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bun.sh/src/sys.zig
Jarred Sumner 4519f97661 Don't call read() with an empty buffer (#7509) 
Co-authored-by: Jarred Sumner <709451+Jarred-Sumner@users.noreply.github.com>
2023-12-07 00:55:34 -08:00

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// This file is entirely based on Zig's std.os
// The differences are in error handling
const std = @import("std");
const os = std.os;
const builtin = @import("builtin");
const Syscall = @This();
const Environment = @import("root").bun.Environment;
const default_allocator = @import("root").bun.default_allocator;
const JSC = @import("root").bun.JSC;
const SystemError = JSC.SystemError;
const bun = @import("root").bun;
const MAX_PATH_BYTES = bun.MAX_PATH_BYTES;
const fd_t = bun.FileDescriptor;
const C = @import("root").bun.C;
const linux = os.linux;
const Maybe = JSC.Maybe;
const kernel32 = bun.windows;
const log = bun.Output.scoped(.SYS, false);
pub const syslog = log;
// On Linux AARCh64, zig is missing stat & lstat syscalls
const use_libc = !(Environment.isLinux and Environment.isX64);
pub const system = if (Environment.isLinux) linux else @import("root").bun.AsyncIO.system;
pub const S = struct {
pub usingnamespace if (Environment.isLinux) linux.S else if (Environment.isPosix) std.os.S else struct {};
};
const sys = std.os.system;
const statSym = if (use_libc)
C.stat
else if (Environment.isLinux)
linux.stat
else
@compileError("STAT");
const fstatSym = if (use_libc)
C.fstat
else if (Environment.isLinux)
linux.fstat
else
@compileError("STAT");
const lstat64 = if (use_libc)
C.lstat
else if (Environment.isLinux)
linux.lstat
else
@compileError("STAT");
const windows = bun.windows;
pub const Tag = enum(u8) {
TODO,
dup,
access,
chmod,
chown,
clonefile,
close,
copy_file_range,
copyfile,
fchmod,
fchown,
fcntl,
fdatasync,
fstat,
fsync,
ftruncate,
futimens,
getdents64,
getdirentries64,
lchmod,
lchown,
link,
lseek,
lstat,
lutimes,
mkdir,
mkdtemp,
fnctl,
mmap,
munmap,
open,
pread,
pwrite,
read,
readlink,
rename,
stat,
symlink,
unlink,
utimes,
write,
getcwd,
chdir,
fcopyfile,
recv,
send,
sendfile,
splice,
rmdir,
kevent,
kqueue,
epoll_ctl,
kill,
waitpid,
posix_spawn,
getaddrinfo,
writev,
pwritev,
readv,
preadv,
NtQueryDirectoryFile,
pub var strings = std.EnumMap(Tag, JSC.C.JSStringRef).initFull(null);
};
const PathString = @import("root").bun.PathString;
const mode_t = os.mode_t;
const open_sym = system.open;
const mem = std.mem;
pub fn getcwd(buf: *[bun.MAX_PATH_BYTES]u8) Maybe([]const u8) {
const Result = Maybe([]const u8);
buf[0] = 0;
const rc = std.c.getcwd(buf, bun.MAX_PATH_BYTES);
return if (rc != null)
Result{ .result = std.mem.sliceTo(rc.?[0..bun.MAX_PATH_BYTES], 0) }
else
Result.errnoSys(0, .getcwd).?;
}
pub fn fchmod(fd_: bun.FileDescriptor, mode: bun.Mode) Maybe(void) {
const fd = bun.fdcast(fd_);
return Maybe(void).errnoSys(C.fchmod(fd, mode), .fchmod) orelse
Maybe(void).success;
}
pub fn chdirOSPath(destination: bun.OSPathSlice) Maybe(void) {
if (comptime Environment.isPosix) {
const rc = sys.chdir(destination);
return Maybe(void).errnoSys(rc, .chdir) orelse Maybe(void).success;
}
if (comptime Environment.isWindows) {
if (kernel32.SetCurrentDirectory(destination) == windows.FALSE) {
log("SetCurrentDirectory({}) = {d}", .{ bun.strings.fmtUTF16(destination), kernel32.GetLastError() });
return Maybe(void).errnoSys(0, .chdir) orelse Maybe(void).success;
}
log("SetCurrentDirectory({}) = {d}", .{ bun.strings.fmtUTF16(destination), 0 });
return Maybe(void).success;
}
@compileError("Not implemented yet");
}
pub fn chdir(destination: anytype) Maybe(void) {
const Type = @TypeOf(destination);
if (comptime Environment.isPosix) {
if (comptime Type == []u8 or Type == []const u8) {
return chdirOSPath(
&(std.os.toPosixPath(destination) catch return .{ .err = .{
.errno = @intFromEnum(bun.C.SystemErrno.EINVAL),
.syscall = .chdir,
} }),
);
}
return chdirOSPath(destination);
}
if (comptime Environment.isWindows) {
if (comptime Type == bun.OSPathSlice or Type == [:0]u16) {
return chdirOSPath(@as(bun.OSPathSlice, destination));
}
if (comptime Type == *[*:0]u16) {
if (kernel32.SetCurrentDirectory(destination) != 0) {
return Maybe(void).errnoSys(0, .chdir) orelse Maybe(void).success;
}
return Maybe(void).success;
}
var wbuf: bun.MAX_WPATH = undefined;
return chdirOSPath(bun.strings.toWDirPath(&wbuf, destination));
}
return Maybe(void).todo;
}
pub fn stat(path: [:0]const u8) Maybe(bun.Stat) {
var stat_ = mem.zeroes(bun.Stat);
const rc = statSym(path, &stat_);
if (comptime Environment.allow_assert)
log("stat({s}) = {d}", .{ bun.asByteSlice(path), rc });
if (Maybe(bun.Stat).errnoSys(rc, .stat)) |err| return err;
return Maybe(bun.Stat){ .result = stat_ };
}
pub fn lstat(path: [:0]const u8) Maybe(bun.Stat) {
var stat_ = mem.zeroes(bun.Stat);
if (Maybe(bun.Stat).errnoSys(lstat64(path, &stat_), .lstat)) |err| return err;
return Maybe(bun.Stat){ .result = stat_ };
}
pub fn fstat(fd: bun.FileDescriptor) Maybe(bun.Stat) {
var stat_ = mem.zeroes(bun.Stat);
const rc = fstatSym(fd, &stat_);
if (comptime Environment.allow_assert)
log("fstat({d}) = {d}", .{ fd, rc });
if (Maybe(bun.Stat).errnoSys(rc, .fstat)) |err| return err;
return Maybe(bun.Stat){ .result = stat_ };
}
pub fn mkdir(file_path: [:0]const u8, flags: bun.Mode) Maybe(void) {
if (comptime Environment.isMac) {
return Maybe(void).errnoSysP(system.mkdir(file_path, flags), .mkdir, file_path) orelse Maybe(void).success;
}
if (comptime Environment.isLinux) {
return Maybe(void).errnoSysP(linux.mkdir(file_path, flags), .mkdir, file_path) orelse Maybe(void).success;
}
var wbuf: bun.MAX_WPATH = undefined;
_ = kernel32.CreateDirectoryW(bun.strings.toWPath(&wbuf, file_path).ptr, null);
