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chromium / chromium / src / 6807750b05094442ceb5b101bd50ac723e830a6e / . / device / bluetooth / bluetooth_task_manager_win.cc
blob: 4ebaa1012cc37e063530150da28eea9ce68d868d [file] [log] [blame]
// Copyright (c) 2012 The Chromium 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 "device/bluetooth/bluetooth_task_manager_win.h"
#include <winsock2.h>
#include <string>
#include "base/basictypes.h"
#include "base/bind.h"
#include "base/memory/ref_counted.h"
#include "base/message_loop/message_loop.h"
#include "base/sequenced_task_runner.h"
#include "base/strings/stringprintf.h"
#include "base/strings/sys_string_conversions.h"
#include "base/threading/sequenced_worker_pool.h"
#include "base/win/scoped_handle.h"
#include "device/bluetooth/bluetooth_device.h"
#include "device/bluetooth/bluetooth_init_win.h"
#include "device/bluetooth/bluetooth_low_energy_win.h"
#include "device/bluetooth/bluetooth_service_record_win.h"
#include "net/base/winsock_init.h"
namespace {
const int kNumThreadsInWorkerPool = 3;
const char kBluetoothThreadName[] = "BluetoothPollingThreadWin";
const int kMaxNumDeviceAddressChar = 127;
const int kServiceDiscoveryResultBufferSize = 5000;
// See http://goo.gl/iNTRQe: cTimeoutMultiplier: A value that indicates the time
// out for the inquiry, expressed in increments of 1.28 seconds. For example, an
// inquiry of 12.8 seconds has a cTimeoutMultiplier value of 10. The maximum
// value for this member is 48. When a value greater than 48 is used, the
// calling function immediately fails and returns
const int kMaxDeviceDiscoveryTimeoutMultiplier = 48;
typedef device::BluetoothTaskManagerWin::ServiceRecordState ServiceRecordState;
// Note: The string returned here must have the same format as
// BluetoothDevice::CanonicalizeAddress.
std::string BluetoothAddressToCanonicalString(const BLUETOOTH_ADDRESS& btha) {
std::string result = base::StringPrintf("%02X:%02X:%02X:%02X:%02X:%02X",
btha.rgBytes[5],
btha.rgBytes[4],
btha.rgBytes[3],
btha.rgBytes[2],
btha.rgBytes[1],
btha.rgBytes[0]);
DCHECK_EQ(result, device::BluetoothDevice::CanonicalizeAddress(result));
return result;
}
device::BluetoothUUID BluetoothLowEnergyUuidToBluetoothUuid(
const BTH_LE_UUID& bth_le_uuid) {
if (bth_le_uuid.IsShortUuid) {
std::string uuid_hex =
base::StringPrintf("%04x", bth_le_uuid.Value.ShortUuid);
return device::BluetoothUUID(uuid_hex);
} else {
return device::BluetoothUUID(
base::StringPrintf("%08x-%04x-%04x-%02x%02x-%02x%02x%02x%02x%02x%02x",
bth_le_uuid.Value.LongUuid.Data1,
bth_le_uuid.Value.LongUuid.Data2,
bth_le_uuid.Value.LongUuid.Data3,
bth_le_uuid.Value.LongUuid.Data4[0],
bth_le_uuid.Value.LongUuid.Data4[1],
bth_le_uuid.Value.LongUuid.Data4[2],
bth_le_uuid.Value.LongUuid.Data4[3],
bth_le_uuid.Value.LongUuid.Data4[4],
bth_le_uuid.Value.LongUuid.Data4[5],
bth_le_uuid.Value.LongUuid.Data4[6],
bth_le_uuid.Value.LongUuid.Data4[7]));
}
}
// Populates bluetooth adapter state using adapter_handle.
