Clang fails to compile the CBE translation of this code ("non-ASM
statement in naked function"). Similar to the implementations of
`restore_rt` on x86 and ARM, when the CBE is in use, this commit employs
alternative inline assembly that avoids using non-immediate input
operands.
In a library, the two `builtin.link_libc` and `builtin.output_mode ==
.Exe` checks could both be false. Thus, you would get a compile error
even if you specified an `env_map` at runtime. This change turns the
compile error into a runtime panic and updates the documentation to
reflect the runtime requirement.
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.
If the compiler happens to pick `ret = r0`, then this will assemble to
`ag r0, 0` which is obviously not what we want. Using `a` instead of `r` will
ensure that we get an appropriate address register, i.e. `r1` through `r15`.
Re-enable pie_linux for s390x-linux which was disabled in
ed7ff0b693.
with field_ptr_load and field_ptr_named_load.
These avoid doing by-val load operations for structs that are
runtime-known while keeping the previous semantics for comptime-known
values.
If `r.end` is updated in the `stream` implementation, then it's possible that `r.end += ...` will behave unexpectedly. What seems to happen is that it reverts back to its value before the function call and then the increment happens. Here's a reproduction:
```zig
test "fill when stream modifies `end` and returns 0" {
var buf: [3]u8 = undefined;
var zero_reader = infiniteZeroes(&buf);
_ = try zero_reader.fill(1);
try std.testing.expectEqual(buf.len, zero_reader.end);
}
pub fn infiniteZeroes(buf: []u8) std.Io.Reader {
return .{
.vtable = &.{
.stream = stream,
},
.buffer = buf,
.end = 0,
.seek = 0,
};
}
fn stream(r: *std.Io.Reader, _: *std.Io.Writer, _: std.Io.Limit) std.Io.Reader.StreamError!usize {
@memset(r.buffer[r.seek..], 0);
r.end = r.buffer.len;
return 0;
}
```
When `fill` is called, it will call into `vtable.readVec` which in this case is `defaultReadVec`. In `defaultReadVec`:
- Before the `r.end += r.vtable.stream` line, `r.end` will be 0
- In `r.vtable.stream`, `r.end` is modified to 3 and it returns 0
- After the `r.end += r.vtable.stream` line, `r.end` will be 0 instead of the expected 3
Separating the `r.end += stream();` into two lines fixes the problem (and this separation is done elsewhere in `Reader` so it seems possible that this class of bug has been encountered before).
Potentially related issues:
- https://github.com/ziglang/zig/issues/4021
- https://github.com/ziglang/zig/issues/12064
This test works by assuming that std.ArrayList will grow with a specific
capacity increasing pattern, which is an invalid assumption. Delete the
offending test.
I measured this against master branch and found no statistical
difference. Since this code is simpler and logically superior due to
always leaving sufficient unused capacity when growing, it is preferred
over status quo.
Adds `addFileContentArg` and `addPrefixedFileContentArg` to pass the content
of a file with a lazy path as an argument to a `std.Build.Step.Run`.
This enables replicating shell `$()` / cmake `execute_process` with `OUTPUT_VARIABLE`
as an input to another `execute_process` in conjuction with `captureStdOut`/`captureStdErr`.
To also be able to replicate `$()` automatically trimming trailing newlines and cmake
`OUTPUT_STRIP_TRAILING_WHITESPACE`, this patch adds an `options` arg to those functions
which allows specifying the desired handling of surrounding whitespace.
The `options` arg also allows to specify a custom `basename` for the output. e.g.
to add a file extension (concrete use case: Zig `@import()` requires files to have a
`.zig`/`.zon` extension to recognize them as valid source files).
The data structure was originally added in
41e1cd185b and then removed in
50a336fff8, but brought back in
711bf55eaa for Decl in the compiler
frontend, and then the last reference to it was eliminated in
548a087faf which removed Decl in favor of
Nav and Cau.
This PR significantly improves the capabilities of the fuzzer.
The changes made to the fuzzer to accomplish this feat mostly include
tracking memory reads from .rodata to determine fresh inputs, new
mutations (especially the ones that insert const values from .rodata
reads and __sanitizer_conv_const_cmp), and minimizing found inputs.
Additionally, the runs per second has greatly been increased due to
generating smaller inputs and avoiding clearing the 8-bit pc counters.
An additional feature added is that the length of the input file is now
stored and the old input file is rerun upon start.
Other changes made to the fuzzer include more logical initialization,
using one shared file `in` for inputs, creating corpus files with
proper sizes, and using hexadecimal-numbered corpus files for
simplicity.
Furthermore, I added several new fuzz tests to gauge the fuzzer's
efficiency. I also tried to add a test for zstandard decompression,
which it crashed within 60,000 runs (less than a second.)
Bug fixes include:
* Fixed a race conditions when multiple fuzzer processes needed to use
the same coverage file.
* Web interface stats now update even when unique runs is not changing.
* Fixed tokenizer.testPropertiesUpheld to allow stray carriage returns
since they are valid whitespace.
* Remove the generic model; we already have generic_la32 and generic_la64 and
pick appropriately based on bitness.
* Remove the loongarch64 model. We used this as our baseline for 64-bit, but it's
actually pretty misleading and useless; it doesn't represent any real CPU and
has less features than generic_la64.
* Add la64v1_0 and la64v1_1 models.
* Change our baseline CPU model for 64-bit to be la64v1_0, thus adding LSX to
the baseline feature set.
Ascon is the family of cryptographic constructions standardized by NIST
for lightweight cryptography.
The Zig standard library already included the Ascon permutation itself,
but higher-level constructions built on top of it were intentionally
postponed until NIST released the final specification.
That specification has now been published as NIST SP 800-232:
https://csrc.nist.gov/pubs/sp/800/232/final
With this publication, we can now confidently include these constructions
in the standard library.
* std.sort.pdq: fix out-of-bounds access in partialInsertionSort
When sorting a sub-range that doesn't start at index 0, the
partialInsertionSort function could access indices below the range
start. The loop condition `while (j >= 1)` didn't respect the
arbitrary range boundaries [a, b).
This changes the condition to `while (j > a)` to ensure indices
never go below the range start, fixing the issue where pdqContext
would access out-of-bounds indices.
Fixes#25250
