cras/src/tests/bt_io_unittest.cc - platform/external/adhd - Git at Google

 // Copyright (c) 2014 The Chromium OS 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 <gtest/gtest.h>

 extern "C" {

 // To test static functions.
 #include "cras_bt_io.c"
 }

 static struct cras_bt_device *fake_device =
     reinterpret_cast<struct cras_bt_device*>(0x123);
 static unsigned int cras_iodev_add_node_called;
 static unsigned int cras_iodev_rm_node_called;
 static unsigned int cras_iodev_free_format_called;
 static unsigned int cras_iodev_set_active_node_called;
 static unsigned int cras_iodev_list_add_output_called;
 static unsigned int cras_iodev_list_rm_output_called;
 static unsigned int cras_iodev_list_add_input_called;
 static unsigned int cras_iodev_list_rm_input_called;
 static unsigned int cras_bt_device_set_active_profile_called;
 static unsigned int cras_bt_device_set_active_profile_val;
 static int cras_bt_device_get_active_profile_ret;
 static int cras_bt_device_switch_profile_enable_dev_called;
 static int cras_bt_device_switch_profile_called;
 static int cras_bt_device_can_switch_to_a2dp_ret;
 static int cras_bt_device_has_a2dp_ret;
 static int is_utf8_string_ret_value;

 void ResetStubData() {
   cras_iodev_add_node_called = 0;
   cras_iodev_rm_node_called = 0;
   cras_iodev_free_format_called = 0;
   cras_iodev_set_active_node_called = 0;
   cras_iodev_list_add_output_called = 0;
   cras_iodev_list_rm_output_called = 0;
   cras_iodev_list_add_input_called = 0;
   cras_iodev_list_rm_input_called = 0;
   cras_bt_device_set_active_profile_called = 0;
   cras_bt_device_set_active_profile_val = 0;
   cras_bt_device_get_active_profile_ret = 0;
   cras_bt_device_switch_profile_enable_dev_called= 0;
   cras_bt_device_switch_profile_called = 0;
   cras_bt_device_can_switch_to_a2dp_ret = 0;
   cras_bt_device_has_a2dp_ret = 0;
   is_utf8_string_ret_value = 1;
 }

 namespace {

 class BtIoBasicSuite : public testing::Test {
   protected:
     virtual void SetUp() {
       ResetStubData();
       SetUpIodev(&iodev_, CRAS_STREAM_OUTPUT);
       SetUpIodev(&iodev2_, CRAS_STREAM_OUTPUT);

       update_supported_formats_called_ = 0;
       frames_queued_called_ = 0;
       delay_frames_called_ = 0;
       get_buffer_called_ = 0;
       put_buffer_called_ = 0;
       open_dev_called_ = 0;
       close_dev_called_ = 0;
     }

     virtual void TearDown() {
     }

     static void SetUpIodev(struct cras_iodev *d,
                            enum CRAS_STREAM_DIRECTION dir) {
       d->direction = dir;
       d->update_supported_formats = update_supported_formats;
       d->frames_queued = frames_queued;
       d->delay_frames = delay_frames;
       d->get_buffer = get_buffer;
       d->put_buffer = put_buffer;
       d->open_dev = open_dev;
       d->close_dev = close_dev;
     }

     // Stub functions for the iodev structure.
     static int update_supported_formats(struct cras_iodev *iodev) {
       iodev->supported_rates = (size_t *)calloc(
           2, sizeof(*iodev->supported_rates));
       iodev->supported_rates[0] = 48000;
       iodev->supported_rates[1] = 0;
       iodev->supported_channel_counts = (size_t *)calloc(
           2, sizeof(*iodev->supported_channel_counts));
       iodev->supported_channel_counts[0] = 2;
       iodev->supported_channel_counts[1] = 0;
       iodev->supported_formats = (snd_pcm_format_t *)calloc(
           2, sizeof(*iodev->supported_formats));
       iodev->supported_formats[0] = SND_PCM_FORMAT_S16_LE;
       iodev->supported_formats[1] = (snd_pcm_format_t)0;
       update_supported_formats_called_++;
       return 0;
     }
     static int frames_queued(const cras_iodev* iodev,
                              struct timespec *tstamp) {
       frames_queued_called_++;
       return 0;
     }
     static int delay_frames(const cras_iodev* iodev) {
       delay_frames_called_++;
       return 0;
     }
     static int get_buffer(cras_iodev* iodev,
                           struct cras_audio_area** area,
                           unsigned int* num) {
       get_buffer_called_++;
       return 0;
     }
     static int put_buffer(cras_iodev* iodev,
                           unsigned int num) {
       put_buffer_called_++;
       return 0;
     }
     static int open_dev(cras_iodev* iodev) {
       open_dev_called_++;
       return 0;
     }
     static int close_dev(cras_iodev* iodev) {
       close_dev_called_++;
       return 0;
     }