void GetAdapterState(HANDLE adapter_handle,
device::BluetoothTaskManagerWin::AdapterState* state) {
std::string name;
std::string address;
bool powered = false;
BLUETOOTH_RADIO_INFO adapter_info = { sizeof(BLUETOOTH_RADIO_INFO), 0 };
if (adapter_handle &&
ERROR_SUCCESS == BluetoothGetRadioInfo(adapter_handle,
&adapter_info)) {
name = base::SysWideToUTF8(adapter_info.szName);
address = BluetoothAddressToCanonicalString(adapter_info.address);
powered = !!BluetoothIsConnectable(adapter_handle);
}
state->name = name;
state->address = address;
state->powered = powered;
}
void GetDeviceState(const BLUETOOTH_DEVICE_INFO& device_info,
device::BluetoothTaskManagerWin::DeviceState* state) {
state->name = base::SysWideToUTF8(device_info.szName);
state->address = BluetoothAddressToCanonicalString(device_info.Address);
state->bluetooth_class = device_info.ulClassofDevice;
state->visible = true;
state->connected = !!device_info.fConnected;
state->authenticated = !!device_info.fAuthenticated;
}
} // namespace
namespace device {
// static
const int BluetoothTaskManagerWin::kPollIntervalMs = 500;
BluetoothTaskManagerWin::AdapterState::AdapterState() : powered(false) {
}
BluetoothTaskManagerWin::AdapterState::~AdapterState() {
}
BluetoothTaskManagerWin::ServiceRecordState::ServiceRecordState() {
}
BluetoothTaskManagerWin::ServiceRecordState::~ServiceRecordState() {
}
BluetoothTaskManagerWin::DeviceState::DeviceState()
: bluetooth_class(0),
visible(false),
connected(false),
authenticated(false) {
}
BluetoothTaskManagerWin::DeviceState::~DeviceState() {
}
BluetoothTaskManagerWin::BluetoothTaskManagerWin(
scoped_refptr<base::SequencedTaskRunner> ui_task_runner)
: ui_task_runner_(ui_task_runner),
discovering_(false),
current_logging_batch_count_(0) {
}
BluetoothTaskManagerWin::~BluetoothTaskManagerWin() {
}
void BluetoothTaskManagerWin::AddObserver(Observer* observer) {
DCHECK(observer);
DCHECK(ui_task_runner_->RunsTasksOnCurrentThread());
observers_.AddObserver(observer);
}
void BluetoothTaskManagerWin::RemoveObserver(Observer* observer) {
DCHECK(observer);
DCHECK(ui_task_runner_->RunsTasksOnCurrentThread());
observers_.RemoveObserver(observer);
}
void BluetoothTaskManagerWin::Initialize() {
DCHECK(ui_task_runner_->RunsTasksOnCurrentThread());
worker_pool_ = new base::SequencedWorkerPool(kNumThreadsInWorkerPool,
kBluetoothThreadName);
InitializeWithBluetoothTaskRunner(
worker_pool_->GetSequencedTaskRunnerWithShutdownBehavior(
worker_pool_->GetSequenceToken(),
base::SequencedWorkerPool::CONTINUE_ON_SHUTDOWN));
}
void BluetoothTaskManagerWin::InitializeWithBluetoothTaskRunner(
scoped_refptr<base::SequencedTaskRunner> bluetooth_task_runner) {
DCHECK(ui_task_runner_->RunsTasksOnCurrentThread());
bluetooth_task_runner_ = bluetooth_task_runner;
bluetooth_task_runner_->PostTask(
FROM_HERE,
base::Bind(&BluetoothTaskManagerWin::StartPolling, this));
}
void BluetoothTaskManagerWin::StartPolling() {
DCHECK(bluetooth_task_runner_->RunsTasksOnCurrentThread());
if (device::bluetooth_init_win::HasBluetoothStack()) {
PollAdapter();
} else {
// IF the bluetooth stack is not available, we still send an empty state
// to BluetoothAdapter so that it is marked initialized, but the adapter
// will not be present.
