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|
/*
* (C) 2016 Daniel Neus
* (C) 2016 Philipp Weber
* (C) 2019 Michael Boric
*
* Botan is released under the Simplified BSD License (see license.txt)
*/
#include "tests.h"
#include "test_pkcs11.h"
#include <string>
#include <vector>
#include <memory>
#include <numeric>
#if defined(BOTAN_HAS_PKCS11)
#include <botan/p11.h>
#include <botan/p11_slot.h>
#include <botan/p11_session.h>
#include <botan/p11_module.h>
#include <botan/p11_object.h>
#include <botan/p11_randomgenerator.h>
#endif
#if defined(BOTAN_HAS_ASN1)
#include <botan/der_enc.h>
#endif
#if defined (BOTAN_HAS_PUBLIC_KEY_CRYPTO)
#include <botan/pubkey.h>
#endif
#if defined(BOTAN_HAS_RSA) && defined(BOTAN_HAS_PKCS11)
#include <botan/rsa.h>
#include <botan/p11_rsa.h>
#endif
#if defined(BOTAN_HAS_ECDSA) && defined(BOTAN_HAS_PKCS11)
#include <botan/ecdsa.h>
#include <botan/p11_ecdsa.h>
#endif
#if defined(BOTAN_HAS_ECDH) && defined(BOTAN_HAS_PKCS11)
#include <botan/ecdh.h>
#include <botan/p11_ecdh.h>
#endif
#if defined(BOTAN_HAS_X509_CERTIFICATES) && defined(BOTAN_HAS_PKCS11)
#include <botan/p11_x509.h>
#include <botan/x509_dn.h>
#endif
#if defined(BOTAN_HAS_HMAC_DRBG)
#include <botan/hmac_drbg.h>
#endif
namespace Botan_Tests {
#if defined(BOTAN_HAS_PKCS11)
std::vector<Test::Result> run_pkcs11_tests(
const std::string& name,
std::vector<std::pair<std::string, std::function<Test::Result()>>>& fns)
{
std::vector<Test::Result> results;
for(size_t i = 0; i != fns.size(); ++i)
{
try
{
results.push_back(fns[i].second());
}
catch(Botan::PKCS11::PKCS11_ReturnError& e)
{
results.push_back(Test::Result::Failure(name + " test " + fns[i].first, e.what()));
if(e.get_return_value() == Botan::PKCS11::ReturnValue::PinIncorrect)
{
break; // Do not continue to not potentially lock the token
}
}
catch(std::exception& e)
{
results.push_back(Test::Result::Failure(name + " test " + fns[i].first, e.what()));
}
}
return results;
}
namespace {
using namespace Botan;
using namespace PKCS11;
class TestSession
{
public:
explicit TestSession(bool login) :
m_module(new Module(Test::pkcs11_lib()))
{
std::vector<SlotId> slot_vec = Slot::get_available_slots(*m_module, true);
m_slot.reset(new Slot(*m_module, slot_vec.at(0)));
m_session.reset(new Session(*m_slot, false));
if(login)
{
m_session->login(UserType::User, PIN());
}
}
inline Session& session() const
{
return *m_session;
}
private:
std::unique_ptr<Module> m_module = nullptr;
std::unique_ptr<Slot> m_slot = nullptr;
std::unique_ptr<Session> m_session = nullptr;
};
/***************************** Module *****************************/
Test::Result test_module_ctor()
{
Test::Result result("Module ctor");
result.test_throws("Module ctor fails for non existent path", []()
{
Module failing_module("/a/b/c");
});
Module module(Test::pkcs11_lib());
result.test_success("Module ctor did not throw and completed successfully");
return result;
}
Test::Result test_module_reload()
{
Test::Result result("Module reload");
Module module(Test::pkcs11_lib());
module.reload();
result.test_success("Module reload did not throw and completed successfully");
module.get_info();
result.test_success("Module get_info() still works after reload");
return result;
}
Test::Result test_multiple_modules()
{
Test::Result result("Module copy");
Module first_module(Test::pkcs11_lib());
result.test_throws("Module ctor fails if module is already initialized", []()
{
Module second_module(Test::pkcs11_lib());
});
return result;
}
Test::Result test_module_get_info()
{
Test::Result result("Module info");
Module module(Test::pkcs11_lib());
Info info = module.get_info();
result.test_ne("Cryptoki version != 0", info.cryptokiVersion.major, 0);
return result;
}
class Module_Tests final : public Test
{
public:
std::vector<Test::Result> run() override
{
std::vector<std::pair<std::string, std::function<Test::Result()>>> fns =
{
{STRING_AND_FUNCTION(test_module_ctor)},
{STRING_AND_FUNCTION(test_multiple_modules)},
{STRING_AND_FUNCTION(test_module_get_info)},
{STRING_AND_FUNCTION(test_module_reload)}
};
return run_pkcs11_tests("Module", fns);
}
};
BOTAN_REGISTER_TEST("pkcs11-module", Module_Tests);
/***************************** Slot *****************************/
Test::Result test_slot_get_available_slots()
{
Test::Result result("Slot get_available_slots");
Module module(Test::pkcs11_lib());
std::vector<SlotId> slot_vec = Slot::get_available_slots(module, true);
result.test_gte("Available Slots with attached token >= 1", slot_vec.size(), 1);
return result;
}
Test::Result test_slot_ctor()
{
Test::Result result("Slot ctor");
Module module(Test::pkcs11_lib());
std::vector<SlotId> slot_vec = Slot::get_available_slots(module, true);
Slot slot(module, slot_vec.at(0));
result.test_success("Slot ctor completed successfully");
result.test_is_eq(slot.slot_id(), slot_vec.at(0));
return result;
}
Test::Result test_get_slot_info()
{
Test::Result result("Slot get_slot_info");
Module module(Test::pkcs11_lib());
std::vector<SlotId> slot_vec = Slot::get_available_slots(module, true);
Slot slot(module, slot_vec.at(0));
SlotInfo info = slot.get_slot_info();
std::string description = reinterpret_cast< char* >(info.slotDescription);
result.confirm("Slot description is not empty", !description.empty());
return result;
}
SlotId get_invalid_slot_id(Module& module)
{
std::vector<SlotId> slot_vec = Slot::get_available_slots(module, false);
SlotId invalid_id = 0;
// find invalid slot id
while(std::find(slot_vec.begin(), slot_vec.end(), invalid_id) != slot_vec.end())