return Maybe(void).errnoSysP(0, .mkdir, file_path) orelse Maybe(void).success;
}
pub fn mkdirA(file_path: []const u8, flags: bun.Mode) Maybe(void) {
if (comptime Environment.isMac) {
return Maybe(void).errnoSysP(system.mkdir(&(std.os.toPosixPath(file_path) catch return Maybe(void){
.err = .{
.errno = @intFromEnum(bun.C.E.NOMEM),
.syscall = .open,
},
}), flags), .mkdir, file_path) orelse Maybe(void).success;
}
if (comptime Environment.isLinux) {
return Maybe(void).errnoSysP(linux.mkdir(&(std.os.toPosixPath(file_path) catch return Maybe(void){
.err = .{
.errno = @intFromEnum(bun.C.E.NOMEM),
.syscall = .open,
},
}), flags), .mkdir, file_path) orelse Maybe(void).success;
}
var wbuf: bun.MAX_WPATH = undefined;
_ = kernel32.CreateDirectoryW(bun.strings.toWPath(&wbuf, file_path).ptr, null);
return Maybe(void).errnoSysP(0, .mkdir, file_path) orelse Maybe(void).success;
}
pub fn fcntl(fd_: bun.FileDescriptor, cmd: i32, arg: usize) Maybe(usize) {
const fd = bun.fdcast(fd_);
const result = fcntl_symbol(fd, cmd, arg);
if (Maybe(usize).errnoSys(result, .fcntl)) |err| return err;
return .{ .result = @as(usize, @intCast(result)) };
}
pub fn getErrno(rc: anytype) bun.C.E {
if (comptime Environment.isWindows) {
if (bun.windows.Win32Error.get().toSystemErrno()) |e| {
return e.toE();
}
return bun.C.E.UNKNOWN;
}
if (comptime Environment.isMac) return std.os.errno(rc);
const Type = @TypeOf(rc);
return switch (Type) {
usize => std.os.linux.getErrno(@as(usize, rc)),
comptime_int, i32, c_int, isize => std.os.errno(rc),
else => @compileError("Not implemented yet for type " ++ @typeName(Type)),
};
}
// pub fn openOptionsFromFlagsWindows(flags: u32) windows.OpenFileOptions {
// const w = windows;
// const O = std.os.O;
// var access_mask: w.ULONG = w.READ_CONTROL | w.FILE_WRITE_ATTRIBUTES | w.SYNCHRONIZE;
// if (flags & O.RDWR != 0) {
// access_mask |= w.GENERIC_READ | w.GENERIC_WRITE;
// } else if (flags & O.WRONLY != 0) {
// access_mask |= w.GENERIC_WRITE;
// } else {
// access_mask |= w.GENERIC_READ | w.GENERIC_WRITE;
// }
// const filter: windows.OpenFileOptions.Filter = if (flags & O.DIRECTORY != 0) .dir_only else .file_only;
// const follow_symlinks: bool = flags & O.NOFOLLOW == 0;
// const creation: w.ULONG = blk: {
// if (flags & O.CREAT != 0) {
// if (flags & O.EXCL != 0) {
// break :blk w.FILE_CREATE;
// }
// }
// break :blk w.FILE_OPEN;
// };
// return .{
// .access_mask = access_mask,
// .io_mode = .blocking,
// .creation = creation,
// .filter = filter,
// .follow_symlinks = follow_symlinks,
// };
// }
const O = std.os.O;
const w = std.os.windows;
pub fn openDirAtWindows(
dirFd: bun.FileDescriptor,
path: [:0]const u16,
iterable: bool,
no_follow: bool,
) Maybe(bun.FileDescriptor) {
const base_flags = w.STANDARD_RIGHTS_READ | w.FILE_READ_ATTRIBUTES | w.FILE_READ_EA |
w.SYNCHRONIZE | w.FILE_TRAVERSE;
const flags: u32 = if (iterable) base_flags | w.FILE_LIST_DIRECTORY else base_flags;
const path_len_bytes: u16 = @truncate(path.len * 2);
var nt_name = w.UNICODE_STRING{
.Length = path_len_bytes,
.MaximumLength = path_len_bytes,
.Buffer = @constCast(path.ptr),
};
var attr = w.OBJECT_ATTRIBUTES{
.Length = @sizeOf(w.OBJECT_ATTRIBUTES),
.RootDirectory = if (std.fs.path.isAbsoluteWindowsW(path)) null else bun.fdcast(dirFd),
.Attributes = 0, // Note we do not use OBJ_CASE_INSENSITIVE here.
.ObjectName = &nt_name,
.SecurityDescriptor = null,
.SecurityQualityOfService = null,
};
const open_reparse_point: w.DWORD = if (no_follow) w.FILE_OPEN_REPARSE_POINT else 0x0;
var fd: w.HANDLE = w.INVALID_HANDLE_VALUE;
var io: w.IO_STATUS_BLOCK = undefined;
const rc = w.ntdll.NtCreateFile(
&fd,
flags,
&attr,
&io,
null,
0,
w.FILE_SHARE_READ | w.FILE_SHARE_WRITE,
w.FILE_OPEN,
w.FILE_DIRECTORY_FILE | w.FILE_SYNCHRONOUS_IO_NONALERT | w.FILE_OPEN_FOR_BACKUP_INTENT | open_reparse_point,
null,
0,
);
if (comptime Environment.allow_assert) {
log("NtCreateFile({d}, {}) = {d} (dir)", .{ dirFd, bun.strings.fmtUTF16(path), rc });
}
switch (windows.Win32Error.fromNTStatus(rc)) {
.SUCCESS => {
return JSC.Maybe(bun.FileDescriptor){
.result = bun.toFD(fd),
};
},
else => |code| {
if (code.toSystemErrno()) |sys_err| {
return .{
.err = .{
.errno = @truncate(@intFromEnum(sys_err)),
.syscall = .open,
},
};
}
return .{
.err = .{
.errno = @intFromEnum(bun.C.E.UNKNOWN),
.syscall = .open,
},
};
},
}
}
pub noinline fn openDirAtWindowsA(
dirFd: bun.FileDescriptor,
path: []const u8,
iterable: bool,
no_follow: bool,
) Maybe(bun.FileDescriptor) {
var wbuf: bun.MAX_WPATH = undefined;
return openDirAtWindows(dirFd, bun.strings.toNTDir(&wbuf, path), iterable, no_follow);
}
pub fn openatWindows(dirfD: bun.FileDescriptor, path_: []const u16, flags: bun.Mode) Maybe(bun.FileDescriptor) {
const nonblock = flags & O.NONBLOCK != 0;
var access_mask: w.ULONG = w.READ_CONTROL | w.FILE_WRITE_ATTRIBUTES | w.SYNCHRONIZE;
if (flags & O.RDWR != 0) {
access_mask |= w.GENERIC_READ | w.GENERIC_WRITE;
} else if (flags & O.WRONLY != 0) {
access_mask |= w.GENERIC_WRITE;
} else if (flags & O.APPEND != 0) {
access_mask |= w.FILE_APPEND_DATA;
} else {
access_mask |= w.GENERIC_READ;
}
var result: windows.HANDLE = undefined;
const path = if (bun.strings.hasPrefixComptimeUTF16(path_, ".\\")) path_[2..] else path_;
const path_len_bytes = std.math.cast(u16, path.len * 2) orelse return .{
.err = .{
.errno = @intFromEnum(bun.C.E.NOMEM),
.syscall = .open,
},
};
var nt_name = windows.UNICODE_STRING{
.Length = path_len_bytes,
.MaximumLength = path_len_bytes,
.Buffer = @constCast(path.ptr),
};
var attr = windows.OBJECT_ATTRIBUTES{
.Length = @sizeOf(windows.OBJECT_ATTRIBUTES),
.RootDirectory = if (dirfD == bun.invalid_fd or std.fs.path.isAbsoluteWindowsWTF16(path)) null else bun.fdcast(dirfD),
.Attributes = 0, // Note we do not use OBJ_CASE_INSENSITIVE here.
