const builtin = @import("builtin"); const std = @import("../../std.zig"); const SYS = std.os.linux.SYS; pub const syscall_arg_t = u64; pub fn syscall0( number: SYS, ) u64 { return asm volatile ("svc #0" : [ret] "={x0}" (-> u64), : [number] "{x8}" (@intFromEnum(number)), : .{ .memory = true }); } pub fn syscall1( number: SYS, arg1: syscall_arg_t, ) u64 { return asm volatile ("svc #0" : [ret] "={x0}" (-> u64), : [number] "{x8}" (@intFromEnum(number)), [arg1] "{x0}" (arg1), : .{ .memory = true }); } pub fn syscall2( number: SYS, arg1: syscall_arg_t, arg2: syscall_arg_t, ) u64 { return asm volatile ("svc #0" : [ret] "={x0}" (-> u64), : [number] "{x8}" (@intFromEnum(number)), [arg1] "{x0}" (arg1), [arg2] "{x1}" (arg2), : .{ .memory = true }); } pub fn syscall3( number: SYS, arg1: syscall_arg_t, arg2: syscall_arg_t, arg3: syscall_arg_t, ) u64 { return asm volatile ("svc #0" : [ret] "={x0}" (-> u64), : [number] "{x8}" (@intFromEnum(number)), [arg1] "{x0}" (arg1), [arg2] "{x1}" (arg2), [arg3] "{x2}" (arg3), : .{ .memory = true }); } pub fn syscall4( number: SYS, arg1: syscall_arg_t, arg2: syscall_arg_t, arg3: syscall_arg_t, arg4: syscall_arg_t, ) u64 { return asm volatile ("svc #0" : [ret] "={x0}" (-> u64), : [number] "{x8}" (@intFromEnum(number)), [arg1] "{x0}" (arg1), [arg2] "{x1}" (arg2), [arg3] "{x2}" (arg3), [arg4] "{x3}" (arg4), : .{ .memory = true }); } pub fn syscall5( number: SYS, arg1: syscall_arg_t, arg2: syscall_arg_t, arg3: syscall_arg_t, arg4: syscall_arg_t, arg5: syscall_arg_t, ) u64 { return asm volatile ("svc #0" : [ret] "={x0}" (-> u64), : [number] "{x8}" (@intFromEnum(number)), [arg1] "{x0}" (arg1), [arg2] "{x1}" (arg2), [arg3] "{x2}" (arg3), [arg4] "{x3}" (arg4), [arg5] "{x4}" (arg5), : .{ .memory = true }); } pub fn syscall6( number: SYS, arg1: syscall_arg_t, arg2: syscall_arg_t, arg3: syscall_arg_t, arg4: syscall_arg_t, arg5: syscall_arg_t, arg6: syscall_arg_t, ) u64 { return asm volatile ("svc #0" : [ret] "={x0}" (-> u64), : [number] "{x8}" (@intFromEnum(number)), [arg1] "{x0}" (arg1), [arg2] "{x1}" (arg2), [arg3] "{x2}" (arg3), [arg4] "{x3}" (arg4), [arg5] "{x4}" (arg5), [arg6] "{x5}" (arg6), : .{ .memory = true }); } pub fn clone() callconv(.naked) u64 { // __clone(func, stack, flags, arg, ptid, tls, ctid) // x0, x1, w2, x3, x4, x5, x6 // // syscall(SYS_clone, flags, stack, ptid, tls, ctid) // x8, x0, x1, x2, x3, x4 asm volatile ( \\ // align stack and save func,arg \\ and x1,x1,#-16 \\ stp x0,x3,[x1,#-16]! \\ \\ // syscall \\ uxtw x0,w2 \\ mov x2,x4 \\ mov x3,x5 \\ mov x4,x6 \\ mov x8,#220 // SYS_clone \\ svc #0 \\ \\ cbz x0,1f \\ // parent \\ ret \\ \\ // child \\1: ); if (builtin.unwind_tables != .none or !builtin.strip_debug_info) asm volatile ( \\ .cfi_undefined lr ); asm volatile ( \\ mov fp, 0 \\ mov lr, 0 \\ \\ ldp x1,x0,[sp],#16 \\ blr x1 \\ mov x8,#93 // SYS_exit \\ svc #0 ); } pub const restore = restore_rt; pub fn restore_rt() callconv(.naked) noreturn { switch (builtin.zig_backend) { .stage2_c => asm volatile ( \\ mov x8, %[number] \\ svc #0 : : [number] "i" (@intFromEnum(SYS.rt_sigreturn)), ), else => asm volatile ( \\ svc #0 : : [number] "{x8}" (@intFromEnum(SYS.rt_sigreturn)), ), } } pub const VDSO = struct { pub const CGT_SYM = "__kernel_clock_gettime"; pub const CGT_VER = "LINUX_2.6.39"; }; pub const time_t = i64;