suite/audio_quality/test/RemoteAudioFakeTcpTest.cpp - platform/cts - Git at Google

 /*
  * Copyright (C) 2012 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.
  */

 // test RemoteAudio with fake TCP

 #include <unistd.h>

 #include <utils/String8.h>

 #include <gtest/gtest.h>

 #include <utils/StrongPointer.h>

 #include <Log.h>
 #include <audio/AudioHardware.h>
 #include <audio/AudioProtocol.h>
 #include <audio/AudioSignalFactory.h>
 #include <ClientSocket.h>
 #include <audio/RemoteAudio.h>


 void assertTrue(bool cond) {
     ASSERT_TRUE(cond);
 }
 void assertData(const char* data1, const char* data2, int len) {
     for (int i = 0; i < len; i++) {
         //LOGD("0x%x vs 0x%x", data1[i], data2[i]);
         ASSERT_TRUE(data1[i] == data2[i]);
     }
 }

 class ClientSocketForTest: public ClientSocket {
 public:
     ClientSocketForTest()
         : mToRead(NULL),
           mReadLength(0) {};

     virtual ~ClientSocketForTest() {
         close(mSocket);
         close(mPipeWrFd);
     }
     virtual bool init(const char* hostIp, int port, bool enableTimeout = false) {
         LOGD("ClientSocketForTest::init");
         // use this fd to work with poll
         int pipefd[2];
         if (pipe(pipefd)  == -1) {
             LOGE("cannot create pipe");
             return false;
         }
         LOGD("pipe %d %d", pipefd[0], pipefd[1]);
         mSocket = pipefd[0];
         mPipeWrFd = pipefd[1];
         const char ipExpectation[] = "127.0.0.1";
         assertTrue(memcmp(ipExpectation, hostIp, sizeof(ipExpectation)) == 0);
         return true;
     }
     virtual bool readData(char* data, int len, int timeoutInMs = 0) {
         read(mSocket, data, len);
         return true;
     }
     virtual bool sendData(const char* data, int len) {
         assertTrue((len + mSendPointer) <= mSendLength);
         assertData(data, mToSend + mSendPointer, len);
         mSendPointer += len;
         if ((mToRead != NULL) && (mReadLength != 0)) {
             LOGD("fake TCP copy reply %d", mReadLength);
             write(mPipeWrFd, mToRead, mReadLength);
             mToRead = NULL; // prevent writing the same data again
         }
         return true;
     }

     void setSendExpectation(const char* data, int len) {
         mToSend = data;
         mSendLength = len;
         mSendPointer = 0;
     }
     void setReadExpectation(char* data, int len) {
         mToRead = data;
         mReadLength = len;
     }
 public:
     int mPipeWrFd; // for writing
     const char* mToRead;
     int mReadLength;
     const char* mToSend;
     int mSendLength;
     int mSendPointer;
 };

 class RemoteAudioFakeTcpTest : public testing::Test {
 protected:
     android::sp<RemoteAudio> mRemoteAudio;
     ClientSocketForTest mTestSocket;

 protected:
     virtual void SetUp() {
         ASSERT_TRUE(U32_ENDIAN_SWAP(0x12345678) == 0x78563412);
         mRemoteAudio = new RemoteAudio(mTestSocket);
         ASSERT_TRUE(mRemoteAudio != NULL);
         ASSERT_TRUE(mRemoteAudio->init(1234));
     }

     virtual void TearDown() {
         mRemoteAudio->release();
         mRemoteAudio.clear();
     }

     void doDownload() {
         android::sp<Buffer> buffer = AudioSignalFactory::generateZeroSound(AudioHardware::E2BPS, 2,
                 false);
         uint32_t prepareSend[] = {
                 U32_ENDIAN_SWAP(AudioProtocol::ECmdDownload),
                 U32_ENDIAN_SWAP(8),
                 U32_ENDIAN_SWAP(0), //id
                 U32_ENDIAN_SWAP(0)
         };
         uint32_t prepareReply[] = {
                 U32_ENDIAN_SWAP((AudioProtocol::ECmdDownload & 0xffff) | 0x43210000),
                 0,
                 0
         };
         LOGD("reply 0x%x", prepareReply[0]);

         mTestSocket.setSendExpectation((char*)prepareSend, sizeof(prepareSend));
         // this is reply, but set expectation for reply first as it is sent after send
         mTestSocket.setReadExpectation((char*)prepareReply, sizeof(prepareReply));

         int id = -1;
         android::String8 name("1");
         ASSERT_TRUE(mRemoteAudio->downloadData(name, buffer, id));
         ASSERT_TRUE(id >= 0);
     }
 };

