/****************************************************************************
* Copyright (C) 2016,2017 Maschell
*
* 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 .
****************************************************************************/
#include "ControllerPatcherHID.hpp"
#include
#include
#include
#include
/*----------------------------------------------------------------------------------------------------------------------------------------------------------------------------
* public implementation for the network controller
*---------------------------------------------------------------------------------------------------------------------------------------------------------------------------*/
int32_t ControllerPatcherHID::externAttachDetachCallback(HIDDevice *p_device, HIDAttachEvent attach) {
HIDClient client;
memset(&client, 0, sizeof(client));
return AttachDetachCallback(&client, p_device, attach);
}
void ControllerPatcherHID::externHIDReadCallback(uint32_t handle, unsigned char *buf, uint32_t bytes_transfered, my_cb_user *usr) {
HIDReadCallback(handle, buf, bytes_transfered, usr);
}
/*----------------------------------------------------------------------------------------------------------------------------------------------------------------------------
* private implementation for the HID Api.
*---------------------------------------------------------------------------------------------------------------------------------------------------------------------------*/
int32_t ControllerPatcherHID::myAttachDetachCallback(HIDClient *p_client, HIDDevice *p_device, HIDAttachEvent attach) {
return AttachDetachCallback(p_client, p_device, attach);
}
void ControllerPatcherHID::myHIDMouseReadCallback(uint32_t handle, int32_t error, unsigned char *buf, uint32_t bytes_transfered, void *p_user) {
if (error == 0) {
my_cb_user *usr = (my_cb_user *) p_user;
uint32_t slot = 0;
if (usr->pad_slot < HID_MAX_PADS_COUNT) {
slot = usr->pad_slot;
}
HID_Data *data_ptr = &(gHID_Devices[usr->slotdata.deviceslot].pad_data[slot]);
HID_Mouse_Data *cur_mouse_data = &data_ptr->data_union.mouse.cur_mouse_data;
data_ptr->type = DEVICE_TYPE_MOUSE;
//DEBUG_FUNCTION_LINE("%02X %02X %02X %02X %02X bytes_transfered: %d\n",buf[0],buf[1],buf[2],buf[3],buf[4],bytes_transfered);
if (buf[0] == 2 && bytes_transfered > 3) { // using the other mouse mode
buf += 1;
}
int8_t x_value = 0;
int8_t y_value = 0;
x_value = buf[1];
y_value = buf[2];
cur_mouse_data->X += x_value;
cur_mouse_data->deltaX = x_value;
cur_mouse_data->Y += y_value;
cur_mouse_data->deltaY = y_value;
cur_mouse_data->left_click = buf[0];
cur_mouse_data->right_click = buf[0] >> 1;
if (cur_mouse_data->X < 0) cur_mouse_data->X = 0;
if (cur_mouse_data->X > 1280) cur_mouse_data->X = 1280;
if (cur_mouse_data->Y < 0) cur_mouse_data->Y = 0;
if (cur_mouse_data->Y > 720) cur_mouse_data->Y = 720;
cur_mouse_data->valuedChanged = 1;
//DEBUG_FUNCTION_LINE("%02X %02X %02X %02X %02X %02X %02X %02X %d = X: %d Y: %d \n",buf[0],buf[1],buf[2],buf[3],buf[4],buf[5],buf[6],buf[7],bytes_transfered,x_value,y_value);
HIDRead(handle, usr->buf, bytes_transfered, myHIDMouseReadCallback, usr);
}
}
void ControllerPatcherHID::myHIDReadCallback(uint32_t handle, int32_t error, unsigned char *buf, uint32_t bytes_transfered, void *p_user) {
if (error == 0 && p_user != NULL && gHIDAttached) {
my_cb_user *usr = (my_cb_user *) p_user;
HIDReadCallback(handle, buf, bytes_transfered, usr);
if (usr->slotdata.hidmask == gHID_LIST_DS4) {
OSSleepTicks(OSMicrosecondsToTicks(2000)); //DS4 is way tooo fast. sleeping to reduce lag. (need to check the other pads)
}
HIDRead(handle, usr->buf, bytes_transfered, myHIDReadCallback, usr);
}
}
/*----------------------------------------------------------------------------------------------------------------------------------------------------------------------------
* Intern Callback actions
*---------------------------------------------------------------------------------------------------------------------------------------------------------------------------*/
int32_t ControllerPatcherHID::AttachDetachCallback(HIDClient *p_client, HIDDevice *p_device, HIDAttachEvent attach) {
if (attach) {
DEBUG_FUNCTION_LINE("vid %04x pid %04x connected", SWAP16(p_device->vid), SWAP16(p_device->pid));
if (HID_DEBUG) {
DEBUG_FUNCTION_LINE("interface index %02x", p_device->interfaceIndex);
