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SDL/src/core/linux/SDL_evdev.c
Sam Lantinga f37eef948c Removed raw mouse events 
It's too close the 3.2.0 release for an API change like this.

If/when we re-add these, some things for consideration:
* What use cases does this enable that aren't currently possible?
* What cross-platform API guarantees do we make about the availability of these events? e.g. do we try to simulate them where raw input isn't actually available?
* How is this different from the existing relative mode, and how do we clearly explain when you want these events vs wanting relative mode?

Notes from @expikr:
First observation: the reason I originally passed denominators instead of multipliers was because some rational values cannot be exactly represented by floats (e.g 1/120) so instead let the end-developer decide how to do the dividing themselves. It was the reason why it was using split values with an integer numerator to begin with, instead of having both as floats or even just normalize it in advance.

On the other hand, passing them as multipliers might have hypothetical uses for dynamically passing end-user controlled scaling in a transparent manner without coupling? (Though in that case why not just do that as additional fields appended to `motion` structs in an API-compatible layout?)

So it’s somewhat of a philosophical judgement of what this API of optional availability do we intend for it to present itself as:
- should it be a bit-perfect escape hatch with the absolute minimally-denominal abstraction over platform details just enough to be able to serve the full information (á la HIDPIAPI),
- or a renewed ergonomic API for splitting relative motion from cursor motion (in light of The Great Warping Purge) so that it is unburdened by legacy RelativeMode state machines, in which case it would be more appropriate to just call it `RELATIVE` instead of `RAW` and should be added alongside another new event purely for cursor events?

This alternate API stream was conceived in the context of preserving compatibility of the existing RelativeMode state machine by adding an escape hatch. So given the same context, my taste leans towards the former designation.

However, as The Great Warping Purge has made it potentially viable to do so, if I were allowed to break ABI by nuking the RelativeMode state machine entirely, I would prefer the latter designation unified as one of three separate components split from the old state machine, each independently controlled by platform-dependent availability without any state switching of a leaky melting pot:
- cursor visibility controls (if platform has cursor)
- cursor motion events (if platform has cursor)
- relative motion events (if the platform reports hardware motion)
2024-12-21 05:18:42 -08:00

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/*
Simple DirectMedia Layer
Copyright (C) 1997-2024 Sam Lantinga <slouken@libsdl.org>
This software is provided 'as-is', without any express or implied
warranty. In no event will the authors be held liable for any damages
arising from the use of this software.
Permission is granted to anyone to use this software for any purpose,
including commercial applications, and to alter it and redistribute it
freely, subject to the following restrictions:
1. The origin of this software must not be misrepresented; you must not
claim that you wrote the original software. If you use this software
in a product, an acknowledgment in the product documentation would be
appreciated but is not required.
2. Altered source versions must be plainly marked as such, and must not be
misrepresented as being the original software.
3. This notice may not be removed or altered from any source distribution.
*/
#include "SDL_internal.h"
#ifdef SDL_INPUT_LINUXEV
// This is based on the linux joystick driver
/* References: https://www.kernel.org/doc/Documentation/input/input.txt
