/* * Copyright (C) 2020 The Android Open Source Project * * 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. */ #include #include #include #include #include "app_test_base.h" #include "chpp/app.h" #include "chpp/clients/discovery.h" #include "chpp/clients/loopback.h" #include "chpp/clients/timesync.h" #include "chpp/log.h" #include "chpp/platform/platform_link.h" #include "chpp/transport.h" /* * Test suite for the CHPP Loopback client/service */ namespace chpp { namespace { class ChppAppTest : public AppTestBase {}; TEST_F(ChppAppTest, SimpleStartStop) { // Simple test to make sure start/stop work threads work without crashing ASSERT_TRUE(mClientLinkContext.linkEstablished); ASSERT_TRUE(mServiceLinkContext.linkEstablished); } TEST_F(ChppAppTest, TransportLayerLoopback) { // This tests the more limited transport-layer-looopback. In contrast, // the regular application-layer loopback test provides a more thorough test // and test results. constexpr size_t kTestLen = CHPP_LINUX_LINK_TX_MTU_BYTES - CHPP_TRANSPORT_ENCODING_OVERHEAD_BYTES; uint8_t buf[kTestLen]; for (size_t i = 0; i < kTestLen; i++) { buf[i] = (uint8_t)(i + 100); } std::this_thread::sleep_for(std::chrono::milliseconds(2000)); CHPP_LOGI("Starting transport-layer loopback test (max buffer = %zu)...", kTestLen); EXPECT_EQ(CHPP_APP_ERROR_NONE, chppRunTransportLoopback(mClientAppContext.transportContext, buf, kTestLen)); std::this_thread::sleep_for(std::chrono::milliseconds(300)); EXPECT_EQ(CHPP_APP_ERROR_NONE, mClientAppContext.transportContext->loopbackResult); EXPECT_EQ( CHPP_APP_ERROR_NONE, chppRunTransportLoopback(mClientAppContext.transportContext, buf, 100)); std::this_thread::sleep_for(std::chrono::milliseconds(300)); EXPECT_EQ(CHPP_APP_ERROR_NONE, mClientAppContext.transportContext->loopbackResult); EXPECT_EQ( CHPP_APP_ERROR_NONE, chppRunTransportLoopback(mClientAppContext.transportContext, buf, 1)); std::this_thread::sleep_for(std::chrono::milliseconds(300)); EXPECT_EQ(CHPP_APP_ERROR_NONE, mClientAppContext.transportContext->loopbackResult); EXPECT_EQ( CHPP_APP_ERROR_INVALID_LENGTH, chppRunTransportLoopback(mClientAppContext.transportContext, buf, 0)); std::this_thread::sleep_for(std::chrono::milliseconds(300)); EXPECT_EQ(CHPP_APP_ERROR_INVALID_LENGTH, mClientAppContext.transportContext->loopbackResult); } TEST_F(ChppAppTest, SimpleLoopback) { constexpr size_t kTestLen = CHPP_LINUX_LINK_TX_MTU_BYTES - CHPP_TRANSPORT_ENCODING_OVERHEAD_BYTES - CHPP_LOOPBACK_HEADER_LEN; uint8_t buf[kTestLen]; for (size_t i = 0; i < kTestLen; i++) { buf[i] = (uint8_t)(i + 100); } CHPP_LOGI( "Starting loopback test without fragmentation (max buffer = %zu)...", kTestLen); struct ChppLoopbackTestResult result = chppRunLoopbackTest(&mClientAppContext, buf, kTestLen); EXPECT_EQ(result.error, CHPP_APP_ERROR_NONE); result = chppRunLoopbackTest(&mClientAppContext, buf, 10); EXPECT_EQ(result.error, CHPP_APP_ERROR_NONE); result = chppRunLoopbackTest(&mClientAppContext, buf, 1); EXPECT_EQ(result.error, CHPP_APP_ERROR_NONE); result = chppRunLoopbackTest(&mClientAppContext, buf, 0); EXPECT_EQ(result.error, CHPP_APP_ERROR_INVALID_LENGTH); } TEST_F(ChppAppTest, FragmentedLoopback) { constexpr size_t kTestLen = UINT16_MAX; uint8_t buf[kTestLen]; for (size_t i = 0; i < kTestLen; i++) { // Arbitrary data. A modulus of 251, a prime number, reduces the chance of // alignment with the MTU. buf[i] = (uint8_t)((i % 251) + 64); } CHPP_LOGI("Starting loopback test with fragmentation (max buffer = %zu)...", kTestLen); struct ChppLoopbackTestResult result = chppRunLoopbackTest(&mClientAppContext, buf, kTestLen); EXPECT_EQ(result.error, CHPP_APP_ERROR_NONE); result = chppRunLoopbackTest(&mClientAppContext, buf, 50000); EXPECT_EQ(result.error, CHPP_APP_ERROR_NONE); result = chppRunLoopbackTest( &mClientAppContext, buf, chppTransportTxMtuSize(mClientAppContext.transportContext) - CHPP_LOOPBACK_HEADER_LEN + 1); EXPECT_EQ(result.error, CHPP_APP_ERROR_NONE); } TEST_F(ChppAppTest, Timesync) { // Upper bound for the RTT (response received - request sent). constexpr uint64_t kMaxRttNs = 20 * CHPP_NSEC_PER_MSEC; // The offset is defined as (Time when the service sent the response) - (Time // when the client got the response). // We use half the RTT as the upper bound. constexpr int64_t kMaxOffsetNs = kMaxRttNs / 2; CHPP_LOGI("Starting timesync test..."); std::this_thread::sleep_for(std::chrono::milliseconds(100)); EXPECT_TRUE(chppTimesyncMeasureOffset(&mClientAppContext)); std::this_thread::sleep_for(std::chrono::milliseconds(100)); EXPECT_EQ(chppTimesyncGetResult(&mClientAppContext)->error, CHPP_APP_ERROR_NONE); EXPECT_LT(chppTimesyncGetResult(&mClientAppContext)->rttNs, kMaxRttNs); EXPECT_NE(chppTimesyncGetResult(&mClientAppContext)->rttNs, 0); EXPECT_LT(chppTimesyncGetResult(&mClientAppContext)->offsetNs, kMaxOffsetNs); EXPECT_GT(chppTimesyncGetResult(&mClientAppContext)->offsetNs, -kMaxOffsetNs); EXPECT_NE(chppTimesyncGetResult(&mClientAppContext)->offsetNs, 0); } TEST_F(ChppAppTest, DiscoveryMatched) { constexpr uint64_t kTimeoutMs = 5000; EXPECT_TRUE(chppWaitForDiscoveryComplete(&mClientAppContext, kTimeoutMs)); EXPECT_TRUE(chppAreAllClientsMatched(&mClientAppContext)); } } // namespace } // namespace chpp