{
invalid_id++;
}
return invalid_id;
}
Test::Result test_slot_invalid_id()
{
Test::Result result("Slot get_slot_info with invalid slot id");
Module module(Test::pkcs11_lib());
SlotId invalid_id = get_invalid_slot_id(module);
Slot slot(module, invalid_id);
result.test_throws("get_slot_info fails for non existent slot id", [ &slot ]()
{
slot.get_slot_info();
});
return result;
}
Test::Result test_get_token_info()
{
Test::Result result("Slot get_token_info");
Module module(Test::pkcs11_lib());
std::vector<SlotId> slot_vec = Slot::get_available_slots(module, true);
Slot slot(module, slot_vec.at(0));
TokenInfo info = slot.get_token_info();
std::string label = reinterpret_cast< char* >(info.label);
result.confirm("Token label is not empty", ! label.empty());
return result;
}
Test::Result test_get_mechanism_list()
{
Test::Result result("Slot get_mechanism_list");
Module module(Test::pkcs11_lib());
std::vector<SlotId> slot_vec = Slot::get_available_slots(module, true);
Slot slot(module, slot_vec.at(0));
std::vector<MechanismType> mechanisms = slot.get_mechanism_list();
result.confirm("The Slot supports at least one mechanism", !mechanisms.empty());
return result;
}
Test::Result test_get_mechanisms_info()
{
Test::Result result("Slot get_mechanism_info");
Module module(Test::pkcs11_lib());
std::vector<SlotId> slot_vec = Slot::get_available_slots(module, true);
Slot slot(module, slot_vec.at(0));
slot.get_mechanism_info(MechanismType::RsaPkcsKeyPairGen);
result.test_success("get_mechanism_info() completed successfully.");
return result;
}
class Slot_Tests final : public Test
{
public:
std::vector<Test::Result> run() override
{
std::vector<std::pair<std::string, std::function<Test::Result()>>> fns = {
{STRING_AND_FUNCTION(test_slot_get_available_slots)},
{STRING_AND_FUNCTION(test_slot_ctor)},
{STRING_AND_FUNCTION(test_get_slot_info)},
{STRING_AND_FUNCTION(test_slot_invalid_id)},
{STRING_AND_FUNCTION(test_get_token_info)},
{STRING_AND_FUNCTION(test_get_mechanism_list)},
{STRING_AND_FUNCTION(test_get_mechanisms_info)}
};
return run_pkcs11_tests("Slot", fns);
}
};
BOTAN_REGISTER_TEST("pkcs11-slot", Slot_Tests);
/***************************** Session *****************************/
Test::Result test_session_ctor()
{
Test::Result result("Session ctor");
Module module(Test::pkcs11_lib());
std::vector<SlotId> slot_vec = Slot::get_available_slots(module, true);
Slot slot(module, slot_vec.at(0));
{
Session read_only_session(slot, true);
result.test_success("read only session opened successfully");
}
{
Session read_write_session(slot, false);
result.test_success("read write session opened successfully");
}
{
Flags flags = PKCS11::flags(Flag::SerialSession | Flag::RwSession);
Session read_write_session2(slot, flags, nullptr, nullptr);
result.test_success("read write session with flags param opened successfully");
}
{
Session read_only_session(slot, true);
Session read_write_session(slot, false);
result.test_success("Opened multiple sessions successfully");
}
return result;
}
Test::Result test_session_ctor_invalid_slot()
{
Test::Result result("Session ctor with invalid slot id");
Module module(Test::pkcs11_lib());
SlotId invalid_id = get_invalid_slot_id(module);
Slot slot(module, invalid_id);
result.test_throws("Session ctor with invalid slot id fails", [&slot]()
{
Session session(slot, true);
});
return result;
}
Test::Result test_session_release()
{
Test::Result result("Session release/take ownership");
Module module(Test::pkcs11_lib());
std::vector<SlotId> slot_vec = Slot::get_available_slots(module, true);
Slot slot(module, slot_vec.at(0));
Session session(slot, false);
SessionHandle handle = session.release();
Session session2(slot, handle);
result.test_success("releasing ownership and taking ownership works as expected.");
return result;
}
Test::Result test_session_login_logout()
{
Test::Result result("Session login/logout");
Module module(Test::pkcs11_lib());
std::vector<SlotId> slot_vec = Slot::get_available_slots(module, true);
Slot slot(module, slot_vec.at(0));
Session session(slot, false);
session.login(UserType::User, PIN());
session.logoff();
result.test_success("user login/logout succeeded");
session.login(UserType::SO, SO_PIN());
result.test_success("SO login succeeded");
return result;
}
Test::Result test_session_info()
{
Test::Result result("Session session info");
Module module(Test::pkcs11_lib());
std::vector<SlotId> slot_vec = Slot::get_available_slots(module, true);
Slot slot(module, slot_vec.at(0));
Session session(slot, false);
SessionInfo info = session.get_info();
result.test_is_eq("slot id is correct", info.slotID, slot_vec.at(0));
result.test_is_eq("state is a read write public session", info.state,
static_cast<CK_STATE>(SessionState::RwPublicSession));
session.login(UserType::User, PIN());
info = session.get_info();
result.test_is_eq("state is a read write user session", info.state,
static_cast<CK_STATE>(SessionState::RwUserFunctions));
session.logoff();
result.test_success("user login/logout succeeded");
session.login(UserType::SO, SO_PIN());
result.test_success("SO login succeeded");
return result;
}
class Session_Tests final : public Test
{
public:
std::vector<Test::Result> run() override
{
std::vector<std::pair<std::string, std::function<Test::Result()>>> fns = {
{STRING_AND_FUNCTION(test_session_ctor)},
{STRING_AND_FUNCTION(test_session_ctor_invalid_slot)},
{STRING_AND_FUNCTION(test_session_release)},
{STRING_AND_FUNCTION(test_session_login_logout)},
