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gc_n64_usb-v3/usbpad.c

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/* gc_n64_usb : Gamecube or N64 controller to USB firmware
Copyright (C) 2007-2013 Raphael Assenat <raph@raphnet.net>
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include <stdint.h>
#include <stdio.h>
#include "usb.h"
#include "gamepads.h"
#include "usbpad.h"
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#include "mappings.h"
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#include "eeprom.h"
#include "config.h"
#define REPORT_ID 1
#define REPORT_SIZE 15
// Output Report IDs for various functions
#define REPORT_SET_EFFECT 0x01
#define REPORT_SET_STATUS 0x02
#define REPORT_SET_PERIODIC 0x04
#define REPORT_SET_CONSTANT_FORCE 0x05
#define REPORT_EFFECT_OPERATION 0x0A
#define REPORT_EFFECT_BLOCK_IDX 0x0B
#define REPORT_DISABLE_ACTUATORS 0x0C
#define REPORT_PID_POOL 0x0D
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// Feature reports
#define REPORT_CREATE_EFFECT 0x09
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// For the 'Usage Effect Operation' report
#define EFFECT_OP_START 1
#define EFFECT_OP_START_SOLO 2
#define EFFECT_OP_STOP 3
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// Feature report
#define PID_SIMULTANEOUS_MAX 3
#define PID_BLOCK_LOAD_REPORT 2
static volatile unsigned char gamepad_vibrate = 0; // output
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static unsigned char vibration_on = 0, force_vibrate = 0;
static unsigned char constant_force = 0;
static unsigned char magnitude = 0;
static unsigned char _FFB_effect_index;
#define LOOP_MAX 0xFFFF
static unsigned int _loop_count;
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static unsigned char gamepad_report0[REPORT_SIZE];
static unsigned char hid_report_data[8]; // Used for force feedback
void usbpad_init()
{
}
int usbpad_getReportSize(void)
{
return REPORT_SIZE;
}
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static int16_t minmax(int16_t input, int16_t min, int16_t max)
{
if (input > max)
return max;
if (input < min)
return min;
return input;
}
static void btnsToReport(unsigned short buttons, unsigned char dstbuf[2])
{
dstbuf[0] = buttons & 0xff;
dstbuf[1] = buttons >> 8;
}
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static void buildIdleReport(unsigned char dstbuf[REPORT_SIZE])
{
int i;
dstbuf[0] = REPORT_ID;
/* Inactive and centered axis */
for (i=0; i<6; i++) {
dstbuf[1+i*2] = 0x80;
dstbuf[2+i*2] = 0x3e;
}
/* Inactive buttons */
dstbuf[13] = 0;
dstbuf[14] = 0;
}
static void buildReportFromGC(const gc_pad_data *gc_data, unsigned char dstbuf[REPORT_SIZE])
{
int16_t xval,yval,cxval,cyval,ltrig,rtrig;
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uint16_t buttons;
/* Force official range */
xval = minmax(gc_data->x, -100, 100);
yval = minmax(gc_data->y, -100, 100);
cxval = minmax(gc_data->cx, -100, 100);
cyval = minmax(gc_data->cy, -100, 100);
ltrig = gc_data->lt;
rtrig = gc_data->rt;
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/* Scale -100 ... + 1000 to -16000 ... +16000 */
xval *= 160;
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yval *= -160;
// TODO : Is C-stick different?
