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Auto merge of #107723 - Kobzol:bootstrap-bolt, r=Mark-Simulacrum

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Apply BOLT optimizations without rebuilding LLVM

This PR adds an explicit BOLT bootstrap step which applies BOLT on the fly when LLVM artifacts are copied to a sysroot (it only does this once per bootstrap invocation, the result is cached).  This avoids one LLVM rebuild in the Linux CI dist build.

r? `@jyn514`
This commit is contained in:
bors 2023-03-05 05:15:50 +00:00
commit 35636f9459
4 changed files with 146 additions and 43 deletions
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27
src/bootstrap/bolt.rs
View File

@ -1,46 +1,40 @@
use std::path::Path;
use std::process::Command;
/// Uses the `llvm-bolt` binary to instrument the binary/library at the given `path` with BOLT.
/// Uses the `llvm-bolt` binary to instrument the artifact at the given `path` with BOLT.
/// When the instrumented artifact is executed, it will generate BOLT profiles into
/// `/tmp/prof.fdata.<pid>.fdata`.
pub fn instrument_with_bolt_inplace(path: &Path) {
let dir = std::env::temp_dir();
let instrumented_path = dir.join("instrumented.so");
/// Creates the instrumented artifact at `output_path`.
pub fn instrument_with_bolt(path: &Path, output_path: &Path) {
let status = Command::new("llvm-bolt")
.arg("-instrument")
.arg(&path)
// Make sure that each process will write its profiles into a separate file
.arg("--instrumentation-file-append-pid")
.arg("-o")
.arg(&instrumented_path)
.arg(output_path)
.status()
.expect("Could not instrument artifact using BOLT");
if !status.success() {
panic!("Could not instrument {} with BOLT, exit code {:?}", path.display(), status.code());
}
std::fs::copy(&instrumented_path, path).expect("Cannot copy instrumented artifact");
std::fs::remove_file(instrumented_path).expect("Cannot delete instrumented artifact");
}
/// Uses the `llvm-bolt` binary to optimize the binary/library at the given `path` with BOLT,
/// Uses the `llvm-bolt` binary to optimize the artifact at the given `path` with BOLT,
/// using merged profiles from `profile_path`.
///
/// The recorded profiles have to be merged using the `merge-fdata` tool from LLVM and the merged
/// profile path should be then passed to this function.
pub fn optimize_library_with_bolt_inplace(path: &Path, profile_path: &Path) {
let dir = std::env::temp_dir();
let optimized_path = dir.join("optimized.so");
///
/// Creates the optimized artifact at `output_path`.
pub fn optimize_with_bolt(path: &Path, profile_path: &Path, output_path: &Path) {
let status = Command::new("llvm-bolt")
.arg(&path)
.arg("-data")
.arg(&profile_path)
.arg("-o")
.arg(&optimized_path)
.arg(output_path)
// Reorder basic blocks within functions
.arg("-reorder-blocks=ext-tsp")
// Reorder functions within the binary
@ -65,7 +59,4 @@ pub fn optimize_library_with_bolt_inplace(path: &Path, profile_path: &Path) {
if !status.success() {
panic!("Could not optimize {} with BOLT, exit code {:?}", path.display(), status.code());
}
std::fs::copy(&optimized_path, path).expect("Cannot copy optimized artifact");
std::fs::remove_file(optimized_path).expect("Cannot delete optimized artifact");
}

