const std = @import("../index.zig"); const cstr = std.cstr; const io = std.io; const os = std.os; const posix = os.posix; const windows = os.windows; const mem = std.mem; const debug = std.debug; const assert = debug.assert; const BufMap = std.BufMap; const Buffer = std.Buffer; const builtin = @import("builtin"); const Os = builtin.Os; const LinkedList = std.LinkedList; const is_windows = builtin.os == Os.windows; pub const ChildProcess = struct { pub pid: if (is_windows) void else i32, pub handle: if (is_windows) windows.HANDLE else void, pub thread_handle: if (is_windows) windows.HANDLE else void, pub allocator: &mem.Allocator, pub stdin: ?os.File, pub stdout: ?os.File, pub stderr: ?os.File, pub term: ?(SpawnError!Term), pub argv: []const []const u8, /// Leave as null to use the current env map using the supplied allocator. pub env_map: ?&const BufMap, pub stdin_behavior: StdIo, pub stdout_behavior: StdIo, pub stderr_behavior: StdIo, /// Set to change the user id when spawning the child process. pub uid: if (is_windows) void else ?u32, /// Set to change the group id when spawning the child process. pub gid: if (is_windows) void else ?u32, /// Set to change the current working directory when spawning the child process. pub cwd: ?[]const u8, err_pipe: if (is_windows) void else [2]i32, llnode: if (is_windows) void else LinkedList(&ChildProcess).Node, pub const SpawnError = error{ ProcessFdQuotaExceeded, Unexpected, NotDir, SystemResources, FileNotFound, NameTooLong, SymLinkLoop, FileSystem, OutOfMemory, AccessDenied, PermissionDenied, InvalidUserId, ResourceLimitReached, InvalidExe, IsDir, FileBusy, }; pub const Term = union(enum) { Exited: i32, Signal: i32, Stopped: i32, Unknown: i32, }; pub const StdIo = enum { Inherit, Ignore, Pipe, Close, }; /// First argument in argv is the executable. /// On success must call deinit. pub fn init(argv: []const []const u8, allocator: &mem.Allocator) !&ChildProcess { const child = try allocator.create(ChildProcess); errdefer allocator.destroy(child); child.* = ChildProcess{ .allocator = allocator, .argv = argv, .pid = undefined, .handle = undefined, .thread_handle = undefined, .err_pipe = undefined, .llnode = undefined, .term = null, .env_map = null, .cwd = null, .uid = if (is_windows) {} else null, .gid = if (is_windows) {} else null, .stdin = null, .stdout = null, .stderr = null, .stdin_behavior = StdIo.Inherit, .stdout_behavior = StdIo.Inherit, .stderr_behavior = StdIo.Inherit, }; return child; } pub fn setUserName(self: &ChildProcess, name: []const u8) !void { const user_info = try os.getUserInfo(name); self.uid = user_info.uid; self.gid = user_info.gid; } /// On success must call `kill` or `wait`. pub fn spawn(self: &ChildProcess) !void { if (is_windows) { return self.spawnWindows(); } else { return self.spawnPosix(); } } pub fn spawnAndWait(self: &ChildProcess) !Term { try self.spawn(); return self.wait(); } /// Forcibly terminates child process and then cleans up all resources. pub fn kill(self: &ChildProcess) !Term { if (is_windows) { return self.killWindows(1); } else { return self.killPosix(); } } pub fn killWindows(self: &ChildProcess, exit_code: windows.UINT) !Term { if (self.term) |term| { self.cleanupStreams(); return term; } if (!windows.TerminateProcess(self.handle, exit_code)) { const err = windows.GetLastError(); return switch (err) { else => os.unexpectedErrorWindows(err), }; } try self.waitUnwrappedWindows(); return ??self.term; } pub fn killPosix(self: &ChildProcess) !Term { if (self.term) |term| { self.cleanupStreams(); return term; } const ret = posix.kill(self.pid, posix.SIGTERM); const err = posix.getErrno(ret); if (err > 0) { return switch (err) { posix.EINVAL => unreachable, posix.EPERM => error.PermissionDenied, posix.ESRCH => error.ProcessNotFound, else => os.unexpectedErrorPosix(err), }; } self.waitUnwrapped(); return ??self.term; } /// Blocks until child process terminates and then cleans up all resources. pub fn wait(self: &ChildProcess) !Term { if (is_windows) { return self.waitWindows(); } else { return self.waitPosix(); } } pub const ExecResult = struct { term: os.ChildProcess.Term, stdout: []u8, stderr: []u8, }; /// Spawns a child process, waits for it, collecting stdout and stderr, and then returns. /// If it succeeds, the caller owns result.stdout and result.stderr memory. pub fn exec(allocator: &mem.Allocator, argv: []const []const u8, cwd: ?[]const u8, env_map: ?&const BufMap, max_output_size: usize) !ExecResult { const child = try ChildProcess.init(argv, allocator); defer child.deinit(); child.stdin_behavior = ChildProcess.StdIo.Ignore; child.stdout_behavior = ChildProcess.StdIo.Pipe; child.stderr_behavior = ChildProcess.StdIo.Pipe; child.cwd = cwd; child.env_map = env_map; try child.spawn(); var stdout = Buffer.initNull(allocator); var stderr = Buffer.initNull(allocator); defer Buffer.deinit(&stdout); defer Buffer.deinit(&stderr); var stdout_file_in_stream = io.FileInStream.init(&??child.stdout); var stderr_file_in_stream = io.FileInStream.init(&??child.stderr); try stdout_file_in_stream.stream.readAllBuffer(&stdout, max_output_size); try stderr_file_in_stream.stream.readAllBuffer(&stderr, max_output_size); return ExecResult{ .term = try child.wait(), .stdout = stdout.toOwnedSlice(), .stderr = stderr.toOwnedSlice(), }; } fn waitWindows(self: &ChildProcess) !Term { if (self.term) |term| { self.cleanupStreams(); return term; } try self.waitUnwrappedWindows(); return ??self.term; } fn waitPosix(self: &ChildProcess) !Term { if (self.term) |term| { self.cleanupStreams(); return term; } self.waitUnwrapped(); return ??self.term; } pub fn deinit(self: &ChildProcess) void { self.allocator.destroy(self); } fn waitUnwrappedWindows(self: &ChildProcess) !void { const result = os.windowsWaitSingle(self.handle, windows.INFINITE); self.term = (SpawnError!Term)(x: { var exit_code: windows.DWORD = undefined; if (windows.GetExitCodeProcess(self.handle, &exit_code) == 0) { break :x Term{ .Unknown = 0 }; } else { break :x Term{ .Exited = @bitCast(i32, exit_code) }; } }); os.close(self.handle); os.close(self.thread_handle); self.cleanupStreams(); return result; } fn waitUnwrapped(self: &ChildProcess) void { var status: i32 = undefined; while (true) { const err = posix.getErrno(posix.waitpid(self.pid, &status, 0)); if (err > 0) { switch (err) { posix.EINTR => continue, else => unreachable, } } self.cleanupStreams(); self.handleWaitResult(status); return; } } fn handleWaitResult(self: &ChildProcess, status: i32) void { self.term = self.cleanupAfterWait(status); } fn cleanupStreams(self: &ChildProcess) void { if (self.stdin) |*stdin| { stdin.close(); self.stdin = null; } if (self.stdout) |*stdout| { stdout.close(); self.stdout = null; } if (self.stderr) |*stderr| { stderr.close(); self.stderr = null; } } fn cleanupAfterWait(self: &ChildProcess, status: i32) !Term { defer { os.close(self.err_pipe[0]); os.close(self.err_pipe[1]); } // Write @maxValue(ErrInt) to