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91 lines
3.8 KiB
Rust
91 lines
3.8 KiB
Rust
// This test exercises the `bundle` link argument, which can be turned on or off.
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// When building a rlib or staticlib, +bundle means that all object files from the native static
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// library will be added to the rlib or staticlib archive, and then used from it during linking of
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// the final binary.
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// When building a rlib -bundle means that the native static library is registered as a dependency
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// of that rlib "by name", and object files from it are included only during linking of the final
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// binary, the file search by that name is also performed during final linking.
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// When building a staticlib -bundle means that the native static library is simply not included
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// into the archive and some higher level build system will need to add it later during linking of
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// the final binary.
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// This modifier has no effect when building other targets like executables or dynamic libraries.
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// The default for this modifier is +bundle.
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// See https://github.com/rust-lang/rust/pull/95818
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//@ ignore-cross-compile
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// Reason: cross-compilation fails to export native symbols
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use run_make_support::{
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build_native_static_lib, dynamic_lib_name, is_msvc, llvm_nm, rust_lib_name, rustc,
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static_lib_name,
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};
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fn main() {
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build_native_static_lib("native-staticlib");
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// Build a staticlib and a rlib, the `native_func` symbol will be bundled into them
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rustc().input("bundled.rs").crate_type("staticlib").crate_type("rlib").run();
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llvm_nm()
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.input(static_lib_name("bundled"))
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.run()
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.assert_stdout_contains_regex("T _*native_func");
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llvm_nm()
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.input(static_lib_name("bundled"))
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.run()
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.assert_stdout_contains_regex("U _*native_func");
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llvm_nm().input(rust_lib_name("bundled")).run().assert_stdout_contains_regex("T _*native_func");
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llvm_nm().input(rust_lib_name("bundled")).run().assert_stdout_contains_regex("U _*native_func");
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// Build a staticlib and a rlib, the `native_func` symbol will not be bundled into it
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build_native_static_lib("native-staticlib");
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rustc().input("non-bundled.rs").crate_type("staticlib").crate_type("rlib").run();
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llvm_nm()
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.input(static_lib_name("non_bundled"))
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.run()
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.assert_stdout_not_contains_regex("T _*native_func");
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llvm_nm()
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.input(static_lib_name("non_bundled"))
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.run()
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.assert_stdout_contains_regex("U _*native_func");
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llvm_nm()
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.input(rust_lib_name("non_bundled"))
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.run()
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.assert_stdout_not_contains_regex("T _*native_func");
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llvm_nm()
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.input(rust_lib_name("non_bundled"))
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.run()
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.assert_stdout_contains_regex("U _*native_func");
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// This part of the test does not function on Windows MSVC - no symbols are printed.
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if !is_msvc() {
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// Build a cdylib, `native-staticlib` will not appear on the linker line because it was
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// bundled previously. The cdylib will contain the `native_func` symbol in the end.
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rustc()
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.input("cdylib-bundled.rs")
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.crate_type("cdylib")
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.print("link-args")
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.run()
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.assert_stdout_not_contains(r#"-l[" ]*native-staticlib"#);
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llvm_nm()
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.input(dynamic_lib_name("cdylib_bundled"))
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.run()
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.assert_stdout_contains_regex("[Tt] _*native_func");
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// Build a cdylib, `native-staticlib` will appear on the linker line because it was not
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// bundled previously. The cdylib will contain the `native_func` symbol in the end
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rustc()
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.input("cdylib-non-bundled.rs")
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.crate_type("cdylib")
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.print("link-args")
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.run()
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.assert_stdout_contains_regex(r#"-l[" ]*native-staticlib"#);
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llvm_nm()
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.input(dynamic_lib_name("cdylib_non_bundled"))
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.run()
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.assert_stdout_contains_regex("[Tt] _*native_func");
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}
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}
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