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pkcs11test.h
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pkcs11test.h
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/* -*- c++ -*- */
#ifndef PKCS11TEST_H
#define PKCS11TEST_H
// Copyright 2013-2014 Google Inc. All rights reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
// Master header for all PKCS#11 test code.
// Set up the environment for PKCS#11 and include the official PKCS#11 header file.
#include "pkcs11-env.h"
// Test-wide global variables (specifically g_fns)
#include "globals.h"
// Utilities to convert PKCS#11 types to strings.
#include "pkcs11-describe.h"
// gTest header
#include "gtest/gtest.h"
#include <iostream>
#include <memory>
#include <vector>
#include <cstdlib>
namespace pkcs11 {
// Deleter for std::unique_ptr that handles C's malloc'ed memory.
struct freer {
void operator()(void* p) { std::free(p); }
};
// Allocate a block of memory filled with random values.
inline std::unique_ptr<CK_BYTE, freer> randmalloc(size_t size) {
unsigned char* p = static_cast<unsigned char*>(malloc(size));
for (size_t ii = 0; ii < size; ++ii) {
p[ii] = (std::rand() % 256); // Not cryptographically safe.
}
return std::unique_ptr<CK_BYTE, freer>(p);
}
namespace test {
// Value to use for invalid slot IDs.
#define INVALID_SLOT_ID 88888
// Value to use for invalid session handles.
#define INVALID_SESSION_HANDLE 99999
// Value to use for invalid object handles.
#define INVALID_OBJECT_HANDLE 77777
// Mark a test case as being skipped for a reason.
void TestSkipped(const char *testcase, const char *test, const std::string& reason);
#define TEST_SKIPPED(reason) \
do { \
const ::testing::TestInfo* const info = ::testing::UnitTest::GetInstance()->current_test_info(); \
TestSkipped(info->test_case_name(), info->name(), reason); \
} while (0)
// Additional macros for checking the return value of a PKCS#11 function.
struct CK_RV_ {
CK_RV_(CK_RV rv) : rv_(rv) {}
CK_RV rv_;
bool operator==(const CK_RV_& other) const { return rv_ == other.rv_; }
};
inline std::ostream& operator<<(std::ostream& os, const CK_RV_& wrv) {
os << rv_name(wrv.rv_);
return os;
}
#define EXPECT_CKR(expected, actual) EXPECT_EQ(CK_RV_(expected), CK_RV_(actual))
#define EXPECT_CKR_OK(val) EXPECT_CKR(CKR_OK, (val))
#define ASSERT_CKR(expected, actual) ASSERT_EQ(CK_RV_(expected), CK_RV_(actual))
#define ASSERT_CKR_OK(val) ASSERT_CKR(CKR_OK, (val))
bool IsSpacePadded(const CK_UTF8CHAR *field, int len);
#define IS_SPACE_PADDED(field) IsSpacePadded(field, sizeof(field))
int GetInteger(const CK_CHAR *val, int len);
// Test case that handles Initialize/Finalize
class PKCS11Test : public ::testing::Test {
public:
PKCS11Test() {
// Null argument => only planning to use PKCS#11 from single thread.
