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Rollup merge of rust-lang#128362 - folkertdev:naked-function-symbol-v…
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…isibility, r=bjorn3

add test for symbol visibility of `#[naked]` functions

tracking issue: rust-lang#90957

This test is extracted from rust-lang#128004

That PR attempts to generated naked functions as an extern function declaration, combined with a global asm block that provides the implementation for that declaration.

In order to link declaration and definition together, some flavor of external linking must be used: LLVM will error for other linkage types. Specifically the allowed options are `#[linkage = "external"]` and `#[linkage = "extern_weak"]`. That is kind of an implementation detail though: to the user, a naked function should just behave like a normal function.

Hence it should be visible to the linker under the same circumstances as a normal, vanilla function and have the same attributes (Weak, External). Getting this behavior right will require some care, so I think it's a good idea to lock it in now, before making any changes, to make sure we don't regress.

Are there any interesting cases that I missed here? E.g. is checking on different architectures worth it? I don't think the other binary types (rlib etc) are relevant here, but may be missing something.

r? `@bjorn3`
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matthiaskrgr authored Aug 4, 2024
2 parents 5c3746c + 5ee6701 commit e4d9a38
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87 changes: 87 additions & 0 deletions tests/run-make/naked-symbol-visibility/a_rust_dylib.rs
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#![feature(naked_functions, asm_const, linkage)]
#![crate_type = "dylib"]

use std::arch::asm;

pub trait TraitWithConst {
const COUNT: u32;
}

struct Test;

impl TraitWithConst for Test {
const COUNT: u32 = 1;
}

#[no_mangle]
fn entry() {
private_vanilla_rust_function_from_rust_dylib();
private_naked_rust_function_from_rust_dylib();

public_vanilla_generic_function_from_rust_dylib::<Test>();
public_naked_generic_function_from_rust_dylib::<Test>();
}

extern "C" fn private_vanilla_rust_function_from_rust_dylib() -> u32 {
42
}

#[no_mangle]
pub extern "C" fn public_vanilla_rust_function_from_rust_dylib() -> u32 {
42
}

pub extern "C" fn public_vanilla_generic_function_from_rust_dylib<T: TraitWithConst>() -> u32 {
T::COUNT
}

#[linkage = "weak"]
extern "C" fn vanilla_weak_linkage() -> u32 {
42
}

#[linkage = "external"]
extern "C" fn vanilla_external_linkage() -> u32 {
42
}

#[naked]
extern "C" fn private_naked_rust_function_from_rust_dylib() -> u32 {
unsafe { asm!("mov rax, 42", "ret", options(noreturn)) }
}

#[naked]
#[no_mangle]
pub extern "C" fn public_naked_rust_function_from_rust_dylib() -> u32 {
unsafe { asm!("mov rax, 42", "ret", options(noreturn)) }
}

#[naked]
pub extern "C" fn public_naked_generic_function_from_rust_dylib<T: TraitWithConst>() -> u32 {
unsafe { asm!("mov rax, {}", "ret", const T::COUNT, options(noreturn)) }
}

#[naked]
#[linkage = "weak"]
extern "C" fn naked_weak_linkage() -> u32 {
unsafe { asm!("mov rax, 42", "ret", options(noreturn)) }
}

#[naked]
#[linkage = "external"]
extern "C" fn naked_external_linkage() -> u32 {
unsafe { asm!("mov rax, 42", "ret", options(noreturn)) }
}

// functions that are declared in an `extern "C"` block are currently not exported
// this maybe should change in the future, this is just tracking the current behavior
// reported in https://github.com/rust-lang/rust/issues/128071
std::arch::global_asm! {
".globl function_defined_in_global_asm",
"function_defined_in_global_asm:",
"ret",
}

extern "C" {
pub fn function_defined_in_global_asm();
}
80 changes: 80 additions & 0 deletions tests/run-make/naked-symbol-visibility/rmake.rs
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//@ only-x86_64
use run_make_support::object::read::{File, Object, Symbol};
use run_make_support::object::ObjectSymbol;
use run_make_support::{dynamic_lib_name, rfs, rustc};

fn main() {
let rdylib_name = dynamic_lib_name("a_rust_dylib");
rustc().arg("-Zshare-generics=no").input("a_rust_dylib.rs").run();

let binary_data = rfs::read(&rdylib_name);
let rdylib = File::parse(&*binary_data).unwrap();

// check vanilla symbols
not_exported(&rdylib, "private_vanilla_rust_function_from_rust_dylib");
global_function(&rdylib, "public_vanilla_rust_function_from_rust_dylib");
not_exported(&rdylib, "public_vanilla_generic_function_from_rust_dylib");

weak_function(&rdylib, "vanilla_weak_linkage");
global_function(&rdylib, "vanilla_external_linkage");

// naked should mirror vanilla
not_exported(&rdylib, "private_naked_rust_function_from_rust_dylib");
global_function(&rdylib, "public_naked_rust_function_from_rust_dylib");
not_exported(&rdylib, "public_naked_generic_function_from_rust_dylib");

weak_function(&rdylib, "naked_weak_linkage");
global_function(&rdylib, "naked_external_linkage");

// functions that are declared in an `extern "C"` block are currently not exported
// this maybe should change in the future, this is just tracking the current behavior
// reported in https://github.com/rust-lang/rust/issues/128071
not_exported(&rdylib, "function_defined_in_global_asm");

// share generics should expose the generic functions
rustc().arg("-Zshare-generics=yes").input("a_rust_dylib.rs").run();
let binary_data = rfs::read(&rdylib_name);
let rdylib = File::parse(&*binary_data).unwrap();

global_function(&rdylib, "public_vanilla_generic_function_from_rust_dylib");
global_function(&rdylib, "public_naked_generic_function_from_rust_dylib");
}

#[track_caller]
fn global_function(file: &File, symbol_name: &str) {
let symbols = find_dynamic_symbol(file, symbol_name);
let [symbol] = symbols.as_slice() else {
panic!("symbol {symbol_name} occurs {} times", symbols.len())
};

assert!(symbol.is_definition(), "`{symbol_name}` is not a function");
assert!(symbol.is_global(), "`{symbol_name}` is not marked as global");
}

#[track_caller]
fn weak_function(file: &File, symbol_name: &str) {
let symbols = find_dynamic_symbol(file, symbol_name);
let [symbol] = symbols.as_slice() else {
panic!("symbol {symbol_name} occurs {} times", symbols.len())
};

assert!(symbol.is_definition(), "`{symbol_name}` is not a function");
assert!(symbol.is_weak(), "`{symbol_name}` is not marked as weak");
}

#[track_caller]
fn not_exported(file: &File, symbol_name: &str) {
assert_eq!(find_dynamic_symbol(file, symbol_name).len(), 0)
}

fn find_dynamic_symbol<'file, 'data>(
file: &'file File<'data>,
expected: &str,
) -> Vec<Symbol<'data, 'file>> {
file.dynamic_symbols()
.filter(|symbol| {
let name = symbol.name().unwrap();
!name.contains("__imp_") && name.contains(expected)
})
.collect()
}

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