const std = @import("../../std.zig"); const maxInt = std.math.maxInt; const linux = std.os.linux; const SYS = linux.SYS; const socklen_t = linux.socklen_t; const iovec = std.os.iovec; const iovec_const = std.os.iovec_const; const uid_t = linux.uid_t; const gid_t = linux.gid_t; const pid_t = linux.pid_t; const sockaddr = linux.sockaddr; const timespec = linux.timespec; pub fn syscall0(number: SYS) usize { return asm volatile ( \\ syscall \\ blez $7, 1f \\ subu $2, $0, $2 \\ 1: : [ret] "={$2}" (-> usize), : [number] "{$2}" (@enumToInt(number)), : "$1", "$3", "$4", "$5", "$6", "$7", "$8", "$9", "$10", "$11", "$12", "$13", "$14", "$15", "$24", "$25", "hi", "lo", "memory" ); } pub fn syscall_pipe(fd: *[2]i32) usize { return asm volatile ( \\ .set noat \\ .set noreorder \\ syscall \\ blez $7, 1f \\ nop \\ b 2f \\ subu $2, $0, $2 \\ 1: \\ sw $2, 0($4) \\ sw $3, 4($4) \\ 2: : [ret] "={$2}" (-> usize), : [number] "{$2}" (@enumToInt(SYS.pipe)), [fd] "{$4}" (fd), : "$1", "$3", "$5", "$6", "$7", "$8", "$9", "$10", "$11", "$12", "$13", "$14", "$15", "$24", "$25", "hi", "lo", "memory" ); } pub fn syscall1(number: SYS, arg1: usize) usize { return asm volatile ( \\ syscall \\ blez $7, 1f \\ subu $2, $0, $2 \\ 1: : [ret] "={$2}" (-> usize), : [number] "{$2}" (@enumToInt(number)), [arg1] "{$4}" (arg1), : "$1", "$3", "$5", "$6", "$7", "$8", "$9", "$10", "$11", "$12", "$13", "$14", "$15", "$24", "$25", "hi", "lo", "memory" ); } pub fn syscall2(number: SYS, arg1: usize, arg2: usize) usize { return asm volatile ( \\ syscall \\ blez $7, 1f \\ subu $2, $0, $2 \\ 1: : [ret] "={$2}" (-> usize), : [number] "{$2}" (@enumToInt(number)), [arg1] "{$4}" (arg1), [arg2] "{$5}" (arg2), : "$1", "$3", "$6", "$7", "$8", "$9", "$10", "$11", "$12", "$13", "$14", "$15", "$24", "$25", "hi", "lo", "memory" ); } pub fn syscall3(number: SYS, arg1: usize, arg2: usize, arg3: usize) usize { return asm volatile ( \\ syscall \\ blez $7, 1f \\ subu $2, $0, $2 \\ 1: : [ret] "={$2}" (-> usize), : [number] "{$2}" (@enumToInt(number)), [arg1] "{$4}" (arg1), [arg2] "{$5}" (arg2), [arg3] "{$6}" (arg3), : "$1", "$3", "$7", "$8", "$9", "$10", "$11", "$12", "$13", "$14", "$15", "$24", "$25", "hi", "lo", "memory" ); } pub fn syscall4(number: SYS, arg1: usize, arg2: usize, arg3: usize, arg4: usize) usize { return asm volatile ( \\ syscall \\ blez $7, 1f \\ subu $2, $0, $2 \\ 1: : [ret] "={$2}" (-> usize), : [number] "{$2}" (@enumToInt(number)), [arg1] "{$4}" (arg1), [arg2] "{$5}" (arg2), [arg3] "{$6}" (arg3), [arg4] "{$7}" (arg4), : "$1", "$3", "$8", "$9", "$10", "$11", "$12", "$13", "$14", "$15", "$24", "$25", "hi", "lo", "memory" ); } pub fn syscall5(number: SYS, arg1: usize, arg2: usize, arg3: usize, arg4: usize, arg5: usize) usize { return asm volatile ( \\ .set noat \\ subu $sp, $sp, 24 \\ sw %[arg5], 16($sp) \\ syscall \\ addu $sp, $sp, 24 \\ blez $7, 1f \\ subu $2, $0, $2 \\ 1: : [ret] "={$2}" (-> usize), : [number] "{$2}" (@enumToInt(number)), [arg1] "{$4}" (arg1), [arg2] "{$5}" (arg2), [arg3] "{$6}" (arg3), [arg4] "{$7}" (arg4), [arg5] "r" (arg5), : "$1", "$3", "$8", "$9", "$10", "$11", "$12", "$13", "$14", "$15", "$24", "$25", "hi", "lo", "memory" ); } // NOTE: