Improved the logging, added more checks while parsing the ini

This commit is contained in:
Maschell 2017-10-14 13:22:47 +02:00
parent 3bf07857be
commit c9284c0238
8 changed files with 192 additions and 180 deletions

View File

@ -35,14 +35,14 @@ ConfigReader::ConfigReader(){
void ConfigReader::ReadAllConfigs(){ void ConfigReader::ReadAllConfigs(){
std::vector<std::string> fileList = ScanFolder(); std::vector<std::string> fileList = ScanFolder();
if(fileList.size() > 0){ if(fileList.size() > 0){
if(HID_DEBUG){ log_printf("ConfigReader::ConfigReader(line %d): Found %d config files\n",__LINE__,fileList.size()); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("Found %d config files\n",fileList.size()); }
processFileList(fileList); processFileList(fileList);
} }
} }
ConfigReader::~ConfigReader(){ ConfigReader::~ConfigReader(){
if(HID_DEBUG){ log_printf("ConfigReader::~ConfigReader(line %d): ~ConfigReader\n",__LINE__); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("~ConfigReader\n"); }
freeFSHandles(); freeFSHandles();
} }
@ -60,7 +60,7 @@ void ConfigReader::freeFSHandles(){
// Mounting the sdcard without any external lib to be portable // Mounting the sdcard without any external lib to be portable
s32 ConfigReader::InitSDCard(){ s32 ConfigReader::InitSDCard(){
if(HID_DEBUG){ log_printf("ConfigReader::InitSDCard(line %d): InitSDCard\n",__LINE__); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("InitSDCard\n"); }
char mountSrc[FS_MOUNT_SOURCE_SIZE]; char mountSrc[FS_MOUNT_SOURCE_SIZE];
char mountPath[FS_MAX_MOUNTPATH_SIZE]; char mountPath[FS_MAX_MOUNTPATH_SIZE];
@ -89,11 +89,11 @@ s32 ConfigReader::InitSDCard(){
{ {
return 0; return 0;
}else{ }else{
log_printf("ConfigReader::InitSDCard(line %d): error: FSMount failed %d\n",__LINE__,status); DEBUG_FUNCTION_LINE("error: FSMount failed %d\n",status);
return status; return status;
} }
}else{ }else{
log_printf("ConfigReader::InitSDCard(line %d): error: FSGetMountSource failed %d\n",__LINE__,status); DEBUG_FUNCTION_LINE("error: FSGetMountSource failed %d\n",status);
return status; return status;
} }
} }
@ -103,7 +103,7 @@ s32 ConfigReader::InitSDCard(){
std::vector<std::string> ConfigReader::ScanFolder(){ std::vector<std::string> ConfigReader::ScanFolder(){
std::string path = CONTROLLER_PATCHER_PATH; std::string path = CONTROLLER_PATCHER_PATH;
s32 dirhandle = 0; s32 dirhandle = 0;
if(HID_DEBUG){ log_printf("ConfigReader::ScanFolder(line %d): Opening %s\n",__LINE__,path.c_str()); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("Opening %s\n",path.c_str()); }
std::vector<std::string> config_files; std::vector<std::string> config_files;
if (this->pClient && this->pCmd){ if (this->pClient && this->pCmd){
s32 status = 0; s32 status = 0;
@ -114,13 +114,13 @@ std::vector<std::string> ConfigReader::ScanFolder(){
if((dir_entry.stat.flag&FS_STAT_FLAG_IS_DIRECTORY) != FS_STAT_FLAG_IS_DIRECTORY){ if((dir_entry.stat.flag&FS_STAT_FLAG_IS_DIRECTORY) != FS_STAT_FLAG_IS_DIRECTORY){
if(CPStringTools::EndsWith(std::string(dir_entry.name),".ini")){ if(CPStringTools::EndsWith(std::string(dir_entry.name),".ini")){
config_files.push_back(full_path); config_files.push_back(full_path);
if(HID_DEBUG){ log_printf("ConfigReader::ScanFolder(line %d): %s \n",__LINE__,full_path.c_str()); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("Found ini: %s \n",full_path.c_str()); }
} }
} }
} }
FSCloseDir(this->pClient,this->pCmd,dirhandle,-1); FSCloseDir(this->pClient,this->pCmd,dirhandle,-1);
}else{ }else{
log_printf("ConfigReader::ScanFolder(line %d): Failed to open %s!\n",__LINE__,path.c_str()); DEBUG_FUNCTION_LINE("Failed to open folder %s!\n",path.c_str());
} }
} }
return config_files; return config_files;
@ -128,7 +128,7 @@ std::vector<std::string> ConfigReader::ScanFolder(){
void ConfigReader::processFileList(std::vector<std::string> path){ void ConfigReader::processFileList(std::vector<std::string> path){
for(std::vector<std::string>::iterator it = path.begin(); it != path.end(); ++it) { for(std::vector<std::string>::iterator it = path.begin(); it != path.end(); ++it) {
log_printf("ConfigReader::processFileList(line %d): Reading %s\n",__LINE__,it->c_str()); DEBUG_FUNCTION_LINE("Reading %s\n",it->c_str());
std::string result = loadFileToString(*it); std::string result = loadFileToString(*it);
ConfigParser parser(result); ConfigParser parser(result);
@ -139,12 +139,12 @@ void ConfigReader::processFileList(std::vector<std::string> path){
std::string ConfigReader::loadFileToString(std::string path){ std::string ConfigReader::loadFileToString(std::string path){
s32 handle = 0; s32 handle = 0;
s32 status = 0; s32 status = 0;
std::string strBuffer; std::string strBuffer = "";
FSStat stats; FSStat stats;
if((status = FSGetStat(this->pClient,this->pCmd,path.c_str(),&stats,-1)) == FS_STATUS_OK){ if((status = FSGetStat(this->pClient,this->pCmd,path.c_str(),&stats,-1)) == FS_STATUS_OK){
char * file = (char *) malloc((sizeof(char)*stats.size)+1); char * file = (char *) malloc((sizeof(char)*stats.size)+1);
if(!file){ if(!file){
log_printf("ConfigReader::loadFileToString(line %d): error: Failed to allocate space for reading the file\n",__LINE__); DEBUG_FUNCTION_LINE("error: Failed to allocate space for reading the file\n");
return ""; return "";
} }
file[stats.size] = '\0'; file[stats.size] = '\0';
@ -156,7 +156,7 @@ std::string ConfigReader::loadFileToString(std::string path){
} }
}else{ }else{
log_printf("ConfigReader::loadFileToString(line %d): error: (FSOpenFile) Couldn't open file (%s), error: %d",__LINE__,path.c_str(),status); DEBUG_FUNCTION_LINE("error: (FSOpenFile) Couldn't open file (%s), error: %d",path.c_str(),status);
free(file); free(file);
file=NULL; file=NULL;
return ""; return "";
@ -174,7 +174,7 @@ std::string ConfigReader::loadFileToString(std::string path){
strBuffer = CPStringTools::removeCharFromString(strBuffer,'\t'); strBuffer = CPStringTools::removeCharFromString(strBuffer,'\t');
}else{ }else{
log_printf("ConfigReader::loadFileToString(line %d): error: (GetStat) Couldn't open file (%s), error: %d",__LINE__,path.c_str(),status); DEBUG_FUNCTION_LINE("error: (GetStat) Couldn't open file (%s), error: %d",path.c_str(),status);
} }
return strBuffer; return strBuffer;