.ObjectName = &nt_name,
.SecurityDescriptor = null,
.SecurityQualityOfService = null,
};
var io: windows.IO_STATUS_BLOCK = undefined;
const blocking_flag: windows.ULONG = if (!nonblock) windows.FILE_SYNCHRONOUS_IO_NONALERT else 0;
const file_or_dir_flag: windows.ULONG = switch (flags & O.DIRECTORY != 0) {
// .file_only => windows.FILE_NON_DIRECTORY_FILE,
true => windows.FILE_DIRECTORY_FILE,
false => 0,
};
const follow_symlinks = flags & O.NOFOLLOW == 0;
const creation: w.ULONG = blk: {
if (flags & O.CREAT != 0) {
if (flags & O.EXCL != 0) {
break :blk w.FILE_CREATE;
}
break :blk w.FILE_OPEN_IF;
}
break :blk w.FILE_OPEN;
};
const wflags: windows.ULONG = if (follow_symlinks) file_or_dir_flag | blocking_flag else file_or_dir_flag | windows.FILE_OPEN_REPARSE_POINT;
while (true) {
const rc = windows.ntdll.NtCreateFile(
&result,
access_mask,
&attr,
&io,
null,
w.FILE_ATTRIBUTE_NORMAL,
w.FILE_SHARE_WRITE | w.FILE_SHARE_READ | w.FILE_SHARE_DELETE,
creation,
wflags,
null,
0,
);
if (comptime Environment.allow_assert) {
log("NtCreateFile({d}, {}) = {d} (file)", .{ dirfD, bun.strings.fmtUTF16(path), rc });
}
switch (windows.Win32Error.fromNTStatus(rc)) {
.SUCCESS => {
return JSC.Maybe(bun.FileDescriptor){
.result = bun.toFD(result),
};
},
else => |code| {
if (code.toSystemErrno()) |sys_err| {
return .{
.err = .{
.errno = @truncate(@intFromEnum(sys_err)),
.syscall = .open,
},
};
}
return .{
.err = .{
.errno = @intFromEnum(bun.C.E.UNKNOWN),
.syscall = .open,
},
};
},
}
}
}
pub fn openatOSPath(dirfd: bun.FileDescriptor, file_path: bun.OSPathSlice, flags: bun.Mode, perm: bun.Mode) Maybe(bun.FileDescriptor) {
if (comptime Environment.isMac) {
// https://opensource.apple.com/source/xnu/xnu-7195.81.3/libsyscall/wrappers/open-base.c
const rc = bun.AsyncIO.darwin.@"openat$NOCANCEL"(dirfd, file_path.ptr, @as(c_uint, @intCast(flags)), @as(c_int, @intCast(perm)));
if (comptime Environment.allow_assert)
log("openat({d}, {s}) = {d}", .{ dirfd, bun.sliceTo(file_path, 0), rc });
return switch (Syscall.getErrno(rc)) {
.SUCCESS => .{ .result = @as(bun.FileDescriptor, @intCast(rc)) },
else => |err| .{
.err = .{
.errno = @as(Syscall.Error.Int, @truncate(@intFromEnum(err))),
.syscall = .open,
},
},
};
}
if (comptime Environment.isWindows) {
return openatWindows(dirfd, file_path, flags);
}
while (true) {
const rc = Syscall.system.openat(@as(Syscall.system.fd_t, @intCast(dirfd)), file_path, flags, perm);
if (comptime Environment.allow_assert)
log("openat({d}, {s}) = {d}", .{ dirfd, bun.sliceTo(file_path, 0), rc });
return switch (Syscall.getErrno(rc)) {
.SUCCESS => .{ .result = @as(bun.FileDescriptor, @intCast(rc)) },
.INTR => continue,
else => |err| {
return Maybe(std.os.fd_t){
.err = .{
.errno = @as(Syscall.Error.Int, @truncate(@intFromEnum(err))),
.syscall = .open,
},
};
},
};
}
unreachable;
}
pub fn openat(dirfd: bun.FileDescriptor, file_path: [:0]const u8, flags: bun.Mode, perm: bun.Mode) Maybe(bun.FileDescriptor) {
if (comptime Environment.isWindows) {
if (flags & O.DIRECTORY != 0) {
return openDirAtWindowsA(dirfd, file_path, false, flags & O.NOFOLLOW != 0);
}
var wbuf: bun.MAX_WPATH = undefined;
return openatWindows(dirfd, bun.strings.toNTPath(&wbuf, file_path), flags);
}
return openatOSPath(dirfd, file_path, flags, perm);
}
pub fn openatA(dirfd: bun.FileDescriptor, file_path: []const u8, flags: bun.Mode, perm: bun.Mode) Maybe(bun.FileDescriptor) {
if (comptime Environment.isWindows) {
if (flags & O.DIRECTORY != 0) {
return openDirAtWindowsA(dirfd, file_path, false, flags & O.NOFOLLOW != 0);
}
var wbuf: bun.MAX_WPATH = undefined;
return openatWindows(dirfd, bun.strings.toNTPath(&wbuf, file_path), flags);
}
return openatOSPath(
dirfd,
&(std.os.toPosixPath(file_path) catch return Maybe(bun.FileDescriptor){
.err = .{
.errno = @intFromEnum(bun.C.E.NOMEM),
.syscall = .open,
},
}),
flags,
perm,
);
}
pub fn openA(file_path: []const u8, flags: bun.Mode, perm: bun.Mode) Maybe(bun.FileDescriptor) {
// this is what open() does anyway.
return openatA(bun.toFD((std.fs.cwd().fd)), file_path, flags, perm);
}
pub fn open(file_path: [:0]const u8, flags: bun.Mode, perm: bun.Mode) Maybe(bun.FileDescriptor) {
// this is what open() does anyway.
return openat(bun.toFD((std.fs.cwd().fd)), file_path, flags, perm);
}
/// This function will prevent stdout and stderr from being closed.
pub fn close(fd: bun.FileDescriptor) ?Syscall.Error {
if (fd == bun.STDOUT_FD or fd == bun.STDERR_FD) {
log("close({d}) SKIPPED", .{fd});
return null;
}
return closeAllowingStdoutAndStderr(fd);
}
pub fn closeAllowingStdoutAndStderr(fd: bun.FileDescriptor) ?Syscall.Error {
log("close({d})", .{fd});
std.debug.assert(fd != bun.invalid_fd);
if (comptime std.meta.trait.isSignedInt(@TypeOf(fd)))
std.debug.assert(fd > -1);
if (comptime Environment.isMac) {
// This avoids the EINTR problem.
