#include "utils.h" #include "fs/CFile.hpp" #include "globals.h" #include "json.hpp" #include "logger.h" #include #include #include #include #include static std::string sPluginPath; static std::string sModulePath; static std::string sEnvironmentPath; std::string getEnvironmentPath() { if (!sEnvironmentPath.empty()) { return sEnvironmentPath; } char environmentPath[0x100] = {}; if (const auto handle = IOS_Open("/dev/mcp", IOS_OPEN_READ); handle >= 0) { int in = 0xF9; // IPC_CUSTOM_COPY_ENVIRONMENT_PATH if (IOS_Ioctl(handle, 100, &in, sizeof(in), environmentPath, sizeof(environmentPath)) != IOS_ERROR_OK) { return "fs:/vol/external01/wiiu/environments/aroma"; } IOS_Close(handle); } sEnvironmentPath = environmentPath; return sEnvironmentPath; } std::string getPluginPath() { if (!sPluginPath.empty()) { return sPluginPath; } sPluginPath = getEnvironmentPath().append("/plugins"); return sPluginPath; } std::string getModulePath() { if (!sModulePath.empty()) { return sModulePath; } sModulePath = getEnvironmentPath().append("/modules"); return sModulePath; } // https://gist.github.com/ccbrown/9722406 void dumpHex(const void *data, const size_t size) { char ascii[17]; size_t i, j; ascii[16] = '\0'; DEBUG_FUNCTION_LINE("0x%08X (0x0000): ", data); for (i = 0; i < size; ++i) { WHBLogWritef("%02X ", ((unsigned char *) data)[i]); if (((unsigned char *) data)[i] >= ' ' && ((unsigned char *) data)[i] <= '~') { ascii[i % 16] = ((unsigned char *) data)[i]; } else { ascii[i % 16] = '.'; } if ((i + 1) % 8 == 0 || i + 1 == size) { WHBLogWritef(" "); if ((i + 1) % 16 == 0) { WHBLogPrintf("| %s ", ascii); if (i + 1 < size) { DEBUG_FUNCTION_LINE("0x%08X (0x%04X); ", ((uint32_t) data) + i + 1, i + 1); } } else if (i + 1 == size) { ascii[(i + 1) % 16] = '\0'; if ((i + 1) % 16 <= 8) { WHBLogWritef(" "); } for (j = (i + 1) % 16; j < 16; ++j) { WHBLogWritef(" "); } WHBLogPrintf("| %s ", ascii); } } } } OSDynLoad_Error CustomDynLoadAlloc(int32_t size, int32_t align, void **outAddr) { if (!outAddr) { return OS_DYNLOAD_INVALID_ALLOCATOR_PTR; } if (align >= 0 && align < 4) { align = 4; } else if (align < 0 && align > -4) { align = -4; } if (*outAddr = memalign(align, size); !*outAddr) { return OS_DYNLOAD_OUT_OF_MEMORY; } // keep track of allocated memory to clean it up if RPLs won't get unloaded properly gAllocatedAddresses.push_back(*outAddr); return OS_DYNLOAD_OK; } void CustomDynLoadFree(void *addr) { free(addr); // Remove from list if (const auto it = std::ranges::find(gAllocatedAddresses, addr); it != gAllocatedAddresses.end()) { gAllocatedAddresses.erase(it); } } bool ParseJsonFromFile(const std::string &filePath, nlohmann::json &outJson) { CFile file(filePath, CFile::ReadOnly); if (!file.isOpen() || file.size() == 0) { return WUPS_STORAGE_ERROR_NOT_FOUND; } auto *json_data = (uint8_t *) memalign(0x40, ROUNDUP(file.size() + 1, 0x40)); if (!json_data) { return WUPS_STORAGE_ERROR_MALLOC_FAILED; } bool result = true; uint64_t readRes = file.read(json_data, file.size()); if (readRes == file.size()) { json_data[file.size()] = '\0'; outJson = nlohmann::json::parse(json_data, nullptr, false); } else { result = false; } file.close(); free(json_data); return result; }