   static struct cras_iodev *bt_iodev;
   static struct cras_iodev iodev_;
   static struct cras_iodev iodev2_;
   static unsigned int update_supported_formats_called_;
   static unsigned int frames_queued_called_;
   static unsigned int delay_frames_called_;
   static unsigned int get_buffer_called_;
   static unsigned int put_buffer_called_;
   static unsigned int open_dev_called_;
   static unsigned int close_dev_called_;
 };

 struct cras_iodev *BtIoBasicSuite::bt_iodev;
 struct cras_iodev BtIoBasicSuite::iodev_;
 struct cras_iodev BtIoBasicSuite::iodev2_;
 unsigned int BtIoBasicSuite::update_supported_formats_called_;
 unsigned int BtIoBasicSuite::frames_queued_called_;
 unsigned int BtIoBasicSuite::delay_frames_called_;
 unsigned int BtIoBasicSuite::get_buffer_called_;
 unsigned int BtIoBasicSuite::put_buffer_called_;
 unsigned int BtIoBasicSuite::open_dev_called_;
 unsigned int BtIoBasicSuite::close_dev_called_;

 TEST_F(BtIoBasicSuite, CreateBtIo) {
   struct cras_audio_area *fake_area;
   struct cras_audio_format fake_fmt;
   struct timespec tstamp;
   unsigned fr;
   bt_iodev = cras_bt_io_create(fake_device, &iodev_,
       CRAS_BT_DEVICE_PROFILE_A2DP_SOURCE);
   EXPECT_NE((void *)NULL, bt_iodev);
   EXPECT_EQ(&iodev_, active_profile_dev(bt_iodev));
   EXPECT_EQ(1, cras_iodev_list_add_output_called);
   bt_iodev->format = &fake_fmt;
   bt_iodev->update_supported_formats(bt_iodev);
   EXPECT_EQ(1, update_supported_formats_called_);

   bt_iodev->open_dev(bt_iodev);
   EXPECT_EQ(1, open_dev_called_);
   bt_iodev->frames_queued(bt_iodev, &tstamp);
   EXPECT_EQ(1, frames_queued_called_);
   bt_iodev->get_buffer(bt_iodev, &fake_area, &fr);
   EXPECT_EQ(1, get_buffer_called_);
   bt_iodev->put_buffer(bt_iodev, fr);
   EXPECT_EQ(1, put_buffer_called_);
   bt_iodev->close_dev(bt_iodev);
   EXPECT_EQ(1, close_dev_called_);
   EXPECT_EQ(1, cras_iodev_free_format_called);
   cras_bt_io_destroy(bt_iodev);
   EXPECT_EQ(1, cras_iodev_list_rm_output_called);
 }

 TEST_F(BtIoBasicSuite, SwitchProfileOnUpdateFormatForInputDev) {
   ResetStubData();
   iodev_.direction = CRAS_STREAM_INPUT;
   bt_iodev = cras_bt_io_create(fake_device, &iodev_,
       CRAS_BT_DEVICE_PROFILE_HFP_AUDIOGATEWAY);

   cras_bt_device_get_active_profile_ret = CRAS_BT_DEVICE_PROFILE_A2DP_SOURCE;
   bt_iodev->update_supported_formats(bt_iodev);

   EXPECT_EQ(CRAS_BT_DEVICE_PROFILE_HSP_AUDIOGATEWAY |
             CRAS_BT_DEVICE_PROFILE_HFP_AUDIOGATEWAY,
             cras_bt_device_set_active_profile_val);
   EXPECT_EQ(1, cras_bt_device_switch_profile_enable_dev_called);
 }

 TEST_F(BtIoBasicSuite, NoSwitchProfileOnUpdateFormatForInputDevAlreadyOnHfp) {
   ResetStubData();
   iodev_.direction = CRAS_STREAM_INPUT;
   bt_iodev = cras_bt_io_create(fake_device, &iodev_,
       CRAS_BT_DEVICE_PROFILE_HFP_AUDIOGATEWAY);

   /* No need to switch profile if already on HFP. */
   cras_bt_device_get_active_profile_ret =
       CRAS_BT_DEVICE_PROFILE_HFP_AUDIOGATEWAY;
   bt_iodev->update_supported_formats(bt_iodev);