return switch (system.getErrno(system.@"close$NOCANCEL"(fd))) {
.BADF => Syscall.Error{ .errno = @intFromEnum(os.E.BADF), .syscall = .close },
else => null,
};
}
if (comptime Environment.isLinux) {
return switch (linux.getErrno(linux.close(fd))) {
.BADF => Syscall.Error{ .errno = @intFromEnum(os.E.BADF), .syscall = .close },
else => null,
};
}
if (comptime Environment.isWindows) {
std.debug.assert(fd != 0);
if (kernel32.CloseHandle(bun.fdcast(fd)) == 0) {
return Syscall.Error{ .errno = @intFromEnum(os.E.BADF), .syscall = .close };
}
return null;
}
@compileError("Not implemented yet");
}
const max_count = switch (builtin.os.tag) {
.linux => 0x7ffff000,
.macos, .ios, .watchos, .tvos => std.math.maxInt(i32),
else => std.math.maxInt(isize),
};
pub fn write(fd_: bun.FileDescriptor, bytes: []const u8) Maybe(usize) {
const fd = bun.fdcast(fd_);
const adjusted_len = @min(max_count, bytes.len);
if (comptime Environment.isMac) {
const rc = system.@"write$NOCANCEL"(fd, bytes.ptr, adjusted_len);
log("write({d}, {d}) = {d}", .{ fd, adjusted_len, rc });
if (Maybe(usize).errnoSysFd(rc, .write, fd)) |err| {
return err;
}
return Maybe(usize){ .result = @as(usize, @intCast(rc)) };
} else {
while (true) {
const rc = sys.write(fd, bytes.ptr, adjusted_len);
log("write({d}, {d}) = {d}", .{ fd, adjusted_len, rc });
if (Maybe(usize).errnoSysFd(rc, .write, fd)) |err| {
if (err.getErrno() == .INTR) continue;
return err;
}
return Maybe(usize){ .result = @as(usize, @intCast(rc)) };
}
unreachable;
}
}
fn veclen(buffers: anytype) usize {
var len: usize = 0;
for (buffers) |buffer| {
len += buffer.iov_len;
}
return len;
}
pub fn writev(fd_: bun.FileDescriptor, buffers: []std.os.iovec) Maybe(usize) {
const fd = bun.fdcast(fd_);
if (comptime Environment.isMac) {
const rc = writev_sym(fd, @as([*]std.os.iovec_const, @ptrCast(buffers.ptr)), @as(i32, @intCast(buffers.len)));
if (comptime Environment.allow_assert)
log("writev({d}, {d}) = {d}", .{ fd, veclen(buffers), rc });
if (Maybe(usize).errnoSysFd(rc, .writev, fd)) |err| {
return err;
}
return Maybe(usize){ .result = @as(usize, @intCast(rc)) };
} else {
while (true) {
const rc = writev_sym(fd, @as([*]std.os.iovec_const, @ptrCast(buffers.ptr)), buffers.len);
if (comptime Environment.allow_assert)
log("writev({d}, {d}) = {d}", .{ fd, veclen(buffers), rc });
if (Maybe(usize).errnoSysFd(rc, .writev, fd)) |err| {
if (err.getErrno() == .INTR) continue;
return err;
}
return Maybe(usize){ .result = @as(usize, @intCast(rc)) };
}
unreachable;
}
}
pub fn pwritev(fd_: bun.FileDescriptor, buffers: []std.os.iovec, position: isize) Maybe(usize) {
const fd = bun.fdcast(fd_);
if (comptime Environment.isMac) {
const rc = pwritev_sym(fd, @as([*]std.os.iovec_const, @ptrCast(buffers.ptr)), @as(i32, @intCast(buffers.len)), position);
if (comptime Environment.allow_assert)
log("pwritev({d}, {d}) = {d}", .{ fd, veclen(buffers), rc });
if (Maybe(usize).errnoSysFd(rc, .pwritev, fd)) |err| {
return err;
}
return Maybe(usize){ .result = @as(usize, @intCast(rc)) };
} else {
while (true) {
const rc = pwritev_sym(fd, @as([*]std.os.iovec_const, @ptrCast(buffers.ptr)), buffers.len, position);
if (comptime Environment.allow_assert)
log("pwritev({d}, {d}) = {d}", .{ fd, veclen(buffers), rc });
if (Maybe(usize).errnoSysFd(rc, .pwritev, fd)) |err| {
if (err.getErrno() == .INTR) continue;
return err;
}
return Maybe(usize){ .result = @as(usize, @intCast(rc)) };
}
unreachable;
}
}
pub fn readv(fd_: bun.FileDescriptor, buffers: []std.os.iovec) Maybe(usize) {
const fd = bun.fdcast(fd_);
if (comptime Environment.allow_assert) {
if (buffers.len == 0) {
@panic("readv() called with 0 length buffer");
}
}
if (comptime Environment.isMac) {
const rc = readv_sym(fd, buffers.ptr, @as(i32, @intCast(buffers.len)));
if (comptime Environment.allow_assert)
log("readv({d}, {d}) = {d}", .{ fd, veclen(buffers), rc });
if (Maybe(usize).errnoSysFd(rc, .readv, fd)) |err| {
return err;
}
return Maybe(usize){ .result = @as(usize, @intCast(rc)) };
} else {
while (true) {
const rc = readv_sym(fd, buffers.ptr, buffers.len);
if (comptime Environment.allow_assert)
log("readv({d}, {d}) = {d}", .{ fd, veclen(buffers), rc });
if (Maybe(usize).errnoSysFd(rc, .readv, fd)) |err| {
if (err.getErrno() == .INTR) continue;
return err;
}
return Maybe(usize){ .result = @as(usize, @intCast(rc)) };
}
unreachable;
}
}
pub fn preadv(fd_: bun.FileDescriptor, buffers: []std.os.iovec, position: isize) Maybe(usize) {
const fd = bun.fdcast(fd_);
if (comptime Environment.allow_assert) {
if (buffers.len == 0) {
@panic("preadv() called with 0 length buffer");
}
}
if (comptime Environment.isMac) {
const rc = preadv_sym(fd, buffers.ptr, @as(i32, @intCast(buffers.len)), position);
if (comptime Environment.allow_assert)
log("preadv({d}, {d}) = {d}", .{ fd, veclen(buffers), rc });
if (Maybe(usize).errnoSysFd(rc, .preadv, fd)) |err| {
return err;
}
return Maybe(usize){ .result = @as(usize, @intCast(rc)) };
} else {
while (true) {
const rc = preadv_sym(fd, buffers.ptr, buffers.len, position);
if (comptime Environment.allow_assert)
log("preadv({d}, {d}) = {d}", .{ fd, veclen(buffers), rc });
if (Maybe(usize).errnoSysFd(rc, .preadv, fd)) |err| {
if (err.getErrno() == .INTR) continue;
return err;
}
return Maybe(usize){ .result = @as(usize, @intCast(rc)) };
}
unreachable;
}
}
