const builtin = @import("builtin"); const std = @import("../../std.zig"); const iovec = std.posix.iovec; const iovec_const = std.posix.iovec_const; const linux = std.os.linux; const SYS = linux.SYS; const uid_t = std.os.linux.uid_t; const gid_t = std.os.linux.gid_t; const pid_t = std.os.linux.pid_t; const sockaddr = linux.sockaddr; const socklen_t = linux.socklen_t; const timespec = std.os.linux.timespec; const stack_t = std.os.linux.stack_t; const sigset_t = std.os.linux.sigset_t; pub fn syscall0(number: SYS) usize { return asm volatile ("svc 0" : [ret] "={r2}" (-> usize), : [number] "{r1}" (@intFromEnum(number)), : .{ .memory = true }); } pub fn syscall1(number: SYS, arg1: usize) usize { return asm volatile ("svc 0" : [ret] "={r2}" (-> usize), : [number] "{r1}" (@intFromEnum(number)), [arg1] "{r2}" (arg1), : .{ .memory = true }); } pub fn syscall2(number: SYS, arg1: usize, arg2: usize) usize { return asm volatile ("svc 0" : [ret] "={r2}" (-> usize), : [number] "{r1}" (@intFromEnum(number)), [arg1] "{r2}" (arg1), [arg2] "{r3}" (arg2), : .{ .memory = true }); } pub fn syscall3(number: SYS, arg1: usize, arg2: usize, arg3: usize) usize { return asm volatile ("svc 0" : [ret] "={r2}" (-> usize), : [number] "{r1}" (@intFromEnum(number)), [arg1] "{r2}" (arg1), [arg2] "{r3}" (arg2), [arg3] "{r4}" (arg3), : .{ .memory = true }); } pub fn syscall4(number: SYS, arg1: usize, arg2: usize, arg3: usize, arg4: usize) usize { return asm volatile ("svc 0" : [ret] "={r2}" (-> usize), : [number] "{r1}" (@intFromEnum(number)), [arg1] "{r2}" (arg1), [arg2] "{r3}" (arg2), [arg3] "{r4}" (arg3), [arg4] "{r5}" (arg4), : .{ .memory = true }); } pub fn syscall5(number: SYS, arg1: usize, arg2: usize, arg3: usize, arg4: usize, arg5: usize) usize { return asm volatile ("svc 0" : [ret] "={r2}" (-> usize), : [number] "{r1}" (@intFromEnum(number)), [arg1] "{r2}" (arg1), [arg2] "{r3}" (arg2), [arg3] "{r4}" (arg3), [arg4] "{r5}" (arg4), [arg5] "{r6}" (arg5), : .{ .memory = true }); } pub fn syscall6(number: SYS, arg1: usize, arg2: usize, arg3: usize, arg4: usize, arg5: usize, arg6: usize) usize { return asm volatile ("svc 0" : [ret] "={r2}" (-> usize), : [number] "{r1}" (@intFromEnum(number)), [arg1] "{r2}" (arg1), [arg2] "{r3}" (arg2), [arg3] "{r4}" (arg3), [arg4] "{r5}" (arg4), [arg5] "{r6}" (arg5), [arg6] "{r7}" (arg6), : .{ .memory = true }); } pub fn clone() callconv(.naked) usize { asm volatile ( \\# int clone( \\# fn, a = r2 \\# stack, b = r3 \\# flags, c = r4 \\# arg, d = r5 \\# ptid, e = r6 \\# tls, f = *(r15+160) \\# ctid) g = *(r15+168) \\# \\# pseudo C code: \\# tid = syscall(SYS_clone,b,c,e,g,f); \\# if (!tid) syscall(SYS_exit, a(d)); \\# return tid; \\ \\# preserve call-saved register used as syscall arg \\stg %%r6, 48(%%r15) \\ \\# create initial stack frame for new thread \\nill %%r3, 0xfff8 \\aghi %%r3, -160 \\lghi %%r0, 0 \\stg %%r0, 0(%%r3) \\ \\# save fn and arg to child stack \\stg %%r2, 8(%%r3) \\stg %%r5, 16(%%r3) \\ \\# shuffle args into correct registers and call SYS_clone \\lgr %%r2, %%r3 \\lgr %%r3, %%r4 \\lgr %%r4, %%r6 \\lg %%r5, 168(%%r15) \\lg %%r6, 160(%%r15) \\svc 120 \\ \\# restore call-saved register \\lg %%r6, 48(%%r15) \\ \\# if error or if we're the parent, return \\ltgr %%r2, %%r2 \\bnzr %%r14 \\ \\# we're the child ); if (builtin.unwind_tables != .none or !builtin.strip_debug_info) asm volatile ( \\.cfi_undefined %%r14 ); asm volatile ( \\lghi %%r11, 0 \\lghi %%r14, 0 \\ \\# call fn(arg) \\lg %%r1, 8(%%r15) \\lg %%r2, 16(%%r15) \\basr %%r14, %%r1 \\ \\# call SYS_exit. exit code is already in r2 from fn return value \\svc 1 \\ ); } pub const restore = restore_rt; pub fn restore_rt() callconv(.naked) noreturn { asm volatile ( \\svc 0 : : [number] "{r1}" (@intFromEnum(SYS.rt_sigreturn)), : .{ .memory = true }); } 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 GETLK = 5; pub const SETLK = 6; pub const SETLKW = 7; pub const SETOWN = 8; pub const GETOWN = 9; pub const SETSIG = 10; pub const GETSIG = 11; pub const SETOWN_EX = 15; pub const GETOWN_EX = 16; pub const GETOWNER_UIDS = 17; }; pub const blksize_t = i64; pub const nlink_t = u64; pub const time_t = i64; 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; pub const timeval = extern struct { sec: time_t, usec: i64, }; pub const Flock = extern struct { type: i16, whence: i16, start: off_t, len: off_t, pid: pid_t, }; pub const msghdr = extern struct { name: ?*sockaddr, namelen: socklen_t, iov: [*]iovec, __pad1: i32 = 0, iovlen: i32, control: ?*anyopaque, __pad2: i32 = 0, controllen: socklen_t, flags: i32, }; pub const msghdr_const = extern struct { name: ?*const sockaddr, namelen: socklen_t, iov: [*]const iovec_const, __pad1: i32 = 0, iovlen: i32, control: ?*const anyopaque, __pad2: i32 = 0, controllen: socklen_t, flags: i32, }; // The `stat` definition used by the Linux kernel. pub const Stat = extern struct { dev: dev_t, ino: ino_t, nlink: nlink_t, mode: mode_t, uid: uid_t, gid: gid_t, rdev: dev_t, size: off_t, atim: timespec, mtim: timespec, ctim: timespec, blksize: blksize_t, blocks: blkcnt_t, __unused: [3]c_ulong, 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 Elf_Symndx = u64; pub const VDSO = struct { pub const CGT_SYM = "__kernel_clock_gettime"; pub const CGT_VER = "LINUX_2.6.29"; }; pub const ucontext_t = extern struct { flags: u64, link: ?*ucontext_t, stack: stack_t, mcontext: mcontext_t, sigmask: [1024 / @bitSizeOf(c_ulong)]c_ulong, // Currently a libc-compatible (1024-bit) sigmask }; pub const mcontext_t = extern struct { __regs1: [18]u64, __regs2: [18]u32, __regs3: [16]f64, }; /// TODO pub const getcontext = {};