#include "Core.h" #if defined CC_BUILD_SWITCH #include "_PlatformBase.h" #include "Stream.h" #include "ExtMath.h" #include "Funcs.h" #include "Window.h" #include "Utils.h" #include "Errors.h" #include "Options.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "_PlatformConsole.h" const cc_result ReturnCode_FileShareViolation = 1000000000; // not used const cc_result ReturnCode_FileNotFound = ENOENT; const cc_result ReturnCode_SocketInProgess = EINPROGRESS; const cc_result ReturnCode_SocketWouldBlock = EWOULDBLOCK; const cc_result ReturnCode_DirectoryExists = EEXIST; const char* Platform_AppNameSuffix = " Switch"; alignas(16) u8 __nx_exception_stack[0x1000]; u64 __nx_exception_stack_size = sizeof(__nx_exception_stack); void __libnx_exception_handler(ThreadExceptionDump *ctx) { int i; FILE *f = fopen("sdmc:/exception_dump", "w"); if(f==NULL)return; fprintf(f, "error_desc: 0x%x\n", ctx->error_desc);//You can also parse this with ThreadExceptionDesc. //This assumes AArch64, however you can also use threadExceptionIsAArch64(). for(i=0; i<29; i++)fprintf(f, "[X%d]: 0x%lx\n", i, ctx->cpu_gprs[i].x); fprintf(f, "fp: 0x%lx\n", ctx->fp.x); fprintf(f, "lr: 0x%lx\n", ctx->lr.x); fprintf(f, "sp: 0x%lx\n", ctx->sp.x); fprintf(f, "pc: 0x%lx\n", ctx->pc.x); //You could print fpu_gprs if you want. fprintf(f, "pstate: 0x%x\n", ctx->pstate); fprintf(f, "afsr0: 0x%x\n", ctx->afsr0); fprintf(f, "afsr1: 0x%x\n", ctx->afsr1); fprintf(f, "esr: 0x%x\n", ctx->esr); fprintf(f, "far: 0x%lx\n", ctx->far.x); fclose(f); } /*########################################################################################################################* *------------------------------------------------------Logging/Time-------------------------------------------------------* *#########################################################################################################################*/ cc_uint64 Stopwatch_ElapsedMicroseconds(cc_uint64 beg, cc_uint64 end) { if (end < beg) return 0; // See include/switch/arm/counter.h // static inline u64 armTicksToNs(u64 tick) { return (tick * 625) / 12; } return ((end - beg) * 625) / 12000; } cc_uint64 Stopwatch_Measure(void) { return armGetSystemTick(); } void Platform_Log(const char* msg, int len) { svcOutputDebugString(msg, len); } TimeMS DateTime_CurrentUTC(void) { u64 timestamp = 0; timeGetCurrentTime(TimeType_Default, ×tamp); return timestamp + UNIX_EPOCH_SECONDS; } void DateTime_CurrentLocal(struct DateTime* t) { u64 timestamp = 0; TimeCalendarTime calTime = { 0 }; timeGetCurrentTime(TimeType_Default, ×tamp); timeToCalendarTimeWithMyRule(timestamp, &calTime, NULL); t->year = calTime.year; t->month = calTime.month; t->day = calTime.day; t->hour = calTime.hour; t->minute = calTime.minute; t->second = calTime.second; } /*########################################################################################################################* *-----------------------------------------------------Directory/File------------------------------------------------------* *#########################################################################################################################*/ static const cc_string root_path = String_FromConst("sdmc:/switch/ClassiCube/"); static void GetNativePath(char* str, const cc_string* path) { Mem_Copy(str, root_path.buffer, root_path.length); str += root_path.length; String_EncodeUtf8(str, path); } cc_result Directory_Create(const cc_string* path) { char str[NATIVE_STR_LEN]; GetNativePath(str, path); return mkdir(str, 0) == -1 ? errno : 0; } int File_Exists(const cc_string* path) { char str[NATIVE_STR_LEN]; struct stat sb; GetNativePath(str, path); return stat(str, &sb) == 0 && S_ISREG(sb.st_mode); } cc_result Directory_Enum(const cc_string* dirPath, void* obj, Directory_EnumCallback callback) { cc_string path; char