   EXPECT_EQ(0, cras_bt_device_switch_profile_enable_dev_called);
 }

 TEST_F(BtIoBasicSuite, SwitchProfileOnCloseInputDev) {
   ResetStubData();
   iodev_.direction = CRAS_STREAM_INPUT;
   bt_iodev = cras_bt_io_create(fake_device, &iodev_,
       CRAS_BT_DEVICE_PROFILE_HFP_AUDIOGATEWAY);

   cras_bt_device_get_active_profile_ret =
       CRAS_BT_DEVICE_PROFILE_HFP_AUDIOGATEWAY |
       CRAS_BT_DEVICE_PROFILE_HSP_AUDIOGATEWAY;
   cras_bt_device_has_a2dp_ret = 1;
   bt_iodev->close_dev(bt_iodev);

   EXPECT_EQ(CRAS_BT_DEVICE_PROFILE_A2DP_SOURCE,
             cras_bt_device_set_active_profile_val);
   EXPECT_EQ(1, cras_bt_device_switch_profile_called);
 }

 TEST_F(BtIoBasicSuite, NoSwitchProfileOnCloseInputDevNoSupportA2dp) {
   ResetStubData();
   iodev_.direction = CRAS_STREAM_INPUT;
   bt_iodev = cras_bt_io_create(fake_device, &iodev_,
       CRAS_BT_DEVICE_PROFILE_HFP_AUDIOGATEWAY);

   cras_bt_device_get_active_profile_ret =
       CRAS_BT_DEVICE_PROFILE_HFP_AUDIOGATEWAY |
       CRAS_BT_DEVICE_PROFILE_HSP_AUDIOGATEWAY;
   cras_bt_device_has_a2dp_ret = 0;
   bt_iodev->close_dev(bt_iodev);

   EXPECT_EQ(0, cras_bt_device_switch_profile_called);
 }

 TEST_F(BtIoBasicSuite, SwitchProfileOnAppendA2dpDev) {
   ResetStubData();
   bt_iodev = cras_bt_io_create(fake_device, &iodev_,
       CRAS_BT_DEVICE_PROFILE_HFP_AUDIOGATEWAY);

   cras_bt_device_can_switch_to_a2dp_ret = 1;
   cras_bt_io_append(bt_iodev, &iodev2_,
       CRAS_BT_DEVICE_PROFILE_A2DP_SOURCE);

   EXPECT_EQ(CRAS_BT_DEVICE_PROFILE_A2DP_SOURCE,
             cras_bt_device_set_active_profile_val);
   EXPECT_EQ(0, cras_bt_device_switch_profile_enable_dev_called);
   EXPECT_EQ(1, cras_bt_device_switch_profile_called);
 }

 TEST_F(BtIoBasicSuite, NoSwitchProfileOnAppendHfpDev) {
   ResetStubData();
   bt_iodev = cras_bt_io_create(fake_device, &iodev_,
       CRAS_BT_DEVICE_PROFILE_A2DP_SOURCE);

   cras_bt_device_can_switch_to_a2dp_ret = 1;
   cras_bt_io_append(bt_iodev, &iodev2_,
       CRAS_BT_DEVICE_PROFILE_HFP_AUDIOGATEWAY);

   EXPECT_EQ(0, cras_bt_device_switch_profile_enable_dev_called);
 }

 TEST_F(BtIoBasicSuite, CreateSetDeviceActiveProfileToA2DP) {
   ResetStubData();
   cras_bt_device_get_active_profile_ret =
       CRAS_BT_DEVICE_PROFILE_HFP_AUDIOGATEWAY;
   cras_bt_device_can_switch_to_a2dp_ret = 1;
   bt_iodev = cras_bt_io_create(fake_device, &iodev_,
       CRAS_BT_DEVICE_PROFILE_A2DP_SOURCE);

   EXPECT_EQ(1, cras_bt_device_set_active_profile_called);
   EXPECT_EQ(CRAS_BT_DEVICE_PROFILE_A2DP_SOURCE,
       cras_bt_device_set_active_profile_val);
   cras_bt_io_destroy(bt_iodev);
 }

 TEST_F(BtIoBasicSuite, CreateNoSetDeviceActiveProfileToA2DP) {
   ResetStubData();
   cras_bt_device_get_active_profile_ret =
       CRAS_BT_DEVICE_PROFILE_HFP_AUDIOGATEWAY;
   cras_bt_device_can_switch_to_a2dp_ret = 0;
   bt_iodev = cras_bt_io_create(fake_device, &iodev_,
       CRAS_BT_DEVICE_PROFILE_A2DP_SOURCE);