DEBUG_FUNCTION_LINE("sub class %02x", p_device->subClass);
DEBUG_FUNCTION_LINE("protocol %02x", p_device->protocol);
DEBUG_FUNCTION_LINE("max packet in %02x", p_device->maxPacketSizeRx);
DEBUG_FUNCTION_LINE("max packet out %02x", p_device->maxPacketSizeRx);
}
}
if (!attach) {
DEBUG_FUNCTION_LINE("vid %04x pid %04x disconnected", SWAP16(p_device->vid), SWAP16(p_device->pid));
}
DeviceInfo device_info;
memset(&device_info, 0, sizeof(DeviceInfo));
device_info.slotdata.deviceslot = -1;
device_info.vidpid.vid = SWAP16(p_device->vid);
device_info.vidpid.pid = SWAP16(p_device->pid);
HIDSlotData *slotdata = &(device_info.slotdata);
if ((p_device->subClass == 1) && (p_device->protocol == 1)) { //Keyboard
slotdata->hidmask = gHID_LIST_KEYBOARD;
slotdata->deviceslot = gHID_SLOT_KEYBOARD;
//DEBUG_FUNCTION_LINE("Found Keyboard: device: %s slot: %d",byte_to_binary(device_info.slotdata.hidmask),device_info.slotdata.deviceslot);
} else if ((p_device->subClass == 1) && (p_device->protocol == 2)) { // MOUSE
slotdata->hidmask = gHID_LIST_MOUSE;
slotdata->deviceslot = gMouseSlot;
//DEBUG_FUNCTION_LINE("Found Mouse: device: %s slot: %d",byte_to_binary(device_info.hid),device_info.slot);
} else {
int32_t ret;
if ((ret = ControllerPatcherUtils::getDeviceInfoFromVidPid(&device_info)) < 0) {
DEBUG_FUNCTION_LINE("ControllerPatcherUtils::getDeviceInfoFromVidPid(&device_info) failed %d ", ret);
return HID_DEVICE_DETACH;
} else {
//DEBUG_FUNCTION_LINE("ControllerPatcherUtils::getDeviceInfoFromVidPid(&device_info) success %d ",ret);
}
}
if (slotdata->hidmask) {
if (attach) {
int32_t bufSize = 64;
if (slotdata->hidmask != gHID_LIST_MOUSE && config_controller[slotdata->deviceslot][CONTRPS_BUF_SIZE][0] == CONTROLLER_PATCHER_VALUE_SET) {
bufSize = config_controller[slotdata->deviceslot][CONTRPS_BUF_SIZE][1];
}
unsigned char *buf = (unsigned char *) memalign(64, bufSize);
memset(buf, 0, bufSize);
my_cb_user *usr = (my_cb_user *) memalign(64, sizeof(my_cb_user));
usr->buf = buf;
usr->slotdata = device_info.slotdata;
usr->transfersize = p_device->maxPacketSizeRx;
usr->handle = p_device->handle;
gHIDAttached |= slotdata->hidmask;
gHIDCurrentDevice |= slotdata->hidmask;
int32_t pads_per_device = 1;
if (config_controller[slotdata->deviceslot][CONTRPS_PAD_COUNT][0] != CONTROLLER_PATCHER_INVALIDVALUE) {
pads_per_device = config_controller[slotdata->deviceslot][CONTRPS_PAD_COUNT][1];
if (pads_per_device > HID_MAX_PADS_COUNT) { //maximum of HID_MAX_PADS_COUNT
pads_per_device = HID_MAX_PADS_COUNT;
}
}
int32_t pad_count = config_controller[slotdata->deviceslot][CONTRPS_CONNECTED_PADS][1];
if (pad_count > 0x0F) pad_count = 0; //???
int32_t pad_slot = 0;
int32_t failed = 1;
for (int32_t i = 0; i < HID_MAX_PADS_COUNT; i += pads_per_device) {
if (!(pad_count & (1 << i))) {
failed = 0;
pad_count |= (1 << i);
pad_slot = i;
break;
}
}
if (failed) {
DEBUG_FUNCTION_LINE("error: I can only handle %d devices of the same type. Sorry ", HID_MAX_PADS_COUNT);
if (buf) {
free(buf);
buf = NULL;
}
if (usr) {
free(usr);
usr = NULL;
}
return 0;
}
config_controller[slotdata->deviceslot][CONTRPS_CONNECTED_PADS][1] = pad_count;
DCFlushRange(&config_controller[slotdata->deviceslot][CONTRPS_CONNECTED_PADS][1], sizeof(config_controller[slotdata->deviceslot][CONTRPS_CONNECTED_PADS][1]));
DCInvalidateRange(&config_controller[slotdata->deviceslot][CONTRPS_CONNECTED_PADS][1], sizeof(config_controller[slotdata->deviceslot][CONTRPS_CONNECTED_PADS][1]));
usr->pads_per_device = pads_per_device;
usr->pad_slot = pad_slot;
for (int32_t i = 0; i < pads_per_device; i++) {
memset(&gHID_Devices[slotdata->deviceslot].pad_data[pad_slot + i], 0, sizeof(HID_Data));
gHID_Devices[slotdata->deviceslot].pad_data[pad_slot + i].handle = p_device->handle;
//DEBUG_FUNCTION_LINE("saved handle %d to slot %d and pad %d",p_device->handle,slotdata->deviceslot,pad_slot);
gHID_Devices[slotdata->deviceslot].pad_data[pad_slot + i].user_data = usr;
gHID_Devices[slotdata->deviceslot].pad_data[pad_slot + i].slotdata = device_info.slotdata;
DCFlushRange(&gHID_Devices[slotdata->deviceslot].pad_data[pad_slot + i], sizeof(HID_Data));
DCInvalidateRange(&gHID_Devices[slotdata->deviceslot].pad_data[pad_slot + i], sizeof(HID_Data));
}
if (HID_DEBUG) {
DEBUG_FUNCTION_LINE("Device successfully attached");
}
if (slotdata->hidmask == gHID_LIST_GC) { // GC PAD
//The GC Adapter has all ports in one device. Set them all.
