const std = @import("../index.zig"); const assert = std.debug.assert; const builtin = @import("builtin"); const arch = switch (builtin.arch) { builtin.Arch.x86_64 => @import("linux_x86_64.zig"), builtin.Arch.i386 => @import("linux_i386.zig"), else => @compileError("unsupported arch"), }; pub use @import("linux_errno.zig"); pub const PATH_MAX = 4096; pub const STDIN_FILENO = 0; pub const STDOUT_FILENO = 1; pub const STDERR_FILENO = 2; pub const PROT_NONE = 0; pub const PROT_READ = 1; pub const PROT_WRITE = 2; pub const PROT_EXEC = 4; pub const PROT_GROWSDOWN = 0x01000000; pub const PROT_GROWSUP = 0x02000000; pub const MAP_FAILED = @maxValue(usize); pub const MAP_SHARED = 0x01; pub const MAP_PRIVATE = 0x02; pub const MAP_TYPE = 0x0f; pub const MAP_FIXED = 0x10; pub const MAP_ANONYMOUS = 0x20; pub const MAP_NORESERVE = 0x4000; pub const MAP_GROWSDOWN = 0x0100; pub const MAP_DENYWRITE = 0x0800; pub const MAP_EXECUTABLE = 0x1000; pub const MAP_LOCKED = 0x2000; pub const MAP_POPULATE = 0x8000; pub const MAP_NONBLOCK = 0x10000; pub const MAP_STACK = 0x20000; pub const MAP_HUGETLB = 0x40000; pub const MAP_FILE = 0; pub const WNOHANG = 1; pub const WUNTRACED = 2; pub const WSTOPPED = 2; pub const WEXITED = 4; pub const WCONTINUED = 8; pub const WNOWAIT = 0x1000000; pub const SA_NOCLDSTOP = 1; pub const SA_NOCLDWAIT = 2; pub const SA_SIGINFO = 4; pub const SA_ONSTACK = 0x08000000; pub const SA_RESTART = 0x10000000; pub const SA_NODEFER = 0x40000000; pub const SA_RESETHAND = 0x80000000; pub const SA_RESTORER = 0x04000000; pub const SIGHUP = 1; pub const SIGINT = 2; pub const SIGQUIT = 3; pub const SIGILL = 4; pub const SIGTRAP = 5; pub const SIGABRT = 6; pub const SIGIOT = SIGABRT; pub const SIGBUS = 7; pub const SIGFPE = 8; pub const SIGKILL = 9; pub const SIGUSR1 = 10; pub const SIGSEGV = 11; pub const SIGUSR2 = 12; pub const SIGPIPE = 13; pub const SIGALRM = 14; pub const SIGTERM = 15; pub const SIGSTKFLT = 16; pub const SIGCHLD = 17; pub const SIGCONT = 18; pub const SIGSTOP = 19; pub const SIGTSTP = 20; pub const SIGTTIN = 21; pub const SIGTTOU = 22; pub const SIGURG = 23; pub const SIGXCPU = 24; pub const SIGXFSZ = 25; pub const SIGVTALRM = 26; pub const SIGPROF = 27; pub const SIGWINCH = 28; pub const SIGIO = 29; pub const SIGPOLL = 29; pub const SIGPWR = 30; pub const SIGSYS = 31; pub const SIGUNUSED = SIGSYS; pub const O_RDONLY = 0o0; pub const O_WRONLY = 0o1; pub const O_RDWR = 0o2; pub const O_CREAT = arch.O_CREAT; pub const O_EXCL = arch.O_EXCL; pub const O_NOCTTY = arch.O_NOCTTY; pub const O_TRUNC = arch.O_TRUNC; pub const O_APPEND = arch.O_APPEND; pub const O_NONBLOCK = arch.O_NONBLOCK; pub const O_DSYNC = arch.O_DSYNC; pub const O_SYNC = arch.O_SYNC; pub const O_RSYNC = arch.O_RSYNC; pub const O_DIRECTORY = arch.O_DIRECTORY; pub const O_NOFOLLOW = arch.O_NOFOLLOW; pub const O_CLOEXEC = arch.O_CLOEXEC; pub const O_ASYNC = arch.O_ASYNC; pub const O_DIRECT = arch.O_DIRECT; pub const O_LARGEFILE = arch.O_LARGEFILE; pub const O_NOATIME = arch.O_NOATIME; pub const O_PATH = arch.O_PATH; pub const O_TMPFILE = arch.O_TMPFILE; pub const O_NDELAY = arch.O_NDELAY; pub const SEEK_SET = 0; pub const SEEK_CUR = 1; pub const SEEK_END = 2; pub const SIG_BLOCK = 0; pub const SIG_UNBLOCK = 1; pub const SIG_SETMASK = 2; pub const SOCK_STREAM = 1; pub const SOCK_DGRAM = 2; pub const SOCK_RAW = 3; pub const SOCK_RDM = 4; pub const SOCK_SEQPACKET = 5; pub const SOCK_DCCP = 6; pub const SOCK_PACKET = 10; pub const SOCK_CLOEXEC = 0o2000000; pub const SOCK_NONBLOCK = 0o4000; pub const PROTO_ip = 0o000; pub const PROTO_icmp = 0o001; pub const PROTO_igmp = 0o002; pub const PROTO_ggp = 0o003; pub const PROTO_ipencap = 0o004; pub const PROTO_st = 0o005; pub const PROTO_tcp = 0o006; pub const PROTO_egp = 0o010; pub const PROTO_pup = 0o014; pub const PROTO_udp = 0o021; pub const PROTO_hmp = 0o024; pub const PROTO_xns_idp = 0o026; pub const PROTO_rdp = 0o033; pub const PROTO_iso_tp4 = 0o035; pub const PROTO_xtp = 0o044; pub const PROTO_ddp = 0o045; pub const PROTO_idpr_cmtp = 0o046; pub const PROTO_ipv6 = 0o051; pub const PROTO_ipv6_route = 0o053; pub const PROTO_ipv6_frag = 0o054; pub const PROTO_idrp = 0o055; pub const PROTO_rsvp = 0o056; pub const PROTO_gre = 0o057; pub const PROTO_esp = 0o062; pub const PROTO_ah = 0o063; pub const PROTO_skip = 0o071; pub const PROTO_ipv6_icmp = 0o072; pub const PROTO_ipv6_nonxt = 0o073; pub const PROTO_ipv6_opts = 0o074; pub const PROTO_rspf = 0o111; pub const PROTO_vmtp = 0o121; pub const PROTO_ospf = 0o131; pub const PROTO_ipip = 0o136; pub const PROTO_encap = 0o142; pub const PROTO_pim = 0o147; pub const PROTO_raw = 0o377; pub const PF_UNSPEC = 0; pub const PF_LOCAL = 1; pub const PF_UNIX = PF_LOCAL; pub const PF_FILE = PF_LOCAL; pub const PF_INET = 2; pub const PF_AX25 = 3; pub const PF_IPX = 4; pub const PF_APPLETALK = 5; pub const PF_NETROM = 6; pub const PF_BRIDGE = 7; pub const PF_ATMPVC = 8; pub const PF_X25 = 9; pub const PF_INET6 = 10; pub const PF_ROSE = 11; pub const PF_DECnet = 12; pub const PF_NETBEUI = 13; pub const PF_SECURITY = 14; pub const PF_KEY = 15; pub const PF_NETLINK = 16; pub const PF_ROUTE = PF_NETLINK; pub const PF_PACKET = 17; pub const PF_ASH = 18; pub const PF_ECONET = 19; pub const PF_ATMSVC = 20; pub const PF_RDS = 21; pub const PF_SNA = 22; pub const PF_IRDA = 23; pub const PF_PPPOX = 24; pub const PF_WANPIPE = 25; pub const PF_LLC = 26; pub const PF_IB = 27; pub const PF_MPLS = 28; pub const PF_CAN = 29; pub const PF_TIPC = 30; pub const PF_BLUETOOTH = 31; pub const PF_IUCV = 32; pub const PF_RXRPC = 33; pub const PF_ISDN = 34; pub const PF_PHONET = 35; pub const PF_IEEE802154 = 36; pub const PF_CAIF = 37; pub const PF_ALG = 38; pub const PF_NFC = 39; pub const PF_VSOCK = 40; pub const PF_MAX = 41; pub const AF_UNSPEC = PF_UNSPEC; pub const AF_LOCAL = PF_LOCAL; pub const AF_UNIX = AF_LOCAL; pub const AF_FILE = AF_LOCAL; pub const AF_INET = PF_INET; pub