commit bdca0f93c4b9527acba9a956e767be63b073280e (tree)
parent ba137783ed4152ebe8d7b98dca855c551fc924a7
Author: taylor.fish <contact@taylor.fish>
Date: Sat, 13 Sep 2025 17:17:18 -0700
Fix PowerPC syscalls causing invalid code from CBE
Fixes #25209.
On PowerPC, some registers are both inputs to syscalls and clobbered by
them. An example is r0, which initially contains the syscall number, but
may be overwritten during execution of the syscall.
musl and glibc use a `+` (read-write) constraint to indicate this, which
isn't supported in Zig. The current implementation of PowerPC syscalls
in the Zig standard library instead lists these registers as both inputs
and clobbers, but this results in the C backend generating code that is
invalid for at least some C compilers, like GCC, which doesn't support
the specifying the same register as both an input and a clobber.
This PR changes the PowerPC syscall functions to list such registers as
inputs and outputs rather than inputs and clobbers. Thanks to jacobly0
who pointed out that it's possible to have multiple outputs; I had
gotten the wrong idea from the documentation.
Diffstat:
2 files changed, 122 insertions(+), 14 deletions(-)
diff --git a/lib/std/os/linux/powerpc.zig b/lib/std/os/linux/powerpc.zig
@@ -15,84 +15,125 @@ const sockaddr = linux.sockaddr;
const timespec = linux.timespec;
pub fn syscall0(number: SYS) usize {
+ // r0 is both an input register and a clobber. musl and glibc achieve this with
+ // a "+" constraint, which isn't supported in Zig, so instead we separately list
+ // r0 as both an input and an output. (Listing it as an input and a clobber would
+ // cause the C backend to emit invalid code; see #25209.)
+ var r0_out: usize = undefined;
return asm volatile (
\\ sc
\\ bns+ 1f
\\ neg 3, 3
\\ 1:
: [ret] "={r3}" (-> usize),
+ [r0_out] "={r0}" (r0_out),
: [number] "{r0}" (@intFromEnum(number)),
- : .{ .memory = true, .cr0 = true, .r0 = true, .r4 = true, .r5 = true, .r6 = true, .r7 = true, .r8 = true, .r9 = true, .r10 = true, .r11 = true, .r12 = true, .ctr = true, .xer = true });
+ : .{ .memory = true, .cr0 = true, .r4 = true, .r5 = true, .r6 = true, .r7 = true, .r8 = true, .r9 = true, .r10 = true, .r11 = true, .r12 = true, .ctr = true, .xer = true });
}
pub fn syscall1(number: SYS, arg1: usize) usize {
+ // r0 is both an input and a clobber.
+ var r0_out: usize = undefined;
return asm volatile (
\\ sc
\\ bns+ 1f
\\ neg 3, 3
\\ 1:
: [ret] "={r3}" (-> usize),
+ [r0_out] "={r0}" (r0_out),
: [number] "{r0}" (@intFromEnum(number)),
[arg1] "{r3}" (arg1),
- : .{ .memory = true, .cr0 = true, .r0 = true, .r4 = true, .r5 = true, .r6 = true, .r7 = true, .r8 = true, .r9 = true, .r10 = true, .r11 = true, .r12 = true, .ctr = true, .xer = true });
+ : .{ .memory = true, .cr0 = true, .r4 = true, .r5 = true, .r6 = true, .r7 = true, .r8 = true, .r9 = true, .r10 = true, .r11 = true, .r12 = true, .ctr = true, .xer = true });
}
pub fn syscall2(number: SYS, arg1: usize, arg2: usize) usize {
+ // These registers are both inputs and clobbers.