the write end of the err_pipe. This is after // waitpid, so this write is guaranteed to be after the child // pid potentially wrote an error. This way we can do a blocking // read on the error pipe and either get @maxValue(ErrInt) (no error) or // an error code. try writeIntFd(self.err_pipe[1], @maxValue(ErrInt)); const err_int = try readIntFd(self.err_pipe[0]); // Here we potentially return the fork child's error // from the parent pid. if (err_int != @maxValue(ErrInt)) { return SpawnError(err_int); } return statusToTerm(status); } fn statusToTerm(status: i32) Term { return if (posix.WIFEXITED(status)) Term{ .Exited = posix.WEXITSTATUS(status) } else if (posix.WIFSIGNALED(status)) Term{ .Signal = posix.WTERMSIG(status) } else if (posix.WIFSTOPPED(status)) Term{ .Stopped = posix.WSTOPSIG(status) } else Term{ .Unknown = status }; } fn spawnPosix(self: &ChildProcess) !void { const stdin_pipe = if (self.stdin_behavior == StdIo.Pipe) try makePipe() else undefined; errdefer if (self.stdin_behavior == StdIo.Pipe) { destroyPipe(stdin_pipe); }; const stdout_pipe = if (self.stdout_behavior == StdIo.Pipe) try makePipe() else undefined; errdefer if (self.stdout_behavior == StdIo.Pipe) { destroyPipe(stdout_pipe); }; const stderr_pipe = if (self.stderr_behavior == StdIo.Pipe) try makePipe() else undefined; errdefer if (self.stderr_behavior == StdIo.Pipe) { destroyPipe(stderr_pipe); }; const any_ignore = (self.stdin_behavior == StdIo.Ignore or self.stdout_behavior == StdIo.Ignore or self.stderr_behavior == StdIo.Ignore); const dev_null_fd = if (any_ignore) blk: { const dev_null_path = "/dev/null"; var fixed_buffer_mem: [dev_null_path.len + 1]u8 = undefined; var fixed_allocator = std.heap.FixedBufferAllocator.init(fixed_buffer_mem[0..]); break :blk try os.posixOpen(&fixed_allocator.allocator, "/dev/null", posix.O_RDWR, 0); } else blk: { break :blk undefined; }; defer { if (any_ignore) os.close(dev_null_fd); } var env_map_owned: BufMap = undefined; var we_own_env_map: bool = undefined; const env_map = if (self.env_map) |env_map| x: { we_own_env_map = false; break :x env_map; } else x: { we_own_env_map = true; env_map_owned = try os.getEnvMap(self.allocator); break :x &env_map_owned; }; defer { if (we_own_env_map) env_map_owned.deinit(); } // This pipe is used to communicate errors between the time of fork // and execve from the child process to the parent process. const err_pipe = try makePipe(); errdefer destroyPipe(err_pipe); const pid_result = posix.fork(); const pid_err = posix.getErrno(pid_result); if (pid_err > 0) { return switch (pid_err) { posix.EAGAIN, posix.ENOMEM, posix.ENOSYS => error.SystemResources, else => os.unexpectedErrorPosix(pid_err), }; } if (pid_result == 0) { // we are the child setUpChildIo(self.stdin_behavior, stdin_pipe[0], posix.STDIN_FILENO, dev_null_fd) catch |err| forkChildErrReport(err_pipe[1], err); setUpChildIo(self.stdout_behavior, stdout_pipe[1], posix.STDOUT_FILENO, dev_null_fd) catch |err| forkChildErrReport(err_pipe[1], err); setUpChildIo(self.stderr_behavior, stderr_pipe[1], posix.STDERR_FILENO, dev_null_fd) catch |err| forkChildErrReport(err_pipe[1], err); if (self.cwd) |cwd| { os.changeCurDir(self.allocator, cwd) catch |err| forkChildErrReport(err_pipe[1], err); } if (self.gid) |gid| { os.posix_setregid(gid, gid) catch |err| forkChildErrReport(err_pipe[1], err); } if (self.uid) |uid| { os.posix_setreuid(uid, uid) catch |err| forkChildErrReport(err_pipe[1], err); } os.posixExecve(self.argv, env_map, self.allocator) catch |err| forkChildErrReport(err_pipe[1], err); } // we are the parent const pid = i32(pid_result); if (self.stdin_behavior == StdIo.Pipe) { self.stdin = os.File.openHandle(stdin_pipe[1]); } else { self.stdin = null; } if (self.stdout_behavior == StdIo.Pipe) { self.stdout = os.File.openHandle(stdout_pipe[0]); } else { self.stdout = null; } if (self.stderr_behavior == StdIo.Pipe) { self.stderr = os.File.openHandle(stderr_pipe[0]); } else { self.stderr = null; } self.pid = pid; self.err_pipe = err_pipe; self.llnode = LinkedList(&ChildProcess).Node.init(self); self.term = null; if (self.stdin_behavior == StdIo.Pipe) { os.close(stdin_pipe[0]); } if (self.stdout_behavior == StdIo.Pipe) { os.close(stdout_pipe[1]); } if (self.stderr_behavior == StdIo.Pipe) { os.close(stderr_pipe[1]); } } fn spawnWindows(self: &ChildProcess) !void { const saAttr = windows.SECURITY_ATTRIBUTES{ .nLength = @sizeOf(windows.SECURITY_ATTRIBUTES), .bInheritHandle = windows.TRUE, .lpSecurityDescriptor = null, }; const any_ignore = (self.stdin_behavior == StdIo.Ignore or self.stdout_behavior == StdIo.Ignore or self.stderr_behavior == StdIo.Ignore); const nul_handle = if (any_ignore) blk: { const nul_file_path = "NUL"; var fixed_buffer_mem: [nul_file_path.len + 1]u8 = undefined; var fixed_allocator = std.heap.FixedBufferAllocator.init(fixed_buffer_mem[0..]); break :blk try os.windowsOpen(&fixed_allocator.allocator, "NUL", windows.GENERIC_READ, windows.FILE_SHARE_READ, windows.OPEN_EXISTING, windows.FILE_ATTRIBUTE_NORMAL); } else blk: { break :blk undefined; }; defer { if (any_ignore) os.close(nul_handle); } if (any_ignore) { try windowsSetHandleInfo(nul_handle, windows.HANDLE_FLAG_INHERIT, 0); } var g_hChildStd_IN_Rd: ?windows.HANDLE = null; var g_hChildStd_IN_Wr: ?windows.HANDLE = null; switch (self.stdin_behavior) { StdIo.Pipe => { try windowsMakePipeIn(&g_hChildStd_IN_Rd, &g_hChildStd_IN_Wr, saAttr); }, StdIo.Ignore => { g_hChildStd_IN_Rd = nul_handle; }, StdIo.Inherit => { g_hChildStd_IN_Rd = windows.GetStdHandle(windows.STD_INPUT_HANDLE); }, StdIo.Close => { g_hChildStd_IN_Rd = null; }, } errdefer if (self.stdin_behavior == StdIo.Pipe) { windowsDestroyPipe(g_hChildStd_IN_Rd, g_hChildStd_IN_Wr); }; var g_hChildStd_OUT_Rd: ?windows.HANDLE = null; var g_hChildStd_OUT_Wr: ?windows.HANDLE = null; switch (self.stdout_behavior) { StdIo.Pipe => { try windowsMakePipeOut(&g_hChildStd_OUT_Rd, &g_hChildStd_OUT_Wr, saAttr); }, StdIo.Ignore => { g_hChildStd_OUT_Wr = nul_handle; }, StdIo.Inherit => { g_hChildStd_OUT_Wr = windows.GetStdHandle(windows.STD_OUTPUT_HANDLE); }, StdIo.Close => { g_hChildStd_OUT_Wr = null; }, } errdefer if (self.stdin_behavior == StdIo.Pipe) { windowsDestroyPipe(g_hChildStd_OUT_Rd, g_hChildStd_OUT_Wr); }; var g_hChildStd_ERR_Rd: ?windows.HANDLE = null; var g_hChildStd_ERR_Wr: ?windows.HANDLE = null; switch (self.stderr_behavior) { StdIo.Pipe => { try windowsMakePipeOut(&g_hChildStd_ERR_Rd, &g_hChildStd_ERR_Wr, saAttr); }, StdIo.Ignore => { g_hChildStd_ERR_Wr = nul_handle; }, StdIo.Inherit => { g_hChildStd_ERR_Wr = windows.GetStdHandle(windows.STD_ERROR_HANDLE); }, StdIo.Close => { g_hChildStd_ERR_Wr = null; }, } errdefer if (self.stdin_behavior == StdIo.Pipe) { windowsDestroyPipe(g_hChildStd_ERR_Rd, g_hChildStd_ERR_Wr); }; const cmd_line = try windowsCreateCommandLine(self.allocator, self.argv); defer self.allocator.free(cmd_line); var siStartInfo = windows.STARTUPINFOA{ .cb = @sizeOf(windows.STARTUPINFOA), .hStdError = g_hChildStd_ERR_Wr, .hStdOutput = g_hChildStd_OUT_Wr, .hStdInput = g_hChildStd_IN_Rd, .dwFlags = windows.STARTF_USESTDHANDLES, .lpReserved = null, .lpDesktop = null, .lpTitle = null, .dwX = 0, .dwY = 0, .dwXSize = 0, .dwYSize = 0, .dwXCountChars = 0, .dwYCountChars = 0, .dwFillAttribute = 0, .wShowWindow = 0, .cbReserved2 = 0, .lpReserved2 = null, }; var piProcInfo: windows.PROCESS_INFORMATION = undefined; const cwd_slice = if (self.cwd) |cwd| try cstr.addNullByte(self.allocator, cwd) else null; defer if (cwd_slice) |cwd| self.allocator.free(cwd); const cwd_ptr = if (cwd_slice) |cwd| cwd.ptr else null; const maybe_envp_buf = if (self.env_map) |env_map| try os.createWindowsEnvBlock(self.allocator, env_map) else null; defer if (maybe_envp_buf) |envp_buf| self.allocator.free(envp_buf); const envp_ptr = if (maybe_envp_buf) |envp_buf| envp_buf.ptr else null; // the cwd set in ChildProcess is in effect when choosing the executable path // to match posix semantics const app_name = x: { if (self.cwd) |cwd| { const resolved = try os.path.resolve(self.allocator, cwd, self.argv[0]); defer self.allocator.free(resolved); break :x try cstr.addNullByte(self.allocator, resolved); } else { break :x try cstr.addNullByte(self.allocator, self.argv[0]); } }; defer self.allocator.free(app_name); windowsCreateProcess(app_name.ptr, cmd_line.ptr, envp_ptr, cwd_ptr, &siStartInfo, &piProcInfo) catch |no_path_err| { if (no_path_err != error.FileNotFound) return no_path_err; const PATH = try os.getEnvVarOwned(self.allocator, "PATH"); defer self.allocator.free(PATH); var it = mem.split(PATH, ";"); while (it.next()) |search_path| { const joined_path = try os.path.join(self.allocator, search_path, app_name); defer self.allocator.free(joined_path); if (windowsCreateProcess(joined_path.ptr, cmd_line.ptr, envp_ptr, cwd_ptr, &siStartInfo, &piProcInfo)) |_| { break; } else |err| if (err == error.FileNotFound) { continue; } else { return err; } } }; if (g_hChildStd_IN_Wr) |h| { self.stdin = os.File.openHandle(h); } else { self.stdin = null; } if (g_hChildStd_OUT_Rd) |h| { self.stdout = os.File.openHandle(h); } else { self.stdout = null; } if (g_hChildStd_ERR_Rd) |h| { self.stderr = os.File.openHandle(h); } else { self.stderr = null; } self.handle = piProcInfo.hProcess; self.thread_handle = piProcInfo.hThread; self.term = null; if (self.stdin_behavior == StdIo.Pipe) { os.close(??g_hChildStd_IN_Rd); } if (self.stderr_behavior == StdIo.Pipe) { os.close(??g_hChildStd_ERR_Wr); } if (self.stdout_behavior == StdIo.Pipe) { os.close(??g_hChildStd_OUT_Wr); } } fn setUpChildIo(stdio: StdIo, pipe_fd: i32, std_fileno: i32, dev_null_fd: i32) !void { switch (stdio) { StdIo.Pipe => try os.posixDup2(pipe_fd, std_fileno), StdIo.Close => os.close(std_fileno), StdIo.Inherit => {}, StdIo.Ignore => try os.posixDup2(dev_null_fd, std_fileno), } } }; fn windowsCreateProcess(app_name: &u8, cmd_line: &u8, envp_ptr: ?&u8, cwd_ptr: ?&u8, lpStartupInfo: &windows.STARTUPINFOA, lpProcessInformation: &windows.PROCESS_INFORMATION) !void { if (windows.CreateProcessA(app_name, cmd_line, null, null, windows.TRUE, 0, @ptrCast(?