bt/service/hal/bluetooth_interface.cc - nest-cam/4320010/flouride_bluetooth - Git at Google

 //
 //  Copyright (C) 2015 Google, Inc.
 //
 //  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 "service/hal/bluetooth_interface.h"

 #include <mutex>
 #define _LIBCPP_BUILDING_SHARED_MUTEX
 #include <shared_mutex>
 #undef _LIBCPP_BUILDING_SHARED_MUTEX

 #include <base/logging.h>
 #include <base/observer_list.h>

 #include "service/logging_helpers.h"

 #include "btcore/include/hal_util.h"

 using std::lock_guard;
 using std::unique_lock;
 using std::shared_lock;
 using std::mutex;
 using std::shared_timed_mutex;

 namespace bluetooth {
 namespace hal {

 namespace {

 // The global BluetoothInterface instance.
 BluetoothInterface* g_bluetooth_interface = nullptr;

 // Mutex used by callbacks to access |g_interface|. If we initialize or clean it
 // use unique_lock. If only accessing |g_interface| use shared lock.
 //TODO(jpawlowski): this should be just shared_mutex, as we currently don't use
 // timed methods. Change to shared_mutex when we upgrade to C++14
 shared_timed_mutex g_instance_lock;

 // Helper for obtaining the observer list. This is forward declared here and
 // defined below since it depends on BluetoothInterfaceImpl.
 base::ObserverList<BluetoothInterface::Observer>* GetObservers();

 #define FOR_EACH_BLUETOOTH_OBSERVER(func) \
   FOR_EACH_OBSERVER(BluetoothInterface::Observer, *GetObservers(), func)

 #define VERIFY_INTERFACE_OR_RETURN() \
   do { \
     if (!g_bluetooth_interface) { \
       LOG(WARNING) << "Callback received while |g_interface| is NULL"; \
       return; \
     } \
   } while (0)

 void AdapterStateChangedCallback(bt_state_t state) {
   shared_lock<shared_timed_mutex> lock(g_instance_lock);
   VERIFY_INTERFACE_OR_RETURN();
   VLOG(1) << "Adapter state changed: " << BtStateText(state);
   FOR_EACH_BLUETOOTH_OBSERVER(AdapterStateChangedCallback(state));
 }

 void AdapterPropertiesCallback(bt_status_t status,
                                int num_properties,
                                bt_property_t* properties) {
   shared_lock<shared_timed_mutex> lock(g_instance_lock);
   VERIFY_INTERFACE_OR_RETURN();
   VLOG(1) << "Adapter properties changed - status: " << BtStatusText(status)
           << ", num_properties: " << num_properties;
   FOR_EACH_BLUETOOTH_OBSERVER(
       AdapterPropertiesCallback(status, num_properties, properties));
 }

 void RemoteDevicePropertiesCallback(bt_status_t status,
                                bt_bdaddr_t *remote_bd_addr,
                                int num_properties,
                                bt_property_t* properties) {
   shared_lock<shared_timed_mutex> lock(g_instance_lock);
   VERIFY_INTERFACE_OR_RETURN();
   VLOG(1) << " Remote device properties changed - status: " << BtStatusText(status)
           << " - BD_ADDR: " << BtAddrString(remote_bd_addr)
           << ", num_properties: " << num_properties;
   FOR_EACH_BLUETOOTH_OBSERVER(
       RemoteDevicePropertiesCallback(status, remote_bd_addr, num_properties,
                                      properties));
 }

 void DiscoveryStateChangedCallback(bt_discovery_state_t state) {
   shared_lock<shared_timed_mutex> lock(g_instance_lock);
   VERIFY_INTERFACE_OR_RETURN();
   VLOG(1) << "Discovery state changed - state: " << BtDiscoveryStateText(state);
   FOR_EACH_BLUETOOTH_OBSERVER(DiscoveryStateChangedCallback(state));
 }

