rust/tests/run-make/reproducible-build/rmake.rs

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// This test case makes sure that two identical invocations of the compiler
// (i.e. same code base, same compile-flags, same compiler-versions, etc.)
// produce the same output. In the past, symbol names of monomorphized functions
// were not deterministic (which we want to avoid).
//
// The test tries to exercise as many different paths into symbol name
// generation as possible:
//
// - regular functions
// - generic functions
// - methods
// - statics
// - closures
// - enum variant constructors
// - tuple struct constructors
// - drop glue
// - FnOnce adapters
// - Trait object shims
// - Fn Pointer shims
// See https://github.com/rust-lang/rust/pull/32293
// Tracking Issue: https://github.com/rust-lang/rust/issues/129080
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use run_make_support::{
bin_name, cwd, diff, is_darwin, is_windows, rfs, run_in_tmpdir, rust_lib_name, rustc,
};
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fn main() {
// Smoke tests. Simple flags, build should be reproducible.
eprintln!("smoke_test => None");
smoke_test(None);
eprintln!("smoke_test => SmokeFlag::Debug");
smoke_test(Some(SmokeFlag::Debug));
eprintln!("smoke_test => SmokeFlag::Opt");
smoke_test(Some(SmokeFlag::Opt));
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// Builds should be reproducible even through custom library search paths
// or remap path prefixes.
eprintln!("paths_test => PathsFlag::Link");
paths_test(PathsFlag::Link);
eprintln!("paths_test => PathsFlag::Remap");
paths_test(PathsFlag::Remap);
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// Builds should be reproducible even if each build is done in a different directory,
// with both --remap-path-prefix and -Z remap-cwd-prefix.
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// FIXME(Oneirical): Building with crate type set to `bin` AND having -Cdebuginfo=2
// (or `-g`, the shorthand form) enabled will cause reproducibility failures.
// See https://github.com/rust-lang/rust/issues/89911
if !is_darwin() && !is_windows() {
// FIXME(Oneirical): Bin builds are not reproducible on non-Linux targets.
eprintln!("diff_dir_test => Bin, Path");
diff_dir_test(CrateType::Bin, RemapType::Path);
}
eprintln!("diff_dir_test => Rlib, Path");
diff_dir_test(CrateType::Rlib, RemapType::Path);
// FIXME(Oneirical): This specific case would fail on Linux, should -Cdebuginfo=2
// be added.
// FIXME(Oneirical): Bin builds are not reproducible on non-Linux targets.
// See https://github.com/rust-lang/rust/issues/89911
if !is_darwin() && !is_windows() {
eprintln!("diff_dir_test => Bin, Cwd false");
diff_dir_test(CrateType::Bin, RemapType::Cwd { is_empty: false });
}
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eprintln!("diff_dir_test => Rlib, Cwd false");
diff_dir_test(CrateType::Rlib, RemapType::Cwd { is_empty: false });
eprintln!("diff_dir_test => Rlib, Cwd true");
diff_dir_test(CrateType::Rlib, RemapType::Cwd { is_empty: true });
eprintln!("final extern test");
// Builds should be reproducible when using the --extern flag.