const preadv_sym = if (builtin.os.tag == .linux and builtin.link_libc)
std.os.linux.preadv
else if (builtin.os.tag.isDarwin())
system.@"preadv$NOCANCEL"
else
system.preadv;
const readv_sym = if (builtin.os.tag == .linux and builtin.link_libc)
std.os.linux.readv
else if (builtin.os.tag.isDarwin())
system.@"readv$NOCANCEL"
else
system.readv;
const pwritev_sym = if (builtin.os.tag == .linux and builtin.link_libc)
std.os.linux.pwritev
else if (builtin.os.tag.isDarwin())
system.@"pwritev$NOCANCEL"
else
system.pwritev;
const writev_sym = if (builtin.os.tag == .linux and builtin.link_libc)
std.os.linux.writev
else if (builtin.os.tag.isDarwin())
system.@"writev$NOCANCEL"
else
system.writev;
const pread_sym = if (builtin.os.tag == .linux and builtin.link_libc)
sys.pread64
else if (builtin.os.tag.isDarwin())
system.@"pread$NOCANCEL"
else
system.pread;
const fcntl_symbol = system.fcntl;
pub fn pread(fd_: bun.FileDescriptor, buf: []u8, offset: i64) Maybe(usize) {
const fd = bun.fdcast(fd_);
const adjusted_len = @min(buf.len, max_count);
if (comptime Environment.allow_assert) {
if (adjusted_len == 0) {
@panic("pread() called with 0 length buffer");
}
}
const ioffset = @as(i64, @bitCast(offset)); // the OS treats this as unsigned
while (true) {
const rc = pread_sym(fd, buf.ptr, adjusted_len, ioffset);
if (Maybe(usize).errnoSys(rc, .pread)) |err| {
if (err.getErrno() == .INTR) continue;
return err;
}
return Maybe(usize){ .result = @as(usize, @intCast(rc)) };
}
unreachable;
}
const pwrite_sym = if (builtin.os.tag == .linux and builtin.link_libc)
sys.pwrite64
else
sys.pwrite;
pub fn pwrite(fd_: bun.FileDescriptor, bytes: []const u8, offset: i64) Maybe(usize) {
if (comptime Environment.allow_assert) {
if (bytes.len == 0) {
@panic("pwrite() called with 0 length buffer");
}
}
const fd = bun.fdcast(fd_);
const adjusted_len = @min(bytes.len, max_count);
const ioffset = @as(i64, @bitCast(offset)); // the OS treats this as unsigned
while (true) {
const rc = pwrite_sym(fd, bytes.ptr, adjusted_len, ioffset);
return if (Maybe(usize).errnoSysFd(rc, .pwrite, fd)) |err| {
switch (err.getErrno()) {
.INTR => continue,
else => return err,
}
} else Maybe(usize){ .result = @as(usize, @intCast(rc)) };
}
unreachable;
}
pub fn read(fd_: bun.FileDescriptor, buf: []u8) Maybe(usize) {
if (comptime Environment.allow_assert) {
if (buf.len == 0) {
@panic("read() called with 0 length buffer");
}
}
const fd = bun.fdcast(fd_);
const debug_timer = bun.Output.DebugTimer.start();
const adjusted_len = @min(buf.len, max_count);
if (comptime Environment.isMac) {
const rc = system.@"read$NOCANCEL"(fd, buf.ptr, adjusted_len);
log("read({d}, {d}) = {d} ({any})", .{ fd, adjusted_len, rc, debug_timer });
if (Maybe(usize).errnoSys(rc, .read)) |err| {
return err;
}
return Maybe(usize){ .result = @as(usize, @intCast(rc)) };
} else {
while (true) {
const rc = sys.read(fd, buf.ptr, adjusted_len);
log("read({d}, {d}) = {d} ({any})", .{ fd, adjusted_len, rc, debug_timer });
if (Maybe(usize).errnoSysFd(rc, .read, fd)) |err| {
if (err.getErrno() == .INTR) continue;
return err;
}
return Maybe(usize){ .result = @as(usize, @intCast(rc)) };
}
}
unreachable;
}
pub fn recv(fd_: bun.FileDescriptor, buf: []u8, flag: u32) Maybe(usize) {
const fd = bun.fdcast(fd_);
const adjusted_len = @min(buf.len, max_count);
if (comptime Environment.allow_assert) {
if (adjusted_len == 0) {
@panic("recv() called with 0 length buffer");
}
}
if (comptime Environment.isMac) {
const rc = system.@"recvfrom$NOCANCEL"(fd, buf.ptr, adjusted_len, flag, null, null);
log("recv({d}, {d}, {d}) = {d}", .{ fd, adjusted_len, flag, rc });
if (Maybe(usize).errnoSys(rc, .recv)) |err| {
return err;
}
return Maybe(usize){ .result = @as(usize, @intCast(rc)) };
} else {
while (true) {
const rc = linux.recvfrom(fd, buf.ptr, adjusted_len, flag | os.SOCK.CLOEXEC | linux.MSG.CMSG_CLOEXEC, null, null);
log("recv({d}, {d}, {d}) = {d}", .{ fd, adjusted_len, flag, rc });
if (Maybe(usize).errnoSysFd(rc, .recv, fd)) |err| {
if (err.getErrno() == .INTR) continue;
return err;
}
return Maybe(usize){ .result = @as(usize, @intCast(rc)) };
}
}
unreachable;
}
pub fn send(fd_: bun.FileDescriptor, buf: []const u8, flag: u32) Maybe(usize) {
const fd = bun.fdcast(fd_);
if (comptime Environment.isMac) {
const rc = system.@"sendto$NOCANCEL"(fd, buf.ptr, buf.len, flag, null, 0);
if (Maybe(usize).errnoSys(rc, .send)) |err| {
return err;
}
return Maybe(usize){ .result = @as(usize, @intCast(rc)) };
} else {
while (true) {
const rc = linux.sendto(fd, buf.ptr, buf.len, flag | os.SOCK.CLOEXEC | os.MSG.NOSIGNAL, null, 0);
if (Maybe(usize).errnoSys(rc, .send)) |err| {
if (err.getErrno() == .INTR) continue;
return err;
}
return Maybe(usize){ .result = @as(usize, @intCast(rc)) };
}
}
unreachable;
}
pub fn readlink(in: [:0]const u8, buf: []u8) Maybe(usize) {
while (true) {
const rc = sys.readlink(in, buf.ptr, buf.len);
if (Maybe(usize).errnoSys(rc, .readlink)) |err| {
if (err.getErrno() == .INTR) continue;
return err;
}
return Maybe(usize){ .result = @as(usize, @intCast(rc)) };
}
unreachable;
}
pub fn readlinkat(fd: bun.FileDescriptor, in: [:0]const u8, buf: []u8) Maybe(usize) {
while (true) {
const rc = sys.readlinkat(fd, in, buf.ptr, buf.len);
if (Maybe(usize).errnoSys(rc, .readlink)) |err| {
if (err.getErrno() == .INTR) continue;
return err;