* https://www.kernel.org/doc/Documentation/input/event-codes.txt
* /usr/include/linux/input.h
* The evtest application is also useful to debug the protocol
*/
#include "SDL_evdev.h"
#include "SDL_evdev_kbd.h"
#include <sys/stat.h>
#include <unistd.h>
#include <fcntl.h>
#include <sys/ioctl.h>
#include <linux/input.h>
#include "../../events/SDL_events_c.h"
#include "../../events/SDL_scancode_tables_c.h"
#include "../../core/linux/SDL_evdev_capabilities.h"
#include "../../core/linux/SDL_udev.h"
// These are not defined in older Linux kernel headers
#ifndef SYN_DROPPED
#define SYN_DROPPED 3
#endif
#ifndef ABS_MT_SLOT
#define ABS_MT_SLOT 0x2f
#define ABS_MT_POSITION_X 0x35
#define ABS_MT_POSITION_Y 0x36
#define ABS_MT_TRACKING_ID 0x39
#define ABS_MT_PRESSURE 0x3a
#endif
#ifndef REL_WHEEL_HI_RES
#define REL_WHEEL_HI_RES 0x0b
#define REL_HWHEEL_HI_RES 0x0c
#endif
// The field to look up in struct input_event for integer seconds
#ifndef input_event_sec
#define input_event_sec time.tv_sec
#endif
// The field to look up in struct input_event for fractional seconds
#ifndef input_event_usec
#define input_event_usec time.tv_usec
#endif
typedef struct SDL_evdevlist_item
{
char *path;
int fd;
int udev_class;
// TODO: use this for every device, not just touchscreen
bool out_of_sync;
/* TODO: expand on this to have data for every possible class (mouse,
keyboard, touchpad, etc.). Also there's probably some things in here we
can pull out to the SDL_evdevlist_item i.e. name */
bool is_touchscreen;
struct
{
char *name;
int min_x, max_x, range_x;
int min_y, max_y, range_y;
int min_pressure, max_pressure, range_pressure;
int max_slots;
int current_slot;
struct
{
enum
{
EVDEV_TOUCH_SLOTDELTA_NONE = 0,
EVDEV_TOUCH_SLOTDELTA_DOWN,
EVDEV_TOUCH_SLOTDELTA_UP,
EVDEV_TOUCH_SLOTDELTA_MOVE
} delta;
int tracking_id;
int x, y, pressure;
} *slots;
} *touchscreen_data;
// Mouse state
bool high_res_wheel;
bool high_res_hwheel;
bool relative_mouse;
int mouse_x, mouse_y;
int mouse_wheel, mouse_hwheel;
int min_x, max_x, range_x;
int min_y, max_y, range_y;
struct SDL_evdevlist_item *next;
} SDL_evdevlist_item;
typedef struct SDL_EVDEV_PrivateData
{
int ref_count;
int num_devices;
SDL_evdevlist_item *first;
SDL_evdevlist_item *last;
SDL_EVDEV_keyboard_state *kbd;
} SDL_EVDEV_PrivateData;
static SDL_EVDEV_PrivateData *_this = NULL;
static SDL_Scancode SDL_EVDEV_translate_keycode(int keycode);
static void SDL_EVDEV_sync_device(SDL_evdevlist_item *item);
static bool SDL_EVDEV_device_removed(const char *dev_path);
static bool SDL_EVDEV_device_added(const char *dev_path, int udev_class);
#ifdef SDL_USE_LIBUDEV
static void SDL_EVDEV_udev_callback(SDL_UDEV_deviceevent udev_event, int udev_class, const char *dev_path);
#endif // SDL_USE_LIBUDEV
static Uint8 EVDEV_MouseButtons[] = {
SDL_BUTTON_LEFT, // BTN_LEFT 0x110
SDL_BUTTON_RIGHT, // BTN_RIGHT 0x111
SDL_BUTTON_MIDDLE, // BTN_MIDDLE 0x112
SDL_BUTTON_X1, // BTN_SIDE 0x113
SDL_BUTTON_X2, // BTN_EXTRA 0x114
SDL_BUTTON_X2 + 1, // BTN_FORWARD 0x115
SDL_BUTTON_X2 + 2, // BTN_BACK 0x116
SDL_BUTTON_X2 + 3 // BTN_TASK 0x117
};
static bool SDL_EVDEV_SetRelativeMouseMode(bool enabled)
{
// Mice already send relative events through this interface
return true;
}
static void SDL_EVDEV_UpdateKeyboardMute(void)
{
if (SDL_EVDEV_GetDeviceCount(SDL_UDEV_DEVICE_KEYBOARD) > 0) {
SDL_EVDEV_kbd_set_muted(_this->kbd, true);
} else {
SDL_EVDEV_kbd_set_muted(_this->kbd, false);
}
}
bool SDL_EVDEV_Init(void)
{
if (!_this) {
_this = (SDL_EVDEV_PrivateData *)SDL_calloc(1, sizeof(*_this));
if (!_this) {
return false;
}
#ifdef SDL_USE_LIBUDEV
if (!SDL_UDEV_Init()) {
SDL_free(_this);
_this = NULL;
return false;
}
// Set up the udev callback
if (!SDL_UDEV_AddCallback(SDL_EVDEV_udev_callback)) {
SDL_UDEV_Quit();
SDL_free(_this);
_this = NULL;
return false;
}
// Force a scan to build the initial device list
SDL_UDEV_Scan();
#else
{
/* Allow the user to specify a list of devices explicitly of
the form:
deviceclass:path[,deviceclass:path[,...]]