gHID_Devices[slotdata->deviceslot].pad_data[0].slotdata = device_info.slotdata;
gHID_Devices[slotdata->deviceslot].pad_data[1].slotdata = device_info.slotdata;
gHID_Devices[slotdata->deviceslot].pad_data[2].slotdata = device_info.slotdata;
gHID_Devices[slotdata->deviceslot].pad_data[3].slotdata = device_info.slotdata;
buf[0] = 0x13;
HIDWrite(p_device->handle, usr->buf, 1, NULL, NULL);
HIDRead(p_device->handle, usr->buf, usr->transfersize, myHIDReadCallback, usr);
} else if (slotdata->hidmask == gHID_LIST_MOUSE) {
HIDSetProtocol(p_device->handle, p_device->interfaceIndex, 0, 0, 0);
//HIDGetDescriptor(p_device->handle,0x22,0x00,0,my_buf,512,my_foo_cb,NULL);
HIDSetIdle(p_device->handle, p_device->interfaceIndex, 1, NULL, NULL, NULL);
gHID_Mouse_Mode = HID_MOUSE_MODE_AIM;
HIDRead(p_device->handle, buf, p_device->maxPacketSizeRx, myHIDMouseReadCallback, usr);
} else if (slotdata->hidmask == gHID_LIST_SWITCH_PRO) {
int32_t read_result = HIDRead(p_device->handle, usr->buf, usr->transfersize, NULL, NULL);
if (read_result == 64) {
if (usr->buf[01] == 0x01) { //We need to do the handshake
DEBUG_FUNCTION_LINE("Switch Pro Controller handshake needed");
/**
Thanks to ShinyQuagsire23 for the values (https://github.com/shinyquagsire23/HID-Joy-Con-Whispering)
**/
//Get MAC
buf[0] = 0x80;
buf[1] = 0x01;
HIDWrite(p_device->handle, usr->buf, 2, NULL, NULL);
HIDRead(p_device->handle, usr->buf, usr->transfersize, NULL, NULL);
//Do handshake
buf[0] = 0x80;
buf[1] = 0x02;
HIDWrite(p_device->handle, usr->buf, 2, NULL, NULL);
HIDRead(p_device->handle, usr->buf, usr->transfersize, NULL, NULL);
//Talk over HID only.
buf[0] = 0x80;
buf[1] = 0x04;
HIDWrite(p_device->handle, usr->buf, 2, NULL, NULL);
HIDRead(p_device->handle, usr->buf, usr->transfersize, NULL, NULL);
} else {
DEBUG_FUNCTION_LINE("Switch Pro Controller handshake already done");
}
HIDRead(p_device->handle, usr->buf, usr->transfersize, myHIDReadCallback, usr);
}
} else if (slotdata->hidmask == gHID_LIST_KEYBOARD) {
HIDSetProtocol(p_device->handle, p_device->interfaceIndex, 1, 0, 0);
HIDSetIdle(p_device->handle, p_device->interfaceIndex, 0, 0, nullptr, nullptr);
HIDRead(p_device->handle, buf, p_device->maxPacketSizeRx, myHIDReadCallback, usr);
} else if (slotdata->hidmask == gHID_LIST_DS3) {
HIDSetProtocol(p_device->handle, p_device->interfaceIndex, 1, 0, 0);
HIDDS3Rumble(p_device->handle, usr, 0);
buf[0] = 0x42;
buf[1] = 0x0c;
buf[2] = 0x00;
buf[3] = 0x00;
HIDSetReport(p_device->handle, HID_REPORT_FEATURE, PS3_F4_REPORT_ID, buf, PS3_F4_REPORT_LEN, NULL, NULL);
HIDRead(p_device->handle, usr->buf, p_device->maxPacketSizeRx, myHIDReadCallback, usr);
} else {
HIDRead(p_device->handle, usr->buf, p_device->maxPacketSizeRx, myHIDReadCallback, usr);
}
return HID_DEVICE_ATTACH;
} else {
my_cb_user *user_data = NULL;
int32_t founddata = 0;
for (int32_t i = 0; i < HID_MAX_PADS_COUNT; i++) {
if (gHID_Devices[slotdata->deviceslot].pad_data[i].handle == p_device->handle) {
gHID_Devices[slotdata->deviceslot].pad_data[i].handle = 0;
DCFlushRange(&gHID_Devices[slotdata->deviceslot].pad_data[i].handle, sizeof(gHID_Devices[slotdata->deviceslot].pad_data[i].handle));
DCInvalidateRange(&gHID_Devices[slotdata->deviceslot].pad_data[i].handle, sizeof(gHID_Devices[slotdata->deviceslot].pad_data[i].handle));
user_data = (my_cb_user *) gHID_Devices[slotdata->deviceslot].pad_data[i].user_data;
founddata = 1;
