// This file contains thin wrappers around Windows-specific APIs, with these // specific goals in mind: // * Convert "errno"-style error codes into Zig errors. // * When null-terminated or UTF16LE byte buffers are required, provide APIs which accept // slices as well as APIs which accept null-terminated UTF16LE byte buffers. const builtin = @import("builtin"); const std = @import("../std.zig"); const mem = std.mem; const assert = std.debug.assert; const math = std.math; const maxInt = std.math.maxInt; pub const advapi32 = @import("windows/advapi32.zig"); pub const kernel32 = @import("windows/kernel32.zig"); pub const ntdll = @import("windows/ntdll.zig"); pub const ole32 = @import("windows/ole32.zig"); pub const shell32 = @import("windows/shell32.zig"); pub const ws2_32 = @import("windows/ws2_32.zig"); pub usingnamespace @import("windows/bits.zig"); pub const self_process_handle = @intToPtr(HANDLE, maxInt(usize)); pub const CreateFileError = error{ SharingViolation, PathAlreadyExists, /// When any of the path components can not be found or the file component can not /// be found. Some operating systems distinguish between path components not found and /// file components not found, but they are collapsed into FileNotFound to gain /// consistency across operating systems. FileNotFound, AccessDenied, PipeBusy, NameTooLong, /// On Windows, file paths must be valid Unicode. InvalidUtf8, /// On Windows, file paths cannot contain these characters: /// '/', '*', '?', '"', '<', '>', '|' BadPathName, Unexpected, }; pub fn CreateFile( file_path: []const u8, desired_access: DWORD, share_mode: DWORD, lpSecurityAttributes: ?LPSECURITY_ATTRIBUTES, creation_disposition: DWORD, flags_and_attrs: DWORD, hTemplateFile: ?HANDLE, ) CreateFileError!HANDLE { const file_path_w = try sliceToPrefixedFileW(file_path); return CreateFileW(&file_path_w, desired_access, share_mode, lpSecurityAttributes, creation_disposition, flags_and_attrs, hTemplateFile); } pub fn CreateFileW( file_path_w: [*]const u16, desired_access: DWORD, share_mode: DWORD, lpSecurityAttributes: ?LPSECURITY_ATTRIBUTES, creation_disposition: DWORD, flags_and_attrs: DWORD, hTemplateFile: ?HANDLE, ) CreateFileError!HANDLE { const result = kernel32.CreateFileW(file_path_w, desired_access, share_mode, lpSecurityAttributes, creation_disposition, flags_and_attrs, hTemplateFile); if (result == INVALID_HANDLE_VALUE) { switch (kernel32.GetLastError()) { ERROR.SHARING_VIOLATION => return error.SharingViolation, ERROR.ALREADY_EXISTS => return error.PathAlreadyExists, ERROR.FILE_EXISTS => return error.PathAlreadyExists, ERROR.FILE_NOT_FOUND => return error.FileNotFound, ERROR.PATH_NOT_FOUND => return error.FileNotFound, ERROR.ACCESS_DENIED => return error.AccessDenied, ERROR.PIPE_BUSY => return error.PipeBusy, ERROR.FILENAME_EXCED_RANGE => return error.NameTooLong, else => |err| return unexpectedError(err), } } return result; } pub const CreatePipeError = error{Unexpected}; pub fn CreatePipe(rd: *HANDLE, wr: *HANDLE, sattr: *const SECURITY_ATTRIBUTES) CreatePipeError!void { if (kernel32.CreatePipe(rd, wr, sattr, 0) == 0) { switch (kernel32.GetLastError()) { else => |err| return unexpectedError(err), } } } pub const SetHandleInformationError = error{Unexpected}; pub fn SetHandleInformation(h: HANDLE, mask: DWORD, flags: DWORD) SetHandleInformationError!void { if (kernel32.SetHandleInformation(h, mask, flags) == 