/* * Copyright 2004 The WebRTC Project Authors. All rights reserved. * * Use of this source code is governed by a BSD-style license * that can be found in the LICENSE file in the root of the source * tree. An additional intellectual property rights grant can be found * in the file PATENTS. All contributing project authors may * be found in the AUTHORS file in the root of the source tree. */ #include "p2p/base/stun_request.h" #include #include #include "rtc_base/fake_clock.h" #include "rtc_base/gunit.h" #include "rtc_base/helpers.h" #include "rtc_base/logging.h" #include "rtc_base/time_utils.h" #include "test/gtest.h" namespace cricket { namespace { std::unique_ptr CreateStunMessage( StunMessageType type, const StunMessage* req = nullptr) { std::unique_ptr msg = std::make_unique( type, req ? req->transaction_id() : StunMessage::GenerateTransactionId()); return msg; } int TotalDelay(int sends) { std::vector delays = {0, 250, 750, 1750, 3750, 7750, 15750, 23750, 31750, 39750}; return delays[sends]; } } // namespace class StunRequestTest : public ::testing::Test { public: StunRequestTest() : manager_(rtc::Thread::Current(), [this](const void* data, size_t size, StunRequest* request) { OnSendPacket(data, size, request); }), request_count_(0), response_(NULL), success_(false), failure_(false), timeout_(false) {} void OnSendPacket(const void* data, size_t size, StunRequest* req) { request_count_++; } void OnResponse(StunMessage* res) { response_ = res; success_ = true; } void OnErrorResponse(StunMessage* res) { response_ = res; failure_ = true; } void OnTimeout() { timeout_ = true; } protected: rtc::AutoThread main_thread_; StunRequestManager manager_; int request_count_; StunMessage* response_; bool success_; bool failure_; bool timeout_; }; // Forwards results to the test class. class StunRequestThunker : public StunRequest { public: StunRequestThunker(StunRequestManager& manager, StunRequestTest* test) : StunRequest(manager, CreateStunMessage(STUN_BINDING_REQUEST)), test_(test) {} std::unique_ptr CreateResponseMessage(StunMessageType type) { return CreateStunMessage(type, msg()); } private: virtual void OnResponse(StunMessage* res) { test_->OnResponse(res); } virtual void OnErrorResponse(StunMessage* res) { test_->OnErrorResponse(res); } virtual void OnTimeout() { test_->OnTimeout(); } StunRequestTest* test_; }; // Test handling of a normal binding response. TEST_F(StunRequestTest, TestSuccess) { auto* request = new StunRequestThunker(manager_, this); std::unique_ptr res = request->CreateResponseMessage(STUN_BINDING_RESPONSE); manager_.Send(request); EXPECT_TRUE(manager_.CheckResponse(res.get())); EXPECT_TRUE(response_ == res.get()); EXPECT_TRUE(success_); EXPECT_FALSE(failure_); EXPECT_FALSE(timeout_); } // Test handling of an error binding response. TEST_F(StunRequestTest, TestError) { auto* request = new StunRequestThunker(manager_, this); std::unique_ptr res = request->CreateResponseMessage(STUN_BINDING_ERROR_RESPONSE); manager_.Send(request); EXPECT_TRUE(manager_.CheckResponse(res.get())); EXPECT_TRUE(response_ == res.get()); EXPECT_FALSE(success_); EXPECT_TRUE(failure_); EXPECT_FALSE(timeout_); } // Test handling of a binding response with the wrong transaction id. TEST_F(StunRequestTest, TestUnexpected) { auto* request = new StunRequestThunker(manager_, this); std::unique_ptr res = CreateStunMessage(STUN_BINDING_RESPONSE); manager_.Send(request); EXPECT_FALSE(manager_.CheckResponse(res.get())); EXPECT_TRUE(response_ == NULL); EXPECT_FALSE(success_); EXPECT_FALSE(failure_); EXPECT_FALSE(timeout_); } // Test that requests are sent at the right times. TEST_F(StunRequestTest, TestBackoff) { rtc::ScopedFakeClock fake_clock; auto* request = new StunRequestThunker(manager_, this); std::unique_ptr res = request->CreateResponseMessage(STUN_BINDING_RESPONSE); int64_t start = rtc::TimeMillis(); manager_.Send(request); for (int i = 0; i < 9; ++i) { EXPECT_TRUE_SIMULATED_WAIT(request_count_ != i, STUN_TOTAL_TIMEOUT, fake_clock); int64_t elapsed = rtc::TimeMillis() - start; RTC_DLOG(LS_INFO) << "STUN request #" << (i + 1) << " sent at " << elapsed << " ms"; EXPECT_EQ(TotalDelay(i), elapsed); } EXPECT_TRUE(manager_.CheckResponse(res.get())); EXPECT_TRUE(response_ == res.get()); EXPECT_TRUE(success_); EXPECT_FALSE(failure_); EXPECT_FALSE(timeout_); } // Test that we timeout properly if no response is received. TEST_F(StunRequestTest, TestTimeout) { rtc::ScopedFakeClock fake_clock; auto* request = new StunRequestThunker(manager_, this); std::unique_ptr res = request->CreateResponseMessage(STUN_BINDING_RESPONSE); manager_.Send(request); SIMULATED_WAIT(false, cricket::STUN_TOTAL_TIMEOUT, fake_clock); EXPECT_FALSE(manager_.CheckResponse(res.get())); EXPECT_TRUE(response_ == NULL); EXPECT_FALSE(success_); EXPECT_FALSE(failure_); EXPECT_TRUE(timeout_); } // Regression test for specific crash where we receive a response with the // same id as a request that doesn't have an underlying StunMessage yet. TEST_F(StunRequestTest, TestNoEmptyRequest) { StunRequestThunker* request = new StunRequestThunker(manager_, this); manager_.SendDelayed(request, 100); StunMessage dummy_req(0, request->id()); std::unique_ptr res = CreateStunMessage(STUN_BINDING_RESPONSE, &dummy_req); EXPECT_TRUE(manager_.CheckResponse(res.get())); EXPECT_TRUE(response_ == res.get()); EXPECT_TRUE(success_); EXPECT_FALSE(failure_); EXPECT_FALSE(timeout_); } // If the response contains an attribute in the "comprehension required" range // which is not recognized, the transaction should be considered a failure and // the response should be ignored. TEST_F(StunRequestTest, TestUnrecognizedComprehensionRequiredAttribute) { auto* request = new StunRequestThunker(manager_, this); std::unique_ptr res = request->CreateResponseMessage(STUN_BINDING_ERROR_RESPONSE); manager_.Send(request); res->AddAttribute(StunAttribute::CreateUInt32(0x7777)); EXPECT_FALSE(manager_.CheckResponse(res.get())); EXPECT_EQ(nullptr, response_); EXPECT_FALSE(success_); EXPECT_FALSE(failure_); EXPECT_FALSE(timeout_); } } // namespace cricket