break;
}
}
if (user_data) {
config_controller[slotdata->deviceslot][CONTRPS_CONNECTED_PADS][1] &= ~(1 << user_data->pad_slot);
DCFlushRange(&config_controller[slotdata->deviceslot][CONTRPS_CONNECTED_PADS][1], sizeof(config_controller[slotdata->deviceslot][CONTRPS_CONNECTED_PADS][1]));
DCInvalidateRange(&config_controller[slotdata->deviceslot][CONTRPS_CONNECTED_PADS][1], sizeof(config_controller[slotdata->deviceslot][CONTRPS_CONNECTED_PADS][1]));
if (user_data->buf) {
free(user_data->buf);
user_data->buf = NULL;
}
free(user_data);
user_data = NULL;
} else {
if (founddata) {
DEBUG_FUNCTION_LINE("user_data null. You may have a memory leak.");
}
return HID_DEVICE_DETACH;
}
if (config_controller[slotdata->deviceslot][CONTRPS_CONNECTED_PADS][1] == 0) {
gHIDAttached &= ~slotdata->hidmask;
gHIDCurrentDevice &= ~slotdata->hidmask;
DCFlushRange(&gHIDAttached, sizeof(gHIDAttached));
DCInvalidateRange(&gHIDAttached, sizeof(gHIDAttached));
DCFlushRange(&gHIDCurrentDevice, sizeof(gHIDCurrentDevice));
DCInvalidateRange(&gHIDCurrentDevice, sizeof(gHIDCurrentDevice));
if (slotdata->hidmask == gHID_LIST_MOUSE) {
gHID_Mouse_Mode = HID_MOUSE_MODE_AIM;
}
} else {
if (HID_DEBUG) {
DEBUG_FUNCTION_LINE("We still have pad for deviceslot %d connected.", slotdata->deviceslot);
}
}
if (HID_DEBUG) {
DEBUG_FUNCTION_LINE("Device successfully detached");
}
}
} else {
DEBUG_FUNCTION_LINE("HID-Device currently not supported! You can add support through config files");
}
return HID_DEVICE_DETACH;
}
void ControllerPatcherHID::HIDReadCallback(uint32_t handle, unsigned char *buf, uint32_t bytes_transfered, my_cb_user *usr) {
ControllerPatcherUtils::doSampling(usr->slotdata.deviceslot, usr->pad_slot, false);
//DEBUG_FUNCTION_LINE("my_read_cbInternal: %d %08X %d",bytes_transfered,usr->slotdata.hidmask,usr->slotdata.deviceslot);
if (usr->slotdata.hidmask == gHID_LIST_GC) {
HID_Data *data_ptr = NULL;
//Copy the data for all 4 pads
for (int32_t i = 0; i < 4; i++) {
data_ptr = &(gHID_Devices[gHID_SLOT_GC].pad_data[i]);
memcpy(&(data_ptr->data_union.controller.last_hid_data[0]), &(data_ptr->data_union.controller.cur_hid_data[0]), 10); //save last data.
memcpy(&(data_ptr->data_union.controller.cur_hid_data[0]), &buf[(i * 9) + 1], 9); //save new data.
}
/*
int32_t i = 0;
DEBUG_FUNCTION_LINE("GC1 %08X: %02X %02X %02X %02X %02X %02X %02X %02X %02X ", buf[i*9+0],buf[i*9+1],buf[i*9+2],buf[i*9+3],buf[i*9+4],buf[i*9+5],buf[i*9+6],buf[i*9+7],buf[i*9+8]);i++;
DEBUG_FUNCTION_LINE("GC2 %08X: %02X %02X %02X %02X %02X %02X %02X %02X %02X ", buf[i*9+0],buf[i*9+1],buf[i*9+2],buf[i*9+3],buf[i*9+4],buf[i*9+5],buf[i*9+6],buf[i*9+7],buf[i*9+8]);i++;
DEBUG_FUNCTION_LINE("GC3 %08X: %02X %02X %02X %02X %02X %02X %02X %02X %02X ", buf[i*9+0],buf[i*9+1],buf[i*9+2],buf[i*9+3],buf[i*9+4],buf[i*9+5],buf[i*9+6],buf[i*9+7],buf[i*9+8]);i++;
DEBUG_FUNCTION_LINE("GC4 %08X: %02X %02X %02X %02X %02X %02X %02X %02X %02X \n", buf[i*9+0],buf[i*9+1],buf[i*9+2],buf[i*9+3],buf[i*9+4],buf[i*9+5],buf[i*9+6],buf[i*9+7],buf[i*9+8]);*/
HIDGCRumble(handle, usr);
} else if (usr->slotdata.hidmask != 0) {
//Depending on how the switch pro controller is connected, it has a different data format. At first we had the Bluetooth version, so we need to convert
//the USB one into it now. (When it's connected via USB). The network client always sends the BT version, even if connected via USB to the PC.
