Hash :
d6910106
Author :
Date :
2023-09-24T17:17:49
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/*
Simple DirectMedia Layer
Copyright (C) 1997-2023 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_JOYSTICK_LINUX
#ifndef SDL_INPUT_LINUXEV
#error SDL now requires a Linux 2.4+ kernel with /dev/input/event support.
#endif
/* This is the Linux implementation of the SDL joystick API */
#include <sys/stat.h>
#include <errno.h> /* errno, strerror */
#include <fcntl.h>
#include <limits.h> /* For the definition of PATH_MAX */
#ifdef HAVE_INOTIFY
#include <sys/inotify.h>
#endif
#include <sys/ioctl.h>
#include <unistd.h>
#include <dirent.h>
#include <linux/joystick.h>
#include "SDL_hints.h"
#include "SDL_joystick.h"
#include "SDL_log.h"
#include "SDL_endian.h"
#include "SDL_timer.h"
#include "../../events/SDL_events_c.h"
#include "../SDL_sysjoystick.h"
#include "../SDL_joystick_c.h"
#include "../steam/SDL_steamcontroller.h"
#include "SDL_sysjoystick_c.h"
#include "../hidapi/SDL_hidapijoystick_c.h"
/* This isn't defined in older Linux kernel headers */
#ifndef SYN_DROPPED
#define SYN_DROPPED 3
#endif
#ifndef BTN_NORTH
#define BTN_NORTH 0x133
#endif
#ifndef BTN_WEST
#define BTN_WEST 0x134
#endif
#ifndef BTN_DPAD_UP
#define BTN_DPAD_UP 0x220
#endif
#ifndef BTN_DPAD_DOWN
#define BTN_DPAD_DOWN 0x221
#endif
#ifndef BTN_DPAD_LEFT
#define BTN_DPAD_LEFT 0x222
#endif
#ifndef BTN_DPAD_RIGHT
#define BTN_DPAD_RIGHT 0x223
#endif
#ifndef BTN_TRIGGER_HAPPY
#define BTN_TRIGGER_HAPPY 0x2c0
#define BTN_TRIGGER_HAPPY1 0x2c0
#define BTN_TRIGGER_HAPPY2 0x2c1
#define BTN_TRIGGER_HAPPY3 0x2c2
#define BTN_TRIGGER_HAPPY4 0x2c3
#define BTN_TRIGGER_HAPPY5 0x2c4
#define BTN_TRIGGER_HAPPY6 0x2c5
#define BTN_TRIGGER_HAPPY7 0x2c6
#define BTN_TRIGGER_HAPPY8 0x2c7
#define BTN_TRIGGER_HAPPY9 0x2c8
#define BTN_TRIGGER_HAPPY10 0x2c9
#define BTN_TRIGGER_HAPPY11 0x2ca
#define BTN_TRIGGER_HAPPY12 0x2cb
#define BTN_TRIGGER_HAPPY13 0x2cc
#define BTN_TRIGGER_HAPPY14 0x2cd
#define BTN_TRIGGER_HAPPY15 0x2ce
#define BTN_TRIGGER_HAPPY16 0x2cf
#define BTN_TRIGGER_HAPPY17 0x2d0
#define BTN_TRIGGER_HAPPY18 0x2d1
#define BTN_TRIGGER_HAPPY19 0x2d2
#define BTN_TRIGGER_HAPPY20 0x2d3
#define BTN_TRIGGER_HAPPY21 0x2d4
#define BTN_TRIGGER_HAPPY22 0x2d5
#define BTN_TRIGGER_HAPPY23 0x2d6
#define BTN_TRIGGER_HAPPY24 0x2d7
#define BTN_TRIGGER_HAPPY25 0x2d8
#define BTN_TRIGGER_HAPPY26 0x2d9
#define BTN_TRIGGER_HAPPY27 0x2da
#define BTN_TRIGGER_HAPPY28 0x2db
#define BTN_TRIGGER_HAPPY29 0x2dc
#define BTN_TRIGGER_HAPPY30 0x2dd
#define BTN_TRIGGER_HAPPY31 0x2de
#define BTN_TRIGGER_HAPPY32 0x2df
#define BTN_TRIGGER_HAPPY33 0x2e0
#define BTN_TRIGGER_HAPPY34 0x2e1
#define BTN_TRIGGER_HAPPY35 0x2e2
#define BTN_TRIGGER_HAPPY36 0x2e3
#define BTN_TRIGGER_HAPPY37 0x2e4
#define BTN_TRIGGER_HAPPY38 0x2e5
#define BTN_TRIGGER_HAPPY39 0x2e6
#define BTN_TRIGGER_HAPPY40 0x2e7
#endif
#include "../../core/linux/SDL_evdev_capabilities.h"
#include "../../core/linux/SDL_udev.h"
#include "../../core/linux/SDL_sandbox.h"
#if 0
#define DEBUG_INPUT_EVENTS 1
#endif
#if 0
#define DEBUG_GAMEPAD_MAPPING 1
#endif
typedef enum
{
ENUMERATION_UNSET,
ENUMERATION_LIBUDEV,
ENUMERATION_FALLBACK
} EnumerationMethod;
static EnumerationMethod enumeration_method = ENUMERATION_UNSET;
static SDL_bool IsJoystickJSNode(const char *node);
static int MaybeAddDevice(const char *path);
static int MaybeRemoveDevice(const char *path);
/* A linked list of available joysticks */
typedef struct SDL_joylist_item
{
SDL_JoystickID device_instance;
char *path; /* "/dev/input/event2" or whatever */
char *name; /* "SideWinder 3D Pro" or whatever */
SDL_JoystickGUID guid;
dev_t devnum;
struct joystick_hwdata *hwdata;
struct SDL_joylist_item *next;
/* Steam Controller support */
SDL_bool m_bSteamController;
SDL_bool checked_mapping;
SDL_GamepadMapping *mapping;
} SDL_joylist_item;
static SDL_bool SDL_classic_joysticks = SDL_FALSE;
static SDL_joylist_item *SDL_joylist = NULL;
static SDL_joylist_item *SDL_joylist_tail = NULL;
static int numjoysticks = 0;
static int inotify_fd = -1;
static Uint32 last_joy_detect_time;
static time_t last_input_dir_mtime;
static void FixupDeviceInfoForMapping(int fd, struct input_id *inpid)
{
if (inpid->vendor == 0x045e && inpid->product == 0x0b05 && inpid->version == 0x0903) {
/* This is a Microsoft Xbox One Elite Series 2 controller */
unsigned long keybit[NBITS(KEY_MAX)] = { 0 };
/* The first version of the firmware duplicated all the inputs */
if ((ioctl(fd, EVIOCGBIT(EV_KEY, sizeof(keybit)), keybit) >= 0) &&
test_bit(0x2c0, keybit)) {
/* Change the version to 0x0902, so we can map it differently */
inpid->version = 0x0902;
}
}
/* For Atari vcs modern and classic controllers have the version reflecting
* firmware version, but the mapping stays stable so ignore
* version information */
if (inpid->vendor == 0x3250 && (inpid->product == 0x1001 || inpid->product == 0x1002)) {
inpid->version = 0;
}
}
#ifdef SDL_JOYSTICK_HIDAPI
static SDL_bool IsVirtualJoystick(Uint16 vendor, Uint16 product, Uint16 version, const char *name)
{
if (vendor == USB_VENDOR_MICROSOFT && product == USB_PRODUCT_XBOX_ONE_S && version == 0 &&
SDL_strcmp(name, "Xbox One S Controller") == 0) {
/* This is the virtual device created by the xow driver */
return SDL_TRUE;
}
return SDL_FALSE;
}
#endif /* SDL_JOYSTICK_HIDAPI */
static int GuessIsJoystick(int fd)
{
unsigned long evbit[NBITS(EV_MAX)] = { 0 };
unsigned long keybit[NBITS(KEY_MAX)] = { 0 };
unsigned long absbit[NBITS(ABS_MAX)] = { 0 };
unsigned long relbit[NBITS(REL_MAX)] = { 0 };
int devclass;
if ((ioctl(fd, EVIOCGBIT(0, sizeof(evbit)), evbit) < 0) ||
(ioctl(fd, EVIOCGBIT(EV_KEY, sizeof(keybit)), keybit) < 0) ||
(ioctl(fd, EVIOCGBIT(EV_REL, sizeof(relbit)), relbit) < 0) ||
(ioctl(fd, EVIOCGBIT(EV_ABS, sizeof(absbit)), absbit) < 0)) {
return 0;
}
devclass = SDL_EVDEV_GuessDeviceClass(evbit, absbit, keybit, relbit);
if (devclass & SDL_UDEV_DEVICE_JOYSTICK) {
return 1;
}
return 0;
}
static int IsJoystick(const char *path, int fd, char **name_return, SDL_JoystickGUID *guid)
{
struct input_id inpid;
char *name;
char product_string[128];
if (ioctl(fd, JSIOCGNAME(sizeof(product_string)), product_string) >= 0) {
SDL_zero(inpid);
#if SDL_USE_LIBUDEV
SDL_UDEV_GetProductInfo(path, &inpid.vendor, &inpid.product, &inpid.version);
#endif
} else {
/* When udev is enabled we only get joystick devices here, so there's no need to test them */
if (enumeration_method != ENUMERATION_LIBUDEV && !GuessIsJoystick(fd)) {
return 0;
}
if (ioctl(fd, EVIOCGID, &inpid) < 0) {
return 0;
}
if (ioctl(fd, EVIOCGNAME(sizeof(product_string)), product_string) < 0) {
return 0;
}
}
name = SDL_CreateJoystickName(inpid.vendor, inpid.product, NULL, product_string);
if (name == NULL) {
return 0;
}
#ifdef SDL_JOYSTICK_HIDAPI
if (!IsVirtualJoystick(inpid.vendor, inpid.product, inpid.version, name) &&
HIDAPI_IsDevicePresent(inpid.vendor, inpid.product, inpid.version, name)) {
/* The HIDAPI driver is taking care of this device */
SDL_free(name);
return 0;
}
#endif
FixupDeviceInfoForMapping(fd, &inpid);
#ifdef DEBUG_JOYSTICK
SDL_Log("Joystick: %s, bustype = %d, vendor = 0x%.4x, product = 0x%.4x, version = %d\n", name, inpid.bustype, inpid.vendor, inpid.product, inpid.version);
#endif
*guid = SDL_CreateJoystickGUID(inpid.bustype, inpid.vendor, inpid.product, inpid.version, name, 0, 0);
if (SDL_ShouldIgnoreJoystick(name, *guid)) {
SDL_free(name);
return 0;
}
*name_return = name;
return 1;
}
#if SDL_USE_LIBUDEV
static void joystick_udev_callback(SDL_UDEV_deviceevent udev_type, int udev_class, const char *devpath)
{
if (devpath == NULL) {
return;
}
switch (udev_type) {
case SDL_UDEV_DEVICEADDED:
if (!(udev_class & SDL_UDEV_DEVICE_JOYSTICK)) {
return;
}
if (SDL_classic_joysticks) {
if (!IsJoystickJSNode(devpath)) {