pathBuffer[FILENAME_SIZE]; char str[NATIVE_STR_LEN]; struct dirent* entry; int res; GetNativePath(str, dirPath); DIR* dirPtr = opendir(str); if (!dirPtr) return errno; // POSIX docs: "When the end of the directory is encountered, a null pointer is returned and errno is not changed." // errno is sometimes leftover from previous calls, so always reset it before readdir gets called errno = 0; String_InitArray(path, pathBuffer); while ((entry = readdir(dirPtr))) { path.length = 0; String_Format1(&path, "%s/", dirPath); // ignore . and .. entry char* src = entry->d_name; if (src[0] == '.' && src[1] == '\0') continue; if (src[0] == '.' && src[1] == '.' && src[2] == '\0') continue; int len = String_Length(src); String_AppendUtf8(&path, src, len); int is_dir = entry->d_type == DT_DIR; // TODO: fallback to stat when this fails if (is_dir) { res = Directory_Enum(&path, obj, callback); if (res) { closedir(dirPtr); return res; } } else { callback(&path, obj); } errno = 0; } res = errno; // return code from readdir closedir(dirPtr); return res; } static cc_result File_Do(cc_file* file, const cc_string* path, int mode) { char str[NATIVE_STR_LEN]; GetNativePath(str, path); *file = open(str, mode, 0); return *file == -1 ? errno : 0; } cc_result File_Open(cc_file* file, const cc_string* path) { return File_Do(file, path, O_RDONLY); } cc_result File_Create(cc_file* file, const cc_string* path) { return File_Do(file, path, O_RDWR | O_CREAT | O_TRUNC); } cc_result File_OpenOrCreate(cc_file* file, const cc_string* path) { return File_Do(file, path, O_RDWR | O_CREAT); } cc_result File_Read(cc_file file, void* data, cc_uint32 count, cc_uint32* bytesRead) { *bytesRead = read(file, data, count); return *bytesRead == -1 ? errno : 0; } cc_result File_Write(cc_file file, const void* data, cc_uint32 count, cc_uint32* bytesWrote) { *bytesWrote = write(file, data, count); return *bytesWrote == -1 ? errno : 0; } cc_result File_Close(cc_file file) { return close(file) == -1 ? errno : 0; } cc_result File_Seek(cc_file file, int offset, int seekType) { static cc_uint8 modes[3] = { SEEK_SET, SEEK_CUR, SEEK_END }; return lseek(file, offset, modes[seekType]) == -1 ? errno : 0; } cc_result File_Position(cc_file file, cc_uint32* pos) { *pos = lseek(file, 0, SEEK_CUR); return *pos == -1 ? errno : 0; } cc_result File_Length(cc_file file, cc_uint32* len) { struct stat st; if (fstat(file, &st) == -1) { *len = -1; return errno; } *len = st.st_size; return 0; } /*########################################################################################################################* *--------------------------------------------------------Threading--------------------------------------------------------* *#########################################################################################################################*/ void Thread_Sleep(cc_uint32 milliseconds) { cc_uint64 timeout_ns = (cc_uint64)milliseconds * (1000 * 1000); // to nanoseconds svcSleepThread(timeout_ns); } static void ExecSwitchThread(void* param) { ((Thread_StartFunc)param)(); } void Thread_Run(void** handle, Thread_StartFunc func, int stackSize, const char* name) { Thread* thread = (Thread*)Mem_Alloc(1, sizeof(Thread), name); *handle = thread; threadCreate(thread, ExecSwitchThread, (void*)func, NULL, stackSize, 0x2C, -2); threadStart(thread); } void Thread_Detach(void* handle) { // threadClose frees up resources, **including the stack of the thread** // Which obviously completely breaks the thread - so instead just accept // that there will be a small memory leak when non-joined threads exit } void Thread_Join(void* handle) { Thread* thread = (Thread*)handle; threadWaitForExit(thread); threadClose(thread); Mem_Free(thread); } void* Mutex_Create(const char* name) { Mutex* mutex = (Mutex*)Mem_Alloc(1, sizeof(Mutex), "mutex"); mutexInit(mutex); return