 void PinRequestCallback(bt_bdaddr_t *remote_bd_addr, bt_bdname_t *bd_name,
     uint32_t cod, bool min_16_digit) {
   shared_lock<shared_timed_mutex> lock(g_instance_lock);
   VERIFY_INTERFACE_OR_RETURN();
   VLOG(2) << __func__
           << " - remote_bd_addr: " << remote_bd_addr
           << " - bd_name: " << bd_name
           << " - cod: " << cod
           << " - min_16_digit: " << min_16_digit;
   FOR_EACH_BLUETOOTH_OBSERVER(PinRequestCallback(remote_bd_addr, bd_name, cod, min_16_digit));
 }

 void SSPRequestCallback(bt_bdaddr_t *remote_bd_addr,
     bt_bdname_t *bd_name, uint32_t cod, bt_ssp_variant_t pairing_variant, uint32_t pass_key) {
   shared_lock<shared_timed_mutex> lock(g_instance_lock);
   VERIFY_INTERFACE_OR_RETURN();
   VLOG(2) << __func__
           << " - remote_bd_addr: " << remote_bd_addr
           << " - bd_name: " << bd_name
           << " - cod: " << cod
           << " - pairing_variant: " << pairing_variant;
   FOR_EACH_BLUETOOTH_OBSERVER(SSPRequestCallback(remote_bd_addr, bd_name, cod,
       pairing_variant, pass_key));
 }

 void BondStateChangedCallback(
     bt_status_t status,
     bt_bdaddr_t *remote_bd_addr,
     bt_bond_state_t state) {
   shared_lock<shared_timed_mutex> lock(g_instance_lock);
   VERIFY_INTERFACE_OR_RETURN();
   VLOG(2) << __func__
           << " - remote_bd_addr: " << BtAddrString(remote_bd_addr)
           << " - status: " << status
           << " - state: " << state;
   FOR_EACH_BLUETOOTH_OBSERVER(BondStateChangedCallback(status, remote_bd_addr, state));
 }

 void AclStateChangedCallback(bt_status_t status,
                              bt_bdaddr_t *remote_bd_addr,
                              bt_acl_state_t state) {
   shared_lock<shared_timed_mutex> lock(g_instance_lock);
   VERIFY_INTERFACE_OR_RETURN();
   CHECK(remote_bd_addr);
   VLOG(1) << "Remote device ACL state changed - status: "
           << BtStatusText(status)
           << " - BD_ADDR: " << BtAddrString(remote_bd_addr)
           << " - state: "
           << ((state == BT_ACL_STATE_CONNECTED) ? "CONNECTED" : "DISCONNECTED");
   FOR_EACH_BLUETOOTH_OBSERVER(
       AclStateChangedCallback(status, *remote_bd_addr, state));
 }

 void ThreadEventCallback(bt_cb_thread_evt evt) {
   VLOG(1) << "ThreadEventCallback" << BtEventText(evt);

   // TODO(armansito): This callback is completely useless to us but btif borks
   // out if this is not set. Consider making this optional.
 }

 bool SetWakeAlarmCallout(uint64_t /* delay_millis */,
                          bool /* should_wake */,
                          alarm_cb /* cb */,
                          void* /* data */) {
   // TODO(armansito): According to sharvil@, this interface doesn't even need to
   // exist and can be done entirely from within osi by interfacing directly with
   // the kernel. Remove these stubs once that's fixed. (See http://b/23390297)
   return false;
 }

 int AcquireWakeLockCallout(const char* /* lock_name */) {
   // TODO(armansito): According to sharvil@, this interface doesn't even need to
   // exist and can be done entirely from within osi by interfacing directly with
   // the kernel. Remove these stubs once that's fixed. (See http://b/23390297)
   // Lie here and return success so that enabling and disabling the controller
   // works before this is properly implemented.
   return BT_STATUS_SUCCESS;
 }

 int ReleaseWakeLockCallout(const char* /* lock_name */) {
   // TODO(armansito): According to sharvil@, this interface doesn't even need to
   // exist and can be done entirely from within osi by interfacing directly with
   // the kernel. Remove these stubs once that's fixed. (See http://b/23390297)
   // Lie here and return success so that enabling and disabling the controller
   // works before this is properly implemented.
   return BT_STATUS_SUCCESS;
 }

