tests/run-make/naked-symbol-visibility/rmake.rs - toolchain/rustc - Git at Google

 //@ ignore-windows
 //@ only-x86_64
 use run_make_support::object::ObjectSymbol;
 use run_make_support::object::read::{File, Object, Symbol};
 use run_make_support::targets::is_windows;
 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();

     // naked should mirror vanilla
     not_exported(&rdylib, "private_vanilla");
     not_exported(&rdylib, "private_naked");

     global_function(&rdylib, "public_vanilla");
     global_function(&rdylib, "public_naked");

     not_exported(&rdylib, "public_vanilla_generic");
     not_exported(&rdylib, "public_naked_generic");

     global_function(&rdylib, "vanilla_external_linkage");
     global_function(&rdylib, "naked_external_linkage");

     // FIXME: make this work on windows (gnu and msvc). See the PR
     // https://github.com/rust-lang/rust/pull/128362 for some approaches
     // that don't work
     //
     // #[linkage = "weak"] does not work well on windows, we get
     //
     // lib.def : error LNK2001: unresolved external symbol naked_weak_linkage␍
     // lib.def : error LNK2001: unresolved external symbol vanilla_weak_linkage
     //
     // so just skip weak symbols on windows (for now)
     if !is_windows() {
         weak_function(&rdylib, "vanilla_weak_linkage");
         weak_function(&rdylib, "naked_weak_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");
     global_function(&rdylib, "public_naked_generic");
 }

 #[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_subsequence(haystack: &[u8], needle: &[u8]) -> bool {
     haystack.windows(needle.len()).any(|window| window == needle)
 }

 fn find_dynamic_symbol<'file, 'data>(
     file: &'file File<'data>,
     expected: &str,
 ) -> Vec<Symbol<'data, 'file>> {
     file.exports()
         .unwrap()
         .into_iter()
         .filter(|e| find_subsequence(e.name(), expected.as_bytes()))
         .filter_map(|e| file.symbol_by_name_bytes(e.name()))
         .collect()
 }
	//@ ignore-windows
	//@ only-x86_64
	use run_make_support::object::ObjectSymbol;
	use run_make_support::object::read::{File, Object, Symbol};
	use run_make_support::targets::is_windows;
	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();

	// naked should mirror vanilla
	not_exported(&rdylib, "private_vanilla");
	not_exported(&rdylib, "private_naked");

	global_function(&rdylib, "public_vanilla");
	global_function(&rdylib, "public_naked");

	not_exported(&rdylib, "public_vanilla_generic");
	not_exported(&rdylib, "public_naked_generic");

	global_function(&rdylib, "vanilla_external_linkage");
	global_function(&rdylib, "naked_external_linkage");

	// FIXME: make this work on windows (gnu and msvc). See the PR
	// https://github.com/rust-lang/rust/pull/128362 for some approaches
	// that don't work
	//
	// #[linkage = "weak"] does not work well on windows, we get
	//
	// lib.def : error LNK2001: unresolved external symbol naked_weak_linkage␍
	// lib.def : error LNK2001: unresolved external symbol vanilla_weak_linkage
	//
	// so just skip weak symbols on windows (for now)
	if !is_windows() {
	weak_function(&rdylib, "vanilla_weak_linkage");
	weak_function(&rdylib, "naked_weak_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");
	global_function(&rdylib, "public_naked_generic");
	}

	#[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_subsequence(haystack: &[u8], needle: &[u8]) -> bool {
	haystack.windows(needle.len()).any(\|window\| window == needle)
	}

	fn find_dynamic_symbol<'file, 'data>(
	file: &'file File<'data>,
	expected: &str,
	) -> Vec<Symbol<'data, 'file>> {
	file.exports()
	.unwrap()
	.into_iter()
	.filter(\|e\| find_subsequence(e.name(), expected.as_bytes()))
	.filter_map(\|e\| file.symbol_by_name_bytes(e.name()))
	.collect()
	}