EXPECT_CKR_OK(g_fns->C_Initialize(NULL_PTR));
}
virtual ~PKCS11Test() {
EXPECT_CKR_OK(g_fns->C_Finalize(NULL_PTR));
}
};
// Test cases that handle session setup/teardown
class SessionTest : public PKCS11Test {
public:
SessionTest() : session_(INVALID_SESSION_HANDLE) {
CK_SLOT_INFO slot_info;
EXPECT_CKR_OK(g_fns->C_GetSlotInfo(g_slot_id, &slot_info));
if (!(slot_info.flags & CKF_TOKEN_PRESENT)) {
std::cerr << "Need to specify a slot ID that has a token present" << std::endl;
}
}
virtual ~SessionTest() {
if (session_ != INVALID_SESSION_HANDLE) {
EXPECT_CKR_OK(g_fns->C_CloseSession(session_));
}
}
void Login(CK_USER_TYPE user_type, const char* pin) {
CK_RV rv = g_fns->C_Login(session_, user_type, (CK_UTF8CHAR_PTR)pin, strlen(pin));
if (rv != CKR_OK) {
std::cerr << "Failed to login as user type " << user_type_name(user_type) << ", error " << rv_name(rv) << std::endl;
}
}
protected:
CK_SESSION_HANDLE session_;
};
class ReadOnlySessionTest : public SessionTest {
public:
ReadOnlySessionTest() {
CK_FLAGS flags = CKF_SERIAL_SESSION;
EXPECT_CKR_OK(g_fns->C_OpenSession(g_slot_id, flags, NULL_PTR, NULL_PTR, &session_));
}
};
class ReadWriteSessionTest : public SessionTest {
public:
ReadWriteSessionTest() {
CK_FLAGS flags = CKF_SERIAL_SESSION | CKF_RW_SESSION;
EXPECT_CKR_OK(g_fns->C_OpenSession(g_slot_id, flags, NULL_PTR, NULL_PTR, &session_));
}
};
// The following test fixtures perform a login, which is only appropriate if the token requires login.
class ROUserSessionTest : public ReadOnlySessionTest {
public:
ROUserSessionTest() { Login(CKU_USER, g_user_pin); }
virtual ~ROUserSessionTest() { EXPECT_CKR_OK(g_fns->C_Logout(session_)); }
};
class RWUserSessionTest : public ReadWriteSessionTest {
public:
RWUserSessionTest() { Login(CKU_USER, g_user_pin); }
virtual ~RWUserSessionTest() { EXPECT_CKR_OK(g_fns->C_Logout(session_)); }
};
class RWSOSessionTest : public ReadWriteSessionTest {
public:
RWSOSessionTest() { Login(CKU_SO, g_so_pin); }
virtual ~RWSOSessionTest() { EXPECT_CKR_OK(g_fns->C_Logout(session_)); }
};
// The following test fixtures perform a login if the token flags indicate login is required.
class ROEitherSessionTest : public ReadOnlySessionTest {
public:
ROEitherSessionTest() { if (g_token_flags & CKF_LOGIN_REQUIRED) { Login(CKU_USER, g_user_pin); } }
virtual ~ROEitherSessionTest() { if (g_token_flags & CKF_LOGIN_REQUIRED) { EXPECT_CKR_OK(g_fns->C_Logout(session_)); } }
};
class RWEitherSessionTest : public ReadWriteSessionTest {
public:
RWEitherSessionTest() { if (g_token_flags & CKF_LOGIN_REQUIRED) { Login(CKU_USER, g_user_pin); } }
virtual ~RWEitherSessionTest() { if (g_token_flags & CKF_LOGIN_REQUIRED) { EXPECT_CKR_OK(g_fns->C_Logout(session_)); } }
};
// RAII objects for different types of session.
template <CK_FLAGS F> class Session {
public:
Session() { EXPECT_CKR_OK(g_fns->C_OpenSession(g_slot_id, F, NULL_PTR, NULL_PTR, &session_)); }
~Session() { EXPECT_CKR_OK(g_fns->C_CloseSession(session_)); }
CK_SESSION_HANDLE handle() const { return session_; }
protected:
CK_SESSION_HANDLE session_;
};
template <CK_FLAGS F, CK_USER_TYPE U> class LoginSession : public Session<F> {
public:
LoginSession(const char* pin) {
CK_RV rv = g_fns->C_Login(Session<F>::handle(), U, (CK_UTF8CHAR_PTR)pin, strlen(pin));
if (rv != CKR_OK) {
std::cerr << "Failed to login as user type " << user_type_name(U)
<< " with PIN '" << pin << "', error " << rv_name(rv) << std::endl;
}
}
~LoginSession() { g_fns->C_Logout(Session<F>::handle()); }
};
typedef Session<CKF_SERIAL_SESSION> ROSession;
typedef Session<(CKF_SERIAL_SESSION|CKF_RW_SESSION)> RWSession;
typedef LoginSession<CKF_SERIAL_SESSION, CKU_USER> ROUserSession;
typedef LoginSession<(CKF_SERIAL_SESSION|CKF_RW_SESSION), CKU_USER> RWUserSession;
typedef LoginSession<(CKF_SERIAL_SESSION|CKF_RW_SESSION), CKU_SO> RWSOSession;
// Encapsulate a set of CK_ATTRIBUTES in a class.