0) { switch (kernel32.GetLastError()) { else => |err| return unexpectedError(err), } } } pub const RtlGenRandomError = error{Unexpected}; /// Call RtlGenRandom() instead of CryptGetRandom() on Windows /// https://github.com/rust-lang-nursery/rand/issues/111 /// https://bugzilla.mozilla.org/show_bug.cgi?id=504270 pub fn RtlGenRandom(output: []u8) RtlGenRandomError!void { var total_read: usize = 0; var buff: []u8 = output[0..]; const max_read_size: ULONG = maxInt(ULONG); while (total_read < output.len) { const to_read: ULONG = math.min(buff.len, max_read_size); if (advapi32.RtlGenRandom(buff.ptr, to_read) == 0) { return unexpectedError(kernel32.GetLastError()); } total_read += to_read; buff = buff[to_read..]; } } pub const WaitForSingleObjectError = error{ WaitAbandoned, WaitTimeOut, Unexpected, }; pub fn WaitForSingleObject(handle: HANDLE, milliseconds: DWORD) WaitForSingleObjectError!void { switch (kernel32.WaitForSingleObject(handle, milliseconds)) { WAIT_ABANDONED => return error.WaitAbandoned, WAIT_OBJECT_0 => return, WAIT_TIMEOUT => return error.WaitTimeOut, WAIT_FAILED => switch (kernel32.GetLastError()) { else => |err| return unexpectedError(err), }, else => return error.Unexpected, } } pub const FindFirstFileError = error{ FileNotFound, InvalidUtf8, BadPathName, NameTooLong, Unexpected, }; pub fn FindFirstFile(dir_path: []const u8, find_file_data: *WIN32_FIND_DATAW) FindFirstFileError!HANDLE { const dir_path_w = try sliceToPrefixedSuffixedFileW(dir_path, [_]u16{ '\\', '*', 0 }); const handle = kernel32.FindFirstFileW(&dir_path_w, find_file_data); if (handle == INVALID_HANDLE_VALUE) { switch (kernel32.GetLastError()) { ERROR.FILE_NOT_FOUND => return error.FileNotFound, ERROR.PATH_NOT_FOUND => return error.FileNotFound, else => |err| return unexpectedError(err), } } return handle; } pub const FindNextFileError = error{Unexpected}; /// Returns `true` if there was another file, `false` otherwise. pub fn FindNextFile(handle: HANDLE, find_file_data: *WIN32_FIND_DATAW) FindNextFileError!bool { if (kernel32.FindNextFileW(handle, find_file_data) == 0) { switch (kernel32.GetLastError()) { ERROR.NO_MORE_FILES => return false, else => |err| return unexpectedError(err), } } return true; } pub const CreateIoCompletionPortError = error{Unexpected}; pub fn CreateIoCompletionPort( file_handle: HANDLE, existing_completion_port: ?HANDLE, completion_key: usize, concurrent_thread_count: DWORD, ) CreateIoCompletionPortError!HANDLE { const handle = kernel32.CreateIoCompletionPort(file_handle, existing_completion_port, completion_key, concurrent_thread_count) orelse { switch (kernel32.GetLastError()) { ERROR.INVALID_PARAMETER => unreachable, else => |err| return unexpectedError(err), } }; return handle; } pub const PostQueuedCompletionStatusError = error{Unexpected}; pub fn PostQueuedCompletionStatus( completion_port: HANDLE, bytes_transferred_count: DWORD, completion_key: usize, lpOverlapped: ?*OVERLAPPED, ) PostQueuedCompletionStatusError!void { if (kernel32.PostQueuedCompletionStatus(completion_port, bytes_transferred_count, completion_key, lpOverlapped) == 0) { switch (kernel32.GetLastError()) { else => |err| return unexpectedError(err), } } } pub const GetQueuedCompletionStatusResult = enum { Normal, Aborted, Cancelled, EOF, }; pub fn GetQueuedCompletionStatus( completion_port: HANDLE, bytes_transferred_count: *DWORD, lpCompletionKey: *usize, lpOverlapped: *?