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gamecontroller_db.cpp
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gamecontroller_db.cpp
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#include "gamecontroller_db.h"
#include <stdio.h>
#include <string.h>
#include <stdlib.h>
#include <sys/ioctl.h>
#include "input.h"
#include "file_io.h"
#include "user_io.h"
#include "profiling.h"
//Note: sdl gamecontrollerdb maps a,b,x,y differently, so we need to swap each pair (a<->b, x<->y)
static const char *sdlname_to_mister_idx[] = {
"dpright",
"dpleft",
"dpdown",
"dpup",
"b",
"a",
"y",
"x",
"leftshoulder",
"rightshoulder",
"back",
"start",
NULL,
NULL,
NULL,
NULL,
NULL,
NULL,
NULL,
NULL,
NULL, //20
"guide", //21
"guide2", //Mister extension: guide2 is the 2nd button for OSD chord
"menufunc", //Dummy entry so mister->sdl map string works
"leftx",
"lefty",
"rightx",
"righty",
"asysx",
"asysy",
NULL,
NULL,
};
typedef struct {
uint16_t id[4]; //bustype, vid, pid, version
uint32_t map[NUMBUTTONS];
} controllerdb_entry;
static controllerdb_entry db_maps[MAX_GCDB_ENTRIES] = {};
static int last_db_idx = 0;
//platform should be at the end of mapping strings. this function will null the start of platform: if found
static bool cdb_entry_matches(char *db_str)
{
char *pl_ptr = NULL;
if (!db_str || !strlen(db_str)) return false;
pl_ptr = strcasestr(db_str, "platform:");
if (!pl_ptr) return false;
*pl_ptr = 0;
pl_ptr += strlen("platform:");
if (!strncasecmp(pl_ptr, "Linux", 5)) return true;
if (!strncasecmp(pl_ptr, "MiSTer", 6))
{
char *core_ptr = NULL;
core_ptr = strcasestr(db_str, "mistercore:");
if (!core_ptr) return true; //platform:MiSTer with no core designators is a generic match
while(core_ptr)
{
char *nxt_c = NULL;
char *match_c = NULL;
core_ptr += 11;
nxt_c = strchr(core_ptr, ',');
if (!nxt_c) break;
match_c = strchr(core_ptr, '*');
if (!match_c || match_c >= nxt_c)
{
match_c = nxt_c;
}
if (!strncasecmp(core_ptr, user_io_get_core_name(), match_c - core_ptr)) return true;
if (!strncasecmp(core_ptr, user_io_get_core_name(1), match_c - core_ptr)) return true;
core_ptr = strcasestr(nxt_c, "mistercore:");
}
}
return false;
}
static int find_mister_button_num(char *sdl_name, bool *idx_high)
{
*idx_high = false;
for(size_t i = 0; i < sizeof(sdlname_to_mister_idx)/sizeof(char *); i++)
{
const char *map_str = sdlname_to_mister_idx[i];
if (map_str && !strcmp(map_str, sdl_name)) return i;
}
if (!strcasecmp(sdl_name, "menuok"))
{
*idx_high = false;
return SYS_BTN_MENU_FUNC;
}
if (!strcasecmp(sdl_name, "menuesc"))
{
*idx_high = true;
return SYS_BTN_MENU_FUNC;
}
return -1;
}
static int find_linux_code_for_button(char *btn_name, uint16_t *btn_map, uint16_t *abs_map)
{
if (!btn_name || !strlen(btn_name)) return -1;
char btn_sw = btn_name[0];
int a_edge = 0;
if (btn_name[0] == '-') a_edge = 1;
if (btn_name[0] == '+') a_edge = 2;
if (a_edge != 0)
{
btn_sw = btn_name[1];
}
switch(btn_sw)
{
case 'b':
{
//Normal button
int bidx = strtol(btn_name+1, NULL, 10);
return btn_map[bidx];
break;
}
case 'a':
{
int aidx = strtol(btn_name + (a_edge != 0 ? 2 : 1) , NULL, 10);
int abs_axis = abs_map[aidx];
if (a_edge)
{
return KEY_EMU + (abs_axis << 1) - 1 + a_edge;
} else {
return abs_axis;
}
break;
}
case 'h':
//Mister creates fake digital buttons for hats that depend on the code and axis direction.
