012);
CHECK(my_cex.get_month() == 9);
}
void test_ver_cvca(RandomNumberGenerator&)
{
std::cout << "." << std::flush;
EAC1_1_CVC req_in(TEST_DATA_DIR "/cvca01.cv.crt");
//auto_ptr<ECDSA_PublicKey> ecdsa_pk = dynamic_cast<auto_ptr<ECDSA_PublicKey> >(p_pk);
//ECDSA_PublicKey* p_ecdsa_pk = dynamic_cast<ECDSA_PublicKey*>(p_pk.get());
bool exc = false;
std::auto_ptr<Public_Key> p_pk2 = req_in.subject_public_key();
ECDSA_PublicKey* p_ecdsa_pk2 = dynamic_cast<ECDSA_PublicKey*>(p_pk2.get());
bool ver_ec = req_in.check_signature(*p_pk2);
CHECK_MESSAGE(ver_ec, "could not positively verify correct selfsigned cvca certificate");
try
{
p_ecdsa_pk2->domain().get_order();
}
catch (Invalid_State)
{
exc = true;
}
CHECK(!exc);
}
void test_copy_and_assignment(RandomNumberGenerator&)
{
std::cout << "." << std::flush;
EAC1_1_CVC cert_in(TEST_DATA_DIR "/cvca01.cv.crt");
EAC1_1_CVC cert_cp(cert_in);
EAC1_1_CVC cert_ass = cert_in;
CHECK(cert_in == cert_cp);
CHECK(cert_in == cert_ass);
EAC1_1_ADO ado_in(TEST_DATA_DIR "/ado.cvcreq");
//EC_Domain_Params dom_pars(OID("1.3.36.3.3.2.8.1.1.5")); // "german curve"
EAC1_1_ADO ado_cp(ado_in);
EAC1_1_ADO ado_ass = ado_in;
CHECK(ado_in == ado_cp);
CHECK(ado_in == ado_ass);
EAC1_1_Req req_in(TEST_DATA_DIR "/DE1_flen_chars_cvcRequest_ECDSA.der");
//EC_Domain_Params dom_pars(OID("1.3.36.3.3.2.8.1.1.5")); // "german curve"
EAC1_1_Req req_cp(req_in);
EAC1_1_Req req_ass = req_in;
CHECK(req_in == req_cp);
CHECK(req_in == req_ass);
}
void test_eac_str_illegal_values(RandomNumberGenerator&)
{
std::cout << "." << std::flush;
bool exc = false;
try
{
EAC1_1_CVC(TEST_DATA_DIR "/cvca_illegal_chars.cv.crt");
}
catch (Decoding_Error)
{
exc = true;
}
CHECK(exc);
bool exc2 = false;
try
{
EAC1_1_CVC(TEST_DATA_DIR "/cvca_illegal_chars2.cv.crt");
}
catch (Decoding_Error)
{
exc2 = true;
}
CHECK(exc2);
}
void test_tmp_eac_str_enc(RandomNumberGenerator&)
{
std::cout << "." << std::flush;
bool exc = false;
try
{
ASN1_Car("abc!+-µ\n");
}
catch (Invalid_Argument)
{
exc = true;
}
CHECK(exc);
// std::string val = car.iso_8859();
// std::cout << "car 8859 = " << val << std::endl;
// std::cout << hex <<(unsigned char)val[1] << std::endl;
}
void test_cvc_chain(RandomNumberGenerator& rng)
{
std::cout << "." << std::flush;
EC_Domain_Params dom_pars(OID("1.3.36.3.3.2.8.1.1.5")); // "german curve"
ECDSA_PrivateKey cvca_privk(rng, dom_pars);
std::string hash("SHA-224");
ASN1_Car car("DECVCA00001");
EAC1_1_CVC cvca_cert = DE_EAC::create_cvca(cvca_privk, hash, car, true, true, 12, rng);
std::ofstream cvca_file(TEST_DATA_DIR "/cvc_chain_cvca.cer", std::ios::binary);
SecureVector<byte> cvca_sv = cvca_cert.BER_encode();
cvca_file.write((char*)&cvca_sv[0], cvca_sv.size());
cvca_file.close();
ECDSA_PrivateKey cvca_privk2(rng, dom_pars);
ASN1_Car car2("DECVCA00002");
EAC1_1_CVC cvca_cert2 = DE_EAC::create_cvca(cvca_privk2, hash, car2, true, true, 12, rng);
EAC1_1_CVC link12 = DE_EAC::link_cvca(cvca_cert, cvca_privk, cvca_cert2, rng);
SecureVector<byte> link12_sv = link12.BER_encode();
std::ofstream link12_file(TEST_DATA_DIR "/cvc_chain_link12.cer", std::ios::binary);
link12_file.write((char*)&link12_sv[0], link12_sv.size());
link12_file.close();
// verify the link
CHECK(link12.check_signature(cvca_privk));
EAC1_1_CVC link12_reloaded(TEST_DATA_DIR "/cvc_chain_link12.cer");
EAC1_1_CVC cvca1_reloaded(TEST_DATA_DIR "/cvc_chain_cvca.cer");
std::auto_ptr<Public_Key> cvca1_rel_pk = cvca1_reloaded.subject_public_key();
CHECK(link12_reloaded.check_signature(*cvca1_rel_pk));
// create first round dvca-req
ECDSA_PrivateKey dvca_priv_key(rng, dom_pars);