+ var r0_out: usize = undefined;
+ var r4_out: usize = undefined;
return asm volatile (
\\ sc
\\ bns+ 1f
\\ neg 3, 3
\\ 1:
: [ret] "={r3}" (-> usize),
+ [r0_out] "={r0}" (r0_out),
+ [r4_out] "={r4}" (r4_out),
: [number] "{r0}" (@intFromEnum(number)),
[arg1] "{r3}" (arg1),
[arg2] "{r4}" (arg2),
- : .{ .memory = true, .cr0 = true, .r0 = true, .r4 = true, .r5 = true, .r6 = true, .r7 = true, .r8 = true, .r9 = true, .r10 = true, .r11 = true, .r12 = true, .ctr = true, .xer = true });
+ : .{ .memory = true, .cr0 = true, .r5 = true, .r6 = true, .r7 = true, .r8 = true, .r9 = true, .r10 = true, .r11 = true, .r12 = true, .ctr = true, .xer = true });
}
pub fn syscall3(number: SYS, arg1: usize, arg2: usize, arg3: usize) usize {
+ // These registers are both inputs and clobbers.
+ var r0_out: usize = undefined;
+ var r4_out: usize = undefined;
+ var r5_out: usize = undefined;
return asm volatile (
\\ sc
\\ bns+ 1f
\\ neg 3, 3
\\ 1:
: [ret] "={r3}" (-> usize),
+ [r0_out] "={r0}" (r0_out),
+ [r4_out] "={r4}" (r4_out),
+ [r5_out] "={r5}" (r5_out),
: [number] "{r0}" (@intFromEnum(number)),
[arg1] "{r3}" (arg1),
[arg2] "{r4}" (arg2),
[arg3] "{r5}" (arg3),
- : .{ .memory = true, .cr0 = true, .r0 = true, .r4 = true, .r5 = true, .r6 = true, .r7 = true, .r8 = true, .r9 = true, .r10 = true, .r11 = true, .r12 = true, .ctr = true, .xer = true });
+ : .{ .memory = true, .cr0 = true, .r6 = true, .r7 = true, .r8 = true, .r9 = true, .r10 = true, .r11 = true, .r12 = true, .ctr = true, .xer = true });
}
pub fn syscall4(number: SYS, arg1: usize, arg2: usize, arg3: usize, arg4: usize) usize {
+ // These registers are both inputs and clobbers.
+ var r0_out: usize = undefined;
+ var r4_out: usize = undefined;
+ var r5_out: usize = undefined;
+ var r6_out: usize = undefined;
return asm volatile (
\\ sc
\\ bns+ 1f
\\ neg 3, 3
\\ 1:
: [ret] "={r3}" (-> usize),
+ [r0_out] "={r0}" (r0_out),
+ [r4_out] "={r4}" (r4_out),
+ [r5_out] "={r5}" (r5_out),
+ [r6_out] "={r6}" (r6_out),
: [number] "{r0}" (@intFromEnum(number)),
[arg1] "{r3}" (arg1),
[arg2] "{r4}" (arg2),
[arg3] "{r5}" (arg3),
[arg4] "{r6}" (arg4),
- : .{ .memory = true, .cr0 = true, .r0 = true, .r4 = true, .r5 = true, .r6 = true, .r7 = true, .r8 = true, .r9 = true, .r10 = true, .r11 = true, .r12 = true, .ctr = true, .xer = true });
+ : .{ .memory = true, .cr0 = true, .r7 = true, .r8 = true, .r9 = true, .r10 = true, .r11 = true, .r12 = true, .ctr = true, .xer = true });
}
pub fn syscall5(number: SYS, arg1: usize, arg2: usize, arg3: usize, arg4: usize, arg5: usize) usize {
+ // These registers are both inputs and clobbers.