where device class is an integer representing the
SDL_UDEV_deviceclass and path is the full path to
the event device. */
const char *devices = SDL_GetHint(SDL_HINT_EVDEV_DEVICES);
if (devices) {
/* Assume this is the old use of the env var and it is not in
ROM. */
char *rest = (char *)devices;
char *spec;
while ((spec = SDL_strtok_r(rest, ",", &rest))) {
char *endofcls = 0;
long cls = SDL_strtol(spec, &endofcls, 0);
if (endofcls) {
SDL_EVDEV_device_added(endofcls + 1, cls);
}
}
} else {
// TODO: Scan the devices manually, like a caveman
}
}
#endif // SDL_USE_LIBUDEV
_this->kbd = SDL_EVDEV_kbd_init();
SDL_EVDEV_UpdateKeyboardMute();
}
SDL_GetMouse()->SetRelativeMouseMode = SDL_EVDEV_SetRelativeMouseMode;
_this->ref_count += 1;
return true;
}
void SDL_EVDEV_Quit(void)
{
if (!_this) {
return;
}
_this->ref_count -= 1;
if (_this->ref_count < 1) {
#ifdef SDL_USE_LIBUDEV
SDL_UDEV_DelCallback(SDL_EVDEV_udev_callback);
SDL_UDEV_Quit();
#endif // SDL_USE_LIBUDEV
// Remove existing devices
while (_this->first) {
SDL_EVDEV_device_removed(_this->first->path);
}
SDL_EVDEV_kbd_quit(_this->kbd);
SDL_assert(_this->first == NULL);
SDL_assert(_this->last == NULL);
SDL_assert(_this->num_devices == 0);
SDL_free(_this);
_this = NULL;
}
}
#ifdef SDL_USE_LIBUDEV
static void SDL_EVDEV_udev_callback(SDL_UDEV_deviceevent udev_event, int udev_class,
const char *dev_path)
{
if (!dev_path) {
return;
}
switch (udev_event) {
case SDL_UDEV_DEVICEADDED:
if (!(udev_class & (SDL_UDEV_DEVICE_MOUSE | SDL_UDEV_DEVICE_HAS_KEYS | SDL_UDEV_DEVICE_TOUCHSCREEN | SDL_UDEV_DEVICE_TOUCHPAD))) {
return;
}
if (udev_class & SDL_UDEV_DEVICE_JOYSTICK) {
return;
}
SDL_EVDEV_device_added(dev_path, udev_class);
break;
case SDL_UDEV_DEVICEREMOVED:
SDL_EVDEV_device_removed(dev_path);
break;
default:
break;
}
}
#endif // SDL_USE_LIBUDEV
void SDL_EVDEV_SetVTSwitchCallbacks(void (*release_callback)(void*), void *release_callback_data,
void (*acquire_callback)(void*), void *acquire_callback_data)
{
SDL_EVDEV_kbd_set_vt_switch_callbacks(_this->kbd,
release_callback, release_callback_data,
acquire_callback, acquire_callback_data);
}
int SDL_EVDEV_GetDeviceCount(int device_class)
{
SDL_evdevlist_item *item;
int count = 0;
for (item = _this->first; item; item = item->next) {
if ((item->udev_class & device_class) == device_class) {
++count;
}
}
return count;
}
void SDL_EVDEV_Poll(void)
{
struct input_event events[32];
int i, j, len;
SDL_evdevlist_item *item;
SDL_Scancode scancode;
int mouse_button;
SDL_Mouse *mouse;
float norm_x, norm_y, norm_pressure;
if (!_this) {
return;
}
#ifdef SDL_USE_LIBUDEV
SDL_UDEV_Poll();
#endif
SDL_EVDEV_kbd_update(_this->kbd);
mouse = SDL_GetMouse();
for (item = _this->first; item; item = item->next) {
while ((len = read(item->fd, events, sizeof(events))) > 0) {
len /= sizeof(events[0]);
for (i = 0; i < len; ++i) {
struct input_event *event = &events[i];
/* special handling for touchscreen, that should eventually be
used for all devices */
if (item->out_of_sync && item->is_touchscreen &&
event->type == EV_SYN && event->code != SYN_REPORT) {
break;
}
switch (event->type) {
case EV_KEY:
if (event->code >= BTN_MOUSE && event->code < BTN_MOUSE + SDL_arraysize(EVDEV_MouseButtons)) {
Uint64 timestamp = SDL_EVDEV_GetEventTimestamp(event);
mouse_button = event->code - BTN_MOUSE;
SDL_SendMouseButton(timestamp, mouse->focus, (SDL_MouseID)item->fd, EVDEV_MouseButtons[mouse_button], (event->value != 0));
break;
}
/* BTN_TOUCH event value 1 indicates there is contact with
a touchscreen or trackpad (earliest finger's current
position is sent in EV_ABS ABS_X/ABS_Y, switching to
next finger after earliest is released) */
if (item->is_touchscreen && event->code == BTN_TOUCH) {
if (item->touchscreen_data->max_slots == 1) {
if (event->value) {
item->touchscreen_data->slots[0].delta = EVDEV_TOUCH_SLOTDELTA_DOWN;
} else {
