Sunshine/sunshine/input.cpp
2021-09-13 20:34:45 +02:00

686 lines
20 KiB
C++

//
// Created by loki on 6/20/19.
//
// define uint32_t for <moonlight-common-c/src/Input.h>
#include <cstdint>
extern "C" {
#include <moonlight-common-c/src/Input.h>
}
#include <bitset>
#include "config.h"
#include "input.h"
#include "main.h"
#include "platform/common.h"
#include "thread_pool.h"
#include "utility.h"
using namespace std::literals;
namespace input {
constexpr auto MAX_GAMEPADS = std::min((std::size_t)platf::MAX_GAMEPADS, sizeof(std::int16_t) * 8);
#define DISABLE_LEFT_BUTTON_DELAY ((util::ThreadPool::task_id_t)0x01)
#define ENABLE_LEFT_BUTTON_DELAY nullptr
constexpr auto VKEY_SHIFT = 0x10;
constexpr auto VKEY_LSHIFT = 0xA0;
constexpr auto VKEY_RSHIFT = 0xA1;
constexpr auto VKEY_CONTROL = 0x11;
constexpr auto VKEY_LCONTROL = 0xA2;
constexpr auto VKEY_RCONTROL = 0xA3;
constexpr auto VKEY_MENU = 0x12;
constexpr auto VKEY_LMENU = 0xA4;
constexpr auto VKEY_RMENU = 0xA5;
enum class button_state_e {
NONE,
DOWN,
UP
};
template<std::size_t N>
int alloc_id(std::bitset<N> &gamepad_mask) {
for(int x = 0; x < gamepad_mask.size(); ++x) {
if(!gamepad_mask[x]) {
gamepad_mask[x] = true;
return x;
}
}
return -1;
}
template<std::size_t N>
void free_id(std::bitset<N> &gamepad_mask, int id) {
gamepad_mask[id] = false;
}
static util::TaskPool::task_id_t key_press_repeat_id {};
static std::unordered_map<short, bool> key_press {};
static std::array<std::uint8_t, 5> mouse_press {};
static platf::input_t platf_input;
static std::bitset<platf::MAX_GAMEPADS> gamepadMask {};
void free_gamepad(platf::input_t &platf_input, int id) {
platf::gamepad(platf_input, id, platf::gamepad_state_t {});
platf::free_gamepad(platf_input, id);
free_id(gamepadMask, id);
}
struct gamepad_t {
gamepad_t() : gamepad_state {}, back_timeout_id {}, id { -1 }, back_button_state { button_state_e::NONE } {}
~gamepad_t() {
if(id >= 0) {
task_pool.push([id = this->id]() {
free_gamepad(platf_input, id);
});
}
}
platf::gamepad_state_t gamepad_state;
util::ThreadPool::task_id_t back_timeout_id;
int id;
// When emulating the HOME button, we may need to artificially release the back button.
// Afterwards, the gamepad state on sunshine won't match the state on Moonlight.
// To prevent Sunshine from sending erronious input data to the active application,
// Sunshine forces the button to be in a specific state until the gamepad state matches that of
// Moonlight once more.
button_state_e back_button_state;
};
struct input_t {
enum shortkey_e {
CTRL = 0x1,
ALT = 0x2,
SHIFT = 0x4,
SHORTCUT = CTRL | ALT | SHIFT
};
input_t(
safe::mail_raw_t::event_t<input::touch_port_t> touch_port_event,
platf::rumble_queue_t rumble_queue)
: shortcutFlags {},
active_gamepad_state {},
gamepads(MAX_GAMEPADS),
touch_port_event { std::move(touch_port_event) },
rumble_queue { std::move(rumble_queue) },
mouse_left_button_timeout {},
touch_port { 0, 0, 0, 0, 0, 0, 1.0f } {}
// Keep track of alt+ctrl+shift key combo
int shortcutFlags;
std::uint16_t active_gamepad_state;
std::vector<gamepad_t> gamepads;
safe::mail_raw_t::event_t<input::touch_port_t> touch_port_event;
platf::rumble_queue_t rumble_queue;
util::ThreadPool::task_id_t mouse_left_button_timeout;
input::touch_port_t touch_port;
};
/**
* Apply shortcut based on VKEY
* On success
* return > 0
* On nothing
* return 0
*/
inline int apply_shortcut(short keyCode) {
constexpr auto VK_F1 = 0x70;
constexpr auto VK_F13 = 0x7C;
BOOST_LOG(debug) << "Apply Shortcut: 0x"sv << util::hex((std::uint8_t)keyCode).to_string_view();