+ var r0_out: usize = undefined;
+ var r4_out: usize = undefined;
+ var r5_out: usize = undefined;
+ var r6_out: usize = undefined;
+ var r7_out: usize = undefined;
return asm volatile (
\\ sc
\\ bns+ 1f
\\ neg 3, 3
\\ 1:
: [ret] "={r3}" (-> usize),
+ [r0_out] "={r0}" (r0_out),
+ [r4_out] "={r4}" (r4_out),
+ [r5_out] "={r5}" (r5_out),
+ [r6_out] "={r6}" (r6_out),
+ [r7_out] "={r7}" (r7_out),
: [number] "{r0}" (@intFromEnum(number)),
[arg1] "{r3}" (arg1),
[arg2] "{r4}" (arg2),
[arg3] "{r5}" (arg3),
[arg4] "{r6}" (arg4),
[arg5] "{r7}" (arg5),
- : .{ .memory = true, .cr0 = true, .r0 = true, .r4 = true, .r5 = true, .r6 = true, .r7 = true, .r8 = true, .r9 = true, .r10 = true, .r11 = true, .r12 = true, .ctr = true, .xer = true });
+ : .{ .memory = true, .cr0 = true, .r8 = true, .r9 = true, .r10 = true, .r11 = true, .r12 = true, .ctr = true, .xer = true });
}
pub fn syscall6(
@@ -104,12 +145,25 @@ pub fn syscall6(
arg5: usize,
arg6: usize,
) usize {
+ // These registers are both inputs and clobbers.
+ var r0_out: usize = undefined;
+ var r4_out: usize = undefined;
+ var r5_out: usize = undefined;
+ var r6_out: usize = undefined;
+ var r7_out: usize = undefined;
+ var r8_out: usize = undefined;
return asm volatile (
\\ sc
\\ bns+ 1f
\\ neg 3, 3
\\ 1:
: [ret] "={r3}" (-> usize),
+ [r0_out] "={r0}" (r0_out),
+ [r4_out] "={r4}" (r4_out),
+ [r5_out] "={r5}" (r5_out),
+ [r6_out] "={r6}" (r6_out),
+ [r7_out] "={r7}" (r7_out),
+ [r8_out] "={r8}" (r8_out),
: [number] "{r0}" (@intFromEnum(number)),
[arg1] "{r3}" (arg1),
[arg2] "{r4}" (arg2),
@@ -117,7 +171,7 @@ pub fn syscall6(
[arg4] "{r6}" (arg4),
[arg5] "{r7}" (arg5),
[arg6] "{r8}" (arg6),
- : .{ .memory = true, .cr0 = true, .r0 = true, .r4 = true, .r5 = true, .r6 = true, .r7 = true, .r8 = true, .r9 = true, .r10 = true, .r11 = true, .r12 = true, .ctr = true, .xer = true });
+ : .{ .memory = true, .cr0 = true, .r9 = true, .r10 = true, .r11 = true, .r12 = true, .ctr = true, .xer = true });
}
pub fn clone() callconv(.naked) usize {
diff --git a/lib/std/os/linux/powerpc64.zig b/lib/std/os/linux/powerpc64.zig
@@ -15,84 +15,125 @@ const sockaddr = linux.sockaddr;
const timespec = linux.timespec;
pub fn syscall0(number: SYS) usize {
+ // r0 is both an input register and a clobber. musl and glibc achieve this with
+ // a "+" constraint, which isn't supported in Zig, so instead we separately list
+ // r0 as both an input and an output. (Listing it as an input and a clobber would
+ // cause the C backend to emit invalid code; see #25209.)
+ var r0_out: usize = undefined;
return asm volatile (
\\ sc
\\ bns+ 1f
\\ neg 3, 3
\\ 1:
: [ret] "={r3}" (-> usize),
+ [r0_out] "={r0}" (r0_out),
: [number] "{r0}" (@intFromEnum(number)),
- : .{ .memory = true, .cr0 = true, .r0 = true, .r4 = true, .r5 = true, .r6 = true, .r7 = true, .r8 = true, .r9 = true, .r10 = true, .r11 = true, .r12 = true, .ctr = true, .xer = true });
+ : .{ .memory = true, .cr0 = true, .r4 = true, .r5 = true, .r6 = true, .r7 = true, .r8 = true, .r9 = true, .r10 = true, .r11 = true, .r12 = true, .ctr = true, .xer = true });
}
pub fn syscall1(number: SYS, arg1: usize) usize {
+ // r0 is both an input and a clobber.