cxval *= 160;
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cyval *= -160;
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if (g_eeprom_data.cfg.flags & FLAG_GC_FULL_SLIDERS) {
int16_t lts = (int16_t)ltrig - 127;
int16_t rts = (int16_t)rtrig - 127;
lts *= 126;
ltrig = lts;
rts *= 126;
rtrig = rts;
} else {
/* Scale 0...255 to 0...16000 */
ltrig *= 63;
if (ltrig > 16000) ltrig=16000;
rtrig *= 63;
if (rtrig > 16000) rtrig=16000;
}
if (g_eeprom_data.cfg.flags & FLAG_GC_INVERT_TRIGS) {
ltrig = -ltrig;
rtrig = -rtrig;
}
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/* Unsign for HID report */
xval += 16000;
yval += 16000;
cxval += 16000;
cyval += 16000;
ltrig += 16000;
rtrig += 16000;
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dstbuf[1] = ((uint8_t*)&xval)[0];
dstbuf[2] = ((uint8_t*)&xval)[1];
dstbuf[3] = ((uint8_t*)&yval)[0];
dstbuf[4] = ((uint8_t*)&yval)[1];
dstbuf[5] = ((uint8_t*)&cxval)[0];
dstbuf[6] = ((uint8_t*)&cxval)[1];
dstbuf[7] = ((uint8_t*)&cyval)[0];
dstbuf[8] = ((uint8_t*)&cyval)[1];
dstbuf[9] = ((uint8_t*)&ltrig)[0];
dstbuf[10] = ((uint8_t*)&ltrig)[1];
dstbuf[11] = ((uint8_t*)&rtrig)[0];
dstbuf[12] = ((uint8_t*)&rtrig)[1];
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buttons = mappings_do(MAPPING_GAMECUBE_DEFAULT, gc_data->buttons);
btnsToReport(buttons, dstbuf+13);
}
static void buildReportFromN64(const n64_pad_data *n64_data, unsigned char dstbuf[REPORT_SIZE])
{
int16_t xval, yval;
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uint16_t buttons;
/* Force official range */
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xval = minmax(n64_data->x, -80, 80);
yval = minmax(n64_data->y, -80, 80);
/* Scale -80 ... +80 to -16000 ... +16000 */
xval *= 200;
yval *= 200;
yval = -yval;
/* Unsign for HID report */
xval += 16000;
yval += 16000;
dstbuf[1] = ((uint8_t*)&xval)[0];
dstbuf[2] = ((uint8_t*)&xval)[1];
dstbuf[3] = ((uint8_t*)&yval)[0];
dstbuf[4] = ((uint8_t*)&yval)[1];
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buttons = mappings_do(MAPPING_N64_DEFAULT, n64_data->buttons);
btnsToReport(buttons, dstbuf+13);
}
void usbpad_update(const gamepad_data *pad_data)
{
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/* Always start with an idle report. Specific report builders can just
* simply ignore unused parts */
buildIdleReport(gamepad_report0);
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if (pad_data)
{
switch (pad_data->pad_type)
{
case PAD_TYPE_N64:
buildReportFromN64(&pad_data->n64, gamepad_report0);
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break;
case PAD_TYPE_GAMECUBE:
buildReportFromGC(&pad_data->gc, gamepad_report0);
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break;
default:
break;
}
}
}
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void usbpad_forceVibrate(char force)
{
force_vibrate = force;
}
char usbpad_mustVibrate(void)
{
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if (force_vibrate) {
return 1;
}
if (!vibration_on) {
gamepad_vibrate = 0;
} else {
if (constant_force > 0x7f) {
gamepad_vibrate = 1;
}
if (magnitude > 0x7f) {
gamepad_vibrate = 1;
}
}
return gamepad_vibrate;
}
unsigned char *usbpad_getReportBuffer(void)
{
return gamepad_report0;
}
uint16_t usbpad_hid_get_report(struct usb_request *rq, const uint8_t **dat)
{
uint8_t report_id = (rq->wValue & 0xff);
// USB HID 1.11 section 7.2.1 Get_Report
// wValue high byte : report type
// wValue low byte : report id
// wIndex Interface
switch (rq->wValue >> 8)
{
case HID_REPORT_TYPE_INPUT:
{
if (report_id == 1) { // Joystick
// report_id = rq->wValue & 0xff
// interface = rq->wIndex
*dat = gamepad_report0;
printf_P(PSTR("Get joy report\r\n"));
return 9;
} else if (report_id == 2) { // 2 : ES playing
hid_report_data[0] = report_id;
hid_report_data[1] = 0;
hid_report_data[2] = _FFB_effect_index;
printf_P(PSTR("ES playing\r\n"));
*dat = hid_report_data;
return 3;
} else {
printf_P(PSTR("Get input report %d ??\r\n"), rq->wValue & 0xff);
}
}
break;
case HID_REPORT_TYPE_FEATURE:
if (report_id == PID_BLOCK_LOAD_REPORT) {
hid_report_data[0] = report_id;
hid_report_data[1] = 0x1; // Effect block index
hid_report_data[2] = 0x1; // (1: success, 2: oom, 3: load error)
hid_report_data[3] = 10;
hid_report_data[4] = 10;
printf_P(PSTR("block load\r\n"));
*dat = hid_report_data;
return 5;
}
else if (report_id == PID_SIMULTANEOUS_MAX) {
hid_report_data[0] = report_id;
// ROM Effect Block count
hid_report_data[1] = 0x1;
hid_report_data[2] = 0x1;
// PID pool move report?