item->touchscreen_data->slots[0].delta = EVDEV_TOUCH_SLOTDELTA_UP;
}
}
break;
}
// Probably keyboard
{
Uint64 timestamp = SDL_EVDEV_GetEventTimestamp(event);
scancode = SDL_EVDEV_translate_keycode(event->code);
if (event->value == 0) {
SDL_SendKeyboardKey(timestamp, (SDL_KeyboardID)item->fd, event->code, scancode, false);
} else if (event->value == 1 || event->value == 2 /* key repeated */) {
SDL_SendKeyboardKey(timestamp, (SDL_KeyboardID)item->fd, event->code, scancode, true);
}
SDL_EVDEV_kbd_keycode(_this->kbd, event->code, event->value);
}
break;
case EV_ABS:
switch (event->code) {
case ABS_MT_SLOT:
if (!item->is_touchscreen) { // FIXME: temp hack
break;
}
item->touchscreen_data->current_slot = event->value;
break;
case ABS_MT_TRACKING_ID:
if (!item->is_touchscreen) { // FIXME: temp hack
break;
}
if (event->value >= 0) {
item->touchscreen_data->slots[item->touchscreen_data->current_slot].tracking_id = event->value + 1;
item->touchscreen_data->slots[item->touchscreen_data->current_slot].delta = EVDEV_TOUCH_SLOTDELTA_DOWN;
} else {
item->touchscreen_data->slots[item->touchscreen_data->current_slot].delta = EVDEV_TOUCH_SLOTDELTA_UP;
}
break;
case ABS_MT_POSITION_X:
if (!item->is_touchscreen) { // FIXME: temp hack
break;
}
item->touchscreen_data->slots[item->touchscreen_data->current_slot].x = event->value;
if (item->touchscreen_data->slots[item->touchscreen_data->current_slot].delta == EVDEV_TOUCH_SLOTDELTA_NONE) {
item->touchscreen_data->slots[item->touchscreen_data->current_slot].delta = EVDEV_TOUCH_SLOTDELTA_MOVE;
}
break;
case ABS_MT_POSITION_Y:
if (!item->is_touchscreen) { // FIXME: temp hack
break;
}
item->touchscreen_data->slots[item->touchscreen_data->current_slot].y = event->value;
if (item->touchscreen_data->slots[item->touchscreen_data->current_slot].delta == EVDEV_TOUCH_SLOTDELTA_NONE) {
item->touchscreen_data->slots[item->touchscreen_data->current_slot].delta = EVDEV_TOUCH_SLOTDELTA_MOVE;
}
break;
case ABS_MT_PRESSURE:
if (!item->is_touchscreen) { // FIXME: temp hack
break;
}
item->touchscreen_data->slots[item->touchscreen_data->current_slot].pressure = event->value;
if (item->touchscreen_data->slots[item->touchscreen_data->current_slot].delta == EVDEV_TOUCH_SLOTDELTA_NONE) {
item->touchscreen_data->slots[item->touchscreen_data->current_slot].delta = EVDEV_TOUCH_SLOTDELTA_MOVE;
}
break;
case ABS_X:
if (item->is_touchscreen) {
if (item->touchscreen_data->max_slots != 1) {
break;
}
item->touchscreen_data->slots[0].x = event->value;
} else if (!item->relative_mouse) {
item->mouse_x = event->value;
}
break;
case ABS_Y:
if (item->is_touchscreen) {
if (item->touchscreen_data->max_slots != 1) {
break;
}
item->touchscreen_data->slots[0].y = event->value;
} else if (!item->relative_mouse) {
item->mouse_y = event->value;
}
break;
default:
break;
}
break;
case EV_REL:
switch (event->code) {
case REL_X:
if (item->relative_mouse) {
item->mouse_x += event->value;
}
break;
case REL_Y:
if (item->relative_mouse) {
item->mouse_y += event->value;
}
break;
case REL_WHEEL:
if (!item->high_res_wheel) {
item->mouse_wheel += event->value;
}
break;
case REL_WHEEL_HI_RES:
SDL_assert(item->high_res_wheel);
item->mouse_wheel += event->value;
break;
case REL_HWHEEL:
if (!item->high_res_hwheel) {
item->mouse_hwheel += event->value;
}
break;
case REL_HWHEEL_HI_RES:
SDL_assert(item->high_res_hwheel);
item->mouse_hwheel += event->value;
break;
default:
break;
}
break;
case EV_SYN:
switch (event->code) {
case SYN_REPORT:
// Send mouse axis changes together to ensure consistency and reduce event processing overhead
if (item->relative_mouse) {
if (item->mouse_x != 0 || item->mouse_y != 0) {
Uint64 timestamp = SDL_EVDEV_GetEventTimestamp(event);
SDL_SendMouseMotion(timestamp, mouse->focus, (SDL_MouseID)item->fd, item->relative_mouse, (float)item->mouse_x, (float)item->mouse_y);
item->mouse_x = item->mouse_y = 0;
}
} else if (item->range_x > 0 && item->range_y > 0) {