{STRING_AND_FUNCTION(test_session_info)}
};
return run_pkcs11_tests("Session", fns);
}
};
BOTAN_REGISTER_TEST("pkcs11-session", Session_Tests);
/***************************** Object *****************************/
Test::Result test_attribute_container()
{
Test::Result result("AttributeContainer");
AttributeContainer attributes;
attributes.add_class(ObjectClass::PrivateKey);
std::string label("test");
attributes.add_string(AttributeType::Label, label);
std::vector<uint8_t> bin(4);
attributes.add_binary(AttributeType::Value, bin);
attributes.add_bool(AttributeType::Sensitive, true);
attributes.add_numeric(AttributeType::ObjectId, 12);
result.test_eq("Five elements in attribute container", attributes.count(), 5);
return result;
}
DataObjectProperties make_test_object(const std::string& label)
{
std::string value_string("test data");
secure_vector<uint8_t> value(value_string.begin(), value_string.end());
std::size_t id = 1337;
std::string application = "Botan test application";
std::vector<uint8_t> encoded_id;
DER_Encoder(encoded_id).encode(id);
DataObjectProperties data_obj_props;
data_obj_props.set_application(application);
data_obj_props.set_label(label);
data_obj_props.set_value(value);
data_obj_props.set_token(true);
data_obj_props.set_modifiable(true);
data_obj_props.set_object_id(encoded_id);
return data_obj_props;
}
#if defined(BOTAN_HAS_ASN1)
Test::Result test_create_destroy_data_object()
{
Test::Result result("Object create/delete data object");
TestSession test_session(true);
const std::string label = "Botan test data object";
auto data_obj_props = make_test_object(label);
Object data_obj(test_session.session(), data_obj_props);
result.test_success("Data object creation was successful");
data_obj.destroy();
result.test_success("Data object deletion was successful");
return result;
}
Test::Result test_get_set_attribute_values()
{
Test::Result result("Object get/set attributes");
TestSession test_session(true);
// create object
const std::string label = "Botan test data object";
auto data_obj_props = make_test_object(label);
Object data_obj(test_session.session(), data_obj_props);
// get attribute
secure_vector<uint8_t> retrieved_label = data_obj.get_attribute_value(AttributeType::Label);
std::string retrieved_label_string(retrieved_label.begin(), retrieved_label.end());
result.test_eq("label was set correctly", retrieved_label_string, label);
// set attribute
std::string new_label = "Botan test modified data object label";
secure_vector<uint8_t> new_label_secvec(new_label.begin(), new_label.end());
data_obj.set_attribute_value(AttributeType::Label, new_label_secvec);
// get and check attribute
retrieved_label = data_obj.get_attribute_value(AttributeType::Label);
retrieved_label_string = std::string(retrieved_label.begin(), retrieved_label.end());
result.test_eq("label was modified correctly", retrieved_label_string, new_label);
data_obj.destroy();
return result;
}
Test::Result test_object_finder()
{
Test::Result result("ObjectFinder");
TestSession test_session(true);
// create object
const std::string label = "Botan test data object";
auto data_obj_props = make_test_object(label);
Object data_obj(test_session.session(), data_obj_props);
// search created object
AttributeContainer search_template;
search_template.add_string(AttributeType::Label, label);
ObjectFinder finder(test_session.session(), search_template.attributes());
auto search_result = finder.find();
result.test_eq("one object found", search_result.size(), 1);
finder.finish();
Object obj_found(test_session.session(), search_result.at(0));
result.test_eq("found the object just created (same application)",
obj_found.get_attribute_value(AttributeType::Application), data_obj.get_attribute_value(AttributeType::Application));
auto search_result2 = Object::search<Object>(test_session.session(), search_template.attributes());
result.test_eq("found the object just created (same label)", obj_found.get_attribute_value(AttributeType::Label),
search_result2.at(0).get_attribute_value(AttributeType::Label));
data_obj.destroy();
return result;
}
Test::Result test_object_copy()
{
Test::Result result("Object copy");
TestSession test_session(true);
// create object
const std::string label = "Botan test data object";
auto data_obj_props = make_test_object(label);
Object data_obj(test_session.session(), data_obj_props);
// copy created object
AttributeContainer copy_attributes;
copy_attributes.add_string(AttributeType::Label, "Botan test copied object");
ObjectHandle copied_obj_handle = data_obj.copy(copy_attributes);
ObjectFinder searcher(test_session.session(), copy_attributes.attributes());
auto search_result = searcher.find();
result.test_eq("one object found", search_result.size(), 1);
data_obj.destroy();
Object copied_obj(test_session.session(), copied_obj_handle);
copied_obj.destroy();
return result;
}
#endif
class Object_Tests final : public Test
{
public:
std::vector<Test::Result> run() override
{
std::vector<std::pair<std::string, std::function<Test::Result()>>> fns = {
{STRING_AND_FUNCTION(test_attribute_container)}
#if defined(BOTAN_HAS_ASN1)
, {STRING_AND_FUNCTION(test_create_destroy_data_object)}
, {STRING_AND_FUNCTION(test_get_set_attribute_values)}
, {STRING_AND_FUNCTION(test_object_finder)}
, {STRING_AND_FUNCTION(test_object_copy)}
#endif
};
return run_pkcs11_tests("Object", fns);
}
};
BOTAN_REGISTER_TEST("pkcs11-object", Object_Tests);
/***************************** PKCS11 RSA *****************************/