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run_in_tmpdir(|| {
rustc().input("reproducible-build-aux.rs").run();
rustc()
.input("reproducible-build.rs")
.crate_type("rlib")
.extern_("reproducible_build_aux", rust_lib_name("reproducible_build_aux"))
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.run();
rfs::copy(rust_lib_name("reproducible_build"), rust_lib_name("foo"));
rfs::copy(rust_lib_name("reproducible_build_aux"), rust_lib_name("bar"));
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rustc()
.input("reproducible-build.rs")
.crate_type("rlib")
.extern_("reproducible_build_aux", rust_lib_name("bar"))
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.run();
assert!(rfs::read(rust_lib_name("foo")) == rfs::read(rust_lib_name("reproducible_build")))
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});
}
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#[track_caller]
fn smoke_test(flag: Option<SmokeFlag>) {
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run_in_tmpdir(|| {
rustc().input("linker.rs").opt().run();
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rustc().input("reproducible-build-aux.rs").run();
let mut compiler1 = rustc();
let mut compiler2 = rustc();
if let Some(flag) = flag {
match flag {
SmokeFlag::Debug => {
compiler1.arg("-g");
compiler2.arg("-g");
}
SmokeFlag::Opt => {
compiler1.opt();
compiler2.opt();
}
};
};
compiler1
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.input("reproducible-build.rs")
.linker(&cwd().join(bin_name("linker")).display().to_string())
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.run();
compiler2
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.input("reproducible-build.rs")
.linker(&cwd().join(bin_name("linker")).display().to_string())
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.run();
diff().actual_file("linker-arguments1").expected_file("linker-arguments2").run();
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});
}
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#[track_caller]
fn paths_test(flag: PathsFlag) {
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run_in_tmpdir(|| {
rustc().input("reproducible-build-aux.rs").run();
let mut compiler1 = rustc();
let mut compiler2 = rustc();
match flag {
PathsFlag::Link => {
compiler1.library_search_path("a");
compiler2.library_search_path("b");
}
PathsFlag::Remap => {
compiler1.arg("--remap-path-prefix=/a=/c");
compiler2.arg("--remap-path-prefix=/b=/c");
}
}
compiler1.input("reproducible-build.rs").crate_type("rlib").run();
rfs::rename(rust_lib_name("reproducible_build"), rust_lib_name("foo"));
compiler2.input("reproducible-build.rs").crate_type("rlib").run();
assert!(rfs::read(rust_lib_name("foo")) == rfs::read(rust_lib_name("reproducible_build")))
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});
}
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#[track_caller]
fn diff_dir_test(crate_type: CrateType, remap_type: RemapType) {
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run_in_tmpdir(|| {
let base_dir = cwd();
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rustc().input("reproducible-build-aux.rs").run();
rfs::create_dir("test");
rfs::copy("reproducible-build.rs", "test/reproducible-build.rs");
let mut compiler1 = rustc();
let mut compiler2 = rustc();
match crate_type {
CrateType::Bin => {
compiler1.crate_type("bin");
compiler2.crate_type("bin");
}
CrateType::Rlib => {
compiler1.crate_type("rlib");
compiler2.crate_type("rlib");
}
}
match remap_type {
RemapType::Path => {
compiler1.arg(&format!("--remap-path-prefix={}=/b", cwd().display()));
compiler2
.arg(format!("--remap-path-prefix={}=/b", base_dir.join("test").display()));
}
RemapType::Cwd { is_empty } => {
// FIXME(Oneirical): Building with crate type set to `bin` AND having -Cdebuginfo=2
// (or `-g`, the shorthand form) enabled will cause reproducibility failures
// for multiple platforms.
// See https://github.com/rust-lang/rust/issues/89911
// FIXME(#129117): Windows rlib + `-Cdebuginfo=2` + `-Z remap-cwd-prefix=.` seems
// to be unreproducible.
if !matches!(crate_type, CrateType::Bin) && !is_windows() {
compiler1.arg("-Cdebuginfo=2");
compiler2.arg("-Cdebuginfo=2");
}
if is_empty {
compiler1.arg("-Zremap-cwd-prefix=");
compiler2.arg("-Zremap-cwd-prefix=");
} else {
compiler1.arg("-Zremap-cwd-prefix=.");
compiler2.arg("-Zremap-cwd-prefix=.");
}
}
}
compiler1.input("reproducible-build.rs").run();
match crate_type {
CrateType::Bin => {
rfs::rename(bin_name("reproducible-build"), bin_name("foo"));
}
CrateType::Rlib => {
rfs::rename(rust_lib_name("reproducible_build"), rust_lib_name("foo"));
}
}
std::env::set_current_dir("test").unwrap();
compiler2
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.input("reproducible-build.rs")
.library_search_path(&base_dir)
.out_dir(&base_dir)
.run();
std::env::set_current_dir(&base_dir).unwrap();
match crate_type {
CrateType::Bin => {
assert!(rfs::read(bin_name("reproducible-build")) == rfs::read(bin_name("foo")));
}
CrateType::Rlib => {
assert!(
rfs::read(rust_lib_name("foo"))
== rfs::read(rust_lib_name("reproducible_build"))
);
}
}
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});
}
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enum SmokeFlag {
Debug,
Opt,
}
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enum PathsFlag {
Link,
Remap,
}
enum CrateType {
Bin,
Rlib,
}
enum RemapType {
Path,
Cwd { is_empty: bool },
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}