return;
}
} else {
if (IsJoystickJSNode(devpath)) {
return;
}
}
/* Wait a bit for the hidraw udev node to initialize */
SDL_Delay(10);
MaybeAddDevice(devpath);
break;
case SDL_UDEV_DEVICEREMOVED:
MaybeRemoveDevice(devpath);
break;
default:
break;
}
}
#endif /* SDL_USE_LIBUDEV */
static void FreeJoylistItem(SDL_joylist_item *item)
{
SDL_free(item->mapping);
SDL_free(item->path);
SDL_free(item->name);
SDL_free(item);
}
static int MaybeAddDevice(const char *path)
{
struct stat sb;
int fd = -1;
int isstick = 0;
char *name = NULL;
SDL_JoystickGUID guid;
SDL_joylist_item *item;
if (path == NULL) {
return -1;
}
if (stat(path, &sb) == -1) {
return -1;
}
/* Check to make sure it's not already in list. */
for (item = SDL_joylist; item != NULL; item = item->next) {
if (sb.st_rdev == item->devnum) {
return -1; /* already have this one */
}
}
fd = open(path, O_RDONLY | O_CLOEXEC, 0);
if (fd < 0) {
return -1;
}
#ifdef DEBUG_INPUT_EVENTS
SDL_Log("Checking %s\n", path);
#endif
isstick = IsJoystick(path, fd, &name, &guid);
close(fd);
if (!isstick) {
return -1;
}
item = (SDL_joylist_item *)SDL_calloc(1, sizeof(SDL_joylist_item));
if (item == NULL) {
SDL_free(name);
return -1;
}
item->devnum = sb.st_rdev;
item->path = SDL_strdup(path);
item->name = name;
item->guid = guid;
if ((item->path == NULL) || (item->name == NULL)) {
FreeJoylistItem(item);
return -1;
}
item->device_instance = SDL_GetNextJoystickInstanceID();
if (SDL_joylist_tail == NULL) {
SDL_joylist = SDL_joylist_tail = item;
} else {
SDL_joylist_tail->next = item;
SDL_joylist_tail = item;
}
/* Need to increment the joystick count before we post the event */
++numjoysticks;
SDL_PrivateJoystickAdded(item->device_instance);
return numjoysticks;
}
static void RemoveJoylistItem(SDL_joylist_item *item, SDL_joylist_item *prev)
{
if (item->hwdata) {
item->hwdata->item = NULL;
}
if (prev != NULL) {
prev->next = item->next;
} else {
SDL_assert(SDL_joylist == item);
SDL_joylist = item->next;
}
if (item == SDL_joylist_tail) {
SDL_joylist_tail = prev;
}
/* Need to decrement the joystick count before we post the event */
--numjoysticks;
SDL_PrivateJoystickRemoved(item->device_instance);
FreeJoylistItem(item);
}
static int MaybeRemoveDevice(const char *path)
{
SDL_joylist_item *item;
SDL_joylist_item *prev = NULL;
if (path == NULL) {
return -1;
}
for (item = SDL_joylist; item != NULL; item = item->next) {
/* found it, remove it. */
if (SDL_strcmp(path, item->path) == 0) {
const int retval = item->device_instance;
RemoveJoylistItem(item, prev);
return retval;
}
prev = item;
}
return -1;
}
static void HandlePendingRemovals(void)
{
SDL_joylist_item *prev = NULL;
SDL_joylist_item *item = SDL_joylist;
while (item != NULL) {
if (item->hwdata && item->hwdata->gone) {
RemoveJoylistItem(item, prev);
if (prev != NULL) {
item = prev->next;
} else {
item = SDL_joylist;
}
} else {
prev = item;
item = item->next;
}
}
}
static SDL_bool SteamControllerConnectedCallback(const char *name, SDL_JoystickGUID guid, int *device_instance)
{
SDL_joylist_item *item;
item = (SDL_joylist_item *)SDL_calloc(1, sizeof(SDL_joylist_item));
if (item == NULL) {
return SDL_FALSE;
}
item->path = SDL_strdup("");
item->name = SDL_strdup(name);
item->guid = guid;
item->m_bSteamController = SDL_TRUE;
if ((item->path == NULL) || (item->name == NULL)) {
FreeJoylistItem(item);
return SDL_FALSE;
}
*device_instance = item->device_instance = SDL_GetNextJoystickInstanceID();
if (SDL_joylist_tail == NULL) {
SDL_joylist = SDL_joylist_tail = item;
} else {
SDL_joylist_tail->next = item;
SDL_joylist_tail = item;
}
/* Need to increment the joystick count before we post the event */
++numjoysticks;
SDL_PrivateJoystickAdded(item->device_instance);
return SDL_TRUE;
}
static void SteamControllerDisconnectedCallback(int device_instance)
{
SDL_joylist_item *item;
SDL_joylist_item *prev = NULL;
for (item = SDL_joylist; item != NULL; item = item->next) {
/* found it, remove it. */
if (item->device_instance == device_instance) {
RemoveJoylistItem(item, prev);
return;
}
prev = item;
}
}
static int StrHasPrefix(const char *string, const char *prefix)
{
return SDL_strncmp(string, prefix, SDL_strlen(prefix)) == 0;
}
static int StrIsInteger(const char *string)
{
const char *p;
if (*string == '\0') {
return 0;
}
for (p = string; *p != '\0'; p++) {
if (*p < '0' || *p > '9') {
return 0;
}
}
return 1;
}
static SDL_bool IsJoystickJSNode(const char *node)
{
const char *last_slash = SDL_strrchr(node, '/');
if (last_slash) {
node = last_slash + 1;
}
return StrHasPrefix(node, "js") && StrIsInteger(node + 2);
}
static SDL_bool IsJoystickEventNode(const char *node)
{
const char *last_slash = SDL_strrchr(node, '/');
if (last_slash) {
node = last_slash + 1;
}
return StrHasPrefix(node, "event") && StrIsInteger(node + 5);
}
static SDL_bool IsJoystickDeviceNode(const char *node)
{
if (SDL_classic_joysticks) {
return IsJoystickJSNode(node);
} else {
return IsJoystickEventNode(node);
}
}
#ifdef HAVE_INOTIFY
#ifdef HAVE_INOTIFY_INIT1
static int SDL_inotify_init1(void)
{
return inotify_init1(IN_NONBLOCK | IN_CLOEXEC);
}
#else
static int SDL_inotify_init1(void)
{
int fd = inotify_init();
if (fd < 0) {
return -1;
}
fcntl(fd, F_SETFL, O_NONBLOCK);
fcntl(fd, F_SETFD, FD_CLOEXEC);
return fd;
}
#endif
static void LINUX_InotifyJoystickDetect(void)
{
union
{
struct inotify_event event;
char storage[4096];
char enough_for_inotify[sizeof(struct inotify_event) + NAME_MAX + 1];
} buf;
ssize_t bytes;
size_t remain = 0;
size_t len;
char path[PATH_MAX];
bytes = read(inotify_fd, &buf, sizeof(buf));
if (bytes > 0) {
remain = (size_t)bytes;
}
while (remain > 0) {
if (buf.event.len > 0) {
if (IsJoystickDeviceNode(buf.event.name)) {
(void)SDL_snprintf(path, SDL_arraysize(path), "/dev/input/%s", buf.event.name);
if (buf.event.mask & (IN_CREATE | IN_MOVED_TO | IN_ATTRIB)) {
MaybeAddDevice(path);
} else if (buf.event.mask & (IN_DELETE | IN_MOVED_FROM)) {
MaybeRemoveDevice(path);
}
}
}
len = sizeof(struct inotify_event) + buf.event.len;
remain -= len;
if (remain != 0) {
SDL_memmove(&buf.storage[0], &buf.storage[len], remain);
}
}
}
#endif /* HAVE_INOTIFY */
static int get_event_joystick_index(int event)
{
int joystick_index = -1;
int i, count;
struct dirent **entries = NULL;
char path[PATH_MAX];
(void)SDL_snprintf(path, SDL_arraysize(path), "/sys/class/input/event%d/device", event);
count = scandir(path, &entries, NULL, alphasort);
for (i = 0; i < count; ++i) {
if (SDL_strncmp(entries[i]->d_name, "js", 2) == 0) {
joystick_index = SDL_atoi(entries[i]->d_name + 2);
}
free(entries[i]); /* This should NOT be SDL_free() */
}
free(entries); /* This should NOT be SDL_free() */
return joystick_index;
}
/* Detect devices by reading /dev/input. In the inotify code path we
* have to do this the first time, to detect devices that already existed
* before we started; in the non-inotify code path we do this repeatedly
* (polling). */
static int filter_entries(const struct dirent *entry)
{
return IsJoystickDeviceNode(entry->d_name);
}
static int sort_entries(const void *_a, const void *_b)
{
const struct dirent **a = (const struct dirent **)_a;
const struct dirent **b = (const struct dirent **)_b;
int numA, numB;
int offset;
if (SDL_classic_joysticks) {
offset = 2; /* strlen("js") */
numA = SDL_atoi((*a)->d_name + offset);
numB = SDL_atoi((*b)->d_name + offset);
} else {
offset = 5; /* strlen("event") */
numA = SDL_atoi((*a)->d_name + offset);
numB = SDL_atoi((*b)->d_name + offset);
/* See if we can get the joystick ordering */
{
int jsA = get_event_joystick_index(numA);
int jsB = get_event_joystick_index(numB);
if (jsA >= 0 && jsB >= 0) {
numA = jsA;
numB = jsB;
} else if (jsA >= 0) {
return -1;
} else if (jsB >= 0) {
return 1;
}
}
}
return numA - numB;
}