*OVERLAPPED, dwMilliseconds: DWORD, ) GetQueuedCompletionStatusResult { if (kernel32.GetQueuedCompletionStatus( completion_port, bytes_transferred_count, lpCompletionKey, lpOverlapped, dwMilliseconds, ) == FALSE) { switch (kernel32.GetLastError()) { ERROR.ABANDONED_WAIT_0 => return GetQueuedCompletionStatusResult.Aborted, ERROR.OPERATION_ABORTED => return GetQueuedCompletionStatusResult.Cancelled, ERROR.HANDLE_EOF => return GetQueuedCompletionStatusResult.EOF, else => |err| { if (std.debug.runtime_safety) { std.debug.panic("unexpected error: {}\n", err); } }, } } return GetQueuedCompletionStatusResult.Normal; } pub fn CloseHandle(hObject: HANDLE) void { assert(kernel32.CloseHandle(hObject) != 0); } pub fn FindClose(hFindFile: HANDLE) void { assert(kernel32.FindClose(hFindFile) != 0); } pub const ReadFileError = error{Unexpected}; pub fn ReadFile(in_hFile: HANDLE, buffer: []u8) ReadFileError!usize { var index: usize = 0; while (index < buffer.len) { const want_read_count = @intCast(DWORD, math.min(@as(DWORD, maxInt(DWORD)), buffer.len - index)); var amt_read: DWORD = undefined; if (kernel32.ReadFile(in_hFile, buffer.ptr + index, want_read_count, &amt_read, null) == 0) { switch (kernel32.GetLastError()) { ERROR.OPERATION_ABORTED => continue, ERROR.BROKEN_PIPE => return index, else => |err| return unexpectedError(err), } } if (amt_read == 0) return index; index += amt_read; } return index; } pub const WriteFileError = error{ SystemResources, OperationAborted, BrokenPipe, Unexpected, }; /// This function is for blocking file descriptors only. For non-blocking, see /// `WriteFileAsync`. pub fn WriteFile(handle: HANDLE, bytes: []const u8) WriteFileError!void { var bytes_written: DWORD = undefined; // TODO replace this @intCast with a loop that writes all the bytes if (kernel32.WriteFile(handle, bytes.ptr, @intCast(u32, bytes.len), &bytes_written, null) == 0) { switch (kernel32.GetLastError()) { ERROR.INVALID_USER_BUFFER => return error.SystemResources, ERROR.NOT_ENOUGH_MEMORY => return error.SystemResources, ERROR.OPERATION_ABORTED => return error.OperationAborted, ERROR.NOT_ENOUGH_QUOTA => return error.SystemResources, ERROR.IO_PENDING => unreachable, // this function is for blocking files only ERROR.BROKEN_PIPE => return error.BrokenPipe, else => |err| return unexpectedError(err), } } } pub const GetCurrentDirectoryError = error{ NameTooLong, Unexpected, }; /// The result is a slice of `buffer`, indexed from 0. pub fn GetCurrentDirectory(buffer: []u8) GetCurrentDirectoryError![]u8 { var utf16le_buf: [PATH_MAX_WIDE]u16 = undefined; const result = kernel32.GetCurrentDirectoryW(utf16le_buf.len, &utf16le_buf); if (result == 0) { switch (kernel32.GetLastError()) { else => |err| return unexpectedError(err), } } assert(result <= utf16le_buf.len); const utf16le_slice = utf16le_buf[0..result]; // Trust that Windows gives us valid UTF-16LE. var end_index: usize = 0; var it = std.unicode.Utf16LeIterator.init(utf16le_slice); while (it.nextCodepoint() catch unreachable) |codepoint| { const seq_len = std.unicode.utf8CodepointSequenceLength(codepoint) catch unreachable; if (end_index + seq_len >= buffer.len) return error.NameTooLong; end_index += std.unicode.utf8Encode(codepoint, buffer[end_index..]) catch unreachable; } return buffer[0..end_index]; } pub const CreateSymbolicLinkError = error{Unexpected}; pub fn CreateSymbolicLink( sym_link_path: []const u8, target_path: []const u8, flags: DWORD, ) CreateSymbolicLinkError!void { const sym_link_path_w = try sliceToPrefixedFileW(sym_link_path); const target_path_w = try sliceToPrefixedFileW(target_path); return CreateSymbolicLinkW(&sym_link_path_w, &target_path_w, flags); } pub fn CreateSymbolicLinkW( sym_link_path: [*]const u16, target_path: [*]const u16, flags: DWORD, ) CreateSymbolicLinkError!void { if (kernel32.CreateSymbolicLinkW(sym_link_path, target_path, flags) == 0) { switch (kernel32.GetLastError()) { else => |err| return unexpectedError(err), } } } pub const DeleteFileError = error{ FileNotFound, AccessDenied, NameTooLong, FileBusy, Unexpected, }; pub fn DeleteFile(filename: []const u8) DeleteFileError!void { const filename_w = try sliceToPrefixedFileW(filename); return DeleteFileW(&filename_w); } pub fn DeleteFileW(filename: [*]const u16) DeleteFileError!void { if (kernel32.DeleteFileW(filename) == 0) { switch (kernel32.GetLastError()) { ERROR.FILE_NOT_FOUND => return error.FileNotFound, ERROR.PATH_NOT_FOUND => return error.FileNotFound, ERROR.ACCESS_DENIED => return error.AccessDenied, ERROR.FILENAME_EXCED_RANGE => return error.NameTooLong, ERROR.INVALID_PARAMETER => return error.NameTooLong, ERROR.SHARING_VIOLATION => return error.FileBusy, else => |err| return unexpectedError(err), } } } pub const MoveFileError = error{Unexpected}; pub fn MoveFileEx(old_path: []const u8, new_path: []const u8, flags: DWORD) MoveFileError!void { const old_path_w = try sliceToPrefixedFileW(old_path); const new_path_w = try sliceToPrefixedFileW(new_path); return MoveFileExW(&old_path_w, &new_path_w, flags); } pub fn MoveFileExW(old_path: [*]const u16, new_path: [*]const u16, flags: DWORD) MoveFileError!void { if (kernel32.MoveFileExW(old_path, new_path, flags) == 0) { switch (kernel32.GetLastError()) { else => |err| return unexpectedError(err), } } } pub const CreateDirectoryError = error{ PathAlreadyExists, FileNotFound, Unexpected, }; pub fn CreateDirectory(pathname: []const u8, attrs: ?*SECURITY_ATTRIBUTES) CreateDirectoryError!void { const pathname_w = try sliceToPrefixedFileW(pathname); return CreateDirectoryW(&pathname_w, attrs); } pub fn CreateDirectoryW(pathname: [*]const u16, attrs: ?*SECURITY_ATTRIBUTES) CreateDirectoryError!void { if (kernel32.CreateDirectoryW(pathname, attrs) == 0) { switch (kernel32.GetLastError()) { ERROR.ALREADY_EXISTS => return error.PathAlreadyExists, ERROR.PATH_NOT_FOUND => return error.FileNotFound, else => |err| return unexpectedError(err), } } } pub const RemoveDirectoryError = error{ FileNotFound, DirNotEmpty, Unexpected, }; pub fn RemoveDirectory(dir_path: []const u8) RemoveDirectoryError!void { const dir_path_w = try sliceToPrefixedFileW(dir_path); return RemoveDirectoryW(&dir_path_w); } pub fn RemoveDirectoryW(dir_path_w: [*]const u16) RemoveDirectoryError!void { if (kernel32.RemoveDirectoryW(dir_path_w) == 0) { switch (kernel32.GetLastError()) { ERROR.PATH_NOT_FOUND => return error.FileNotFound, ERROR.DIR_NOT_EMPTY => return error.DirNotEmpty, else => |err| return unexpectedError(err), } } } pub const GetStdHandleError = error{ NoStandardHandleAttached, Unexpected, }; pub fn GetStdHandle(handle_id: DWORD) GetStdHandleError!HANDLE { const handle = kernel32.GetStdHandle(handle_id) orelse return error.NoStandardHandleAttached; if (handle == INVALID_HANDLE_VALUE) { switch (kernel32.GetLastError()) { else => |err| return