AdapterState* state = new AdapterState();
ui_task_runner_->PostTask(
FROM_HERE,
base::Bind(&BluetoothTaskManagerWin::OnAdapterStateChanged,
this,
base::Owned(state)));
}
}
void BluetoothTaskManagerWin::Shutdown() {
DCHECK(ui_task_runner_->RunsTasksOnCurrentThread());
if (worker_pool_.get())
worker_pool_->Shutdown();
}
void BluetoothTaskManagerWin::PostSetPoweredBluetoothTask(
bool powered,
const base::Closure& callback,
const BluetoothAdapter::ErrorCallback& error_callback) {
DCHECK(ui_task_runner_->RunsTasksOnCurrentThread());
bluetooth_task_runner_->PostTask(
FROM_HERE,
base::Bind(&BluetoothTaskManagerWin::SetPowered,
this,
powered,
callback,
error_callback));
}
void BluetoothTaskManagerWin::PostStartDiscoveryTask() {
DCHECK(ui_task_runner_->RunsTasksOnCurrentThread());
bluetooth_task_runner_->PostTask(
FROM_HERE,
base::Bind(&BluetoothTaskManagerWin::StartDiscovery, this));
}
void BluetoothTaskManagerWin::PostStopDiscoveryTask() {
DCHECK(ui_task_runner_->RunsTasksOnCurrentThread());
bluetooth_task_runner_->PostTask(
FROM_HERE,
base::Bind(&BluetoothTaskManagerWin::StopDiscovery, this));
}
void BluetoothTaskManagerWin::LogPollingError(const char* message,
int win32_error) {
const int kLogPeriodInMilliseconds = 60 * 1000;
const int kMaxMessagesPerLogPeriod = 10;
// Check if we need to discard this message
if (!current_logging_batch_ticks_.is_null()) {
if (base::TimeTicks::Now() - current_logging_batch_ticks_ <=
base::TimeDelta::FromMilliseconds(kLogPeriodInMilliseconds)) {
if (current_logging_batch_count_ >= kMaxMessagesPerLogPeriod)
return;
} else {
// The batch expired, reset it to "null".
current_logging_batch_ticks_ = base::TimeTicks();
}
}
// Keep track of this batch of messages
if (current_logging_batch_ticks_.is_null()) {
current_logging_batch_ticks_ = base::TimeTicks::Now();
current_logging_batch_count_ = 0;
}
++current_logging_batch_count_;
// Log the message
if (win32_error == 0)
LOG(WARNING) << message;
else
LOG(WARNING) << message << ": "
<< logging::SystemErrorCodeToString(win32_error);
}
void BluetoothTaskManagerWin::OnAdapterStateChanged(const AdapterState* state) {
DCHECK(ui_task_runner_->RunsTasksOnCurrentThread());
FOR_EACH_OBSERVER(BluetoothTaskManagerWin::Observer, observers_,
AdapterStateChanged(*state));
}
void BluetoothTaskManagerWin::OnDiscoveryStarted(bool success) {
DCHECK(ui_task_runner_->RunsTasksOnCurrentThread());
FOR_EACH_OBSERVER(BluetoothTaskManagerWin::Observer, observers_,
DiscoveryStarted(success));
}
void BluetoothTaskManagerWin::OnDiscoveryStopped() {
DCHECK(ui_task_runner_->RunsTasksOnCurrentThread());
FOR_EACH_OBSERVER(BluetoothTaskManagerWin::Observer, observers_,
DiscoveryStopped());
}
void BluetoothTaskManagerWin::OnDevicesPolled(
const ScopedVector<DeviceState>* devices) {
DCHECK(ui_task_runner_->RunsTasksOnCurrentThread());
FOR_EACH_OBSERVER(
BluetoothTaskManagerWin::Observer, observers_, DevicesPolled(*devices));
}
void BluetoothTaskManagerWin::PollAdapter() {
DCHECK(bluetooth_task_runner_->RunsTasksOnCurrentThread());
// Skips updating the adapter info if the adapter is in discovery mode.
if (!discovering_) {
const BLUETOOTH_FIND_RADIO_PARAMS adapter_param =
{ sizeof(BLUETOOTH_FIND_RADIO_PARAMS) };
if (adapter_handle_.IsValid())
adapter_handle_.Close();
HANDLE temp_adapter_handle;
HBLUETOOTH_RADIO_FIND handle = BluetoothFindFirstRadio(
&adapter_param, &temp_adapter_handle);
if (handle) {
adapter_handle_.Set(temp_adapter_handle);
GetKnownDevices();
BluetoothFindRadioClose(handle);
}
PostAdapterStateToUi();
}
// Re-poll.
