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pezkuwi-subxt/substrate/utils/wasm-builder/src/wasm_project.rs
T
Bastian Köcher 923cb8eea1 Wasm-builder 3.0 (#7532)
* Build every wasm crate in its own project with wasm-builder

Building all wasm crates in one workspace was a nice idea, however it
just introduced problems:

1. We needed to prune old members, but this didn't worked for old git
deps.
2. We locked the whole wasm workspace while building one crate. This
could lead to infinitely locking the workspace on a crash.

Now we just build every crate in its own project, this means we will
build the dependencies multiple times. While building the dependencies
multiple times, we still decrease the build time by around 30 seconds
for Polkadot and Substrate because of the new parallelism ;)

* Remove the requirement on wasm-builder-runner

This removes the requirement on wasm-builder-runner by using the new
`build_dep` feature of cargo. We use nightly anyway and that enables us
to use this feature. This solves the problem of not mixing
build/proc-macro deps with normal deps. By doing this we get rid off
this complicated project structure and can depend directly on
`wasm-builder`. This also removes all the code from wasm-builder-runner
and mentions that it is deprecated.

* Copy the `Cargo.lock` to the correct folder

* Remove wasm-builder-runner

* Update docs

* Fix deterministic check

Modified-by: Bastian Köcher <git@kchr.de>

* Try to make the ui test happy

* Switch to `SKIP_WASM_BUILD`

* Rename `SKIP_WASM_BINARY` to the correct name...

* Update utils/wasm-builder/src/builder.rs

Co-authored-by: André Silva <123550+andresilva@users.noreply.github.com>

* Update utils/wasm-builder/src/builder.rs

Co-authored-by: André Silva <123550+andresilva@users.noreply.github.com>

Co-authored-by: André Silva <123550+andresilva@users.noreply.github.com>
2020-11-24 10:18:36 +01:00