 TEST_F(RemoteAudioFakeTcpTest, InitTest) {
     // all done in SetUp
 }

 TEST_F(RemoteAudioFakeTcpTest, DownloadTest) {
     doDownload();
 }

 TEST_F(RemoteAudioFakeTcpTest, PlayTest) {
     doDownload();

     bool stereo = false;
     int id = 0;
     int samplingF = 44100;
     int mode = AudioHardware::EModeVoice | (stereo ? 0x80000000 : 0);
     int volume = 0;
     int repeat = 1;

     uint32_t prepareSend[] = {
             U32_ENDIAN_SWAP(AudioProtocol::ECmdStartPlayback),
             U32_ENDIAN_SWAP(20),
             U32_ENDIAN_SWAP(id), //id
             U32_ENDIAN_SWAP(samplingF),
             U32_ENDIAN_SWAP(mode),
             U32_ENDIAN_SWAP(volume),
             U32_ENDIAN_SWAP(repeat)
     };
     uint32_t prepareReply[] = {
             U32_ENDIAN_SWAP((AudioProtocol::ECmdStartPlayback & 0xffff) | 0x43210000),
             0,
             0
     };

     mTestSocket.setSendExpectation((char*)prepareSend, sizeof(prepareSend));
     // this is reply, but set expectation for reply first as it is sent after send
     mTestSocket.setReadExpectation((char*)prepareReply, sizeof(prepareReply));

     ASSERT_TRUE(mRemoteAudio->startPlayback(stereo, samplingF, mode, volume, id, repeat));
     ASSERT_TRUE(mRemoteAudio->waitForPlaybackCompletion());
 }

 TEST_F(RemoteAudioFakeTcpTest, PlayStopTest) {
     doDownload();

     bool stereo = false;
     int id = 0;
     int samplingF = 44100;
     int mode = AudioHardware::EModeVoice | (stereo ? 0x80000000 : 0);
     int volume = 0;
     int repeat = 1;

     uint32_t startPlaybackSend[] = {
             U32_ENDIAN_SWAP(AudioProtocol::ECmdStartPlayback),
             U32_ENDIAN_SWAP(20),
             U32_ENDIAN_SWAP(id),
             U32_ENDIAN_SWAP(samplingF),
             U32_ENDIAN_SWAP(mode),
             U32_ENDIAN_SWAP(volume),
             U32_ENDIAN_SWAP(repeat)
     };
     uint32_t startReply[] = {
             U32_ENDIAN_SWAP((AudioProtocol::ECmdStartPlayback & 0xffff) | 0x43210000),
             0,
             0
     };

     uint32_t stopPlaybackSend[] = {
             U32_ENDIAN_SWAP(AudioProtocol::ECmdStopPlayback),
             U32_ENDIAN_SWAP(0)
     };

     uint32_t stopReply[] = {
             U32_ENDIAN_SWAP((AudioProtocol::ECmdStopPlayback & 0xffff) | 0x43210000),
             0,
             0
     };

     mTestSocket.setSendExpectation((char*)startPlaybackSend, sizeof(startPlaybackSend));
     // this is reply, but set expectation for reply first as it is sent after send
     mTestSocket.setReadExpectation((char*)startReply, sizeof(startReply));

     ASSERT_TRUE(mRemoteAudio->startPlayback(stereo, samplingF, mode, volume, id, repeat));
     sleep(1);
     mTestSocket.setSendExpectation((char*)stopPlaybackSend, sizeof(stopPlaybackSend));
     // this is reply, but set expectation for reply first as it is sent after send
     mTestSocket.setReadExpectation((char*)stopReply, sizeof(stopReply));
     mRemoteAudio->stopPlayback();

     mTestSocket.setSendExpectation((char*)startPlaybackSend, sizeof(startPlaybackSend));
     // this is reply, but set expectation for reply first as it is sent after send
     mTestSocket.setReadExpectation((char*)startReply, sizeof(startReply));
     ASSERT_TRUE(mRemoteAudio->startPlayback(stereo, samplingF, mode, volume, id, repeat));
     sleep(1);
     mTestSocket.setSendExpectation((char*)stopPlaybackSend, sizeof(stopPlaybackSend));
     // this is reply, but set expectation for reply first as it is sent after send
     mTestSocket.setReadExpectation((char*)stopReply, sizeof(stopReply));
     mRemoteAudio->stopPlayback();