static void LINUX_FallbackJoystickDetect(void)
{
const Uint32 SDL_JOY_DETECT_INTERVAL_MS = 3000; /* Update every 3 seconds */
Uint32 now = SDL_GetTicks();
if (!last_joy_detect_time || SDL_TICKS_PASSED(now, last_joy_detect_time + SDL_JOY_DETECT_INTERVAL_MS)) {
struct stat sb;
/* Opening input devices can generate synchronous device I/O, so avoid it if we can */
if (stat("/dev/input", &sb) == 0 && sb.st_mtime != last_input_dir_mtime) {
int i, count;
struct dirent **entries = NULL;
char path[PATH_MAX];
count = scandir("/dev/input", &entries, filter_entries, NULL);
if (count > 1) {
qsort(entries, count, sizeof(*entries), sort_entries);
}
for (i = 0; i < count; ++i) {
(void)SDL_snprintf(path, SDL_arraysize(path), "/dev/input/%s", entries[i]->d_name);
MaybeAddDevice(path);
free(entries[i]); /* This should NOT be SDL_free() */
}
free(entries); /* This should NOT be SDL_free() */
last_input_dir_mtime = sb.st_mtime;
}
last_joy_detect_time = now;
}
}
static void LINUX_JoystickDetect(void)
{
#if SDL_USE_LIBUDEV
if (enumeration_method == ENUMERATION_LIBUDEV) {
SDL_UDEV_Poll();
} else
#endif
#ifdef HAVE_INOTIFY
if (inotify_fd >= 0 && last_joy_detect_time != 0) {
LINUX_InotifyJoystickDetect();
} else
#endif
{
LINUX_FallbackJoystickDetect();
}
HandlePendingRemovals();
SDL_UpdateSteamControllers();
}
static int LINUX_JoystickInit(void)
{
const char *devices = SDL_GetHint(SDL_HINT_JOYSTICK_DEVICE);
SDL_classic_joysticks = SDL_GetHintBoolean(SDL_HINT_LINUX_JOYSTICK_CLASSIC, SDL_FALSE);
enumeration_method = ENUMERATION_UNSET;
/* First see if the user specified one or more joysticks to use */
if (devices != NULL) {
char *envcopy, *envpath, *delim;
envcopy = SDL_strdup(devices);
envpath = envcopy;
while (envpath != NULL) {
delim = SDL_strchr(envpath, ':');
if (delim != NULL) {
*delim++ = '\0';
}
MaybeAddDevice(envpath);
envpath = delim;
}
SDL_free(envcopy);
}
SDL_InitSteamControllers(SteamControllerConnectedCallback,
SteamControllerDisconnectedCallback);
/* Force immediate joystick detection if using fallback */
last_joy_detect_time = 0;
last_input_dir_mtime = 0;
/* Manually scan first, since we sort by device number and udev doesn't */
LINUX_JoystickDetect();
#if SDL_USE_LIBUDEV
if (enumeration_method == ENUMERATION_UNSET) {
if (SDL_GetHintBoolean("SDL_JOYSTICK_DISABLE_UDEV", SDL_FALSE)) {
SDL_LogDebug(SDL_LOG_CATEGORY_INPUT,
"udev disabled by SDL_JOYSTICK_DISABLE_UDEV");
enumeration_method = ENUMERATION_FALLBACK;
} else if (SDL_DetectSandbox() != SDL_SANDBOX_NONE) {
SDL_LogDebug(SDL_LOG_CATEGORY_INPUT,
"Container detected, disabling udev integration");
enumeration_method = ENUMERATION_FALLBACK;
} else {
SDL_LogDebug(SDL_LOG_CATEGORY_INPUT,
"Using udev for joystick device discovery");
enumeration_method = ENUMERATION_LIBUDEV;
}
}
if (enumeration_method == ENUMERATION_LIBUDEV) {
if (SDL_UDEV_Init() < 0) {
return SDL_SetError("Could not initialize UDEV");
}
/* Set up the udev callback */
if (SDL_UDEV_AddCallback(joystick_udev_callback) < 0) {
SDL_UDEV_Quit();
return SDL_SetError("Could not set up joystick <-> udev callback");
}
/* Force a scan to build the initial device list */
SDL_UDEV_Scan();
} else
#endif
{
#if defined(HAVE_INOTIFY)
inotify_fd = SDL_inotify_init1();
if (inotify_fd < 0) {
SDL_LogWarn(SDL_LOG_CATEGORY_INPUT,
"Unable to initialize inotify, falling back to polling: %s",
strerror(errno));
} else {
/* We need to watch for attribute changes in addition to
* creation, because when a device is first created, it has
* permissions that we can't read. When udev chmods it to
* something that we maybe *can* read, we'll get an
* IN_ATTRIB event to tell us. */
if (inotify_add_watch(inotify_fd, "/dev/input",
IN_CREATE | IN_DELETE | IN_MOVE | IN_ATTRIB) < 0) {
close(inotify_fd);
inotify_fd = -1;
SDL_LogWarn(SDL_LOG_CATEGORY_INPUT,
"Unable to add inotify watch, falling back to polling: %s",
strerror(errno));
}
}
#endif /* HAVE_INOTIFY */
}
return 0;
}
static int LINUX_JoystickGetCount(void)
{
return numjoysticks;
}
static SDL_joylist_item *JoystickByDevIndex(int device_index)
{
SDL_joylist_item *item = SDL_joylist;
if ((device_index < 0) || (device_index >= numjoysticks)) {
return NULL;
}
while (device_index > 0) {
SDL_assert(item != NULL);
device_index--;
item = item->next;
}
return item;
}
static const char *LINUX_JoystickGetDeviceName(int device_index)
{
return JoystickByDevIndex(device_index)->name;
}
static const char *LINUX_JoystickGetDevicePath(int device_index)
{
return JoystickByDevIndex(device_index)->path;
}
static int LINUX_JoystickGetDevicePlayerIndex(int device_index)
{
return -1;
}
static void LINUX_JoystickSetDevicePlayerIndex(int device_index, int player_index)
{
}
static SDL_JoystickGUID LINUX_JoystickGetDeviceGUID(int device_index)
{
return JoystickByDevIndex(device_index)->guid;
}
/* Function to perform the mapping from device index to the instance id for this index */
static SDL_JoystickID LINUX_JoystickGetDeviceInstanceID(int device_index)
{
return JoystickByDevIndex(device_index)->device_instance;
}
static int allocate_hatdata(SDL_Joystick *joystick)
{
int i;
SDL_AssertJoysticksLocked();
joystick->hwdata->hats =
(struct hwdata_hat *)SDL_malloc(joystick->nhats *
sizeof(struct hwdata_hat));
if (joystick->hwdata->hats == NULL) {
return -1;
}
for (i = 0; i < joystick->nhats; ++i) {
joystick->hwdata->hats[i].axis[0] = 1;
joystick->hwdata->hats[i].axis[1] = 1;
}
return 0;
}
static int allocate_balldata(SDL_Joystick *joystick)
{
int i;
SDL_AssertJoysticksLocked();
joystick->hwdata->balls =
(struct hwdata_ball *)SDL_malloc(joystick->nballs *
sizeof(struct hwdata_ball));
if (joystick->hwdata->balls == NULL) {
return -1;
}
for (i = 0; i < joystick->nballs; ++i) {
joystick->hwdata->balls[i].axis[0] = 0;
joystick->hwdata->balls[i].axis[1] = 0;
}
return 0;
}
static SDL_bool GuessIfAxesAreDigitalHat(struct input_absinfo *absinfo_x, struct input_absinfo *absinfo_y)
{
/* A "hat" is assumed to be a digital input with at most 9 possible states
* (3 per axis: negative/zero/positive), as opposed to a true "axis" which
* can report a continuous range of possible values. Unfortunately the Linux
* joystick interface makes no distinction between digital hat axes and any
* other continuous analog axis, so we have to guess. */
/* If both axes are missing, they're not anything. */
if (absinfo_x == NULL && absinfo_y == NULL) {
return SDL_FALSE;
}
/* If the hint says so, treat all hats as digital. */
if (SDL_GetHintBoolean(SDL_HINT_LINUX_DIGITAL_HATS, SDL_FALSE)) {
return SDL_TRUE;
}
/* If both axes have ranges constrained between -1 and 1, they're definitely digital. */
if ((absinfo_x == NULL || (absinfo_x->minimum == -1 && absinfo_x->maximum == 1)) && (absinfo_y == NULL || (absinfo_y->minimum == -1 && absinfo_y->maximum == 1))) {
return SDL_TRUE;
}
/* If both axes lack fuzz, flat, and resolution values, they're probably digital. */
if ((absinfo_x == NULL || (!absinfo_x->fuzz && !absinfo_x->flat && !absinfo_x->resolution)) && (absinfo_y == NULL || (!absinfo_y->fuzz && !absinfo_y->flat && !absinfo_y->resolution))) {
return SDL_TRUE;
}
/* Otherwise, treat them as analog. */
return SDL_FALSE;
}
static void ConfigJoystick(SDL_Joystick *joystick, int fd)
{
int i, t;
unsigned long keybit[NBITS(KEY_MAX)] = { 0 };
unsigned long absbit[NBITS(ABS_MAX)] = { 0 };
unsigned long relbit[NBITS(REL_MAX)] = { 0 };
unsigned long ffbit[NBITS(FF_MAX)] = { 0 };
Uint8 key_pam_size, abs_pam_size;
SDL_bool use_deadzones = SDL_GetHintBoolean(SDL_HINT_LINUX_JOYSTICK_DEADZONES, SDL_FALSE);
SDL_bool use_hat_deadzones = SDL_GetHintBoolean(SDL_HINT_LINUX_HAT_DEADZONES, SDL_TRUE);
SDL_AssertJoysticksLocked();
/* See if this device uses the new unified event API */
if ((ioctl(fd, EVIOCGBIT(EV_KEY, sizeof(keybit)), keybit) >= 0) &&
(ioctl(fd, EVIOCGBIT(EV_ABS, sizeof(absbit)), absbit) >= 0) &&