const AF_AX25 = PF_AX25; pub const AF_IPX = PF_IPX; pub const AF_APPLETALK = PF_APPLETALK; pub const AF_NETROM = PF_NETROM; pub const AF_BRIDGE = PF_BRIDGE; pub const AF_ATMPVC = PF_ATMPVC; pub const AF_X25 = PF_X25; pub const AF_INET6 = PF_INET6; pub const AF_ROSE = PF_ROSE; pub const AF_DECnet = PF_DECnet; pub const AF_NETBEUI = PF_NETBEUI; pub const AF_SECURITY = PF_SECURITY; pub const AF_KEY = PF_KEY; pub const AF_NETLINK = PF_NETLINK; pub const AF_ROUTE = PF_ROUTE; pub const AF_PACKET = PF_PACKET; pub const AF_ASH = PF_ASH; pub const AF_ECONET = PF_ECONET; pub const AF_ATMSVC = PF_ATMSVC; pub const AF_RDS = PF_RDS; pub const AF_SNA = PF_SNA; pub const AF_IRDA = PF_IRDA; pub const AF_PPPOX = PF_PPPOX; pub const AF_WANPIPE = PF_WANPIPE; pub const AF_LLC = PF_LLC; pub const AF_IB = PF_IB; pub const AF_MPLS = PF_MPLS; pub const AF_CAN = PF_CAN; pub const AF_TIPC = PF_TIPC; pub const AF_BLUETOOTH = PF_BLUETOOTH; pub const AF_IUCV = PF_IUCV; pub const AF_RXRPC = PF_RXRPC; pub const AF_ISDN = PF_ISDN; pub const AF_PHONET = PF_PHONET; pub const AF_IEEE802154 = PF_IEEE802154; pub const AF_CAIF = PF_CAIF; pub const AF_ALG = PF_ALG; pub const AF_NFC = PF_NFC; pub const AF_VSOCK = PF_VSOCK; pub const AF_MAX = PF_MAX; pub const DT_UNKNOWN = 0; pub const DT_FIFO = 1; pub const DT_CHR = 2; pub const DT_DIR = 4; pub const DT_BLK = 6; pub const DT_REG = 8; pub const DT_LNK = 10; pub const DT_SOCK = 12; pub const DT_WHT = 14; pub const TCGETS = 0x5401; pub const TCSETS = 0x5402; pub const TCSETSW = 0x5403; pub const TCSETSF = 0x5404; pub const TCGETA = 0x5405; pub const TCSETA = 0x5406; pub const TCSETAW = 0x5407; pub const TCSETAF = 0x5408; pub const TCSBRK = 0x5409; pub const TCXONC = 0x540A; pub const TCFLSH = 0x540B; pub const TIOCEXCL = 0x540C; pub const TIOCNXCL = 0x540D; pub const TIOCSCTTY = 0x540E; pub const TIOCGPGRP = 0x540F; pub const TIOCSPGRP = 0x5410; pub const TIOCOUTQ = 0x5411; pub const TIOCSTI = 0x5412; pub const TIOCGWINSZ = 0x5413; pub const TIOCSWINSZ = 0x5414; pub const TIOCMGET = 0x5415; pub const TIOCMBIS = 0x5416; pub const TIOCMBIC = 0x5417; pub const TIOCMSET = 0x5418; pub const TIOCGSOFTCAR = 0x5419; pub const TIOCSSOFTCAR = 0x541A; pub const FIONREAD = 0x541B; pub const TIOCINQ = FIONREAD; pub const TIOCLINUX = 0x541C; pub const TIOCCONS = 0x541D; pub const TIOCGSERIAL = 0x541E; pub const TIOCSSERIAL = 0x541F; pub const TIOCPKT = 0x5420; pub const FIONBIO = 0x5421; pub const TIOCNOTTY = 0x5422; pub const TIOCSETD = 0x5423; pub const TIOCGETD = 0x5424; pub const TCSBRKP = 0x5425; pub const TIOCSBRK = 0x5427; pub const TIOCCBRK = 0x5428; pub const TIOCGSID = 0x5429; pub const TIOCGRS485 = 0x542E; pub const TIOCSRS485 = 0x542F; pub const TIOCGPTN = 0x80045430; pub const TIOCSPTLCK = 0x40045431; pub const TIOCGDEV = 0x80045432; pub const TCGETX = 0x5432; pub const TCSETX = 0x5433; pub const TCSETXF = 0x5434; pub const TCSETXW = 0x5435; pub const TIOCSIG = 0x40045436; pub const TIOCVHANGUP = 0x5437; pub const TIOCGPKT = 0x80045438; pub const TIOCGPTLCK = 0x80045439; pub const TIOCGEXCL = 0x80045440; pub const EPOLL_CTL_ADD = 1; pub const EPOLL_CTL_DEL = 2; pub const EPOLL_CTL_MOD = 3; pub const EPOLLIN = 0x001; pub const EPOLLPRI = 0x002; pub const EPOLLOUT = 0x004; pub const EPOLLRDNORM = 0x040; pub const EPOLLRDBAND = 0x080; pub const EPOLLWRNORM = 0x100; pub const EPOLLWRBAND = 0x200; pub const EPOLLMSG = 0x400; pub const EPOLLERR = 0x008; pub const EPOLLHUP = 0x010; pub const EPOLLRDHUP = 0x2000; pub const EPOLLEXCLUSIVE = (u32(1) << 28); pub const EPOLLWAKEUP = (u32(1) << 29); pub const EPOLLONESHOT = (u32(1) << 30); pub const EPOLLET = (u32(1) << 31); pub const CLOCK_REALTIME = 0; pub const CLOCK_MONOTONIC = 1; pub const CLOCK_PROCESS_CPUTIME_ID = 2; pub const CLOCK_THREAD_CPUTIME_ID = 3; pub const CLOCK_MONOTONIC_RAW = 4; pub const CLOCK_REALTIME_COARSE = 5; pub const CLOCK_MONOTONIC_COARSE = 6; pub const CLOCK_BOOTTIME = 7; pub const CLOCK_REALTIME_ALARM = 8; pub const CLOCK_BOOTTIME_ALARM = 9; pub const CLOCK_SGI_CYCLE = 10; pub const CLOCK_TAI = 11; pub const TFD_NONBLOCK = O_NONBLOCK; pub const TFD_CLOEXEC = O_CLOEXEC; pub const TFD_TIMER_ABSTIME = 1; pub const TFD_TIMER_CANCEL_ON_SET = (1 << 1); fn unsigned(s: i32) -> u32 { return @bitCast(u32, s); } fn signed(s: u32) -> i32 { return @bitCast(i32, s); } pub fn WEXITSTATUS(s: i32) -> i32 { return signed((unsigned(s) & 0xff00) >> 8); } pub fn WTERMSIG(s: i32) -> i32 { return signed(unsigned(s) & 0x7f); } pub fn WSTOPSIG(s: i32) -> i32 { return WEXITSTATUS(s); } pub fn WIFEXITED(s: i32) -> bool { return WTERMSIG(s) == 0; } pub fn WIFSTOPPED(s: i32) -> bool { return (u16)(((unsigned(s)&0xffff)*%0x10001)>>8) > 0x7f00; } pub fn WIFSIGNALED(s: i32) -> bool { return (unsigned(s)&0xffff)-%1 < 0xff; } pub const winsize = extern struct { ws_row: u16, ws_col: u16, ws_xpixel: u16, ws_ypixel: u16, }; /// Get the errno from a syscall return value, or 0 for no error. pub fn getErrno(r: usize) -> usize { const signed_r = @bitCast(isize, r); return if (signed_r > -4096 and signed_r < 0) usize(-signed_r) else 0; } pub fn dup2(old: i32, new: i32) -> usize { return arch.syscall2(arch.SYS_dup2, usize(old), usize(new)); } pub fn chdir(path: &const u8) -> usize { return arch.syscall1(arch.SYS_chdir, @ptrToInt(path)); } pub fn execve(path: &const u8, argv: &const ?&const u8, envp: &const ?&const u8) -> usize { return arch.syscall3(arch.SYS_execve, @ptrToInt(path), @ptrToInt(argv), @ptrToInt(envp)); } pub fn fork() -> usize { return arch.syscall0(arch.SYS_fork); } pub fn getcwd(buf: &u8, size: usize) -> usize { return arch.syscall2(arch.SYS_getcwd, @ptrToInt(buf), size); } pub fn getdents(fd: i32, dirp: &u8, count: usize) -> usize { return arch.syscall3(arch.SYS_getdents, usize(fd), @ptrToInt(dirp), count); } pub fn isatty(fd: i32) -> bool { var wsz: winsize = undefined; return arch.syscall3(arch.SYS_ioctl, usize(fd), TIOCGWINSZ, @ptrToInt(&wsz)) == 0; } pub fn readlink(noalias path: &const u8, noalias buf_ptr: &u8, buf_len: usize) -> usize { return arch.syscall3(arch.SYS_readlink, @ptrToInt(path), @ptrToInt(buf_ptr), buf_len); } pub fn mkdir(path: &const u8, mode: u32) -> usize { return arch.syscall2(arch.SYS_mkdir, @ptrToInt(path), mode); } pub fn mmap(address: ?