#if defined(BOTAN_HAS_RSA)
Test::Result test_rsa_privkey_import()
{
Test::Result result("PKCS11 import RSA private key");
TestSession test_session(true);
// create private key
RSA_PrivateKey priv_key(Test::rng(), 2048);
result.confirm("Key self test OK", priv_key.check_key(Test::rng(), true));
// import to card
RSA_PrivateKeyImportProperties props(priv_key.get_n(), priv_key.get_d());
props.set_pub_exponent(priv_key.get_e());
props.set_prime_1(priv_key.get_p());
props.set_prime_2(priv_key.get_q());
props.set_coefficient(priv_key.get_c());
props.set_exponent_1(priv_key.get_d1());
props.set_exponent_2(priv_key.get_d2());
props.set_token(true);
props.set_private(true);
props.set_decrypt(true);
props.set_sign(true);
PKCS11_RSA_PrivateKey pk(test_session.session(), props);
result.test_success("RSA private key import was successful");
result.confirm("PK self test OK", pk.check_key(Test::rng(), true));
pk.destroy();
return result;
}
Test::Result test_rsa_privkey_export()
{
Test::Result result("PKCS11 export RSA private key");
TestSession test_session(true);
// create private key
RSA_PrivateKey priv_key(Test::rng(), 2048);
// import to card
RSA_PrivateKeyImportProperties props(priv_key.get_n(), priv_key.get_d());
props.set_pub_exponent(priv_key.get_e());
props.set_prime_1(priv_key.get_p());
props.set_prime_2(priv_key.get_q());
props.set_coefficient(priv_key.get_c());
props.set_exponent_1(priv_key.get_d1());
props.set_exponent_2(priv_key.get_d2());
props.set_token(true);
props.set_private(true);
props.set_decrypt(true);
props.set_sign(true);
props.set_extractable(true);
props.set_sensitive(false);
PKCS11_RSA_PrivateKey pk(test_session.session(), props);
result.confirm("Check PK11 key", pk.check_key(Test::rng(), true));
RSA_PrivateKey exported = pk.export_key();
result.test_success("RSA private key export was successful");
result.confirm("Check exported key", exported.check_key(Test::rng(), true));
pk.destroy();
return result;
}
Test::Result test_rsa_pubkey_import()
{
Test::Result result("PKCS11 import RSA public key");
TestSession test_session(true);
// create public key from private key
RSA_PrivateKey priv_key(Test::rng(), 2048);
// import to card
RSA_PublicKeyImportProperties props(priv_key.get_n(), priv_key.get_e());
props.set_token(true);
props.set_encrypt(true);
props.set_private(false);
PKCS11_RSA_PublicKey pk(test_session.session(), props);
result.test_success("RSA public key import was successful");
result.confirm("Check PK11 key", pk.check_key(Test::rng(), true));
pk.destroy();
return result;
}
Test::Result test_rsa_generate_private_key()
{
Test::Result result("PKCS11 generate RSA private key");
TestSession test_session(true);
RSA_PrivateKeyGenerationProperties props;
props.set_token(true);
props.set_private(true);
props.set_sign(true);
props.set_decrypt(true);
PKCS11_RSA_PrivateKey pk(test_session.session(), 2048, props);
result.test_success("RSA private key generation was successful");
pk.destroy();
return result;
}
PKCS11_RSA_KeyPair generate_rsa_keypair(const TestSession& test_session)
{
RSA_PublicKeyGenerationProperties pub_props(2048UL);
pub_props.set_pub_exponent();
pub_props.set_label("BOTAN_TEST_RSA_PUB_KEY");
pub_props.set_token(true);
pub_props.set_encrypt(true);
pub_props.set_verify(true);
pub_props.set_private(false);
RSA_PrivateKeyGenerationProperties priv_props;
priv_props.set_label("BOTAN_TEST_RSA_PRIV_KEY");
priv_props.set_token(true);
priv_props.set_private(true);
priv_props.set_sign(true);
priv_props.set_decrypt(true);
return PKCS11::generate_rsa_keypair(test_session.session(), pub_props, priv_props);
}
Test::Result test_rsa_generate_key_pair()
{
Test::Result result("PKCS11 generate RSA key pair");
TestSession test_session(true);
PKCS11_RSA_KeyPair keypair = generate_rsa_keypair(test_session);
result.test_success("RSA key pair generation was successful");
keypair.first.destroy();
keypair.second.destroy();
return result;
}
Test::Result test_rsa_encrypt_decrypt()
{
Test::Result result("PKCS11 RSA encrypt decrypt");
TestSession test_session(true);
// generate key pair
PKCS11_RSA_KeyPair keypair = generate_rsa_keypair(test_session);
auto encrypt_and_decrypt = [&keypair, &result](const std::vector<uint8_t>& plaintext, const std::string& padding)
{
Botan::PK_Encryptor_EME encryptor(keypair.first, Test::rng(), padding);
auto encrypted = encryptor.encrypt(plaintext, Test::rng());
Botan::PK_Decryptor_EME decryptor(keypair.second, Test::rng(), padding);
auto decrypted = decryptor.decrypt(encrypted);
result.test_eq("RSA PKCS11 encrypt and decrypt: " + padding, decrypted, plaintext);
};
std::vector<uint8_t> plaintext(256);
std::iota(std::begin(plaintext), std::end(plaintext), static_cast<uint8_t>(0));
encrypt_and_decrypt(plaintext, "Raw");
plaintext = { 0x00, 0x01, 0x02, 0x03, 0x04, 0x00 };
encrypt_and_decrypt(plaintext, "EME-PKCS1-v1_5");
encrypt_and_decrypt(plaintext, "OAEP(SHA-1)");
keypair.first.destroy();
keypair.second.destroy();
return result;
}
Test::Result test_rsa_sign_verify()
{
Test::Result result("PKCS11 RSA sign and verify");
TestSession test_session(true);
// generate key pair
PKCS11_RSA_KeyPair keypair = generate_rsa_keypair(test_session);
std::vector<uint8_t> plaintext(256);
std::iota(std::begin(plaintext), std::end(plaintext), static_cast<uint8_t>(0));
auto sign_and_verify = [&keypair, &plaintext, &result](std::string const& emsa, bool multipart)
{
Botan::PK_Signer signer(keypair.second, Test::rng(), emsa, Botan::IEEE_1363);
std::vector<uint8_t> signature;