&c_void, envp_ptr), cwd_ptr, lpStartupInfo, lpProcessInformation) == 0) { const err = windows.GetLastError(); return switch (err) { windows.ERROR.FILE_NOT_FOUND, windows.ERROR.PATH_NOT_FOUND => error.FileNotFound, windows.ERROR.INVALID_PARAMETER => unreachable, windows.ERROR.INVALID_NAME => error.InvalidName, else => os.unexpectedErrorWindows(err), }; } } /// Caller must dealloc. /// Guarantees a null byte at result[result.len]. fn windowsCreateCommandLine(allocator: &mem.Allocator, argv: []const []const u8) ![]u8 { var buf = try Buffer.initSize(allocator, 0); defer buf.deinit(); var buf_stream = &io.BufferOutStream.init(&buf).stream; for (argv) |arg, arg_i| { if (arg_i != 0) try buf.appendByte(' '); if (mem.indexOfAny(u8, arg, " \t\n\"") == null) { try buf.append(arg); continue; } try buf.appendByte('"'); var backslash_count: usize = 0; for (arg) |byte| { switch (byte) { '\\' => backslash_count += 1, '"' => { try buf_stream.writeByteNTimes('\\', backslash_count * 2 + 1); try buf.appendByte('"'); backslash_count = 0; }, else => { try buf_stream.writeByteNTimes('\\', backslash_count); try buf.appendByte(byte); backslash_count = 0; }, } } try buf_stream.writeByteNTimes('\\', backslash_count * 2); try buf.appendByte('"'); } return buf.toOwnedSlice(); } fn windowsDestroyPipe(rd: ?windows.HANDLE, wr: ?windows.HANDLE) void { if (rd) |h| os.close(h); if (wr) |h| os.close(h); } // TODO: workaround for bug where the `const` from `&const` is dropped when the type is // a namespace field lookup const SECURITY_ATTRIBUTES = windows.SECURITY_ATTRIBUTES; fn windowsMakePipe(rd: &windows.HANDLE, wr: &windows.HANDLE, sattr: &const SECURITY_ATTRIBUTES) !void { if (windows.CreatePipe(rd, wr, sattr, 0) == 0) { const err = windows.GetLastError(); return switch (err) { else => os.unexpectedErrorWindows(err), }; } } fn windowsSetHandleInfo(h: windows.HANDLE, mask: windows.DWORD, flags: windows.DWORD) !void { if (windows.SetHandleInformation(h, mask, flags) == 0) { const err = windows.GetLastError(); return switch (err) { else => os.unexpectedErrorWindows(err), }; } } fn windowsMakePipeIn(rd: &?windows.HANDLE, wr: &?windows.HANDLE, sattr: &const SECURITY_ATTRIBUTES) !void { var rd_h: windows.HANDLE = undefined; var wr_h: windows.HANDLE = undefined; try windowsMakePipe(&rd_h, &wr_h, sattr); errdefer windowsDestroyPipe(rd_h, wr_h); try windowsSetHandleInfo(wr_h, windows.HANDLE_FLAG_INHERIT, 0); rd.* = rd_h; wr.* = wr_h; } fn windowsMakePipeOut(rd: &?windows.HANDLE, wr: &?windows.HANDLE, sattr: &const SECURITY_ATTRIBUTES) !void { var rd_h: windows.HANDLE = undefined; var wr_h: windows.HANDLE = undefined; try windowsMakePipe(&rd_h, &wr_h, sattr); errdefer windowsDestroyPipe(rd_h, wr_h); try windowsSetHandleInfo(rd_h, windows.HANDLE_FLAG_INHERIT, 0); rd.* = rd_h; wr.* = wr_h; } fn makePipe() ![2]i32 { var fds: [2]i32 = undefined; const err = posix.getErrno(posix.pipe(&fds)); if (err > 0) { return switch (err) { posix.EMFILE, posix.ENFILE => error.SystemResources, else => os.unexpectedErrorPosix(err), }; } return fds; } fn destroyPipe(pipe: &const [2]i32) void { os.close((pipe.*)[0]); os.close((pipe.*)[1]); } // Child of fork calls this to report an error to the fork parent. // Then the child exits. fn forkChildErrReport(fd: i32, err: ChildProcess.SpawnError) noreturn { _ = writeIntFd(fd, ErrInt(err)); posix.exit(1); } const ErrInt = @IntType(false, @sizeOf(error) * 8); fn writeIntFd(fd: i32, value: ErrInt) !void { var bytes: [@sizeOf(ErrInt)]u8 = undefined; mem.writeInt(bytes[0..], value, builtin.endian); os.posixWrite(fd, bytes[0..]) catch return error.SystemResources; } fn readIntFd(fd: i32) !ErrInt { var bytes: [@sizeOf(ErrInt)]u8 = undefined; os.posixRead(fd, bytes[0..]) catch return error.SystemResources; return mem.readInt(bytes[0..], ErrInt, builtin.endian); }