unexpectedError(err), } } return handle; } pub const SetFilePointerError = error{Unexpected}; /// The SetFilePointerEx function with the `dwMoveMethod` parameter set to `FILE_BEGIN`. pub fn SetFilePointerEx_BEGIN(handle: HANDLE, offset: u64) SetFilePointerError!void { // "The starting point is zero or the beginning of the file. If [FILE_BEGIN] // is specified, then the liDistanceToMove parameter is interpreted as an unsigned value." // https://docs.microsoft.com/en-us/windows/desktop/api/fileapi/nf-fileapi-setfilepointerex const ipos = @bitCast(LARGE_INTEGER, offset); if (kernel32.SetFilePointerEx(handle, ipos, null, FILE_BEGIN) == 0) { switch (kernel32.GetLastError()) { ERROR.INVALID_PARAMETER => unreachable, ERROR.INVALID_HANDLE => unreachable, else => |err| return unexpectedError(err), } } } /// The SetFilePointerEx function with the `dwMoveMethod` parameter set to `FILE_CURRENT`. pub fn SetFilePointerEx_CURRENT(handle: HANDLE, offset: i64) SetFilePointerError!void { if (kernel32.SetFilePointerEx(handle, offset, null, FILE_CURRENT) == 0) { switch (kernel32.GetLastError()) { ERROR.INVALID_PARAMETER => unreachable, ERROR.INVALID_HANDLE => unreachable, else => |err| return unexpectedError(err), } } } /// The SetFilePointerEx function with the `dwMoveMethod` parameter set to `FILE_END`. pub fn SetFilePointerEx_END(handle: HANDLE, offset: i64) SetFilePointerError!void { if (kernel32.SetFilePointerEx(handle, offset, null, FILE_END) == 0) { switch (kernel32.GetLastError()) { ERROR.INVALID_PARAMETER => unreachable, ERROR.INVALID_HANDLE => unreachable, else => |err| return unexpectedError(err), } } } /// The SetFilePointerEx function with parameters to get the current offset. pub fn SetFilePointerEx_CURRENT_get(handle: HANDLE) SetFilePointerError!u64 { var result: LARGE_INTEGER = undefined; if (kernel32.SetFilePointerEx(handle, 0, &result, FILE_CURRENT) == 0) { switch (kernel32.GetLastError()) { ERROR.INVALID_PARAMETER => unreachable, ERROR.INVALID_HANDLE => unreachable, else => |err| return unexpectedError(err), } } // Based on the docs for FILE_BEGIN, it seems that the returned signed integer // should be interpreted as an unsigned integer. return @bitCast(u64, result); } pub const GetFinalPathNameByHandleError = error{ FileNotFound, SystemResources, NameTooLong, Unexpected, }; pub fn GetFinalPathNameByHandleW( hFile: HANDLE, buf_ptr: [*]u16, buf_len: DWORD, flags: DWORD, ) GetFinalPathNameByHandleError!DWORD { const rc = kernel32.GetFinalPathNameByHandleW(hFile, buf_ptr, buf_len, flags); if (rc == 0) { switch (kernel32.GetLastError()) { ERROR.FILE_NOT_FOUND => return error.FileNotFound, ERROR.PATH_NOT_FOUND => return error.FileNotFound, ERROR.NOT_ENOUGH_MEMORY => return error.SystemResources, ERROR.FILENAME_EXCED_RANGE => return error.NameTooLong, ERROR.INVALID_PARAMETER => unreachable, else => |err| return unexpectedError(err), } } return rc; } pub const GetFileSizeError = error{Unexpected}; pub fn GetFileSizeEx(hFile: HANDLE) GetFileSizeError!u64 { var file_size: LARGE_INTEGER = undefined; if (kernel32.GetFileSizeEx(hFile, &file_size) == 0) { switch (kernel32.GetLastError()) { else => |err| return unexpectedError(err), } } return @bitCast(u64, file_size); } pub const GetFileAttributesError = error{ FileNotFound, PermissionDenied, Unexpected, }; pub fn GetFileAttributes(filename: []const u8) GetFileAttributesError!DWORD { const filename_w = try