 // The HAL Bluetooth DM callbacks.
 bt_callbacks_t bt_callbacks = {
   sizeof(bt_callbacks_t),
   AdapterStateChangedCallback,
   AdapterPropertiesCallback,
   RemoteDevicePropertiesCallback,
   nullptr, /* device_found_cb */
   DiscoveryStateChangedCallback,
   PinRequestCallback,
   SSPRequestCallback,
   BondStateChangedCallback,
   AclStateChangedCallback,
   ThreadEventCallback,
   nullptr, /* dut_mode_recv_cb */
   nullptr, /* le_test_mode_cb */
   nullptr  /* energy_info_cb */
 };

 bt_os_callouts_t bt_os_callouts = {
   sizeof(bt_os_callouts_t),
   SetWakeAlarmCallout,
   AcquireWakeLockCallout,
   ReleaseWakeLockCallout
 };

 }  // namespace

 // BluetoothInterface implementation for production.
 class BluetoothInterfaceImpl : public BluetoothInterface {
  public:
   BluetoothInterfaceImpl()
       : hal_iface_(nullptr),
         hal_adapter_(nullptr) {
   }

   ~BluetoothInterfaceImpl() override {
     if (hal_iface_)
         hal_iface_->cleanup();
   }

   // BluetoothInterface overrides.
   void AddObserver(Observer* observer) override {
     shared_lock<shared_timed_mutex> lock(g_instance_lock);
     observers_.AddObserver(observer);
   }

   void RemoveObserver(Observer* observer) override {
     shared_lock<shared_timed_mutex> lock(g_instance_lock);
     observers_.RemoveObserver(observer);
   }

   const bt_interface_t* GetHALInterface() const override {
     return hal_iface_;
   }

   const bluetooth_device_t* GetHALAdapter() const override {
     return hal_adapter_;
   }

   // Initialize the interface. This loads the shared Bluetooth library and sets
   // up the callbacks.
   bool Initialize() {
     // Load the Bluetooth shared library module.
     const hw_module_t* module;
     int status = hal_util_load_bt_library(&module);
     if (status) {
       LOG(ERROR) << "Failed to load Bluetooth library: " << status;
       return false;
     }

     // Open the Bluetooth adapter.
     hw_device_t* device;
     status = module->methods->open(module, BT_HARDWARE_MODULE_ID, &device);
     if (status) {
       LOG(ERROR) << "Failed to open the Bluetooth module";
       return false;
     }

     hal_adapter_ = reinterpret_cast<bluetooth_device_t*>(device);
     hal_iface_ = hal_adapter_->get_bluetooth_interface();

     // Initialize the Bluetooth interface. Set up the adapter (Bluetooth DM) API
     // callbacks.
     status = hal_iface_->init(&bt_callbacks);
     if (status != BT_STATUS_SUCCESS) {
       LOG(ERROR) << "Failed to initialize Bluetooth stack";
       return false;
     }

     status = hal_iface_->set_os_callouts(&bt_os_callouts);
     if (status != BT_STATUS_SUCCESS) {
       LOG(ERROR) << "Failed to set up Bluetooth OS callouts";
       return false;
     }

     return true;
   }

   base::ObserverList<Observer>* observers() { return &observers_; }

  private:
   // List of observers that are interested in notifications from us. We're not
   // using a base::ObserverListThreadSafe, which it posts observer events
   // automatically on the origin threads, as we want to avoid that overhead and
   // simply forward the events to the upper layer.
   base::ObserverList<Observer> observers_;

   // The HAL handle obtained from the shared library. We hold a weak reference
   // to this since the actual data resides in the shared Bluetooth library.
   const bt_interface_t* hal_iface_;