bluetooth_task_runner_->PostDelayedTask(
FROM_HERE,
base::Bind(&BluetoothTaskManagerWin::PollAdapter,
this),
base::TimeDelta::FromMilliseconds(kPollIntervalMs));
}
void BluetoothTaskManagerWin::PostAdapterStateToUi() {
DCHECK(bluetooth_task_runner_->RunsTasksOnCurrentThread());
AdapterState* state = new AdapterState();
GetAdapterState(adapter_handle_.Get(), state);
ui_task_runner_->PostTask(
FROM_HERE,
base::Bind(&BluetoothTaskManagerWin::OnAdapterStateChanged,
this,
base::Owned(state)));
}
void BluetoothTaskManagerWin::SetPowered(
bool powered,
const base::Closure& callback,
const BluetoothAdapter::ErrorCallback& error_callback) {
DCHECK(bluetooth_task_runner_->RunsTasksOnCurrentThread());
bool success = false;
if (adapter_handle_.IsValid()) {
if (!powered)
BluetoothEnableDiscovery(adapter_handle_.Get(), false);
success =
!!BluetoothEnableIncomingConnections(adapter_handle_.Get(), powered);
}
if (success) {
PostAdapterStateToUi();
ui_task_runner_->PostTask(FROM_HERE, callback);
} else {
ui_task_runner_->PostTask(FROM_HERE, error_callback);
}
}
void BluetoothTaskManagerWin::StartDiscovery() {
DCHECK(bluetooth_task_runner_->RunsTasksOnCurrentThread());
ui_task_runner_->PostTask(
FROM_HERE,
base::Bind(&BluetoothTaskManagerWin::OnDiscoveryStarted,
this,
adapter_handle_.IsValid()));
if (!adapter_handle_.IsValid())
return;
discovering_ = true;
DiscoverDevices(1);
}
void BluetoothTaskManagerWin::StopDiscovery() {
DCHECK(bluetooth_task_runner_->RunsTasksOnCurrentThread());
discovering_ = false;
ui_task_runner_->PostTask(
FROM_HERE,
base::Bind(&BluetoothTaskManagerWin::OnDiscoveryStopped, this));
}
void BluetoothTaskManagerWin::DiscoverDevices(int timeout_multiplier) {
DCHECK(bluetooth_task_runner_->RunsTasksOnCurrentThread());
if (!discovering_ || !adapter_handle_.IsValid()) {
ui_task_runner_->PostTask(
FROM_HERE,
base::Bind(&BluetoothTaskManagerWin::OnDiscoveryStopped, this));
return;
}
scoped_ptr<ScopedVector<DeviceState> > device_list(
new ScopedVector<DeviceState>());
if (SearchDevices(timeout_multiplier, false, device_list.get())) {
ui_task_runner_->PostTask(
FROM_HERE,
base::Bind(&BluetoothTaskManagerWin::OnDevicesPolled,
this,
base::Owned(device_list.release())));
}
if (timeout_multiplier < kMaxDeviceDiscoveryTimeoutMultiplier)
++timeout_multiplier;
bluetooth_task_runner_->PostTask(
FROM_HERE,
base::Bind(
&BluetoothTaskManagerWin::DiscoverDevices, this, timeout_multiplier));
}
void BluetoothTaskManagerWin::GetKnownDevices() {
scoped_ptr<ScopedVector<DeviceState> > device_list(
new ScopedVector<DeviceState>());
if (SearchDevices(1, true, device_list.get())) {
ui_task_runner_->PostTask(
FROM_HERE,
base::Bind(&BluetoothTaskManagerWin::OnDevicesPolled,
this,
base::Owned(device_list.release())));
}
}
bool BluetoothTaskManagerWin::SearchDevices(
int timeout_multiplier,
bool search_cached_devices_only,
ScopedVector<DeviceState>* device_list) {
return SearchClassicDevices(
timeout_multiplier, search_cached_devices_only, device_list) &&
SearchLowEnergyDevices(device_list) &&
DiscoverServices(device_list, search_cached_devices_only);
}
bool BluetoothTaskManagerWin::SearchClassicDevices(
int timeout_multiplier,
bool search_cached_devices_only,
ScopedVector<DeviceState>* device_list) {
// Issues a device inquiry and waits for |timeout_multiplier| * 1.28 seconds.
BLUETOOTH_DEVICE_SEARCH_PARAMS device_search_params;
ZeroMemory(&device_search_params, sizeof(device_search_params));
device_search_params.dwSize = sizeof(BLUETOOTH_DEVICE_SEARCH_PARAMS);
device_search_params.fReturnAuthenticated = 1;
device_search_params.fReturnRemembered = 1;
device_search_params.fReturnUnknown = (search_cached_devices_only ? 0 : 1);
device_search_params.fReturnConnected = 1;
device_search_params.fIssueInquiry = (search_cached_devices_only ? 0 : 1);
device_search_params.cTimeoutMultiplier = timeout_multiplier;
BLUETOOTH_DEVICE_INFO device_info;
ZeroMemory(&device_info, sizeof(device_info));
device_info.dwSize = sizeof(BLUETOOTH_DEVICE_INFO);
HBLUETOOTH_DEVICE_FIND handle =
BluetoothFindFirstDevice(&device_search_params, &device_info);
if (!handle) {
int last_error = GetLastError();
if (last_error == ERROR_NO_MORE_ITEMS) {
return true; // No devices is not an error.