int screen_w = 0, screen_h = 0;
const SDL_DisplayMode *mode = NULL;
if (mouse->focus) {
mode = SDL_GetCurrentDisplayMode(SDL_GetDisplayForWindow(mouse->focus));
}
if (!mode) {
mode = SDL_GetCurrentDisplayMode(SDL_GetPrimaryDisplay());
}
if (mode) {
screen_w = mode->w;
screen_h = mode->h;
}
SDL_SendMouseMotion(SDL_EVDEV_GetEventTimestamp(event), mouse->focus, (SDL_MouseID)item->fd, item->relative_mouse,
(float)(item->mouse_x - item->min_x) * screen_w / item->range_x,
(float)(item->mouse_y - item->min_y) * screen_h / item->range_y);
}
if (item->mouse_wheel != 0 || item->mouse_hwheel != 0) {
Uint64 timestamp = SDL_EVDEV_GetEventTimestamp(event);
const float denom = (item->high_res_hwheel ? 120.0f : 1.0f);
SDL_SendMouseWheel(timestamp,
mouse->focus, (SDL_MouseID)item->fd,
item->mouse_hwheel / denom,
item->mouse_wheel / denom,
SDL_MOUSEWHEEL_NORMAL);
item->mouse_wheel = item->mouse_hwheel = 0;
}
if (!item->is_touchscreen) { // FIXME: temp hack
break;
}
for (j = 0; j < item->touchscreen_data->max_slots; j++) {
norm_x = (float)(item->touchscreen_data->slots[j].x - item->touchscreen_data->min_x) /
(float)item->touchscreen_data->range_x;
norm_y = (float)(item->touchscreen_data->slots[j].y - item->touchscreen_data->min_y) /
(float)item->touchscreen_data->range_y;
if (item->touchscreen_data->range_pressure > 0) {
norm_pressure = (float)(item->touchscreen_data->slots[j].pressure - item->touchscreen_data->min_pressure) /
(float)item->touchscreen_data->range_pressure;
} else {
// This touchscreen does not support pressure
norm_pressure = 1.0f;
}
/* FIXME: the touch's window shouldn't be null, but
* the coordinate space of touch positions needs to
* be window-relative in that case. */
switch (item->touchscreen_data->slots[j].delta) {
case EVDEV_TOUCH_SLOTDELTA_DOWN:
SDL_SendTouch(SDL_EVDEV_GetEventTimestamp(event), item->fd, item->touchscreen_data->slots[j].tracking_id, NULL, true, norm_x, norm_y, norm_pressure);
item->touchscreen_data->slots[j].delta = EVDEV_TOUCH_SLOTDELTA_NONE;
break;
case EVDEV_TOUCH_SLOTDELTA_UP:
SDL_SendTouch(SDL_EVDEV_GetEventTimestamp(event), item->fd, item->touchscreen_data->slots[j].tracking_id, NULL, false, norm_x, norm_y, norm_pressure);
item->touchscreen_data->slots[j].tracking_id = 0;
item->touchscreen_data->slots[j].delta = EVDEV_TOUCH_SLOTDELTA_NONE;
break;
case EVDEV_TOUCH_SLOTDELTA_MOVE:
SDL_SendTouchMotion(SDL_EVDEV_GetEventTimestamp(event), item->fd, item->touchscreen_data->slots[j].tracking_id, NULL, norm_x, norm_y, norm_pressure);
item->touchscreen_data->slots[j].delta = EVDEV_TOUCH_SLOTDELTA_NONE;
break;
default:
break;
}
}
if (item->out_of_sync) {
item->out_of_sync = false;
}
break;
case SYN_DROPPED:
if (item->is_touchscreen) {
item->out_of_sync = true;
}
SDL_EVDEV_sync_device(item);
break;
default:
break;
}
break;
}
}
}
}
}
static SDL_Scancode SDL_EVDEV_translate_keycode(int keycode)
{
SDL_Scancode scancode = SDL_GetScancodeFromTable(SDL_SCANCODE_TABLE_LINUX, keycode);
#ifdef DEBUG_SCANCODES
if (scancode == SDL_SCANCODE_UNKNOWN) {
/* BTN_TOUCH is handled elsewhere, but we might still end up here if
you get an unexpected BTN_TOUCH from something SDL believes is not
a touch device. In this case, we'd rather not get a misleading
SDL_Log message about an unknown key. */
if (keycode != BTN_TOUCH) {
SDL_Log("The key you just pressed is not recognized by SDL. To help "
"get this fixed, please report this to the SDL forums/mailing list "
"<https://discourse.libsdl.org/> EVDEV KeyCode %d",
keycode);
}
}
#endif // DEBUG_SCANCODES
return scancode;
}
static bool SDL_EVDEV_init_keyboard(SDL_evdevlist_item *item, int udev_class)
{
char name[128];
name[0] = '\0';
ioctl(item->fd, EVIOCGNAME(sizeof(name)), name);
SDL_AddKeyboard((SDL_KeyboardID)item->fd, name, true);
return true;
}
static void SDL_EVDEV_destroy_keyboard(SDL_evdevlist_item *item)
{