609 lines
18 KiB
Rust

// This file is part of Substrate.
// Copyright (C) 2019-2020 Parity Technologies (UK) Ltd.
// SPDX-License-Identifier: Apache-2.0
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
use crate::{write_file_if_changed, CargoCommandVersioned};
use std::{
fs, path::{Path, PathBuf}, borrow::ToOwned, process, env, collections::HashSet,
hash::{Hash, Hasher}, ops::Deref,
};
use toml::value::Table;
use build_helper::rerun_if_changed;
use cargo_metadata::{MetadataCommand, Metadata};
use walkdir::WalkDir;
/// Colorize an info message.
///
/// Returns the colorized message.
fn colorize_info_message(message: &str) -> String {
if super::color_output_enabled() {
ansi_term::Color::Yellow.bold().paint(message).to_string()
} else {
message.into()
}
}
/// Holds the path to the bloaty WASM binary.
pub struct WasmBinaryBloaty(PathBuf);
impl WasmBinaryBloaty {
/// Returns the escaped path to the bloaty wasm binary.
pub fn wasm_binary_bloaty_path_escaped(&self) -> String {
self.0.display().to_string().escape_default().to_string()
}
}
/// Holds the path to the WASM binary.
pub struct WasmBinary(PathBuf);
impl WasmBinary {
/// Returns the path to the wasm binary.
pub fn wasm_binary_path(&self) -> &Path {
&self.0
}
/// Returns the escaped path to the wasm binary.
pub fn wasm_binary_path_escaped(&self) -> String {
self.0.display().to_string().escape_default().to_string()
}
}
fn crate_metadata(cargo_manifest: &Path) -> Metadata {
let mut cargo_lock = cargo_manifest.to_path_buf();
cargo_lock.set_file_name("Cargo.lock");
let cargo_lock_existed = cargo_lock.exists();
let crate_metadata = MetadataCommand::new()
.manifest_path(cargo_manifest)
.exec()
.expect("`cargo metadata` can not fail on project `Cargo.toml`; qed");
// If the `Cargo.lock` didn't exist, we need to remove it after
// calling `cargo metadata`. This is required to ensure that we don't change
// the build directory outside of the `target` folder. Commands like
// `cargo publish` require this.
if !cargo_lock_existed {
let _ = fs::remove_file(&cargo_lock);
}
crate_metadata
}
/// Creates the WASM project, compiles the WASM binary and compacts the WASM binary.
///
/// # Returns
///
/// The path to the compact WASM binary and the bloaty WASM binary.
pub(crate) fn create_and_compile(
project_cargo_toml: &Path,
default_rustflags: &str,
cargo_cmd: CargoCommandVersioned,
) -> (Option<WasmBinary>, WasmBinaryBloaty) {
let wasm_workspace_root = get_wasm_workspace_root();
let wasm_workspace = wasm_workspace_root.join("wbuild");
let crate_metadata = crate_metadata(project_cargo_toml);
let project = create_project(
project_cargo_toml,
&wasm_workspace,
&crate_metadata,
&crate_metadata.workspace_root,
);
build_project(&project, default_rustflags, cargo_cmd);
let (wasm_binary, bloaty) = compact_wasm_file(
&project,
project_cargo_toml,
);
wasm_binary.as_ref().map(|wasm_binary|
copy_wasm_to_target_directory(project_cargo_toml, wasm_binary)
);
generate_rerun_if_changed_instructions(project_cargo_toml, &project, &wasm_workspace);
(wasm_binary, bloaty)
}
/// Find the `Cargo.lock` relative to the `OUT_DIR` environment variable.
///
/// If the `Cargo.lock` cannot be found, we emit a warning and return `None`.
fn find_cargo_lock(cargo_manifest: &Path) -> Option<PathBuf> {
fn find_impl(mut path: PathBuf) -> Option<PathBuf> {
loop {
if path.join("Cargo.lock").exists() {
return Some(path.join("Cargo.lock"))
}
if !path.pop() {
return None;
}
}
}
if let Some(path) = find_impl(build_helper::out_dir()) {
return Some(path);
}
if let Some(path) = find_impl(cargo_manifest.to_path_buf()) {
return Some(path);
}
build_helper::warning!(
"Could not find `Cargo.lock` for `{}`, while searching from `{}`.",
cargo_manifest.display(),
build_helper::out_dir().display()
);
None
}
/// Extract the crate name from the given `Cargo.toml`.
fn get_crate_name(cargo_manifest: &Path) -> String {
let cargo_toml: Table = toml::from_str(
&fs::read_to_string(cargo_manifest).expect("File exists as checked before; qed")
).expect("Cargo manifest is a valid toml file; qed");
let package = cargo_toml
.get("package")
.and_then(|t| t.as_table())
.expect("`package` key exists in valid `Cargo.toml`; qed");
package.get("name").and_then(|p| p.as_str()).map(ToOwned::to_owned).expect("Package name exists; qed")
}
/// Returns the name for the wasm binary.
fn get_wasm_binary_name(cargo_manifest: &Path) -> String {