}
return Maybe(usize){ .result = @as(usize, @intCast(rc)) };
}
unreachable;
}
pub fn ftruncate(fd: fd_t, size: isize) Maybe(void) {
if (comptime Environment.isWindows) {
if (kernel32.SetFileValidData(bun.fdcast(fd), size) == 0) {
return Maybe(void).errnoSys(0, .ftruncate) orelse Maybe(void).success;
}
return Maybe(void).success;
}
while (true) {
if (Maybe(void).errnoSys(sys.ftruncate(fd, size), .ftruncate)) |err| {
if (err.getErrno() == .INTR) continue;
return err;
}
return Maybe(void).success;
}
unreachable;
}
pub fn rename(from: [:0]const u8, to: [:0]const u8) Maybe(void) {
while (true) {
if (Maybe(void).errnoSys(sys.rename(from, to), .rename)) |err| {
if (err.getErrno() == .INTR) continue;
return err;
}
return Maybe(void).success;
}
unreachable;
}
pub fn renameat(from_dir: bun.FileDescriptor, from: [:0]const u8, to_dir: bun.FileDescriptor, to: [:0]const u8) Maybe(void) {
while (true) {
if (Maybe(void).errnoSys(sys.renameat(from_dir, from, to_dir, to), .rename)) |err| {
if (err.getErrno() == .INTR) continue;
return err;
}
return Maybe(void).success;
}
unreachable;
}
pub fn chown(path: [:0]const u8, uid: os.uid_t, gid: os.gid_t) Maybe(void) {
while (true) {
if (Maybe(void).errnoSys(C.chown(path, uid, gid), .chown)) |err| {
if (err.getErrno() == .INTR) continue;
return err;
}
return Maybe(void).success;
}
unreachable;
}
pub fn symlink(from: [:0]const u8, to: [:0]const u8) Maybe(void) {
while (true) {
if (Maybe(void).errnoSys(sys.symlink(from, to), .symlink)) |err| {
if (err.getErrno() == .INTR) continue;
return err;
}
return Maybe(void).success;
}
unreachable;
}
pub fn clonefile(from: [:0]const u8, to: [:0]const u8) Maybe(void) {
if (comptime !Environment.isMac) @compileError("macOS only");
while (true) {
if (Maybe(void).errnoSys(C.darwin.clonefile(from, to, 0), .clonefile)) |err| {
if (err.getErrno() == .INTR) continue;
return err;
}
return Maybe(void).success;
}
unreachable;
}
pub fn copyfile(from: [:0]const u8, to: [:0]const u8, flags: c_int) Maybe(void) {
if (comptime !Environment.isMac) @compileError("macOS only");
while (true) {
if (Maybe(void).errnoSys(C.darwin.copyfile(from, to, null, flags), .copyfile)) |err| {
if (err.getErrno() == .INTR) continue;
return err;
}
return Maybe(void).success;
}
unreachable;
}
pub fn fcopyfile(fd_in: std.os.fd_t, fd_out: std.os.fd_t, flags: u32) Maybe(void) {
if (comptime !Environment.isMac) @compileError("macOS only");
while (true) {
if (Maybe(void).errnoSys(system.fcopyfile(fd_in, fd_out, null, flags), .fcopyfile)) |err| {
if (err.getErrno() == .INTR) continue;
return err;
}
return Maybe(void).success;
}
unreachable;
}
pub fn unlink(from: [:0]const u8) Maybe(void) {
while (true) {
if (Maybe(void).errnoSys(sys.unlink(from), .unlink)) |err| {
if (err.getErrno() == .INTR) continue;
return err;
}
return Maybe(void).success;
}
unreachable;
}
pub fn rmdirat(dirfd: bun.FileDescriptor, to: anytype) Maybe(void) {
while (true) {
if (Maybe(void).errnoSys(sys.unlinkat(dirfd, to, 1), .unlink)) |err| {
if (err.getErrno() == .INTR) continue;
return err;
}
return Maybe(void).success;
}
unreachable;
}
pub fn unlinkat(dirfd: bun.FileDescriptor, to: anytype) Maybe(void) {
while (true) {
if (Maybe(void).errnoSys(sys.unlinkat(dirfd, to, 0), .unlink)) |err| {
if (err.getErrno() == .INTR) continue;
return err;
}
return Maybe(void).success;
}
unreachable;
}
pub fn getFdPath(fd_: bun.FileDescriptor, out_buffer: *[MAX_PATH_BYTES]u8) Maybe([]u8) {
const fd = bun.fdcast(fd_);
switch (comptime builtin.os.tag) {
.windows => {
var wide_buf: [windows.PATH_MAX_WIDE]u16 = undefined;
const wide_slice = std.os.windows.GetFinalPathNameByHandle(fd, .{}, wide_buf[0..]) catch {
return Maybe([]u8){ .err = .{ .errno = @intFromEnum(bun.C.SystemErrno.EBADF) } };
};
// Trust that Windows gives us valid UTF-16LE.
return .{ .result = @constCast(bun.strings.fromWPath(out_buffer, wide_slice)) };
},
.macos, .ios, .watchos, .tvos => {
// On macOS, we can use F.GETPATH fcntl command to query the OS for
// the path to the file descriptor.
@memset(out_buffer[0..MAX_PATH_BYTES], 0);
if (Maybe([]u8).errnoSys(system.fcntl(fd, os.F.GETPATH, out_buffer), .fcntl)) |err| {
return err;
}
const len = mem.indexOfScalar(u8, out_buffer[0..], @as(u8, 0)) orelse MAX_PATH_BYTES;
return .{ .result = out_buffer[0..len] };
},
.linux => {
// TODO: alpine linux may not have /proc/self
var procfs_buf: ["/proc/self/fd/-2147483648".len:0]u8 = undefined;
const proc_path = std.fmt.bufPrintZ(procfs_buf[0..], "/proc/self/fd/{d}\x00", .{fd}) catch unreachable;
return switch (readlink(proc_path, out_buffer)) {
.err => |err| return .{ .err = err },
.result => |len| return .{ .result = out_buffer[0..len] },
};
},
// .solaris => {
// var procfs_buf: ["/proc/self/path/-2147483648".len:0]u8 = undefined;
// const proc_path = std.fmt.bufPrintZ(procfs_buf[0..], "/proc/self/path/{d}", .{fd}) catch unreachable;
// const target = readlinkZ(proc_path, out_buffer) catch |err| switch (err) {
// error.UnsupportedReparsePointType => unreachable,
// error.NotLink => unreachable,
// else => |e| return e,
// };
// return target;
// },
else => @compileError("querying for canonical path of a handle is unsupported on this host"),
}
}
/// Use of a mapped region can result in these signals:
/// * SIGSEGV - Attempted write into a region mapped as read-only.