View File

@ -40,9 +40,9 @@ static u32 last_button_hold[4] = {0,0,0,0};
static VPADData myVPADBuffer[4]; static VPADData myVPADBuffer[4];
void ControllerPatcher::InitButtonMapping(){ void ControllerPatcher::InitButtonMapping(){
if(HID_DEBUG){ log_printf("ControllerPatcher::InitButtonMapping(line %d): Init called \n",__LINE__); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("Init called \n"); }
if(!gButtonRemappingConfigDone){ if(!gButtonRemappingConfigDone){
if(HID_DEBUG){ log_printf("ControllerPatcher::InitButtonMapping(line %d): Remapping is running! \n",__LINE__); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("Remapping is running! \n"); }
gButtonRemappingConfigDone = 1; gButtonRemappingConfigDone = 1;
memset(gGamePadValues,0,sizeof(gGamePadValues)); // Init / Invalid everything memset(gGamePadValues,0,sizeof(gGamePadValues)); // Init / Invalid everything
@ -105,12 +105,12 @@ void ControllerPatcher::ResetConfig(){
gHIDRegisteredDevices = 0; gHIDRegisteredDevices = 0;
ControllerPatcherUtils::getNextSlotData(&slotdata); ControllerPatcherUtils::getNextSlotData(&slotdata);
gGamePadSlot = slotdata.deviceslot; gGamePadSlot = slotdata.deviceslot;
if(HID_DEBUG){ log_printf("ControllerPatcher::ResetConfig(line %d): Register Gamepad-Config. HID-Mask %s Device-Slot: %d\n",__LINE__,CPStringTools::byte_to_binary(slotdata.hidmask),gGamePadSlot); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("Register Gamepad-Config. HID-Mask %s Device-Slot: %d\n",CPStringTools::byte_to_binary(slotdata.hidmask),gGamePadSlot); }
ControllerPatcherUtils::getNextSlotData(&slotdata); ControllerPatcherUtils::getNextSlotData(&slotdata);
gMouseSlot = slotdata.deviceslot; gMouseSlot = slotdata.deviceslot;
gHID_LIST_MOUSE = slotdata.hidmask; gHID_LIST_MOUSE = slotdata.hidmask;
if(HID_DEBUG){ log_printf("ControllerPatcher::ResetConfig(line %d): Register Mouse-Config. HID-Mask %s Device-Slot: %d\n",__LINE__,CPStringTools::byte_to_binary(gHID_LIST_MOUSE),gMouseSlot); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("Register Mouse-Config. HID-Mask %s Device-Slot: %d\n",CPStringTools::byte_to_binary(gHID_LIST_MOUSE),gMouseSlot); }
ControllerPatcherUtils::getNextSlotData(&slotdata); ControllerPatcherUtils::getNextSlotData(&slotdata);
u32 keyboard_slot = slotdata.deviceslot; u32 keyboard_slot = slotdata.deviceslot;
@ -118,36 +118,36 @@ void ControllerPatcher::ResetConfig(){
gHID_LIST_KEYBOARD = keyboard_hid; gHID_LIST_KEYBOARD = keyboard_hid;
gHID_SLOT_KEYBOARD = keyboard_slot; gHID_SLOT_KEYBOARD = keyboard_slot;
if(HID_DEBUG){ log_printf("ControllerPatcher::ResetConfig(line %d): Register Keyboard-Config. HID-Mask %s Device-Slot: %d\n",__LINE__,CPStringTools::byte_to_binary(gHID_LIST_KEYBOARD),gHID_SLOT_KEYBOARD); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("Register Keyboard-Config. HID-Mask %s Device-Slot: %d\n",CPStringTools::byte_to_binary(gHID_LIST_KEYBOARD),gHID_SLOT_KEYBOARD); }
ControllerPatcherUtils::getNextSlotData(&slotdata); ControllerPatcherUtils::getNextSlotData(&slotdata);
u32 gc_slot = slotdata.deviceslot; u32 gc_slot = slotdata.deviceslot;
u32 gc_hid = slotdata.hidmask; u32 gc_hid = slotdata.hidmask;
gHID_LIST_GC = gc_hid; gHID_LIST_GC = gc_hid;
gHID_SLOT_GC = gc_slot; gHID_SLOT_GC = gc_slot;
if(HID_DEBUG){ log_printf("ControllerPatcher::ResetConfig(line %d): Register GC-Adapter-Config. HID-Mask %s Device-Slot: %d\n",__LINE__,CPStringTools::byte_to_binary(gHID_LIST_GC),gHID_SLOT_GC); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("Register GC-Adapter-Config. HID-Mask %s Device-Slot: %d\n",CPStringTools::byte_to_binary(gHID_LIST_GC),gHID_SLOT_GC); }
ControllerPatcherUtils::getNextSlotData(&slotdata); ControllerPatcherUtils::getNextSlotData(&slotdata);
u32 ds3_slot = slotdata.deviceslot; u32 ds3_slot = slotdata.deviceslot;
u32 ds3_hid = slotdata.hidmask; u32 ds3_hid = slotdata.hidmask;
gHID_LIST_DS3 = ds3_hid; gHID_LIST_DS3 = ds3_hid;
if(HID_DEBUG){ log_printf("ControllerPatcher::ResetConfig(line %d): Register DS3-Config. HID-Mask %s Device-Slot: %d\n",__LINE__,CPStringTools::byte_to_binary(gHID_LIST_DS3),ds3_slot); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("Register DS3-Config. HID-Mask %s Device-Slot: %d\n",CPStringTools::byte_to_binary(gHID_LIST_DS3),ds3_slot); }
ControllerPatcherUtils::getNextSlotData(&slotdata); ControllerPatcherUtils::getNextSlotData(&slotdata);
u32 ds4_slot = slotdata.deviceslot; u32 ds4_slot = slotdata.deviceslot;
u32 ds4_hid = slotdata.hidmask; u32 ds4_hid = slotdata.hidmask;
gHID_LIST_DS4 = ds4_hid; gHID_LIST_DS4 = ds4_hid;
if(HID_DEBUG){ log_printf("ControllerPatcher::ResetConfig(line %d): Register DS4-Config. HID-Mask %s Device-Slot: %d\n",__LINE__,CPStringTools::byte_to_binary(ds4_hid),ds4_slot); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("Register DS4-Config. HID-Mask %s Device-Slot: %d\n",CPStringTools::byte_to_binary(ds4_hid),ds4_slot); }
ControllerPatcherUtils::getNextSlotData(&slotdata); ControllerPatcherUtils::getNextSlotData(&slotdata);
u32 xinput_slot = slotdata.deviceslot; u32 xinput_slot = slotdata.deviceslot;
u32 xinput_hid = slotdata.hidmask; u32 xinput_hid = slotdata.hidmask;
if(HID_DEBUG){ log_printf("ControllerPatcher::ResetConfig(line %d): Register XInput-Config. HID-Mask %s Device-Slot: %d\n",__LINE__,CPStringTools::byte_to_binary(xinput_hid),xinput_slot); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("Register XInput-Config. HID-Mask %s Device-Slot: %d\n",CPStringTools::byte_to_binary(xinput_hid),xinput_slot); }
ControllerPatcherUtils::getNextSlotData(&slotdata); ControllerPatcherUtils::getNextSlotData(&slotdata);
u32 switch_pro_slot = slotdata.deviceslot; u32 switch_pro_slot = slotdata.deviceslot;
gHID_LIST_SWITCH_PRO = slotdata.hidmask; gHID_LIST_SWITCH_PRO = slotdata.hidmask;
log_printf("ControllerPatcher::ResetConfig(line %d): Register Switch-Pro-Config. HID-Mask %s Device-Slot: %d\n",__LINE__,CPStringTools::byte_to_binary(gHID_LIST_SWITCH_PRO),switch_pro_slot); DEBUG_FUNCTION_LINE("Register Switch-Pro-Config. HID-Mask %s Device-Slot: %d\n",CPStringTools::byte_to_binary(gHID_LIST_SWITCH_PRO),switch_pro_slot);
config_controller_hidmask[gc_slot] = gHID_LIST_GC; config_controller_hidmask[gc_slot] = gHID_LIST_GC;
@ -486,39 +486,39 @@ bool ControllerPatcher::Init(){
gSamplingCallback = NULL; gSamplingCallback = NULL;
} }
} }
log_printf("ControllerPatcher::Init(line %d): Found the gSamplingCallback at %08X \n",__LINE__,gSamplingCallback); DEBUG_FUNCTION_LINE("Found the gSamplingCallback at %08X \n",gSamplingCallback);
if(HID_DEBUG){ log_printf("ControllerPatcher::Init(line %d): Init called! \n",__LINE__); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("Init called! \n"); }
if(syshid_handle == 0){ if(syshid_handle == 0){
log_printf("ControllerPatcher::Init(line %d): Failed to load the HID API \n",__LINE__); DEBUG_FUNCTION_LINE("Failed to load the HID API \n");
return false; return false;
} }
if(gConfig_done == HID_INIT_NOT_DONE){ if(gConfig_done == HID_INIT_NOT_DONE){
if(HID_DEBUG){ log_printf("ControllerPatcher::Init(line %d): First time calling the Init\n",__LINE__); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("First time calling the Init\n"); }
gConfig_done = HID_INIT_DONE; gConfig_done = HID_INIT_DONE;
ControllerPatcher::ResetConfig(); ControllerPatcher::ResetConfig();
}else{ }else{
if(HID_DEBUG){ log_printf("ControllerPatcher::Init(line %d): ControllerPatcher::Init(): Config already done!\n",__LINE__); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("Config already done!\n"); }
} }
if(gConfig_done != HID_SDCARD_READ){ if(gConfig_done != HID_SDCARD_READ){
log_printf("ControllerPatcher::Init(line %d): Reading config files from SD Card\n",__LINE__); DEBUG_FUNCTION_LINE("Reading config files from SD Card\n");
ConfigReader* reader = ConfigReader::getInstance(); ConfigReader* reader = ConfigReader::getInstance();
s32 status = 0; s32 status = 0;
if((status = reader->InitSDCard()) == 0){ if((status = reader->InitSDCard()) == 0){
if(HID_DEBUG){ log_printf("ControllerPatcher::Init(line %d): SD Card mounted for controller config!\n",__LINE__); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE(" SD Card mounted for controller config!\n"); }
reader->ReadAllConfigs(); reader->ReadAllConfigs();
log_printf("ControllerPatcher::Init(line %d): Done with reading config files from SD Card\n",__LINE__); DEBUG_FUNCTION_LINE("Done with reading config files from SD Card\n");
gConfig_done = HID_SDCARD_READ; gConfig_done = HID_SDCARD_READ;
}else{ }else{
log_printf("ControllerPatcher::Init(line %d): SD mounting failed! %d\n",__LINE__,status); DEBUG_FUNCTION_LINE("SD mounting failed! %d\n",status);
} }
ConfigReader::destroyInstance(); ConfigReader::destroyInstance();
} }
log_printf("ControllerPatcher::Init(line %d): Initializing the data for button remapping\n",__LINE__); DEBUG_FUNCTION_LINE("Initializing the data for button remapping\n");
InitButtonMapping(); InitButtonMapping();
if(!gHIDAttached){ if(!gHIDAttached){
@ -530,20 +530,20 @@ bool ControllerPatcher::Init(){
void ControllerPatcher::startNetworkServer(){ void ControllerPatcher::startNetworkServer(){
if(!gNetworkControllerActivated) return; if(!gNetworkControllerActivated) return;
log_printf("ControllerPatcher::startNetworkServer(line %d) statedNetworkServer! \n",__LINE__); DEBUG_FUNCTION_LINE("statedNetworkServer! \n");
UDPServer::getInstance(); UDPServer::getInstance();
TCPServer::getInstance(); TCPServer::getInstance();
} }
void ControllerPatcher::stopNetworkServer(){ void ControllerPatcher::stopNetworkServer(){
log_printf("ControllerPatcher::stopNetworkServer(line %d) called! \n",__LINE__); DEBUG_FUNCTION_LINE("called! \n");
UDPServer::destroyInstance(); UDPServer::destroyInstance();
UDPClient::destroyInstance(); UDPClient::destroyInstance();
TCPServer::destroyInstance(); TCPServer::destroyInstance();
} }
void ControllerPatcher::DeInit(){ void ControllerPatcher::DeInit(){
if(HID_DEBUG){ log_printf("ControllerPatcher::DeInit(line %d) called! \n",__LINE__); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("called! \n"); }
if(gHIDAttached) HIDDelClient(&gHIDClient); if(gHIDAttached) HIDDelClient(&gHIDClient);
@ -604,21 +604,21 @@ CONTROLLER_PATCHER_RESULT_OR_ERROR ControllerPatcher::disableWiiUEnergySetting()
s32 res; s32 res;
if(IMIsDimEnabled(&res) == 0){ if(IMIsDimEnabled(&res) == 0){
if(res == 1){ if(res == 1){
if(HID_DEBUG){ log_print("ControllerPatcher::disableWiiUEnergySetting(): Dim was orignally enabled!\n"); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("Dim was orignally enabled!\n"); }
gOriginalDimState = 1; gOriginalDimState = 1;
} }
} }
if(IMIsAPDEnabled(&res) == 0){ if(IMIsAPDEnabled(&res) == 0){
if(res == 1){ if(res == 1){
if(HID_DEBUG){ log_print("ControllerPatcher::disableWiiUEnergySetting(): Auto power down was orignally enabled!\n"); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("Auto power down was orignally enabled!\n"); }
gOriginalAPDState = 1; gOriginalAPDState = 1;
} }
} }
IMDisableDim(); IMDisableDim();
IMDisableAPD(); IMDisableAPD();
log_print("ControllerPatcher::disableWiiUEnergySetting(): Disable Energy savers\n"); DEBUG_FUNCTION_LINE("Disable Energy savers\n");
return CONTROLLER_PATCHER_ERROR_NONE; return CONTROLLER_PATCHER_ERROR_NONE;
} }
@ -626,11 +626,11 @@ CONTROLLER_PATCHER_RESULT_OR_ERROR ControllerPatcher::restoreWiiUEnergySetting()
//Check if we need to enable Auto Power down again on exiting //Check if we need to enable Auto Power down again on exiting
if(gOriginalAPDState == 1){ if(gOriginalAPDState == 1){
log_print("ControllerPatcher::restoreWiiUEnergySetting(): Auto shutdown was on before using HID to VPAD. Setting it to on again.\n"); DEBUG_FUNCTION_LINE("Auto shutdown was on before using HID to VPAD. Setting it to on again.\n");
IMEnableAPD(); IMEnableAPD();
} }
if(gOriginalDimState == 1){ if(gOriginalDimState == 1){
log_print("ControllerPatcher::restoreWiiUEnergySetting(): Burn-in reduction was on before using HID to VPAD. Setting it to on again.\n"); DEBUG_FUNCTION_LINE("Burn-in reduction was on before using HID to VPAD. Setting it to on again.\n");
IMEnableDim(); IMEnableDim();
} }
return CONTROLLER_PATCHER_ERROR_NONE; return CONTROLLER_PATCHER_ERROR_NONE;
@ -859,7 +859,7 @@ CONTROLLER_PATCHER_RESULT_OR_ERROR ControllerPatcher::setProControllerDataFromHI
s32 res; s32 res;
if((res = ControllerPatcherUtils::getDeviceInfoFromVidPid(&device_info)) < 0){ if((res = ControllerPatcherUtils::getDeviceInfoFromVidPid(&device_info)) < 0){
log_printf("ControllerPatcherUtils::getDeviceInfoFromVidPid(&device_info) = %d\n",res); DEBUG_FUNCTION_LINE("ControllerPatcherUtils::getDeviceInfoFromVidPid(&device_info) = %d\n",res);
continue; continue;
} }
@ -869,7 +869,7 @@ CONTROLLER_PATCHER_RESULT_OR_ERROR ControllerPatcher::setProControllerDataFromHI
HID_Data * data_cur; HID_Data * data_cur;
if((res = ControllerPatcherHID::getHIDData(hidmask,pad,&data_cur)) < 0) { if((res = ControllerPatcherHID::getHIDData(hidmask,pad,&data_cur)) < 0) {
//log_printf("ControllerPatcherHID::getHIDData(hidmask,pad,&data_cur)) = %d\n",res); //DEBUG_FUNCTION_LINE("ControllerPatcherHID::getHIDData(hidmask,pad,&data_cur)) = %d\n",res);
continue; continue;
} }
data_list.push_back(data_cur); data_list.push_back(data_cur);
@ -987,7 +987,7 @@ CONTROLLER_PATCHER_RESULT_OR_ERROR ControllerPatcher::printVPADButtons(VPADData
if((buffer->btns_d & VPAD_STICK_L_EMULATION_UP) == VPAD_STICK_L_EMULATION_UP) strcat(output,"LE_Up "); if((buffer->btns_d & VPAD_STICK_L_EMULATION_UP) == VPAD_STICK_L_EMULATION_UP) strcat(output,"LE_Up ");
if((buffer->btns_d & VPAD_STICK_L_EMULATION_DOWN) == VPAD_STICK_L_EMULATION_DOWN) strcat(output,"LE_Down "); if((buffer->btns_d & VPAD_STICK_L_EMULATION_DOWN) == VPAD_STICK_L_EMULATION_DOWN) strcat(output,"LE_Down ");
log_printf("%spressed Sticks: LX %f LY %f RX %f RY %f\n",output,buffer->lstick.x,buffer->lstick.y,buffer->rstick.x,buffer->rstick.y); DEBUG_FUNCTION_LINE("%spressed Sticks: LX %f LY %f RX %f RY %f\n",output,buffer->lstick.x,buffer->lstick.y,buffer->rstick.x,buffer->rstick.y);
} }
return CONTROLLER_PATCHER_ERROR_NONE; return CONTROLLER_PATCHER_ERROR_NONE;
} }

