#include #include #include #include #include #include #include #include "smartptr.hpp" #include "gecko.h" #include "mem2.hpp" #define EXECUTE_ADDR ((u8 *)0x92000000) #define BOOTER_ADDR ((u8 *)0x93000000) #define ARGS_ADDR ((u8 *)0x93200000) using namespace std; extern const u8 app_booter_bin[]; extern const u32 app_booter_bin_size; extern const u8 stub_bin[]; extern const u32 stub_bin_size; typedef void (*entrypoint) (void); extern "C" { void __exception_closeall(); } u32 buffer_size = 0; static vector Arguments; static u32 stubtitlepositions[8] = { 0x80001bf2, 0x80001bf3, 0x80001c06, 0x80001c07, 0x80001bfa, 0x80001bfb, 0x80001c0a, 0x80001c0b }; bool IsDollZ (u8 *buff) { u8 dollz_stamp[] = {0x3C}; int dollz_offs = 0x100; int ret = memcmp (&buff[dollz_offs], dollz_stamp, sizeof(dollz_stamp)); if (ret == 0) return true; return false; } void AddBootArgument(const char * argv) { string arg(argv); Arguments.push_back(arg); } int LoadHomebrew(const char *filepath) { if(!filepath) return -1; FILE *file = fopen(filepath ,"rb"); if(!file) return -2; fseek(file, 0, SEEK_END); u32 filesize = ftell(file); rewind(file); buffer_size = filesize; fread(EXECUTE_ADDR, 1, buffer_size, file); DCFlushRange(EXECUTE_ADDR, buffer_size); fclose(file); return 1; } static int SetupARGV(struct __argv * args) { if(!args) return -1; bzero(args, sizeof(struct __argv)); args->argvMagic = ARGV_MAGIC; u32 argc = 0; u32 position = 0; u32 stringlength = 1; /** Append Arguments **/ for(u32 i = 0; i < Arguments.size(); i++) stringlength += Arguments[i].size()+1; args->length = stringlength; //! Put the argument into mem2 too, to avoid overwriting it args->commandLine = (char *) ARGS_ADDR + sizeof(struct __argv); /** Append Arguments **/ for(u32 i = 0; i < Arguments.size(); i++) { strcpy(&args->commandLine[position], Arguments[i].c_str()); position += Arguments[i].size() + 1; argc++; } args->argc = argc; args->commandLine[args->length - 1] = '\0'; args->argv = &args->commandLine; args->endARGV = args->argv + 1; Arguments.clear(); return 0; } static void writeStub(u64 chan_title) { u8 i; u32 digit; char title[2][9]; snprintf(title[0], sizeof(title[0]), "%08x", TITLE_UPPER(chan_title)); snprintf(title[1], sizeof(title[1]), "%08x", TITLE_LOWER(chan_title)); /* Clear potential homebrew channel stub */ memset((void*)0x80001800, 0, 0x1800); /* Copy our own stub into memory */ memcpy((void*)0x80001800, stub_bin, stub_bin_size); /* Write in the Title ID we got */ for(i = 0; i < 4; i++) { sscanf(&title[0][i*2], "%02x", &digit); //gprintf("%x\n", digit); *(vu8*)stubtitlepositions[i] = digit; sscanf(&title[1][i*2], "%02x", &digit); //gprintf("%x\n", digit); *(vu8*)stubtitlepositions[i+4] = digit; } DCFlushRange((void*)0x80001800, stub_bin_size); } int BootHomebrew(u64 chan_title) { writeStub(chan_title); struct __argv args; if (!IsDollZ(EXECUTE_ADDR)) SetupARGV(&args); memcpy(BOOTER_ADDR, app_booter_bin, app_booter_bin_size); DCFlushRange(BOOTER_ADDR, app_booter_bin_size); entrypoint entry = (entrypoint)BOOTER_ADDR; memmove(ARGS_ADDR, &args, sizeof(args)); DCFlushRange(ARGS_ADDR, sizeof(args) + args.length); /* Shutdown IOS subsystems */ u32 level = IRQ_Disable(); __IOS_ShutdownSubsystems(); __exception_closeall(); entry(); IRQ_Restore(level); return 0; }