   EXPECT_EQ(0, cras_bt_device_set_active_profile_called);
   cras_bt_io_destroy(bt_iodev);
 }

 TEST_F(BtIoBasicSuite, CreateSetDeviceActiveProfileToHFP) {
   ResetStubData();
   cras_bt_device_get_active_profile_ret = 0;
   bt_iodev = cras_bt_io_create(fake_device, &iodev_,
       CRAS_BT_DEVICE_PROFILE_HFP_AUDIOGATEWAY);

   EXPECT_EQ(
       CRAS_BT_DEVICE_PROFILE_HFP_AUDIOGATEWAY |
           CRAS_BT_DEVICE_PROFILE_HSP_AUDIOGATEWAY,
       cras_bt_device_set_active_profile_val);
   cras_bt_io_destroy(bt_iodev);
 }

 TEST_F(BtIoBasicSuite, CreateDeviceWithInvalidUTF8Name) {
   ResetStubData();
   strcpy(iodev_.info.name, "Something BT");
   iodev_.info.name[0] = 0xfe;
   is_utf8_string_ret_value = 0;
   bt_iodev = cras_bt_io_create(fake_device, &iodev_,
       CRAS_BT_DEVICE_PROFILE_A2DP_SOURCE);

   ASSERT_STREQ("BLUETOOTH", bt_iodev->active_node->name);
 }

 } // namespace

 int main(int argc, char **argv) {
   ::testing::InitGoogleTest(&argc, argv);
   return RUN_ALL_TESTS();
 }

 extern "C" {

 // Cras iodev
 void cras_iodev_add_node(struct cras_iodev *iodev, struct cras_ionode *node)
 {
   cras_iodev_add_node_called++;
   iodev->nodes = node;
 }

 void cras_iodev_rm_node(struct cras_iodev *iodev, struct cras_ionode *node)
 {
   cras_iodev_rm_node_called++;
   iodev->nodes = NULL;
 }

 void cras_iodev_free_format(struct cras_iodev *iodev)
 {
   cras_iodev_free_format_called++;
 }

 void cras_iodev_set_active_node(struct cras_iodev *iodev,
         struct cras_ionode *node)
 {
   cras_iodev_set_active_node_called++;
   iodev->active_node = node;
 }

 int cras_iodev_set_node_attr(struct cras_ionode *ionode,
            enum ionode_attr attr, int value)
 {
   return 0;
 }

 //  From iodev list.
 int cras_iodev_list_add_output(struct cras_iodev *output)
 {
   cras_iodev_list_add_output_called++;
   return 0;
 }

 int cras_iodev_list_rm_output(struct cras_iodev *dev)
 {
   cras_iodev_list_rm_output_called++;
   return 0;
 }

 int cras_iodev_list_add_input(struct cras_iodev *output)
 {
   cras_iodev_list_add_input_called++;
   return 0;
 }

 int cras_iodev_list_rm_input(struct cras_iodev *dev)
 {
   cras_iodev_list_rm_input_called++;
   return 0;
 }

 // From bt device
 int cras_bt_device_get_active_profile(const struct cras_bt_device *device)
 {
   return cras_bt_device_get_active_profile_ret;
 }

 void cras_bt_device_set_active_profile(struct cras_bt_device *device,
                                        unsigned int profile)
 {
   cras_bt_device_set_active_profile_called++;
   cras_bt_device_set_active_profile_val = profile;
 }

 int cras_bt_device_has_a2dp(struct cras_bt_device *device)
 {
   return cras_bt_device_has_a2dp_ret;
 }

 int cras_bt_device_can_switch_to_a2dp(struct cras_bt_device *device)
 {
   return cras_bt_device_can_switch_to_a2dp_ret;
 }

 int cras_bt_device_switch_profile(struct cras_bt_device *device,
             struct cras_iodev *bt_iodev)
 {
   cras_bt_device_switch_profile_called++;
   return 0;
 }

 int cras_bt_device_switch_profile_enable_dev(struct cras_bt_device *device,
             struct cras_iodev *bt_iodev)
 {
   cras_bt_device_switch_profile_enable_dev_called++;
   return 0;
 }

 const char *cras_bt_device_object_path(const struct cras_bt_device *device)
 {
   return "/fake/object/path";
 }

 int is_utf8_string(const char* string)
 {
   return is_utf8_string_ret_value;
 }

 int cras_iodev_default_no_stream_playback(struct cras_iodev *odev, int enable)
 {
   return 0;
 }

