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88a8a8993a40a883622f7deb93d8b289d1e51f5a
wasmtime/build.rs
Alex Crichton 88a8a8993a Instantiate nested modules for module linking (#2447) 
This commit implements the interpretation necessary of the instance
section of the module linking proposal. Instantiating a module which
itself has nested instantiated instances will now instantiate the nested
instances properly. This isn't all that useful without the ability to
alias exports off the result, but we can at least observe the side
effects of instantiation through the `start` function.

cc #2094
2020-12-01 14:01:31 -06:00

262 lines
8.9 KiB
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)?;
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,
)?;
} 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)?;
}
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,
) -> anyhow::Result<()> {
let path = path.as_ref();
let testname = extract_name(path);
writeln!(out, "#[test]")?;
if experimental_x64_should_panic(testsuite, &testname, strategy) {
writeln!(
out,
r#"#[cfg_attr(feature = "experimental_x64", should_panic)]"#
)?;
} else if ignore(testsuite, &testname, strategy) {
writeln!(out, "#[ignore]")?;
}
writeln!(out, "fn r#{}() {{", &testname)?;
writeln!(out, " let _ = env_logger::try_init();")?;
writeln!(
out,
" crate::wast::run_wast(r#\"{}\"#, crate::wast::Strategy::{}).unwrap();",
path.display(),
strategy
)?;
writeln!(out, "}}")?;
writeln!(out)?;
Ok(())
}
/// For experimental_x64 backend features that are not supported yet, mark tests as panicking, so
/// they stop "passing" once the features are properly implemented.
fn experimental_x64_should_panic(testsuite: &str, testname: &str, strategy: &str) -> bool {
if !cfg!(feature = "experimental_x64") || strategy != "Cranelift" {
return false;
}
match (testsuite, testname) {
("simd", "simd_address") => return false,
("simd", "simd_bitwise") => return false,
("simd", "simd_bit_shift") => return false,
("simd", "simd_boolean") => return false,
("simd", "simd_const") => return false,
("simd", "simd_i8x16_arith") => return false,
("simd", "simd_i8x16_arith2") => return false,
("simd", "simd_i8x16_cmp") => return false,
("simd", "simd_i8x16_sat_arith") => return false,
("simd", "simd_i16x8_arith") => return false,
("simd", "simd_i16x8_arith2") => return false,
("simd", "simd_i16x8_cmp") => return false,
("simd", "simd_i16x8_sat_arith") => return false,
("simd", "simd_i32x4_arith") => return false,
("simd", "simd_i32x4_arith2") => return false,
("simd", "simd_i32x4_cmp") => return false,
("simd", "simd_i64x2_arith") => return false,
("simd", "simd_f32x4") => return false,
("simd", "simd_f32x4_arith") => return false,
("simd", "simd_f32x4_cmp") => return false,
("simd", "simd_f32x4_pmin_pmax") => return false,
("simd", "simd_f64x2") => return false,
("simd", "simd_f64x2_arith") => return false,
("simd", "simd_f64x2_cmp") => return false,
("simd", "simd_f64x2_pmin_pmax") => return false,
("simd", "simd_lane") => return false,
("simd", "simd_load") => return false,
("simd", "simd_load_splat") => return false,
("simd", "simd_splat") => return false,
("simd", "simd_store") => return false,
("simd", "simd_conversions") => return false,
("simd", _) => return true,
_ => {}
}
false
}
/// 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) {
// TODO(#1886): Ignore reference types tests if this isn't x64,
// because Cranelift only supports reference types on x64.
("reference_types", _) => {
return env::var("CARGO_CFG_TARGET_ARCH").unwrap() != "x86_64";
}
// These are only implemented on aarch64 and x64.
("simd", "simd_boolean")
| ("simd", "simd_f32x4_pmin_pmax")
| ("simd", "simd_f64x2_pmin_pmax") => {
return !(cfg!(feature = "experimental_x64")
|| env::var("CARGO_CFG_TARGET_ARCH").unwrap() == "aarch64")
}
// These are only implemented on aarch64.
("simd", "simd_f32x4_rounding") | ("simd", "simd_f64x2_rounding") => {
return env::var("CARGO_CFG_TARGET_ARCH").unwrap() != "aarch64";
}
// These tests have simd operators which aren't implemented yet.
// (currently none)
_ => {}
},
_ => panic!("unrecognized strategy"),
}
false
}
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