&u8, length: usize, prot: usize, flags: usize, fd: i32, offset: isize) -> usize { return arch.syscall6(arch.SYS_mmap, @ptrToInt(address), length, prot, flags, usize(fd), @bitCast(usize, offset)); } pub fn munmap(address: &u8, length: usize) -> usize { return arch.syscall2(arch.SYS_munmap, @ptrToInt(address), length); } pub fn read(fd: i32, buf: &u8, count: usize) -> usize { return arch.syscall3(arch.SYS_read, usize(fd), @ptrToInt(buf), count); } pub fn rmdir(path: &const u8) -> usize { return arch.syscall1(arch.SYS_rmdir, @ptrToInt(path)); } pub fn symlink(existing: &const u8, new: &const u8) -> usize { return arch.syscall2(arch.SYS_symlink, @ptrToInt(existing), @ptrToInt(new)); } pub fn pread(fd: i32, buf: &u8, count: usize, offset: usize) -> usize { return arch.syscall4(arch.SYS_pread, usize(fd), @ptrToInt(buf), count, offset); } pub fn pipe(fd: &[2]i32) -> usize { return pipe2(fd, 0); } pub fn pipe2(fd: &[2]i32, flags: usize) -> usize { return arch.syscall2(arch.SYS_pipe2, @ptrToInt(fd), flags); } pub fn write(fd: i32, buf: &const u8, count: usize) -> usize { return arch.syscall3(arch.SYS_write, usize(fd), @ptrToInt(buf), count); } pub fn pwrite(fd: i32, buf: &const u8, count: usize, offset: usize) -> usize { return arch.syscall4(arch.SYS_pwrite, usize(fd), @ptrToInt(buf), count, offset); } pub fn rename(old: &const u8, new: &const u8) -> usize { return arch.syscall2(arch.SYS_rename, @ptrToInt(old), @ptrToInt(new)); } pub fn open(path: &const u8, flags: u32, perm: usize) -> usize { return arch.syscall3(arch.SYS_open, @ptrToInt(path), flags, perm); } pub fn create(path: &const u8, perm: usize) -> usize { return arch.syscall2(arch.SYS_creat, @ptrToInt(path), perm); } pub fn openat(dirfd: i32, path: &const u8, flags: usize, mode: usize) -> usize { return arch.syscall4(arch.SYS_openat, usize(dirfd), @ptrToInt(path), flags, mode); } pub fn close(fd: i32) -> usize { return arch.syscall1(arch.SYS_close, usize(fd)); } pub fn lseek(fd: i32, offset: isize, ref_pos: usize) -> usize { return arch.syscall3(arch.SYS_lseek, usize(fd), @bitCast(usize, offset), ref_pos); } pub fn exit(status: i32) -> noreturn { _ = arch.syscall1(arch.SYS_exit, @bitCast(usize, isize(status))); unreachable; } pub fn getrandom(buf: &u8, count: usize, flags: u32) -> usize { return arch.syscall3(arch.SYS_getrandom, @ptrToInt(buf), count, usize(flags)); } pub fn kill(pid: i32, sig: i32) -> usize { return arch.syscall2(arch.SYS_kill, @bitCast(usize, isize(pid)), usize(sig)); } pub fn unlink(path: &const u8) -> usize { return arch.syscall1(arch.SYS_unlink, @ptrToInt(path)); } pub fn waitpid(pid: i32, status: &i32, options: i32) -> usize { return arch.syscall4(arch.SYS_wait4, @bitCast(usize, isize(pid)), @ptrToInt(status), @bitCast(usize, isize(options)), 0); } pub fn nanosleep(req: &const timespec, rem: ?