 } // extern "C"
	// Copyright (c) 2014 The Chromium OS 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 <gtest/gtest.h>

	extern "C" {

	// To test static functions.
	#include "cras_bt_io.c"
	}

	static struct cras_bt_device *fake_device =
	reinterpret_cast<struct cras_bt_device*>(0x123);
	static unsigned int cras_iodev_add_node_called;
	static unsigned int cras_iodev_rm_node_called;
	static unsigned int cras_iodev_free_format_called;
	static unsigned int cras_iodev_set_active_node_called;
	static unsigned int cras_iodev_list_add_output_called;
	static unsigned int cras_iodev_list_rm_output_called;
	static unsigned int cras_iodev_list_add_input_called;
	static unsigned int cras_iodev_list_rm_input_called;
	static unsigned int cras_bt_device_set_active_profile_called;
	static unsigned int cras_bt_device_set_active_profile_val;
	static int cras_bt_device_get_active_profile_ret;
	static int cras_bt_device_switch_profile_enable_dev_called;
	static int cras_bt_device_switch_profile_called;
	static int cras_bt_device_can_switch_to_a2dp_ret;
	static int cras_bt_device_has_a2dp_ret;
	static int is_utf8_string_ret_value;

	void ResetStubData() {
	cras_iodev_add_node_called = 0;
	cras_iodev_rm_node_called = 0;
	cras_iodev_free_format_called = 0;
	cras_iodev_set_active_node_called = 0;
	cras_iodev_list_add_output_called = 0;
	cras_iodev_list_rm_output_called = 0;
	cras_iodev_list_add_input_called = 0;
	cras_iodev_list_rm_input_called = 0;
	cras_bt_device_set_active_profile_called = 0;
	cras_bt_device_set_active_profile_val = 0;
	cras_bt_device_get_active_profile_ret = 0;
	cras_bt_device_switch_profile_enable_dev_called= 0;
	cras_bt_device_switch_profile_called = 0;
	cras_bt_device_can_switch_to_a2dp_ret = 0;
	cras_bt_device_has_a2dp_ret = 0;
	is_utf8_string_ret_value = 1;
	}

	namespace {

	class BtIoBasicSuite : public testing::Test {
	protected:
	virtual void SetUp() {
	ResetStubData();
	SetUpIodev(&iodev_, CRAS_STREAM_OUTPUT);
	SetUpIodev(&iodev2_, CRAS_STREAM_OUTPUT);

	update_supported_formats_called_ = 0;
	frames_queued_called_ = 0;
	delay_frames_called_ = 0;
	get_buffer_called_ = 0;
	put_buffer_called_ = 0;
	open_dev_called_ = 0;
	close_dev_called_ = 0;
	}

	virtual void TearDown() {
	}

	static void SetUpIodev(struct cras_iodev *d,
	enum CRAS_STREAM_DIRECTION dir) {
	d->direction = dir;
	d->update_supported_formats = update_supported_formats;
	d->frames_queued = frames_queued;
	d->delay_frames = delay_frames;
	d->get_buffer = get_buffer;
	d->put_buffer = put_buffer;
	d->open_dev = open_dev;
	d->close_dev = close_dev;
	}

	// Stub functions for the iodev structure.
	static int update_supported_formats(struct cras_iodev *iodev) {
	iodev->supported_rates = (size_t *)calloc(
	2, sizeof(*iodev->supported_rates));
	iodev->supported_rates[0] = 48000;
	iodev->supported_rates[1] = 0;
	iodev->supported_channel_counts = (size_t *)calloc(
	2, sizeof(*iodev->supported_channel_counts));
	iodev->supported_channel_counts[0] = 2;
	iodev->supported_channel_counts[1] = 0;
	iodev->supported_formats = (snd_pcm_format_t *)calloc(
	2, sizeof(*iodev->supported_formats));
	iodev->supported_formats[0] = SND_PCM_FORMAT_S16_LE;
	iodev->supported_formats[1] = (snd_pcm_format_t)0;
	update_supported_formats_called_++;
	return 0;
	}
	static int frames_queued(const cras_iodev* iodev,
	struct timespec *tstamp) {
	frames_queued_called_++;
	return 0;
	}
	static int delay_frames(const cras_iodev* iodev) {
	delay_frames_called_++;
	return 0;
	}
	static int get_buffer(cras_iodev* iodev,
	struct cras_audio_area** area,
	unsigned int* num) {
	get_buffer_called_++;
	return 0;
	}
	static int put_buffer(cras_iodev* iodev,
	unsigned int num) {
	put_buffer_called_++;
	return 0;
	}
	static int open_dev(cras_iodev* iodev) {
	open_dev_called_++;
	return 0;
	}
	static int close_dev(cras_iodev* iodev) {
	close_dev_called_++;
	return 0;
	}