if(keyCode >= VK_F1 && keyCode <= VK_F13) {
mail::man->event<int>(mail::switch_display)->raise(keyCode - VK_F1);
return 1;
}
switch(keyCode) {
case 0x4E /* VKEY_N */:
display_cursor = !display_cursor;
return 1;
}
return 0;
}
void print(PNV_REL_MOUSE_MOVE_PACKET packet) {
BOOST_LOG(debug)
<< "--begin relative mouse move packet--"sv << std::endl
<< "deltaX ["sv << util::endian::big(packet->deltaX) << ']' << std::endl
<< "deltaY ["sv << util::endian::big(packet->deltaY) << ']' << std::endl
<< "--end relative mouse move packet--"sv;
}
void print(PNV_ABS_MOUSE_MOVE_PACKET packet) {
BOOST_LOG(debug)
<< "--begin absolute mouse move packet--"sv << std::endl
<< "x ["sv << util::endian::big(packet->x) << ']' << std::endl
<< "y ["sv << util::endian::big(packet->y) << ']' << std::endl
<< "width ["sv << util::endian::big(packet->width) << ']' << std::endl
<< "height ["sv << util::endian::big(packet->height) << ']' << std::endl
<< "--end absolute mouse move packet--"sv;
}
void print(PNV_MOUSE_BUTTON_PACKET packet) {
BOOST_LOG(debug)
<< "--begin mouse button packet--"sv << std::endl
<< "action ["sv << util::hex(packet->action).to_string_view() << ']' << std::endl
<< "button ["sv << util::hex(packet->button).to_string_view() << ']' << std::endl
<< "--end mouse button packet--"sv;
}
void print(PNV_SCROLL_PACKET packet) {
BOOST_LOG(debug)
<< "--begin mouse scroll packet--"sv << std::endl
<< "scrollAmt1 ["sv << util::endian::big(packet->scrollAmt1) << ']' << std::endl
<< "--end mouse scroll packet--"sv;
}
void print(PNV_KEYBOARD_PACKET packet) {
BOOST_LOG(debug)
<< "--begin keyboard packet--"sv << std::endl
<< "keyAction ["sv << util::hex(packet->keyAction).to_string_view() << ']' << std::endl
<< "keyCode ["sv << util::hex(packet->keyCode).to_string_view() << ']' << std::endl
<< "modifiers ["sv << util::hex(packet->modifiers).to_string_view() << ']' << std::endl
<< "--end keyboard packet--"sv;
}
void print(PNV_MULTI_CONTROLLER_PACKET packet) {
// Moonlight spams controller packet even when not necessary
BOOST_LOG(verbose)
<< "--begin controller packet--"sv << std::endl
<< "controllerNumber ["sv << packet->controllerNumber << ']' << std::endl
<< "activeGamepadMask ["sv << util::hex(packet->activeGamepadMask).to_string_view() << ']' << std::endl
<< "buttonFlags ["sv << util::hex(packet->buttonFlags).to_string_view() << ']' << std::endl
<< "leftTrigger ["sv << util::hex(packet->leftTrigger).to_string_view() << ']' << std::endl
<< "rightTrigger ["sv << util::hex(packet->rightTrigger).to_string_view() << ']' << std::endl
<< "leftStickX ["sv << packet->leftStickX << ']' << std::endl
<< "leftStickY ["sv << packet->leftStickY << ']' << std::endl
<< "rightStickX ["sv << packet->rightStickX << ']' << std::endl
<< "rightStickY ["sv << packet->rightStickY << ']' << std::endl
<< "--end controller packet--"sv;
}
constexpr int PACKET_TYPE_SCROLL_OR_KEYBOARD = PACKET_TYPE_SCROLL;
void print(void *input) {
int input_type = util::endian::big(*(int *)input);
switch(input_type) {
case PACKET_TYPE_REL_MOUSE_MOVE:
print((PNV_REL_MOUSE_MOVE_PACKET)input);
break;
case PACKET_TYPE_ABS_MOUSE_MOVE:
print((PNV_ABS_MOUSE_MOVE_PACKET)input);
break;
case PACKET_TYPE_MOUSE_BUTTON:
print((PNV_MOUSE_BUTTON_PACKET)input);
break;
case PACKET_TYPE_SCROLL_OR_KEYBOARD: {
char *tmp_input = (char *)input + 4;
if(tmp_input[0] == 0x0A) {
print((PNV_SCROLL_PACKET)input);
}
else {
print((PNV_KEYBOARD_PACKET)input);
}
break;
}
case PACKET_TYPE_MULTI_CONTROLLER:
print((PNV_MULTI_CONTROLLER_PACKET)input);
break;
}
}
void passthrough(std::shared_ptr<input_t> &input, PNV_REL_MOUSE_MOVE_PACKET packet) {
