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chromium / chromium / src / 7a20ffc4e1f5cbb57336f2c5254f61eba56c231e / . / device / gamepad / gamepad_platform_data_fetcher_win.cc
blob: 93ec6038eaaa36a58024bf9c40dc1a0605d2ab85 [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/gamepad/gamepad_platform_data_fetcher_win.h"
#include <stddef.h>
#include <string.h>
#include "base/bind.h"
#include "base/bind_helpers.h"
#include "base/single_thread_task_runner.h"
#include "base/strings/stringprintf.h"
#include "base/trace_event/trace_event.h"
#include "base/win/windows_version.h"
namespace device {
namespace {
// See http://goo.gl/5VSJR. These are not available in all versions of the
// header, but they can be returned from the driver, so we define our own
// versions here.
static const BYTE kDeviceSubTypeGamepad = 1;
static const BYTE kDeviceSubTypeWheel = 2;
static const BYTE kDeviceSubTypeArcadeStick = 3;
static const BYTE kDeviceSubTypeFlightStick = 4;
static const BYTE kDeviceSubTypeDancePad = 5;
static const BYTE kDeviceSubTypeGuitar = 6;
static const BYTE kDeviceSubTypeGuitarAlternate = 7;
static const BYTE kDeviceSubTypeDrumKit = 8;
static const BYTE kDeviceSubTypeGuitarBass = 11;
static const BYTE kDeviceSubTypeArcadePad = 19;
// XInput does not expose the state of the Guide (Xbox) button through the
// XInputGetState method. To access this button, we need to query the gamepad
// state with the undocumented XInputGetStateEx method.
static const LPCSTR kXInputGetStateExOrdinal = (LPCSTR)100;
// Bitmask for the Guide button in XInputGamepadEx.wButtons.
static const int kXInputGamepadGuide = 0x0400;
float NormalizeXInputAxis(SHORT value) {
return ((value + 32768.f) / 32767.5f) - 1.f;
}
const UChar* GamepadSubTypeName(BYTE sub_type) {
switch (sub_type) {
case kDeviceSubTypeGamepad:
return L"GAMEPAD";
case kDeviceSubTypeWheel:
return L"WHEEL";
case kDeviceSubTypeArcadeStick:
return L"ARCADE_STICK";
case kDeviceSubTypeFlightStick:
return L"FLIGHT_STICK";
case kDeviceSubTypeDancePad:
return L"DANCE_PAD";
case kDeviceSubTypeGuitar:
return L"GUITAR";
case kDeviceSubTypeGuitarAlternate:
return L"GUITAR_ALTERNATE";
case kDeviceSubTypeDrumKit:
return L"DRUM_KIT";
case kDeviceSubTypeGuitarBass:
return L"GUITAR_BASS";
case kDeviceSubTypeArcadePad:
return L"ARCADE_PAD";
default:
return L"<UNKNOWN>";
}
}
const UChar* XInputDllFileName() {
// Xinput.h defines filename (XINPUT_DLL) on different Windows versions, but
// Xinput.h specifies it in build time. Approach here uses the same values
// and it is resolving dll filename based on Windows version it is running on.
if (base::win::GetVersion() >= base::win::VERSION_WIN8) {
// For Windows 8+, XINPUT_DLL is xinput1_4.dll.
return FILE_PATH_LITERAL("xinput1_4.dll");
}
return FILE_PATH_LITERAL("xinput9_1_0.dll");
}
} // namespace
GamepadPlatformDataFetcherWin::GamepadPlatformDataFetcherWin()
: xinput_available_(false) {}
GamepadPlatformDataFetcherWin::~GamepadPlatformDataFetcherWin() = default;
GamepadSource GamepadPlatformDataFetcherWin::source() {
return Factory::static_source();
}
void GamepadPlatformDataFetcherWin::OnAddedToProvider() {
xinput_dll_.Reset(
base::LoadNativeLibrary(base::FilePath(XInputDllFileName()), nullptr));
xinput_available_ = GetXInputDllFunctions();
}
void GamepadPlatformDataFetcherWin::EnumerateDevices() {
TRACE_EVENT0("GAMEPAD", "EnumerateDevices");
if (xinput_available_) {
for (size_t i = 0; i < XUSER_MAX_COUNT; ++i) {
// Check to see if the xinput device is connected
XINPUT_CAPABILITIES caps;
DWORD res = xinput_get_capabilities_(i, XINPUT_FLAG_GAMEPAD, &caps);
xinput_connected_[i] = (res == ERROR_SUCCESS);
if (!xinput_connected_[i]) {
if (haptics_[i])
haptics_[i]->Shutdown();
haptics_[i] = nullptr;
continue;
}
PadState* state = GetPadState(i);
if (!state)
continue; // No slot available for this gamepad.