if (usr->slotdata.hidmask == gHID_LIST_SWITCH_PRO && buf != NULL && bytes_transfered >= 0x20) {
uint8_t buffer[0x13];
memcpy(buffer, buf + 0x0D, 0x013);
/**
Thanks to ShinyQuagsire23 for the values (https://github.com/shinyquagsire23/HID-Joy-Con-Whispering)
**/
buf[0] = 0x80;
buf[1] = 0x92;
buf[2] = 0x00;
buf[3] = 0x01;
buf[4] = 0x00;
buf[5] = 0x00;
buf[6] = 0x00;
buf[7] = 0x00;
buf[8] = 0x1F;
//We want to get the next input!
int32_t res = HIDWrite(handle, buf, 9, NULL, NULL);
if (res == 9) { //Check if it's the USB data format.
if (buffer[1] == 0) return;
//Converting the buttons
uint32_t buttons = (((uint32_t *) (buffer))[0]) & 0xFFFFFF00;
uint32_t newButtons = 0;
if ((buttons & HID_SWITCH_PRO_USB_BUTTON_A_VALUE) == HID_SWITCH_PRO_USB_BUTTON_A_VALUE) newButtons |= HID_SWITCH_PRO_BT_BUTTON_A_VALUE;
if ((buttons & HID_SWITCH_PRO_USB_BUTTON_B_VALUE) == HID_SWITCH_PRO_USB_BUTTON_B_VALUE) newButtons |= HID_SWITCH_PRO_BT_BUTTON_B_VALUE;
if ((buttons & HID_SWITCH_PRO_USB_BUTTON_X_VALUE) == HID_SWITCH_PRO_USB_BUTTON_X_VALUE) newButtons |= HID_SWITCH_PRO_BT_BUTTON_X_VALUE;
if ((buttons & HID_SWITCH_PRO_USB_BUTTON_Y_VALUE) == HID_SWITCH_PRO_USB_BUTTON_Y_VALUE) newButtons |= HID_SWITCH_PRO_BT_BUTTON_Y_VALUE;
if ((buttons & HID_SWITCH_PRO_USB_BUTTON_PLUS_VALUE) == HID_SWITCH_PRO_USB_BUTTON_PLUS_VALUE) newButtons |= HID_SWITCH_PRO_BT_BUTTON_PLUS_VALUE;
if ((buttons & HID_SWITCH_PRO_USB_BUTTON_MINUS_VALUE) == HID_SWITCH_PRO_USB_BUTTON_MINUS_VALUE) newButtons |= HID_SWITCH_PRO_BT_BUTTON_MINUS_VALUE;
if ((buttons & HID_SWITCH_PRO_USB_BUTTON_HOME_VALUE) == HID_SWITCH_PRO_USB_BUTTON_HOME_VALUE) newButtons |= HID_SWITCH_PRO_BT_BUTTON_HOME_VALUE;
//if((buttons & SWITCH_PRO_USB_BUTTON_SCREENSHOT) == HID_SWITCH_PRO_USB_BUTTON_SCREENSHOT) newButtons |= HID_SWITCH_PRO_BT_BUTTON_SCREENSHOT;
if ((buttons & HID_SWITCH_PRO_USB_BUTTON_R_VALUE) == HID_SWITCH_PRO_USB_BUTTON_R_VALUE) newButtons |= HID_SWITCH_PRO_BT_BUTTON_R_VALUE;
if ((buttons & HID_SWITCH_PRO_USB_BUTTON_ZR_VALUE) == HID_SWITCH_PRO_USB_BUTTON_ZR_VALUE) newButtons |= HID_SWITCH_PRO_BT_BUTTON_ZR_VALUE;
if ((buttons & HID_SWITCH_PRO_USB_BUTTON_STICK_R_VALUE) == HID_SWITCH_PRO_USB_BUTTON_STICK_R_VALUE) newButtons |= HID_SWITCH_PRO_BT_BUTTON_STICK_R_VALUE;
if ((buttons & HID_SWITCH_PRO_USB_BUTTON_L_VALUE) == HID_SWITCH_PRO_USB_BUTTON_L_VALUE) newButtons |= HID_SWITCH_PRO_BT_BUTTON_L_VALUE;
if ((buttons & HID_SWITCH_PRO_USB_BUTTON_ZL_VALUE) == HID_SWITCH_PRO_USB_BUTTON_ZL_VALUE) newButtons |= HID_SWITCH_PRO_BT_BUTTON_ZL_VALUE;
if ((buttons & HID_SWITCH_PRO_USB_BUTTON_STICK_L_VALUE) == HID_SWITCH_PRO_USB_BUTTON_STICK_L_VALUE) newButtons |= HID_SWITCH_PRO_BT_BUTTON_STICK_L_VALUE;
uint8_t dpad = buffer[2];
uint8_t dpadResult = HID_SWITCH_PRO_BT_BUTTON_DPAD_NEUTRAL_VALUE;
//Converting the DPAD
if (((dpad & HID_SWITCH_PRO_USB_BUTTON_UP_VALUE) == HID_SWITCH_PRO_USB_BUTTON_UP_VALUE) &&
((dpad & HID_SWITCH_PRO_USB_BUTTON_RIGHT_VALUE) == HID_SWITCH_PRO_USB_BUTTON_RIGHT_VALUE)) {