View File

@ -24,8 +24,9 @@ ConfigParser::ConfigParser(std::string configData){
this->content = configData; this->content = configData;
this->contentLines = CPStringTools::StringSplit(content, "\n"); this->contentLines = CPStringTools::StringSplit(content, "\n");
if(contentLines.empty()) if(contentLines.empty()){
return; return;
}
//remove the comments and make everything uppercase //remove the comments and make everything uppercase
for(u32 i = 0; i < contentLines.size(); i++){ for(u32 i = 0; i < contentLines.size(); i++){
@ -70,38 +71,42 @@ void ConfigParser::setSlot(u16 newSlot){
bool ConfigParser::Init(){ bool ConfigParser::Init(){
if(contentLines.size() == 0){ if(contentLines.size() == 0){
log_printf("ConfigParser::Init(line %d): Files seems to be empty. Make sure to have a proper header\n",__LINE__); DEBUG_FUNCTION_LINE("File seems to be empty. Make sure to have a proper header\n");
return false; return false;
} }
const char * line = contentLines[0].c_str(); const char * line = contentLines[0].c_str();
s32 len = strlen(line); s32 len = strlen(line);
if(len <= 4){
DEBUG_FUNCTION_LINE("Header is too short.\n");
return false;
}
std::string identify; std::string identify;
if(line[0] == '[' && line[len-1] == ']'){ if(line[0] == '[' && line[len-1] == ']'){
identify = contentLines[0].substr(1,len-2); identify = contentLines[0].substr(1,len-2);
}else{ }else{
log_printf("ConfigParser::Init((line %d): Not a proper config file!\n",__LINE__); DEBUG_FUNCTION_LINE("Not a proper config file!\n");
return false; return false;
} }
if(identify.compare("GAMEPAD") == 0){ if(identify.compare("GAMEPAD") == 0){
log_printf("ConfigParser::Init((line %d): Its a gamepad config file!\n",__LINE__); DEBUG_FUNCTION_LINE("Its a gamepad config file!\n");
setSlot(gGamePadSlot); setSlot(gGamePadSlot);
setType(PARSE_GAMEPAD); setType(PARSE_GAMEPAD);
}else if(identify.compare("MOUSE") == 0){ }else if(identify.compare("MOUSE") == 0){
log_printf("ConfigParser::Init((line %d): Its a mouse config file!\n",__LINE__); DEBUG_FUNCTION_LINE("Its a mouse config file!\n");
setSlot(gMouseSlot); setSlot(gMouseSlot);
setType(PARSE_MOUSE); setType(PARSE_MOUSE);
this->vid = HID_MOUSE_VID; this->vid = HID_MOUSE_VID;
this->pid = HID_MOUSE_PID; this->pid = HID_MOUSE_PID;
}else if(identify.compare("KEYBOARD") == 0){ }else if(identify.compare("KEYBOARD") == 0){
log_printf("ConfigParser::Init((line %d): Its a keyboard config file!\n",__LINE__); DEBUG_FUNCTION_LINE("Its a keyboard config file!\n");
setSlot(gHID_SLOT_KEYBOARD); setSlot(gHID_SLOT_KEYBOARD);
setType(PARSE_KEYBOARD); setType(PARSE_KEYBOARD);
this->vid = HID_KEYBOARD_VID; this->vid = HID_KEYBOARD_VID;
this->pid = HID_KEYBOARD_PID; this->pid = HID_KEYBOARD_PID;
}else{ }else{
log_printf("ConfigParser::Init((line %d): Its a controller config file!\n",__LINE__); DEBUG_FUNCTION_LINE("Its a controller config file!\n");
setSlot(getSlotController(identify)); setSlot(getSlotController(identify));
setType(PARSE_CONTROLLER); setType(PARSE_CONTROLLER);
} }
@ -116,18 +121,19 @@ bool ConfigParser::Init(){
} }
void ConfigParser::parseSingleLine(std::string line){ void ConfigParser::parseSingleLine(std::string line){
if(line.empty()){DEBUG_FUNCTION_LINE("Can't parse line. it's empty\n"); return;}
std::vector<std::string> cur_values = CPStringTools::StringSplit(line,"="); std::vector<std::string> cur_values = CPStringTools::StringSplit(line,"=");
if(cur_values.size() != 2){ if(cur_values.size() != 2){
if(HID_DEBUG || cur_values.size() > 2){ log_printf("ConfigParser::parseSingleLine(line %d): Not a valid key=pair line %s\n",__LINE__,line.c_str()); } if(HID_DEBUG || cur_values.size() > 2){ DEBUG_FUNCTION_LINE("Not a valid key=pair line %s\n",line.c_str()); }
return; return;
}else{ }else{
u16 hid_slot = getSlot(); u16 hid_slot = getSlot();
if(HID_DEBUG){ log_printf("ConfigParser::parseSingleLine(line %d): leftpart = \"%s\" \n",__LINE__,cur_values[0].c_str()); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("leftpart = \"%s\" \n",cur_values[0].c_str()); }
if(HID_DEBUG){ log_printf("ConfigParser::parseSingleLine(line %d): rightpart = \"%s\" \n",__LINE__,cur_values[1].c_str()); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("rightpart = \"%s\" \n",cur_values[1].c_str()); }
s32 keyslot = -1; s32 keyslot = -1;
if(HID_DEBUG){ log_printf("ConfigParser::parseSingleLine(line %d): Checking single value\n",__LINE__); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("Checking single value\n"); }
if(getType() == PARSE_GAMEPAD || getType() == PARSE_KEYBOARD){ if(getType() == PARSE_GAMEPAD || getType() == PARSE_KEYBOARD){
keyslot = ConfigValues::getKeySlotGamePad(cur_values[0]); keyslot = ConfigValues::getKeySlotGamePad(cur_values[0]);
}else if(getType() == PARSE_MOUSE){ }else if(getType() == PARSE_MOUSE){
@ -136,14 +142,14 @@ void ConfigParser::parseSingleLine(std::string line){
keyslot = ConfigValues::getKeySlotDefaultSingleValue(cur_values[0]); keyslot = ConfigValues::getKeySlotDefaultSingleValue(cur_values[0]);
} }
if(keyslot != -1){ if(keyslot != -1){
if(HID_DEBUG){ log_printf("ConfigParser::parseSingleLine(line %d): Its a single value\n",__LINE__); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("Its a single value\n"); }
long rightValue = -1; long rightValue = -1;
bool valueSet = false; bool valueSet = false;
if(cur_values[0].compare("DPAD_MODE") == 0){ if(cur_values[0].compare("DPAD_MODE") == 0){
const u8 * values_ = NULL; const u8 * values_ = NULL;
if((values_ = ConfigValues::getValuesStickPreset(cur_values[1])) != NULL){ if((values_ = ConfigValues::getValuesStickPreset(cur_values[1])) != NULL){
if(values_[STICK_CONF_MAGIC_VERSION] != STICK_CONF_MAGIC_VALUE) if(values_[STICK_CONF_MAGIC_VERSION] != STICK_CONF_MAGIC_VALUE)
if(HID_DEBUG){ log_printf("ConfigParser::parseSingleLine(line %d): Settings preset DPAD MODE and Mask\n",__LINE__); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("Settings preset DPAD MODE and Mask\n"); }
config_controller[hid_slot][CONTRPS_DPAD_MODE][0] = CONTROLLER_PATCHER_VALUE_SET; config_controller[hid_slot][CONTRPS_DPAD_MODE][0] = CONTROLLER_PATCHER_VALUE_SET;
config_controller[hid_slot][CONTRPS_DPAD_MODE][1] = values_[CONTRDPAD_MODE]; config_controller[hid_slot][CONTRPS_DPAD_MODE][1] = values_[CONTRDPAD_MODE];
if(values_[CONTRDPAD_MASK] != 0x00){ if(values_[CONTRDPAD_MASK] != 0x00){
@ -157,9 +163,9 @@ void ConfigParser::parseSingleLine(std::string line){
if(!valueSet){ if(!valueSet){
if(getType() == PARSE_KEYBOARD){ if(getType() == PARSE_KEYBOARD){
if((rightValue = ConfigValues::getPresetValuesKeyboard(cur_values[1]))!= -1){ if((rightValue = ConfigValues::getPresetValuesKeyboard(cur_values[1]))!= -1){
if(HID_DEBUG){ log_printf("ConfigParser::parseSingleLine(line %d): Used pre-defined Keyboard! \"%s\" is %d\n",__LINE__,cur_values[1].c_str(),rightValue);} if(HID_DEBUG){ DEBUG_FUNCTION_LINE("Used pre-defined Keyboard! \"%s\" is %d\n",cur_values[1].c_str(),rightValue);}
}else{ }else{
if(HID_DEBUG){ log_printf("ConfigParser::parseSingleLine(line %d): I need to parse %s\n",__LINE__,cur_values[1].c_str()); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("I need to parse %s\n",cur_values[1].c_str()); }
char * ptr; char * ptr;
rightValue = strtol(cur_values[1].c_str(),&ptr,16); rightValue = strtol(cur_values[1].c_str(),&ptr,16);
} }
@ -168,34 +174,34 @@ void ConfigParser::parseSingleLine(std::string line){
if(getType() == PARSE_MOUSE){ //No parsing for the mouse if(getType() == PARSE_MOUSE){ //No parsing for the mouse
if(rightValue == -1){ if(rightValue == -1){
if(HID_DEBUG){ log_printf("ConfigParser::parseSingleLine(line %d): Invalid mouse value, lets skip it %s\n",__LINE__,cur_values[1].c_str()); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("Invalid mouse value, lets skip it %s\n",cur_values[1].c_str()); }
return; return;
} }
}else{ }else{
if(rightValue == -1){ if(rightValue == -1){
if(HID_DEBUG){ log_printf("ConfigParser::parseSingleLine(line %d): I need to parse %s\n",__LINE__,cur_values[1].c_str()); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("I need to parse %s\n",cur_values[1].c_str()); }
char * ptr; char * ptr;
rightValue = strtol(cur_values[1].c_str(),&ptr,16); rightValue = strtol(cur_values[1].c_str(),&ptr,16);
} }
} }
} }
if(HID_DEBUG){ log_printf("ConfigParser::parseSingleLine(line %d): Setting value to %d\n",__LINE__,rightValue); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("Setting value to %d\n",rightValue); }
config_controller[hid_slot][keyslot][0] = CONTROLLER_PATCHER_VALUE_SET; config_controller[hid_slot][keyslot][0] = CONTROLLER_PATCHER_VALUE_SET;
config_controller[hid_slot][keyslot][1] = rightValue; config_controller[hid_slot][keyslot][1] = rightValue;
} }
}else{ }else{
if(HID_DEBUG){ log_printf("ConfigParser::parseSingleLine(line %d): Check pair value\n",__LINE__); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("Check pair value\n"); }
keyslot = ConfigValues::getKeySlotDefaultPairedValue(cur_values[0]); keyslot = ConfigValues::getKeySlotDefaultPairedValue(cur_values[0]);
if(keyslot != -1){ if(keyslot != -1){
if(HID_DEBUG){ log_printf("ConfigParser::parseSingleLine(line %d): Its a pair value\n",__LINE__); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("Its a pair value\n"); }
if(!ConfigValues::getInstance()->setIfValueIsAControllerPreset(cur_values[1],getSlot(),keyslot)){ if(!ConfigValues::getInstance()->setIfValueIsAControllerPreset(cur_values[1],getSlot(),keyslot)){
if(HID_DEBUG){ log_printf("ConfigParser::parseSingleLine(line %d): And its no preset\n",__LINE__); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("And its no preset\n"); }
std::vector<std::string> rightvalues = CPStringTools::StringSplit(cur_values[1],","); std::vector<std::string> rightvalues = CPStringTools::StringSplit(cur_values[1],",");
if(rightvalues.size() != 2){ if(rightvalues.size() != 2){
log_printf("ConfigParser::parseSingleLine(line %d): %d instead of 2 key=values pairs in line\n",__LINE__,rightvalues.size()); DEBUG_FUNCTION_LINE("%d instead of 2 key=values pairs in line\n",rightvalues.size());
return; return;
} }
@ -205,12 +211,12 @@ void ConfigParser::parseSingleLine(std::string line){
config_controller[hid_slot][keyslot][0] = firstValue; config_controller[hid_slot][keyslot][0] = firstValue;
config_controller[hid_slot][keyslot][1] = secondValue; config_controller[hid_slot][keyslot][1] = secondValue;
if(HID_DEBUG){ log_printf("ConfigParser::parseSingleLine(line %d): Set %02X,%02X\n",__LINE__,firstValue,secondValue); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("Set %02X,%02X\n",firstValue,secondValue); }
}else{ }else{
if(HID_DEBUG){ log_printf("ConfigParser::parseSingleLine(line %d): Found preset value!!\n",__LINE__); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("Found preset value!!\n"); }
} }
}else{ }else{
log_printf("ConfigParser::parseSingleLine(line %d): The setting \"%s\" is unknown!\n",__LINE__,cur_values[0].c_str()); DEBUG_FUNCTION_LINE("The setting \"%s\" is unknown!\n",cur_values[0].c_str());
} }
} }
} }
@ -218,7 +224,7 @@ void ConfigParser::parseSingleLine(std::string line){
bool ConfigParser::resetConfig(){ bool ConfigParser::resetConfig(){
s32 slot = getSlot(); s32 slot = getSlot();
if(slot >= gHIDMaxDevices) return false; if((slot == HID_INVALID_SLOT) || (slot >= gHIDMaxDevices)) return false;
for(s32 j = (CONTRPS_PID+1);j< CONTRPS_MAX_VALUE;j++){ for(s32 j = (CONTRPS_PID+1);j< CONTRPS_MAX_VALUE;j++){
config_controller[slot][j][0] = CONTROLLER_PATCHER_INVALIDVALUE; config_controller[slot][j][0] = CONTROLLER_PATCHER_INVALIDVALUE;
config_controller[slot][j][1] = CONTROLLER_PATCHER_INVALIDVALUE; config_controller[slot][j][1] = CONTROLLER_PATCHER_INVALIDVALUE;
@ -227,12 +233,12 @@ bool ConfigParser::resetConfig(){
} }
s32 ConfigParser::getSlotController(std::string identify){ s32 ConfigParser::getSlotController(std::string identify){
if(HID_DEBUG){ log_printf("ConfigParser::getSlotController(line %d): Getting Controller Slot\n",__LINE__); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("Getting Controller Slot\n"); }
std::vector<std::string> values = CPStringTools::StringSplit(identify,","); std::vector<std::string> values = CPStringTools::StringSplit(identify,",");
if(values.size() != 2){ if(values.size() != 2){
log_printf("ConfigParser::getSlotController(line %d): You need to provide a VID and PID. e.g. \"[vid=0x451,pid=0x152]\". (%s)\n",__LINE__,identify.c_str()); DEBUG_FUNCTION_LINE("You need to provide a VID and PID. e.g. \"[vid=0x451,pid=0x152]\". (%s)\n",identify.c_str());
return HID_INVALID_SLOT; return HID_INVALID_SLOT;
} }
@ -244,7 +250,7 @@ s32 ConfigParser::getSlotController(std::string identify){
if(pid < 0){ if(pid < 0){
return HID_INVALID_SLOT; return HID_INVALID_SLOT;
} }
log_printf("ConfigParser::getSlotController(line %d): VID: %04x PID: %04x\n",__LINE__,vid,pid); DEBUG_FUNCTION_LINE("VID: %04x PID: %04x\n",vid,pid);
this->vid = vid; this->vid = vid;
this->pid = pid; this->pid = pid;
@ -256,7 +262,7 @@ s32 ConfigParser::getSlotController(std::string identify){
s32 slot = deviceinfo.slotdata.deviceslot; s32 slot = deviceinfo.slotdata.deviceslot;
s32 hid = 0; s32 hid = 0;
if(result < 0){ if(result < 0){
if(HID_DEBUG){ log_printf("ConfigParser::getSlotController(line %d): Its a new controller, lets save it\n",__LINE__); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("Its a new controller, lets save it\n"); }
HIDSlotData slotdata; HIDSlotData slotdata;
ControllerPatcherUtils::getNextSlotData(&slotdata); ControllerPatcherUtils::getNextSlotData(&slotdata);
@ -265,69 +271,75 @@ s32 ConfigParser::getSlotController(std::string identify){
hid = slotdata.hidmask; hid = slotdata.hidmask;
if(slot >= gHIDMaxDevices){ if(slot >= gHIDMaxDevices){
log_printf("ConfigParser::getSlotController(line %d): ConfigParser::getSlotController: We don't a space for a new controller, please delete .inis\n",__LINE__); DEBUG_FUNCTION_LINE("We don't a space for a new controller, please delete .inis\n");
return HID_INVALID_SLOT; return HID_INVALID_SLOT;
} }
if(HID_DEBUG){ log_printf("ConfigParser::getSlotController(line %d): Got new slot! slot: %d hid %s .. Lets registrate it!\n",__LINE__,slot,CPStringTools::byte_to_binary(hid)); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("Got new slot! slot: %d hid %s .. Lets registrate it!\n",slot,CPStringTools::byte_to_binary(hid)); }
config_controller[slot][CONTRPS_VID][0] = (vid & 0xFF00) >> 8; config_controller[slot][CONTRPS_VID][0] = (vid & 0xFF00) >> 8;
config_controller[slot][CONTRPS_VID][1] = (vid & 0x00FF); config_controller[slot][CONTRPS_VID][1] = (vid & 0x00FF);
config_controller[slot][CONTRPS_PID][0] = (pid & 0xFF00) >> 8; config_controller[slot][CONTRPS_PID][0] = (pid & 0xFF00) >> 8;
config_controller[slot][CONTRPS_PID][1] = (pid & 0x00FF); config_controller[slot][CONTRPS_PID][1] = (pid & 0x00FF);
if(HID_DEBUG){ if(HID_DEBUG){
log_printf("ConfigParser::getSlotController(line %d): Saved vid: %04X pid: %04X\n",__LINE__, DEBUG_FUNCTION_LINE("Saved vid: %04X pid: %04X\n",
config_controller[slot][CONTRPS_VID][0] * 0x100 + config_controller[slot][CONTRPS_VID][1], config_controller[slot][CONTRPS_VID][0] * 0x100 + config_controller[slot][CONTRPS_VID][1],
config_controller[slot][CONTRPS_PID][0] * 0x100 + config_controller[slot][CONTRPS_PID][1]); } config_controller[slot][CONTRPS_PID][0] * 0x100 + config_controller[slot][CONTRPS_PID][1]); }
config_controller_hidmask[slot] = hid; config_controller_hidmask[slot] = hid;
if(HID_DEBUG){ log_printf("ConfigParser::getSlotController(line %d): Saved the hid\n",__LINE__); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("Saved the hid\n"); }
}else{ }else{
if(slot < gHIDMaxDevices){ if(slot < gHIDMaxDevices){
hid = config_controller_hidmask[slot]; hid = config_controller_hidmask[slot];
if(HID_DEBUG){ log_printf("ConfigParser::getSlotController(line %d): >>>>>> found slot %d (hid:%s). Modifing existing data <<<<<<<<\n",__LINE__,slot,CPStringTools::byte_to_binary(hid)); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE(">>>>>> found slot %d (hid:%s). Modifing existing data <<<<<<<<\n",slot,CPStringTools::byte_to_binary(hid)); }
log_printf("ConfigParser::getSlotController(line %d): We already have data of this controller, lets modify it\n",__LINE__); DEBUG_FUNCTION_LINE("We already have data of this controller, lets modify it\n");
}else{ }else{
log_printf("ConfigParser::getSlotController(line %d): Something really odd happend to the slots. %d is bigger then max (%d)\n",__LINE__,slot,gHIDMaxDevices); DEBUG_FUNCTION_LINE("Something really odd happend to the slots. %d is bigger then max (%d)\n",slot,gHIDMaxDevices);
return HID_INVALID_SLOT; return HID_INVALID_SLOT;
} }
} }
log_printf("ConfigParser::getSlotController(line %d): using slot: %d hid %08X\n",__LINE__,slot,hid); DEBUG_FUNCTION_LINE("using slot: %d hid %08X\n",slot,hid);
return slot; return slot;
} }
bool ConfigParser::parseIni(){ bool ConfigParser::parseIni(){
if(getSlot() == HID_INVALID_SLOT){ if(getSlot() == HID_INVALID_SLOT){
log_printf("ConfigParser::parseIni(line %d): Couldn't parse file. Not a valid slot. Probably broken config. Or you tried to have more than %d devices\n",__LINE__,getType(),gHIDMaxDevices); DEBUG_FUNCTION_LINE("Couldn't parse file. Not a valid slot. Probably broken config. Or you tried to have more than %d devices\n",getType(),gHIDMaxDevices);
return false;
} }
if(HID_DEBUG){ log_printf("ConfigParser::parseIni(line %d): Parsing content, type %d\n",__LINE__,getType()); }
if(HID_DEBUG){ DEBUG_FUNCTION_LINE("Parsing content, type %d\n",getType()); }
s32 start = 1; s32 start = 1;
if(contentLines.size() <= 1){
DEBUG_FUNCTION_LINE("File only contains a header.\n");
return false;
}
if(contentLines[1].compare("[IGNOREDEFAULT]") == 0){ if(contentLines[1].compare("[IGNOREDEFAULT]") == 0){
resetConfig(); resetConfig();
log_printf("ConfigParser::parseIni(line %d): Ignoring existing settings of this device\n",__LINE__); DEBUG_FUNCTION_LINE("Ignoring existing settings of this device\n");
start++; start++;
} }
for(u32 i = start; i < contentLines.size(); i++){ for(u32 i = start; i < contentLines.size(); i++){
if(HID_DEBUG){ log_printf("ConfigParser::parseIni(line %d): line %d: \"%s\" \n",__LINE__,(i+1),contentLines[i].c_str()); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("line %d: \"%s\" \n",(i+1),contentLines[i].c_str()); }
parseSingleLine(contentLines[i]); parseSingleLine(contentLines[i]);
} }
if(HID_DEBUG){ log_printf("ConfigParser::parseIni(line %d): Parsing of the file is done.\n",__LINE__); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("Parsing of the file is done.\n"); }
return true; return true;
} }
s32 ConfigParser::getValueFromKeyValue(std::string value_pair,std::string expectedKey,std::string delimiter){ s32 ConfigParser::getValueFromKeyValue(std::string value_pair,std::string expectedKey,std::string delimiter){
std::vector<std::string> string_value = CPStringTools::StringSplit(value_pair,delimiter); std::vector<std::string> string_value = CPStringTools::StringSplit(value_pair,delimiter);
if(string_value.size() != 2){ if(string_value.size() != 2){
if(HID_DEBUG || string_value.size() > 2){ log_printf("ConfigParser::getValueFromKeyValue(line %d): Not a valid key=pair line %s\n",__LINE__,value_pair.c_str()); } if(HID_DEBUG || string_value.size() > 2){ DEBUG_FUNCTION_LINE("Not a valid key=pair line %s\n",value_pair.c_str()); }
return -1; return -1;
} }
if(string_value[0].compare(expectedKey) != 0){ if(string_value[0].compare(expectedKey) != 0){
log_printf("ConfigParser::getValueFromKeyValue(line %d): Key part not %s, its %s",__LINE__,expectedKey.c_str(),string_value[0].c_str()); DEBUG_FUNCTION_LINE("Key part not %s, its %s",expectedKey.c_str(),string_value[0].c_str());
return -1; return -1;
} }
char * ptr; char * ptr;