   // The HAL handle that represents the underlying Bluetooth adapter. We hold a
   // weak reference to this since the actual data resides in the shared
   // Bluetooth library.
   const bluetooth_device_t* hal_adapter_;

   DISALLOW_COPY_AND_ASSIGN(BluetoothInterfaceImpl);
 };

 namespace {

 // Helper for obtaining the observer list from the global instance. This
 // function is NOT thread safe.
 base::ObserverList<BluetoothInterface::Observer>* GetObservers() {
   CHECK(g_bluetooth_interface);
   return static_cast<BluetoothInterfaceImpl*>(
       g_bluetooth_interface)->observers();
 }

 }  // namespace

 // Default observer implementations. These are provided so that the methods
 // themselves are optional.
 void BluetoothInterface::Observer::AdapterStateChangedCallback(
     bt_state_t /* state*/) {
   // Do nothing.
 }

 void BluetoothInterface::Observer::AdapterPropertiesCallback(
     bt_status_t /* status */,
     int /* num_properties */,
     bt_property_t* /* properties */) {
   // Do nothing.
 }

 void BluetoothInterface::Observer::RemoteDevicePropertiesCallback(
     bt_status_t /* status */,
     bt_bdaddr_t* /* remote_bd_addr */,
     int /* num_properties */,
     bt_property_t* /* properties */) {
   // Do nothing.
 }

 void BluetoothInterface::Observer::DiscoveryStateChangedCallback(
     bt_discovery_state_t /* state */) {
   // Do nothing.
 }

 void BluetoothInterface::Observer::PinRequestCallback(
     bt_bdaddr_t *remote_bd_addr,
     bt_bdname_t *bd_name,
     uint32_t cod,
     bool min_16_digit) {
   // Do nothing.
 }

 void BluetoothInterface::Observer::SSPRequestCallback(
     bt_bdaddr_t *remote_bd_addr,
     bt_bdname_t *bd_name,
     uint32_t cod,
     bt_ssp_variant_t pairing_variant,
     uint32_t pass_key) {
   // Do nothing.
 }

 void BluetoothInterface::Observer::BondStateChangedCallback(
     bt_status_t status,
     bt_bdaddr_t *remote_bd_addr,
     bt_bond_state_t state) {
   // Do nothing.
 }

 void BluetoothInterface::Observer::AclStateChangedCallback(
     bt_status_t /* status */,
     const bt_bdaddr_t& /* remote_bdaddr */,
     bt_acl_state_t /* state */) {
   // Do nothing.
 }

 // static
 bool BluetoothInterface::Initialize() {
   unique_lock<shared_timed_mutex> lock(g_instance_lock);
   CHECK(!g_bluetooth_interface);

   std::unique_ptr<BluetoothInterfaceImpl> impl(new BluetoothInterfaceImpl());
   if (!impl->Initialize()) {
     LOG(ERROR) << "Failed to initialize BluetoothInterface";
     return false;
   }

   g_bluetooth_interface = impl.release();

   return true;
 }

 // static
 void BluetoothInterface::CleanUp() {
   unique_lock<shared_timed_mutex> lock(g_instance_lock);
   CHECK(g_bluetooth_interface);

   delete g_bluetooth_interface;
   g_bluetooth_interface = nullptr;
 }

 // static
 bool BluetoothInterface::IsInitialized() {
   shared_lock<shared_timed_mutex> lock(g_instance_lock);

   return g_bluetooth_interface != nullptr;
 }

 // static
 BluetoothInterface* BluetoothInterface::Get() {
   shared_lock<shared_timed_mutex> lock(g_instance_lock);
   CHECK(g_bluetooth_interface);
   return g_bluetooth_interface;
 }

 // static
 void BluetoothInterface::InitializeForTesting(
     BluetoothInterface* test_instance) {
   unique_lock<shared_timed_mutex> lock(g_instance_lock);
   CHECK(test_instance);
   CHECK(!g_bluetooth_interface);

   g_bluetooth_interface = test_instance;
 }

 }  // namespace hal
 }  // namespace bluetooth
	//
	// Copyright (C) 2015 Google, Inc.
	//
	// 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 "service/hal/bluetooth_interface.h"