}
LogPollingError("Error calling BluetoothFindFirstDevice", last_error);
return false;
}
while (true) {
DeviceState* device_state = new DeviceState();
GetDeviceState(device_info, device_state);
device_list->push_back(device_state);
// Reset device info before next call (as a safety precaution).
ZeroMemory(&device_info, sizeof(device_info));
device_info.dwSize = sizeof(BLUETOOTH_DEVICE_INFO);
if (!BluetoothFindNextDevice(handle, &device_info)) {
int last_error = GetLastError();
if (last_error == ERROR_NO_MORE_ITEMS) {
break; // No more items is expected error when done enumerating.
}
LogPollingError("Error calling BluetoothFindNextDevice", last_error);
BluetoothFindDeviceClose(handle);
return false;
}
}
if (!BluetoothFindDeviceClose(handle)) {
LogPollingError("Error calling BluetoothFindDeviceClose", GetLastError());
return false;
}
return true;
}
bool BluetoothTaskManagerWin::SearchLowEnergyDevices(
ScopedVector<DeviceState>* device_list) {
if (!win::IsBluetoothLowEnergySupported())
return true; // Bluetooth LE not supported is not an error.
ScopedVector<win::BluetoothLowEnergyDeviceInfo> btle_devices;
std::string error;
bool success =
win::EnumerateKnownBluetoothLowEnergyDevices(&btle_devices, &error);
if (!success) {
LogPollingError(error.c_str(), 0);
return false;
}
for (ScopedVector<win::BluetoothLowEnergyDeviceInfo>::iterator iter =
btle_devices.begin();
iter != btle_devices.end();
++iter) {
win::BluetoothLowEnergyDeviceInfo* device_info = (*iter);
DeviceState* device_state = new DeviceState();
device_state->name = device_info->friendly_name;
device_state->address =
BluetoothAddressToCanonicalString(device_info->address);
device_state->visible = device_info->visible;
device_state->authenticated = device_info->authenticated;
device_state->connected = device_info->connected;
device_state->path = device_info->path;
device_list->push_back(device_state);
}
return true;
}
bool BluetoothTaskManagerWin::DiscoverServices(
ScopedVector<DeviceState>* device_list,
bool search_cached_services_only) {
DCHECK(bluetooth_task_runner_->RunsTasksOnCurrentThread());
net::EnsureWinsockInit();
for (ScopedVector<DeviceState>::iterator iter = device_list->begin();
iter != device_list->end();
++iter) {
DeviceState* device = (*iter);
ScopedVector<ServiceRecordState>* service_record_states =
&(*iter)->service_record_states;
if ((*iter)->is_bluetooth_classic()) {
if (!DiscoverClassicDeviceServices(device->address,
L2CAP_PROTOCOL_UUID,
search_cached_services_only,
service_record_states)) {
return false;
}
} else {
if (!DiscoverLowEnergyDeviceServices(device->path,
service_record_states)) {
return false;
}
}
}
return true;
}
bool BluetoothTaskManagerWin::DiscoverClassicDeviceServices(
const std::string& device_address,
const GUID& protocol_uuid,
bool search_cached_services_only,
ScopedVector<ServiceRecordState>* service_record_states) {
int error_code =
DiscoverClassicDeviceServicesWorker(device_address,
protocol_uuid,
search_cached_services_only,
service_record_states);
// If the device is "offline", no services are returned when specifying
// "LUP_FLUSHCACHE". Try again without flushing the cache so that the list
// of previously known services is returned.
if (!search_cached_services_only &&
(error_code == WSASERVICE_NOT_FOUND || error_code == WSANO_DATA)) {
error_code = DiscoverClassicDeviceServicesWorker(
device_address, protocol_uuid, true, service_record_states);
}
return (error_code == ERROR_SUCCESS);
}
int BluetoothTaskManagerWin::DiscoverClassicDeviceServicesWorker(
const std::string& device_address,
const GUID& protocol_uuid,
bool search_cached_services_only,
ScopedVector<ServiceRecordState>* service_record_states) {
// Bluetooth and WSAQUERYSET for Service Inquiry. See http://goo.gl/2v9pyt.