dpadResult = HID_SWITCH_PRO_BT_BUTTON_DPAD_NE_VALUE;
} else if (((dpad & HID_SWITCH_PRO_USB_BUTTON_DOWN_VALUE) == HID_SWITCH_PRO_USB_BUTTON_DOWN_VALUE) &&
((dpad & HID_SWITCH_PRO_USB_BUTTON_RIGHT_VALUE) == HID_SWITCH_PRO_USB_BUTTON_RIGHT_VALUE)) {
dpadResult = HID_SWITCH_PRO_BT_BUTTON_DPAD_SE_VALUE;
} else if (((dpad & HID_SWITCH_PRO_USB_BUTTON_DOWN_VALUE) == HID_SWITCH_PRO_USB_BUTTON_DOWN_VALUE) &&
((dpad & HID_SWITCH_PRO_USB_BUTTON_LEFT_VALUE) == HID_SWITCH_PRO_USB_BUTTON_LEFT_VALUE)) {
dpadResult = HID_SWITCH_PRO_BT_BUTTON_DPAD_SW_VALUE;
} else if (((dpad & HID_SWITCH_PRO_USB_BUTTON_UP_VALUE) == HID_SWITCH_PRO_USB_BUTTON_UP_VALUE) &&
((dpad & HID_SWITCH_PRO_USB_BUTTON_LEFT_VALUE) == HID_SWITCH_PRO_USB_BUTTON_LEFT_VALUE)) {
dpadResult = HID_SWITCH_PRO_BT_BUTTON_DPAD_NW_VALUE;
} else if ((dpad & HID_SWITCH_PRO_USB_BUTTON_UP_VALUE) == HID_SWITCH_PRO_USB_BUTTON_UP_VALUE) {
dpadResult = HID_SWITCH_PRO_BT_BUTTON_DPAD_N_VALUE;
} else if ((dpad & HID_SWITCH_PRO_USB_BUTTON_RIGHT_VALUE) == HID_SWITCH_PRO_USB_BUTTON_RIGHT_VALUE) {
dpadResult = HID_SWITCH_PRO_BT_BUTTON_DPAD_E_VALUE;
} else if ((dpad & HID_SWITCH_PRO_USB_BUTTON_DOWN_VALUE) == HID_SWITCH_PRO_USB_BUTTON_DOWN_VALUE) {
dpadResult = HID_SWITCH_PRO_BT_BUTTON_DPAD_S_VALUE;
} else if ((dpad & HID_SWITCH_PRO_USB_BUTTON_LEFT_VALUE) == HID_SWITCH_PRO_USB_BUTTON_LEFT_VALUE) {
dpadResult = HID_SWITCH_PRO_BT_BUTTON_DPAD_W_VALUE;
}
//Converting the stick data
uint8_t LX = (uint8_t) ((uint16_t) ((buffer[0x04] << 8 & 0xFF00) | (((uint16_t) buffer[0x03]) & 0xFF)) >> 0x04);
uint8_t LY = (uint8_t) ((buffer[0x05] * -1));
uint8_t RX = (uint8_t) ((uint16_t) ((buffer[0x07] << 8 & 0xFF00) | (((uint16_t) buffer[0x06]) & 0xFF)) >> 0x04);
uint8_t RY = (uint8_t) ((buffer[0x08] * -1));
buf[0] = (newButtons >> 24) & 0xFF;
buf[1] = (newButtons >> 16) & 0xFF;
buf[2] |= dpadResult;
buf[4] = LX;
buf[6] = LY;
buf[8] = RX;
buf[10] = RY;
}
}
int32_t dsize = (HID_MAX_DATA_LENGTH_PER_PAD > bytes_transfered) ? bytes_transfered : HID_MAX_DATA_LENGTH_PER_PAD;
int32_t skip = 0;
//Input filter
if (config_controller[usr->slotdata.deviceslot][CONTRPS_INPUT_FILTER][0] != CONTROLLER_PATCHER_INVALIDVALUE) {
if (buf[config_controller[usr->slotdata.deviceslot][CONTRPS_INPUT_FILTER][0]] != config_controller[usr->slotdata.deviceslot][CONTRPS_INPUT_FILTER][1]) {
skip = 1;
}
}
if (!skip) {
uint32_t slot = 0;
if (usr->pad_slot < HID_MAX_PADS_COUNT) {
slot = usr->pad_slot;
}
slot += ControllerPatcherUtils::getPadSlotInAdapter(usr->slotdata.deviceslot, buf); // If the controller has multiple slots, we need to use the right one.
HID_Data *data_ptr = &(gHID_Devices[usr->slotdata.deviceslot].pad_data[slot]);
memcpy(&(data_ptr->data_union.controller.last_hid_data[0]), &(data_ptr->data_union.controller.cur_hid_data[0]), dsize); // save the last data.
memcpy(&(data_ptr->data_union.controller.cur_hid_data[0]), &buf[0], dsize); // save the new data.