	#include <mutex>
	#define _LIBCPP_BUILDING_SHARED_MUTEX
	#include <shared_mutex>
	#undef _LIBCPP_BUILDING_SHARED_MUTEX

	#include <base/logging.h>
	#include <base/observer_list.h>

	#include "service/logging_helpers.h"

	#include "btcore/include/hal_util.h"

	using std::lock_guard;
	using std::unique_lock;
	using std::shared_lock;
	using std::mutex;
	using std::shared_timed_mutex;

	namespace bluetooth {
	namespace hal {

	namespace {

	// The global BluetoothInterface instance.
	BluetoothInterface* g_bluetooth_interface = nullptr;

	// Mutex used by callbacks to access \|g_interface\|. If we initialize or clean it
	// use unique_lock. If only accessing \|g_interface\| use shared lock.
	//TODO(jpawlowski): this should be just shared_mutex, as we currently don't use
	// timed methods. Change to shared_mutex when we upgrade to C++14
	shared_timed_mutex g_instance_lock;

	// Helper for obtaining the observer list. This is forward declared here and
	// defined below since it depends on BluetoothInterfaceImpl.
	base::ObserverList<BluetoothInterface::Observer>* GetObservers();

	#define FOR_EACH_BLUETOOTH_OBSERVER(func) \
	FOR_EACH_OBSERVER(BluetoothInterface::Observer, *GetObservers(), func)

	#define VERIFY_INTERFACE_OR_RETURN() \
	do { \
	if (!g_bluetooth_interface) { \
	LOG(WARNING) << "Callback received while \|g_interface\| is NULL"; \
	return; \
	} \
	} while (0)

	void AdapterStateChangedCallback(bt_state_t state) {
	shared_lock<shared_timed_mutex> lock(g_instance_lock);
	VERIFY_INTERFACE_OR_RETURN();
	VLOG(1) << "Adapter state changed: " << BtStateText(state);
	FOR_EACH_BLUETOOTH_OBSERVER(AdapterStateChangedCallback(state));
	}

	void AdapterPropertiesCallback(bt_status_t status,
	int num_properties,
	bt_property_t* properties) {
	shared_lock<shared_timed_mutex> lock(g_instance_lock);
	VERIFY_INTERFACE_OR_RETURN();
	VLOG(1) << "Adapter properties changed - status: " << BtStatusText(status)
	<< ", num_properties: " << num_properties;
	FOR_EACH_BLUETOOTH_OBSERVER(
	AdapterPropertiesCallback(status, num_properties, properties));
	}

	void RemoteDevicePropertiesCallback(bt_status_t status,
	bt_bdaddr_t *remote_bd_addr,
	int num_properties,
	bt_property_t* properties) {
	shared_lock<shared_timed_mutex> lock(g_instance_lock);
	VERIFY_INTERFACE_OR_RETURN();
	VLOG(1) << " Remote device properties changed - status: " << BtStatusText(status)
	<< " - BD_ADDR: " << BtAddrString(remote_bd_addr)
	<< ", num_properties: " << num_properties;
	FOR_EACH_BLUETOOTH_OBSERVER(
	RemoteDevicePropertiesCallback(status, remote_bd_addr, num_properties,
	properties));
	}

	void DiscoveryStateChangedCallback(bt_discovery_state_t state) {
	shared_lock<shared_timed_mutex> lock(g_instance_lock);
	VERIFY_INTERFACE_OR_RETURN();
	VLOG(1) << "Discovery state changed - state: " << BtDiscoveryStateText(state);
	FOR_EACH_BLUETOOTH_OBSERVER(DiscoveryStateChangedCallback(state));
	}