input->mouse_left_button_timeout = DISABLE_LEFT_BUTTON_DELAY;
platf::move_mouse(platf_input, util::endian::big(packet->deltaX), util::endian::big(packet->deltaY));
}
void passthrough(std::shared_ptr<input_t> &input, PNV_ABS_MOUSE_MOVE_PACKET packet) {
if(input->mouse_left_button_timeout == DISABLE_LEFT_BUTTON_DELAY) {
input->mouse_left_button_timeout = ENABLE_LEFT_BUTTON_DELAY;
}
auto &touch_port_event = input->touch_port_event;
auto &touch_port = input->touch_port;
if(touch_port_event->peek()) {
touch_port = *touch_port_event->pop();
}
float x = util::endian::big(packet->x);
float y = util::endian::big(packet->y);
// Prevent divide by zero
// Don't expect it to happen, but just in case
if(!packet->width || !packet->height) {
BOOST_LOG(warning) << "Moonlight passed invalid dimensions"sv;
return;
}
auto width = (float)util::endian::big(packet->width);
auto height = (float)util::endian::big(packet->height);
auto scalarX = touch_port.width / width;
auto scalarY = touch_port.height / height;
x *= scalarX;
y *= scalarY;
auto offsetX = touch_port.client_offsetX;
auto offsetY = touch_port.client_offsetY;
std::clamp(x, offsetX, width - offsetX);
std::clamp(y, offsetY, height - offsetY);
platf::touch_port_t abs_port {
touch_port.offset_x, touch_port.offset_y,
touch_port.env_width, touch_port.env_height
};
platf::abs_mouse(platf_input, abs_port, (x - offsetX) * touch_port.scalar_inv, (y - offsetY) * touch_port.scalar_inv);
}
void passthrough(std::shared_ptr<input_t> &input, PNV_MOUSE_BUTTON_PACKET packet) {
auto constexpr BUTTON_RELEASED = 0x09;
auto constexpr BUTTON_LEFT = 0x01;
auto constexpr BUTTON_RIGHT = 0x03;
auto release = packet->action == BUTTON_RELEASED;
auto button = util::endian::big(packet->button);
if(button > 0 && button < mouse_press.size()) {
if(mouse_press[button] != release) {
// button state is already what we want
return;
}
mouse_press[button] = !release;
}
///////////////////////////////////
/*/
* When Moonlight sends mouse input through absolute coordinates,
* it's possible that BUTTON_RIGHT is pressed down immediately after releasing BUTTON_LEFT.
* As a result, Sunshine will left click on hyperlinks in the browser before right clicking
*
* This can be solved by delaying BUTTON_LEFT, however, any delay on input is undesirable during gaming
* As a compromise, Sunshine will only put delays on BUTTON_LEFT when
* absolute mouse coordinates have been send.
*
* Try to make sure BUTTON_RIGHT gets called before BUTTON_LEFT is released.
*
* input->mouse_left_button_timeout can only be nullptr
* when the last mouse coordinates were absolute
/*/
if(button == BUTTON_LEFT && release && !input->mouse_left_button_timeout) {
auto f = [=]() {
auto left_released = mouse_press[BUTTON_LEFT];
if(left_released) {
// Already released left button
return;
}
platf::button_mouse(platf_input, BUTTON_LEFT, release);
mouse_press[BUTTON_LEFT] = false;
input->mouse_left_button_timeout = nullptr;
};
input->mouse_left_button_timeout = task_pool.pushDelayed(std::move(f), 10ms).task_id;
return;
}
if(
button == BUTTON_RIGHT && !release &&
input->mouse_left_button_timeout > DISABLE_LEFT_BUTTON_DELAY) {
platf::button_mouse(platf_input, BUTTON_RIGHT, false);
platf::button_mouse(platf_input, BUTTON_RIGHT, true);
mouse_press[BUTTON_RIGHT] = false;
return;
}
///////////////////////////////////
platf::button_mouse(platf_input, button, release);
}
short map_keycode(short keycode) {
auto it = config::input.keybindings.find(keycode);
if(it != std::end(config::input.keybindings)) {
return it->second;