(ioctl(fd, EVIOCGBIT(EV_REL, sizeof(relbit)), relbit) >= 0)) {
/* Get the number of buttons, axes, and other thingamajigs */
for (i = BTN_JOYSTICK; i < KEY_MAX; ++i) {
if (test_bit(i, keybit)) {
#ifdef DEBUG_INPUT_EVENTS
SDL_Log("Joystick has button: 0x%x\n", i);
#endif
joystick->hwdata->key_map[i] = joystick->nbuttons;
joystick->hwdata->has_key[i] = SDL_TRUE;
++joystick->nbuttons;
}
}
for (i = 0; i < BTN_JOYSTICK; ++i) {
if (test_bit(i, keybit)) {
#ifdef DEBUG_INPUT_EVENTS
SDL_Log("Joystick has button: 0x%x\n", i);
#endif
joystick->hwdata->key_map[i] = joystick->nbuttons;
joystick->hwdata->has_key[i] = SDL_TRUE;
++joystick->nbuttons;
}
}
for (i = ABS_HAT0X; i <= ABS_HAT3Y; i += 2) {
int hat_x = -1;
int hat_y = -1;
struct input_absinfo absinfo_x;
struct input_absinfo absinfo_y;
if (test_bit(i, absbit)) {
hat_x = ioctl(fd, EVIOCGABS(i), &absinfo_x);
}
if (test_bit(i + 1, absbit)) {
hat_y = ioctl(fd, EVIOCGABS(i + 1), &absinfo_y);
}
if (GuessIfAxesAreDigitalHat((hat_x < 0 ? (void *)0 : &absinfo_x),
(hat_y < 0 ? (void *)0 : &absinfo_y))) {
const int hat_index = (i - ABS_HAT0X) / 2;
struct hat_axis_correct *correct = &joystick->hwdata->hat_correct[hat_index];
#ifdef DEBUG_INPUT_EVENTS
SDL_Log("Joystick has digital hat: #%d\n", hat_index);
if (hat_x >= 0) {
SDL_Log("X Values = { val:%d, min:%d, max:%d, fuzz:%d, flat:%d, res:%d }\n",
absinfo_x.value, absinfo_x.minimum, absinfo_x.maximum,
absinfo_x.fuzz, absinfo_x.flat, absinfo_x.resolution);
}
if (hat_y >= 0) {
SDL_Log("Y Values = { val:%d, min:%d, max:%d, fuzz:%d, flat:%d, res:%d }\n",
absinfo_y.value, absinfo_y.minimum, absinfo_y.maximum,
absinfo_y.fuzz, absinfo_y.flat, absinfo_y.resolution);
}
#endif /* DEBUG_INPUT_EVENTS */
joystick->hwdata->hats_indices[hat_index] = joystick->nhats;
joystick->hwdata->has_hat[hat_index] = SDL_TRUE;
correct->use_deadzones = use_hat_deadzones;
correct->minimum[0] = (hat_x < 0) ? -1 : absinfo_x.minimum;
correct->maximum[0] = (hat_x < 0) ? 1 : absinfo_x.maximum;
correct->minimum[1] = (hat_y < 0) ? -1 : absinfo_y.minimum;
correct->maximum[1] = (hat_y < 0) ? 1 : absinfo_y.maximum;
++joystick->nhats;
}
}
for (i = 0; i < ABS_MAX; ++i) {
/* Skip digital hats */
if (i >= ABS_HAT0X && i <= ABS_HAT3Y && joystick->hwdata->has_hat[(i - ABS_HAT0X) / 2]) {
continue;
}
if (test_bit(i, absbit)) {
struct input_absinfo absinfo;
struct axis_correct *correct = &joystick->hwdata->abs_correct[i];
if (ioctl(fd, EVIOCGABS(i), &absinfo) < 0) {
continue;
}
#ifdef DEBUG_INPUT_EVENTS
SDL_Log("Joystick has absolute axis: 0x%.2x\n", i);
SDL_Log("Values = { val:%d, min:%d, max:%d, fuzz:%d, flat:%d, res:%d }\n",
absinfo.value, absinfo.minimum, absinfo.maximum,
absinfo.fuzz, absinfo.flat, absinfo.resolution);
#endif /* DEBUG_INPUT_EVENTS */
joystick->hwdata->abs_map[i] = joystick->naxes;
joystick->hwdata->has_abs[i] = SDL_TRUE;
correct->minimum = absinfo.minimum;
correct->maximum = absinfo.maximum;
if (correct->minimum != correct->maximum) {
if (use_deadzones) {
correct->use_deadzones = SDL_TRUE;
correct->coef[0] = (absinfo.maximum + absinfo.minimum) - 2 * absinfo.flat;
correct->coef[1] = (absinfo.maximum + absinfo.minimum) + 2 * absinfo.flat;
t = ((absinfo.maximum - absinfo.minimum) - 4 * absinfo.flat);
if (t != 0) {
correct->coef[2] = (1 << 28) / t;
} else {
correct->coef[2] = 0;
}
} else {
float value_range = (correct->maximum - correct->minimum);
float output_range = (SDL_JOYSTICK_AXIS_MAX - SDL_JOYSTICK_AXIS_MIN);
correct->scale = (output_range / value_range);
}
}
++joystick->naxes;
}
}
if (test_bit(REL_X, relbit) || test_bit(REL_Y, relbit)) {
++joystick->nballs;
}
} else if ((ioctl(fd, JSIOCGBUTTONS, &key_pam_size, sizeof(key_pam_size)) >= 0) &&
(ioctl(fd, JSIOCGAXES, &abs_pam_size, sizeof(abs_pam_size)) >= 0)) {
size_t len;
joystick->hwdata->classic = SDL_TRUE;
len = (KEY_MAX - BTN_MISC + 1) * sizeof(*joystick->hwdata->key_pam);
joystick->hwdata->key_pam = (Uint16 *)SDL_calloc(1, len);
if (joystick->hwdata->key_pam) {
if (ioctl(fd, JSIOCGBTNMAP, joystick->hwdata->key_pam, len) < 0) {
SDL_free(joystick->hwdata->key_pam);
joystick->hwdata->key_pam = NULL;
key_pam_size = 0;
}
} else {
key_pam_size = 0;
}
for (i = 0; i < key_pam_size; ++i) {
Uint16 code = joystick->hwdata->key_pam[i];
#ifdef DEBUG_INPUT_EVENTS
SDL_Log("Joystick has button: 0x%x\n", code);
#endif
joystick->hwdata->key_map[code] = joystick->nbuttons;
joystick->hwdata->has_key[code] = SDL_TRUE;
++joystick->nbuttons;
}
len = ABS_CNT * sizeof(*joystick->hwdata->abs_pam);
joystick->hwdata->abs_pam = (Uint8 *)SDL_calloc(1, len);
if (joystick->hwdata->abs_pam) {
if (ioctl(fd, JSIOCGAXMAP, joystick->hwdata->abs_pam, len) < 0) {
SDL_free(joystick->hwdata->abs_pam);
joystick->hwdata->abs_pam = NULL;
abs_pam_size = 0;
}
} else {
abs_pam_size = 0;
}
for (i = 0; i < abs_pam_size; ++i) {
Uint8 code = joystick->hwdata->abs_pam[i];
// TODO: is there any way to detect analog hats in advance via this API?
if (code >= ABS_HAT0X && code <= ABS_HAT3Y) {
int hat_index = (code - ABS_HAT0X) / 2;
if (!joystick->hwdata->has_hat[hat_index]) {
#ifdef DEBUG_INPUT_EVENTS
SDL_Log("Joystick has digital hat: #%d\n", hat_index);
#endif
joystick->hwdata->hats_indices[hat_index] = joystick->nhats++;
joystick->hwdata->has_hat[hat_index] = SDL_TRUE;
joystick->hwdata->hat_correct[hat_index].minimum[0] = -1;
joystick->hwdata->hat_correct[hat_index].maximum[0] = 1;
joystick->hwdata->hat_correct[hat_index].minimum[1] = -1;
joystick->hwdata->hat_correct[hat_index].maximum[1] = 1;
}
} else {
#ifdef DEBUG_INPUT_EVENTS
SDL_Log("Joystick has absolute axis: 0x%.2x\n", code);
#endif
joystick->hwdata->abs_map[code] = joystick->naxes;
joystick->hwdata->has_abs[code] = SDL_TRUE;
++joystick->naxes;
}
}
}
/* Allocate data to keep track of these thingamajigs */
if (joystick->nhats > 0) {
if (allocate_hatdata(joystick) < 0) {
joystick->nhats = 0;
}
}
if (joystick->nballs > 0) {
if (allocate_balldata(joystick) < 0) {
joystick->nballs = 0;
}
}
if (ioctl(fd, EVIOCGBIT(EV_FF, sizeof(ffbit)), ffbit) >= 0) {
if (test_bit(FF_RUMBLE, ffbit)) {
joystick->hwdata->ff_rumble = SDL_TRUE;
}
if (test_bit(FF_SINE, ffbit)) {
joystick->hwdata->ff_sine = SDL_TRUE;
}
}
}
/* This is used to do the heavy lifting for LINUX_JoystickOpen and
also LINUX_JoystickGetGamepadMapping, so we can query the hardware
without adding an opened SDL_Joystick object to the system.
This expects `joystick->hwdata` to be allocated and will not free it
on error. Returns -1 on error, 0 on success. */
static int PrepareJoystickHwdata(SDL_Joystick *joystick, SDL_joylist_item *item)
{
SDL_AssertJoysticksLocked();
joystick->hwdata->item = item;
joystick->hwdata->guid = item->guid;
joystick->hwdata->effect.id = -1;
joystick->hwdata->m_bSteamController = item->m_bSteamController;
SDL_memset(joystick->hwdata->key_map, 0xFF, sizeof(joystick->hwdata->key_map));
SDL_memset(joystick->hwdata->abs_map, 0xFF, sizeof(joystick->hwdata->abs_map));
if (item->m_bSteamController) {
joystick->hwdata->fd = -1;
SDL_GetSteamControllerInputs(&joystick->nbuttons,
&joystick->naxes,
&joystick->nhats);
} else {
/* Try read-write first, so we can do rumble */
int fd = open(item->path, O_RDWR | O_CLOEXEC, 0);
if (fd < 0) {
/* Try read-only again, at least we'll get events in this case */
fd = open(item->path, O_RDONLY | O_CLOEXEC, 0);
}
if (fd < 0) {
return SDL_SetError("Unable to open %s", item->path);
}
joystick->hwdata->fd = fd;
joystick->hwdata->fname = SDL_strdup(item->path);
if (joystick->hwdata->fname == NULL) {
close(fd);
return SDL_OutOfMemory();
}
/* Set the joystick to non-blocking read mode */
fcntl(fd, F_SETFL, O_NONBLOCK);
/* Get the number of buttons and axes on the joystick */
ConfigJoystick(joystick, fd);
}
return 0;
}
/* Function to open a joystick for use.