     mTestSocket.setSendExpectation((char*)startPlaybackSend, sizeof(startPlaybackSend));
     // this is reply, but set expectation for reply first as it is sent after send
     mTestSocket.setReadExpectation((char*)startReply, sizeof(startReply));
     ASSERT_TRUE(mRemoteAudio->startPlayback(stereo, samplingF, mode, volume, id, repeat));
     ASSERT_TRUE(mRemoteAudio->waitForPlaybackCompletion());
 }

 TEST_F(RemoteAudioFakeTcpTest, RecordingTest) {
     bool stereo = false;
     int id = 0;
     int samplingF = 44100;
     int mode = AudioHardware::EModeVoice | (stereo ? 0x80000000 : 0);
     int volume = 0;
     int noSamples = 44; // 1ms worth

     android::sp<Buffer> buffer(new Buffer(100, noSamples*2, false));

     uint32_t startSend[] = {
             U32_ENDIAN_SWAP(AudioProtocol::ECmdStartRecording),
             U32_ENDIAN_SWAP(16),
             U32_ENDIAN_SWAP(samplingF),
             U32_ENDIAN_SWAP(mode),
             U32_ENDIAN_SWAP(volume),
             U32_ENDIAN_SWAP(noSamples)
     };

     // 2bytes per sample, +2 for last samples rounded off
     uint32_t startReply[noSamples/2 + 2 + 3];
     memset(startReply, 0, sizeof(startReply));
     startReply[0] = U32_ENDIAN_SWAP((AudioProtocol::ECmdStartRecording & 0xffff) | 0x43210000);
     startReply[1] = 0;
     startReply[2] = U32_ENDIAN_SWAP(noSamples * 2);

     uint32_t stopSend[] = {
             U32_ENDIAN_SWAP(AudioProtocol::ECmdStopRecording),
             U32_ENDIAN_SWAP(0)
     };

     uint32_t stopReply[] = {
             U32_ENDIAN_SWAP((AudioProtocol::ECmdStopRecording & 0xffff) | 0x43210000),
             0,
             0
     };


     mTestSocket.setSendExpectation((char*)startSend, sizeof(startSend));
     // this is reply, but set expectation for reply first as it is sent after send
     mTestSocket.setReadExpectation((char*)startReply, 12 + noSamples*2);

     ASSERT_TRUE(mRemoteAudio->startRecording(stereo, samplingF, mode, volume, buffer));
     ASSERT_TRUE(mRemoteAudio->waitForRecordingCompletion());
     ASSERT_TRUE(buffer->amountHandled() == (size_t)(noSamples * 2));
     mTestSocket.setSendExpectation((char*)startSend, sizeof(startSend));
     // this is reply, but set expectation for reply first as it is sent after send
     mTestSocket.setReadExpectation((char*)startReply, 12 + noSamples*2);
     ASSERT_TRUE(mRemoteAudio->startRecording(stereo, samplingF, mode, volume, buffer));
     sleep(1);
     mTestSocket.setSendExpectation((char*)stopSend, sizeof(stopSend));
     // this is reply, but set expectation for reply first as it is sent after send
     mTestSocket.setReadExpectation((char*)stopReply, sizeof(stopReply));
     mRemoteAudio->stopRecording();
 }

 TEST_F(RemoteAudioFakeTcpTest, getDeviceInfoTest) {
     uint32_t prepareSend[] = {
             U32_ENDIAN_SWAP(AudioProtocol::ECmdGetDeviceInfo),
             U32_ENDIAN_SWAP(0)
     };
     uint32_t prepareReply[] = {
             U32_ENDIAN_SWAP((AudioProtocol::ECmdGetDeviceInfo & 0xffff) | 0x43210000),
             0,
             U32_ENDIAN_SWAP(4),
             U32_ENDIAN_SWAP(0x30313233)
     };

     mTestSocket.setSendExpectation((char*)prepareSend, sizeof(prepareSend));
     // this is reply, but set expectation for reply first as it is sent after send
     mTestSocket.setReadExpectation((char*)prepareReply, sizeof(prepareReply));

     android::String8 info;
     ASSERT_TRUE(mRemoteAudio->getDeviceInfo(info));
     ASSERT_TRUE(info == "0123");
 }
	/*
	* Copyright (C) 2012 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.
	*/