View File

@ -28,7 +28,7 @@ ConfigValues::ConfigValues(){
} }
ConfigValues::~ConfigValues(){ ConfigValues::~ConfigValues(){
if(HID_DEBUG){ log_printf("ConfigValues::~ConfigValues(line %d){\n",__LINE__);} if(HID_DEBUG){ DEBUG_FUNCTION_LINE("\n");}
} }
const u8 * ConfigValues::getValuesForPreset(std::map<std::string,const u8*> values,std::string possibleValue){ const u8 * ConfigValues::getValuesForPreset(std::map<std::string,const u8*> values,std::string possibleValue){
@ -59,9 +59,9 @@ bool ConfigValues::setIfValueIsPreset(std::map<std::string,const u8*> values,std
keyslot == CONTRPS_VPAD_BUTTON_L_STICK_Y || keyslot == CONTRPS_VPAD_BUTTON_L_STICK_Y ||
keyslot == CONTRPS_VPAD_BUTTON_R_STICK_X || keyslot == CONTRPS_VPAD_BUTTON_R_STICK_X ||
keyslot == CONTRPS_VPAD_BUTTON_R_STICK_Y){ keyslot == CONTRPS_VPAD_BUTTON_R_STICK_Y){
if(HID_DEBUG){ log_printf("ConfigValues::setIfValueIsPreset(line %d): This may be a predefined stick %s\n",__LINE__,possibleValue.c_str());} if(HID_DEBUG){ DEBUG_FUNCTION_LINE("This may be a predefined stick %s\n",possibleValue.c_str());}
if((values_ = ConfigValues::getValuesStickPreset(possibleValue)) != NULL){ if((values_ = ConfigValues::getValuesStickPreset(possibleValue)) != NULL){
if(HID_DEBUG){ log_printf("ConfigValues::setIfValueIsPreset(line %d): Found predefined stick!\n",__LINE__);} if(HID_DEBUG){ DEBUG_FUNCTION_LINE("Found predefined stick!\n");}
config_controller[slot][keyslot][0] = values_[STICK_CONF_BYTE]; //CONTRPS_VPAD_BUTTON_L_STICK_X config_controller[slot][keyslot][0] = values_[STICK_CONF_BYTE]; //CONTRPS_VPAD_BUTTON_L_STICK_X
config_controller[slot][keyslot][1] = values_[STICK_CONF_DEFAULT]; config_controller[slot][keyslot][1] = values_[STICK_CONF_DEFAULT];
config_controller[slot][keyslot+DEF_STICK_OFFSET_INVERT][0] = CONTROLLER_PATCHER_VALUE_SET; //CONTRPS_VPAD_BUTTON_L_STICK_X_INVERT config_controller[slot][keyslot+DEF_STICK_OFFSET_INVERT][0] = CONTROLLER_PATCHER_VALUE_SET; //CONTRPS_VPAD_BUTTON_L_STICK_X_INVERT
@ -98,9 +98,9 @@ s32 ConfigValues::getValueFromMap(std::map<std::string,int> values,std::string n
s32 ConfigValues::getPresetValueEx(std::string possibleString){ s32 ConfigValues::getPresetValueEx(std::string possibleString){
s32 rightValue = -1; s32 rightValue = -1;
if((rightValue = getValueFromMap(gGamePadValuesToCONTRPSString,possibleString))!= -1){ if((rightValue = getValueFromMap(gGamePadValuesToCONTRPSString,possibleString))!= -1){
if(HID_DEBUG){ log_printf("ConfigValues::getPresetValueEx(line %d): Used pre-defined VPAD_VALUE! \"%s\" is %d\n",__LINE__,possibleString.c_str(),rightValue); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("Used pre-defined VPAD_VALUE! \"%s\" is %d\n",possibleString.c_str(),rightValue); }
}else if((rightValue = getValueFromMap(presetValues,possibleString))!= -1){ }else if((rightValue = getValueFromMap(presetValues,possibleString))!= -1){
if(HID_DEBUG){ log_printf("ConfigValues::getPresetValueEx(line %d): Used pre-defined value! \"%s\" is %d\n",__LINE__,possibleString.c_str(),rightValue); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("Used pre-defined value! \"%s\" is %d\n",possibleString.c_str(),rightValue); }
} }
return rightValue; return rightValue;
} }

View File

@ -33,7 +33,7 @@ friend class ControllerPatcher;
private: private:
static ConfigValues *getInstance() { static ConfigValues *getInstance() {
if(instance == NULL){ if(instance == NULL){
log_printf("ConfigValues: We need a new instance!!!\n"); DEBUG_FUNCTION_LINE("We need a new instance!!!\n");
instance = new ConfigValues(); instance = new ConfigValues();
} }
return instance; return instance;
@ -171,7 +171,7 @@ private:
s32 getPresetValueEx(std::string possibleString); s32 getPresetValueEx(std::string possibleString);
void InitValues(){ void InitValues(){
log_printf("ConfigValues::InitValues: Init values for the configuration\n"); DEBUG_FUNCTION_LINE("Init values for the configuration\n");
CONTPRStringToValue["VPAD_BUTTON_A"] = CONTRPS_VPAD_BUTTON_A; CONTPRStringToValue["VPAD_BUTTON_A"] = CONTRPS_VPAD_BUTTON_A;
CONTPRStringToValue["VPAD_BUTTON_B"] = CONTRPS_VPAD_BUTTON_B; CONTPRStringToValue["VPAD_BUTTON_B"] = CONTRPS_VPAD_BUTTON_B;
CONTPRStringToValue["VPAD_BUTTON_X"] = CONTRPS_VPAD_BUTTON_X; CONTPRStringToValue["VPAD_BUTTON_X"] = CONTRPS_VPAD_BUTTON_X;