	void PinRequestCallback(bt_bdaddr_t remote_bd_addr, bt_bdname_t bd_name,
	uint32_t cod, bool min_16_digit) {
	shared_lock<shared_timed_mutex> lock(g_instance_lock);
	VERIFY_INTERFACE_OR_RETURN();
	VLOG(2) << __func__
	<< " - remote_bd_addr: " << remote_bd_addr
	<< " - bd_name: " << bd_name
	<< " - cod: " << cod
	<< " - min_16_digit: " << min_16_digit;
	FOR_EACH_BLUETOOTH_OBSERVER(PinRequestCallback(remote_bd_addr, bd_name, cod, min_16_digit));
	}

	void SSPRequestCallback(bt_bdaddr_t *remote_bd_addr,
	bt_bdname_t *bd_name, uint32_t cod, bt_ssp_variant_t pairing_variant, uint32_t pass_key) {
	shared_lock<shared_timed_mutex> lock(g_instance_lock);
	VERIFY_INTERFACE_OR_RETURN();
	VLOG(2) << __func__
	<< " - remote_bd_addr: " << remote_bd_addr
	<< " - bd_name: " << bd_name
	<< " - cod: " << cod
	<< " - pairing_variant: " << pairing_variant;
	FOR_EACH_BLUETOOTH_OBSERVER(SSPRequestCallback(remote_bd_addr, bd_name, cod,
	pairing_variant, pass_key));
	}

	void BondStateChangedCallback(
	bt_status_t status,
	bt_bdaddr_t *remote_bd_addr,
	bt_bond_state_t state) {
	shared_lock<shared_timed_mutex> lock(g_instance_lock);
	VERIFY_INTERFACE_OR_RETURN();
	VLOG(2) << __func__
	<< " - remote_bd_addr: " << BtAddrString(remote_bd_addr)
	<< " - status: " << status
	<< " - state: " << state;
	FOR_EACH_BLUETOOTH_OBSERVER(BondStateChangedCallback(status, remote_bd_addr, state));
	}

	void AclStateChangedCallback(bt_status_t status,
	bt_bdaddr_t *remote_bd_addr,
	bt_acl_state_t state) {
	shared_lock<shared_timed_mutex> lock(g_instance_lock);
	VERIFY_INTERFACE_OR_RETURN();
	CHECK(remote_bd_addr);
	VLOG(1) << "Remote device ACL state changed - status: "
	<< BtStatusText(status)
	<< " - BD_ADDR: " << BtAddrString(remote_bd_addr)
	<< " - state: "
	<< ((state == BT_ACL_STATE_CONNECTED) ? "CONNECTED" : "DISCONNECTED");
	FOR_EACH_BLUETOOTH_OBSERVER(
	AclStateChangedCallback(status, *remote_bd_addr, state));
	}

	void ThreadEventCallback(bt_cb_thread_evt evt) {
	VLOG(1) << "ThreadEventCallback" << BtEventText(evt);

	// TODO(armansito): This callback is completely useless to us but btif borks
	// out if this is not set. Consider making this optional.
	}

	bool SetWakeAlarmCallout(uint64_t /* delay_millis */,
	bool /* should_wake */,
	alarm_cb /* cb */,
	void* /* data */) {
	// TODO(armansito): According to sharvil@, this interface doesn't even need to
	// exist and can be done entirely from within osi by interfacing directly with
	// the kernel. Remove these stubs once that's fixed. (See http://b/23390297)
	return false;
	}

	int AcquireWakeLockCallout(const char* /* lock_name */) {
	// TODO(armansito): According to sharvil@, this interface doesn't even need to
	// exist and can be done entirely from within osi by interfacing directly with
	// the kernel. Remove these stubs once that's fixed. (See http://b/23390297)
	// Lie here and return success so that enabling and disabling the controller
	// works before this is properly implemented.
	return BT_STATUS_SUCCESS;
	}

	int ReleaseWakeLockCallout(const char* /* lock_name */) {
	// TODO(armansito): According to sharvil@, this interface doesn't even need to
	// exist and can be done entirely from within osi by interfacing directly with
	// the kernel. Remove these stubs once that's fixed. (See http://b/23390297)
	// Lie here and return success so that enabling and disabling the controller
	// works before this is properly implemented.
	return BT_STATUS_SUCCESS;
	}