	// test RemoteAudio with fake TCP

	#include <unistd.h>

	#include <utils/String8.h>

	#include <gtest/gtest.h>

	#include <utils/StrongPointer.h>

	#include <Log.h>
	#include <audio/AudioHardware.h>
	#include <audio/AudioProtocol.h>
	#include <audio/AudioSignalFactory.h>
	#include <ClientSocket.h>
	#include <audio/RemoteAudio.h>



	void assertTrue(bool cond) {
	ASSERT_TRUE(cond);
	}
	void assertData(const char* data1, const char* data2, int len) {
	for (int i = 0; i < len; i++) {
	//LOGD("0x%x vs 0x%x", data1[i], data2[i]);
	ASSERT_TRUE(data1[i] == data2[i]);
	}
	}

	class ClientSocketForTest: public ClientSocket {
	public:
	ClientSocketForTest()
	: mToRead(NULL),
	mReadLength(0) {};

	virtual ~ClientSocketForTest() {
	close(mSocket);
	close(mPipeWrFd);
	}
	virtual bool init(const char* hostIp, int port, bool enableTimeout = false) {
	LOGD("ClientSocketForTest::init");
	// use this fd to work with poll
	int pipefd[2];
	if (pipe(pipefd) == -1) {
	LOGE("cannot create pipe");
	return false;
	}
	LOGD("pipe %d %d", pipefd[0], pipefd[1]);
	mSocket = pipefd[0];
	mPipeWrFd = pipefd[1];
	const char ipExpectation[] = "127.0.0.1";
	assertTrue(memcmp(ipExpectation, hostIp, sizeof(ipExpectation)) == 0);
	return true;
	}
	virtual bool readData(char* data, int len, int timeoutInMs = 0) {
	read(mSocket, data, len);
	return true;
	}
	virtual bool sendData(const char* data, int len) {
	assertTrue((len + mSendPointer) <= mSendLength);
	assertData(data, mToSend + mSendPointer, len);
	mSendPointer += len;
	if ((mToRead != NULL) && (mReadLength != 0)) {
	LOGD("fake TCP copy reply %d", mReadLength);
	write(mPipeWrFd, mToRead, mReadLength);
	mToRead = NULL; // prevent writing the same data again
	}
	return true;
	}

	void setSendExpectation(const char* data, int len) {
	mToSend = data;
	mSendLength = len;
	mSendPointer = 0;
	}
	void setReadExpectation(char* data, int len) {
	mToRead = data;
	mReadLength = len;
	}
	public:
	int mPipeWrFd; // for writing
	const char* mToRead;
	int mReadLength;
	const char* mToSend;
	int mSendLength;
	int mSendPointer;
	};

	class RemoteAudioFakeTcpTest : public testing::Test {
	protected:
	android::sp<RemoteAudio> mRemoteAudio;
	ClientSocketForTest mTestSocket;

	protected:
	virtual void SetUp() {
	ASSERT_TRUE(U32_ENDIAN_SWAP(0x12345678) == 0x78563412);
	mRemoteAudio = new RemoteAudio(mTestSocket);
	ASSERT_TRUE(mRemoteAudio != NULL);
	ASSERT_TRUE(mRemoteAudio->init(1234));
	}

	virtual void TearDown() {
	mRemoteAudio->release();
	mRemoteAudio.clear();
	}

	void doDownload() {
	android::sp<Buffer> buffer = AudioSignalFactory::generateZeroSound(AudioHardware::E2BPS, 2,
	false);
	uint32_t prepareSend[] = {
	U32_ENDIAN_SWAP(AudioProtocol::ECmdDownload),
	U32_ENDIAN_SWAP(8),
	U32_ENDIAN_SWAP(0), //id
	U32_ENDIAN_SWAP(0)
	};
	uint32_t prepareReply[] = {
	U32_ENDIAN_SWAP((AudioProtocol::ECmdDownload & 0xffff) \| 0x43210000),
	0,
	0
	};
	LOGD("reply 0x%x", prepareReply[0]);

	mTestSocket.setSendExpectation((char*)prepareSend, sizeof(prepareSend));
	// this is reply, but set expectation for reply first as it is sent after send
	mTestSocket.setReadExpectation((char*)prepareReply, sizeof(prepareReply));

	int id = -1;
	android::String8 name("1");
	ASSERT_TRUE(mRemoteAudio->downloadData(name, buffer, id));
	ASSERT_TRUE(id >= 0);
	}
	};

