quic/core/crypto/p256_key_exchange_test.cc - quiche - Git at Google

 // Copyright (c) 2013 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "quic/core/crypto/p256_key_exchange.h"

 #include <memory>
 #include <string>
 #include <utility>

 #include "absl/strings/string_view.h"
 #include "quic/platform/api/quic_test.h"

 namespace quic {
 namespace test {

 class P256KeyExchangeTest : public QuicTest {
  public:
   // Holds the result of a key exchange callback.
   class TestCallbackResult {
    public:
     void set_ok(bool ok) { ok_ = ok; }
     bool ok() { return ok_; }

    private:
     bool ok_ = false;
   };

   // Key exchange callback which sets the result into the specified
   // TestCallbackResult.
   class TestCallback : public AsynchronousKeyExchange::Callback {
    public:
     TestCallback(TestCallbackResult* result) : result_(result) {}
     virtual ~TestCallback() = default;

     void Run(bool ok) { result_->set_ok(ok); }

    private:
     TestCallbackResult* result_;
   };
 };

 // SharedKeyAsync just tests that the basic asynchronous key exchange identity
 // holds: that both parties end up with the same key.
 TEST_F(P256KeyExchangeTest, SharedKey) {
   for (int i = 0; i < 5; i++) {
     std::string alice_private(P256KeyExchange::NewPrivateKey());
     std::string bob_private(P256KeyExchange::NewPrivateKey());

     ASSERT_FALSE(alice_private.empty());
     ASSERT_FALSE(bob_private.empty());
     ASSERT_NE(alice_private, bob_private);

     std::unique_ptr<P256KeyExchange> alice(P256KeyExchange::New(alice_private));
     std::unique_ptr<P256KeyExchange> bob(P256KeyExchange::New(bob_private));

     ASSERT_TRUE(alice != nullptr);
     ASSERT_TRUE(bob != nullptr);

     const absl::string_view alice_public(alice->public_value());
     const absl::string_view bob_public(bob->public_value());

     std::string alice_shared, bob_shared;
     ASSERT_TRUE(alice->CalculateSharedKeySync(bob_public, &alice_shared));
     ASSERT_TRUE(bob->CalculateSharedKeySync(alice_public, &bob_shared));
     ASSERT_EQ(alice_shared, bob_shared);
   }
 }

 // SharedKey just tests that the basic key exchange identity holds: that both
 // parties end up with the same key.
 TEST_F(P256KeyExchangeTest, AsyncSharedKey) {
   for (int i = 0; i < 5; i++) {
     std::string alice_private(P256KeyExchange::NewPrivateKey());
     std::string bob_private(P256KeyExchange::NewPrivateKey());

     ASSERT_FALSE(alice_private.empty());
     ASSERT_FALSE(bob_private.empty());
     ASSERT_NE(alice_private, bob_private);

     std::unique_ptr<P256KeyExchange> alice(P256KeyExchange::New(alice_private));
     std::unique_ptr<P256KeyExchange> bob(P256KeyExchange::New(bob_private));

     ASSERT_TRUE(alice != nullptr);
     ASSERT_TRUE(bob != nullptr);

     const absl::string_view alice_public(alice->public_value());
     const absl::string_view bob_public(bob->public_value());

     std::string alice_shared, bob_shared;
     TestCallbackResult alice_result;
     ASSERT_FALSE(alice_result.ok());
     alice->CalculateSharedKeyAsync(
         bob_public, &alice_shared,
         std::make_unique<TestCallback>(&alice_result));
     ASSERT_TRUE(alice_result.ok());
     TestCallbackResult bob_result;
     ASSERT_FALSE(bob_result.ok());
     bob->CalculateSharedKeyAsync(alice_public, &bob_shared,
                                  std::make_unique<TestCallback>(&bob_result));
     ASSERT_TRUE(bob_result.ok());
     ASSERT_EQ(alice_shared, bob_shared);
     ASSERT_NE(0u, alice_shared.length());
     ASSERT_NE(0u, bob_shared.length());
   }
 }