×pec) -> usize { return arch.syscall2(arch.SYS_nanosleep, @ptrToInt(req), @ptrToInt(rem)); } pub fn setuid(uid: u32) -> usize { return arch.syscall1(arch.SYS_setuid, uid); } pub fn setgid(gid: u32) -> usize { return arch.syscall1(arch.SYS_setgid, gid); } pub fn setreuid(ruid: u32, euid: u32) -> usize { return arch.syscall2(arch.SYS_setreuid, ruid, euid); } pub fn setregid(rgid: u32, egid: u32) -> usize { return arch.syscall2(arch.SYS_setregid, rgid, egid); } pub fn sigprocmask(flags: u32, noalias set: &const sigset_t, noalias oldset: ?&sigset_t) -> usize { return arch.syscall4(arch.SYS_rt_sigprocmask, flags, @ptrToInt(set), @ptrToInt(oldset), NSIG/8); } pub fn sigaction(sig: u6, noalias act: &const Sigaction, noalias oact: ?&Sigaction) -> usize { assert(sig >= 1); assert(sig != SIGKILL); assert(sig != SIGSTOP); var ksa = k_sigaction { .handler = act.handler, .flags = act.flags | SA_RESTORER, .mask = undefined, .restorer = @ptrCast(extern fn(), arch.restore_rt), }; var ksa_old: k_sigaction = undefined; @memcpy(@ptrCast(&u8, &ksa.mask), @ptrCast(&const u8, &act.mask), 8); const result = arch.syscall4(arch.SYS_rt_sigaction, sig, @ptrToInt(&ksa), @ptrToInt(&ksa_old), @sizeOf(@typeOf(ksa.mask))); const err = getErrno(result); if (err != 0) { return result; } if (oact) |old| { old.handler = ksa_old.handler; old.flags = @truncate(u32, ksa_old.flags); @memcpy(@ptrCast(&u8, &old.mask), @ptrCast(&const u8, &ksa_old.mask), @sizeOf(@typeOf(ksa_old.mask))); } return 0; } const NSIG = 65; const sigset_t = [128 / @sizeOf(usize)]usize; const all_mask = []usize{@maxValue(usize)}; const app_mask = []usize{0xfffffffc7fffffff}; const k_sigaction = extern struct { handler: extern fn(i32), flags: usize, restorer: extern fn(), mask: [2]u32, }; /// Renamed from `sigaction` to `Sigaction` to avoid conflict with the syscall. pub const Sigaction = struct { handler: extern fn(i32), mask: sigset_t, flags: u32, }; pub const SIG_ERR = @intToPtr(extern fn(i32), @maxValue(usize)); pub const SIG_DFL = @intToPtr(extern fn(i32), 0); pub const SIG_IGN = @intToPtr(extern fn(i32), 1); pub const empty_sigset = []usize{0} ** sigset_t.len; pub fn raise(sig: i32) -> usize { var set: sigset_t = undefined; blockAppSignals(&set); const tid = i32(arch.syscall0(arch.SYS_gettid)); const ret = arch.syscall2(arch.SYS_tkill, usize(tid), usize(sig)); restoreSignals(&set); return ret; } fn blockAllSignals(set: &sigset_t) { _ = arch.syscall4(arch.SYS_rt_sigprocmask, SIG_BLOCK, @ptrToInt(&all_mask), @ptrToInt(set), NSIG/8); } fn blockAppSignals(set: &sigset_t) { _ = arch.syscall4(arch.SYS_rt_sigprocmask, SIG_BLOCK, @ptrToInt(&app_mask), @ptrToInt(set), NSIG/8); } fn restoreSignals(set: &sigset_t) { _ = arch.syscall4(arch.SYS_rt_sigprocmask, SIG_SETMASK, @ptrToInt(set), 