if(multipart)
{
signer.update(plaintext.data(), plaintext.size() / 2);
signature = signer.sign_message(plaintext.data() + plaintext.size() / 2, plaintext.size() / 2, Test::rng());
}
else
{
signature = signer.sign_message(plaintext, Test::rng());
}
Botan::PK_Verifier verifier(keypair.first, emsa, Botan::IEEE_1363);
bool rsa_ok = false;
if(multipart)
{
verifier.update(plaintext.data(), plaintext.size() / 2);
rsa_ok = verifier.verify_message(plaintext.data() + plaintext.size() / 2, plaintext.size() / 2,
signature.data(), signature.size());
}
else
{
rsa_ok = verifier.verify_message(plaintext, signature);
}
result.test_eq("RSA PKCS11 sign and verify: " + emsa, rsa_ok, true);
};
// single-part sign
sign_and_verify("Raw", false);
sign_and_verify("EMSA3(SHA-256)", false);
sign_and_verify("EMSA4(SHA-256)", false);
// multi-part sign
sign_and_verify("EMSA3(SHA-256)", true);
sign_and_verify("EMSA4(SHA-256)", true);
keypair.first.destroy();
keypair.second.destroy();
return result;
}
class PKCS11_RSA_Tests final : public Test
{
public:
std::vector<Test::Result> run() override
{
std::vector<std::pair<std::string, std::function<Test::Result()>>> fns = {
{STRING_AND_FUNCTION(test_rsa_privkey_import)},
{STRING_AND_FUNCTION(test_rsa_pubkey_import)},
{STRING_AND_FUNCTION(test_rsa_privkey_export)},
{STRING_AND_FUNCTION(test_rsa_generate_private_key)},
{STRING_AND_FUNCTION(test_rsa_generate_key_pair)},
{STRING_AND_FUNCTION(test_rsa_encrypt_decrypt)},
{STRING_AND_FUNCTION(test_rsa_sign_verify)}
};
return run_pkcs11_tests("PKCS11 RSA", fns);
}
};
BOTAN_REGISTER_TEST("pkcs11-rsa", PKCS11_RSA_Tests);
#endif
/***************************** PKCS11 ECDSA *****************************/
#if defined(BOTAN_HAS_ECDSA)
Test::Result test_ecdsa_privkey_import()
{
Test::Result result("PKCS11 import ECDSA private key");
TestSession test_session(true);
// create ecdsa private key
ECDSA_PrivateKey priv_key(Test::rng(), EC_Group("secp256r1"));
result.confirm("Key self test OK", priv_key.check_key(Test::rng(), true));
priv_key.set_parameter_encoding(EC_Group_Encoding::EC_DOMPAR_ENC_OID);
// import to card
EC_PrivateKeyImportProperties props(priv_key.DER_domain(), priv_key.private_value());
props.set_token(true);
props.set_private(true);
props.set_sign(true);
// label
std::string label = "Botan test ecdsa key";
props.set_label(label);
PKCS11_ECDSA_PrivateKey pk(test_session.session(), props);
result.test_success("ECDSA private key import was successful");
pk.set_public_point(priv_key.public_point());
result.confirm("P11 key self test OK", pk.check_key(Test::rng(), false));
pk.destroy();
return result;
}
Test::Result test_ecdsa_privkey_export()
{
Test::Result result("PKCS11 export ECDSA private key");
TestSession test_session(true);
// create private key
ECDSA_PrivateKey priv_key(Test::rng(), EC_Group("secp256r1"));
priv_key.set_parameter_encoding(EC_Group_Encoding::EC_DOMPAR_ENC_OID);
result.confirm("Check ECDSA key", priv_key.check_key(Test::rng(), true));
// import to card
EC_PrivateKeyImportProperties props(priv_key.DER_domain(), priv_key.private_value());
props.set_token(true);
props.set_private(true);
props.set_sign(true);
props.set_extractable(true);
// label
std::string label = "Botan test ecdsa key";
props.set_label(label);
PKCS11_ECDSA_PrivateKey pk(test_session.session(), props);
pk.set_public_point(priv_key.public_point());
result.confirm("Check PK11 key", pk.check_key(Test::rng(), false));
ECDSA_PrivateKey exported = pk.export_key();
result.test_success("ECDSA private key export was successful");
result.confirm("Check exported key valid", exported.check_key(Test::rng(), true));
result.test_eq("Check exported key contents", exported.private_key_bits(), priv_key.private_key_bits());
pk.destroy();
return result;
}
std::vector<uint8_t> encode_ec_point_in_octet_str(const Botan::PointGFp& point)
{
std::vector<uint8_t> enc;
DER_Encoder(enc).encode(point.encode(PointGFp::UNCOMPRESSED), OCTET_STRING);
return enc;
}
Test::Result test_ecdsa_pubkey_import()
{
Test::Result result("PKCS11 import ECDSA public key");
TestSession test_session(true);
// create ecdsa private key
ECDSA_PrivateKey priv_key(Test::rng(), EC_Group("secp256r1"));
priv_key.set_parameter_encoding(EC_Group_Encoding::EC_DOMPAR_ENC_OID);
const auto enc_point = encode_ec_point_in_octet_str(priv_key.public_point());
// import to card
EC_PublicKeyImportProperties props(priv_key.DER_domain(), enc_point);
props.set_token(true);
props.set_verify(true);
props.set_private(false);
// label
std::string label = "Botan test ecdsa pub key";
props.set_label(label);
PKCS11_ECDSA_PublicKey pk(test_session.session(), props);
result.test_success("ECDSA public key import was successful");
pk.destroy();
return result;
}
Test::Result test_ecdsa_pubkey_export()
{
Test::Result result("PKCS11 export ECDSA public key");
TestSession test_session(true);
// create public key from private key
ECDSA_PrivateKey priv_key(Test::rng(), EC_Group("secp256r1"));
priv_key.set_parameter_encoding(EC_Group_Encoding::EC_DOMPAR_ENC_OID);
const auto enc_point = encode_ec_point_in_octet_str(priv_key.public_point());
// import to card
EC_PublicKeyImportProperties props(priv_key.DER_domain(), enc_point);
props.set_token(true);
props.set_verify(true);
props.set_private(false);
// label
std::string label = "Botan test ecdsa pub key";
props.set_label(label);
PKCS11_ECDSA_PublicKey pk(test_session.session(), props);
ECDSA_PublicKey exported = pk.export_key();
result.test_success("ECDSA public key export was successful");