class ObjectAttributes {
public:
ObjectAttributes() {
CK_ATTRIBUTE label = {CKA_LABEL, (CK_VOID_PTR)g_label, g_label_len};
attrs_.push_back(label);
}
// Constructor deliberately not explicit
ObjectAttributes(std::vector<CK_ATTRIBUTE_TYPE>& attr_types) {
CK_ATTRIBUTE label = {CKA_LABEL, (CK_VOID_PTR)g_label, g_label_len};
attrs_.push_back(label);
for (CK_ATTRIBUTE_TYPE attr_type : attr_types) {
CK_ATTRIBUTE attr = {attr_type, (CK_VOID_PTR)&g_ck_true, sizeof(CK_BBOOL)};
attrs_.push_back(attr);
};
}
// Append a boolean (CK_TRUE) attribute.
void push_back(CK_ATTRIBUTE_TYPE attr_type) {
CK_ATTRIBUTE attr = {attr_type, (CK_VOID_PTR)&g_ck_true, sizeof(CK_BBOOL)};
attrs_.push_back(attr);
}
// Append an arbitrary attribute.
void push_back(const CK_ATTRIBUTE& attr) { attrs_.push_back(attr); }
CK_ULONG size() const { return attrs_.size(); }
CK_ATTRIBUTE_PTR data() { return &attrs_[0]; }
private:
friend std::ostream& operator<<(std::ostream& os, const ObjectAttributes& attrobj);
std::vector<CK_ATTRIBUTE> attrs_;
};
inline std::ostream& operator<<(std::ostream& os, const ObjectAttributes& attrobj) {
for (CK_ATTRIBUTE attr : attrobj.attrs_) {
os << attribute_description(&attr) << std::endl;
}
return os;
}
class SecretKey {
public:
// Create a secret key with the given list of (boolean) attributes set to true.
SecretKey(CK_SESSION_HANDLE session, const ObjectAttributes& attrs,
CK_MECHANISM_TYPE keygen_mechanism = CKM_DES3_KEY_GEN,
int keylen = -1)
: session_(session), attrs_(attrs), key_(INVALID_OBJECT_HANDLE) {
CK_ULONG len = keylen;
if (keylen > 0) {
CK_ATTRIBUTE valuelen = {CKA_VALUE_LEN, &len, sizeof(CK_ULONG)};
attrs_.push_back(valuelen);
}
CK_ATTRIBUTE public_object = {CKA_PRIVATE, (CK_VOID_PTR)&g_ck_false, sizeof(CK_BBOOL)};
attrs_.push_back(public_object);
CK_MECHANISM mechanism = {keygen_mechanism, NULL_PTR, 0};
EXPECT_CKR_OK(g_fns->C_GenerateKey(session_, &mechanism,
attrs_.data(), attrs_.size(),
&key_));
}
~SecretKey() {
if (key_ != INVALID_OBJECT_HANDLE) {
EXPECT_CKR_OK(g_fns->C_DestroyObject(session_, key_));
}
}
bool valid() const { return (key_ != INVALID_OBJECT_HANDLE); }
CK_OBJECT_HANDLE handle() const { return key_; }
private:
CK_SESSION_HANDLE session_;
ObjectAttributes attrs_;
CK_OBJECT_HANDLE key_;
};
class KeyPair {
public:
// Create a keypair with the given lists of (boolean) attributes set to true.