WSAQUERYSET sdp_query;
ZeroMemory(&sdp_query, sizeof(sdp_query));
sdp_query.dwSize = sizeof(sdp_query);
GUID protocol = protocol_uuid;
sdp_query.lpServiceClassId = &protocol;
sdp_query.dwNameSpace = NS_BTH;
wchar_t device_address_context[kMaxNumDeviceAddressChar];
std::size_t length = base::SysUTF8ToWide("(" + device_address + ")").copy(
device_address_context, kMaxNumDeviceAddressChar);
device_address_context[length] = NULL;
sdp_query.lpszContext = device_address_context;
DWORD control_flags = LUP_RETURN_ALL;
// See http://goo.gl/t1Hulo: "Applications should generally specify
// LUP_FLUSHCACHE. This flag instructs the system to ignore any cached
// information and establish an over-the-air SDP connection to the specified
// device to perform the SDP search. This non-cached operation may take
// several seconds (whereas a cached search returns quickly)."
// In summary, we need to specify LUP_FLUSHCACHE if we want to obtain the list
// of services for devices which have not been discovered before.
if (!search_cached_services_only)
control_flags |= LUP_FLUSHCACHE;
HANDLE sdp_handle;
if (ERROR_SUCCESS !=
WSALookupServiceBegin(&sdp_query, control_flags, &sdp_handle)) {
int last_error = WSAGetLastError();
// If the device is "offline", no services are returned when specifying
// "LUP_FLUSHCACHE". Don't log error in that case.
if (!search_cached_services_only &&
(last_error == WSASERVICE_NOT_FOUND || last_error == WSANO_DATA)) {
return last_error;
}
LogPollingError("Error calling WSALookupServiceBegin", last_error);
return last_error;
}
char sdp_buffer[kServiceDiscoveryResultBufferSize];
LPWSAQUERYSET sdp_result_data = reinterpret_cast<LPWSAQUERYSET>(sdp_buffer);
while (true) {
DWORD sdp_buffer_size = sizeof(sdp_buffer);
if (ERROR_SUCCESS !=
WSALookupServiceNext(
sdp_handle, control_flags, &sdp_buffer_size, sdp_result_data)) {
int last_error = WSAGetLastError();
if (last_error == WSA_E_NO_MORE || last_error == WSAENOMORE) {
break;
}
LogPollingError("Error calling WSALookupServiceNext", last_error);
WSALookupServiceEnd(sdp_handle);
return last_error;
}
ServiceRecordState* service_record_state = new ServiceRecordState();
service_record_state->name =
base::SysWideToUTF8(sdp_result_data->lpszServiceInstanceName);
for (uint64 i = 0; i < sdp_result_data->lpBlob->cbSize; i++) {
service_record_state->sdp_bytes.push_back(
sdp_result_data->lpBlob->pBlobData[i]);
}
service_record_states->push_back(service_record_state);
}
if (ERROR_SUCCESS != WSALookupServiceEnd(sdp_handle)) {
int last_error = WSAGetLastError();
LogPollingError("Error calling WSALookupServiceEnd", last_error);
return last_error;
}
return ERROR_SUCCESS;
}
bool BluetoothTaskManagerWin::DiscoverLowEnergyDeviceServices(
const base::FilePath& device_path,
ScopedVector<ServiceRecordState>* service_record_states) {
if (!win::IsBluetoothLowEnergySupported())
return true; // Bluetooth LE not supported is not an error.
std::string error;
ScopedVector<win::BluetoothLowEnergyServiceInfo> services;
bool success = win::EnumerateKnownBluetoothLowEnergyServices(
device_path, &services, &error);
if (!success) {
LogPollingError(error.c_str(), 0);
return false;
}
for (ScopedVector<win::BluetoothLowEnergyServiceInfo>::iterator iter2 =
services.begin();
iter2 != services.end();
++iter2) {
ServiceRecordState* service_state = new ServiceRecordState();
service_state->gatt_uuid =
BluetoothLowEnergyUuidToBluetoothUuid((*iter2)->uuid);
service_record_states->push_back(service_state);
}
return true;
}
} // namespace device