/// * SIGBUS - Attempted access to a portion of the buffer that does not correspond to the file
fn mmap(
ptr: ?[*]align(mem.page_size) u8,
length: usize,
prot: u32,
flags: u32,
fd_: bun.FileDescriptor,
offset: u64,
) Maybe([]align(mem.page_size) u8) {
const fd = bun.fdcast(fd_);
const ioffset = @as(i64, @bitCast(offset)); // the OS treats this as unsigned
const rc = std.c.mmap(ptr, length, prot, flags, fd, ioffset);
const fail = std.c.MAP.FAILED;
if (rc == fail) {
return Maybe([]align(mem.page_size) u8){
.err = .{ .errno = @as(Syscall.Error.Int, @truncate(@intFromEnum(std.c.getErrno(@as(i64, @bitCast(@intFromPtr(fail))))))), .syscall = .mmap },
};
}
return Maybe([]align(mem.page_size) u8){ .result = @as([*]align(mem.page_size) u8, @ptrCast(@alignCast(rc)))[0..length] };
}
pub fn mmapFile(path: [:0]const u8, flags: u32, wanted_size: ?usize, offset: usize) Maybe([]align(mem.page_size) u8) {
const fd = switch (open(path, os.O.RDWR, 0)) {
.result => |fd| fd,
.err => |err| return .{ .err = err },
};
var size = std.math.sub(usize, @as(usize, @intCast(switch (fstat(fd)) {
.result => |result| result.size,
.err => |err| {
_ = close(fd);
return .{ .err = err };
},
})), offset) catch 0;
if (wanted_size) |size_| size = @min(size, size_);
const map = switch (mmap(null, size, os.PROT.READ | os.PROT.WRITE, flags, fd, offset)) {
.result => |map| map,
.err => |err| {
_ = close(fd);
return .{ .err = err };
},
};
if (close(fd)) |err| {
_ = munmap(map);
return .{ .err = err };
}
return .{ .result = map };
}
pub fn munmap(memory: []align(mem.page_size) const u8) Maybe(void) {
if (Maybe(void).errnoSys(system.munmap(memory.ptr, memory.len), .munmap)) |err| {
return err;
} else return Maybe(void).success;
}
pub const Error = struct {
const E = bun.C.E;
const max_errno_value = brk: {
const errno_values = std.enums.values(E);
var err = @intFromEnum(E.SUCCESS);
for (errno_values) |errn| {
err = @max(err, @intFromEnum(errn));
}
break :brk err;
};
pub const Int: type = std.math.IntFittingRange(0, max_errno_value + 5);
errno: Int,
syscall: Syscall.Tag = @as(Syscall.Tag, @enumFromInt(0)),
path: []const u8 = "",
fd: bun.FileDescriptor = bun.invalid_fd,
pub inline fn isRetry(this: *const Error) bool {
return this.getErrno() == .AGAIN;
}
pub fn fromCode(errno: E, syscall: Syscall.Tag) Error {
return .{ .errno = @as(Int, @truncate(@intFromEnum(errno))), .syscall = syscall };
}
pub fn format(self: Error, comptime fmt: []const u8, opts: std.fmt.FormatOptions, writer: anytype) !void {
try self.toSystemError().format(fmt, opts, writer);
}
pub const oom = fromCode(E.NOMEM, .read);
pub const retry = Error{
.errno = if (Environment.isLinux)
@as(Int, @intCast(@intFromEnum(E.AGAIN)))
else if (Environment.isMac)
@as(Int, @intCast(@intFromEnum(E.WOULDBLOCK)))
else
@as(Int, @intCast(@intFromEnum(E.INTR))),
.syscall = .retry,
};
pub inline fn getErrno(this: Error) E {
return @as(E, @enumFromInt(this.errno));
}
pub inline fn withPath(this: Error, path: anytype) Error {
return Error{
.errno = this.errno,
.syscall = this.syscall,
.path = bun.span(path),
};
}
pub inline fn withFd(this: Error, fd: anytype) Error {
return Error{
.errno = this.errno,
.syscall = this.syscall,
.fd = @intCast(fd),
};
}
pub inline fn withPathLike(this: Error, pathlike: anytype) Error {
return switch (pathlike) {
.fd => |fd| this.withFd(fd),
.path => |path| this.withPath(path.slice()),
};
}
pub inline fn withSyscall(this: Error, syscall: Syscall) Error {
return Error{
.errno = this.errno,
.syscall = syscall,
.path = this.path,
};
}
pub const todo_errno = std.math.maxInt(Int) - 1;
pub const todo = Error{ .errno = todo_errno };
pub fn toSystemError(this: Error) SystemError {
var err = SystemError{
.errno = @as(c_int, this.errno) * -1,
.syscall = bun.String.static(@tagName(this.syscall)),
};
// errno label
if (this.errno > 0 and this.errno < C.SystemErrno.max) {
const system_errno = @as(C.SystemErrno, @enumFromInt(this.errno));
err.code = bun.String.static(@tagName(system_errno));
if (C.SystemErrno.labels.get(system_errno)) |label| {
err.message = bun.String.static(label);
}
}
if (this.path.len > 0) {
err.path = bun.String.create(this.path);
}
if (this.fd != bun.invalid_fd) {
if (this.fd <= std.math.maxInt(i32)) {
err.fd = @intCast(this.fd);
}
}
return err;
}
pub fn toJS(this: Error, ctx: JSC.C.JSContextRef) JSC.C.JSObjectRef {
return this.toSystemError().toErrorInstance(ctx.ptr()).asObjectRef();
}
pub fn toJSC(this: Error, ptr: *JSC.JSGlobalObject) JSC.JSValue {
return this.toSystemError().toErrorInstance(ptr);
}
};
pub fn setPipeCapacityOnLinux(fd_: bun.FileDescriptor, capacity: usize) Maybe(usize) {
const fd = bun.fdcast(fd_);
if (comptime !Environment.isLinux) @compileError("Linux-only");
std.debug.assert(capacity > 0);
// In Linux versions before 2.6.11, the capacity of a
// pipe was the same as the system page size (e.g., 4096
// bytes on i386). Since Linux 2.6.11, the pipe
// capacity is 16 pages (i.e., 65,536 bytes in a system
// with a page size of 4096 bytes). Since Linux 2.6.35,
// the default pipe capacity is 16 pages, but the
// capacity can be queried and set using the
// fcntl(2) F_GETPIPE_SZ and F_SETPIPE_SZ operations.
// See fcntl(2) for more information.
//:# define F_SETPIPE_SZ 1031 /* Set pipe page size array.
const F_SETPIPE_SZ = 1031;
const F_GETPIPE_SZ = 1032;
// We don't use glibc here
// It didn't work. Always returned 0.