get_crate_name(cargo_manifest).replace('-', "_")
}
/// Returns the root path of the wasm workspace.
fn get_wasm_workspace_root() -> PathBuf {
let mut out_dir = build_helper::out_dir();
loop {
match out_dir.parent() {
Some(parent) if out_dir.ends_with("build") => return parent.to_path_buf(),
_ => if !out_dir.pop() {
break;
}
}
}
panic!("Could not find target dir in: {}", build_helper::out_dir().display())
}
fn create_project_cargo_toml(
wasm_workspace: &Path,
workspace_root_path: &Path,
crate_name: &str,
crate_path: &Path,
wasm_binary: &str,
enabled_features: &[String],
) {
let mut workspace_toml: Table = toml::from_str(
&fs::read_to_string(
workspace_root_path.join("Cargo.toml"),
).expect("Workspace root `Cargo.toml` exists; qed")
).expect("Workspace root `Cargo.toml` is a valid toml file; qed");
let mut wasm_workspace_toml = Table::new();
// Add `profile` with release and dev
let mut release_profile = Table::new();
release_profile.insert("panic".into(), "abort".into());
release_profile.insert("lto".into(), true.into());
let mut dev_profile = Table::new();
dev_profile.insert("panic".into(), "abort".into());
let mut profile = Table::new();
profile.insert("release".into(), release_profile.into());
profile.insert("dev".into(), dev_profile.into());
wasm_workspace_toml.insert("profile".into(), profile.into());
// Add patch section from the project root `Cargo.toml`
if let Some(mut patch) = workspace_toml.remove("patch").and_then(|p| p.try_into::<Table>().ok()) {
// Iterate over all patches and make the patch path absolute from the workspace root path.
patch.iter_mut()
.filter_map(|p|
p.1.as_table_mut().map(|t| t.iter_mut().filter_map(|t| t.1.as_table_mut()))
)
.flatten()
.for_each(|p|
p.iter_mut()
.filter(|(k, _)| k == &"path")
.for_each(|(_, v)| {
if let Some(path) = v.as_str().map(PathBuf::from) {
if path.is_relative() {
*v = workspace_root_path.join(path).display().to_string().into();
}
}
})
);
wasm_workspace_toml.insert("patch".into(), patch.into());
}
let mut package = Table::new();
package.insert("name".into(), format!("{}-wasm", crate_name).into());
package.insert("version".into(), "1.0.0".into());
package.insert("edition".into(), "2018".into());
wasm_workspace_toml.insert("package".into(), package.into());
let mut lib = Table::new();
lib.insert("name".into(), wasm_binary.into());
lib.insert("crate-type".into(), vec!["cdylib".to_string()].into());
wasm_workspace_toml.insert("lib".into(), lib.into());
let mut dependencies = Table::new();
let mut wasm_project = Table::new();
wasm_project.insert("package".into(), crate_name.into());
wasm_project.insert("path".into(), crate_path.display().to_string().into());
wasm_project.insert("default-features".into(), false.into());
wasm_project.insert("features".into(), enabled_features.to_vec().into());
dependencies.insert("wasm-project".into(), wasm_project.into());
wasm_workspace_toml.insert("dependencies".into(), dependencies.into());
wasm_workspace_toml.insert("workspace".into(), Table::new().into());
write_file_if_changed(
wasm_workspace.join("Cargo.toml"),
toml::to_string_pretty(&wasm_workspace_toml).expect("Wasm workspace toml is valid; qed"),
);
}
/// Find a package by the given `manifest_path` in the metadata.
///
/// Panics if the package could not be found.
fn find_package_by_manifest_path<'a>(
manifest_path: &Path,
crate_metadata: &'a cargo_metadata::Metadata,
) -> &'a cargo_metadata::Package {
crate_metadata.packages
.iter()
.find(|p| p.manifest_path == manifest_path)
.expect("Wasm project exists in its own metadata; qed")
}
/// Get a list of enabled features for the project.
fn project_enabled_features(
cargo_manifest: &Path,
crate_metadata: &cargo_metadata::Metadata,
) -> Vec<String> {
let package = find_package_by_manifest_path(cargo_manifest, crate_metadata);
let mut enabled_features = package.features.keys()
.filter(|f| {
let mut feature_env = f.replace("-", "_");
feature_env.make_ascii_uppercase();
// We don't want to enable the `std`/`default` feature for the wasm build and
// we need to check if the feature is enabled by checking the env variable.
*f != "std"
&& *f != "default"
&& env::var(format!("CARGO_FEATURE_{}", feature_env))
.map(|v| v == "1")
.unwrap_or_default()
})
.cloned()
.collect::<Vec<_>>();
enabled_features.sort();
enabled_features
}
/// Returns if the project has the `runtime-wasm` feature
fn has_runtime_wasm_feature_declared(
cargo_manifest: &Path,