SDL_RemoveKeyboard((SDL_KeyboardID)item->fd, true);
}
static bool SDL_EVDEV_init_mouse(SDL_evdevlist_item *item, int udev_class)
{
char name[128];
int ret;
struct input_absinfo abs_info;
name[0] = '\0';
ioctl(item->fd, EVIOCGNAME(sizeof(name)), name);
SDL_AddMouse((SDL_MouseID)item->fd, name, true);
ret = ioctl(item->fd, EVIOCGABS(ABS_X), &abs_info);
if (ret < 0) {
// no absolute mode info, continue
return true;
}
item->min_x = abs_info.minimum;
item->max_x = abs_info.maximum;
item->range_x = abs_info.maximum - abs_info.minimum;
ret = ioctl(item->fd, EVIOCGABS(ABS_Y), &abs_info);
if (ret < 0) {
// no absolute mode info, continue
return true;
}
item->min_y = abs_info.minimum;
item->max_y = abs_info.maximum;
item->range_y = abs_info.maximum - abs_info.minimum;
return true;
}
static void SDL_EVDEV_destroy_mouse(SDL_evdevlist_item *item)
{
SDL_RemoveMouse((SDL_MouseID)item->fd, true);
}
static bool SDL_EVDEV_init_touchscreen(SDL_evdevlist_item *item, int udev_class)
{
int ret;
unsigned long xreq, yreq;
char name[64];
struct input_absinfo abs_info;
if (!item->is_touchscreen) {
return true;
}
item->touchscreen_data = SDL_calloc(1, sizeof(*item->touchscreen_data));
if (!item->touchscreen_data) {
return false;
}
ret = ioctl(item->fd, EVIOCGNAME(sizeof(name)), name);
if (ret < 0) {
SDL_free(item->touchscreen_data);
return SDL_SetError("Failed to get evdev touchscreen name");
}
item->touchscreen_data->name = SDL_strdup(name);
if (!item->touchscreen_data->name) {
SDL_free(item->touchscreen_data);
return false;
}
ret = ioctl(item->fd, EVIOCGABS(ABS_MT_SLOT), &abs_info);
if (ret < 0) {
SDL_free(item->touchscreen_data->name);
SDL_free(item->touchscreen_data);
return SDL_SetError("Failed to get evdev touchscreen limits");
}
if (abs_info.maximum == 0) {
item->touchscreen_data->max_slots = 1;
xreq = EVIOCGABS(ABS_X);
yreq = EVIOCGABS(ABS_Y);
} else {
item->touchscreen_data->max_slots = abs_info.maximum + 1;
xreq = EVIOCGABS(ABS_MT_POSITION_X);
yreq = EVIOCGABS(ABS_MT_POSITION_Y);
}
ret = ioctl(item->fd, xreq, &abs_info);
if (ret < 0) {
SDL_free(item->touchscreen_data->name);
SDL_free(item->touchscreen_data);
return SDL_SetError("Failed to get evdev touchscreen limits");
}
item->touchscreen_data->min_x = abs_info.minimum;
item->touchscreen_data->max_x = abs_info.maximum;
item->touchscreen_data->range_x = abs_info.maximum - abs_info.minimum;
ret = ioctl(item->fd, yreq, &abs_info);
if (ret < 0) {
SDL_free(item->touchscreen_data->name);
SDL_free(item->touchscreen_data);
return SDL_SetError("Failed to get evdev touchscreen limits");
}
item->touchscreen_data->min_y = abs_info.minimum;
item->touchscreen_data->max_y = abs_info.maximum;
item->touchscreen_data->range_y = abs_info.maximum - abs_info.minimum;
ret = ioctl(item->fd, EVIOCGABS(ABS_MT_PRESSURE), &abs_info);
if (ret < 0) {
SDL_free(item->touchscreen_data->name);
SDL_free(item->touchscreen_data);
return SDL_SetError("Failed to get evdev touchscreen limits");
}
item->touchscreen_data->min_pressure = abs_info.minimum;
item->touchscreen_data->max_pressure = abs_info.maximum;
item->touchscreen_data->range_pressure = abs_info.maximum - abs_info.minimum;
item->touchscreen_data->slots = SDL_calloc(
item->touchscreen_data->max_slots,
sizeof(*item->touchscreen_data->slots));
if (!item->touchscreen_data->slots) {
SDL_free(item->touchscreen_data->name);
SDL_free(item->touchscreen_data);
return false;
}
ret = SDL_AddTouch(item->fd, // I guess our fd is unique enough
(udev_class & SDL_UDEV_DEVICE_TOUCHPAD) ? SDL_TOUCH_DEVICE_INDIRECT_ABSOLUTE : SDL_TOUCH_DEVICE_DIRECT,
item->touchscreen_data->name);
if (ret < 0) {
SDL_free(item->touchscreen_data->slots);
SDL_free(item->touchscreen_data->name);
SDL_free(item->touchscreen_data);
return false;
}
return true;
}
static void SDL_EVDEV_destroy_touchscreen(SDL_evdevlist_item *item)
{
if (!item->is_touchscreen) {
return;
}
SDL_DelTouch(item->fd);
