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wasmtime/build.rs
Alex Crichton 0313e30d76 Remove dependency on TargetIsa from Wasmtime crates (#3178) 
This commit started off by deleting the `cranelift_codegen::settings`
reexport in the `wasmtime-environ` crate and then basically played
whack-a-mole until everything compiled again. The main result of this is
that the `wasmtime-*` family of crates have generally less of a
dependency on the `TargetIsa` trait and type from Cranelift. While the
dependency isn't entirely severed yet this is at least a significant
start.

This commit is intended to be largely refactorings, no functional
changes are intended here. The refactorings are:

* A `CompilerBuilder` trait has been added to `wasmtime_environ` which
  server as an abstraction used to create compilers and configure them
  in a uniform fashion. The `wasmtime::Config` type now uses this
  instead of cranelift-specific settings. The `wasmtime-jit` crate
  exports the ability to create a compiler builder from a
  `CompilationStrategy`, which only works for Cranelift right now. In a
  cranelift-less build of Wasmtime this is expected to return a trait
  object that fails all requests to compile.

* The `Compiler` trait in the `wasmtime_environ` crate has been souped
  up with a number of methods that Wasmtime and other crates needed.

* The `wasmtime-debug` crate is now moved entirely behind the
  `wasmtime-cranelift` crate.

* The `wasmtime-cranelift` crate is now only depended on by the
  `wasmtime-jit` crate.

* Wasm types in `cranelift-wasm` no longer contain their IR type,
  instead they only contain the `WasmType`. This is required to get
  everything to align correctly but will also be required in a future
  refactoring where the types used by `cranelift-wasm` will be extracted
  to a separate crate.

* I moved around a fair bit of code in `wasmtime-cranelift`.

* Some gdb-specific jit-specific code has moved from `wasmtime-debug` to
  `wasmtime-jit`.
2021-08-16 09:55:39 -05:00