+ var r0_out: usize = undefined;
return asm volatile (
\\ sc
\\ bns+ 1f
\\ neg 3, 3
\\ 1:
: [ret] "={r3}" (-> usize),
+ [r0_out] "={r0}" (r0_out),
: [number] "{r0}" (@intFromEnum(number)),
[arg1] "{r3}" (arg1),
- : .{ .memory = true, .cr0 = true, .r0 = true, .r4 = true, .r5 = true, .r6 = true, .r7 = true, .r8 = true, .r9 = true, .r10 = true, .r11 = true, .r12 = true, .ctr = true, .xer = true });
+ : .{ .memory = true, .cr0 = true, .r4 = true, .r5 = true, .r6 = true, .r7 = true, .r8 = true, .r9 = true, .r10 = true, .r11 = true, .r12 = true, .ctr = true, .xer = true });
}
pub fn syscall2(number: SYS, arg1: usize, arg2: usize) usize {
+ // These registers are both inputs and clobbers.
+ var r0_out: usize = undefined;
+ var r4_out: usize = undefined;
return asm volatile (
\\ sc
\\ bns+ 1f
\\ neg 3, 3
\\ 1:
: [ret] "={r3}" (-> usize),
+ [r0_out] "={r0}" (r0_out),
+ [r4_out] "={r4}" (r4_out),
: [number] "{r0}" (@intFromEnum(number)),
[arg1] "{r3}" (arg1),
[arg2] "{r4}" (arg2),
- : .{ .memory = true, .cr0 = true, .r0 = true, .r4 = true, .r5 = true, .r6 = true, .r7 = true, .r8 = true, .r9 = true, .r10 = true, .r11 = true, .r12 = true, .ctr = true, .xer = true });
+ : .{ .memory = true, .cr0 = true, .r5 = true, .r6 = true, .r7 = true, .r8 = true, .r9 = true, .r10 = true, .r11 = true, .r12 = true, .ctr = true, .xer = true });
}
pub fn syscall3(number: SYS, arg1: usize, arg2: usize, arg3: usize) usize {
+ // These registers are both inputs and clobbers.
+ var r0_out: usize = undefined;
+ var r4_out: usize = undefined;
+ var r5_out: usize = undefined;
return asm volatile (
\\ sc
\\ bns+ 1f
\\ neg 3, 3
\\ 1:
: [ret] "={r3}" (-> usize),
+ [r0_out] "={r0}" (r0_out),
+ [r4_out] "={r4}" (r4_out),
+ [r5_out] "={r5}" (r5_out),
: [number] "{r0}" (@intFromEnum(number)),
[arg1] "{r3}" (arg1),
[arg2] "{r4}" (arg2),
[arg3] "{r5}" (arg3),
- : .{ .memory = true, .cr0 = true, .r0 = true, .r4 = true, .r5 = true, .r6 = true, .r7 = true, .r8 = true, .r9 = true, .r10 = true, .r11 = true, .r12 = true, .ctr = true, .xer = true });
+ : .{ .memory = true, .cr0 = true, .r6 = true, .r7 = true, .r8 = true, .r9 = true, .r10 = true, .r11 = true, .r12 = true, .ctr = true, .xer = true });
}
pub fn syscall4(number: SYS, arg1: usize, arg2: usize, arg3: usize, arg4: usize) usize {
+ // These registers are both inputs and clobbers.