	static struct cras_iodev *bt_iodev;
	static struct cras_iodev iodev_;
	static struct cras_iodev iodev2_;
	static unsigned int update_supported_formats_called_;
	static unsigned int frames_queued_called_;
	static unsigned int delay_frames_called_;
	static unsigned int get_buffer_called_;
	static unsigned int put_buffer_called_;
	static unsigned int open_dev_called_;
	static unsigned int close_dev_called_;
	};

	struct cras_iodev *BtIoBasicSuite::bt_iodev;
	struct cras_iodev BtIoBasicSuite::iodev_;
	struct cras_iodev BtIoBasicSuite::iodev2_;
	unsigned int BtIoBasicSuite::update_supported_formats_called_;
	unsigned int BtIoBasicSuite::frames_queued_called_;
	unsigned int BtIoBasicSuite::delay_frames_called_;
	unsigned int BtIoBasicSuite::get_buffer_called_;
	unsigned int BtIoBasicSuite::put_buffer_called_;
	unsigned int BtIoBasicSuite::open_dev_called_;
	unsigned int BtIoBasicSuite::close_dev_called_;

	TEST_F(BtIoBasicSuite, CreateBtIo) {
	struct cras_audio_area *fake_area;
	struct cras_audio_format fake_fmt;
	struct timespec tstamp;
	unsigned fr;
	bt_iodev = cras_bt_io_create(fake_device, &iodev_,
	CRAS_BT_DEVICE_PROFILE_A2DP_SOURCE);
	EXPECT_NE((void *)NULL, bt_iodev);
	EXPECT_EQ(&iodev_, active_profile_dev(bt_iodev));
	EXPECT_EQ(1, cras_iodev_list_add_output_called);
	bt_iodev->format = &fake_fmt;
	bt_iodev->update_supported_formats(bt_iodev);
	EXPECT_EQ(1, update_supported_formats_called_);

	bt_iodev->open_dev(bt_iodev);
	EXPECT_EQ(1, open_dev_called_);
	bt_iodev->frames_queued(bt_iodev, &tstamp);
	EXPECT_EQ(1, frames_queued_called_);
	bt_iodev->get_buffer(bt_iodev, &fake_area, &fr);
	EXPECT_EQ(1, get_buffer_called_);
	bt_iodev->put_buffer(bt_iodev, fr);
	EXPECT_EQ(1, put_buffer_called_);
	bt_iodev->close_dev(bt_iodev);
	EXPECT_EQ(1, close_dev_called_);
	EXPECT_EQ(1, cras_iodev_free_format_called);
	cras_bt_io_destroy(bt_iodev);
	EXPECT_EQ(1, cras_iodev_list_rm_output_called);
	}

	TEST_F(BtIoBasicSuite, SwitchProfileOnUpdateFormatForInputDev) {
	ResetStubData();
	iodev_.direction = CRAS_STREAM_INPUT;
	bt_iodev = cras_bt_io_create(fake_device, &iodev_,
	CRAS_BT_DEVICE_PROFILE_HFP_AUDIOGATEWAY);

	cras_bt_device_get_active_profile_ret = CRAS_BT_DEVICE_PROFILE_A2DP_SOURCE;
	bt_iodev->update_supported_formats(bt_iodev);

	EXPECT_EQ(CRAS_BT_DEVICE_PROFILE_HSP_AUDIOGATEWAY \|
	CRAS_BT_DEVICE_PROFILE_HFP_AUDIOGATEWAY,
	cras_bt_device_set_active_profile_val);
	EXPECT_EQ(1, cras_bt_device_switch_profile_enable_dev_called);
	}

	TEST_F(BtIoBasicSuite, NoSwitchProfileOnUpdateFormatForInputDevAlreadyOnHfp) {
	ResetStubData();
	iodev_.direction = CRAS_STREAM_INPUT;
	bt_iodev = cras_bt_io_create(fake_device, &iodev_,
	CRAS_BT_DEVICE_PROFILE_HFP_AUDIOGATEWAY);

	/* No need to switch profile if already on HFP. */
	cras_bt_device_get_active_profile_ret =
	CRAS_BT_DEVICE_PROFILE_HFP_AUDIOGATEWAY;
	bt_iodev->update_supported_formats(bt_iodev);