DCFlushRange(&gHID_Devices[usr->slotdata.deviceslot].pad_data[slot], sizeof(HID_Data));
data_ptr = &(gHID_Devices[usr->slotdata.deviceslot].pad_data[slot]);
HIDRumble(handle, usr, slot);
}
}
}
/*----------------------------------------------------------------------------------------------------------------------------------------------------------------------------
* Other functions
*---------------------------------------------------------------------------------------------------------------------------------------------------------------------------*/
CONTROLLER_PATCHER_RESULT_OR_ERROR ControllerPatcherHID::setVPADControllerData(VPADStatus *buffer, std::vector &data) {
if (buffer == NULL) return CONTROLLER_PATCHER_ERROR_NULL_POINTER;
HID_Data *data_cur;
int32_t buttons_hold;
for (uint32_t i = 0; i < data.size(); i++) {
data_cur = data[i];
if (data_cur->slotdata.hidmask & gHID_LIST_MOUSE) { //Reset the input when we have no new inputs
HID_Mouse_Data *mouse_data = &data_cur->data_union.mouse.cur_mouse_data;
if (mouse_data->valuedChanged == 1) { //Fix for the mouse cursor
mouse_data->valuedChanged = 0;
} else {
mouse_data->deltaX = 0;
mouse_data->deltaY = 0;
}
}
buttons_hold = 0;
ControllerPatcherUtils::getButtonPressed(data_cur, &buttons_hold, VPAD_BUTTON_A);
ControllerPatcherUtils::getButtonPressed(data_cur, &buttons_hold, VPAD_BUTTON_B);
ControllerPatcherUtils::getButtonPressed(data_cur, &buttons_hold, VPAD_BUTTON_X);
ControllerPatcherUtils::getButtonPressed(data_cur, &buttons_hold, VPAD_BUTTON_Y);
ControllerPatcherUtils::getButtonPressed(data_cur, &buttons_hold, VPAD_BUTTON_LEFT);
ControllerPatcherUtils::getButtonPressed(data_cur, &buttons_hold, VPAD_BUTTON_RIGHT);
ControllerPatcherUtils::getButtonPressed(data_cur, &buttons_hold, VPAD_BUTTON_DOWN);
ControllerPatcherUtils::getButtonPressed(data_cur, &buttons_hold, VPAD_BUTTON_UP);
ControllerPatcherUtils::getButtonPressed(data_cur, &buttons_hold, VPAD_BUTTON_MINUS);
ControllerPatcherUtils::getButtonPressed(data_cur, &buttons_hold, VPAD_BUTTON_L);
ControllerPatcherUtils::getButtonPressed(data_cur, &buttons_hold, VPAD_BUTTON_R);
ControllerPatcherUtils::getButtonPressed(data_cur, &buttons_hold, VPAD_BUTTON_PLUS);
ControllerPatcherUtils::getButtonPressed(data_cur, &buttons_hold, VPAD_BUTTON_ZL);
ControllerPatcherUtils::getButtonPressed(data_cur, &buttons_hold, VPAD_BUTTON_ZR);
ControllerPatcherUtils::getButtonPressed(data_cur, &buttons_hold, VPAD_BUTTON_HOME);
ControllerPatcherUtils::getButtonPressed(data_cur, &buttons_hold, VPAD_BUTTON_STICK_L);
ControllerPatcherUtils::getButtonPressed(data_cur, &buttons_hold, VPAD_BUTTON_STICK_R);
uint32_t last_emulate_stick = (data_cur->last_buttons) & VPAD_MASK_EMULATED_STICKS; // We should only need the emulated stick data.
int32_t last_realbuttons = (data_cur->last_buttons) & VPAD_MASK_BUTTONS;
buffer->hold |= buttons_hold;
buffer->trigger |= (buttons_hold & (~last_realbuttons));
buffer->release |= (last_realbuttons & (~buttons_hold));
ControllerPatcherUtils::convertAnalogSticks(data_cur, buffer);
ControllerPatcherUtils::setEmulatedSticks(buffer, &last_emulate_stick);
ControllerPatcherUtils::checkAndSetMouseMode(data_cur);
ControllerPatcherUtils::setTouch(data_cur, buffer);
data_cur->last_buttons = buttons_hold & VPAD_MASK_BUTTONS;
data_cur->last_buttons |= last_emulate_stick;
}
// Caculates a valid stick position
if (data.size() > 0) {
ControllerPatcherUtils::normalizeStickValues(&buffer->leftStick);
ControllerPatcherUtils::normalizeStickValues(&buffer->rightStick);
}
return CONTROLLER_PATCHER_ERROR_NONE;
}
std::vector ControllerPatcherHID::getHIDDataAll() {
uint32_t hid = gHIDCurrentDevice;
std::vector data_list;
for (int32_t i = 0; i < gHIDMaxDevices; i++) {
if ((hid & (1 << i)) != 0) {
uint32_t cur_hidmask = config_controller_hidmask[i];
for (int32_t pad = 0; pad < HID_MAX_PADS_COUNT; pad++) {
int32_t res;
HID_Data *new_data = NULL;
if ((res = ControllerPatcherHID::getHIDData(cur_hidmask, pad, &new_data)) < 0) { // Checks if the pad is invalid.