The joystick to open is specified by the device index.
This should fill the nbuttons and naxes fields of the joystick structure.
It returns 0, or -1 if there is an error.
*/
static int LINUX_JoystickOpen(SDL_Joystick *joystick, int device_index)
{
SDL_joylist_item *item = JoystickByDevIndex(device_index);
SDL_AssertJoysticksLocked();
if (item == NULL) {
return SDL_SetError("No such device");
}
joystick->instance_id = item->device_instance;
joystick->hwdata = (struct joystick_hwdata *)
SDL_calloc(1, sizeof(*joystick->hwdata));
if (joystick->hwdata == NULL) {
return SDL_OutOfMemory();
}
if (PrepareJoystickHwdata(joystick, item) == -1) {
SDL_free(joystick->hwdata);
joystick->hwdata = NULL;
return -1; /* SDL_SetError will already have been called */
}
SDL_assert(item->hwdata == NULL);
item->hwdata = joystick->hwdata;
/* mark joystick as fresh and ready */
joystick->hwdata->fresh = SDL_TRUE;
return 0;
}
static int LINUX_JoystickRumble(SDL_Joystick *joystick, Uint16 low_frequency_rumble, Uint16 high_frequency_rumble)
{
struct input_event event;
SDL_AssertJoysticksLocked();
if (joystick->hwdata->ff_rumble) {
struct ff_effect *effect = &joystick->hwdata->effect;
effect->type = FF_RUMBLE;
effect->replay.length = SDL_MAX_RUMBLE_DURATION_MS;
effect->u.rumble.strong_magnitude = low_frequency_rumble;
effect->u.rumble.weak_magnitude = high_frequency_rumble;
} else if (joystick->hwdata->ff_sine) {
/* Scale and average the two rumble strengths */
Sint16 magnitude = (Sint16)(((low_frequency_rumble / 2) + (high_frequency_rumble / 2)) / 2);
struct ff_effect *effect = &joystick->hwdata->effect;
effect->type = FF_PERIODIC;
effect->replay.length = SDL_MAX_RUMBLE_DURATION_MS;
effect->u.periodic.waveform = FF_SINE;
effect->u.periodic.magnitude = magnitude;
} else {
return SDL_Unsupported();
}
if (ioctl(joystick->hwdata->fd, EVIOCSFF, &joystick->hwdata->effect) < 0) {
/* The kernel may have lost this effect, try to allocate a new one */
joystick->hwdata->effect.id = -1;
if (ioctl(joystick->hwdata->fd, EVIOCSFF, &joystick->hwdata->effect) < 0) {
return SDL_SetError("Couldn't update rumble effect: %s", strerror(errno));
}
}
event.type = EV_FF;
event.code = joystick->hwdata->effect.id;
event.value = 1;
if (write(joystick->hwdata->fd, &event, sizeof(event)) < 0) {
return SDL_SetError("Couldn't start rumble effect: %s", strerror(errno));
}
return 0;
}
static int LINUX_JoystickRumbleTriggers(SDL_Joystick *joystick, Uint16 left_rumble, Uint16 right_rumble)
{
return SDL_Unsupported();
}
static Uint32 LINUX_JoystickGetCapabilities(SDL_Joystick *joystick)
{
Uint32 result = 0;
SDL_AssertJoysticksLocked();
if (joystick->hwdata->ff_rumble || joystick->hwdata->ff_sine) {
result |= SDL_JOYCAP_RUMBLE;
}
return result;
}
static int LINUX_JoystickSetLED(SDL_Joystick *joystick, Uint8 red, Uint8 green, Uint8 blue)
{
return SDL_Unsupported();
}
static int LINUX_JoystickSendEffect(SDL_Joystick *joystick, const void *data, int size)
{
return SDL_Unsupported();
}
static int LINUX_JoystickSetSensorsEnabled(SDL_Joystick *joystick, SDL_bool enabled)
{
return SDL_Unsupported();
}
static void HandleHat(SDL_Joystick *stick, int hatidx, int axis, int value)
{
int hatnum;
struct hwdata_hat *the_hat;
struct hat_axis_correct *correct;
const Uint8 position_map[3][3] = {
{ SDL_HAT_LEFTUP, SDL_HAT_UP, SDL_HAT_RIGHTUP },
{ SDL_HAT_LEFT, SDL_HAT_CENTERED, SDL_HAT_RIGHT },
{ SDL_HAT_LEFTDOWN, SDL_HAT_DOWN, SDL_HAT_RIGHTDOWN }
};
SDL_AssertJoysticksLocked();
hatnum = stick->hwdata->hats_indices[hatidx];
the_hat = &stick->hwdata->hats[hatnum];
correct = &stick->hwdata->hat_correct[hatidx];
/* Hopefully we detected any analog axes and left them as is rather than trying
* to use them as digital hats, but just in case, the deadzones here will
* prevent the slightest of twitches on an analog axis from registering as a hat
* movement. If the axes really are digital, this won't hurt since they should
* only ever be sending min, 0, or max anyway. */
if (value < 0) {
if (value <= correct->minimum[axis]) {
correct->minimum[axis] = value;
value = 0;
} else if (!correct->use_deadzones || value < correct->minimum[axis] / 3) {
value = 0;
} else {
value = 1;
}
} else if (value > 0) {
if (value >= correct->maximum[axis]) {
correct->maximum[axis] = value;
value = 2;
} else if (!correct->use_deadzones || value > correct->maximum[axis] / 3) {
value = 2;
} else {
value = 1;
}
} else { // value == 0
value = 1;
}
if (value != the_hat->axis[axis]) {
the_hat->axis[axis] = value;
SDL_PrivateJoystickHat(stick, hatnum,
position_map[the_hat->axis[1]][the_hat->axis[0]]);
}
}
static void HandleBall(SDL_Joystick *stick, Uint8 ball, int axis, int value)
{
SDL_AssertJoysticksLocked();
stick->hwdata->balls[ball].axis[axis] += value;
}
static int AxisCorrect(SDL_Joystick *joystick, int which, int value)
{
struct axis_correct *correct;
SDL_AssertJoysticksLocked();
correct = &joystick->hwdata->abs_correct[which];
if (correct->minimum != correct->maximum) {
if (correct->use_deadzones) {
value *= 2;
if (value > correct->coef[0]) {
if (value < correct->coef[1]) {
return 0;
}
value -= correct->coef[1];
} else {
value -= correct->coef[0];
}
value *= correct->coef[2];
value >>= 13;
} else {
value = (int)SDL_floorf((value - correct->minimum) * correct->scale + SDL_JOYSTICK_AXIS_MIN + 0.5f);
}
}
/* Clamp and return */
if (value < SDL_JOYSTICK_AXIS_MIN) {
return SDL_JOYSTICK_AXIS_MIN;
}
if (value > SDL_JOYSTICK_AXIS_MAX) {
return SDL_JOYSTICK_AXIS_MAX;
}
return value;
}
static void PollAllValues(SDL_Joystick *joystick)
{
struct input_absinfo absinfo;
unsigned long keyinfo[NBITS(KEY_MAX)];
int i;
SDL_AssertJoysticksLocked();
/* Poll all axis */
for (i = ABS_X; i < ABS_MAX; i++) {
/* We don't need to test for digital hats here, they won't have has_abs[] set */
if (joystick->hwdata->has_abs[i]) {
if (ioctl(joystick->hwdata->fd, EVIOCGABS(i), &absinfo) >= 0) {
absinfo.value = AxisCorrect(joystick, i, absinfo.value);
#ifdef DEBUG_INPUT_EVENTS
SDL_Log("Joystick : Re-read Axis %d (%d) val= %d\n",
joystick->hwdata->abs_map[i], i, absinfo.value);
#endif
SDL_PrivateJoystickAxis(joystick,
joystick->hwdata->abs_map[i],
absinfo.value);
}
}
}
/* Poll all digital hats */
for (i = ABS_HAT0X; i <= ABS_HAT3Y; i++) {
const int baseaxis = i - ABS_HAT0X;
const int hatidx = baseaxis / 2;
SDL_assert(hatidx < SDL_arraysize(joystick->hwdata->has_hat));
/* We don't need to test for analog axes here, they won't have has_hat[] set */
if (joystick->hwdata->has_hat[hatidx]) {
if (ioctl(joystick->hwdata->fd, EVIOCGABS(i), &absinfo) >= 0) {
const int hataxis = baseaxis % 2;
HandleHat(joystick, hatidx, hataxis, absinfo.value);
}
}
}
/* Poll all buttons */
SDL_zeroa(keyinfo);
if (ioctl(joystick->hwdata->fd, EVIOCGKEY(sizeof(keyinfo)), keyinfo) >= 0) {
for (i = 0; i < KEY_MAX; i++) {
if (joystick->hwdata->has_key[i]) {
const Uint8 value = test_bit(i, keyinfo) ? SDL_PRESSED : SDL_RELEASED;
#ifdef DEBUG_INPUT_EVENTS
SDL_Log("Joystick : Re-read Button %d (%d) val= %d\n",
joystick->hwdata->key_map[i], i, value);
#endif
SDL_PrivateJoystickButton(joystick,
joystick->hwdata->key_map[i], value);
}
}
}
/* Joyballs are relative input, so there's no poll state. Events only! */
}
static void HandleInputEvents(SDL_Joystick *joystick)
{
struct input_event events[32];
int i, len, code, hat_index;
SDL_AssertJoysticksLocked();
if (joystick->hwdata->fresh) {
PollAllValues(joystick);
joystick->hwdata->fresh = SDL_FALSE;
}
while ((len = read(joystick->hwdata->fd, events, sizeof(events))) > 0) {
len /= sizeof(events[0]);
for (i = 0; i < len; ++i) {
code = events[i].code;
/* If the kernel sent a SYN_DROPPED, we are supposed to ignore the
rest of the packet (the end of it signified by a SYN_REPORT) */
if (joystick->hwdata->recovering_from_dropped &&
((events[i].type != EV_SYN) || (code != SYN_REPORT))) {
continue;
}
switch (events[i].type) {
case EV_KEY:
SDL_PrivateJoystickButton(joystick,
joystick->hwdata->key_map[code],
events[i].value);
break;
case EV_ABS:
switch (code) {
case ABS_HAT0X:
case ABS_HAT0Y:
case ABS_HAT1X:
case ABS_HAT1Y:
case ABS_HAT2X:
case ABS_HAT2Y:
case ABS_HAT3X:
case ABS_HAT3Y:
hat_index = (code - ABS_HAT0X) / 2;
if (joystick->hwdata->has_hat[hat_index]) {
HandleHat(joystick, hat_index, code % 2, events[i].value);
break;
}
SDL_FALLTHROUGH;
default:
events[i].value = AxisCorrect(joystick, code, events[i].value);
SDL_PrivateJoystickAxis(joystick,
joystick->hwdata->abs_map[code],
events[i].value);
break;
}
break;
case EV_REL:
switch (code) {
case REL_X:
case REL_Y:
code -= REL_X;