pk.destroy();
return result;
}
Test::Result test_ecdsa_generate_private_key()
{
Test::Result result("PKCS11 generate ECDSA private key");
TestSession test_session(true);
EC_PrivateKeyGenerationProperties props;
props.set_token(true);
props.set_private(true);
props.set_sign(true);
PKCS11_ECDSA_PrivateKey pk(test_session.session(),
EC_Group("secp256r1").DER_encode(EC_Group_Encoding::EC_DOMPAR_ENC_OID), props);
result.test_success("ECDSA private key generation was successful");
pk.destroy();
return result;
}
PKCS11_ECDSA_KeyPair generate_ecdsa_keypair(const TestSession& test_session, const std::string& curve, EC_Group_Encoding ec_dompar_enc)
{
EC_PublicKeyGenerationProperties pub_props(EC_Group(curve).DER_encode(ec_dompar_enc));
pub_props.set_label("BOTAN_TEST_ECDSA_PUB_KEY");
pub_props.set_token(true);
pub_props.set_verify(true);
pub_props.set_private(false);
pub_props.set_modifiable(true);
EC_PrivateKeyGenerationProperties priv_props;
priv_props.set_label("BOTAN_TEST_ECDSA_PRIV_KEY");
priv_props.set_token(true);
priv_props.set_private(true);
priv_props.set_sensitive(true);
priv_props.set_extractable(false);
priv_props.set_sign(true);
priv_props.set_modifiable(true);
return PKCS11::generate_ecdsa_keypair(test_session.session(), pub_props, priv_props);
}
Test::Result test_ecdsa_generate_keypair()
{
Test::Result result("PKCS11 generate ECDSA key pair");
TestSession test_session(true);
std::vector<std::string> curves;
curves.push_back("secp256r1");
curves.push_back("brainpool512r1");
for(auto &curve : curves)
{
PKCS11_ECDSA_KeyPair keypair = generate_ecdsa_keypair(test_session, curve, EC_DOMPAR_ENC_OID);
keypair.first.destroy();
keypair.second.destroy();
}
result.test_success("ECDSA key pair generation was successful");
return result;
}
Test::Result test_ecdsa_sign_verify_core(EC_Group_Encoding ec_dompar_enc, std::string test_name)
{
Test::Result result(test_name);
TestSession test_session(true);
std::vector<std::string> curves;
curves.push_back("secp256r1");
curves.push_back("brainpool512r1");
for(auto &curve : curves)
{
// generate key pair
PKCS11_ECDSA_KeyPair keypair = generate_ecdsa_keypair(test_session, curve, ec_dompar_enc);
std::vector<uint8_t> plaintext(20, 0x01);
auto sign_and_verify = [&keypair, &plaintext, &result](const std::string& emsa)
{
Botan::PK_Signer signer(keypair.second, Test::rng(), emsa, Botan::IEEE_1363);
auto signature = signer.sign_message(plaintext, Test::rng());
Botan::PK_Verifier token_verifier(keypair.first, emsa, Botan::IEEE_1363);
bool ecdsa_ok = token_verifier.verify_message(plaintext, signature);
result.test_eq("ECDSA PKCS11 sign and verify: " + emsa, ecdsa_ok, true);
// test against software implementation if available
#if defined (BOTAN_HAS_EMSA_RAW)
Botan::PK_Verifier soft_verifier(keypair.first, emsa, Botan::IEEE_1363);
bool soft_ecdsa_ok = soft_verifier.verify_message(plaintext, signature);
result.test_eq("ECDSA PKCS11 verify (in software): " + emsa, soft_ecdsa_ok, true);
#endif
};
sign_and_verify("Raw"); // SoftHSMv2 until now only supports "Raw"
keypair.first.destroy();
keypair.second.destroy();
}
return result;
}
Test::Result test_ecdsa_sign_verify()
{
// pass the curve OID to the PKCS#11 library
return test_ecdsa_sign_verify_core(EC_DOMPAR_ENC_OID, "PKCS11 ECDSA sign and verify");
}
Test::Result test_ecdsa_curve_import()
{
// pass the curve parameters to the PKCS#11 library and perform sign/verify to test them
return test_ecdsa_sign_verify_core(EC_DOMPAR_ENC_EXPLICIT, "PKCS11 ECDSA sign and verify with imported curve");
}
class PKCS11_ECDSA_Tests final : public Test
{
public:
std::vector<Test::Result> run() override
{
std::vector<std::pair<std::string, std::function<Test::Result()>>> fns = {
{STRING_AND_FUNCTION(test_ecdsa_privkey_import)},
{STRING_AND_FUNCTION(test_ecdsa_privkey_export)},
{STRING_AND_FUNCTION(test_ecdsa_pubkey_import)},
{STRING_AND_FUNCTION(test_ecdsa_pubkey_export)},
{STRING_AND_FUNCTION(test_ecdsa_generate_private_key)},
{STRING_AND_FUNCTION(test_ecdsa_generate_keypair)},
{STRING_AND_FUNCTION(test_ecdsa_sign_verify)},
{STRING_AND_FUNCTION(test_ecdsa_curve_import)}
};
return run_pkcs11_tests("PKCS11 ECDSA", fns);
}
};
BOTAN_REGISTER_TEST("pkcs11-ecdsa", PKCS11_ECDSA_Tests);
#endif
#if defined(BOTAN_HAS_ECDH)
/***************************** PKCS11 ECDH *****************************/
Test::Result test_ecdh_privkey_import()
{
Test::Result result("PKCS11 import ECDH private key");
TestSession test_session(true);
// create ecdh private key
ECDH_PrivateKey priv_key(Test::rng(), EC_Group("secp256r1"));
priv_key.set_parameter_encoding(EC_Group_Encoding::EC_DOMPAR_ENC_OID);
// import to card
EC_PrivateKeyImportProperties props(priv_key.DER_domain(), priv_key.private_value());
props.set_token(true);
props.set_private(true);
props.set_derive(true);
// label
std::string label = "Botan test ecdh key";
props.set_label(label);
PKCS11_ECDH_PrivateKey pk(test_session.session(), props);
result.test_success("ECDH private key import was successful");
pk.destroy();
return result;
}
Test::Result test_ecdh_privkey_export()
{
Test::Result result("PKCS11 export ECDH private key");
TestSession test_session(true);
// create private key
ECDH_PrivateKey priv_key(Test::rng(), EC_Group("secp256r1"));
priv_key.set_parameter_encoding(EC_Group_Encoding::EC_DOMPAR_ENC_OID);
// import to card
EC_PrivateKeyImportProperties props(priv_key.DER_domain(), priv_key.private_value());
props.set_token(true);
props.set_private(true);
props.set_derive(true);