	// The HAL Bluetooth DM callbacks.
	bt_callbacks_t bt_callbacks = {
	sizeof(bt_callbacks_t),
	AdapterStateChangedCallback,
	AdapterPropertiesCallback,
	RemoteDevicePropertiesCallback,
	nullptr, /* device_found_cb */
	DiscoveryStateChangedCallback,
	PinRequestCallback,
	SSPRequestCallback,
	BondStateChangedCallback,
	AclStateChangedCallback,
	ThreadEventCallback,
	nullptr, /* dut_mode_recv_cb */
	nullptr, /* le_test_mode_cb */
	nullptr /* energy_info_cb */
	};

	bt_os_callouts_t bt_os_callouts = {
	sizeof(bt_os_callouts_t),
	SetWakeAlarmCallout,
	AcquireWakeLockCallout,
	ReleaseWakeLockCallout
	};

	} // namespace

	// BluetoothInterface implementation for production.
	class BluetoothInterfaceImpl : public BluetoothInterface {
	public:
	BluetoothInterfaceImpl()
	: hal_iface_(nullptr),
	hal_adapter_(nullptr) {
	}

	~BluetoothInterfaceImpl() override {
	if (hal_iface_)
	hal_iface_->cleanup();
	}

	// BluetoothInterface overrides.
	void AddObserver(Observer* observer) override {
	shared_lock<shared_timed_mutex> lock(g_instance_lock);
	observers_.AddObserver(observer);
	}

	void RemoveObserver(Observer* observer) override {
	shared_lock<shared_timed_mutex> lock(g_instance_lock);
	observers_.RemoveObserver(observer);
	}

	const bt_interface_t* GetHALInterface() const override {
	return hal_iface_;
	}

	const bluetooth_device_t* GetHALAdapter() const override {
	return hal_adapter_;
	}

	// Initialize the interface. This loads the shared Bluetooth library and sets
	// up the callbacks.
	bool Initialize() {
	// Load the Bluetooth shared library module.
	const hw_module_t* module;
	int status = hal_util_load_bt_library(&module);
	if (status) {
	LOG(ERROR) << "Failed to load Bluetooth library: " << status;
	return false;
	}

	// Open the Bluetooth adapter.
	hw_device_t* device;
	status = module->methods->open(module, BT_HARDWARE_MODULE_ID, &device);
	if (status) {
	LOG(ERROR) << "Failed to open the Bluetooth module";
	return false;
	}

	hal_adapter_ = reinterpret_cast<bluetooth_device_t*>(device);
	hal_iface_ = hal_adapter_->get_bluetooth_interface();

	// Initialize the Bluetooth interface. Set up the adapter (Bluetooth DM) API
	// callbacks.
	status = hal_iface_->init(&bt_callbacks);
	if (status != BT_STATUS_SUCCESS) {
	LOG(ERROR) << "Failed to initialize Bluetooth stack";
	return false;
	}

	status = hal_iface_->set_os_callouts(&bt_os_callouts);
	if (status != BT_STATUS_SUCCESS) {
	LOG(ERROR) << "Failed to set up Bluetooth OS callouts";
	return false;
	}

	return true;
	}

	base::ObserverList<Observer>* observers() { return &observers_; }

	private:
	// List of observers that are interested in notifications from us. We're not
	// using a base::ObserverListThreadSafe, which it posts observer events
	// automatically on the origin threads, as we want to avoid that overhead and
	// simply forward the events to the upper layer.
	base::ObserverList<Observer> observers_;

	// The HAL handle obtained from the shared library. We hold a weak reference
	// to this since the actual data resides in the shared Bluetooth library.
	const bt_interface_t* hal_iface_;