View File

@ -36,14 +36,14 @@ TCPServer::TCPServer(s32 port){
TCPServer::~TCPServer(){ TCPServer::~TCPServer(){
CloseSockets(); CloseSockets();
if(HID_DEBUG){ log_printf("TCPServer::~TCPServer(line %d): Thread will be closed\n",__LINE__); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("Thread will be closed\n"); }
TCPServer::AttachDetach(DETACH); TCPServer::AttachDetach(DETACH);
exitThread = 1; exitThread = 1;
if(TCPServer::pThread != NULL){ if(TCPServer::pThread != NULL){
if(HID_DEBUG){ log_printf("TCPServer::~TCPServer(line %d): Deleting it!\n",__LINE__); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("Deleting it!\n"); }
delete TCPServer::pThread; delete TCPServer::pThread;
} }
if(HID_DEBUG){ log_printf("TCPServer::~TCPServer(line %d): Thread done\n",__LINE__); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("Thread done\n"); }
TCPServer::pThread = NULL; TCPServer::pThread = NULL;
} }
@ -66,7 +66,7 @@ void TCPServer::StartTCPThread(TCPServer * server){
OSGetTitleID() == 0x00050000101c9b00 || //The Binding of Isaac: Rebirth EUR OSGetTitleID() == 0x00050000101c9b00 || //The Binding of Isaac: Rebirth EUR
OSGetTitleID() == 0x00050000101a3c00){ //The Binding of Isaac: Rebirth USA OSGetTitleID() == 0x00050000101a3c00){ //The Binding of Isaac: Rebirth USA
priority = 10; priority = 10;
log_printf("TCPServer::StartTCPThread(line %d): This game needs higher thread priority. We set it to %d\n",__LINE__,priority); DEBUG_FUNCTION_LINE("This game needs higher thread priority. We set it to %d\n",priority);
} }
TCPServer::pThread = ControllerPatcherThread::create(TCPServer::DoTCPThread, (void*)server, ControllerPatcherThread::eAttributeAffCore2,priority); TCPServer::pThread = ControllerPatcherThread::create(TCPServer::DoTCPThread, (void*)server, ControllerPatcherThread::eAttributeAffCore2,priority);
TCPServer::pThread->resumeThread(); TCPServer::pThread->resumeThread();
@ -75,16 +75,16 @@ void TCPServer::StartTCPThread(TCPServer * server){
void TCPServer::AttachDetach(s32 attach){ void TCPServer::AttachDetach(s32 attach){
if(HID_DEBUG){ if(HID_DEBUG){
if(attach){ if(attach){
log_printf("TCPServer::AttachDetach(line %d): Network Attach\n",__LINE__); DEBUG_FUNCTION_LINE("Network Attach\n");
}else{ }else{
log_printf("TCPServer::AttachDetach(line %d): Network Detach\n",__LINE__); DEBUG_FUNCTION_LINE("Network Detach\n");
} }
} }
for(s32 i= 0;i< gHIDMaxDevices;i++){ for(s32 i= 0;i< gHIDMaxDevices;i++){
for(s32 j= 0;j< HID_MAX_PADS_COUNT;j++){ for(s32 j= 0;j< HID_MAX_PADS_COUNT;j++){
if(gNetworkController[i][j][NETWORK_CONTROLLER_ACTIVE] > 0){ if(gNetworkController[i][j][NETWORK_CONTROLLER_ACTIVE] > 0){
log_printf("TCPServer::AttachDetach(line %d): Found a registered pad in deviceslot %d and padslot %d! Lets detach it.\n",__LINE__,i,j); DEBUG_FUNCTION_LINE("Found a registered pad in deviceslot %d and padslot %d! Lets detach it.\n",i,j);
HIDDevice device; HIDDevice device;
memset(&device,0,sizeof(device)); memset(&device,0,sizeof(device));
@ -101,9 +101,9 @@ void TCPServer::AttachDetach(s32 attach){
if(HID_DEBUG){ if(HID_DEBUG){
if(attach){ if(attach){
log_printf("TCPServer::AttachDetach(line %d): Network Attach DONE!\n",__LINE__); DEBUG_FUNCTION_LINE("Network Attach DONE!\n");
}else{ }else{
log_printf("TCPServer::AttachDetach(line %d): Network Detach DONE!\n",__LINE__); DEBUG_FUNCTION_LINE("Network Detach DONE!\n");
} }
} }
} }
@ -123,32 +123,32 @@ s32 TCPServer::RunTCP(){
os_usleep(1000); os_usleep(1000);
continue; continue;
} }
//log_printf("got byte from tcp! %01X\n",ret); //DEBUG_FUNCTION_LINE("got byte from tcp! %01X\n",ret);
switch (ret) { switch (ret) {
case WIIU_CP_TCP_ATTACH: { /*attach */ case WIIU_CP_TCP_ATTACH: { /*attach */
if(gUsedProtocolVersion >= WIIU_CP_TCP_HANDSHAKE_VERSION_1){ if(gUsedProtocolVersion >= WIIU_CP_TCP_HANDSHAKE_VERSION_1){
s32 handle; s32 handle;
ret = ControllerPatcherNet::recvwait(clientfd, &handle, 4); ret = ControllerPatcherNet::recvwait(clientfd, &handle, 4);
if(ret < 0){ if(ret < 0){
log_printf("TCPServer::RunTCP(line %d): Error in %02X: recvwait handle\n",__LINE__,WIIU_CP_TCP_ATTACH); DEBUG_FUNCTION_LINE("Error in %02X: recvwait handle\n",WIIU_CP_TCP_ATTACH);
return ret; return ret;
} }
if(HID_DEBUG){ log_printf("TCPServer::RunTCP(line %d): got handle %d\n",handle); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("got handle %d\n",handle); }
u16 vid = 0; u16 vid = 0;
u16 pid = 0; u16 pid = 0;
ret = ControllerPatcherNet::recvwait(clientfd, &vid, 2); ret = ControllerPatcherNet::recvwait(clientfd, &vid, 2);
if(ret < 0){ if(ret < 0){
log_printf("TCPServer::RunTCP(line %d): Error in %02X: recvwait vid\n",__LINE__,WIIU_CP_TCP_ATTACH); DEBUG_FUNCTION_LINE("Error in %02X: recvwait vid\n",WIIU_CP_TCP_ATTACH);
return ret; return ret;
} }
if(HID_DEBUG){ log_printf("TCPServer::RunTCP(line %d): got vid %04X\n",vid); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("got vid %04X\n",vid); }
ret = ControllerPatcherNet::recvwait(clientfd, &pid, 2); ret = ControllerPatcherNet::recvwait(clientfd, &pid, 2);
if(ret < 0){ if(ret < 0){
log_printf("TCPServer::RunTCP(line %d): Error in %02X: recvwait pid\n",__LINE__,WIIU_CP_TCP_ATTACH); DEBUG_FUNCTION_LINE("Error in %02X: recvwait pid\n",WIIU_CP_TCP_ATTACH);
return ret; return ret;
} }
if(HID_DEBUG){ log_printf("TCPServer::RunTCP(line %d): got pid %04X\n",pid); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("got pid %04X\n",pid); }
HIDDevice device; HIDDevice device;
memset(&device,0,sizeof(device)); memset(&device,0,sizeof(device));
device.handle = handle; device.handle = handle;
@ -160,51 +160,51 @@ s32 TCPServer::RunTCP(){
my_cb_user * user = NULL; my_cb_user * user = NULL;
ControllerPatcherHID::externAttachDetachCallback(&device,1); ControllerPatcherHID::externAttachDetachCallback(&device,1);
if((ret = ControllerPatcherUtils::getDataByHandle(handle,&user)) < 0){ if((ret = ControllerPatcherUtils::getDataByHandle(handle,&user)) < 0){
log_printf("TCPServer::RunTCP(line %d): Error in %02X: getDataByHandle(%d,%08X).\n",__LINE__,WIIU_CP_TCP_ATTACH,handle,&user); DEBUG_FUNCTION_LINE("Error in %02X: getDataByHandle(%d,%08X).\n",WIIU_CP_TCP_ATTACH,handle,&user);
log_printf("TCPServer::RunTCP(line %d): Error in %02X: Config for the controller is missing.\n",__LINE__,WIIU_CP_TCP_ATTACH); DEBUG_FUNCTION_LINE("Error in %02X: Config for the controller is missing.\n",WIIU_CP_TCP_ATTACH);
if((ret = ControllerPatcherNet::sendbyte(clientfd, WIIU_CP_TCP_ATTACH_CONFIG_NOT_FOUND) < 0)){ if((ret = ControllerPatcherNet::sendbyte(clientfd, WIIU_CP_TCP_ATTACH_CONFIG_NOT_FOUND) < 0)){
log_printf("TCPServer::RunTCP(line %d): Error in %02X: Sending the WIIU_CP_TCP_ATTACH_CONFIG_NOT_FOUND byte failed. Error: %d.\n",__LINE__,WIIU_CP_TCP_ATTACH,ret); DEBUG_FUNCTION_LINE("Error in %02X: Sending the WIIU_CP_TCP_ATTACH_CONFIG_NOT_FOUND byte failed. Error: %d.\n",WIIU_CP_TCP_ATTACH,ret);
} }
return -1; return -1;
} }
if((ret = ControllerPatcherNet::sendbyte(clientfd, WIIU_CP_TCP_ATTACH_CONFIG_FOUND) < 0)){ if((ret = ControllerPatcherNet::sendbyte(clientfd, WIIU_CP_TCP_ATTACH_CONFIG_FOUND) < 0)){
log_printf("TCPServer::RunTCP(line %d): Error in %02X: Sending the WIIU_CP_TCP_ATTACH_CONFIG_FOUND byte failed. Error: %d.\n",__LINE__,WIIU_CP_TCP_ATTACH,ret); DEBUG_FUNCTION_LINE("Error in %02X: Sending the WIIU_CP_TCP_ATTACH_CONFIG_FOUND byte failed. Error: %d.\n",WIIU_CP_TCP_ATTACH,ret);
return ret; return ret;
} }
if(user != NULL){ if(user != NULL){
if((ret = ControllerPatcherNet::sendbyte(clientfd, WIIU_CP_TCP_ATTACH_USER_DATA_OKAY) < 0)){ if((ret = ControllerPatcherNet::sendbyte(clientfd, WIIU_CP_TCP_ATTACH_USER_DATA_OKAY) < 0)){
log_printf("TCPServer::RunTCP(line %d): Error in %02X: Sending the WIIU_CP_TCP_ATTACH_USER_DATA_OKAY byte failed. Error: %d.\n",__LINE__,WIIU_CP_TCP_ATTACH,ret); DEBUG_FUNCTION_LINE("Error in %02X: Sending the WIIU_CP_TCP_ATTACH_USER_DATA_OKAY byte failed. Error: %d.\n",WIIU_CP_TCP_ATTACH,ret);
return ret; return ret;
} }
ret = ControllerPatcherNet::sendwait(clientfd,&user->slotdata.deviceslot,2); ret = ControllerPatcherNet::sendwait(clientfd,&user->slotdata.deviceslot,2);
if(ret < 0){ if(ret < 0){
log_printf("TCPServer::RunTCP(line %d): Error in %02X: sendwait slotdata: %04X\n",__LINE__,WIIU_CP_TCP_ATTACH,user->slotdata.deviceslot); DEBUG_FUNCTION_LINE("Error in %02X: sendwait slotdata: %04X\n",WIIU_CP_TCP_ATTACH,user->slotdata.deviceslot);
return ret; return ret;
} }
ret = ControllerPatcherNet::sendwait(clientfd,&user->pad_slot,1); ret = ControllerPatcherNet::sendwait(clientfd,&user->pad_slot,1);
if(ret < 0){ if(ret < 0){
log_printf("TCPServer::RunTCP(line %d): Error in %02X: sendwait pad_slot: %04X\n",__LINE__,WIIU_CP_TCP_ATTACH,user->pad_slot); DEBUG_FUNCTION_LINE("Error in %02X: sendwait pad_slot: %04X\n",WIIU_CP_TCP_ATTACH,user->pad_slot);
return ret; return ret;
} }
}else{ }else{
log_printf("TCPServer::RunTCP(line %d): Error in %02X: invalid user data.\n",__LINE__,WIIU_CP_TCP_ATTACH); DEBUG_FUNCTION_LINE("Error in %02X: invalid user data.\n",WIIU_CP_TCP_ATTACH);
if((ret = ControllerPatcherNet::sendbyte(clientfd, WIIU_CP_TCP_ATTACH_USER_DATA_BAD) < 0)){ if((ret = ControllerPatcherNet::sendbyte(clientfd, WIIU_CP_TCP_ATTACH_USER_DATA_BAD) < 0)){
log_printf("TCPServer::RunTCP(line %d): Error in %02X: Sending the WIIU_CP_TCP_ATTACH_USER_DATA_BAD byte failed. Error: %d.\n",__LINE__,WIIU_CP_TCP_ATTACH,ret); DEBUG_FUNCTION_LINE("Error in %02X: Sending the WIIU_CP_TCP_ATTACH_USER_DATA_BAD byte failed. Error: %d.\n",WIIU_CP_TCP_ATTACH,ret);
return ret; return ret;
} }
return -1; return -1;
break; break;
} }
if(HID_DEBUG){ log_printf("TCPServer::RunTCP(line %d): attachted to device slot: %d , pad slot is: %d\n",__LINE__,user->slotdata.deviceslot,user->pad_slot); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("attachted to device slot: %d , pad slot is: %d\n",user->slotdata.deviceslot,user->pad_slot); }