//DEBUG_FUNCTION_LINE("error: Error getting the HID data from HID(%s) CHAN(). Error %d\n",StringTools::byte_to_binary(cur_hidmask),pad,res);
continue;
}
if (new_data != NULL) data_list.push_back(new_data);
}
}
}
return data_list;
}
/*
The slotdata in the HID_Data pointer is empty. We need to provide the hidmask via the parameter
*/
CONTROLLER_PATCHER_RESULT_OR_ERROR ControllerPatcherHID::getHIDData(uint32_t hidmask, int32_t pad, HID_Data **data) {
if (data == NULL) return CONTROLLER_PATCHER_ERROR_INVALID_BUFFER;
if (!(hidmask & gHIDCurrentDevice)) return CONTROLLER_PATCHER_ERROR_HID_NOT_CONNECTED;
if (pad < 0 && pad > 3) return CONTROLLER_PATCHER_ERROR_INVALID_CHAN;
int32_t device_slot = ControllerPatcherUtils::getDeviceSlot(hidmask);
if (device_slot < 0) {
return CONTROLLER_PATCHER_ERROR_DEVICE_SLOT_NOT_FOUND;
}
int32_t real_pad = pad;
if ((device_slot != gHID_SLOT_GC) && config_controller[device_slot][CONTRPS_PAD_COUNT][0] != CONTROLLER_PATCHER_INVALIDVALUE) {
int32_t pad_count = config_controller[device_slot][CONTRPS_PAD_COUNT][1];
if (pad_count > HID_MAX_PADS_COUNT) pad_count = HID_MAX_PADS_COUNT;
pad = (pad / (pad_count)) * pad_count;
}
int32_t result = ControllerPatcherUtils::checkActivePad(hidmask, pad);
if (result < 0) { //Not pad connected to adapter
return CONTROLLER_PATCHER_ERROR_NO_PAD_CONNECTED;
}
*data = &gHID_Devices[device_slot].pad_data[real_pad];
return CONTROLLER_PATCHER_ERROR_NONE;
}
void ControllerPatcherHID::HIDGCRumble(uint32_t handle, my_cb_user *usr) {
if (usr == NULL) return;
if (!ControllerPatcher::isRumbleActivated()) return;
int32_t rumblechanged = 0;
for (int32_t i = 0; i < HID_GC_PAD_COUNT; i++) {
HID_Data *data_ptr = &(gHID_Devices[usr->slotdata.deviceslot].pad_data[i]);
if (data_ptr->rumbleActive != usr->rumblestatus[i]) {
rumblechanged = 1;
}
usr->rumblestatus[i] = data_ptr->rumbleActive;
usr->buf[i + 1] = usr->rumblestatus[i];
}
usr->forceRumbleInTicks[0]--;
if (rumblechanged || usr->forceRumbleInTicks[0] <= 0) {
usr->buf[0] = 0x11;
HIDWrite(handle, usr->buf, 5, NULL, NULL);
usr->forceRumbleInTicks[0] = 10;
}
}
void ControllerPatcherHID::HIDRumble(uint32_t handle, my_cb_user *usr, uint32_t pad) {
if (usr == NULL || pad > HID_MAX_PADS_COUNT) return;
if (!ControllerPatcher::isRumbleActivated()) return;
int32_t rumblechanged = 0;
HID_Data *data_ptr = &(gHID_Devices[usr->slotdata.deviceslot].pad_data[pad]);
if (data_ptr->rumbleActive != usr->rumblestatus[pad]) {
usr->rumblestatus[pad] = data_ptr->rumbleActive;
rumblechanged = 1;
}
usr->forceRumbleInTicks[pad]--;
if (rumblechanged || usr->forceRumbleInTicks[pad] <= 0) {
//DEBUG_FUNCTION_LINE("Rumble: %d %d",usr->rumblestatus[pad],usr->rumbleForce[pad]);
//Seding to the network client!
char bytes[6];
int32_t i = 0;
bytes[i++] = 0x01;
bytes[i++] = (handle >> 24) & 0xFF;
bytes[i++] = (handle >> 16) & 0xFF;
bytes[i++] = (handle >> 8) & 0xFF;
bytes[i++] = handle & 0xFF;
bytes[i++] = usr->rumblestatus[pad];
UDPClient *instance = UDPClient::getInstance();
if (instance != NULL) {
instance->sendData(bytes, 6);
}
if (usr->slotdata.hidmask == gHID_LIST_DS3) {
HIDDS3Rumble(handle, usr, usr->rumblestatus[pad]);
} else {
// Not implemented for other devices =(
}
usr->forceRumbleInTicks[pad] = 10;
}
}
static uint8_t ds3_rumble_Report[48] = {
0x00,
0xFF,
0x00,
0xFF,
0x00,
0x00,
0x00,
0x00,
0x00,
0x00,
0xFF,
0x27,
0x10,
0x00,
0x32,
0xFF,
0x27,
0x10,
0x00,
0x32,
0xFF,
0x27,
0x10,
0x00,
0x32,
0xFF,
0x27,
0x10,
0x00,
0x32,
0x00,
0x00,
0x00,
0x00,
0x00,
0x00,
0x00,
0x00,
0x00,
0x00,
0x00,
0x00,
0x00,
0x00,
0x00,
0x00,
0x00,
0x00,
};
void ControllerPatcherHID::HIDDS3Rumble(uint32_t handle, my_cb_user *usr, int32_t rumble) {
memcpy(usr->buf, ds3_rumble_Report, 48);
if (rumble) {
usr->buf[2] = 0x01;
usr->buf[4] = 0xff;
}
HIDSetReport(handle, HID_REPORT_OUTPUT, PS3_01_REPORT_ID, usr->buf, 48, NULL, NULL);
}