	TEST_F(RemoteAudioFakeTcpTest, InitTest) {
	// all done in SetUp
	}

	TEST_F(RemoteAudioFakeTcpTest, DownloadTest) {
	doDownload();
	}

	TEST_F(RemoteAudioFakeTcpTest, PlayTest) {
	doDownload();

	bool stereo = false;
	int id = 0;
	int samplingF = 44100;
	int mode = AudioHardware::EModeVoice \| (stereo ? 0x80000000 : 0);
	int volume = 0;
	int repeat = 1;

	uint32_t prepareSend[] = {
	U32_ENDIAN_SWAP(AudioProtocol::ECmdStartPlayback),
	U32_ENDIAN_SWAP(20),
	U32_ENDIAN_SWAP(id), //id
	U32_ENDIAN_SWAP(samplingF),
	U32_ENDIAN_SWAP(mode),
	U32_ENDIAN_SWAP(volume),
	U32_ENDIAN_SWAP(repeat)
	};
	uint32_t prepareReply[] = {
	U32_ENDIAN_SWAP((AudioProtocol::ECmdStartPlayback & 0xffff) \| 0x43210000),
	0,
	0
	};

	mTestSocket.setSendExpectation((char*)prepareSend, sizeof(prepareSend));
	// this is reply, but set expectation for reply first as it is sent after send
	mTestSocket.setReadExpectation((char*)prepareReply, sizeof(prepareReply));

	ASSERT_TRUE(mRemoteAudio->startPlayback(stereo, samplingF, mode, volume, id, repeat));
	ASSERT_TRUE(mRemoteAudio->waitForPlaybackCompletion());
	}

	TEST_F(RemoteAudioFakeTcpTest, PlayStopTest) {
	doDownload();

	bool stereo = false;
	int id = 0;
	int samplingF = 44100;
	int mode = AudioHardware::EModeVoice \| (stereo ? 0x80000000 : 0);
	int volume = 0;
	int repeat = 1;

	uint32_t startPlaybackSend[] = {
	U32_ENDIAN_SWAP(AudioProtocol::ECmdStartPlayback),
	U32_ENDIAN_SWAP(20),
	U32_ENDIAN_SWAP(id),
	U32_ENDIAN_SWAP(samplingF),
	U32_ENDIAN_SWAP(mode),
	U32_ENDIAN_SWAP(volume),
	U32_ENDIAN_SWAP(repeat)
	};
	uint32_t startReply[] = {
	U32_ENDIAN_SWAP((AudioProtocol::ECmdStartPlayback & 0xffff) \| 0x43210000),
	0,
	0
	};

	uint32_t stopPlaybackSend[] = {
	U32_ENDIAN_SWAP(AudioProtocol::ECmdStopPlayback),
	U32_ENDIAN_SWAP(0)
	};

	uint32_t stopReply[] = {
	U32_ENDIAN_SWAP((AudioProtocol::ECmdStopPlayback & 0xffff) \| 0x43210000),
	0,
	0
	};

	mTestSocket.setSendExpectation((char*)startPlaybackSend, sizeof(startPlaybackSend));
	// this is reply, but set expectation for reply first as it is sent after send
	mTestSocket.setReadExpectation((char*)startReply, sizeof(startReply));

	ASSERT_TRUE(mRemoteAudio->startPlayback(stereo, samplingF, mode, volume, id, repeat));
	sleep(1);
	mTestSocket.setSendExpectation((char*)stopPlaybackSend, sizeof(stopPlaybackSend));
	// this is reply, but set expectation for reply first as it is sent after send
	mTestSocket.setReadExpectation((char*)stopReply, sizeof(stopReply));
	mRemoteAudio->stopPlayback();

	mTestSocket.setSendExpectation((char*)startPlaybackSend, sizeof(startPlaybackSend));
	// this is reply, but set expectation for reply first as it is sent after send
	mTestSocket.setReadExpectation((char*)startReply, sizeof(startReply));
	ASSERT_TRUE(mRemoteAudio->startPlayback(stereo, samplingF, mode, volume, id, repeat));
	sleep(1);
	mTestSocket.setSendExpectation((char*)stopPlaybackSend, sizeof(stopPlaybackSend));
	// this is reply, but set expectation for reply first as it is sent after send
	mTestSocket.setReadExpectation((char*)stopReply, sizeof(stopReply));
	mRemoteAudio->stopPlayback();

	mTestSocket.setSendExpectation((char*)startPlaybackSend, sizeof(startPlaybackSend));
	// this is reply, but set expectation for reply first as it is sent after send
	mTestSocket.setReadExpectation((char*)startReply, sizeof(startReply));
	ASSERT_TRUE(mRemoteAudio->startPlayback(stereo, samplingF, mode, volume, id, repeat));
	ASSERT_TRUE(mRemoteAudio->waitForPlaybackCompletion());
	}