gNetworkController[user->slotdata.deviceslot][user->pad_slot][NETWORK_CONTROLLER_VID] = device.vid; gNetworkController[user->slotdata.deviceslot][user->pad_slot][NETWORK_CONTROLLER_VID] = device.vid;
gNetworkController[user->slotdata.deviceslot][user->pad_slot][NETWORK_CONTROLLER_PID] = device.pid; gNetworkController[user->slotdata.deviceslot][user->pad_slot][NETWORK_CONTROLLER_PID] = device.pid;
gNetworkController[user->slotdata.deviceslot][user->pad_slot][NETWORK_CONTROLLER_ACTIVE] = 1; gNetworkController[user->slotdata.deviceslot][user->pad_slot][NETWORK_CONTROLLER_ACTIVE] = 1;
gNetworkController[user->slotdata.deviceslot][user->pad_slot][NETWORK_CONTROLLER_HANDLE] = handle; gNetworkController[user->slotdata.deviceslot][user->pad_slot][NETWORK_CONTROLLER_HANDLE] = handle;
if(HID_DEBUG){ log_printf("TCPServer::RunTCP(line %d): handle %d connected! vid: %02X pid: %02X deviceslot %d, padslot %d\n",__LINE__,handle,vid,pid,user->slotdata.deviceslot,user->pad_slot); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("handle %d connected! vid: %02X pid: %02X deviceslot %d, padslot %d\n",handle,vid,pid,user->slotdata.deviceslot,user->pad_slot); }
break; break;
} }
break; break;
@ -214,30 +214,30 @@ s32 TCPServer::RunTCP(){
s32 handle; s32 handle;
ret = ControllerPatcherNet::recvwait(clientfd, &handle, 4); ret = ControllerPatcherNet::recvwait(clientfd, &handle, 4);
if(ret < 0){ if(ret < 0){
log_printf("TCPServer::RunTCP(line %d): Error in %02X: recvwait handle\n",__LINE__,WIIU_CP_TCP_DETACH); DEBUG_FUNCTION_LINE("Error in %02X: recvwait handle\n",WIIU_CP_TCP_DETACH);
return ret; return ret;
break; break;
} }
if(HID_DEBUG){ log_printf("TCPServer::RunTCP(line %d): got detach for handle: %d\n",__LINE__,handle); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("got detach for handle: %d\n",handle); }
my_cb_user * user = NULL; my_cb_user * user = NULL;
if(ControllerPatcherUtils::getDataByHandle(handle,&user) < 0){ if(ControllerPatcherUtils::getDataByHandle(handle,&user) < 0){
log_printf("TCPServer::RunTCP(line %d): Error in %02X: getDataByHandle(%d,%08X).\n",__LINE__,WIIU_CP_TCP_DETACH,handle,&user); DEBUG_FUNCTION_LINE("Error in %02X: getDataByHandle(%d,%08X).\n",WIIU_CP_TCP_DETACH,handle,&user);
return -1; return -1;
break; break;
} }
if(user == NULL){ if(user == NULL){
log_printf("TCPServer::RunTCP(line %d): Error in %02X: invalid user data.\n",__LINE__,WIIU_CP_TCP_DETACH); DEBUG_FUNCTION_LINE("Error in %02X: invalid user data.\n",WIIU_CP_TCP_DETACH);
return -1; return -1;
break; break;
} }
s32 deviceslot = user->slotdata.deviceslot; s32 deviceslot = user->slotdata.deviceslot;
if(HID_DEBUG){ log_printf("TCPServer::RunTCP(line %d): device slot is: %d , pad slot is: %d\n",__LINE__,deviceslot,user->pad_slot); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("device slot is: %d , pad slot is: %d\n",deviceslot,user->pad_slot); }
DeviceVIDPIDInfo vidpid; DeviceVIDPIDInfo vidpid;
s32 result; s32 result;
if((result = ControllerPatcherUtils::getVIDPIDbyDeviceSlot(deviceslot,&vidpid)) < 0){ if((result = ControllerPatcherUtils::getVIDPIDbyDeviceSlot(deviceslot,&vidpid)) < 0){
log_printf("TCPServer::RunTCP(line %d): Error in %02X: Couldn't find a valid VID/PID for device slot %d. Error: %d\n",__LINE__,WIIU_CP_TCP_DETACH,deviceslot,ret); DEBUG_FUNCTION_LINE("Error in %02X: Couldn't find a valid VID/PID for device slot %d. Error: %d\n",WIIU_CP_TCP_DETACH,deviceslot,ret);
return -1; return -1;
break; break;
} }
@ -252,16 +252,16 @@ s32 TCPServer::RunTCP(){
ControllerPatcherHID::externAttachDetachCallback(&device,DETACH); ControllerPatcherHID::externAttachDetachCallback(&device,DETACH);
memset(gNetworkController[deviceslot][user->pad_slot],0,sizeof(gNetworkController[deviceslot][user->pad_slot])); memset(gNetworkController[deviceslot][user->pad_slot],0,sizeof(gNetworkController[deviceslot][user->pad_slot]));
if(HID_DEBUG){ log_printf("TCPServer::RunTCP(line %d): handle %d disconnected!\n",__LINE__,handle); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("handle %d disconnected!\n",handle); }
break; break;
} }
break; break;
} }
case WIIU_CP_TCP_PING: { /*ping*/ case WIIU_CP_TCP_PING: { /*ping*/
if(gUsedProtocolVersion >= WIIU_CP_TCP_HANDSHAKE_VERSION_1){ if(gUsedProtocolVersion >= WIIU_CP_TCP_HANDSHAKE_VERSION_1){
if(HID_DEBUG){ log_printf("TCPServer::RunTCP(line %d): Got Ping, sending now a Pong\n",__LINE__); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("Got Ping, sending now a Pong\n"); }
s32 ret = ControllerPatcherNet::sendbyte(clientfd, WIIU_CP_TCP_PONG); s32 ret = ControllerPatcherNet::sendbyte(clientfd, WIIU_CP_TCP_PONG);
if(ret < 0){ log_printf("TCPServer::RunTCP(line %d): Error in %02X: sendbyte PONG\n",__LINE__); return -1;} if(ret < 0){ DEBUG_FUNCTION_LINE("Error in %02X: sendbyte PONG\n"); return -1;}
break; break;
} }
@ -302,7 +302,7 @@ void TCPServer::DoTCPThreadInternal(){
if(ret < 0){ ErrorHandling(); continue;} if(ret < 0){ ErrorHandling(); continue;}
do{ do{
if(HID_DEBUG){ log_printf("TCPServer::DoTCPThreadInternal(line %d): Waiting for a connection\n",__LINE__); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("Waiting for a connection\n"); }
if(exitThread) break; if(exitThread) break;
len = 16; len = 16;
@ -317,37 +317,37 @@ void TCPServer::DoTCPThreadInternal(){
clientfd = ret = accept(sockfd, (sockaddr *)&(sock_addr), &len); clientfd = ret = accept(sockfd, (sockaddr *)&(sock_addr), &len);
if(ret == -1){ ErrorHandling(); break;} if(ret == -1){ ErrorHandling(); break;}
log_printf("TCPServer::DoTCPThreadInternal(line %d): TCP Connection accepted! Sending my protocol version: %d (0x%02X)\n",__LINE__, (WIIU_CP_TCP_HANDSHAKE - WIIU_CP_TCP_HANDSHAKE_VERSION_1)+1,WIIU_CP_TCP_HANDSHAKE); DEBUG_FUNCTION_LINE("TCP Connection accepted! Sending my protocol version: %d (0x%02X)\n", (WIIU_CP_TCP_HANDSHAKE - WIIU_CP_TCP_HANDSHAKE_VERSION_1)+1,WIIU_CP_TCP_HANDSHAKE);
gUDPClientip = sock_addr.sin_addr.s_addr; gUDPClientip = sock_addr.sin_addr.s_addr;
UDPClient::createInstance(); UDPClient::createInstance();
s32 ret; s32 ret;
ret = ControllerPatcherNet::sendbyte(clientfd, WIIU_CP_TCP_HANDSHAKE); //Hey I'm a WiiU console! ret = ControllerPatcherNet::sendbyte(clientfd, WIIU_CP_TCP_HANDSHAKE); //Hey I'm a WiiU console!
if(ret < 0){ log_printf("TCPServer::DoTCPThreadInternal(line %d): Error sendbyte: %02X\n",__LINE__,WIIU_CP_TCP_HANDSHAKE); ErrorHandling(); break;} if(ret < 0){ DEBUG_FUNCTION_LINE("Error sendbyte: %02X\n",WIIU_CP_TCP_HANDSHAKE); ErrorHandling(); break;}
u8 clientProtocolVersion = ControllerPatcherNet::recvbyte(clientfd); u8 clientProtocolVersion = ControllerPatcherNet::recvbyte(clientfd);
if(ret < 0){ log_printf("TCPServer::DoTCPThreadInternal(line %d): Error recvbyte: %02X\n",__LINE__,WIIU_CP_TCP_HANDSHAKE); ErrorHandling(); break;} if(ret < 0){ DEBUG_FUNCTION_LINE("Error recvbyte: %02X\n",WIIU_CP_TCP_HANDSHAKE); ErrorHandling(); break;}
if(clientProtocolVersion == WIIU_CP_TCP_HANDSHAKE_ABORT){ if(clientProtocolVersion == WIIU_CP_TCP_HANDSHAKE_ABORT){
log_printf("TCPServer::DoTCPThreadInternal(line %d): The network client wants to abort.\n",__LINE__); DEBUG_FUNCTION_LINE("The network client wants to abort.\n");
ErrorHandling(); break; ErrorHandling(); break;
} }
log_printf("TCPServer::DoTCPThreadInternal(line %d): received protocol version: %d (0x%02X)\n",__LINE__,(clientProtocolVersion - WIIU_CP_TCP_HANDSHAKE_VERSION_1)+1,clientProtocolVersion); DEBUG_FUNCTION_LINE("received protocol version: %d (0x%02X)\n",(clientProtocolVersion - WIIU_CP_TCP_HANDSHAKE_VERSION_1)+1,clientProtocolVersion);
if(clientProtocolVersion >= WIIU_CP_TCP_HANDSHAKE_VERSION_MIN && clientProtocolVersion <= WIIU_CP_TCP_HANDSHAKE_VERSION_MAX){ if(clientProtocolVersion >= WIIU_CP_TCP_HANDSHAKE_VERSION_MIN && clientProtocolVersion <= WIIU_CP_TCP_HANDSHAKE_VERSION_MAX){
log_printf("TCPServer::DoTCPThreadInternal(line %d): We support this protocol version. Let's confirm it to the network client.\n",__LINE__); DEBUG_FUNCTION_LINE("We support this protocol version. Let's confirm it to the network client.\n");
gUsedProtocolVersion = clientProtocolVersion; gUsedProtocolVersion = clientProtocolVersion;
ret = ControllerPatcherNet::sendbyte(clientfd, clientProtocolVersion); ret = ControllerPatcherNet::sendbyte(clientfd, clientProtocolVersion);
if(ret < 0){ log_printf("TCPServer::DoTCPThreadInternal(line %d): Error sendbyte: %02X\n",__LINE__,clientProtocolVersion); ErrorHandling(); break;} if(ret < 0){ DEBUG_FUNCTION_LINE("Error sendbyte: %02X\n",clientProtocolVersion); ErrorHandling(); break;}
}else{ }else{
log_printf("TCPServer::DoTCPThreadInternal(line %d): We don't support this protocol version. We need to abort =(.\n",__LINE__); DEBUG_FUNCTION_LINE("We don't support this protocol version. We need to abort =(.\n");
ret = ControllerPatcherNet::sendbyte(clientfd, WIIU_CP_TCP_HANDSHAKE_ABORT); ret = ControllerPatcherNet::sendbyte(clientfd, WIIU_CP_TCP_HANDSHAKE_ABORT);
ErrorHandling(); break; ErrorHandling(); break;
} }
log_printf("TCPServer::DoTCPThreadInternal(line %d): Handshake done! Success!\n",__LINE__); DEBUG_FUNCTION_LINE("Handshake done! Success!\n");
TCPServer::DetachAndDelete(); //Clear connected controller TCPServer::DetachAndDelete(); //Clear connected controller
RunTCP(); RunTCP();
@ -357,7 +357,7 @@ void TCPServer::DoTCPThreadInternal(){
} }
clientfd = -1; clientfd = -1;
}while(0); }while(0);
log_printf("TCPServer::DoTCPThreadInternal(line %d): Connection closed\n",__LINE__); DEBUG_FUNCTION_LINE("Connection closed\n");
gUDPClientip = 0; gUDPClientip = 0;
UDPClient::destroyInstance(); UDPClient::destroyInstance();
TCPServer::DetachAndDelete(); //Clear connected controller TCPServer::DetachAndDelete(); //Clear connected controller