props.set_extractable(true);
// label
std::string label = "Botan test ecdh key";
props.set_label(label);
PKCS11_ECDH_PrivateKey pk(test_session.session(), props);
ECDH_PrivateKey exported = pk.export_key();
result.test_success("ECDH private key export was successful");
pk.destroy();
return result;
}
Test::Result test_ecdh_pubkey_import()
{
Test::Result result("PKCS11 import ECDH public key");
TestSession test_session(true);
// create ECDH private key
ECDH_PrivateKey priv_key(Test::rng(), EC_Group("secp256r1"));
priv_key.set_parameter_encoding(EC_Group_Encoding::EC_DOMPAR_ENC_OID);
const auto enc_point = encode_ec_point_in_octet_str(priv_key.public_point());
// import to card
EC_PublicKeyImportProperties props(priv_key.DER_domain(), enc_point);
props.set_token(true);
props.set_private(false);
props.set_derive(true);
// label
std::string label = "Botan test ECDH pub key";
props.set_label(label);
PKCS11_ECDH_PublicKey pk(test_session.session(), props);
result.test_success("ECDH public key import was successful");
pk.destroy();
return result;
}
Test::Result test_ecdh_pubkey_export()
{
Test::Result result("PKCS11 export ECDH public key");
TestSession test_session(true);
// create public key from private key
ECDH_PrivateKey priv_key(Test::rng(), EC_Group("secp256r1"));
priv_key.set_parameter_encoding(EC_Group_Encoding::EC_DOMPAR_ENC_OID);
const auto enc_point = encode_ec_point_in_octet_str(priv_key.public_point());
// import to card
EC_PublicKeyImportProperties props(priv_key.DER_domain(), enc_point);
props.set_token(true);
props.set_derive(true);
props.set_private(false);
// label
std::string label = "Botan test ECDH pub key";
props.set_label(label);
PKCS11_ECDH_PublicKey pk(test_session.session(), props);
ECDH_PublicKey exported = pk.export_key();
result.test_success("ECDH public key export was successful");
pk.destroy();
return result;
}
Test::Result test_ecdh_generate_private_key()
{
Test::Result result("PKCS11 generate ECDH private key");
TestSession test_session(true);
EC_PrivateKeyGenerationProperties props;
props.set_token(true);
props.set_private(true);
props.set_derive(true);
PKCS11_ECDH_PrivateKey pk(test_session.session(),
EC_Group("secp256r1").DER_encode(EC_Group_Encoding::EC_DOMPAR_ENC_OID), props);
result.test_success("ECDH private key generation was successful");
pk.destroy();
return result;
}
PKCS11_ECDH_KeyPair generate_ecdh_keypair(const TestSession& test_session, const std::string& label)
{
EC_PublicKeyGenerationProperties pub_props(EC_Group("secp256r1").DER_encode(
EC_Group_Encoding::EC_DOMPAR_ENC_OID));
pub_props.set_label(label + "_PUB_KEY");
pub_props.set_token(true);
pub_props.set_derive(true);
pub_props.set_private(false);
pub_props.set_modifiable(true);
EC_PrivateKeyGenerationProperties priv_props;
priv_props.set_label(label + "_PRIV_KEY");
priv_props.set_token(true);
priv_props.set_private(true);
priv_props.set_sensitive(true);
priv_props.set_extractable(false);
priv_props.set_derive(true);
priv_props.set_modifiable(true);
return PKCS11::generate_ecdh_keypair(test_session.session(), pub_props, priv_props);
}
Test::Result test_ecdh_generate_keypair()
{
Test::Result result("PKCS11 generate ECDH key pair");
TestSession test_session(true);
PKCS11_ECDH_KeyPair keypair = generate_ecdh_keypair(test_session, "Botan test ECDH key1");
result.test_success("ECDH key pair generation was successful");
keypair.first.destroy();
keypair.second.destroy();
return result;
}
Test::Result test_ecdh_derive()
{
Test::Result result("PKCS11 ECDH derive");
TestSession test_session(true);
PKCS11_ECDH_KeyPair keypair = generate_ecdh_keypair(test_session, "Botan test ECDH key1");
PKCS11_ECDH_KeyPair keypair2 = generate_ecdh_keypair(test_session, "Botan test ECDH key2");
// SoftHSMv2 only supports CKD_NULL KDF at the moment
Botan::PK_Key_Agreement ka(keypair.second, Test::rng(), "Raw");
Botan::PK_Key_Agreement kb(keypair2.second, Test::rng(), "Raw");
Botan::SymmetricKey alice_key = ka.derive_key(32, keypair2.first.public_point().encode(PointGFp::UNCOMPRESSED));
Botan::SymmetricKey bob_key = kb.derive_key(32, keypair.first.public_point().encode(PointGFp::UNCOMPRESSED));
bool eq = alice_key == bob_key;
result.test_eq("same secret key derived", eq, true);
keypair.first.destroy();
keypair.second.destroy();
keypair2.first.destroy();
keypair2.second.destroy();
return result;
}
class PKCS11_ECDH_Tests final : public Test
{
public:
std::vector<Test::Result> run() override
{
std::vector<std::pair<std::string, std::function<Test::Result()>>> fns = {
{STRING_AND_FUNCTION(test_ecdh_privkey_import)},
{STRING_AND_FUNCTION(test_ecdh_privkey_export)},
{STRING_AND_FUNCTION(test_ecdh_pubkey_import)},
{STRING_AND_FUNCTION(test_ecdh_pubkey_export)},
{STRING_AND_FUNCTION(test_ecdh_generate_private_key)},
{STRING_AND_FUNCTION(test_ecdh_generate_keypair)},
{STRING_AND_FUNCTION(test_ecdh_derive)}
};
return run_pkcs11_tests("PKCS11 ECDH", fns);
}
};
BOTAN_REGISTER_TEST("pkcs11-ecdh", PKCS11_ECDH_Tests);
#endif
/***************************** PKCS11 RNG *****************************/
Test::Result test_rng_generate_random()
{
Test::Result result("PKCS11 RNG generate random");
TestSession test_session(true);
PKCS11_RNG rng(test_session.session());
result.confirm("RNG already seeded", rng.is_seeded());
std::vector<uint8_t> random(20);
rng.randomize(random.data(), random.size());
result.test_ne("random data generated", random, std::vector<uint8_t>(20));
return result;
}
Test::Result test_rng_add_entropy()
{