SDL_free(item->touchscreen_data->slots);
SDL_free(item->touchscreen_data->name);
SDL_free(item->touchscreen_data);
}
static void SDL_EVDEV_sync_device(SDL_evdevlist_item *item)
{
#ifdef EVIOCGMTSLOTS
int i, ret;
struct input_absinfo abs_info;
/*
* struct input_mt_request_layout {
* __u32 code;
* __s32 values[num_slots];
* };
*
* this is the structure we're trying to emulate
*/
Uint32 *mt_req_code;
Sint32 *mt_req_values;
size_t mt_req_size;
// TODO: sync devices other than touchscreen
if (!item->is_touchscreen) {
return;
}
mt_req_size = sizeof(*mt_req_code) +
sizeof(*mt_req_values) * item->touchscreen_data->max_slots;
mt_req_code = SDL_calloc(1, mt_req_size);
if (!mt_req_code) {
return;
}
mt_req_values = (Sint32 *)mt_req_code + 1;
*mt_req_code = ABS_MT_TRACKING_ID;
ret = ioctl(item->fd, EVIOCGMTSLOTS(mt_req_size), mt_req_code);
if (ret < 0) {
SDL_free(mt_req_code);
return;
}
for (i = 0; i < item->touchscreen_data->max_slots; i++) {
/*
* This doesn't account for the very edge case of the user removing their
* finger and replacing it on the screen during the time we're out of sync,
* which'll mean that we're not going from down -> up or up -> down, we're
* going from down -> down but with a different tracking id, meaning we'd
* have to tell SDL of the two events, but since we wait till SYN_REPORT in
* SDL_EVDEV_Poll to tell SDL, the current structure of this code doesn't
* allow it. Lets just pray to God it doesn't happen.
*/
if (item->touchscreen_data->slots[i].tracking_id == 0 &&
mt_req_values[i] >= 0) {
item->touchscreen_data->slots[i].tracking_id = mt_req_values[i] + 1;
item->touchscreen_data->slots[i].delta = EVDEV_TOUCH_SLOTDELTA_DOWN;
} else if (item->touchscreen_data->slots[i].tracking_id != 0 &&
mt_req_values[i] < 0) {
item->touchscreen_data->slots[i].tracking_id = 0;
item->touchscreen_data->slots[i].delta = EVDEV_TOUCH_SLOTDELTA_UP;
}
}
*mt_req_code = ABS_MT_POSITION_X;
ret = ioctl(item->fd, EVIOCGMTSLOTS(mt_req_size), mt_req_code);
if (ret < 0) {
SDL_free(mt_req_code);
return;
}
for (i = 0; i < item->touchscreen_data->max_slots; i++) {
if (item->touchscreen_data->slots[i].tracking_id != 0 &&
item->touchscreen_data->slots[i].x != mt_req_values[i]) {
item->touchscreen_data->slots[i].x = mt_req_values[i];
if (item->touchscreen_data->slots[i].delta ==
EVDEV_TOUCH_SLOTDELTA_NONE) {
item->touchscreen_data->slots[i].delta =
EVDEV_TOUCH_SLOTDELTA_MOVE;
}
}
}
*mt_req_code = ABS_MT_POSITION_Y;
ret = ioctl(item->fd, EVIOCGMTSLOTS(mt_req_size), mt_req_code);
if (ret < 0) {
SDL_free(mt_req_code);
return;
}
for (i = 0; i < item->touchscreen_data->max_slots; i++) {
if (item->touchscreen_data->slots[i].tracking_id != 0 &&
item->touchscreen_data->slots[i].y != mt_req_values[i]) {
item->touchscreen_data->slots[i].y = mt_req_values[i];
if (item->touchscreen_data->slots[i].delta ==
EVDEV_TOUCH_SLOTDELTA_NONE) {
item->touchscreen_data->slots[i].delta =
EVDEV_TOUCH_SLOTDELTA_MOVE;
}
}
}
*mt_req_code = ABS_MT_PRESSURE;
ret = ioctl(item->fd, EVIOCGMTSLOTS(mt_req_size), mt_req_code);
if (ret < 0) {
SDL_free(mt_req_code);
return;
}
for (i = 0; i < item->touchscreen_data->max_slots; i++) {
if (item->touchscreen_data->slots[i].tracking_id != 0 &&
item->touchscreen_data->slots[i].pressure != mt_req_values[i]) {
item->touchscreen_data->slots[i].pressure = mt_req_values[i];
if (item->touchscreen_data->slots[i].delta ==
EVDEV_TOUCH_SLOTDELTA_NONE) {
item->touchscreen_data->slots[i].delta =
EVDEV_TOUCH_SLOTDELTA_MOVE;
}
}
}
ret = ioctl(item->fd, EVIOCGABS(ABS_MT_SLOT), &abs_info);
if (ret < 0) {
SDL_free(mt_req_code);
return;
}
item->touchscreen_data->current_slot = abs_info.value;
SDL_free(mt_req_code);
#endif // EVIOCGMTSLOTS
}
static bool SDL_EVDEV_device_added(const char *dev_path, int udev_class)
{
SDL_evdevlist_item *item;
unsigned long relbit[NBITS(REL_MAX)] = { 0 };
// Check to make sure it's not already in list.