View File

@ -59,7 +59,7 @@ UDPServer::~UDPServer(){
this->sockfd = -1; this->sockfd = -1;
} }
} }
if(HID_DEBUG){ log_printf("UDPServer::~UDPServer(line %d): Thread has been closed\n",__LINE__); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("Thread has been closed\n"); }
} }
@ -72,7 +72,7 @@ void UDPServer::StartUDPThread(UDPServer * server){
OSGetTitleID() == 0x00050000101c9b00 || //The Binding of Isaac: Rebirth EUR OSGetTitleID() == 0x00050000101c9b00 || //The Binding of Isaac: Rebirth EUR
OSGetTitleID() == 0x00050000101a3c00){ //The Binding of Isaac: Rebirth USA OSGetTitleID() == 0x00050000101a3c00){ //The Binding of Isaac: Rebirth USA
priority = 10; priority = 10;
log_printf("UDPServer::StartUDPThread(line %d): This game needs higher thread priority. We set it to %d\n",__LINE__,priority); DEBUG_FUNCTION_LINE("This game needs higher thread priority. We set it to %d\n",priority);
} }
UDPServer::pThread = ControllerPatcherThread::create(UDPServer::DoUDPThread, (void*)server, ControllerPatcherThread::eAttributeAffCore2,priority); UDPServer::pThread = ControllerPatcherThread::create(UDPServer::DoUDPThread, (void*)server, ControllerPatcherThread::eAttributeAffCore2,priority);
UDPServer::pThread->resumeThread(); UDPServer::pThread->resumeThread();
@ -80,7 +80,7 @@ void UDPServer::StartUDPThread(UDPServer * server){
bool UDPServer::cpyIncrementBufferOffset(void * target, void * source, s32 * offset, s32 typesize, s32 maximum){ bool UDPServer::cpyIncrementBufferOffset(void * target, void * source, s32 * offset, s32 typesize, s32 maximum){
if(((int)*offset + typesize) > maximum){ if(((int)*offset + typesize) > maximum){
log_printf("UDPServer::cpyIncrementBufferOffset(line %d): Transfer error. Excepted %04X bytes, but only got %04X\n",__LINE__,(*offset + typesize),maximum); DEBUG_FUNCTION_LINE("Transfer error. Excepted %04X bytes, but only got %04X\n",(*offset + typesize),maximum);
return false; return false;
} }
memcpy(target,(void*)((u32)source+(*offset)),typesize); memcpy(target,(void*)((u32)source+(*offset)),typesize);
@ -135,19 +135,19 @@ void UDPServer::DoUDPThreadInternal(){
if(!cpyIncrementBufferOffset((void *)&datasize, (void *)buffer,&bufferoffset,sizeof(datasize), n))continue; if(!cpyIncrementBufferOffset((void *)&datasize, (void *)buffer,&bufferoffset,sizeof(datasize), n))continue;
u8 * databuffer = (u8*) malloc(datasize * sizeof(u8)); u8 * databuffer = (u8*) malloc(datasize * sizeof(u8));
if(!databuffer){ if(!databuffer){
log_printf("UDPServer::DoUDPThreadInternal(line %d): Allocating memory failed\n",__LINE__); DEBUG_FUNCTION_LINE("Allocating memory failed\n");
continue; continue;
} }
if(!cpyIncrementBufferOffset((void *)databuffer, (void *)buffer,&bufferoffset,datasize, n))continue; if(!cpyIncrementBufferOffset((void *)databuffer, (void *)buffer,&bufferoffset,datasize, n))continue;
//log_printf("UDPServer::DoUDPThreadInternal(): Got handle: %d slot %04X hid %04X pad %02X datasize %02X\n",handle,deviceSlot,hid,padslot,datasize); //DEBUG_FUNCTION_LINE("UDPServer::DoUDPThreadInternal(): Got handle: %d slot %04X hid %04X pad %02X datasize %02X\n",handle,deviceSlot,hid,padslot,datasize);
user.pad_slot = padslot; user.pad_slot = padslot;
user.slotdata.deviceslot = deviceSlot; user.slotdata.deviceslot = deviceSlot;
user.slotdata.hidmask = hid; user.slotdata.hidmask = hid;
if(gNetworkController[deviceSlot][padslot][0] == 0){ if(gNetworkController[deviceSlot][padslot][0] == 0){
log_printf("UDPServer::DoUDPThreadInternal(line %d): Ehm. Pad is not connected. STOP SENDING DATA ;) \n",__LINE__); DEBUG_FUNCTION_LINE("Ehm. Pad is not connected. STOP SENDING DATA ;) \n");
}else{ }else{
ControllerPatcherHID::externHIDReadCallback(handle,databuffer,datasize,&user); ControllerPatcherHID::externHIDReadCallback(handle,databuffer,datasize,&user);
} }
@ -165,5 +165,5 @@ void UDPServer::DoUDPThreadInternal(){
} }
} }
} }
if(HID_DEBUG){ log_printf("UDPServer::DoUDPThreadInternal(line %d): UDPServer Thread ended\n",__LINE__); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("UDPServer Thread ended\n"); }
} }

