Auto merge of #128507 - Oneirical:testart-from-scratch, r=jieyouxu

Migrate `libtest-thread-limit` `run-make` test to rmake

Part of #121876 and the associated [Google Summer of Code project](https://blog.rust-lang.org/2024/05/01/gsoc-2024-selected-projects.html).

Please try, but **only if normal CI is green**:

// try-job: armhf-gnu // <- failed on this
try-job: aarch64-gnu
This commit is contained in:
bors 2024-08-23 18:30:21 +00:00
commit eef00c8be8
7 changed files with 73 additions and 9 deletions

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@ -3129,6 +3129,7 @@ dependencies = [
"bstr", "bstr",
"build_helper", "build_helper",
"gimli 0.31.0", "gimli 0.31.0",
"libc",
"object 0.36.3", "object 0.36.3",
"regex", "regex",
"serde_json", "serde_json",

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@ -12,3 +12,4 @@ regex = "1.8" # 1.8 to avoid memchr 2.6.0, as 2.5.0 is pinned in the workspace
gimli = "0.31.0" gimli = "0.31.0"
build_helper = { path = "../build_helper" } build_helper = { path = "../build_helper" }
serde_json = "1.0" serde_json = "1.0"
libc = "0.2"

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@ -36,6 +36,7 @@ pub mod rfs {
// Re-exports of third-party library crates. // Re-exports of third-party library crates.
pub use bstr; pub use bstr;
pub use gimli; pub use gimli;
pub use libc;
pub use object; pub use object;
pub use regex; pub use regex;
pub use serde_json; pub use serde_json;

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@ -6,7 +6,6 @@ run-make/incr-add-rust-src-component/Makefile
run-make/issue-84395-lto-embed-bitcode/Makefile run-make/issue-84395-lto-embed-bitcode/Makefile
run-make/jobserver-error/Makefile run-make/jobserver-error/Makefile
run-make/libs-through-symlinks/Makefile run-make/libs-through-symlinks/Makefile
run-make/libtest-thread-limit/Makefile
run-make/macos-deployment-target/Makefile run-make/macos-deployment-target/Makefile
run-make/split-debuginfo/Makefile run-make/split-debuginfo/Makefile
run-make/symbol-mangling-hashed/Makefile run-make/symbol-mangling-hashed/Makefile

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@ -1,7 +0,0 @@
include ../tools.mk
# only-linux
all:
$(RUSTC) test.rs --test --target $(TARGET)
$(shell ulimit -p 0 && $(call RUN,test))

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@ -0,0 +1,64 @@
// libtest used to panic if it hit the thread limit. This often resulted in spurious test failures
// (thread 'main' panicked at 'called Result::unwrap() on an Err value: Os
// { code: 11, kind: WouldBlock, message: "Resource temporarily unavailable" }' ...
// error: test failed, to rerun pass '--lib').
// Since the fix in #81546, the test should continue to run synchronously
// if it runs out of threads. Therefore, this test's final execution step
// should succeed without an error.
// See https://github.com/rust-lang/rust/pull/81546
//@ only-linux
// Reason: thread limit modification
//@ ignore-cross-compile
// Reason: this test fails armhf-gnu, reasons unknown
use std::ffi::{self, CStr, CString};
use std::path::PathBuf;
use run_make_support::{libc, run, rustc};
fn main() {
rustc().input("test.rs").arg("--test").run();
// We need to emulate an environment for libtest where threads are exhausted and spawning
// new threads are guaranteed to fail. This was previously achieved by ulimit shell builtin
// that called out to prlimit64 underneath to set resource limits (specifically thread
// number limits). Now that we don't have a shell, we need to implement that ourselves.
// See https://linux.die.net/man/2/setrlimit
// The fork + exec is required because we cannot first try to limit the number of
// processes/threads to 1 and then try to spawn a new process to run the test. We need to
// setrlimit and run the libtest test program in the same process.
let pid = unsafe { libc::fork() };
assert!(pid >= 0);
// If the process ID is 0, this is the child process responsible for running the test
// program.
if pid == 0 {
let test = CString::new("test").unwrap();
// The argv array should be terminated with a NULL pointer.
let argv = [test.as_ptr(), std::ptr::null()];
// rlim_cur is soft limit, rlim_max is hard limit.
// By setting the limit very low (max 1), we ensure that libtest is unable to create new
// threads.
let rlimit = libc::rlimit { rlim_cur: 1, rlim_max: 1 };
// RLIMIT_NPROC: The maximum number of processes (or, more precisely on Linux,
// threads) that can be created for the real user ID of the calling process. Upon
// encountering this limit, fork(2) fails with the error EAGAIN.
// Therefore, set the resource limit to RLIMIT_NPROC.
let ret = unsafe { libc::setrlimit(libc::RLIMIT_NPROC, &rlimit as *const libc::rlimit) };
assert_eq!(ret, 0);
// Finally, execute the 2 tests in test.rs.
let ret = unsafe { libc::execv(test.as_ptr(), argv.as_ptr()) };
assert_eq!(ret, 0);
} else {
// Otherwise, other process IDs indicate that this is the parent process.
let mut status: libc::c_int = 0;
let ret = unsafe { libc::waitpid(pid, &mut status as *mut libc::c_int, 0) };
assert_eq!(ret, pid);
assert!(libc::WIFEXITED(status));
assert_eq!(libc::WEXITSTATUS(status), 0);
}
}

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@ -10,7 +10,12 @@ fn spawn_thread_would_block() {
THREAD_ID.set(thread::current().id()).unwrap(); THREAD_ID.set(thread::current().id()).unwrap();
} }
// Tests are run in alphabetical order, and the second test is dependent on the
// first to set THREAD_ID. Do not rename the tests in such a way that `test_run_in_same_thread`
// would run before `spawn_thread_would_block`.
// See https://doc.rust-lang.org/rustc/tests/index.html#--shuffle
#[test] #[test]
fn run_in_same_thread() { fn test_run_in_same_thread() {
assert_eq!(*THREAD_ID.get().unwrap(), thread::current().id()); assert_eq!(*THREAD_ID.get().unwrap(), thread::current().id());
} }