	// The HAL handle that represents the underlying Bluetooth adapter. We hold a
	// weak reference to this since the actual data resides in the shared
	// Bluetooth library.
	const bluetooth_device_t* hal_adapter_;

	DISALLOW_COPY_AND_ASSIGN(BluetoothInterfaceImpl);
	};

	namespace {

	// Helper for obtaining the observer list from the global instance. This
	// function is NOT thread safe.
	base::ObserverList<BluetoothInterface::Observer>* GetObservers() {
	CHECK(g_bluetooth_interface);
	return static_cast<BluetoothInterfaceImpl*>(
	g_bluetooth_interface)->observers();
	}

	} // namespace

	// Default observer implementations. These are provided so that the methods
	// themselves are optional.
	void BluetoothInterface::Observer::AdapterStateChangedCallback(
	bt_state_t /* state*/) {
	// Do nothing.
	}

	void BluetoothInterface::Observer::AdapterPropertiesCallback(
	bt_status_t /* status */,
	int /* num_properties */,
	bt_property_t* /* properties */) {
	// Do nothing.
	}

	void BluetoothInterface::Observer::RemoteDevicePropertiesCallback(
	bt_status_t /* status */,
	bt_bdaddr_t* /* remote_bd_addr */,
	int /* num_properties */,
	bt_property_t* /* properties */) {
	// Do nothing.
	}

	void BluetoothInterface::Observer::DiscoveryStateChangedCallback(
	bt_discovery_state_t /* state */) {
	// Do nothing.
	}

	void BluetoothInterface::Observer::PinRequestCallback(
	bt_bdaddr_t *remote_bd_addr,
	bt_bdname_t *bd_name,
	uint32_t cod,
	bool min_16_digit) {
	// Do nothing.
	}

	void BluetoothInterface::Observer::SSPRequestCallback(
	bt_bdaddr_t *remote_bd_addr,
	bt_bdname_t *bd_name,
	uint32_t cod,
	bt_ssp_variant_t pairing_variant,
	uint32_t pass_key) {
	// Do nothing.
	}

	void BluetoothInterface::Observer::BondStateChangedCallback(
	bt_status_t status,
	bt_bdaddr_t *remote_bd_addr,
	bt_bond_state_t state) {
	// Do nothing.
	}

	void BluetoothInterface::Observer::AclStateChangedCallback(
	bt_status_t /* status */,
	const bt_bdaddr_t& /* remote_bdaddr */,
	bt_acl_state_t /* state */) {
	// Do nothing.
	}

	// static
	bool BluetoothInterface::Initialize() {
	unique_lock<shared_timed_mutex> lock(g_instance_lock);
	CHECK(!g_bluetooth_interface);

	std::unique_ptr<BluetoothInterfaceImpl> impl(new BluetoothInterfaceImpl());
	if (!impl->Initialize()) {
	LOG(ERROR) << "Failed to initialize BluetoothInterface";
	return false;
	}

	g_bluetooth_interface = impl.release();

	return true;
	}

	// static
	void BluetoothInterface::CleanUp() {
	unique_lock<shared_timed_mutex> lock(g_instance_lock);
	CHECK(g_bluetooth_interface);

	delete g_bluetooth_interface;
	g_bluetooth_interface = nullptr;
	}

	// static
	bool BluetoothInterface::IsInitialized() {
	shared_lock<shared_timed_mutex> lock(g_instance_lock);

	return g_bluetooth_interface != nullptr;
	}

	// static
	BluetoothInterface* BluetoothInterface::Get() {
	shared_lock<shared_timed_mutex> lock(g_instance_lock);
	CHECK(g_bluetooth_interface);
	return g_bluetooth_interface;
	}

	// static
	void BluetoothInterface::InitializeForTesting(
	BluetoothInterface* test_instance) {
	unique_lock<shared_timed_mutex> lock(g_instance_lock);
	CHECK(test_instance);
	CHECK(!g_bluetooth_interface);

	g_bluetooth_interface = test_instance;
	}

	} // namespace hal
	} // namespace bluetooth