crate_metadata: &cargo_metadata::Metadata,
) -> bool {
let package = find_package_by_manifest_path(cargo_manifest, crate_metadata);
package.features.keys().any(|k| k == "runtime-wasm")
}
/// Create the project used to build the wasm binary.
///
/// # Returns
///
/// The path to the created wasm project.
fn create_project(
project_cargo_toml: &Path,
wasm_workspace: &Path,
crate_metadata: &Metadata,
workspace_root_path: &Path,
) -> PathBuf {
let crate_name = get_crate_name(project_cargo_toml);
let crate_path = project_cargo_toml.parent().expect("Parent path exists; qed");
let wasm_binary = get_wasm_binary_name(project_cargo_toml);
let wasm_project_folder = wasm_workspace.join(&crate_name);
fs::create_dir_all(wasm_project_folder.join("src"))
.expect("Wasm project dir create can not fail; qed");
let mut enabled_features = project_enabled_features(&project_cargo_toml, &crate_metadata);
if has_runtime_wasm_feature_declared(project_cargo_toml, crate_metadata) {
enabled_features.push("runtime-wasm".into());
}
create_project_cargo_toml(
&wasm_project_folder,
workspace_root_path,
&crate_name,
&crate_path,
&wasm_binary,
&enabled_features,
);
write_file_if_changed(
wasm_project_folder.join("src/lib.rs"),
"#![no_std] pub use wasm_project::*;",
);
if let Some(crate_lock_file) = find_cargo_lock(project_cargo_toml) {
// Use the `Cargo.lock` of the main project.
crate::copy_file_if_changed(crate_lock_file, wasm_project_folder.join("Cargo.lock"));
}
wasm_project_folder
}
/// Returns if the project should be built as a release.
fn is_release_build() -> bool {
if let Ok(var) = env::var(crate::WASM_BUILD_TYPE_ENV) {
match var.as_str() {
"release" => true,
"debug" => false,
var => panic!(
"Unexpected value for `{}` env variable: {}\nOne of the following are expected: `debug` or `release`.",
crate::WASM_BUILD_TYPE_ENV,
var,
),
}
} else {
true
}
}
/// Build the project to create the WASM binary.
fn build_project(project: &Path, default_rustflags: &str, cargo_cmd: CargoCommandVersioned) {
let manifest_path = project.join("Cargo.toml");
let mut build_cmd = cargo_cmd.command();
let rustflags = format!(
"-C link-arg=--export-table {} {}",
default_rustflags,
env::var(crate::WASM_BUILD_RUSTFLAGS_ENV).unwrap_or_default(),
);
build_cmd.args(&["-Zfeatures=build_dep", "rustc", "--target=wasm32-unknown-unknown"])
.arg(format!("--manifest-path={}", manifest_path.display()))
.env("RUSTFLAGS", rustflags)
// Unset the `CARGO_TARGET_DIR` to prevent a cargo deadlock (cargo locks a target dir exclusive).
// The runner project is created in `CARGO_TARGET_DIR` and executing it will create a sub target
// directory inside of `CARGO_TARGET_DIR`.
.env_remove("CARGO_TARGET_DIR")
// We don't want to call ourselves recursively
.env(crate::SKIP_BUILD_ENV, "");
if super::color_output_enabled() {
build_cmd.arg("--color=always");
}
if is_release_build() {
build_cmd.arg("--release");
};
println!("{}", colorize_info_message("Information that should be included in a bug report."));
println!("{} {:?}", colorize_info_message("Executing build command:"), build_cmd);
println!("{} {}", colorize_info_message("Using rustc version:"), cargo_cmd.rustc_version());
match build_cmd.status().map(|s| s.success()) {
Ok(true) => {},
// Use `process.exit(1)` to have a clean error output.
_ => process::exit(1),
}
}
/// Compact the WASM binary using `wasm-gc`. Returns the path to the bloaty WASM binary.
fn compact_wasm_file(
project: &Path,
cargo_manifest: &Path,
) -> (Option<WasmBinary>, WasmBinaryBloaty) {
let is_release_build = is_release_build();
let target = if is_release_build { "release" } else { "debug" };
let wasm_binary = get_wasm_binary_name(cargo_manifest);
let wasm_file = project.join("target/wasm32-unknown-unknown")
.join(target)
.join(format!("{}.wasm", wasm_binary));
let wasm_compact_file = if is_release_build {
let wasm_compact_file = project.join(format!("{}.compact.wasm", wasm_binary));
wasm_gc::garbage_collect_file(&wasm_file, &wasm_compact_file)
.expect("Failed to compact generated WASM binary.");
Some(WasmBinary(wasm_compact_file))
} else {
None
};
(wasm_compact_file, WasmBinaryBloaty(wasm_file))
}
/// Custom wrapper for a [`cargo_metadata::Package`] to store it in
/// a `HashSet`.
#[derive(Debug)]
struct DeduplicatePackage<'a> {
package: &'a cargo_metadata::Package,
identifier: String,
}
impl<'a> From<&'a cargo_metadata::Package> for DeduplicatePackage<'a> {