}
return keycode;
}
/**
* Update flags for keyboard shortcut combo's
*/
inline void update_shortcutFlags(int *flags, short keyCode, bool release) {
switch(keyCode) {
case VKEY_SHIFT:
case VKEY_LSHIFT:
case VKEY_RSHIFT:
if(release) {
*flags &= ~input_t::SHIFT;
}
else {
*flags |= input_t::SHIFT;
}
break;
case VKEY_CONTROL:
case VKEY_LCONTROL:
case VKEY_RCONTROL:
if(release) {
*flags &= ~input_t::CTRL;
}
else {
*flags |= input_t::CTRL;
}
break;
case VKEY_MENU:
case VKEY_LMENU:
case VKEY_RMENU:
if(release) {
*flags &= ~input_t::ALT;
}
else {
*flags |= input_t::ALT;
}
break;
}
}
void repeat_key(short key_code) {
// If key no longer pressed, stop repeating
if(!key_press[key_code]) {
key_press_repeat_id = nullptr;
return;
}
platf::keyboard(platf_input, map_keycode(key_code), false);
key_press_repeat_id = task_pool.pushDelayed(repeat_key, config::input.key_repeat_period, key_code).task_id;
}
void passthrough(std::shared_ptr<input_t> &input, PNV_KEYBOARD_PACKET packet) {
auto constexpr BUTTON_RELEASED = 0x04;
auto release = packet->keyAction == BUTTON_RELEASED;
auto keyCode = packet->keyCode & 0x00FF;
auto &pressed = key_press[keyCode];
if(!pressed) {
if(!release) {
// A new key has been pressed down, we need to check for key combo's
// If a keycombo has been pressed down, don't pass it through
if(input->shortcutFlags == input_t::SHORTCUT && apply_shortcut(keyCode) > 0) {
return;
}
if(key_press_repeat_id) {
task_pool.cancel(key_press_repeat_id);
}
if(config::input.key_repeat_delay.count() > 0) {
key_press_repeat_id = task_pool.pushDelayed(repeat_key, config::input.key_repeat_delay, keyCode).task_id;
}
}
else {
// Already released
return;
}
}
else if(!release) {
// Already pressed down key
return;
}
pressed = !release;
update_shortcutFlags(&input->shortcutFlags, map_keycode(keyCode), release);
platf::keyboard(platf_input, map_keycode(keyCode), release);
}
void passthrough(PNV_SCROLL_PACKET packet) {
platf::scroll(platf_input, util::endian::big(packet->scrollAmt1));
}
int updateGamepads(std::vector<gamepad_t> &gamepads, std::int16_t old_state, std::int16_t new_state, const platf::rumble_queue_t &rumble_queue) {
auto xorGamepadMask = old_state ^ new_state;
if(!xorGamepadMask) {
return 0;
}
for(int x = 0; x < sizeof(std::int16_t) * 8; ++x) {
if((xorGamepadMask >> x) & 1) {
auto &gamepad = gamepads[x];
if((old_state >> x) & 1) {
if(gamepad.id < 0) {
return -1;
}
free_gamepad(platf_input, gamepad.id);
gamepad.id = -1;
}
else {
auto id = alloc_id(gamepadMask);
if(id < 0) {
// Out of gamepads
return -1;
}
if(platf::alloc_gamepad(platf_input, id, rumble_queue)) {
free_id(gamepadMask, id);
// allocating a gamepad failed: solution: ignore gamepads
// The implementations of platf::alloc_gamepad already has logging
return -1;
}
gamepad.id = id;
}
}
}
return 0;
}
void passthrough(std::shared_ptr<input_t> &input, PNV_MULTI_CONTROLLER_PACKET packet) {
if(updateGamepads(input->gamepads, input->active_gamepad_state, packet->activeGamepadMask, input->rumble_queue)) {
return;
}
input->active_gamepad_state = packet->activeGamepadMask;
if(packet->controllerNumber < 0 || packet->controllerNumber >= input->gamepads.size()) {
BOOST_LOG(warning) << "ControllerNumber out of range ["sv << packet->controllerNumber << ']';
return;
}
if(!((input->active_gamepad_state >> packet->controllerNumber) & 1)) {
BOOST_LOG(warning) << "ControllerNumber ["sv << packet->controllerNumber << "] not allocated"sv;
return;
}
auto &gamepad = input->gamepads[packet->controllerNumber];
// If this gamepad has not been initialized, ignore it.