 }  // namespace test
 }  // namespace quic
	// Copyright (c) 2013 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "quic/core/crypto/p256_key_exchange.h"

	#include <memory>
	#include <string>
	#include <utility>

	#include "absl/strings/string_view.h"
	#include "quic/platform/api/quic_test.h"

	namespace quic {
	namespace test {

	class P256KeyExchangeTest : public QuicTest {
	public:
	// Holds the result of a key exchange callback.
	class TestCallbackResult {
	public:
	void set_ok(bool ok) { ok_ = ok; }
	bool ok() { return ok_; }

	private:
	bool ok_ = false;
	};

	// Key exchange callback which sets the result into the specified
	// TestCallbackResult.
	class TestCallback : public AsynchronousKeyExchange::Callback {
	public:
	TestCallback(TestCallbackResult* result) : result_(result) {}
	virtual ~TestCallback() = default;

	void Run(bool ok) { result_->set_ok(ok); }

	private:
	TestCallbackResult* result_;
	};
	};

	// SharedKeyAsync just tests that the basic asynchronous key exchange identity
	// holds: that both parties end up with the same key.
	TEST_F(P256KeyExchangeTest, SharedKey) {
	for (int i = 0; i < 5; i++) {
	std::string alice_private(P256KeyExchange::NewPrivateKey());
	std::string bob_private(P256KeyExchange::NewPrivateKey());

	ASSERT_FALSE(alice_private.empty());
	ASSERT_FALSE(bob_private.empty());
	ASSERT_NE(alice_private, bob_private);

	std::unique_ptr<P256KeyExchange> alice(P256KeyExchange::New(alice_private));
	std::unique_ptr<P256KeyExchange> bob(P256KeyExchange::New(bob_private));

	ASSERT_TRUE(alice != nullptr);
	ASSERT_TRUE(bob != nullptr);

	const absl::string_view alice_public(alice->public_value());
	const absl::string_view bob_public(bob->public_value());

	std::string alice_shared, bob_shared;
	ASSERT_TRUE(alice->CalculateSharedKeySync(bob_public, &alice_shared));
	ASSERT_TRUE(bob->CalculateSharedKeySync(alice_public, &bob_shared));
	ASSERT_EQ(alice_shared, bob_shared);
	}
	}

	// SharedKey just tests that the basic key exchange identity holds: that both
	// parties end up with the same key.
	TEST_F(P256KeyExchangeTest, AsyncSharedKey) {
	for (int i = 0; i < 5; i++) {
	std::string alice_private(P256KeyExchange::NewPrivateKey());
	std::string bob_private(P256KeyExchange::NewPrivateKey());

	ASSERT_FALSE(alice_private.empty());
	ASSERT_FALSE(bob_private.empty());
	ASSERT_NE(alice_private, bob_private);

	std::unique_ptr<P256KeyExchange> alice(P256KeyExchange::New(alice_private));
	std::unique_ptr<P256KeyExchange> bob(P256KeyExchange::New(bob_private));

	ASSERT_TRUE(alice != nullptr);
	ASSERT_TRUE(bob != nullptr);

	const absl::string_view alice_public(alice->public_value());
	const absl::string_view bob_public(bob->public_value());

	std::string alice_shared, bob_shared;
	TestCallbackResult alice_result;
	ASSERT_FALSE(alice_result.ok());
	alice->CalculateSharedKeyAsync(
	bob_public, &alice_shared,
	std::make_unique<TestCallback>(&alice_result));
	ASSERT_TRUE(alice_result.ok());
	TestCallbackResult bob_result;
	ASSERT_FALSE(bob_result.ok());
	bob->CalculateSharedKeyAsync(alice_public, &bob_shared,
	std::make_unique<TestCallback>(&bob_result));
	ASSERT_TRUE(bob_result.ok());
	ASSERT_EQ(alice_shared, bob_shared);
	ASSERT_NE(0u, alice_shared.length());
	ASSERT_NE(0u, bob_shared.length());
	}
	}

	} // namespace test
	} // namespace quic