	EXPECT_EQ(0, cras_bt_device_switch_profile_enable_dev_called);
	}

	TEST_F(BtIoBasicSuite, SwitchProfileOnCloseInputDev) {
	ResetStubData();
	iodev_.direction = CRAS_STREAM_INPUT;
	bt_iodev = cras_bt_io_create(fake_device, &iodev_,
	CRAS_BT_DEVICE_PROFILE_HFP_AUDIOGATEWAY);

	cras_bt_device_get_active_profile_ret =
	CRAS_BT_DEVICE_PROFILE_HFP_AUDIOGATEWAY \|
	CRAS_BT_DEVICE_PROFILE_HSP_AUDIOGATEWAY;
	cras_bt_device_has_a2dp_ret = 1;
	bt_iodev->close_dev(bt_iodev);

	EXPECT_EQ(CRAS_BT_DEVICE_PROFILE_A2DP_SOURCE,
	cras_bt_device_set_active_profile_val);
	EXPECT_EQ(1, cras_bt_device_switch_profile_called);
	}

	TEST_F(BtIoBasicSuite, NoSwitchProfileOnCloseInputDevNoSupportA2dp) {
	ResetStubData();
	iodev_.direction = CRAS_STREAM_INPUT;
	bt_iodev = cras_bt_io_create(fake_device, &iodev_,
	CRAS_BT_DEVICE_PROFILE_HFP_AUDIOGATEWAY);

	cras_bt_device_get_active_profile_ret =
	CRAS_BT_DEVICE_PROFILE_HFP_AUDIOGATEWAY \|
	CRAS_BT_DEVICE_PROFILE_HSP_AUDIOGATEWAY;
	cras_bt_device_has_a2dp_ret = 0;
	bt_iodev->close_dev(bt_iodev);

	EXPECT_EQ(0, cras_bt_device_switch_profile_called);
	}

	TEST_F(BtIoBasicSuite, SwitchProfileOnAppendA2dpDev) {
	ResetStubData();
	bt_iodev = cras_bt_io_create(fake_device, &iodev_,
	CRAS_BT_DEVICE_PROFILE_HFP_AUDIOGATEWAY);

	cras_bt_device_can_switch_to_a2dp_ret = 1;
	cras_bt_io_append(bt_iodev, &iodev2_,
	CRAS_BT_DEVICE_PROFILE_A2DP_SOURCE);

	EXPECT_EQ(CRAS_BT_DEVICE_PROFILE_A2DP_SOURCE,
	cras_bt_device_set_active_profile_val);
	EXPECT_EQ(0, cras_bt_device_switch_profile_enable_dev_called);
	EXPECT_EQ(1, cras_bt_device_switch_profile_called);
	}

	TEST_F(BtIoBasicSuite, NoSwitchProfileOnAppendHfpDev) {
	ResetStubData();
	bt_iodev = cras_bt_io_create(fake_device, &iodev_,
	CRAS_BT_DEVICE_PROFILE_A2DP_SOURCE);

	cras_bt_device_can_switch_to_a2dp_ret = 1;
	cras_bt_io_append(bt_iodev, &iodev2_,
	CRAS_BT_DEVICE_PROFILE_HFP_AUDIOGATEWAY);

	EXPECT_EQ(0, cras_bt_device_switch_profile_enable_dev_called);
	}

	TEST_F(BtIoBasicSuite, CreateSetDeviceActiveProfileToA2DP) {
	ResetStubData();
	cras_bt_device_get_active_profile_ret =
	CRAS_BT_DEVICE_PROFILE_HFP_AUDIOGATEWAY;
	cras_bt_device_can_switch_to_a2dp_ret = 1;
	bt_iodev = cras_bt_io_create(fake_device, &iodev_,
	CRAS_BT_DEVICE_PROFILE_A2DP_SOURCE);

	EXPECT_EQ(1, cras_bt_device_set_active_profile_called);
	EXPECT_EQ(CRAS_BT_DEVICE_PROFILE_A2DP_SOURCE,
	cras_bt_device_set_active_profile_val);
	cras_bt_io_destroy(bt_iodev);
	}

	TEST_F(BtIoBasicSuite, CreateNoSetDeviceActiveProfileToA2DP) {
	ResetStubData();
	cras_bt_device_get_active_profile_ret =
	CRAS_BT_DEVICE_PROFILE_HFP_AUDIOGATEWAY;
	cras_bt_device_can_switch_to_a2dp_ret = 0;
	bt_iodev = cras_bt_io_create(fake_device, &iodev_,
	CRAS_BT_DEVICE_PROFILE_A2DP_SOURCE);