0, NSIG/8); } pub fn sigaddset(set: &sigset_t, sig: u6) { const s = sig - 1; (*set)[usize(s) / usize.bit_count] |= usize(1) << (s & (usize.bit_count - 1)); } pub fn sigismember(set: &const sigset_t, sig: u6) -> bool { const s = sig - 1; return ((*set)[usize(s) / usize.bit_count] & (usize(1) << (s & (usize.bit_count - 1)))) != 0; } pub const sa_family_t = u16; pub const socklen_t = u32; pub const in_addr = u32; pub const in6_addr = [16]u8; pub const sockaddr = extern struct { family: sa_family_t, port: u16, data: [12]u8, }; pub const sockaddr_in = extern struct { family: sa_family_t, port: u16, addr: in_addr, zero: [8]u8, }; pub const sockaddr_in6 = extern struct { family: sa_family_t, port: u16, flowinfo: u32, addr: in6_addr, scope_id: u32, }; pub const iovec = extern struct { iov_base: &u8, iov_len: usize, }; pub fn getsockname(fd: i32, noalias addr: &sockaddr, noalias len: &socklen_t) -> usize { return arch.syscall3(arch.SYS_getsockname, usize(fd), @ptrToInt(addr), @ptrToInt(len)); } pub fn getpeername(fd: i32, noalias addr: &sockaddr, noalias len: &socklen_t) -> usize { return arch.syscall3(arch.SYS_getpeername, usize(fd), @ptrToInt(addr), @ptrToInt(len)); } pub fn socket(domain: i32, socket_type: i32, protocol: i32) -> usize { return arch.syscall3(arch.SYS_socket, usize(domain), usize(socket_type), usize(protocol)); } pub fn setsockopt(fd: i32, level: i32, optname: i32, optval: &const u8, optlen: socklen_t) -> usize { return arch.syscall5(arch.SYS_setsockopt, usize(fd), usize(level), usize(optname), usize(optval), @ptrToInt(optlen)); } pub fn getsockopt(fd: i32, level: i32, optname: i32, noalias optval: &u8, noalias optlen: &socklen_t) -> usize { return arch.syscall5(arch.SYS_getsockopt, usize(fd), usize(level), usize(optname), @ptrToInt(optval), @ptrToInt(optlen)); } pub fn sendmsg(fd: i32, msg: &const arch.msghdr, flags: u32) -> usize { return arch.syscall3(arch.SYS_sendmsg, usize(fd), @ptrToInt(msg), flags); } pub fn connect(fd: i32, addr: &const sockaddr, len: socklen_t) -> usize { return arch.syscall3(arch.SYS_connect, usize(fd), @ptrToInt(addr), usize(len)); } pub fn recvmsg(fd: i32, msg: &arch.msghdr, flags: u32) -> usize { return arch.syscall3(arch.SYS_recvmsg, usize(fd), @ptrToInt(msg), flags); } pub fn recvfrom(fd: i32, noalias buf: &u8, len: usize, flags: u32, noalias addr: ?&sockaddr, noalias alen: ?&socklen_t) -> usize { return arch.syscall6(arch.SYS_recvfrom, usize(fd), @ptrToInt(buf), len, flags, @ptrToInt(addr), @ptrToInt(alen)); } pub fn shutdown(fd: i32, how: i32) -> usize { return arch.syscall2(arch.SYS_shutdown, usize(fd), usize(how)); } pub fn bind(fd: i32, addr: &const sockaddr, len: socklen_t) -> usize { return arch.syscall3(arch.SYS_bind, usize(fd), @ptrToInt(addr), usize(len)); } pub fn listen(fd: i32, backlog: i32) -> usize { return arch.syscall2(arch.SYS_listen, usize(fd), usize(backlog)); } pub fn sendto(fd: i32, buf: &const u8, len: usize, flags: u32, addr: ?