{
char *dot_ptr = NULL;
int hidx = strtol(btn_name+1, NULL, 10);
int base_hat = ABS_HAT0X + hidx*2;
//base_hat is X, base_hat+1 is Y
dot_ptr = strchr(btn_name, '.');
if (dot_ptr)
{
int hat_dir = strtol(dot_ptr+1, NULL, 10);
switch(hat_dir)
{
case 1: //UP
return KEY_EMU + ((base_hat+1) << 1); //up is min value of Y axis
break;
case 2: // RIGHT
return KEY_EMU + (base_hat << 1) + 1; // (axis << 1) -1 + 2 right is max value
break;
case 4: //DOWN
return KEY_EMU + ((base_hat+1) << 1) + 1; //down is max value of Y axis
case 8: //LEFT
return KEY_EMU + (base_hat << 1); //(axis << 1) - 1 + 1 left is min value
break;
default:
return -1;
break;
}
}
break;
}
default:
return -1;
}
return -1;
}
#define test_bit(bit, array) (array [bit / 8] & (1 << (bit % 8)))
static void get_ctrl_index_maps(int dev_fd, char *guid, uint16_t *btn_map, uint16_t *abs_map)
{
unsigned char keybits[(KEY_MAX+7) / 8];
unsigned char absbits[(ABS_MAX+7) / 8];
uint16_t btn_cnt = 0;
uint16_t abs_cnt = 0;
printf("Gamecontrollerdb: mapping buttons for %s ", guid);
if (ioctl(dev_fd, EVIOCGBIT(EV_KEY, sizeof(keybits)), keybits) >= 0)
{
for (int i = BTN_JOYSTICK; i < KEY_MAX; i++)
{
if (test_bit(i, keybits))
{
//printf("b%d->%d ", btn_cnt, i);
btn_map[btn_cnt] = i;
btn_cnt++;
}
}
for (int i = 0; i < BTN_JOYSTICK; i++)
{
if (test_bit(i, keybits))
{
//printf("b%d -> %d ", btn_cnt, i);
btn_map[btn_cnt] = i;
btn_cnt++;
}
}
printf("\n");
}
printf("Gamecontrollerdb: mapping analog axes for %s ", guid);
if (ioctl(dev_fd, EVIOCGBIT(EV_ABS, sizeof(absbits)), absbits) >= 0)
{
//The "correct" way is to test all the way to ABS_MAX and skip any hats the device has.
//Mister handles hats differently and it is unlikely most things in the db files have axes beyond
//The normal sticks+triggers...
for (int i = 0; i < ABS_HAT0X; i++)
{
if (test_bit(i, absbits))
{
//printf("a%d->%d ", abs_cnt, i);
abs_map[abs_cnt] = i;
abs_cnt++;
}
}
//Just for debugging purposes...
for (int i = ABS_HAT0X; i < ABS_MAX; i++)
{
if (test_bit(i, absbits))
{
//printf("(debug)a%d->%d ", abs_cnt, i);
abs_cnt++;
}
}
}
printf("\n");
}
void gcdb_show_string_for_ctrl_map(uint16_t bustype, uint16_t vid, uint16_t pid, uint16_t version,int dev_fd, const char *name, uint32_t *cur_map)
{
static char map_guid[GUID_LEN] = {0};
static uint16_t btn_map[KEY_MAX - BTN_JOYSTICK] = {0xFFFF};
static uint16_t abs_map[ABS_MAX] = {0xFFFF};
if (!cur_map) return;
char guid_str[GUID_LEN] = {0};
sprintf(guid_str, "%04x0000%04x0000%04x0000%04x0000", (uint16_t)(bustype << 8 | bustype >> 8), (uint16_t)( vid << 8 | vid >> 8), (uint16_t)(pid << 8 | pid >> 8), (uint16_t)(version << 8 | version >> 8));
if (strcmp(map_guid, guid_str))
{
memset(btn_map, 0xFFFF, sizeof(btn_map));
memset(abs_map, 0xFFFF, sizeof(abs_map));
strncpy(map_guid, guid_str, GUID_LEN);
get_ctrl_index_maps(dev_fd, guid_str, btn_map, abs_map);
}
//Directions/hats+Buttons
printf("Gamecontrollerdb for mapping: %s,%s,", guid_str, name);
for(int i=0; i < NUMBUTTONS; i++)
{
if (i > SYS_BTN_START && i < SYS_BTN_OSD_KTGL) continue; //Skip mouse buttons
if (i == SYS_BTN_OSD_KTGL+2 && (cur_map[i] == cur_map[i-1])) continue;
const char *sdlname = sdlname_to_mister_idx[i];
if (!sdlname) continue;
if (cur_map[i])
{
uint32_t i_code = cur_map[i] & 0xFFFF;
if (i_code > KEY_EMU) //hat/analog
{
bool is_max = i_code & 0x1;
uint16_t axis_idx = (i_code - KEY_EMU) >> 1;
if (axis_idx >= ABS_HAT0X && axis_idx <= ABS_HAT3Y)
{
uint8_t hat_num = (axis_idx - ABS_HAT0X)/2;
bool axis_is_y = (axis_idx - ABS_HAT0X)%2;
uint8_t hat_sub = 0;
if (axis_is_y)
{
hat_sub = is_max ? 4 : 1;
} else {
hat_sub = is_max ? 2 : 8;
}
if (hat_sub)
{
printf("%s:h%d.%d,", sdlname, hat_num, hat_sub);
}
} else {
//Mister 'fake' analog digital inputs.