Test::Result result("PKCS11 RNG add entropy random");
TestSession test_session(true);
PKCS11_RNG rng(test_session.session());
result.confirm("RNG already seeded", rng.is_seeded());
rng.clear();
result.confirm("RNG ignores call to clear", rng.is_seeded());
result.test_eq("RNG ignores calls to reseed",
rng.reseed(Botan::Entropy_Sources::global_sources(), 256, std::chrono::milliseconds(300)),
0);
auto random = Test::rng().random_vec(20);
rng.add_entropy(random.data(), random.size());
result.test_success("entropy added");
return result;
}
#if defined(BOTAN_HAS_HMAC_DRBG) && defined(BOTAN_HAS_SHA2_64)
Test::Result test_pkcs11_hmac_drbg()
{
Test::Result result("PKCS11 HMAC_DRBG using PKCS11_RNG");
TestSession test_session(true);
PKCS11_RNG p11_rng(test_session.session());
HMAC_DRBG drbg(MessageAuthenticationCode::create("HMAC(SHA-512)"), p11_rng);
// result.test_success("HMAC_DRBG(HMAC(SHA512)) instantiated with PKCS11_RNG");
result.test_eq("HMAC_DRBG is not seeded yet.", drbg.is_seeded(), false);
secure_vector<uint8_t> rnd = drbg.random_vec(64);
result.test_eq("HMAC_DRBG is seeded now", drbg.is_seeded(), true);
std::string personalization_string = "Botan PKCS#11 Tests";
std::vector<uint8_t> personalization_data(personalization_string.begin(), personalization_string.end());
drbg.add_entropy(personalization_data.data(), personalization_data.size());
auto rnd_vec = drbg.random_vec(256);
result.test_ne("HMAC_DRBG generated a random vector", rnd_vec, std::vector<uint8_t>(256));
return result;
}
#endif
class PKCS11_RNG_Tests final : public Test
{
public:
std::vector<Test::Result> run() override
{
std::vector<std::pair<std::string, std::function<Test::Result()>>> fns = {
#if defined(BOTAN_HAS_HMAC_DRBG )&& defined(BOTAN_HAS_SHA2_64)
{STRING_AND_FUNCTION(test_pkcs11_hmac_drbg)},
#endif
{STRING_AND_FUNCTION(test_rng_generate_random)},
{STRING_AND_FUNCTION(test_rng_add_entropy)}
};
return run_pkcs11_tests("PKCS11 RNG", fns);
}
};
BOTAN_REGISTER_TEST("pkcs11-rng", PKCS11_RNG_Tests);
/***************************** PKCS11 token management *****************************/
Test::Result test_set_pin()
{
Test::Result result("PKCS11 set pin");
Module module(Test::pkcs11_lib());
std::vector<SlotId> slot_vec = Slot::get_available_slots(module, true);
Slot slot(module, slot_vec.at(0));
PKCS11::set_pin(slot, SO_PIN(), TEST_PIN());
result.test_success("PIN set with SO_PIN to TEST_PIN");
PKCS11::set_pin(slot, SO_PIN(), PIN());
result.test_success("PIN changed back with SO_PIN");
return result;
}
Test::Result test_initialize()
{
Test::Result result("PKCS11 initialize token");
Module module(Test::pkcs11_lib());
std::vector<SlotId> slot_vec = Slot::get_available_slots(module, true);
Slot slot(module, slot_vec.at(0));
PKCS11::initialize_token(slot, "Botan PKCS#11 tests", SO_PIN(), PIN());
result.test_success("token initialized");
return result;
}
Test::Result test_change_pin()
{
Test::Result result("PKCS11 change pin");
Module module(Test::pkcs11_lib());
std::vector<SlotId> slot_vec = Slot::get_available_slots(module, true);
Slot slot(module, slot_vec.at(0));
PKCS11::change_pin(slot, PIN(), TEST_PIN());
result.test_success("PIN changed with PIN to TEST_PIN");
PKCS11::change_pin(slot, TEST_PIN(), PIN());
result.test_success("PIN changed back with TEST_PIN to PIN");
return result;
}
Test::Result test_change_so_pin()
{
Test::Result result("PKCS11 change so_pin");
Module module(Test::pkcs11_lib());
std::vector<SlotId> slot_vec = Slot::get_available_slots(module, true);
Slot slot(module, slot_vec.at(0));
PKCS11::change_so_pin(slot, SO_PIN(), TEST_SO_PIN());
result.test_success("SO_PIN changed with SO_PIN to TEST_SO_PIN");
PKCS11::change_so_pin(slot, TEST_SO_PIN(), SO_PIN());
result.test_success("SO_PIN changed back with TEST_SO_PIN to SO_PIN");
return result;
}
class PKCS11_Token_Management_Tests final : public Test
{
public:
std::vector<Test::Result> run() override
{
std::vector<std::pair<std::string, std::function<Test::Result()>>> fns = {
{STRING_AND_FUNCTION(test_set_pin)},
{STRING_AND_FUNCTION(test_initialize)},
{STRING_AND_FUNCTION(test_change_pin)},
{STRING_AND_FUNCTION(test_change_so_pin)}
};
return run_pkcs11_tests("PKCS11 token management", fns);
}
};
BOTAN_REGISTER_TEST("pkcs11-manage", PKCS11_Token_Management_Tests);
/***************************** PKCS11 token management *****************************/
#if defined(BOTAN_HAS_X509_CERTIFICATES)
Test::Result test_x509_import()
{
Test::Result result("PKCS11 X509 cert import");
#if defined(BOTAN_TARGET_OS_HAS_FILESYSTEM)
TestSession test_session(true);
X509_Certificate root(Test::data_file("x509/nist/test01/end.crt"));
X509_CertificateProperties props(root);
props.set_label("Botan PKCS#11 test certificate");
props.set_private(false);
props.set_token(true);
PKCS11_X509_Certificate pkcs11_cert(test_session.session(), props);
result.test_success("X509 certificate imported");
PKCS11_X509_Certificate pkcs11_cert2(test_session.session(), pkcs11_cert.handle());
result.test_eq("X509 certificate by handle", pkcs11_cert == pkcs11_cert2, true);
pkcs11_cert.destroy();
#endif
return result;
}
class PKCS11_X509_Tests final : public Test
{
public:
std::vector<Test::Result> run() override
{
std::vector<std::pair<std::string, std::function<Test::Result()>>> fns = {
{STRING_AND_FUNCTION(test_x509_import)}
};
return run_pkcs11_tests("PKCS11 X509", fns);
}
};
BOTAN_REGISTER_TEST("pkcs11-x509", PKCS11_X509_Tests);
#endif
}
#endif
}
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