// This could happen when platf::alloc_gamepad fails
if(gamepad.id < 0) {
return;
}
std::uint16_t bf = packet->buttonFlags;
platf::gamepad_state_t gamepad_state {
bf,
packet->leftTrigger,
packet->rightTrigger,
packet->leftStickX,
packet->leftStickY,
packet->rightStickX,
packet->rightStickY
};
auto bf_new = gamepad_state.buttonFlags;
switch(gamepad.back_button_state) {
case button_state_e::UP:
if(!(platf::BACK & bf_new)) {
gamepad.back_button_state = button_state_e::NONE;
}
gamepad_state.buttonFlags &= ~platf::BACK;
break;
case button_state_e::DOWN:
if(platf::BACK & bf_new) {
gamepad.back_button_state = button_state_e::NONE;
}
gamepad_state.buttonFlags |= platf::BACK;
break;
case button_state_e::NONE:
break;
}
bf = gamepad_state.buttonFlags ^ gamepad.gamepad_state.buttonFlags;
bf_new = gamepad_state.buttonFlags;
if(platf::BACK & bf) {
if(platf::BACK & bf_new) {
// Don't emulate home button if timeout < 0
if(config::input.back_button_timeout >= 0ms) {
auto f = [input, controller = packet->controllerNumber]() {
auto &gamepad = input->gamepads[controller];
auto &state = gamepad.gamepad_state;
// Force the back button up
gamepad.back_button_state = button_state_e::UP;
state.buttonFlags &= ~platf::BACK;
platf::gamepad(platf_input, gamepad.id, state);
// Press Home button
state.buttonFlags |= platf::HOME;
platf::gamepad(platf_input, gamepad.id, state);
// Release Home button
state.buttonFlags &= ~platf::HOME;
platf::gamepad(platf_input, gamepad.id, state);
gamepad.back_timeout_id = nullptr;
};
gamepad.back_timeout_id = task_pool.pushDelayed(std::move(f), config::input.back_button_timeout).task_id;
}
}
else if(gamepad.back_timeout_id) {
task_pool.cancel(gamepad.back_timeout_id);
gamepad.back_timeout_id = nullptr;
}
}
platf::gamepad(platf_input, gamepad.id, gamepad_state);
gamepad.gamepad_state = gamepad_state;
}
void passthrough_helper(std::shared_ptr<input_t> input, std::vector<std::uint8_t> &&input_data) {
void *payload = input_data.data();
int input_type = util::endian::big(*(int *)payload);
switch(input_type) {
case PACKET_TYPE_REL_MOUSE_MOVE:
passthrough(input, (PNV_REL_MOUSE_MOVE_PACKET)payload);
break;
case PACKET_TYPE_ABS_MOUSE_MOVE:
passthrough(input, (PNV_ABS_MOUSE_MOVE_PACKET)payload);
break;
case PACKET_TYPE_MOUSE_BUTTON:
passthrough(input, (PNV_MOUSE_BUTTON_PACKET)payload);
break;
case PACKET_TYPE_SCROLL_OR_KEYBOARD: {
char *tmp_input = (char *)payload + 4;
if(tmp_input[0] == 0x0A) {
passthrough((PNV_SCROLL_PACKET)payload);
}
else {
passthrough(input, (PNV_KEYBOARD_PACKET)payload);
}
break;
}
case PACKET_TYPE_MULTI_CONTROLLER:
passthrough(input, (PNV_MULTI_CONTROLLER_PACKET)payload);
break;
}
}
void passthrough(std::shared_ptr<input_t> &input, std::vector<std::uint8_t> &&input_data) {
task_pool.push(passthrough_helper, input, util::cmove(input_data));
}
void reset(std::shared_ptr<input_t> &input) {
task_pool.cancel(key_press_repeat_id);
task_pool.cancel(input->mouse_left_button_timeout);
// Ensure input is synchronous, by using the task_pool
task_pool.push([]() {
for(int x = 0; x < mouse_press.size(); ++x) {
if(mouse_press[x]) {
platf::button_mouse(platf_input, x, true);
mouse_press[x] = false;
}
}
for(auto &kp : key_press) {
platf::keyboard(platf_input, kp.first & 0x00FF, true);
key_press[kp.first] = false;
}
});
}
class deinit_t : public platf::deinit_t {
public:
~deinit_t() override {
platf_input.reset();
}
};
[[nodiscard]] std::unique_ptr<platf::deinit_t> init() {
platf_input = platf::input();
return std::make_unique<deinit_t>();
}
std::shared_ptr<input_t> alloc(safe::mail_t mail) {
auto input = std::make_shared<input_t>(
mail->event<input::touch_port_t>(mail::touch_port),
mail->queue<platf::rumble_t>(mail::rumble));
// Workaround to ensure new frames will be captured when a client connects
task_pool.pushDelayed([]() {
platf::move_mouse(platf_input, 1, 1);
platf::move_mouse(platf_input, -1, -1);
},
100ms);
return input;
}
} // namespace input