sliceToPrefixedFileW(filename); return GetFileAttributesW(&filename_w); } pub fn GetFileAttributesW(lpFileName: [*]const u16) GetFileAttributesError!DWORD { const rc = kernel32.GetFileAttributesW(lpFileName); if (rc == INVALID_FILE_ATTRIBUTES) { switch (kernel32.GetLastError()) { ERROR.FILE_NOT_FOUND => return error.FileNotFound, ERROR.PATH_NOT_FOUND => return error.FileNotFound, ERROR.ACCESS_DENIED => return error.PermissionDenied, else => |err| return unexpectedError(err), } } return rc; } const GetModuleFileNameError = error{Unexpected}; pub fn GetModuleFileNameW(hModule: ?HMODULE, buf_ptr: [*]u16, buf_len: DWORD) GetModuleFileNameError![]u16 { const rc = kernel32.GetModuleFileNameW(hModule, buf_ptr, buf_len); if (rc == 0) { switch (kernel32.GetLastError()) { else => |err| return unexpectedError(err), } } return buf_ptr[0..rc]; } pub const TerminateProcessError = error{Unexpected}; pub fn TerminateProcess(hProcess: HANDLE, uExitCode: UINT) TerminateProcessError!void { if (kernel32.TerminateProcess(hProcess, uExitCode) == 0) { switch (kernel32.GetLastError()) { else => |err| return unexpectedError(err), } } } pub const VirtualAllocError = error{Unexpected}; pub fn VirtualAlloc(addr: ?LPVOID, size: usize, alloc_type: DWORD, flProtect: DWORD) VirtualAllocError!LPVOID { return kernel32.VirtualAlloc(addr, size, alloc_type, flProtect) orelse { switch (kernel32.GetLastError()) { else => |err| return unexpectedError(err), } }; } pub fn VirtualFree(lpAddress: ?LPVOID, dwSize: usize, dwFreeType: DWORD) void { assert(kernel32.VirtualFree(lpAddress, dwSize, dwFreeType) != 0); } pub const SetConsoleTextAttributeError = error{Unexpected}; pub fn SetConsoleTextAttribute(hConsoleOutput: HANDLE, wAttributes: WORD) SetConsoleTextAttributeError!void { if (kernel32.SetConsoleTextAttribute(hConsoleOutput, wAttributes) == 0) { switch (kernel32.GetLastError()) { else => |err| return unexpectedError(err), } } } pub const GetEnvironmentStringsError = error{OutOfMemory}; pub fn GetEnvironmentStringsW() GetEnvironmentStringsError![*]u16 { return kernel32.GetEnvironmentStringsW() orelse return error.OutOfMemory; } pub fn FreeEnvironmentStringsW(penv: [*]u16) void { assert(kernel32.FreeEnvironmentStringsW(penv) != 0); } pub const GetEnvironmentVariableError = error{ EnvironmentVariableNotFound, Unexpected, }; pub fn GetEnvironmentVariableW(lpName: LPWSTR, lpBuffer: LPWSTR, nSize: DWORD) GetEnvironmentVariableError!DWORD { const rc = kernel32.GetEnvironmentVariableW(lpName, lpBuffer, nSize); if (rc == 0) { switch (kernel32.GetLastError()) { ERROR.ENVVAR_NOT_FOUND => return error.EnvironmentVariableNotFound, else => |err| return unexpectedError(err), } } return rc; } pub const CreateProcessError = error{ FileNotFound, AccessDenied, InvalidName, Unexpected, }; pub fn CreateProcessW( lpApplicationName: ?LPWSTR, lpCommandLine: LPWSTR, lpProcessAttributes: ?*SECURITY_ATTRIBUTES, lpThreadAttributes: ?*SECURITY_ATTRIBUTES, bInheritHandles: BOOL, dwCreationFlags: DWORD, lpEnvironment: ?