#include "hooks_patcher_static.h" #include "globals.h" #include "utils/config/ConfigUtils.h" #include #include #include #include #include static uint8_t sVpadPressCooldown = 0xFF; static bool sConfigMenuOpened = false; static bool sWantsToOpenConfigMenu = false; DECL_FUNCTION(void, GX2SwapScanBuffers, void) { real_GX2SwapScanBuffers(); if (sWantsToOpenConfigMenu && !sConfigMenuOpened) { sConfigMenuOpened = true; ConfigUtils::openConfigMenu(); sConfigMenuOpened = false; sWantsToOpenConfigMenu = false; } } DECL_FUNCTION(void, GX2SetTVBuffer, void *buffer, uint32_t buffer_size, int32_t tv_render_mode, GX2SurfaceFormat format, GX2BufferingMode buffering_mode) { gStoredTVBuffer.buffer = buffer; gStoredTVBuffer.buffer_size = buffer_size; gStoredTVBuffer.mode = tv_render_mode; gStoredTVBuffer.surface_format = format; gStoredTVBuffer.buffering_mode = buffering_mode; return real_GX2SetTVBuffer(buffer, buffer_size, tv_render_mode, format, buffering_mode); } DECL_FUNCTION(void, GX2SetDRCBuffer, void *buffer, uint32_t buffer_size, uint32_t drc_mode, GX2SurfaceFormat surface_format, GX2BufferingMode buffering_mode) { gStoredDRCBuffer.buffer = buffer; gStoredDRCBuffer.buffer_size = buffer_size; gStoredDRCBuffer.mode = drc_mode; gStoredDRCBuffer.surface_format = surface_format; gStoredDRCBuffer.buffering_mode = buffering_mode; return real_GX2SetDRCBuffer(buffer, buffer_size, drc_mode, surface_format, buffering_mode); } static uint32_t lastData0 = 0; DECL_FUNCTION(BOOL, OSSendMessage, OSMessageQueue *queue, OSMessage *message, OSMessageFlags flags) { if (sConfigMenuOpened && queue == OSGetSystemMessageQueue()) { if (message != nullptr) { if (message->args[0] == 0xfacebacc) { // Release foreground gConfigMenuShouldClose = true; } } } return real_OSSendMessage(queue, message, flags); } DECL_FUNCTION(uint32_t, OSReceiveMessage, OSMessageQueue *queue, OSMessage *message, uint32_t flags) { const uint32_t res = real_OSReceiveMessage(queue, message, flags); if (queue == OSGetSystemMessageQueue()) { if (message != nullptr && res) { if (lastData0 != message->args[0]) { if (message->args[0] == 0xFACEF000) { CallHook(gLoadedPlugins, WUPS_LOADER_HOOK_ACQUIRED_FOREGROUND); } else if (message->args[0] == 0xD1E0D1E0) { // Implemented via WUMS Hook } } lastData0 = message->args[0]; } } return res; } DECL_FUNCTION(void, OSReleaseForeground) { if (OSGetCoreId() == 1) { CallHook(gLoadedPlugins, WUPS_LOADER_HOOK_RELEASE_FOREGROUND); } real_OSReleaseForeground(); } DECL_FUNCTION(int32_t, VPADRead, int32_t chan, VPADStatus *buffer, uint32_t buffer_size, VPADReadError *error) { if (sConfigMenuOpened) { // Ignore reading vpad input only from other threads if the config menu is opened if (OSGetCurrentThread() != gOnlyAcceptFromThread) { return 0; } } VPADReadError real_error = VPAD_READ_SUCCESS; const int32_t result = real_VPADRead(chan, buffer, buffer_size, &real_error); if (result > 0 && real_error == VPAD_READ_SUCCESS && buffer && ((buffer[0].hold & 0xFFFFF) == (VPAD_BUTTON_L | VPAD_BUTTON_DOWN | VPAD_BUTTON_MINUS)) && sVpadPressCooldown == 0 && !sConfigMenuOpened) { sWantsToOpenConfigMenu = true; sVpadPressCooldown = 0x3C; return 0; } if (error) { *error = real_error; } if (sVpadPressCooldown > 0) { sVpadPressCooldown--; } return result; } DECL_FUNCTION(void, WPADRead, WPADChan chan, WPADStatus *data) { real_WPADRead(chan, data); if (!sConfigMenuOpened && data && data[0].error == 0) { if (const auto extensionType = data[0].extensionType; extensionType != 0xFF) { if (extensionType == WPAD_EXT_CORE || extensionType == WPAD_EXT_NUNCHUK || extensionType == WPAD_EXT_MPLUS || extensionType == WPAD_EXT_MPLUS_NUNCHUK) { if (data->buttons == (WPAD_BUTTON_B | WPAD_BUTTON_DOWN | WPAD_BUTTON_MINUS)) { sWantsToOpenConfigMenu = true; } } else if (extensionType == WPAD_EXT_CLASSIC || extensionType == WPAD_EXT_MPLUS_CLASSIC) { const auto *classic = reinterpret_cast(data); if (classic->buttons == (WPAD_CLASSIC_BUTTON_L | WPAD_CLASSIC_BUTTON_DOWN | WPAD_CLASSIC_BUTTON_MINUS)) { sWantsToOpenConfigMenu = true; } } else if (extensionType == WPAD_EXT_PRO_CONTROLLER) { const auto *pro = reinterpret_cast(data); if (pro->buttons == (WPAD_PRO_TRIGGER_L | WPAD_PRO_BUTTON_DOWN | WPAD_PRO_BUTTON_MINUS)) { sWantsToOpenConfigMenu = true; } } } } } // clang-format off #define KiReport ((void(*)(const char *, ...)) 0xfff0ad0c) // clang-format on #pragma GCC push_options #pragma GCC optimize("O0") DECL_FUNCTION(uint32_t, SC17_FindClosestSymbol, uint32_t addr, uint32_t *outDistance, char *symbolNameBuffer, uint32_t symbolNameBufferLength, char *moduleNameBuffer, uint32_t moduleNameBufferLength) { for (const auto &plugin : gLoadedPlugins) { const auto sectionInfo = plugin.getPluginInformation().getSectionInfo(".text"); if (!sectionInfo) { continue; } if (!sectionInfo->isInSection(addr)) { continue; } strncpy(moduleNameBuffer, plugin.getMetaInformation().getName().c_str(), moduleNameBufferLength - 1); if (const auto functionSymbolData = plugin.getPluginInformation().getNearestFunctionSymbolData(addr)) { strncpy(symbolNameBuffer, functionSymbolData->getName().c_str(), moduleNameBufferLength - 1); if (outDistance) { *outDistance = addr - reinterpret_cast(functionSymbolData->getAddress()); } return 0; } strncpy(symbolNameBuffer, ".text", symbolNameBufferLength); if (outDistance) { *outDistance = addr - sectionInfo->getAddress(); } return 0; } return real_SC17_FindClosestSymbol(addr, outDistance, symbolNameBuffer, symbolNameBufferLength, moduleNameBuffer, moduleNameBufferLength); } DECL_FUNCTION(uint32_t, KiGetAppSymbolName, uint32_t addr, char *buffer, int32_t bufSize) { for (const auto &plugin : gLoadedPlugins) { const auto sectionInfo = plugin.getPluginInformation().getSectionInfo(".text"); if (!sectionInfo) { continue; } if (!sectionInfo->isInSection(addr)) { continue; } const auto pluginNameLen = strlen(plugin.getMetaInformation().getName().c_str()); int32_t spaceLeftInBuffer = bufSize - static_cast(pluginNameLen) - 1; if (spaceLeftInBuffer < 0) { spaceLeftInBuffer = 0; } strncpy(buffer, plugin.getMetaInformation().getName().c_str(), bufSize - 1); if (const auto functionSymbolData = plugin.getPluginInformation().getNearestFunctionSymbolData(addr)) { buffer[pluginNameLen] = '|'; buffer[pluginNameLen + 1] = '\0'; strncpy(buffer + pluginNameLen + 1, functionSymbolData->getName().c_str(), spaceLeftInBuffer - 1); } return 0; } return real_KiGetAppSymbolName(addr, buffer, bufSize); } #pragma GCC pop_options function_replacement_data_t method_hooks_static[] __attribute__((section(".data"))) = { REPLACE_FUNCTION(GX2SwapScanBuffers, LIBRARY_GX2, GX2SwapScanBuffers), REPLACE_FUNCTION(GX2SetTVBuffer, LIBRARY_GX2, GX2SetTVBuffer), REPLACE_FUNCTION(GX2SetDRCBuffer, LIBRARY_GX2, GX2SetDRCBuffer), REPLACE_FUNCTION(OSSendMessage, LIBRARY_COREINIT, OSSendMessage), REPLACE_FUNCTION(OSReceiveMessage, LIBRARY_COREINIT, OSReceiveMessage), REPLACE_FUNCTION(OSReleaseForeground, LIBRARY_COREINIT, OSReleaseForeground), REPLACE_FUNCTION(VPADRead, LIBRARY_VPAD, VPADRead), REPLACE_FUNCTION(WPADRead, LIBRARY_PADSCORE, WPADRead), REPLACE_FUNCTION_VIA_ADDRESS(SC17_FindClosestSymbol, 0xfff10218, 0xfff10218), REPLACE_FUNCTION_VIA_ADDRESS(KiGetAppSymbolName, 0xfff0e3a0, 0xfff0e3a0), }; uint32_t method_hooks_static_size __attribute__((section(".data"))) = sizeof(method_hooks_static) / sizeof(function_replacement_data_t);