&const sockaddr, alen: socklen_t) -> usize { return arch.syscall6(arch.SYS_sendto, usize(fd), @ptrToInt(buf), len, flags, @ptrToInt(addr), usize(alen)); } pub fn socketpair(domain: i32, socket_type: i32, protocol: i32, fd: [2]i32) -> usize { return arch.syscall4(arch.SYS_socketpair, usize(domain), usize(socket_type), usize(protocol), @ptrToInt(&fd[0])); } pub fn accept(fd: i32, noalias addr: &sockaddr, noalias len: &socklen_t) -> usize { return accept4(fd, addr, len, 0); } pub fn accept4(fd: i32, noalias addr: &sockaddr, noalias len: &socklen_t, flags: u32) -> usize { return arch.syscall4(arch.SYS_accept4, usize(fd), @ptrToInt(addr), @ptrToInt(len), flags); } // error NameTooLong; // error SystemResources; // error Io; // // pub fn if_nametoindex(name: []u8) -> %u32 { // var ifr: ifreq = undefined; // // if (name.len >= ifr.ifr_name.len) { // return error.NameTooLong; // } // // const socket_ret = socket(AF_UNIX, SOCK_DGRAM|SOCK_CLOEXEC, 0); // const socket_err = getErrno(socket_ret); // if (socket_err > 0) { // return error.SystemResources; // } // const socket_fd = i32(socket_ret); // @memcpy(&ifr.ifr_name[0], &name[0], name.len); // ifr.ifr_name[name.len] = 0; // const ioctl_ret = ioctl(socket_fd, SIOCGIFINDEX, &ifr); // close(socket_fd); // const ioctl_err = getErrno(ioctl_ret); // if (ioctl_err > 0) { // return error.Io; // } // return ifr.ifr_ifindex; // } pub const Stat = arch.Stat; pub const timespec = arch.timespec; pub fn fstat(fd: i32, stat_buf: &Stat) -> usize { return arch.syscall2(arch.SYS_fstat, usize(fd), @ptrToInt(stat_buf)); } pub const epoll_data = u64; pub const epoll_event = extern struct { events: u32, data: epoll_data }; pub fn epoll_create() -> usize { return arch.syscall1(arch.SYS_epoll_create, usize(1)); } pub fn epoll_ctl(epoll_fd: i32, op: i32, fd: i32, ev: &epoll_event) -> usize { return arch.syscall4(arch.SYS_epoll_ctl, usize(epoll_fd), usize(op), usize(fd), @ptrToInt(ev)); } pub fn epoll_wait(epoll_fd: i32, events: &epoll_event, maxevents: i32, timeout: i32) -> usize { return arch.syscall4(arch.SYS_epoll_wait, usize(epoll_fd), @ptrToInt(events), usize(maxevents), usize(timeout)); } pub fn timerfd_create(clockid: i32, flags: u32) -> usize { return arch.syscall2(arch.SYS_timerfd_create, usize(clockid), usize(flags)); } pub const itimerspec = extern struct { it_interval: timespec, it_value: timespec }; pub fn timerfd_gettime(fd: i32, curr_value: &itimerspec) -> usize { return arch.syscall2(arch.SYS_timerfd_gettime, usize(fd), @ptrToInt(curr_value)); } pub fn timerfd_settime(fd: i32, flags: u32, new_value: &const itimerspec, old_value: ?&itimerspec) -> usize { return arch.syscall4(arch.SYS_timerfd_settime, usize(fd), usize(flags), @ptrToInt(new_value), @ptrToInt(old_value)); } test "import linux_test" { // TODO lazy analysis should prevent this test from being compiled on windows, but // it is still compiled on windows if (builtin.os == builtin.Os.linux) { _ = @import("linux_test.zig"); } }