Gamepad& pad = state->data;
if (!state->is_initialized) {
state->is_initialized = true;
if (!haptics_[i]) {
haptics_[i] =
std::make_unique<XInputHapticGamepadWin>(i, xinput_set_state_);
}
// This is the first time we've seen this device, so do some one-time
// initialization
pad.connected = true;
pad.vibration_actuator.type = GamepadHapticActuatorType::kDualRumble;
pad.vibration_actuator.not_null = true;
swprintf(pad.id, Gamepad::kIdLengthCap,
L"Xbox 360 Controller (XInput STANDARD %ls)",
GamepadSubTypeName(caps.SubType));
swprintf(pad.mapping, Gamepad::kMappingLengthCap, L"standard");
}
}
}
}
void GamepadPlatformDataFetcherWin::GetGamepadData(bool devices_changed_hint) {
TRACE_EVENT0("GAMEPAD", "GetGamepadData");
if (!xinput_available_)
return;
// A note on XInput devices:
// If we got notification that system devices have been updated, then
// run GetCapabilities to update the connected status and the device
// identifier. It can be slow to do to both GetCapabilities and
// GetState on unconnected devices, so we want to avoid a 2-5ms pause
// here by only doing this when the devices are updated (despite
// documentation claiming it's OK to call it any time).
if (devices_changed_hint)
EnumerateDevices();
for (size_t i = 0; i < XUSER_MAX_COUNT; ++i) {
if (xinput_connected_[i])
GetXInputPadData(i);
}
}
void GamepadPlatformDataFetcherWin::GetXInputPadData(int i) {
PadState* pad_state = provider()->GetPadState(GAMEPAD_SOURCE_WIN_XINPUT, i);
if (!pad_state)
return;
Gamepad& pad = pad_state->data;
// Use XInputGetStateEx if it is available, otherwise fall back to
// XInputGetState. We can use the same struct for both since XInputStateEx
// has identical layout to XINPUT_STATE except for an extra padding member at
// the end.
XInputStateEx state;
memset(&state, 0, sizeof(XInputStateEx));
TRACE_EVENT_BEGIN1("GAMEPAD", "XInputGetState", "id", i);
DWORD dwResult;
if (xinput_get_state_ex_)
dwResult = xinput_get_state_ex_(i, &state);
else
dwResult = xinput_get_state_(i, reinterpret_cast<XINPUT_STATE*>(&state));
TRACE_EVENT_END1("GAMEPAD", "XInputGetState", "id", i);
if (dwResult == ERROR_SUCCESS) {
pad.timestamp = CurrentTimeInMicroseconds();
pad.buttons_length = 0;
WORD val = state.Gamepad.wButtons;
#define ADD(b) \
pad.buttons[pad.buttons_length].pressed = (val & (b)) != 0; \
pad.buttons[pad.buttons_length++].value = ((val & (b)) ? 1.f : 0.f);
ADD(XINPUT_GAMEPAD_A);
ADD(XINPUT_GAMEPAD_B);
ADD(XINPUT_GAMEPAD_X);
ADD(XINPUT_GAMEPAD_Y);
ADD(XINPUT_GAMEPAD_LEFT_SHOULDER);
ADD(XINPUT_GAMEPAD_RIGHT_SHOULDER);
pad.buttons[pad.buttons_length].pressed =
state.Gamepad.bLeftTrigger >= XINPUT_GAMEPAD_TRIGGER_THRESHOLD;
pad.buttons[pad.buttons_length++].value =
state.Gamepad.bLeftTrigger / 255.f;
pad.buttons[pad.buttons_length].pressed =
state.Gamepad.bRightTrigger >= XINPUT_GAMEPAD_TRIGGER_THRESHOLD;
pad.buttons[pad.buttons_length++].value =
state.Gamepad.bRightTrigger / 255.f;
ADD(XINPUT_GAMEPAD_BACK);
ADD(XINPUT_GAMEPAD_START);
ADD(XINPUT_GAMEPAD_LEFT_THUMB);
ADD(XINPUT_GAMEPAD_RIGHT_THUMB);
ADD(XINPUT_GAMEPAD_DPAD_UP);
ADD(XINPUT_GAMEPAD_DPAD_DOWN);
ADD(XINPUT_GAMEPAD_DPAD_LEFT);
ADD(XINPUT_GAMEPAD_DPAD_RIGHT);
if (xinput_get_state_ex_) {
// Only XInputGetStateEx reports the Guide button state.