EAC1_1_Req dvca_req = DE_EAC::create_cvc_req(dvca_priv_key, ASN1_Chr("DEDVCAEPASS"), hash, rng);
std::ofstream dvca_file(TEST_DATA_DIR "/cvc_chain_dvca_req.cer", std::ios::binary);
SecureVector<byte> dvca_sv = dvca_req.BER_encode();
dvca_file.write((char*)&dvca_sv[0], dvca_sv.size());
dvca_file.close();
// sign the dvca_request
EAC1_1_CVC dvca_cert1 = DE_EAC::sign_request(cvca_cert, cvca_privk, dvca_req, 1, 5, true, 3, 1, rng);
CHECK(dvca_cert1.get_car().iso_8859() == "DECVCA00001");
CHECK(dvca_cert1.get_chr().iso_8859() == "DEDVCAEPASS00001");
helper_write_file(dvca_cert1, TEST_DATA_DIR "/cvc_chain_dvca_cert1.cer");
// make a second round dvca ado request
ECDSA_PrivateKey dvca_priv_key2(rng, dom_pars);
EAC1_1_Req dvca_req2 = DE_EAC::create_cvc_req(dvca_priv_key2, ASN1_Chr("DEDVCAEPASS"), hash, rng);
std::ofstream dvca_file2(TEST_DATA_DIR "/cvc_chain_dvca_req2.cer", std::ios::binary);
SecureVector<byte> dvca_sv2 = dvca_req2.BER_encode();
dvca_file2.write((char*)&dvca_sv2[0], dvca_sv2.size());
dvca_file2.close();
EAC1_1_ADO dvca_ado2 = CVC_EAC::create_ado_req(dvca_priv_key, dvca_req2,
ASN1_Car(dvca_cert1.get_chr().iso_8859()), rng);
helper_write_file(dvca_ado2, TEST_DATA_DIR "/cvc_chain_dvca_ado2.cer");
// verify the ado and sign the request too
std::auto_ptr<Public_Key> ap_pk = dvca_cert1.subject_public_key();
ECDSA_PublicKey* cert_pk = dynamic_cast<ECDSA_PublicKey*>(ap_pk.get());
//cert_pk->set_domain_parameters(dom_pars);
//std::cout << "dvca_cert.public_point.size() = " << ec::EC2OSP(cert_pk->get_public_point(), ec::PointGFp::COMPRESSED).size() << std::endl;
EAC1_1_CVC dvca_cert1_reread(TEST_DATA_DIR "/cvc_chain_cvca.cer");
CHECK(dvca_ado2.check_signature(*cert_pk));
CHECK(dvca_ado2.check_signature(dvca_priv_key)); // must also work
EAC1_1_Req dvca_req2b = dvca_ado2.get_request();
helper_write_file(dvca_req2b, TEST_DATA_DIR "/cvc_chain_dvca_req2b.cer");
CHECK(helper_files_equal(TEST_DATA_DIR "/cvc_chain_dvca_req2b.cer", TEST_DATA_DIR "/cvc_chain_dvca_req2.cer"));
EAC1_1_CVC dvca_cert2 = DE_EAC::sign_request(cvca_cert, cvca_privk, dvca_req2b, 2, 5, true, 3, 1, rng);
CHECK(dvca_cert2.get_car().iso_8859() == "DECVCA00001");
CHECK_MESSAGE(dvca_cert2.get_chr().iso_8859() == "DEDVCAEPASS00002",
"chr = " << dvca_cert2.get_chr().iso_8859());
// make a first round IS request
ECDSA_PrivateKey is_priv_key(rng, dom_pars);
EAC1_1_Req is_req = DE_EAC::create_cvc_req(is_priv_key, ASN1_Chr("DEIS"), hash, rng);
helper_write_file(is_req, TEST_DATA_DIR "/cvc_chain_is_req.cer");
// sign the IS request
//dvca_cert1.set_domain_parameters(dom_pars);
EAC1_1_CVC is_cert1 = DE_EAC::sign_request(dvca_cert1, dvca_priv_key, is_req, 1, 5, true, 3, 1, rng);
CHECK_MESSAGE(is_cert1.get_car().iso_8859() == "DEDVCAEPASS00001", "car = " << is_cert1.get_car().iso_8859());
CHECK(is_cert1.get_chr().iso_8859() == "DEIS00001");
helper_write_file(is_cert1, TEST_DATA_DIR "/cvc_chain_is_cert.cer");
// verify the signature of the certificate
CHECK(is_cert1.check_signature(dvca_priv_key));
}
}
u32bit do_cvc_tests(Botan::RandomNumberGenerator& rng)
{
std::cout << "Testing CVC: " << std::flush;
test_enc_gen_selfsigned(rng);
test_enc_gen_req(rng);
test_cvc_req_ext(rng);
test_cvc_ado_ext(rng);
test_cvc_ado_creation(rng);
test_cvc_ado_comparison(rng);
test_eac_time(rng);
test_ver_cvca(rng);
test_copy_and_assignment(rng);
test_eac_str_illegal_values(rng);
test_tmp_eac_str_enc(rng);
test_cvc_chain(rng);
std::cout << std::endl;
return 0;
}
#else
u32bit do_cvc_tests(Botan::RandomNumberGenerator&) { return 0; }
#endif
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