for (item = _this->first; item; item = item->next) {
if (SDL_strcmp(dev_path, item->path) == 0) {
return false; // already have this one
}
}
item = (SDL_evdevlist_item *)SDL_calloc(1, sizeof(SDL_evdevlist_item));
if (!item) {
return false;
}
item->fd = open(dev_path, O_RDONLY | O_NONBLOCK | O_CLOEXEC);
if (item->fd < 0) {
SDL_free(item);
return SDL_SetError("Unable to open %s", dev_path);
}
item->path = SDL_strdup(dev_path);
if (!item->path) {
close(item->fd);
SDL_free(item);
return false;
}
item->udev_class = udev_class;
if (ioctl(item->fd, EVIOCGBIT(EV_REL, sizeof(relbit)), relbit) >= 0) {
item->relative_mouse = test_bit(REL_X, relbit) && test_bit(REL_Y, relbit);
item->high_res_wheel = test_bit(REL_WHEEL_HI_RES, relbit);
item->high_res_hwheel = test_bit(REL_HWHEEL_HI_RES, relbit);
}
// For now, we just treat a touchpad like a touchscreen
if (udev_class & (SDL_UDEV_DEVICE_TOUCHSCREEN | SDL_UDEV_DEVICE_TOUCHPAD)) {
item->is_touchscreen = true;
if (!SDL_EVDEV_init_touchscreen(item, udev_class)) {
close(item->fd);
SDL_free(item->path);
SDL_free(item);
return false;
}
}
if (udev_class & SDL_UDEV_DEVICE_MOUSE) {
if (!SDL_EVDEV_init_mouse(item, udev_class)) {
close(item->fd);
SDL_free(item->path);
SDL_free(item);
return false;
}
}
if (udev_class & SDL_UDEV_DEVICE_KEYBOARD) {
if (!SDL_EVDEV_init_keyboard(item, udev_class)) {
close(item->fd);
SDL_free(item->path);
SDL_free(item);
return false;
}
}
if (!_this->last) {
_this->first = _this->last = item;
} else {
_this->last->next = item;
_this->last = item;
}
SDL_EVDEV_sync_device(item);
SDL_EVDEV_UpdateKeyboardMute();
++_this->num_devices;
return true;
}
static bool SDL_EVDEV_device_removed(const char *dev_path)
{
SDL_evdevlist_item *item;
SDL_evdevlist_item *prev = NULL;
for (item = _this->first; item; item = item->next) {
// found it, remove it.
if (SDL_strcmp(dev_path, item->path) == 0) {
if (prev) {
prev->next = item->next;
} else {
SDL_assert(_this->first == item);
_this->first = item->next;
}
if (item == _this->last) {
_this->last = prev;
}
if (item->is_touchscreen) {
SDL_EVDEV_destroy_touchscreen(item);
}
if (item->udev_class & SDL_UDEV_DEVICE_MOUSE) {
SDL_EVDEV_destroy_mouse(item);
}
if (item->udev_class & SDL_UDEV_DEVICE_KEYBOARD) {
SDL_EVDEV_destroy_keyboard(item);
}
close(item->fd);
SDL_free(item->path);
SDL_free(item);
SDL_EVDEV_UpdateKeyboardMute();
_this->num_devices--;
return true;
}
prev = item;
}
return false;
}
Uint64 SDL_EVDEV_GetEventTimestamp(struct input_event *event)
{
static Uint64 timestamp_offset;
Uint64 timestamp;
Uint64 now = SDL_GetTicksNS();
/* The kernel internally has nanosecond timestamps, but converts it
to microseconds when delivering the events */
timestamp = event->input_event_sec;
timestamp *= SDL_NS_PER_SECOND;
timestamp += SDL_US_TO_NS(event->input_event_usec);
if (!timestamp_offset) {
timestamp_offset = (now - timestamp);
}
timestamp += timestamp_offset;
if (timestamp > now) {
timestamp_offset -= (timestamp - now);
timestamp = now;
}
return timestamp;
}
#endif // SDL_INPUT_LINUXEV
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