for(unsigned int j=0; j < sizeof(abs_map)/sizeof(uint16_t); j++)
{
if (abs_map[j] == axis_idx)
{
if (is_max)
printf("%s:+a%d,", sdlname, j);
else
printf("%s:-a%d,", sdlname, j);
break;
}
}
}
} else if (cur_map[i] & 0x20000) { //Analog
for(unsigned int j=0; j < sizeof(abs_map)/sizeof(uint16_t); j++)
{
if (abs_map[j] == i_code)
{
printf("%s:a%d,", sdlname, j);
break;
}
}
} else {
//Ugh
int menu_func_cnt = 0;
for(unsigned int j=0; j < sizeof(btn_map)/sizeof(uint16_t); j++)
{
if (btn_map[j] == 0xFFFF) break;
if (i == SYS_BTN_MENU_FUNC)
{
if (btn_map[j] == (cur_map[i] & 0xFFFF))
{
printf("menuok:b%d,", j);
menu_func_cnt++;
} else if (btn_map[j] == (cur_map[i] >> 16)) {
printf("menuesc:b%d,",j);
menu_func_cnt++;
}
if (menu_func_cnt == 2) break;
} else if (btn_map[j] == i_code) {
printf("%s:b%d,", sdlname, j);
break;
}
}
}
}
}
printf("platform:MiSTer,\n");
}
static bool parse_mapping_string(char *map_str, char *guid, int dev_fd, uint32_t *fill_map)
{
static char map_guid[GUID_LEN] = {0};
static uint16_t btn_map[KEY_MAX - BTN_JOYSTICK] = {0};
static uint16_t abs_map[ABS_MAX] = {0};
if (!map_str || !fill_map) return false;
//gamecontrollerdb references buttons/axes numerically, and the number depends on the actual buttons supported
//by the controller. Build a map of button number -> keycode (same with axes)
if (strcmp(map_guid, guid)) //New guid, map out button indexes for this new controller
{
bzero(btn_map, sizeof(btn_map));
bzero(abs_map, sizeof(abs_map));
get_ctrl_index_maps(dev_fd, guid, btn_map, abs_map);
}
char l_btn[20] = {};
char m_btn[20] = {};
bool in_m_btn = true;
size_t i = 0;
bool map_parsed = false;
char *cur_str = map_str;
while (cur_str && *cur_str)
{
if (*cur_str == ':')
{
i = 0;
in_m_btn = false;
} else if (*cur_str == ',') {
i = 0;
in_m_btn = true;
if (l_btn[0] && m_btn[0])
{
bool m_button_high = false;
int m_button_num = find_mister_button_num(m_btn, &m_button_high);
int l_button_code = find_linux_code_for_button(l_btn, btn_map, abs_map);
if (m_button_num != -1 && l_button_code != -1)
{
map_parsed = true;
fill_map[m_button_num] = m_button_high ? ((l_button_code << 16) | fill_map[m_button_num]) : ((l_button_code & 0xFFFF) | fill_map[m_button_num]);
if (m_button_num >= SYS_AXIS1_X && m_button_num <= SYS_AXIS_MX)
{
fill_map[m_button_num] = l_button_code | 0x20000;
}
}
}
bzero(l_btn, sizeof(l_btn));
bzero(m_btn, sizeof(m_btn));
} else if (in_m_btn) {
//Just truncate button names if they are too big
if (i <= sizeof(m_btn))
{
m_btn[i] = *cur_str;
i++;
}
} else {
if (i <= sizeof(l_btn))
{
l_btn[i] = *cur_str;
i++;
}
}
cur_str++;
}
if (map_parsed)
{
if ((fill_map[SYS_BTN_MENU_FUNC] & 0xFFFF) == 0)
{
fill_map[SYS_BTN_MENU_FUNC] = fill_map[SYS_BTN_A] & 0xFFFF;
}
if ((fill_map[SYS_BTN_MENU_FUNC] & 0xFFFF0000) == 0)
{
fill_map[SYS_BTN_MENU_FUNC] = (fill_map[SYS_BTN_B] << 16) | fill_map[SYS_BTN_MENU_FUNC];
}
if (fill_map[SYS_BTN_OSD_KTGL+2] == 0) fill_map[SYS_BTN_OSD_KTGL+2] = fill_map[SYS_BTN_OSD_KTGL+1];
//Some controllers without analog sticks use the left stick axes for the dpad instead of using the hat axes
//When these are mapped to dpad directions in an entry, it results in the mister
//having no mapping for the corresponding analog axis.