HandleBall(joystick, code / 2, code % 2, events[i].value);
break;
default:
break;
}
break;
case EV_SYN:
switch (code) {
case SYN_DROPPED:
#ifdef DEBUG_INPUT_EVENTS
SDL_Log("Event SYN_DROPPED detected\n");
#endif
joystick->hwdata->recovering_from_dropped = SDL_TRUE;
break;
case SYN_REPORT:
if (joystick->hwdata->recovering_from_dropped) {
joystick->hwdata->recovering_from_dropped = SDL_FALSE;
PollAllValues(joystick); /* try to sync up to current state now */
}
break;
default:
break;
}
default:
break;
}
}
}
if (errno == ENODEV) {
/* We have to wait until the JoystickDetect callback to remove this */
joystick->hwdata->gone = SDL_TRUE;
}
}
static void HandleClassicEvents(SDL_Joystick *joystick)
{
struct js_event events[32];
int i, len, code, hat_index;
SDL_AssertJoysticksLocked();
joystick->hwdata->fresh = SDL_FALSE;
while ((len = read(joystick->hwdata->fd, events, sizeof(events))) > 0) {
len /= sizeof(events[0]);
for (i = 0; i < len; ++i) {
switch (events[i].type) {
case JS_EVENT_BUTTON:
code = joystick->hwdata->key_pam[events[i].number];
SDL_PrivateJoystickButton(joystick,
joystick->hwdata->key_map[code],
events[i].value);
break;
case JS_EVENT_AXIS:
code = joystick->hwdata->abs_pam[events[i].number];
switch (code) {
case ABS_HAT0X:
case ABS_HAT0Y:
case ABS_HAT1X:
case ABS_HAT1Y:
case ABS_HAT2X:
case ABS_HAT2Y:
case ABS_HAT3X:
case ABS_HAT3Y:
hat_index = (code - ABS_HAT0X) / 2;
if (joystick->hwdata->has_hat[hat_index]) {
HandleHat(joystick, hat_index, code % 2, events[i].value);
break;
}
SDL_FALLTHROUGH;
default:
SDL_PrivateJoystickAxis(joystick,
joystick->hwdata->abs_map[code],
events[i].value);
break;
}
}
}
}
}
static void LINUX_JoystickUpdate(SDL_Joystick *joystick)
{
int i;
SDL_AssertJoysticksLocked();
if (joystick->hwdata->m_bSteamController) {
SDL_UpdateSteamController(joystick);
return;
}
if (joystick->hwdata->classic) {
HandleClassicEvents(joystick);
} else {
HandleInputEvents(joystick);
}
/* Deliver ball motion updates */
for (i = 0; i < joystick->nballs; ++i) {
int xrel, yrel;
xrel = joystick->hwdata->balls[i].axis[0];
yrel = joystick->hwdata->balls[i].axis[1];
if (xrel || yrel) {
joystick->hwdata->balls[i].axis[0] = 0;
joystick->hwdata->balls[i].axis[1] = 0;
SDL_PrivateJoystickBall(joystick, (Uint8)i, xrel, yrel);
}
}
}
/* Function to close a joystick after use */
static void LINUX_JoystickClose(SDL_Joystick *joystick)
{
SDL_AssertJoysticksLocked();
if (joystick->hwdata) {
if (joystick->hwdata->effect.id >= 0) {
ioctl(joystick->hwdata->fd, EVIOCRMFF, joystick->hwdata->effect.id);
joystick->hwdata->effect.id = -1;
}
if (joystick->hwdata->fd >= 0) {
close(joystick->hwdata->fd);
}
if (joystick->hwdata->item) {
joystick->hwdata->item->hwdata = NULL;
}
SDL_free(joystick->hwdata->key_pam);
SDL_free(joystick->hwdata->abs_pam);
SDL_free(joystick->hwdata->hats);
SDL_free(joystick->hwdata->balls);
SDL_free(joystick->hwdata->fname);
SDL_free(joystick->hwdata);
}
}
/* Function to perform any system-specific joystick related cleanup */
static void LINUX_JoystickQuit(void)
{
SDL_joylist_item *item = NULL;
SDL_joylist_item *next = NULL;
if (inotify_fd >= 0) {
close(inotify_fd);
inotify_fd = -1;
}
for (item = SDL_joylist; item; item = next) {
next = item->next;
FreeJoylistItem(item);
}
SDL_joylist = SDL_joylist_tail = NULL;
numjoysticks = 0;
#if SDL_USE_LIBUDEV
if (enumeration_method == ENUMERATION_LIBUDEV) {
SDL_UDEV_DelCallback(joystick_udev_callback);
SDL_UDEV_Quit();
}
#endif
SDL_QuitSteamControllers();
}
/*
This is based on the Linux Gamepad Specification
available at: https://www.kernel.org/doc/html/v4.15/input/gamepad.html
and the Android gamepad documentation,
https://developer.android.com/develop/ui/views/touch-and-input/game-controllers/controller-input
*/
static SDL_bool LINUX_JoystickGetGamepadMapping(int device_index, SDL_GamepadMapping *out)
{
SDL_Joystick *joystick;
SDL_joylist_item *item = JoystickByDevIndex(device_index);
enum {
MAPPED_TRIGGER_LEFT = 0x1,
MAPPED_TRIGGER_RIGHT = 0x2,
MAPPED_TRIGGER_BOTH = 0x3,
MAPPED_DPAD_UP = 0x1,
MAPPED_DPAD_DOWN = 0x2,
MAPPED_DPAD_LEFT = 0x4,
MAPPED_DPAD_RIGHT = 0x8,
MAPPED_DPAD_ALL = 0xF,
};
unsigned int mapped;
SDL_AssertJoysticksLocked();
if (item->checked_mapping) {
if (item->mapping) {
SDL_memcpy(out, item->mapping, sizeof(*out));
#ifdef DEBUG_GAMEPAD_MAPPING
SDL_Log("Prior mapping for device %d", device_index);
#endif
return SDL_TRUE;
} else {
return SDL_FALSE;
}
}
/* We temporarily open the device to check how it's configured. Make
a fake SDL_Joystick object to do so. */
joystick = (SDL_Joystick *)SDL_calloc(sizeof(*joystick), 1);
if (joystick == NULL) {
SDL_OutOfMemory();
return SDL_FALSE;
}
joystick->magic = &SDL_joystick_magic;
SDL_memcpy(&joystick->guid, &item->guid, sizeof(item->guid));
joystick->hwdata = (struct joystick_hwdata *)
SDL_calloc(1, sizeof(*joystick->hwdata));
if (joystick->hwdata == NULL) {
SDL_free(joystick);
SDL_OutOfMemory();
return SDL_FALSE;
}
item->checked_mapping = SDL_TRUE;
if (PrepareJoystickHwdata(joystick, item) == -1) {
SDL_free(joystick->hwdata);
SDL_free(joystick);
return SDL_FALSE; /* SDL_SetError will already have been called */
}
/* don't assign `item->hwdata` so it's not in any global state. */
/* it is now safe to call LINUX_JoystickClose on this fake joystick. */
if (!joystick->hwdata->has_key[BTN_GAMEPAD]) {
/* Not a gamepad according to the specs. */
LINUX_JoystickClose(joystick);
SDL_free(joystick);
return SDL_FALSE;
}
/* We have a gamepad, start filling out the mappings */
#ifdef DEBUG_GAMEPAD_MAPPING
SDL_Log("Mapping %s (VID/PID 0x%.4x/0x%.4x)", item->name, SDL_JoystickGetVendor(joystick), SDL_JoystickGetProduct(joystick));
#endif
if (joystick->hwdata->has_key[BTN_A]) {
out->a.kind = EMappingKind_Button;
out->a.target = joystick->hwdata->key_map[BTN_A];
#ifdef DEBUG_GAMEPAD_MAPPING
SDL_Log("Mapped A to button %d (BTN_A)", out->a.target);
#endif
}
if (joystick->hwdata->has_key[BTN_B]) {
out->b.kind = EMappingKind_Button;
out->b.target = joystick->hwdata->key_map[BTN_B];
#ifdef DEBUG_GAMEPAD_MAPPING
SDL_Log("Mapped B to button %d (BTN_B)", out->b.target);
#endif
}
/* Xbox controllers use BTN_X and BTN_Y, and PS4 controllers use BTN_WEST and BTN_NORTH */
if (SDL_JoystickGetVendor(joystick) == USB_VENDOR_SONY) {
if (joystick->hwdata->has_key[BTN_WEST]) {
out->x.kind = EMappingKind_Button;
out->x.target = joystick->hwdata->key_map[BTN_WEST];
#ifdef DEBUG_GAMEPAD_MAPPING
SDL_Log("Mapped X to button %d (BTN_WEST)", out->x.target);
#endif
}
if (joystick->hwdata->has_key[BTN_NORTH]) {
out->y.kind = EMappingKind_Button;
out->y.target = joystick->hwdata->key_map[BTN_NORTH];
#ifdef DEBUG_GAMEPAD_MAPPING
SDL_Log("Mapped Y to button %d (BTN_NORTH)", out->y.target);
#endif
}
} else {
if (joystick->hwdata->has_key[BTN_X]) {
out->x.kind = EMappingKind_Button;
out->x.target = joystick->hwdata->key_map[BTN_X];
#ifdef DEBUG_GAMEPAD_MAPPING
SDL_Log("Mapped X to button %d (BTN_X)", out->x.target);
#endif
}
if (joystick->hwdata->has_key[BTN_Y]) {
out->y.kind = EMappingKind_Button;
out->y.target = joystick->hwdata->key_map[BTN_Y];
#ifdef DEBUG_GAMEPAD_MAPPING
SDL_Log("Mapped Y to button %d (BTN_Y)", out->y.target);
#endif
}
}
if (joystick->hwdata->has_key[BTN_SELECT]) {
out->back.kind = EMappingKind_Button;
out->back.target = joystick->hwdata->key_map[BTN_SELECT];
#ifdef DEBUG_GAMEPAD_MAPPING
SDL_Log("Mapped BACK to button %d (BTN_SELECT)", out->back.target);
#endif
}
if (joystick->hwdata->has_key[BTN_START]) {
out->start.kind = EMappingKind_Button;
out->start.target = joystick->hwdata->key_map[BTN_START];
#ifdef DEBUG_GAMEPAD_MAPPING
SDL_Log("Mapped START to button %d (BTN_START)", out->start.target);
#endif
}
if (joystick->hwdata->has_key[BTN_THUMBL]) {
out->leftstick.kind = EMappingKind_Button;
out->leftstick.target = joystick->hwdata->key_map[BTN_THUMBL];
#ifdef DEBUG_GAMEPAD_MAPPING
SDL_Log("Mapped LEFTSTICK to button %d (BTN_THUMBL)", out->leftstick.target);
#endif
}
if (joystick->hwdata->has_key[BTN_THUMBR]) {
out->rightstick.kind = EMappingKind_Button;
out->rightstick.target = joystick->hwdata->key_map[BTN_THUMBR];
#ifdef DEBUG_GAMEPAD_MAPPING
SDL_Log("Mapped RIGHTSTICK to button %d (BTN_THUMBR)", out->rightstick.target);
#endif
}
if (joystick->hwdata->has_key[BTN_MODE]) {
out->guide.kind = EMappingKind_Button;
out->guide.target = joystick->hwdata->key_map[BTN_MODE];
#ifdef DEBUG_GAMEPAD_MAPPING
SDL_Log("Mapped GUIDE to button %d (BTN_MODE)", out->guide.target);
#endif
}
/*
According to the specs the D-Pad, the shoulder buttons and the triggers
can be digital, or analog, or both at the same time.