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Rust
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//! Build program to generate a program which runs all the testsuites.
//!
//! By generating a separate `#[test]` test for each file, we allow cargo test
//! to automatically run the files in parallel.
use anyhow::Context;
use std::env;
use std::fmt::Write;
use std::fs;
use std::path::{Path, PathBuf};
use std::process::Command;
fn main() -> anyhow::Result<()> {
println!("cargo:rerun-if-changed=build.rs");
let out_dir = PathBuf::from(
env::var_os("OUT_DIR").expect("The OUT_DIR environment variable must be set"),
);
let mut out = String::new();
for strategy in &[
"Cranelift",
#[cfg(feature = "lightbeam")]
"Lightbeam",
] {
writeln!(out, "#[cfg(test)]")?;
writeln!(out, "#[allow(non_snake_case)]")?;
writeln!(out, "mod {} {{", strategy)?;
with_test_module(&mut out, "misc", |out| {
test_directory(out, "tests/misc_testsuite", strategy)?;
test_directory_module(out, "tests/misc_testsuite/bulk-memory-operations", strategy)?;
test_directory_module(out, "tests/misc_testsuite/reference-types", strategy)?;
test_directory_module(out, "tests/misc_testsuite/multi-memory", strategy)?;
test_directory_module(out, "tests/misc_testsuite/module-linking", strategy)?;
test_directory_module(out, "tests/misc_testsuite/simd", strategy)?;
test_directory_module(out, "tests/misc_testsuite/threads", strategy)?;
test_directory_module(out, "tests/misc_testsuite/memory64", strategy)?;
Ok(())
})?;
with_test_module(&mut out, "spec", |out| {
let spec_tests = test_directory(out, "tests/spec_testsuite", strategy)?;
// Skip running spec_testsuite tests if the submodule isn't checked
// out.
if spec_tests > 0 {
test_directory_module(out, "tests/spec_testsuite/proposals/simd", strategy)?;
test_directory_module(
out,
"tests/spec_testsuite/proposals/reference-types",
strategy,
)?;
test_directory_module(
out,
"tests/spec_testsuite/proposals/bulk-memory-operations",
strategy,
)?;
test_directory_module(out, "tests/spec_testsuite/proposals/memory64", strategy)?;
} else {
println!(
"cargo:warning=The spec testsuite is disabled. To enable, run `git submodule \
update --remote`."
);
}
Ok(())
})?;
writeln!(out, "}}")?;
}
// Write out our auto-generated tests and opportunistically format them with
// `rustfmt` if it's installed.
let output = out_dir.join("wast_testsuite_tests.rs");
fs::write(&output, out)?;
drop(Command::new("rustfmt").arg(&output).status());
Ok(())
}
fn test_directory_module(
out: &mut String,
path: impl AsRef<Path>,
strategy: &str,
) -> anyhow::Result<usize> {
let path = path.as_ref();
let testsuite = &extract_name(path);
with_test_module(out, testsuite, |out| test_directory(out, path, strategy))
}
fn test_directory(
out: &mut String,
path: impl AsRef<Path>,
strategy: &str,
) -> anyhow::Result<usize> {
let path = path.as_ref();
let mut dir_entries: Vec<_> = path
.read_dir()
.context(format!("failed to read {:?}", path))?
.map(|r| r.expect("reading testsuite directory entry"))
.filter_map(|dir_entry| {
let p = dir_entry.path();
let ext = p.extension()?;
// Only look at wast files.
if ext != "wast" {
return None;
}
// Ignore files starting with `.`, which could be editor temporary files
if p.file_stem()?.to_str()?.starts_with(".") {
return None;
}
Some(p)
})
.collect();
dir_entries.sort();
let testsuite = &extract_name(path);
for entry in dir_entries.iter() {
write_testsuite_tests(out, entry, testsuite, strategy, false)?;
write_testsuite_tests(out, entry, testsuite, strategy, true)?;
}
Ok(dir_entries.len())
}
/// Extract a valid Rust identifier from the stem of a path.
fn extract_name(path: impl AsRef<Path>) -> String {
path.as_ref()
.file_stem()
.expect("filename should have a stem")
.to_str()
.expect("filename should be representable as a string")
.replace("-", "_")
.replace("/", "_")
}
fn with_test_module<T>(
out: &mut String,
testsuite: &str,
f: impl FnOnce(&mut String) -> anyhow::Result<T>,
) -> anyhow::Result<T> {
out.push_str("mod ");
out.push_str(testsuite);
out.push_str(" {\n");
let result = f(out)?;
out.push_str("}\n");
Ok(result)
}
fn write_testsuite_tests(
out: &mut String,
path: impl AsRef<Path>,
testsuite: &str,
strategy: &str,
pooling: bool,
) -> anyhow::Result<()> {
let path = path.as_ref();
let testname = extract_name(path);
writeln!(out, "#[test]")?;
// Ignore when using QEMU for running tests (limited memory).
if ignore(testsuite, &testname, strategy) {
writeln!(out, "#[ignore]")?;
}
writeln!(
out,
"fn r#{}{}() {{",
&testname,
if pooling { "_pooling" } else { "" }
)?;
writeln!(out, " let _ = env_logger::try_init();")?;
writeln!(
out,
" crate::wast::run_wast(r#\"{}\"#, crate::wast::Strategy::{}, {}).unwrap();",
path.display(),
strategy,
pooling
)?;
writeln!(out, "}}")?;
writeln!(out)?;
Ok(())
}
/// Ignore tests that aren't supported yet.
fn ignore(testsuite: &str, testname: &str, strategy: &str) -> bool {
match strategy {
#[cfg(feature = "lightbeam")]
"Lightbeam" => match (testsuite, testname) {
("simd", _) => return true,
("multi_value", _) => return true,
("reference_types", _) => return true,
("bulk_memory_operations", _) => return true,
_ => (),
},
"Cranelift" => match (testsuite, testname) {
// Skip all reference types tests on the old backend. The modern
// implementation of reference types uses atomic instructions
// for reference counts on `externref`, but the old backend does not
// implement atomic instructions.
("reference_types", _) if cfg!(feature = "old-x86-backend") => return true,
// No simd support yet for s390x.
("simd", _) if platform_is_s390x() => return true,
_ => {}
},
_ => panic!("unrecognized strategy"),
}
false
}
fn platform_is_s390x() -> bool {
env::var("CARGO_CFG_TARGET_ARCH").unwrap() == "s390x"
}
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