View File

@ -60,7 +60,7 @@ void ControllerPatcherHID::myHIDMouseReadCallback(u32 handle, s32 error, unsigne
HID_Mouse_Data * cur_mouse_data = &data_ptr->data_union.mouse.cur_mouse_data; HID_Mouse_Data * cur_mouse_data = &data_ptr->data_union.mouse.cur_mouse_data;
data_ptr->type = DEVICE_TYPE_MOUSE; data_ptr->type = DEVICE_TYPE_MOUSE;
//log_printf("%02X %02X %02X %02X %02X bytes_transfered: %d\n",buf[0],buf[1],buf[2],buf[3],buf[4],bytes_transfered); //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 if(buf[0] == 2 && bytes_transfered > 3){ // using the other mouse mode
buf +=1; buf +=1;
@ -89,7 +89,7 @@ void ControllerPatcherHID::myHIDMouseReadCallback(u32 handle, s32 error, unsigne
cur_mouse_data->valuedChanged = 1; cur_mouse_data->valuedChanged = 1;
//log_printf("%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); //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); HIDRead(handle, usr->buf, bytes_transfered, myHIDMouseReadCallback, usr);
} }
@ -114,15 +114,15 @@ void ControllerPatcherHID::myHIDReadCallback(u32 handle, s32 error, unsigned cha
s32 ControllerPatcherHID::AttachDetachCallback(HIDClient *p_client, HIDDevice *p_device, u32 attach){ s32 ControllerPatcherHID::AttachDetachCallback(HIDClient *p_client, HIDDevice *p_device, u32 attach){
if(attach){ if(attach){
log_printf("ControllerPatcherHID::AttachDetachCallback(line %d): vid %04x pid %04x connected\n",__LINE__, SWAP16(p_device->vid),SWAP16(p_device->pid)); DEBUG_FUNCTION_LINE("vid %04x pid %04x connected\n", SWAP16(p_device->vid),SWAP16(p_device->pid));
if(HID_DEBUG){ log_printf("interface index %02x\n", p_device->interface_index); if(HID_DEBUG){ DEBUG_FUNCTION_LINE("interface index %02x\n", p_device->interface_index);
log_printf("sub class %02x\n", p_device->sub_class); DEBUG_FUNCTION_LINE("sub class %02x\n", p_device->sub_class);
log_printf("protocol %02x\n", p_device->protocol); DEBUG_FUNCTION_LINE("protocol %02x\n", p_device->protocol);
log_printf("max packet in %02x\n", p_device->max_packet_size_rx); DEBUG_FUNCTION_LINE("max packet in %02x\n", p_device->max_packet_size_rx);
log_printf("max packet out %02x\n", p_device->max_packet_size_tx); } DEBUG_FUNCTION_LINE("max packet out %02x\n", p_device->max_packet_size_tx); }
} }
if(!attach){ if(!attach){
log_printf("ControllerPatcherHID::AttachDetachCallback(line %d): vid %04x pid %04x disconnected\n",__LINE__, SWAP16(p_device->vid),SWAP16(p_device->pid)); DEBUG_FUNCTION_LINE("vid %04x pid %04x disconnected\n", SWAP16(p_device->vid),SWAP16(p_device->pid));
} }
DeviceInfo device_info; DeviceInfo device_info;
memset(&device_info,0,sizeof(DeviceInfo)); memset(&device_info,0,sizeof(DeviceInfo));
@ -135,18 +135,18 @@ s32 ControllerPatcherHID::AttachDetachCallback(HIDClient *p_client, HIDDevice *p
if ((p_device->sub_class == 1) && (p_device->protocol == 1)) { //Keyboard if ((p_device->sub_class == 1) && (p_device->protocol == 1)) { //Keyboard
slotdata->hidmask = gHID_LIST_KEYBOARD; slotdata->hidmask = gHID_LIST_KEYBOARD;
slotdata->deviceslot = gHID_SLOT_KEYBOARD; slotdata->deviceslot = gHID_SLOT_KEYBOARD;
//log_printf("Found Keyboard: device: %s slot: %d\n",byte_to_binary(device_info.slotdata.hidmask),device_info.slotdata.deviceslot); //DEBUG_FUNCTION_LINE("Found Keyboard: device: %s slot: %d\n",byte_to_binary(device_info.slotdata.hidmask),device_info.slotdata.deviceslot);
}else if ((p_device->sub_class == 1) && (p_device->protocol == 2)){ // MOUSE }else if ((p_device->sub_class == 1) && (p_device->protocol == 2)){ // MOUSE
slotdata->hidmask = gHID_LIST_MOUSE; slotdata->hidmask = gHID_LIST_MOUSE;
slotdata->deviceslot = gMouseSlot; slotdata->deviceslot = gMouseSlot;
//log_printf("Found Mouse: device: %s slot: %d\n",byte_to_binary(device_info.hid),device_info.slot); //DEBUG_FUNCTION_LINE("Found Mouse: device: %s slot: %d\n",byte_to_binary(device_info.hid),device_info.slot);
}else{ }else{
s32 ret; s32 ret;
if((ret = ControllerPatcherUtils::getDeviceInfoFromVidPid(&device_info)) < 0){ if((ret = ControllerPatcherUtils::getDeviceInfoFromVidPid(&device_info)) < 0){
log_printf("ControllerPatcherHID::AttachDetachCallback(line %d): ControllerPatcherUtils::getDeviceInfoFromVidPid(&device_info) failed %d \n",__LINE__,ret); DEBUG_FUNCTION_LINE("ControllerPatcherUtils::getDeviceInfoFromVidPid(&device_info) failed %d \n",ret);
return HID_DEVICE_DETACH; return HID_DEVICE_DETACH;
}else{ }else{
//log_printf("ControllerPatcherHID::AttachDetachCallback(line %d): ControllerPatcherUtils::getDeviceInfoFromVidPid(&device_info) success %d \n",__LINE__,ret); //DEBUG_FUNCTION_LINE("ControllerPatcherUtils::getDeviceInfoFromVidPid(&device_info) success %d \n",ret);
} }
} }
@ -190,7 +190,7 @@ s32 ControllerPatcherHID::AttachDetachCallback(HIDClient *p_client, HIDDevice *p
} }
if(failed){ if(failed){
log_printf("ControllerPatcherHID::AttachDetachCallback(line %d) error: I can only handle %d devices of the same type. Sorry \n",__LINE__,HID_MAX_PADS_COUNT); DEBUG_FUNCTION_LINE("error: I can only handle %d devices of the same type. Sorry \n",HID_MAX_PADS_COUNT);
if(buf){ if(buf){
free(buf); free(buf);
buf = NULL; buf = NULL;
@ -214,7 +214,7 @@ s32 ControllerPatcherHID::AttachDetachCallback(HIDClient *p_client, HIDDevice *p
memset(&gHID_Devices[slotdata->deviceslot].pad_data[pad_slot+i],0,sizeof(HID_Data)); 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; gHID_Devices[slotdata->deviceslot].pad_data[pad_slot+i].handle = p_device->handle;
//log_printf("ControllerPatcherHID::AttachDetachCallback(line %d): saved handle %d to slot %d and pad %d\n",__LINE__,p_device->handle,slotdata->deviceslot,pad_slot); //DEBUG_FUNCTION_LINE("saved handle %d to slot %d and pad %d\n",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].user_data = usr;
gHID_Devices[slotdata->deviceslot].pad_data[pad_slot+i].slotdata = device_info.slotdata; gHID_Devices[slotdata->deviceslot].pad_data[pad_slot+i].slotdata = device_info.slotdata;
@ -223,7 +223,7 @@ s32 ControllerPatcherHID::AttachDetachCallback(HIDClient *p_client, HIDDevice *p
DCInvalidateRange(&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){ log_printf("ControllerPatcherHID::AttachDetachCallback(line %d): Device successfully attached\n",__LINE__); } if(HID_DEBUG){ DEBUG_FUNCTION_LINE("Device successfully attached\n"); }
if(slotdata->hidmask == gHID_LIST_GC){ // GC PAD if(slotdata->hidmask == gHID_LIST_GC){ // GC PAD
//The GC Adapter has all ports in one device. Set them all. //The GC Adapter has all ports in one device. Set them all.
@ -245,7 +245,7 @@ s32 ControllerPatcherHID::AttachDetachCallback(HIDClient *p_client, HIDDevice *p
s32 read_result = HIDRead(p_device->handle, usr->buf, usr->transfersize, NULL, NULL); s32 read_result = HIDRead(p_device->handle, usr->buf, usr->transfersize, NULL, NULL);
if(read_result == 64){ if(read_result == 64){
if(usr->buf[01] == 0x01){ //We need to do the handshake if(usr->buf[01] == 0x01){ //We need to do the handshake
log_printf("ControllerPatcherHID::AttachDetachCallback(line %d): Switch Pro Controller handshake needed\n",__LINE__); DEBUG_FUNCTION_LINE("Switch Pro Controller handshake needed\n");
/** /**
Thanks to ShinyQuagsire23 for the values (https://github.com/shinyquagsire23/HID-Joy-Con-Whispering) Thanks to ShinyQuagsire23 for the values (https://github.com/shinyquagsire23/HID-Joy-Con-Whispering)
**/ **/
@ -265,7 +265,7 @@ s32 ControllerPatcherHID::AttachDetachCallback(HIDClient *p_client, HIDDevice *p
HIDWrite(p_device->handle, usr->buf, 2, NULL,NULL); HIDWrite(p_device->handle, usr->buf, 2, NULL,NULL);
HIDRead(p_device->handle, usr->buf, usr->transfersize, NULL, NULL); HIDRead(p_device->handle, usr->buf, usr->transfersize, NULL, NULL);
}else{ }else{
log_printf("ControllerPatcherHID::AttachDetachCallback(line %d): Switch Pro Controller handshake already done\n",__LINE__); DEBUG_FUNCTION_LINE("Switch Pro Controller handshake already done\n");
} }
HIDRead(p_device->handle, usr->buf, usr->transfersize, myHIDReadCallback, usr); HIDRead(p_device->handle, usr->buf, usr->transfersize, myHIDReadCallback, usr);
} }
@ -312,7 +312,7 @@ s32 ControllerPatcherHID::AttachDetachCallback(HIDClient *p_client, HIDDevice *p
free(user_data); free(user_data);
user_data = NULL; user_data = NULL;
}else{ }else{
if(founddata){ log_printf("ControllerPatcherHID::AttachDetachCallback(line %d): user_data null. You may have a memory leak.\n",__LINE__); } if(founddata){ DEBUG_FUNCTION_LINE("user_data null. You may have a memory leak.\n"); }
return HID_DEVICE_DETACH; return HID_DEVICE_DETACH;
} }
if(config_controller[slotdata->deviceslot][CONTRPS_CONNECTED_PADS][1] == 0){ if(config_controller[slotdata->deviceslot][CONTRPS_CONNECTED_PADS][1] == 0){
@ -328,12 +328,12 @@ s32 ControllerPatcherHID::AttachDetachCallback(HIDClient *p_client, HIDDevice *p
gHID_Mouse_Mode = HID_MOUSE_MODE_AIM; gHID_Mouse_Mode = HID_MOUSE_MODE_AIM;
} }
}else{ }else{
if(HID_DEBUG){log_printf("ControllerPatcherHID::AttachDetachCallback(line %d): We still have pad for deviceslot %d connected.\n",__LINE__,slotdata->deviceslot); } if(HID_DEBUG){DEBUG_FUNCTION_LINE("We still have pad for deviceslot %d connected.\n",slotdata->deviceslot); }
} }
if(HID_DEBUG){log_printf("ControllerPatcherHID::AttachDetachCallback(line %d): Device successfully detached\n",__LINE__); } if(HID_DEBUG){DEBUG_FUNCTION_LINE("Device successfully detached\n"); }
} }
}else{ }else{
log_printf("ControllerPatcherHID::AttachDetachCallback(line %d): HID-Device currently not supported! You can add support through config files\n",__LINE__); DEBUG_FUNCTION_LINE("HID-Device currently not supported! You can add support through config files\n");
} }
return HID_DEVICE_DETACH; return HID_DEVICE_DETACH;
} }
@ -341,7 +341,7 @@ s32 ControllerPatcherHID::AttachDetachCallback(HIDClient *p_client, HIDDevice *p
void ControllerPatcherHID::HIDReadCallback(u32 handle, unsigned char *buf, u32 bytes_transfered, my_cb_user * usr){ void ControllerPatcherHID::HIDReadCallback(u32 handle, unsigned char *buf, u32 bytes_transfered, my_cb_user * usr){
ControllerPatcherUtils::doSampling(usr->slotdata.deviceslot,usr->pad_slot,false); ControllerPatcherUtils::doSampling(usr->slotdata.deviceslot,usr->pad_slot,false);
//log_printf("my_read_cbInternal: %d %08X %d\n",bytes_transfered,usr->slotdata.hidmask,usr->slotdata.deviceslot); //DEBUG_FUNCTION_LINE("my_read_cbInternal: %d %08X %d\n",bytes_transfered,usr->slotdata.hidmask,usr->slotdata.deviceslot);
if(usr->slotdata.hidmask == gHID_LIST_GC){ if(usr->slotdata.hidmask == gHID_LIST_GC){
HID_Data * data_ptr = NULL; HID_Data * data_ptr = NULL;
@ -355,10 +355,10 @@ void ControllerPatcherHID::HIDReadCallback(u32 handle, unsigned char *buf, u32 b
/* /*
s32 i = 0; s32 i = 0;
log_printf("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("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++;
log_printf("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("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++;
log_printf("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("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++;
log_printf("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]);*/ 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); HIDGCRumble(handle,usr);
}else if(usr->slotdata.hidmask != 0){ }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 //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
@ -562,7 +562,7 @@ std::vector<HID_Data *> ControllerPatcherHID::getHIDDataAll(){
s32 res; s32 res;
HID_Data * new_data = NULL; HID_Data * new_data = NULL;
if((res = ControllerPatcherHID::getHIDData(cur_hidmask,pad,&new_data)) < 0){ // Checks if the pad is invalid. if((res = ControllerPatcherHID::getHIDData(cur_hidmask,pad,&new_data)) < 0){ // Checks if the pad is invalid.
log_printf("ControllerPatcherHID::getHIDDataAll(line %d): error: Error getting the HID data from HID(%s) CHAN(). Error %d\n",__LINE__,CPStringTools::byte_to_binary(cur_hidmask),pad,res); DEBUG_FUNCTION_LINE("error: Error getting the HID data from HID(%s) CHAN(). Error %d\n",CPStringTools::byte_to_binary(cur_hidmask),pad,res);
continue; continue;
} }
if(new_data != NULL) data_list.push_back(new_data); if(new_data != NULL) data_list.push_back(new_data);
@ -638,7 +638,7 @@ void ControllerPatcherHID::HIDRumble(u32 handle,my_cb_user *usr,u32 pad){
} }
usr->forceRumbleInTicks[pad]--; usr->forceRumbleInTicks[pad]--;
if(rumblechanged || usr->forceRumbleInTicks[pad] <= 0){ if(rumblechanged || usr->forceRumbleInTicks[pad] <= 0){
//log_printf("Rumble: %d %d\n",usr->rumblestatus[pad],usr->rumbleForce[pad]); //DEBUG_FUNCTION_LINE("Rumble: %d %d\n",usr->rumblestatus[pad],usr->rumbleForce[pad]);
//Seding to the network client! //Seding to the network client!
char bytes[6]; char bytes[6];