	TEST_F(RemoteAudioFakeTcpTest, RecordingTest) {
	bool stereo = false;
	int id = 0;
	int samplingF = 44100;
	int mode = AudioHardware::EModeVoice \| (stereo ? 0x80000000 : 0);
	int volume = 0;
	int noSamples = 44; // 1ms worth

	android::sp<Buffer> buffer(new Buffer(100, noSamples*2, false));

	uint32_t startSend[] = {
	U32_ENDIAN_SWAP(AudioProtocol::ECmdStartRecording),
	U32_ENDIAN_SWAP(16),
	U32_ENDIAN_SWAP(samplingF),
	U32_ENDIAN_SWAP(mode),
	U32_ENDIAN_SWAP(volume),
	U32_ENDIAN_SWAP(noSamples)
	};

	// 2bytes per sample, +2 for last samples rounded off
	uint32_t startReply[noSamples/2 + 2 + 3];
	memset(startReply, 0, sizeof(startReply));
	startReply[0] = U32_ENDIAN_SWAP((AudioProtocol::ECmdStartRecording & 0xffff) \| 0x43210000);
	startReply[1] = 0;
	startReply[2] = U32_ENDIAN_SWAP(noSamples * 2);

	uint32_t stopSend[] = {
	U32_ENDIAN_SWAP(AudioProtocol::ECmdStopRecording),
	U32_ENDIAN_SWAP(0)
	};

	uint32_t stopReply[] = {
	U32_ENDIAN_SWAP((AudioProtocol::ECmdStopRecording & 0xffff) \| 0x43210000),
	0,
	0
	};


	mTestSocket.setSendExpectation((char*)startSend, sizeof(startSend));
	// this is reply, but set expectation for reply first as it is sent after send
	mTestSocket.setReadExpectation((char)startReply, 12 + noSamples2);

	ASSERT_TRUE(mRemoteAudio->startRecording(stereo, samplingF, mode, volume, buffer));
	ASSERT_TRUE(mRemoteAudio->waitForRecordingCompletion());
	ASSERT_TRUE(buffer->amountHandled() == (size_t)(noSamples * 2));
	mTestSocket.setSendExpectation((char*)startSend, sizeof(startSend));
	// this is reply, but set expectation for reply first as it is sent after send
	mTestSocket.setReadExpectation((char)startReply, 12 + noSamples2);
	ASSERT_TRUE(mRemoteAudio->startRecording(stereo, samplingF, mode, volume, buffer));
	sleep(1);
	mTestSocket.setSendExpectation((char*)stopSend, sizeof(stopSend));
	// this is reply, but set expectation for reply first as it is sent after send
	mTestSocket.setReadExpectation((char*)stopReply, sizeof(stopReply));
	mRemoteAudio->stopRecording();
	}

	TEST_F(RemoteAudioFakeTcpTest, getDeviceInfoTest) {
	uint32_t prepareSend[] = {
	U32_ENDIAN_SWAP(AudioProtocol::ECmdGetDeviceInfo),
	U32_ENDIAN_SWAP(0)
	};
	uint32_t prepareReply[] = {
	U32_ENDIAN_SWAP((AudioProtocol::ECmdGetDeviceInfo & 0xffff) \| 0x43210000),
	0,
	U32_ENDIAN_SWAP(4),
	U32_ENDIAN_SWAP(0x30313233)
	};

	mTestSocket.setSendExpectation((char*)prepareSend, sizeof(prepareSend));
	// this is reply, but set expectation for reply first as it is sent after send
	mTestSocket.setReadExpectation((char*)prepareReply, sizeof(prepareReply));

	android::String8 info;
	ASSERT_TRUE(mRemoteAudio->getDeviceInfo(info));
	ASSERT_TRUE(info == "0123");
	}