mutex; } void Mutex_Free(void* handle) { Mem_Free(handle); } void Mutex_Lock(void* handle) { mutexLock((Mutex*)handle); } void Mutex_Unlock(void* handle) { mutexUnlock((Mutex*)handle); } struct WaitData { CondVar cond; Mutex mutex; int signalled; // For when Waitable_Signal is called before Waitable_Wait }; void* Waitable_Create(const char* name) { struct WaitData* ptr = (struct WaitData*)Mem_Alloc(1, sizeof(struct WaitData), "waitable"); mutexInit(&ptr->mutex); condvarInit(&ptr->cond); ptr->signalled = false; return ptr; } void Waitable_Free(void* handle) { struct WaitData* ptr = (struct WaitData*)handle; Mem_Free(ptr); } void Waitable_Signal(void* handle) { struct WaitData* ptr = (struct WaitData*)handle; Mutex_Lock(&ptr->mutex); condvarWakeOne(&ptr->cond); Mutex_Unlock(&ptr->mutex); ptr->signalled = true; } void Waitable_Wait(void* handle) { struct WaitData* ptr = (struct WaitData*)handle; Mutex_Lock(&ptr->mutex); if (!ptr->signalled) { condvarWait(&ptr->cond, &ptr->mutex); } ptr->signalled = false; Mutex_Unlock(&ptr->mutex); } void Waitable_WaitFor(void* handle, cc_uint32 milliseconds) { struct WaitData* ptr = (struct WaitData*)handle; cc_uint64 timeout_ns = (cc_uint64)milliseconds * (1000 * 1000); // to nanoseconds Mutex_Lock(&ptr->mutex); if (!ptr->signalled) { condvarWaitTimeout(&ptr->cond, &ptr->mutex, timeout_ns); } ptr->signalled = false; Mutex_Unlock(&ptr->mutex); } /* void* Waitable_Create(const char* name) { LEvent* ptr = (LEvent*)Mem_Alloc(1, sizeof(LEvent), "waitable"); leventInit(ptr, false, true); return ptr; } void Waitable_Free(void* handle) { LEvent* ptr = (LEvent*)handle; leventClear(ptr); Mem_Free(ptr); } void Waitable_Signal(void* handle) { //leventSignal((LEvent*)handle); } void Waitable_Wait(void* handle) { leventWait((LEvent*)handle, UINT64_MAX); } void Waitable_WaitFor(void* handle, cc_uint32 milliseconds) { cc_uint64 timeout_ns = milliseconds * (1000 * 1000); // to nanoseconds leventWait((LEvent*)handle, timeout_ns); } */ /*########################################################################################################################* *---------------------------------------------------------Socket----------------------------------------------------------* *#########################################################################################################################*/ union SocketAddress { struct sockaddr raw; struct sockaddr_in v4; struct sockaddr_in6 v6; struct sockaddr_storage total; }; static cc_result ParseHost(const char* host, int port, cc_sockaddr* addrs, int* numValidAddrs) { char portRaw[32]; cc_string portStr; struct addrinfo hints = { 0 }; struct addrinfo* result; struct addrinfo* cur; int res, i = 0; hints.ai_socktype = SOCK_STREAM; hints.ai_protocol = IPPROTO_TCP; String_InitArray(portStr, portRaw); String_AppendInt(&portStr, port); portRaw[portStr.length] = '\0'; res = getaddrinfo(host, portRaw, &hints, &result); if (res == EAI_AGAIN) return SOCK_ERR_UNKNOWN_HOST; if (res) return res; /* Prefer IPv4 addresses first */ for (cur = result; cur && i < SOCKET_MAX_ADDRS; cur = cur->ai_next) { if (cur->ai_family != AF_INET) continue; SocketAddr_Set(&addrs[i], cur->ai_addr, cur->ai_addrlen); i++; } for (cur = result; cur && i < SOCKET_MAX_ADDRS; cur = cur->ai_next) { if (cur->ai_family == AF_INET) continue; SocketAddr_Set(&addrs[i], cur->ai_addr, cur->ai_addrlen); i++; } freeaddrinfo(result); *numValidAddrs = i; return i == 0 ? ERR_INVALID_ARGUMENT : 0; } cc_result Socket_ParseAddress(const cc_string* address, int port, cc_sockaddr* addrs, int* numValidAddrs) { union SocketAddress* addr = (union SocketAddress*)addrs[0].data; char str[NATIVE_STR_LEN]; String_EncodeUtf8(str, address); *numValidAddrs = 0; if (inet_pton(AF_INET, str, &addr->v4.sin_addr) > 0) { addr->v4.sin_family = AF_INET; addr->v4.sin_port = htons(port); addrs[0].size = sizeof(addr->v4); *numValidAddrs = 1; return 0; } if (inet_pton(AF_INET6, str, &addr->v6.sin6_addr) > 0) { addr->v6.sin6_family = AF_INET6; addr->v6.sin6_port = htons(port); addrs[0].size = sizeof(addr->v6); *numValidAddrs = 1; return 0; } return ParseHost(str, port, addrs, numValidAddrs); } cc_result Socket_Connect(cc_socket* s, cc_sockaddr* addr, cc_bool nonblocking) { struct sockaddr* raw = (struct sockaddr*)addr->data; cc_result res; *s = socket(raw->sa_family, SOCK_STREAM, IPPROTO_TCP); if (*s == -1) return errno; if (nonblocking) { fcntl(*s, F_SETFL, O_NONBLOCK); } res = connect(*s, raw, addr->size); return res == -1 ? errno : 0; } cc_result Socket_Read(cc_socket s, cc_uint8* data, cc_uint32 count, cc_uint32* modified) { int recvCount = recv(s, data, count, 0); if (recvCount != -1) { *modified = recvCount; return 0; } *modified = 0; return errno; } cc_result Socket_Write(cc_socket s, const cc_uint8* data, cc_uint32 count, cc_uint32* modified) { int sentCount = send(s, data, count, 0); if (sentCount != -1) { *modified = sentCount; return 0; } *modified = 0; return errno; } void Socket_Close(cc_socket s) { shutdown(s, SHUT_RDWR); close(s); } static cc_result Socket_Poll(cc_socket s, int mode, cc_bool* success) { struct pollfd pfd; int flags; pfd.fd = s; pfd.events = mode == SOCKET_POLL_READ ? POLLIN : POLLOUT; if (poll(&pfd, 1, 0) == -1) { *success = false; return errno; } /* to match select, closed socket still counts as readable */ flags = mode == SOCKET_POLL_READ ? (POLLIN | POLLHUP) : POLLOUT; *success = (pfd.revents & flags) != 0; return 0; } cc_result Socket_CheckReadable(cc_socket s, cc_bool* readable) { return Socket_Poll(s, SOCKET_POLL_READ, readable); } cc_result Socket_CheckWritable(cc_socket s, cc_bool* writable) { socklen_t resultSize = sizeof(socklen_t); cc_result res = Socket_Poll(s, SOCKET_POLL_WRITE, writable); if (res || *writable) return res; /* https://stackoverflow.com/questions/29479953/so-error-value-after-successful-socket-operation */ getsockopt(s, SOL_SOCKET, SO_ERROR, &res, &resultSize); return res; } /*########################################################################################################################* *--------------------------------------------------------Platform---------------------------------------------------------* *#########################################################################################################################*/ static void CreateRootDirectory(void) { mkdir("sdmc:/switch", 0); int res = mkdir(root_path.buffer, 0); int err = res == -1 ? errno : 0; Platform_Log1("Created root directory: %i", &err); } void Platform_Init(void) { CreateRootDirectory(); socketInitializeDefault(); } void Platform_Free(void) { socketExit(); } cc_bool Platform_DescribeError(cc_result res, cc_string* dst) { char chars[NATIVE_STR_LEN]; int len; /* For unrecognised error codes, strerror_r might return messages */ /* such as 'No error information', which is not very useful */ /* (could check errno here but quicker just to skip entirely) */ if (res >= 1000) return false; len = strerror_r(res, chars, NATIVE_STR_LEN); if (len == -1) return false; len = String_CalcLen(chars, NATIVE_STR_LEN); String_AppendUtf8(dst, chars, len); return true; } cc_bool Process_OpenSupported = false; cc_result Process_StartOpen(const cc_string* args) { return ERR_NOT_SUPPORTED; } /*########################################################################################################################* *-------------------------------------------------------Encryption--------------------------------------------------------* *#########################################################################################################################*/ static cc_result GetMachineID(cc_uint32* key) { return ERR_NOT_SUPPORTED; } #endif