const pipe_len = std.os.linux.fcntl(fd, F_GETPIPE_SZ, 0);
if (Maybe(usize).errno(pipe_len)) |err| return err;
if (pipe_len == 0) return Maybe(usize){ .result = 0 };
if (pipe_len >= capacity) return Maybe(usize){ .result = pipe_len };
const new_pipe_len = std.os.linux.fcntl(fd, F_SETPIPE_SZ, capacity);
if (Maybe(usize).errno(new_pipe_len)) |err| return err;
return Maybe(usize){ .result = new_pipe_len };
}
pub fn getMaxPipeSizeOnLinux() usize {
return @as(
usize,
@intCast(bun.once(struct {
fn once() c_int {
const strings = bun.strings;
const default_out_size = 512 * 1024;
const pipe_max_size_fd = switch (bun.sys.open("/proc/sys/fs/pipe-max-size", std.os.O.RDONLY, 0)) {
.result => |fd2| fd2,
.err => |err| {
log("Failed to open /proc/sys/fs/pipe-max-size: {d}\n", .{err.errno});
return default_out_size;
},
};
defer _ = bun.sys.close(pipe_max_size_fd);
var max_pipe_size_buf: [128]u8 = undefined;
const max_pipe_size = switch (bun.sys.read(pipe_max_size_fd, max_pipe_size_buf[0..])) {
.result => |bytes_read| std.fmt.parseInt(i64, strings.trim(max_pipe_size_buf[0..bytes_read], "\n"), 10) catch |err| {
log("Failed to parse /proc/sys/fs/pipe-max-size: {any}\n", .{@errorName(err)});
return default_out_size;
},
.err => |err| {
log("Failed to read /proc/sys/fs/pipe-max-size: {d}\n", .{err.errno});
return default_out_size;
},
};
// we set the absolute max to 8 MB because honestly that's a huge pipe
// my current linux machine only goes up to 1 MB, so that's very unlikely to be hit
return @min(@as(c_int, @truncate(max_pipe_size -| 32)), 1024 * 1024 * 8);
}
}.once, c_int)),
);
}
pub fn existsOSPath(path: bun.OSPathSlice) bool {
if (comptime Environment.isPosix) {
return system.access(path, 0) == 0;
}
if (comptime Environment.isWindows) {
return kernel32.GetFileAttributesW(path.ptr) != windows.INVALID_FILE_ATTRIBUTES;
}
@compileError("TODO: existsOSPath");
}
pub fn exists(path: []const u8) bool {
if (comptime Environment.isPosix) {
return system.access(&(std.os.toPosixPath(path) catch return false), 0) == 0;
}
if (comptime Environment.isWindows) {
var wbuf: bun.MAX_WPATH = undefined;
const path_to_use = bun.strings.toWPath(&wbuf, path);
return kernel32.GetFileAttributesW(path_to_use.ptr) != windows.INVALID_FILE_ATTRIBUTES;
}
@compileError("TODO: existsOSPath");
}
pub extern "C" fn is_executable_file(path: [*:0]const u8) bool;
pub fn isExecutableFileOSPath(path: bun.OSPathSlice) bool {
if (comptime Environment.isPosix) {
return is_executable_file(path);
}
if (comptime Environment.isWindows) {
var out: windows.DWORD = 0;
const rc = kernel32.GetBinaryTypeW(path, &out);
const result = if (rc == windows.FALSE)
false
else switch (out) {
kernel32.SCS_32BIT_BINARY,
kernel32.SCS_64BIT_BINARY,
kernel32.SCS_DOS_BINARY,
kernel32.SCS_OS216_BINARY,
kernel32.SCS_PIF_BINARY,
kernel32.SCS_POSIX_BINARY,
=> true,
else => false,
};
log("GetBinaryTypeW({}) = {d}. isExecutable={}", .{ bun.strings.fmtUTF16(path), out, result });
return result;
}
@compileError("TODO: isExecutablePath");
}
pub fn isExecutableFilePath(path: anytype) bool {
const Type = @TypeOf(path);
if (comptime Environment.isPosix) {
switch (Type) {
*[*:0]const u8, *[*:0]u8, [*:0]const u8, [*:0]u8 => return is_executable_file(path),
[:0]const u8, [:0]u8 => return is_executable_file(path.ptr),
[]const u8, []u8 => return is_executable_file(
&(std.os.toPosixPath(path) catch return false),
),
else => @compileError("TODO: isExecutableFilePath"),
}
}
if (comptime Environment.isWindows) {
var buf: [(bun.MAX_PATH_BYTES / 2) + 1]u16 = undefined;
return isExecutableFileOSPath(bun.strings.toWPath(&buf, path));
}
@compileError("TODO: isExecutablePath");
}
pub fn setFileOffset(fd: bun.FileDescriptor, offset: usize) Maybe(void) {
if (comptime Environment.isLinux) {
return Maybe(void).errnoSysFd(
linux.lseek(@intCast(fd), @intCast(offset), os.SEEK.SET),
.lseek,
@as(bun.FileDescriptor, @intCast(fd)),
) orelse Maybe(void).success;
}
if (comptime Environment.isMac) {
return Maybe(void).errnoSysFd(
std.c.lseek(fd, @as(std.c.off_t, @intCast(offset)), os.SEEK.SET),
.lseek,
@as(bun.FileDescriptor, @intCast(fd)),
) orelse Maybe(void).success;
}
if (comptime Environment.isWindows) {
const offset_high: u64 = @as(u32, @intCast(offset >> 32));
const offset_low: u64 = @as(u32, @intCast(offset & 0xFFFFFFFF));
var plarge_integer: i64 = @bitCast(offset_high);
const rc = kernel32.SetFilePointerEx(
bun.fdcast(fd),
@as(windows.LARGE_INTEGER, @bitCast(offset_low)),
&plarge_integer,
windows.FILE_BEGIN,
);
if (rc == windows.FALSE) {
return Maybe(void).errnoSys(0, .lseek) orelse Maybe(void).success;
}
return Maybe(void).success;
}
}
pub fn dup(fd: bun.FileDescriptor) Maybe(bun.FileDescriptor) {
if (comptime Environment.isWindows) {
var target: *windows.HANDLE = undefined;
const process = kernel32.GetCurrentProcess();
const out = kernel32.DuplicateHandle(
process,
bun.fdcast(fd),
process,
target,
0,
w.TRUE,
w.DUPLICATE_SAME_ACCESS,
);
if (out == 0) {
if (Maybe(bun.FileDescriptor).errnoSysFd(0, .dup, fd)) |err| {
return err;
}
}
return Maybe(bun.FileDescriptor){ .result = bun.toFD(out) };
}
const out = std.c.dup(fd);
return Maybe(bun.FileDescriptor).errnoSysFd(out, .dup, fd) orelse Maybe(bun.FileDescriptor){ .result = bun.toFD(out) };
}
pub fn linkat(dir_fd: bun.FileDescriptor, basename: []const u8, dest_dir_fd: bun.FileDescriptor, dest_name: []const u8) Maybe(void) {
return Maybe(void).errnoSysP(
std.c.linkat(
@intCast(dir_fd),
&(std.os.toPosixPath(basename) catch return .{
.err = .{
.errno = @intFromEnum(bun.C.E.NOMEM),
.syscall = .open,
},
}),
@intCast(dest_dir_fd),
&(std.os.toPosixPath(dest_name) catch return .{
.err = .{
.errno = @intFromEnum(bun.C.E.NOMEM),
.syscall = .open,
},
}),
0,
),
.link,
basename,
) orelse Maybe(void).success;
}
pub fn linkatTmpfile(tmpfd: bun.FileDescriptor, dirfd: bun.FileDescriptor, name: [:0]const u8) Maybe(void) {
if (comptime !Environment.isLinux) {
@compileError("Linux only.");
}
if (comptime Environment.allow_assert)
std.debug.assert(!std.fs.path.isAbsolute(name)); // absolute path will get ignored.
return Maybe(void).errnoSysP(
std.os.linux.linkat(
bun.fdcast(tmpfd),
"",
dirfd,
name,
os.AT.EMPTY_PATH,
),
.link,
name,
) orelse Maybe(void).success;
}
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