hid_report_data[3] = 0xff;
hid_report_data[4] = 1;
printf_P(PSTR("simultaneous max\r\n"));
*dat = hid_report_data;
return 5;
}
else if (report_id == REPORT_CREATE_EFFECT) {
hid_report_data[0] = report_id;
hid_report_data[1] = 1;
printf_P(PSTR("create effect\r\n"));
*dat = hid_report_data;
return 2;
} else {
printf_P(PSTR("Unknown feature %d\r\n"), rq->wValue & 0xff);
}
break;
}
printf_P(PSTR("Unhandled hid get report type=0x%02x, rq=0x%02x, wVal=0x%04x, wLen=0x%04x\r\n"), rq->bmRequestType, rq->bRequest, rq->wValue, rq->wLength);
return 0;
}
uint8_t usbpad_hid_set_report(const struct usb_request *rq, const uint8_t *data, uint16_t len)
{
if (len < 1) {
printf_P(PSTR("shrt\n"));
return -1;
}
if ((rq->wValue >> 8) == HID_REPORT_TYPE_OUTPUT) {
switch(data[0])
{
case REPORT_SET_STATUS:
printf_P(PSTR("eff. set stat 0x%02x 0x%02x\r\n"),data[1],data[2]);
break;
case REPORT_EFFECT_BLOCK_IDX:
printf_P(PSTR("eff. blk. idx %d\r\n"), data[1]);
break;
case REPORT_DISABLE_ACTUATORS:
printf_P(PSTR("disable actuators\r\n"));
break;
case REPORT_PID_POOL:
printf_P(PSTR("pid pool\r\n"));
break;
case REPORT_SET_EFFECT:
_FFB_effect_index = data[1];
printf_P(PSTR("set effect %d\n"), data[1]);
break;
case REPORT_SET_PERIODIC:
magnitude = data[2];
printf_P(PSTR("periodic mag: %d"), data[2]);
break;
case REPORT_SET_CONSTANT_FORCE:
if (data[1] == 1) {
constant_force = data[2];
//decideVibration();
printf_P(PSTR("Constant force"));
}
break;
case REPORT_EFFECT_OPERATION:
if (len != 4)
return -1;
/* Byte 0 : report ID
* Byte 1 : bit 7=rom flag, bits 6-0=effect block index
* Byte 2 : Effect operation
* Byte 3 : Loop count */
_loop_count = data[3]<<3;
printf_P(PSTR("EFFECT OP: rom=%s, idx=0x%02x"), data[1] & 0x80 ? "Yes":"No", data[1] & 0x7F);
switch(data[1] & 0x7F) // Effect block index
{
case 1: // constant force
case 3: // square
case 4: // sine
switch (data[2]) // effect operation
{
case EFFECT_OP_START:
printf_P(PSTR("Start\r\n"));
vibration_on = 1;
// decideVibration();
break;
case EFFECT_OP_START_SOLO:
printf_P(PSTR("Start solo\r\n"));
vibration_on = 1;
// decideVibration();
break;
case EFFECT_OP_STOP:
printf_P(PSTR("Stop\r\n"));
vibration_on = 0;
// decideVibration();
break;
}
break;
// TODO : should probably drop these from the descriptor since they are
case 2: // ramp
case 5: // triangle
case 6: // sawtooth up
case 7: // sawtooth down
case 8: // spring
case 9: // damper
case 10: // inertia
case 11: // friction
case 12: // custom force data
printf_P(PSTR("Ununsed effect %d\n"), data[1] & 0x7F);
break;
}
break;
default:
printf_P(PSTR("Set output report 0x%02x\r\n"), data[0]);
}
}
else if ((rq->wValue >> 8) == HID_REPORT_TYPE_FEATURE) {
switch(data[0])
{
case REPORT_CREATE_EFFECT:
_FFB_effect_index = data[1];
printf_P(PSTR("create effect %d\n"), data[1]);
break;
default:
printf_P(PSTR("What?\n"));
}
}
else {
printf_P(PSTR("impossible\n"));
}
return 0;
}