*c_void, lpCurrentDirectory: ?LPWSTR, lpStartupInfo: *STARTUPINFOW, lpProcessInformation: *PROCESS_INFORMATION, ) CreateProcessError!void { if (kernel32.CreateProcessW( lpApplicationName, lpCommandLine, lpProcessAttributes, lpThreadAttributes, bInheritHandles, dwCreationFlags, lpEnvironment, lpCurrentDirectory, lpStartupInfo, lpProcessInformation, ) == 0) { switch (kernel32.GetLastError()) { ERROR.FILE_NOT_FOUND => return error.FileNotFound, ERROR.PATH_NOT_FOUND => return error.FileNotFound, ERROR.ACCESS_DENIED => return error.AccessDenied, ERROR.INVALID_PARAMETER => unreachable, ERROR.INVALID_NAME => return error.InvalidName, else => |err| return unexpectedError(err), } } } pub const LoadLibraryError = error{ FileNotFound, Unexpected, }; pub fn LoadLibraryW(lpLibFileName: [*]const u16) LoadLibraryError!HMODULE { return kernel32.LoadLibraryW(lpLibFileName) orelse { switch (kernel32.GetLastError()) { ERROR.FILE_NOT_FOUND => return error.FileNotFound, ERROR.PATH_NOT_FOUND => return error.FileNotFound, ERROR.MOD_NOT_FOUND => return error.FileNotFound, else => |err| return unexpectedError(err), } }; } pub fn FreeLibrary(hModule: HMODULE) void { assert(kernel32.FreeLibrary(hModule) != 0); } pub fn QueryPerformanceFrequency() u64 { // "On systems that run Windows XP or later, the function will always succeed" // https://docs.microsoft.com/en-us/windows/desktop/api/profileapi/nf-profileapi-queryperformancefrequency var result: LARGE_INTEGER = undefined; assert(kernel32.QueryPerformanceFrequency(&result) != 0); // The kernel treats this integer as unsigned. return @bitCast(u64, result); } pub fn QueryPerformanceCounter() u64 { // "On systems that run Windows XP or later, the function will always succeed" // https://docs.microsoft.com/en-us/windows/desktop/api/profileapi/nf-profileapi-queryperformancecounter var result: LARGE_INTEGER = undefined; assert(kernel32.QueryPerformanceCounter(&result) != 0); // The kernel treats this integer as unsigned. return @bitCast(u64, result); } pub fn InitOnceExecuteOnce(InitOnce: *INIT_ONCE, InitFn: INIT_ONCE_FN, Parameter: ?*c_void, Context: ?*c_void) void { assert(kernel32.InitOnceExecuteOnce(InitOnce, InitFn, Parameter, Context) != 0); } pub fn HeapFree(hHeap: HANDLE, dwFlags: DWORD, lpMem: *c_void) void { assert(kernel32.HeapFree(hHeap, dwFlags, lpMem) != 0); } pub fn HeapDestroy(hHeap: HANDLE) void { assert(kernel32.HeapDestroy(hHeap) != 0); } pub const GetFileInformationByHandleError = error{Unexpected}; pub fn GetFileInformationByHandle( hFile: HANDLE, ) GetFileInformationByHandleError!BY_HANDLE_FILE_INFORMATION { var info: BY_HANDLE_FILE_INFORMATION = undefined; const rc = ntdll.GetFileInformationByHandle(hFile, &info); if (rc == 0) { switch (kernel32.GetLastError()) { else => |err| return unexpectedError(err), } } return info; } pub const SetFileTimeError = error{Unexpected}; pub fn SetFileTime( hFile: HANDLE, lpCreationTime: ?*const FILETIME, lpLastAccessTime: ?*const FILETIME, lpLastWriteTime: ?*const FILETIME, ) SetFileTimeError!void { const rc = kernel32.SetFileTime(hFile, lpCreationTime, lpLastAccessTime, lpLastWriteTime); if (rc == 0) { switch (kernel32.GetLastError()) { else => |err| return unexpectedError(err), } } } pub fn peb() *PEB { switch (builtin.arch) { .i386 => { return asm ( \\ mov %%fs:0x18, %[ptr] \\ mov %%ds:0x30(%[ptr]), %[ptr] : [ptr] "=r" (-> *PEB) ); }, .x86_64 => { return asm ( \\ mov %%gs:0x60, %[ptr] : [ptr] "=r" (-> *PEB) ); }, else => @compileError("unsupported architecture"), } } /// A file time is a 64-bit value that represents the number of 100-nanosecond /// intervals that have elapsed since 12:00 A.M. January 1, 1601 Coordinated /// Universal Time (UTC). /// This function returns the number of nanoseconds since the canonical epoch, /// which is the POSIX one (Jan 01, 