*/
/* Prefer digital shoulder buttons, but settle for digital or analog hat. */
mapped = 0;
if (joystick->hwdata->has_key[BTN_TL]) {
out->leftshoulder.kind = EMappingKind_Button;
out->leftshoulder.target = joystick->hwdata->key_map[BTN_TL];
mapped |= 0x1;
#ifdef DEBUG_GAMEPAD_MAPPING
SDL_Log("Mapped LEFTSHOULDER to button %d (BTN_TL)", out->leftshoulder.target);
#endif
}
if (joystick->hwdata->has_key[BTN_TR]) {
out->rightshoulder.kind = EMappingKind_Button;
out->rightshoulder.target = joystick->hwdata->key_map[BTN_TR];
mapped |= 0x2;
#ifdef DEBUG_GAMEPAD_MAPPING
SDL_Log("Mapped RIGHTSHOULDER to button %d (BTN_TR)", out->rightshoulder.target);
#endif
}
if (mapped != 0x3 && joystick->hwdata->has_hat[1]) {
int hat = joystick->hwdata->hats_indices[1] << 4;
out->leftshoulder.kind = EMappingKind_Hat;
out->rightshoulder.kind = EMappingKind_Hat;
out->leftshoulder.target = hat | 0x4;
out->rightshoulder.target = hat | 0x2;
mapped |= 0x3;
#ifdef DEBUG_GAMEPAD_MAPPING
SDL_Log("Mapped LEFT+RIGHTSHOULDER to hat 1 (ABS_HAT1X, ABS_HAT1Y)");
#endif
}
if (!(mapped & 0x1) && joystick->hwdata->has_abs[ABS_HAT1Y]) {
out->leftshoulder.kind = EMappingKind_Axis;
out->leftshoulder.target = joystick->hwdata->abs_map[ABS_HAT1Y];
mapped |= 0x1;
#ifdef DEBUG_GAMEPAD_MAPPING
SDL_Log("Mapped LEFTSHOULDER to axis %d (ABS_HAT1Y)", out->leftshoulder.target);
#endif
}
if (!(mapped & 0x2) && joystick->hwdata->has_abs[ABS_HAT1X]) {
out->rightshoulder.kind = EMappingKind_Axis;
out->rightshoulder.target = joystick->hwdata->abs_map[ABS_HAT1X];
mapped |= 0x2;
#ifdef DEBUG_GAMEPAD_MAPPING
SDL_Log("Mapped RIGHTSHOULDER to axis %d (ABS_HAT1X)", out->rightshoulder.target);
#endif
}
/* Prefer analog triggers, but settle for digital hat or buttons. */
mapped = 0;
/* Unfortunately there are several conventions for how analog triggers
* are represented as absolute axes:
*
* - Linux Gamepad Specification:
* LT = ABS_HAT2Y, RT = ABS_HAT2X
* - Android (and therefore many Bluetooth controllers):
* LT = ABS_BRAKE, RT = ABS_GAS
* - De facto standard for older Xbox and Playstation controllers:
* LT = ABS_Z, RT = ABS_RZ
*
* We try each one in turn. */
if (joystick->hwdata->has_abs[ABS_HAT2Y]) {
/* Linux Gamepad Specification */
out->lefttrigger.kind = EMappingKind_Axis;
out->lefttrigger.target = joystick->hwdata->abs_map[ABS_HAT2Y];
mapped |= MAPPED_TRIGGER_LEFT;
#ifdef DEBUG_GAMEPAD_MAPPING
SDL_Log("Mapped LEFTTRIGGER to axis %d (ABS_HAT2Y)", out->lefttrigger.target);
#endif
} else if (joystick->hwdata->has_abs[ABS_BRAKE]) {
/* Android convention */
out->lefttrigger.kind = EMappingKind_Axis;
out->lefttrigger.target = joystick->hwdata->abs_map[ABS_BRAKE];
mapped |= MAPPED_TRIGGER_LEFT;
#ifdef DEBUG_GAMEPAD_MAPPING
SDL_Log("Mapped LEFTTRIGGER to axis %d (ABS_BRAKE)", out->lefttrigger.target);
#endif
} else if (joystick->hwdata->has_abs[ABS_Z]) {
/* De facto standard for Xbox 360 and Playstation gamepads */
out->lefttrigger.kind = EMappingKind_Axis;
out->lefttrigger.target = joystick->hwdata->abs_map[ABS_Z];
mapped |= MAPPED_TRIGGER_LEFT;
#ifdef DEBUG_GAMEPAD_MAPPING
SDL_Log("Mapped LEFTTRIGGER to axis %d (ABS_Z)", out->lefttrigger.target);
#endif
}
if (joystick->hwdata->has_abs[ABS_HAT2X]) {
/* Linux Gamepad Specification */
out->righttrigger.kind = EMappingKind_Axis;
out->righttrigger.target = joystick->hwdata->abs_map[ABS_HAT2X];
mapped |= MAPPED_TRIGGER_RIGHT;
#ifdef DEBUG_GAMEPAD_MAPPING
SDL_Log("Mapped RIGHTTRIGGER to axis %d (ABS_HAT2X)", out->righttrigger.target);
#endif
} else if (joystick->hwdata->has_abs[ABS_GAS]) {
/* Android convention */
out->righttrigger.kind = EMappingKind_Axis;
out->righttrigger.target = joystick->hwdata->abs_map[ABS_GAS];
mapped |= MAPPED_TRIGGER_RIGHT;
#ifdef DEBUG_GAMEPAD_MAPPING
SDL_Log("Mapped RIGHTTRIGGER to axis %d (ABS_GAS)", out->righttrigger.target);
#endif
} else if (joystick->hwdata->has_abs[ABS_RZ]) {
/* De facto standard for Xbox 360 and Playstation gamepads */
out->righttrigger.kind = EMappingKind_Axis;
out->righttrigger.target = joystick->hwdata->abs_map[ABS_RZ];
mapped |= MAPPED_TRIGGER_RIGHT;
#ifdef DEBUG_GAMEPAD_MAPPING
SDL_Log("Mapped RIGHTTRIGGER to axis %d (ABS_RZ)", out->righttrigger.target);
#endif
}
if (mapped != MAPPED_TRIGGER_BOTH && joystick->hwdata->has_hat[2]) {
int hat = joystick->hwdata->hats_indices[2] << 4;
out->lefttrigger.kind = EMappingKind_Hat;
out->righttrigger.kind = EMappingKind_Hat;
out->lefttrigger.target = hat | 0x4;
out->righttrigger.target = hat | 0x2;
mapped |= MAPPED_TRIGGER_BOTH;
#ifdef DEBUG_GAMEPAD_MAPPING
SDL_Log("Mapped LEFT+RIGHTTRIGGER to hat 2 (ABS_HAT2X, ABS_HAT2Y)");
#endif
}
if (!(mapped & MAPPED_TRIGGER_LEFT) && joystick->hwdata->has_key[BTN_TL2]) {
out->lefttrigger.kind = EMappingKind_Button;
out->lefttrigger.target = joystick->hwdata->key_map[BTN_TL2];
mapped |= MAPPED_TRIGGER_LEFT;
#ifdef DEBUG_GAMEPAD_MAPPING
SDL_Log("Mapped LEFTTRIGGER to button %d (BTN_TL2)", out->lefttrigger.target);
#endif
}
if (!(mapped & MAPPED_TRIGGER_RIGHT) && joystick->hwdata->has_key[BTN_TR2]) {
out->righttrigger.kind = EMappingKind_Button;
out->righttrigger.target = joystick->hwdata->key_map[BTN_TR2];
mapped |= MAPPED_TRIGGER_RIGHT;
#ifdef DEBUG_GAMEPAD_MAPPING
SDL_Log("Mapped RIGHTTRIGGER to button %d (BTN_TR2)", out->righttrigger.target);
#endif
}
/* Prefer digital D-Pad buttons, but settle for digital or analog hat. */
mapped = 0;
if (joystick->hwdata->has_key[BTN_DPAD_UP]) {
out->dpup.kind = EMappingKind_Button;
out->dpup.target = joystick->hwdata->key_map[BTN_DPAD_UP];
mapped |= MAPPED_DPAD_UP;
#ifdef DEBUG_GAMEPAD_MAPPING
SDL_Log("Mapped DPUP to button %d (BTN_DPAD_UP)", out->dpup.target);
#endif
}
if (joystick->hwdata->has_key[BTN_DPAD_DOWN]) {
out->dpdown.kind = EMappingKind_Button;
out->dpdown.target = joystick->hwdata->key_map[BTN_DPAD_DOWN];
mapped |= MAPPED_DPAD_DOWN;
#ifdef DEBUG_GAMEPAD_MAPPING
SDL_Log("Mapped DPDOWN to button %d (BTN_DPAD_DOWN)", out->dpdown.target);
#endif
}
if (joystick->hwdata->has_key[BTN_DPAD_LEFT]) {
out->dpleft.kind = EMappingKind_Button;