135
src/bootstrap/dist.rs
View File

@ -18,7 +18,9 @@ use std::process::Command;
use object::read::archive::ArchiveFile;
use object::BinaryFormat;
use sha2::Digest;
use crate::bolt::{instrument_with_bolt, optimize_with_bolt};
use crate::builder::{Builder, Kind, RunConfig, ShouldRun, Step};
use crate::cache::{Interned, INTERNER};
use crate::channel;
@ -1904,6 +1906,26 @@ fn add_env(builder: &Builder<'_>, cmd: &mut Command, target: TargetSelection) {
}
}
fn install_llvm_file(builder: &Builder<'_>, source: &Path, destination: &Path) {
if builder.config.dry_run() {
return;
}
// After LLVM is built, we modify (instrument or optimize) the libLLVM.so library file.
// This is not done in-place so that the built LLVM files are not "tainted" with BOLT.
// We perform the instrumentation/optimization here, on the fly, just before they are being
// packaged into some destination directory.
let postprocessed = if builder.config.llvm_bolt_profile_generate {
builder.ensure(BoltInstrument::new(source.to_path_buf()))
} else if let Some(path) = &builder.config.llvm_bolt_profile_use {
builder.ensure(BoltOptimize::new(source.to_path_buf(), path.into()))
} else {
source.to_path_buf()
};
builder.install(&postprocessed, destination, 0o644);
}
/// Maybe add LLVM object files to the given destination lib-dir. Allows either static or dynamic linking.
///
/// Returns whether the files were actually copied.
@ -1955,7 +1977,7 @@ fn maybe_install_llvm(builder: &Builder<'_>, target: TargetSelection, dst_libdir
} else {
PathBuf::from(file)
};
builder.install(&file, dst_libdir, 0o644);
install_llvm_file(builder, &file, dst_libdir);
}
!builder.config.dry_run()
} else {
@ -1986,6 +2008,117 @@ pub fn maybe_install_llvm_runtime(builder: &Builder<'_>, target: TargetSelection
}
}
/// Creates an output path to a BOLT-manipulated artifact for the given `file`.
/// The hash of the file is used to make sure that we don't mix BOLT artifacts amongst different
/// files with the same name.
///
/// We need to keep the file-name the same though, to make sure that copying the manipulated file
/// to a directory will not change the final file path.
fn create_bolt_output_path(builder: &Builder<'_>, file: &Path, hash: &str) -> PathBuf {
let directory = builder.out.join("bolt").join(hash);
t!(fs::create_dir_all(&directory));
directory.join(file.file_name().unwrap())
}
/// Instrument the provided file with BOLT.
/// Returns a path to the instrumented artifact.
#[derive(Clone, Debug, Eq, Hash, PartialEq)]
pub struct BoltInstrument {
file: PathBuf,
hash: String,
}
impl BoltInstrument {
fn new(file: PathBuf) -> Self {
let mut hasher = sha2::Sha256::new();
hasher.update(t!(fs::read(&file)));
let hash = hex::encode(hasher.finalize().as_slice());
Self { file, hash }
}
}
impl Step for BoltInstrument {
type Output = PathBuf;
const ONLY_HOSTS: bool = false;
const DEFAULT: bool = false;
fn should_run(run: ShouldRun<'_>) -> ShouldRun<'_> {
run.never()
}
fn run(self, builder: &Builder<'_>) -> PathBuf {
if builder.build.config.dry_run() {
return self.file.clone();
}
if builder.build.config.llvm_from_ci {
println!("warning: trying to use BOLT with LLVM from CI, this will probably not work");
}
println!("Instrumenting {} with BOLT", self.file.display());
let output_path = create_bolt_output_path(builder, &self.file, &self.hash);
if !output_path.is_file() {
instrument_with_bolt(&self.file, &output_path);
}
output_path
}
}
/// Optimize the provided file with BOLT.
/// Returns a path to the optimized artifact.
///
/// The hash is stored in the step to make sure that we don't optimize the same file
/// twice (even under different file paths).
#[derive(Clone, Debug, Eq, Hash, PartialEq)]
pub struct BoltOptimize {
file: PathBuf,
profile: PathBuf,
hash: String,
}
impl BoltOptimize {
fn new(file: PathBuf, profile: PathBuf) -> Self {
let mut hasher = sha2::Sha256::new();
hasher.update(t!(fs::read(&file)));
hasher.update(t!(fs::read(&profile)));
let hash = hex::encode(hasher.finalize().as_slice());
Self { file, profile, hash }
}
}
impl Step for BoltOptimize {
type Output = PathBuf;
const ONLY_HOSTS: bool = false;
const DEFAULT: bool = false;
fn should_run(run: ShouldRun<'_>) -> ShouldRun<'_> {
run.never()
}
fn run(self, builder: &Builder<'_>) -> PathBuf {
if builder.build.config.dry_run() {
return self.file.clone();
}
if builder.build.config.llvm_from_ci {
println!("warning: trying to use BOLT with LLVM from CI, this will probably not work");
}
println!("Optimizing {} with BOLT", self.file.display());
let output_path = create_bolt_output_path(builder, &self.file, &self.hash);
if !output_path.is_file() {
optimize_with_bolt(&self.file, &self.profile, &output_path);
}
output_path
}
}
#[derive(Clone, Debug, Eq, Hash, PartialEq)]
pub struct LlvmTools {
pub target: TargetSelection,

23
src/bootstrap/native.rs
View File

@ -16,7 +16,6 @@ use std::io;
use std::path::{Path, PathBuf};
use std::process::Command;
use crate::bolt::{instrument_with_bolt_inplace, optimize_library_with_bolt_inplace};
use crate::builder::{Builder, RunConfig, ShouldRun, Step};
use crate::channel;
use crate::config::{Config, TargetSelection};
@ -523,34 +522,12 @@ impl Step for Llvm {
}
}
// After LLVM is built, we modify (instrument or optimize) the libLLVM.so library file
// in place. This is fine, because currently we do not support incrementally rebuilding
// LLVM after a configuration change, so to rebuild it the build files have to be removed,
// which will also remove these modified files.
if builder.config.llvm_bolt_profile_generate {
instrument_with_bolt_inplace(&get_built_llvm_lib_path(&res.llvm_config));
}
if let Some(path) = &builder.config.llvm_bolt_profile_use {
optimize_library_with_bolt_inplace(
&get_built_llvm_lib_path(&res.llvm_config),
&Path::new(path),
);
}
t!(stamp.write());
res
}
}
/// Returns path to a built LLVM library (libLLVM.so).
/// Assumes that we have built LLVM into a single library file.
fn get_built_llvm_lib_path(llvm_config_path: &Path) -> PathBuf {
let mut cmd = Command::new(llvm_config_path);
cmd.arg("--libfiles");
PathBuf::from(output(&mut cmd).trim())
}
fn check_llvm_version(builder: &Builder<'_>, llvm_config: &Path) {
if !builder.config.llvm_version_check {
return;

4
src/ci/stage-build.py
View File

@ -798,14 +798,16 @@ def execute_build_pipeline(timer: Timer, pipeline: Pipeline, final_build_args: L
"--llvm-profile-use",
pipeline.llvm_profile_merged_file(),
"--llvm-bolt-profile-generate",
"--rust-profile-use",
pipeline.rustc_profile_merged_file()
])
record_metrics(pipeline, rustc_build)
with stage3.section("Gather profiles"):
gather_llvm_bolt_profiles(pipeline)
# LLVM is not being cleared here, we want to reuse the previous build
print_free_disk_space(pipeline)
clear_llvm_files(pipeline)
final_build_args += [
"--llvm-bolt-profile-use",
pipeline.llvm_bolt_profile_merged_file()