1970 AD). pub fn fromSysTime(hns: i64) i64 { const adjusted_epoch = hns + std.time.epoch.windows * (std.time.ns_per_s / 100); return adjusted_epoch * 100; } pub fn toSysTime(ns: i64) i64 { const hns = @divFloor(ns, 100); return hns - std.time.epoch.windows * (std.time.ns_per_s / 100); } pub fn fileTimeToNanoSeconds(ft: FILETIME) i64 { const hns = @bitCast(i64, (@as(u64, ft.dwHighDateTime) << 32) | ft.dwLowDateTime); return fromSysTime(hns); } /// Converts a number of nanoseconds since the POSIX epoch to a Windows FILETIME. pub fn nanoSecondsToFileTime(ns: i64) FILETIME { const adjusted = @bitCast(u64, toSysTime(ns)); return FILETIME{ .dwHighDateTime = @truncate(u32, adjusted >> 32), .dwLowDateTime = @truncate(u32, adjusted), }; } pub fn cStrToPrefixedFileW(s: [*]const u8) ![PATH_MAX_WIDE + 1]u16 { return sliceToPrefixedFileW(mem.toSliceConst(u8, s)); } pub fn sliceToPrefixedFileW(s: []const u8) ![PATH_MAX_WIDE + 1]u16 { return sliceToPrefixedSuffixedFileW(s, [_]u16{0}); } pub fn sliceToPrefixedSuffixedFileW(s: []const u8, comptime suffix: []const u16) ![PATH_MAX_WIDE + suffix.len]u16 { // TODO https://github.com/ziglang/zig/issues/2765 var result: [PATH_MAX_WIDE + suffix.len]u16 = undefined; // > File I/O functions in the Windows API convert "/" to "\" as part of // > converting the name to an NT-style name, except when using the "\\?\" // > prefix as detailed in the following sections. // from https://docs.microsoft.com/en-us/windows/desktop/FileIO/naming-a-file#maximum-path-length-limitation // Because we want the larger maximum path length for absolute paths, we // disallow forward slashes in zig std lib file functions on Windows. for (s) |byte| { switch (byte) { '/', '*', '?', '"', '<', '>', '|' => return error.BadPathName, else => {}, } } const start_index = if (mem.startsWith(u8, s, "\\?") or !std.fs.path.isAbsolute(s)) 0 else blk: { const prefix = [_]u16{ '\\', '?', '?', '\\' }; mem.copy(u16, result[0..], prefix); break :blk prefix.len; }; const end_index = start_index + try std.unicode.utf8ToUtf16Le(result[start_index..], s); assert(end_index <= result.len); if (end_index + suffix.len > result.len) return error.NameTooLong; mem.copy(u16, result[end_index..], suffix); return result; } inline fn MAKELANGID(p: c_ushort, s: c_ushort) LANGID { return (s << 10) | p; } /// Call this when you made a windows DLL call or something that does SetLastError /// and you get an unexpected error. pub fn unexpectedError(err: DWORD) std.os.UnexpectedError { if (std.os.unexpected_error_tracing) { // 614 is the length of the longest windows error desciption var buf_u16: [614]u16 = undefined; var buf_u8: [614]u8 = undefined; var len = kernel32.FormatMessageW(FORMAT_MESSAGE_FROM_SYSTEM | FORMAT_MESSAGE_IGNORE_INSERTS, null, err, MAKELANGID(LANG.NEUTRAL, SUBLANG.DEFAULT), buf_u16[0..].ptr, buf_u16.len / @sizeOf(TCHAR), null); _ = std.unicode.utf16leToUtf8(&buf_u8, buf_u16[0..len]) catch unreachable; std.debug.warn("error.Unexpected: GetLastError({}): {}\n", err, buf_u8[0..len]); std.debug.dumpCurrentStackTrace(null); } return error.Unexpected; } /// Call this when you made a windows NtDll call /// and you get an unexpected status. pub fn unexpectedStatus(status: NTSTATUS) std.os.UnexpectedError { if (std.os.unexpected_error_tracing) { std.debug.warn("error.Unexpected NTSTATUS=0x{x}\n", status); std.debug.dumpCurrentStackTrace(null); } return error.Unexpected; }