	EXPECT_EQ(0, cras_bt_device_set_active_profile_called);
	cras_bt_io_destroy(bt_iodev);
	}

	TEST_F(BtIoBasicSuite, CreateSetDeviceActiveProfileToHFP) {
	ResetStubData();
	cras_bt_device_get_active_profile_ret = 0;
	bt_iodev = cras_bt_io_create(fake_device, &iodev_,
	CRAS_BT_DEVICE_PROFILE_HFP_AUDIOGATEWAY);

	EXPECT_EQ(
	CRAS_BT_DEVICE_PROFILE_HFP_AUDIOGATEWAY \|
	CRAS_BT_DEVICE_PROFILE_HSP_AUDIOGATEWAY,
	cras_bt_device_set_active_profile_val);
	cras_bt_io_destroy(bt_iodev);
	}

	TEST_F(BtIoBasicSuite, CreateDeviceWithInvalidUTF8Name) {
	ResetStubData();
	strcpy(iodev_.info.name, "Something BT");
	iodev_.info.name[0] = 0xfe;
	is_utf8_string_ret_value = 0;
	bt_iodev = cras_bt_io_create(fake_device, &iodev_,
	CRAS_BT_DEVICE_PROFILE_A2DP_SOURCE);

	ASSERT_STREQ("BLUETOOTH", bt_iodev->active_node->name);
	}

	} // namespace

	int main(int argc, char **argv) {
	::testing::InitGoogleTest(&argc, argv);
	return RUN_ALL_TESTS();
	}

	extern "C" {

	// Cras iodev
	void cras_iodev_add_node(struct cras_iodev iodev, struct cras_ionode node)
	{
	cras_iodev_add_node_called++;
	iodev->nodes = node;
	}

	void cras_iodev_rm_node(struct cras_iodev iodev, struct cras_ionode node)
	{
	cras_iodev_rm_node_called++;
	iodev->nodes = NULL;
	}

	void cras_iodev_free_format(struct cras_iodev *iodev)
	{
	cras_iodev_free_format_called++;
	}

	void cras_iodev_set_active_node(struct cras_iodev *iodev,
	struct cras_ionode *node)
	{
	cras_iodev_set_active_node_called++;
	iodev->active_node = node;
	}

	int cras_iodev_set_node_attr(struct cras_ionode *ionode,
	enum ionode_attr attr, int value)
	{
	return 0;
	}

	// From iodev list.
	int cras_iodev_list_add_output(struct cras_iodev *output)
	{
	cras_iodev_list_add_output_called++;
	return 0;
	}

	int cras_iodev_list_rm_output(struct cras_iodev *dev)
	{
	cras_iodev_list_rm_output_called++;
	return 0;
	}

	int cras_iodev_list_add_input(struct cras_iodev *output)
	{
	cras_iodev_list_add_input_called++;
	return 0;
	}

	int cras_iodev_list_rm_input(struct cras_iodev *dev)
	{
	cras_iodev_list_rm_input_called++;
	return 0;
	}

	// From bt device
	int cras_bt_device_get_active_profile(const struct cras_bt_device *device)
	{
	return cras_bt_device_get_active_profile_ret;
	}

	void cras_bt_device_set_active_profile(struct cras_bt_device *device,
	unsigned int profile)
	{
	cras_bt_device_set_active_profile_called++;
	cras_bt_device_set_active_profile_val = profile;
	}

	int cras_bt_device_has_a2dp(struct cras_bt_device *device)
	{
	return cras_bt_device_has_a2dp_ret;
	}

	int cras_bt_device_can_switch_to_a2dp(struct cras_bt_device *device)
	{
	return cras_bt_device_can_switch_to_a2dp_ret;
	}

	int cras_bt_device_switch_profile(struct cras_bt_device *device,
	struct cras_iodev *bt_iodev)
	{
	cras_bt_device_switch_profile_called++;
	return 0;
	}

	int cras_bt_device_switch_profile_enable_dev(struct cras_bt_device *device,
	struct cras_iodev *bt_iodev)
	{
	cras_bt_device_switch_profile_enable_dev_called++;
	return 0;
	}

	const char cras_bt_device_object_path(const struct cras_bt_device device)
	{
	return "/fake/object/path";
	}

	int is_utf8_string(const char* string)
	{
	return is_utf8_string_ret_value;
	}

	int cras_iodev_default_no_stream_playback(struct cras_iodev *odev, int enable)
	{
	return 0;
	}

	} // extern "C"