fn from(package: &'a cargo_metadata::Package) -> Self {
Self {
package,
identifier: format!("{}{}{:?}", package.name, package.version, package.source),
}
}
}
impl<'a> Hash for DeduplicatePackage<'a> {
fn hash<H: Hasher>(&self, state: &mut H) {
self.identifier.hash(state);
}
}
impl<'a> PartialEq for DeduplicatePackage<'a> {
fn eq(&self, other: &Self) -> bool {
self.identifier == other.identifier
}
}
impl<'a> Eq for DeduplicatePackage<'a> {}
impl<'a> Deref for DeduplicatePackage<'a> {
type Target = cargo_metadata::Package;
fn deref(&self) -> &Self::Target {
self.package
}
}
/// Generate the `rerun-if-changed` instructions for cargo to make sure that the WASM binary is
/// rebuilt when needed.
fn generate_rerun_if_changed_instructions(
cargo_manifest: &Path,
project_folder: &Path,
wasm_workspace: &Path,
) {
// Rerun `build.rs` if the `Cargo.lock` changes
if let Some(cargo_lock) = find_cargo_lock(cargo_manifest) {
rerun_if_changed(cargo_lock);
}
let metadata = MetadataCommand::new()
.manifest_path(project_folder.join("Cargo.toml"))
.exec()
.expect("`cargo metadata` can not fail!");
let package = metadata.packages
.iter()
.find(|p| p.manifest_path == cargo_manifest)
.expect("The crate package is contained in its own metadata; qed");
// Start with the dependencies of the crate we want to compile for wasm.
let mut dependencies = package.dependencies.iter().collect::<Vec<_>>();
// Collect all packages by follow the dependencies of all packages we find.
let mut packages = HashSet::new();
packages.insert(DeduplicatePackage::from(package));
while let Some(dependency) = dependencies.pop() {
let path_or_git_dep = dependency.source
.as_ref()
.map(|s| s.starts_with("git+"))
.unwrap_or(true);
let package = metadata.packages
.iter()
.filter(|p| !p.manifest_path.starts_with(wasm_workspace))
.find(|p| {
// Check that the name matches and that the version matches or this is
// a git or path dep. A git or path dependency can only occur once, so we don't
// need to check the version.
(path_or_git_dep || dependency.req.matches(&p.version)) && dependency.name == p.name
});
if let Some(package) = package {
if packages.insert(DeduplicatePackage::from(package)) {
dependencies.extend(package.dependencies.iter());
}
}
}
// Make sure that if any file/folder of a dependency change, we need to rerun the `build.rs`
packages.iter().for_each(package_rerun_if_changed);
// Register our env variables
println!("cargo:rerun-if-env-changed={}", crate::SKIP_BUILD_ENV);
println!("cargo:rerun-if-env-changed={}", crate::WASM_BUILD_TYPE_ENV);
println!("cargo:rerun-if-env-changed={}", crate::WASM_BUILD_RUSTFLAGS_ENV);
println!("cargo:rerun-if-env-changed={}", crate::WASM_TARGET_DIRECTORY);
println!("cargo:rerun-if-env-changed={}", crate::WASM_BUILD_TOOLCHAIN);
}
/// Track files and paths related to the given package to rerun `build.rs` on any relevant change.
fn package_rerun_if_changed(package: &DeduplicatePackage) {
let mut manifest_path = package.manifest_path.clone();
if manifest_path.ends_with("Cargo.toml") {
manifest_path.pop();
}
WalkDir::new(&manifest_path)
.into_iter()
.filter_entry(|p| {
// Ignore this entry if it is a directory that contains a `Cargo.toml` that is not the
// `Cargo.toml` related to the current package. This is done to ignore sub-crates of a crate.
// If such a sub-crate is a dependency, it will be processed independently anyway.
p.path() == manifest_path
|| !p.path().is_dir()
|| !p.path().join("Cargo.toml").exists()
})
.filter_map(|p| p.ok().map(|p| p.into_path()))
.filter(|p| {
p.is_dir() || p.extension().map(|e| e == "rs" || e == "toml").unwrap_or_default()
})
.for_each(|p| rerun_if_changed(p));
}
/// Copy the WASM binary to the target directory set in `WASM_TARGET_DIRECTORY` environment
/// variable. If the variable is not set, this is a no-op.
fn copy_wasm_to_target_directory(cargo_manifest: &Path, wasm_binary: &WasmBinary) {
let target_dir = match env::var(crate::WASM_TARGET_DIRECTORY) {
Ok(path) => PathBuf::from(path),
Err(_) => return,
};
if !target_dir.is_absolute() {
panic!(
"Environment variable `{}` with `{}` is not an absolute path!",
crate::WASM_TARGET_DIRECTORY,
target_dir.display(),
);
}
fs::create_dir_all(&target_dir).expect("Creates `WASM_TARGET_DIRECTORY`.");
fs::copy(
wasm_binary.wasm_binary_path(),
target_dir.join(format!("{}.wasm", get_wasm_binary_name(cargo_manifest))),
).expect("Copies WASM binary to `WASM_TARGET_DIRECTORY`.");
}