+ var r0_out: usize = undefined;
+ var r4_out: usize = undefined;
+ var r5_out: usize = undefined;
+ var r6_out: usize = undefined;
return asm volatile (
\\ sc
\\ bns+ 1f
\\ neg 3, 3
\\ 1:
: [ret] "={r3}" (-> usize),
+ [r0_out] "={r0}" (r0_out),
+ [r4_out] "={r4}" (r4_out),
+ [r5_out] "={r5}" (r5_out),
+ [r6_out] "={r6}" (r6_out),
: [number] "{r0}" (@intFromEnum(number)),
[arg1] "{r3}" (arg1),
[arg2] "{r4}" (arg2),
[arg3] "{r5}" (arg3),
[arg4] "{r6}" (arg4),
- : .{ .memory = true, .cr0 = true, .r0 = true, .r4 = true, .r5 = true, .r6 = true, .r7 = true, .r8 = true, .r9 = true, .r10 = true, .r11 = true, .r12 = true, .ctr = true, .xer = true });
+ : .{ .memory = true, .cr0 = true, .r7 = true, .r8 = true, .r9 = true, .r10 = true, .r11 = true, .r12 = true, .ctr = true, .xer = true });
}
pub fn syscall5(number: SYS, arg1: usize, arg2: usize, arg3: usize, arg4: usize, arg5: usize) usize {
+ // These registers are both inputs and clobbers.
+ var r0_out: usize = undefined;
+ var r4_out: usize = undefined;
+ var r5_out: usize = undefined;
+ var r6_out: usize = undefined;
+ var r7_out: usize = undefined;
return asm volatile (
\\ sc
\\ bns+ 1f
\\ neg 3, 3
\\ 1:
: [ret] "={r3}" (-> usize),
+ [r0_out] "={r0}" (r0_out),
+ [r4_out] "={r4}" (r4_out),
+ [r5_out] "={r5}" (r5_out),
+ [r6_out] "={r6}" (r6_out),
+ [r7_out] "={r7}" (r7_out),
: [number] "{r0}" (@intFromEnum(number)),
[arg1] "{r3}" (arg1),
[arg2] "{r4}" (arg2),
[arg3] "{r5}" (arg3),
[arg4] "{r6}" (arg4),
[arg5] "{r7}" (arg5),
- : .{ .memory = true, .cr0 = true, .r0 = true, .r4 = true, .r5 = true, .r6 = true, .r7 = true, .r8 = true, .r9 = true, .r10 = true, .r11 = true, .r12 = true, .ctr = true, .xer = true });
+ : .{ .memory = true, .cr0 = true, .r8 = true, .r9 = true, .r10 = true, .r11 = true, .r12 = true, .ctr = true, .xer = true });
}
pub fn syscall6(
@@ -104,12 +145,25 @@ pub fn syscall6(
arg5: usize,
arg6: usize,
) usize {
+ // These registers are both inputs and clobbers.
+ var r0_out: usize = undefined;
+ var r4_out: usize = undefined;
+ var r5_out: usize = undefined;
+ var r6_out: usize = undefined;
+ var r7_out: usize = undefined;
+ var r8_out: usize = undefined;
return asm volatile (
\\ sc
\\ bns+ 1f
\\ neg 3, 3
\\ 1:
: [ret] "={r3}" (-> usize),
+ [r0_out] "={r0}" (r0_out),
+ [r4_out] "={r4}" (r4_out),
+ [r5_out] "={r5}" (r5_out),
+ [r6_out] "={r6}" (r6_out),
+ [r7_out] "={r7}" (r7_out),
+ [r8_out] "={r8}" (r8_out),
: [number] "{r0}" (@intFromEnum(number)),
[arg1] "{r3}" (arg1),
[arg2] "{r4}" (arg2),
@@ -117,7 +171,7 @@ pub fn syscall6(
[arg4] "{r6}" (arg4),
[arg5] "{r7}" (arg5),
[arg6] "{r8}" (arg6),
- : .{ .memory = true, .cr0 = true, .r0 = true, .r4 = true, .r5 = true, .r6 = true, .r7 = true, .r8 = true, .r9 = true, .r10 = true, .r11 = true, .r12 = true, .ctr = true, .xer = true });
+ : .{ .memory = true, .cr0 = true, .r9 = true, .r10 = true, .r11 = true, .r12 = true, .ctr = true, .xer = true });
}
pub fn clone() callconv(.naked) usize {