The o32 calling convention requires the callee to reserve 16 bytes for // the first four arguments even though they're passed in $a0-$a3. pub fn syscall6( number: SYS, arg1: usize, arg2: usize, arg3: usize, arg4: usize, arg5: usize, arg6: usize, ) usize { return asm volatile ( \\ .set noat \\ subu $sp, $sp, 24 \\ sw %[arg5], 16($sp) \\ sw %[arg6], 20($sp) \\ syscall \\ addu $sp, $sp, 24 \\ blez $7, 1f \\ subu $2, $0, $2 \\ 1: : [ret] "={$2}" (-> usize), : [number] "{$2}" (@enumToInt(number)), [arg1] "{$4}" (arg1), [arg2] "{$5}" (arg2), [arg3] "{$6}" (arg3), [arg4] "{$7}" (arg4), [arg5] "r" (arg5), [arg6] "r" (arg6), : "$1", "$3", "$8", "$9", "$10", "$11", "$12", "$13", "$14", "$15", "$24", "$25", "hi", "lo", "memory" ); } pub fn syscall7( number: SYS, arg1: usize, arg2: usize, arg3: usize, arg4: usize, arg5: usize, arg6: usize, arg7: usize, ) usize { return asm volatile ( \\ .set noat \\ subu $sp, $sp, 32 \\ sw %[arg5], 16($sp) \\ sw %[arg6], 20($sp) \\ sw %[arg7], 24($sp) \\ syscall \\ addu $sp, $sp, 32 \\ blez $7, 1f \\ subu $2, $0, $2 \\ 1: : [ret] "={$2}" (-> usize), : [number] "{$2}" (@enumToInt(number)), [arg1] "{$4}" (arg1), [arg2] "{$5}" (arg2), [arg3] "{$6}" (arg3), [arg4] "{$7}" (arg4), [arg5] "r" (arg5), [arg6] "r" (arg6), [arg7] "r" (arg7), : "$1", "$3", "$8", "$9", "$10", "$11", "$12", "$13", "$14", "$15", "$24", "$25", "hi", "lo", "memory" ); } /// This matches the libc clone function. pub extern fn clone(func: fn (arg: usize) callconv(.C) u8, stack: usize, flags: u32, arg: usize, ptid: *i32, tls: usize, ctid: *i32) usize; pub fn restore() callconv(.Naked) void { return asm volatile ("syscall" : : [number] "{$2}" (@enumToInt(SYS.sigreturn)), : "$1", "$3", "$4", "$5", "$6", "$7", "$8", "$9", "$10", "$11", "$12", "$13", "$14", "$15", "$24", "$25", "hi", "lo", "memory" ); } pub fn restore_rt() callconv(.Naked) void { return asm volatile ("syscall" : : [number] "{$2}" (@enumToInt(SYS.rt_sigreturn)), : "$1", "$3", "$4", "$5", "$6", "$7", "$8", "$9", "$10", "$11", "$12", "$13", "$14", "$15", "$24", "$25", "hi", "lo", "memory" ); } pub const O = struct { pub const CREAT = 0o0400; pub const EXCL = 0o02000; pub const NOCTTY = 0o04000; pub const TRUNC = 0o01000; pub const APPEND = 0o0010; pub const NONBLOCK = 0o0200; pub const DSYNC = 0o0020; pub const SYNC = 0o040020; pub const RSYNC = 0o040020; pub const DIRECTORY = 0o0200000; pub const NOFOLLOW = 0o0400000; pub const CLOEXEC = 0o02000000; pub const ASYNC = 0o010000; pub const DIRECT = 0o0100000; pub const LARGEFILE = 0o020000; pub const NOATIME = 0o01000000; pub const PATH = 0o010000000; pub const TMPFILE = 0o020200000; pub const NDELAY = NONBLOCK; }; pub const F = struct { pub const DUPFD = 0; pub const GETFD = 1; pub const SETFD = 2; pub const GETFL = 3; pub const SETFL = 4; pub const SETOWN = 24; pub const GETOWN = 23; pub const SETSIG = 10; pub const GETSIG = 11; pub const GETLK = 33; pub const SETLK = 34; pub const SETLKW = 35; pub const RDLCK = 0; pub const WRLCK = 1; pub const UNLCK = 2; pub const SETOWN_EX = 15; pub const GETOWN_EX = 16; pub const GETOWNER_UIDS = 17; }; pub const LOCK = struct { pub const SH = 1; pub const EX = 2; pub const UN = 8; pub const NB = 4; }; pub const MMAP2_UNIT = 4096; pub const MAP = struct { pub const NORESERVE = 0x0400; pub const GROWSDOWN = 0x1000; pub const DENYWRITE = 0x2000; pub const EXECUTABLE = 0x4000; pub const LOCKED = 0x8000; pub const @"32BIT" = 0x40; }; pub const VDSO = struct { pub const CGT_SYM = "__kernel_clock_gettime"; pub const CGT_VER = "LINUX_2.6.39"; }; pub const Flock = extern struct { type: i16, whence: i16, __pad0: [4]u8, start: off_t, len: off_t, pid: pid_t, __unused: [4]u8, }; pub const msghdr = extern struct { name: ?*sockaddr, namelen: socklen_t, iov: [*]iovec, iovlen: i32, control: ?*anyopaque, controllen: socklen_t, flags: i32, }; pub const msghdr_const = extern struct { name: ?*const sockaddr, namelen: socklen_t, iov: [*]iovec_const, iovlen: i32, control: ?*anyopaque, controllen: socklen_t, flags: i32, }; pub const blksize_t = i32; pub const nlink_t = u32; pub const time_t = i32; pub const mode_t = u32; pub const off_t = i64; pub const ino_t = u64; pub const dev_t = u64; pub const blkcnt_t = i64; // The `stat` definition used by the Linux kernel. pub const Stat = extern struct { dev: u32, __pad0: [3]u32, // Reserved for st_dev expansion ino: ino_t, mode: mode_t, nlink: nlink_t, uid: uid_t, gid: gid_t, rdev: u32, __pad1: [3]u32, size: off_t, atim: timespec, mtim: timespec, ctim: timespec, blksize: blksize_t, __pad3: u32, blocks: blkcnt_t, __pad4: [14]usize, pub fn atime(self: @This()) timespec { return self.atim; } pub fn mtime(self: @This()) timespec { return self.mtim; } pub fn ctime(self: @This()) timespec { return self.ctim; } }; pub const timeval = extern struct { tv_sec: isize, tv_usec: isize, }; pub const timezone = extern struct { tz_minuteswest: i32, tz_dsttime: i32, }; pub const Elf_Symndx = u32; pub const rlimit_resource = enum(c_int) { /// Per-process CPU limit, in seconds. CPU, /// Largest file that can be created, in bytes. FSIZE, /// Maximum size of data segment, in bytes. DATA, /// Maximum size of stack segment, in bytes. STACK, /// Largest core file that can be created, in bytes. CORE, /// Number of open files. NOFILE, /// Address space limit. AS, /// Largest resident set size, in bytes. /// This affects swapping; processes that are exceeding their /// resident set size will be more likely to have physical memory /// taken from them. RSS, /// Number of processes. NPROC, /// Locked-in-memory address space. MEMLOCK, /// Maximum number of file locks. LOCKS, /// Maximum number of pending signals. SIGPENDING, /// Maximum bytes in POSIX message queues. MSGQUEUE, /// Maximum nice priority allowed to raise to. /// Nice levels 19 .. -20 correspond to 0 .. 39 /// values of this resource limit. NICE, /// Maximum realtime priority allowed for non-priviledged /// processes. RTPRIO, /// Maximum CPU time in µs that a process scheduled under a real-time /// scheduling policy may consume without making a blocking system /// call before being forcibly descheduled. RTTIME, _, };