Getting this error in ci:
run test std-arm-linux-none-generic-Debug: error: 'test.accept/connect/send_zc/recv' failed: /home/ci/actions-runner1/_work/zig/zig/lib/std/os/linux/io_uring.zig:60:23: 0x70b06b in init_params (test)
.NOSYS => return error.SystemOutdated,
^
/home/ci/actions-runner1/_work/zig/zig/lib/std/os/linux/io_uring.zig:27:16: 0x70b6b7 in init (test)
return try IO_Uring.init_params(entries, ¶ms);
^
/home/ci/actions-runner1/_work/zig/zig/lib/std/os/linux/io_uring.zig:3807:16: 0x72405b in test.accept/connect/send_zc/recv (test)
var ring = try IO_Uring.init(16, 0);
https://github.com/ziglang/zig/actions/runs/6909813408/job/18801841015?pr=18025
Reverting previous change.
I'm building test bin and then running it in virtual machines with different
kernels. So Linux kernel checks has to be runtime instead of comptime.
So far we relied on getting EINVAL in CQE for operations that kernel don't
support. The problem with that approach is that there are many other reasons
(like wrong params) to get EINVAL. The other problem is when we have an
operation that existed before and gets new behavior via different attributes,
like accept and accept_direct. Older kernels can fall back to non direct
operation although we set attributes for direct operation. Operation completes
successfully in both cases but with different results.
This commit introduces kernel version check at the start of the test. Making
body of the test free of checking for various kernel version differences.
Feature availability references:
* https://manpages.debian.org/unstable/liburing-dev/io_uring_enter.2.en.html
* https://kernel.dk/axboe-kr2022.pdf
* 5acf7969bc/lib/std/os/linux.zig (L3727)
* 5acf7969bc/lib/std/os/linux.zig (L3993)
The idea here is that the zig2 executable is perhaps the more useful
deliverable until we implement our own optimization passes. This will
allow system packages to provide Zig, and use it to compile Zig
projects, all without LLVM!
The motivating problem here was a memory leak in the hash maps of
Module.Namespace.
The commit deletes more of the legacy incremental compilation
implementation. It had things like use of orderedRemove and trying to do
too much OOP-style creation and deletion of objects.
Instead, this commit iterates over all the namespaces on Module deinit
and calls deinit on the hash map fields. This logic is much simpler to
reason about.
Similarly, change global inline assembly to an array hash map since
iterating over the values is a primary use of it, and clean up the
remaining values on Module deinit, solving another memory leak.
After this there are no more memory leaks remaining when using the
x86 backend in a libc-less compiler.
When a zig compiler without LLVM extensions is satisfactory, this
greatly simplified build-from-source process can be used.
This could be useful for users who only want to contribute to the
standard library, for example.