ADD(kXInputGamepadGuide);
}
#undef ADD
pad.axes_length = 0;
float value = 0.0;
#define ADD(a, factor) \
value = factor * NormalizeXInputAxis(a); \
pad.axes[pad.axes_length++] = value;
// XInput are +up/+right, -down/-left, we want -up/-left.
ADD(state.Gamepad.sThumbLX, 1);
ADD(state.Gamepad.sThumbLY, -1);
ADD(state.Gamepad.sThumbRX, 1);
ADD(state.Gamepad.sThumbRY, -1);
#undef ADD
}
}
void GamepadPlatformDataFetcherWin::PlayEffect(
int pad_id,
mojom::GamepadHapticEffectType type,
mojom::GamepadEffectParametersPtr params,
mojom::GamepadHapticsManager::PlayVibrationEffectOnceCallback callback) {
if (pad_id < 0 || pad_id >= XUSER_MAX_COUNT) {
std::move(callback).Run(
mojom::GamepadHapticsResult::GamepadHapticsResultError);
return;
}
if (!xinput_available_ || !xinput_connected_[pad_id] ||
haptics_[pad_id] == nullptr) {
std::move(callback).Run(
mojom::GamepadHapticsResult::GamepadHapticsResultNotSupported);
return;
}
haptics_[pad_id]->PlayEffect(type, std::move(params), std::move(callback));
}
void GamepadPlatformDataFetcherWin::ResetVibration(
int pad_id,
mojom::GamepadHapticsManager::ResetVibrationActuatorCallback callback) {
if (pad_id < 0 || pad_id >= XUSER_MAX_COUNT) {
std::move(callback).Run(
mojom::GamepadHapticsResult::GamepadHapticsResultError);
return;
}
if (!xinput_available_ || !xinput_connected_[pad_id] ||
haptics_[pad_id] == nullptr) {
std::move(callback).Run(
mojom::GamepadHapticsResult::GamepadHapticsResultNotSupported);
return;
}
haptics_[pad_id]->ResetVibration(std::move(callback));
}
bool GamepadPlatformDataFetcherWin::GetXInputDllFunctions() {
xinput_get_capabilities_ = nullptr;
xinput_get_state_ = nullptr;
xinput_get_state_ex_ = nullptr;
xinput_set_state_ = nullptr;
XInputEnableFunc xinput_enable = reinterpret_cast<XInputEnableFunc>(
xinput_dll_.GetFunctionPointer("XInputEnable"));
xinput_get_capabilities_ = reinterpret_cast<XInputGetCapabilitiesFunc>(
xinput_dll_.GetFunctionPointer("XInputGetCapabilities"));
if (!xinput_get_capabilities_)
return false;
// Get undocumented function XInputGetStateEx. If it is not present, fall back
// to XInputGetState.
xinput_get_state_ex_ = reinterpret_cast<XInputGetStateExFunc>(
::GetProcAddress(xinput_dll_.get(), kXInputGetStateExOrdinal));
if (!xinput_get_state_ex_) {
xinput_get_state_ = reinterpret_cast<XInputGetStateFunc>(
xinput_dll_.GetFunctionPointer("XInputGetState"));
}
if (!xinput_get_state_ && !xinput_get_state_ex_)
return false;
xinput_set_state_ =
reinterpret_cast<XInputHapticGamepadWin::XInputSetStateFunc>(
xinput_dll_.GetFunctionPointer("XInputSetState"));
if (!xinput_set_state_)
return false;
if (xinput_enable) {
// XInputEnable is unavailable before Win8 and deprecated in Win10.
xinput_enable(true);
}
return true;
}
} // namespace device