out->dpleft.target = joystick->hwdata->key_map[BTN_DPAD_LEFT];
mapped |= MAPPED_DPAD_LEFT;
#ifdef DEBUG_GAMEPAD_MAPPING
SDL_Log("Mapped DPLEFT to button %d (BTN_DPAD_LEFT)", out->dpleft.target);
#endif
}
if (joystick->hwdata->has_key[BTN_DPAD_RIGHT]) {
out->dpright.kind = EMappingKind_Button;
out->dpright.target = joystick->hwdata->key_map[BTN_DPAD_RIGHT];
mapped |= MAPPED_DPAD_RIGHT;
#ifdef DEBUG_GAMEPAD_MAPPING
SDL_Log("Mapped DPRIGHT to button %d (BTN_DPAD_RIGHT)", out->dpright.target);
#endif
}
if (mapped != MAPPED_DPAD_ALL) {
if (joystick->hwdata->has_hat[0]) {
int hat = joystick->hwdata->hats_indices[0] << 4;
out->dpleft.kind = EMappingKind_Hat;
out->dpright.kind = EMappingKind_Hat;
out->dpup.kind = EMappingKind_Hat;
out->dpdown.kind = EMappingKind_Hat;
out->dpleft.target = hat | 0x8;
out->dpright.target = hat | 0x2;
out->dpup.target = hat | 0x1;
out->dpdown.target = hat | 0x4;
mapped |= MAPPED_DPAD_ALL;
#ifdef DEBUG_GAMEPAD_MAPPING
SDL_Log("Mapped DPUP+DOWN+LEFT+RIGHT to hat 0 (ABS_HAT0X, ABS_HAT0Y)");
#endif
} else if (joystick->hwdata->has_abs[ABS_HAT0X] && joystick->hwdata->has_abs[ABS_HAT0Y]) {
out->dpleft.kind = EMappingKind_Axis;
out->dpright.kind = EMappingKind_Axis;
out->dpup.kind = EMappingKind_Axis;
out->dpdown.kind = EMappingKind_Axis;
out->dpleft.target = joystick->hwdata->abs_map[ABS_HAT0X];
out->dpright.target = joystick->hwdata->abs_map[ABS_HAT0X];
out->dpup.target = joystick->hwdata->abs_map[ABS_HAT0Y];
out->dpdown.target = joystick->hwdata->abs_map[ABS_HAT0Y];
mapped |= MAPPED_DPAD_ALL;
#ifdef DEBUG_GAMEPAD_MAPPING
SDL_Log("Mapped DPUP+DOWN to axis %d (ABS_HAT0Y)", out->dpup.target);
SDL_Log("Mapped DPLEFT+RIGHT to axis %d (ABS_HAT0X)", out->dpleft.target);
#endif
}
}
if (joystick->hwdata->has_abs[ABS_X] && joystick->hwdata->has_abs[ABS_Y]) {
out->leftx.kind = EMappingKind_Axis;
out->lefty.kind = EMappingKind_Axis;
out->leftx.target = joystick->hwdata->abs_map[ABS_X];
out->lefty.target = joystick->hwdata->abs_map[ABS_Y];
#ifdef DEBUG_GAMEPAD_MAPPING
SDL_Log("Mapped LEFTX to axis %d (ABS_X)", out->leftx.target);
SDL_Log("Mapped LEFTY to axis %d (ABS_Y)", out->lefty.target);
#endif
}
/* The Linux Gamepad Specification uses the RX and RY axes,
* originally intended to represent X and Y rotation, as a second
* joystick. This is common for USB gamepads, and also many Bluetooth
* gamepads, particularly older ones.
*
* The Android mapping convention used by many Bluetooth controllers
* instead uses the Z axis as a secondary X axis, and the RZ axis as
* a secondary Y axis. */
if (joystick->hwdata->has_abs[ABS_RX] && joystick->hwdata->has_abs[ABS_RY]) {
/* Linux Gamepad Specification, Xbox 360, Playstation etc. */
out->rightx.kind = EMappingKind_Axis;
out->righty.kind = EMappingKind_Axis;
out->rightx.target = joystick->hwdata->abs_map[ABS_RX];
out->righty.target = joystick->hwdata->abs_map[ABS_RY];
#ifdef DEBUG_GAMEPAD_MAPPING
SDL_Log("Mapped RIGHTX to axis %d (ABS_RX)", out->rightx.target);
SDL_Log("Mapped RIGHTY to axis %d (ABS_RY)", out->righty.target);
#endif
} else if (joystick->hwdata->has_abs[ABS_Z] && joystick->hwdata->has_abs[ABS_RZ]) {
/* Android convention */
out->rightx.kind = EMappingKind_Axis;
out->righty.kind = EMappingKind_Axis;
out->rightx.target = joystick->hwdata->abs_map[ABS_Z];
out->righty.target = joystick->hwdata->abs_map[ABS_RZ];
#ifdef DEBUG_GAMEPAD_MAPPING
SDL_Log("Mapped RIGHTX to axis %d (ABS_Z)", out->rightx.target);
SDL_Log("Mapped RIGHTY to axis %d (ABS_RZ)", out->righty.target);
#endif
}
if (SDL_JoystickGetVendor(joystick) == USB_VENDOR_MICROSOFT) {
/* The Xbox Elite controllers have the paddles as BTN_TRIGGER_HAPPY5 - BTN_TRIGGER_HAPPY8 */
if (joystick->hwdata->has_key[BTN_TRIGGER_HAPPY5] &&
joystick->hwdata->has_key[BTN_TRIGGER_HAPPY6] &&
joystick->hwdata->has_key[BTN_TRIGGER_HAPPY7] &&
joystick->hwdata->has_key[BTN_TRIGGER_HAPPY8]) {
out->paddle1.kind = EMappingKind_Button;
out->paddle1.target = joystick->hwdata->key_map[BTN_TRIGGER_HAPPY5];
out->paddle2.kind = EMappingKind_Button;
out->paddle2.target = joystick->hwdata->key_map[BTN_TRIGGER_HAPPY7];
out->paddle3.kind = EMappingKind_Button;
out->paddle3.target = joystick->hwdata->key_map[BTN_TRIGGER_HAPPY6];
out->paddle4.kind = EMappingKind_Button;
out->paddle4.target = joystick->hwdata->key_map[BTN_TRIGGER_HAPPY8];
#ifdef DEBUG_GAMEPAD_MAPPING
SDL_Log("Mapped PADDLE1 to button %d (BTN_TRIGGER_HAPPY5)", out->paddle1.target);
SDL_Log("Mapped PADDLE2 to button %d (BTN_TRIGGER_HAPPY7)", out->paddle2.target);
SDL_Log("Mapped PADDLE3 to button %d (BTN_TRIGGER_HAPPY6)", out->paddle3.target);
SDL_Log("Mapped PADDLE4 to button %d (BTN_TRIGGER_HAPPY8)", out->paddle4.target);
#endif
}
/* The Xbox Series X controllers have the Share button as KEY_RECORD */
if (joystick->hwdata->has_key[KEY_RECORD]) {
out->misc1.kind = EMappingKind_Button;
out->misc1.target = joystick->hwdata->key_map[KEY_RECORD];
#ifdef DEBUG_GAMEPAD_MAPPING
SDL_Log("Mapped MISC1 to button %d (KEY_RECORD)", out->misc1.target);
#endif
}
}
LINUX_JoystickClose(joystick);
SDL_free(joystick);
/* Cache the mapping for later */
item->mapping = (SDL_GamepadMapping *)SDL_malloc(sizeof(*item->mapping));
if (item->mapping) {
SDL_memcpy(item->mapping, out, sizeof(*out));
}
#ifdef DEBUG_GAMEPAD_MAPPING
SDL_Log("Generated mapping for device %d", device_index);
#endif
return SDL_TRUE;
}
SDL_JoystickDriver SDL_LINUX_JoystickDriver = {
LINUX_JoystickInit,
LINUX_JoystickGetCount,
LINUX_JoystickDetect,
LINUX_JoystickGetDeviceName,
LINUX_JoystickGetDevicePath,
LINUX_JoystickGetDevicePlayerIndex,
LINUX_JoystickSetDevicePlayerIndex,
LINUX_JoystickGetDeviceGUID,
LINUX_JoystickGetDeviceInstanceID,
LINUX_JoystickOpen,
LINUX_JoystickRumble,
LINUX_JoystickRumbleTriggers,
LINUX_JoystickGetCapabilities,
LINUX_JoystickSetLED,
LINUX_JoystickSendEffect,
LINUX_JoystickSetSensorsEnabled,
LINUX_JoystickUpdate,
LINUX_JoystickClose,
LINUX_JoystickQuit,
LINUX_JoystickGetGamepadMapping
};
#endif /* SDL_JOYSTICK_LINUX */
/* vi: set ts=4 sw=4 expandtab: */