//any analog axis that isn't mapped to either SYS_AXIS1 or SYS_AXIS2 is treated like a trigger and only generates
//'fake' digital inputs on the axis max. This results in only two dpad directions working.
//Populate the entries for SYS_AXIS1 based on what the dpad was mapped to, but only if the entry didn't map the analog
//axes itself.
if (!fill_map[SYS_AXIS1_X] && fill_map[SYS_BTN_RIGHT] > KEY_EMU)
{
uint16_t axis_idx = (fill_map[SYS_BTN_RIGHT] - KEY_EMU) >> 1;
fill_map[SYS_AXIS1_X] = axis_idx | 0x20000;
}
if (!fill_map[SYS_AXIS1_Y] && fill_map[SYS_BTN_UP] > KEY_EMU)
{
uint16_t axis_idx = (fill_map[SYS_BTN_UP] - KEY_EMU) >> 1;
fill_map[SYS_AXIS1_Y] = axis_idx | 0x20000;
}
if (fill_map[SYS_AXIS_X] == 0) fill_map[SYS_AXIS_X] = fill_map[SYS_AXIS1_X];
if (fill_map[SYS_AXIS_Y] == 0) fill_map[SYS_AXIS_Y] = fill_map[SYS_AXIS1_Y];
}
return map_parsed;
}
#define GCDB_DIR "/media/fat/linux/gamecontrollerdb/"
bool read_controller_map_from_file(char *fname, char *guid, int dev_fd, uint32_t *fill_map)
{
fileTextReader reader;
char matched[1024] = {};
char *map_start = NULL;
if (FileOpenTextReader(&reader, fname))
{
const char *line;
printf("Gamecontrollerdb: searching for GUID %s in file %s\n", guid, fname);
while ((line = FileReadLine(&reader)))
{
if (line[0] == '#') continue;
const char *gcom = strchr(line, ',');
if (!strncasecmp(line, guid, gcom-line))
{
if (cdb_entry_matches((char *)gcom))
{
map_start = strchr((char *)gcom+1, ',');
if (map_start)
{
strncpy(matched, map_start+1, sizeof(matched));
}
}
}
}
}
if (matched[0] != 0)
{
printf("Gamecontrollerdb: found match, using config %s\n", matched);
return parse_mapping_string(matched, guid, dev_fd, fill_map);
}
return false;
}
static int gcdb_controller_idx(uint16_t bustype, uint16_t vid, uint16_t pid, uint16_t version)
{
for (int i=0; i < MAX_GCDB_ENTRIES; i++)
{
if (db_maps[i].id[0] == bustype && db_maps[i].id[1] == vid && db_maps[i].id[2] == pid && db_maps[i].id[3] == version)
{
return i;
}
}
return -1;
}
static void gcdb_cache_controller_map(uint16_t bustype, uint16_t vid, uint16_t pid, uint16_t version, uint32_t *button_map)
{
if (gcdb_controller_idx(bustype, vid, pid, version) > -1)
{
//Already cached
return;
}
db_maps[last_db_idx].id[0] = bustype;
db_maps[last_db_idx].id[1] = vid;
db_maps[last_db_idx].id[2] = pid;
db_maps[last_db_idx].id[3] = version;
memcpy(db_maps[last_db_idx].map, button_map, sizeof(uint32_t)*NUMBUTTONS);
last_db_idx = (last_db_idx +1) % MAX_GCDB_ENTRIES;
}
bool gcdb_map_for_controller(uint16_t bustype, uint16_t vid, uint16_t pid, uint16_t version, int dev_fd, uint32_t *fill_map)
{
PROFILE_FUNCTION();
char guid_str[GUID_LEN] = {};
int cache_idx = gcdb_controller_idx(bustype, vid, pid, version);
if (cache_idx != -1)
{
memcpy(fill_map, db_maps[cache_idx].map, sizeof(uint32_t)*NUMBUTTONS);
return true;
}
sprintf(guid_str, "%04x0000%04x0000%04x0000%04x0000", (uint16_t)(bustype << 8 | bustype >> 8), (uint16_t)( vid << 8 | vid >> 8), (uint16_t)(pid << 8 | pid >> 8), (uint16_t)(version << 8 | version >> 8));
char path[256] = {GCDB_DIR};
strcat(path, "gamecontrollerdb_user.txt");
bool found_entry = false;
if (!(found_entry = read_controller_map_from_file(path, guid_str, dev_fd, fill_map)))
{
strcpy(path, GCDB_DIR);
strcat(path, "gamecontrollerdb.txt");
found_entry = read_controller_map_from_file(path, guid_str, dev_fd, fill_map);
}
if (found_entry)
{
gcdb_cache_controller_map(bustype, vid, pid, version, fill_map);
return true;
}
return false;
}