KeyPair(CK_SESSION_HANDLE session,
const ObjectAttributes& public_attrs,
const ObjectAttributes& private_attrs)
: session_(session),
public_attrs_(public_attrs), private_attrs_(private_attrs),
public_key_(INVALID_OBJECT_HANDLE), private_key_(INVALID_OBJECT_HANDLE) {
CK_ULONG modulus_bits = 1024;
CK_ATTRIBUTE modulus = {CKA_MODULUS_BITS, &modulus_bits, sizeof(modulus_bits)};
public_attrs_.push_back(modulus);
CK_BYTE public_exponent_value[] = {0x1, 0x0, 0x1}; // 65537=0x010001
CK_ATTRIBUTE public_exponent = {CKA_PUBLIC_EXPONENT, public_exponent_value, sizeof(public_exponent_value)};
public_attrs_.push_back(public_exponent);
CK_ATTRIBUTE public_object = {CKA_PRIVATE, (CK_VOID_PTR)&g_ck_false, sizeof(CK_BBOOL)};
public_attrs_.push_back(public_object);
private_attrs_.push_back(public_object);
CK_MECHANISM mechanism = {CKM_RSA_PKCS_KEY_PAIR_GEN, NULL_PTR, 0};
EXPECT_CKR_OK(g_fns->C_GenerateKeyPair(session_, &mechanism,
public_attrs_.data(), public_attrs_.size(),
private_attrs_.data(), private_attrs_.size(),
&public_key_, &private_key_));
}
~KeyPair() {
if (public_key_ != INVALID_OBJECT_HANDLE) {
EXPECT_CKR_OK(g_fns->C_DestroyObject(session_, public_key_));
}
if (private_key_ != INVALID_OBJECT_HANDLE) {
EXPECT_CKR_OK(g_fns->C_DestroyObject(session_, private_key_));
}
}
bool valid() const { return (public_key_ != INVALID_OBJECT_HANDLE); }
CK_OBJECT_HANDLE public_handle() const { return public_key_; }
CK_OBJECT_HANDLE private_handle() const { return private_key_; }
private:
CK_SESSION_HANDLE session_;
ObjectAttributes public_attrs_;
ObjectAttributes private_attrs_;
CK_OBJECT_HANDLE public_key_;
CK_OBJECT_HANDLE private_key_;
};
// Test fixture for tests involving a secret key.
class SecretKeyTest : public ReadOnlySessionTest,
public ::testing::WithParamInterface<std::string> {
public:
static const int kNumBlocks = 4;
SecretKeyTest()
: attrs_({CKA_ENCRYPT, CKA_DECRYPT}),
info_(kCipherInfo[GetParam()]),
key_(session_, attrs_, info_.keygen, info_.keylen),
iv_(randmalloc(info_.blocksize)),
plaintext_(randmalloc(kNumBlocks * info_.blocksize)),
mechanism_({info_.mode,
(info_.has_iv ? iv_.get() : NULL_PTR),
(info_.has_iv ? (CK_ULONG)info_.blocksize : 0)}) {
if (g_verbose && info_.has_iv)
std::cout << "IV: " << hex_data(iv_.get(), info_.blocksize) << std::endl;
if (g_verbose)
std::cout << "PT: " << hex_data(plaintext_.get(), kNumBlocks * info_.blocksize) << std::endl;
}
protected:
std::vector<CK_ATTRIBUTE_TYPE> attrs_;
CipherInfo info_;
SecretKey key_;
std::unique_ptr<CK_BYTE, freer> iv_;
std::unique_ptr<CK_BYTE, freer> plaintext_;
CK_MECHANISM mechanism_;
};
} // namespace test
} // namespace pkcs11
#endif // PKCS11TEST_H