mirror of
https://github.com/denoland/deno.git
synced 2024-11-22 15:06:54 -05:00
635253bd3a
This commit upgrade "Worker.postMessage()" implementation to use structured clone algorithm instead of non-spec compliant JSON serialization.
499 lines
13 KiB
Rust
499 lines
13 KiB
Rust
// Copyright 2018-2021 the Deno authors. All rights reserved. MIT license.
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use deno_core::error::AnyError;
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use deno_core::serde_json;
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use deno_core::serde_json::Value;
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use serde::Serialize;
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use std::collections::HashMap;
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use std::convert::From;
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use std::env;
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use std::fs;
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use std::path::Path;
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use std::path::PathBuf;
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use std::process::Command;
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use std::process::Stdio;
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use std::time::SystemTime;
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mod http;
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mod lsp;
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mod throughput;
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fn read_json(filename: &str) -> Result<Value> {
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let f = fs::File::open(filename)?;
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Ok(serde_json::from_reader(f)?)
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}
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fn write_json(filename: &str, value: &Value) -> Result<()> {
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let f = fs::File::create(filename)?;
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serde_json::to_writer(f, value)?;
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Ok(())
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}
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/// The list of the tuples of the benchmark name, arguments and return code
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const EXEC_TIME_BENCHMARKS: &[(&str, &[&str], Option<i32>)] = &[
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// we need to run the cold_* benchmarks before the _warm_ ones as they ensure
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// the cache is properly populated, instead of other tests possibly
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// invalidating that cache.
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(
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"cold_hello",
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&["run", "--reload", "cli/tests/002_hello.ts"],
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None,
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),
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(
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"cold_relative_import",
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&["run", "--reload", "cli/tests/003_relative_import.ts"],
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None,
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),
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("hello", &["run", "cli/tests/002_hello.ts"], None),
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(
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"relative_import",
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&["run", "cli/tests/003_relative_import.ts"],
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None,
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),
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("error_001", &["run", "cli/tests/error_001.ts"], Some(1)),
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(
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"no_check_hello",
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&["run", "--reload", "--no-check", "cli/tests/002_hello.ts"],
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None,
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),
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(
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"workers_startup",
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&["run", "--allow-read", "cli/tests/workers/bench_startup.ts"],
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None,
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),
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(
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"workers_round_robin",
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&[
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"run",
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"--allow-read",
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"cli/tests/workers/bench_round_robin.ts",
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],
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None,
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),
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(
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"workers_large_message",
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&[
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"run",
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"--allow-read",
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"cli/tests/workers/bench_large_message.ts",
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],
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None,
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),
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(
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"text_decoder",
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&["run", "cli/tests/text_decoder_perf.js"],
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None,
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),
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(
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"text_encoder",
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&["run", "cli/tests/text_encoder_perf.js"],
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None,
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),
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(
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"text_encoder_into",
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&["run", "cli/tests/text_encoder_into_perf.js"],
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None,
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),
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(
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"check",
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&[
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"cache",
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"--reload",
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"test_util/std/examples/chat/server_test.ts",
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],
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None,
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),
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(
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"no_check",
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&[
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"cache",
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"--reload",
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"--no-check",
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"test_util/std/examples/chat/server_test.ts",
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],
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None,
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),
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(
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"bundle",
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&["bundle", "test_util/std/examples/chat/server_test.ts"],
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None,
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),
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(
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"bundle_no_check",
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&[
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"bundle",
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"--no-check",
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"test_util/std/examples/chat/server_test.ts",
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],
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None,
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),
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];
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const RESULT_KEYS: &[&str] =
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&["mean", "stddev", "user", "system", "min", "max"];
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fn run_exec_time(
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deno_exe: &Path,
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target_dir: &Path,
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) -> Result<HashMap<String, HashMap<String, f64>>> {
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let hyperfine_exe = test_util::prebuilt_tool_path("hyperfine");
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let benchmark_file = target_dir.join("hyperfine_results.json");
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let benchmark_file = benchmark_file.to_str().unwrap();
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let mut command = [
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hyperfine_exe.to_str().unwrap(),
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"--export-json",
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benchmark_file,
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"--warmup",
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"3",
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]
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.iter()
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.map(|s| s.to_string())
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.collect::<Vec<_>>();
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for (_, args, return_code) in EXEC_TIME_BENCHMARKS {
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let ret_code_test = if let Some(code) = return_code {
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// Bash test which asserts the return code value of the previous command
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// $? contains the return code of the previous command
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format!("; test $? -eq {}", code)
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} else {
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"".to_string()
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};
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command.push(format!(
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"{} {} {}",
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deno_exe.to_str().unwrap(),
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args.join(" "),
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ret_code_test
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));
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}
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test_util::run(
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&command.iter().map(|s| s.as_ref()).collect::<Vec<_>>(),
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None,
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None,
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None,
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true,
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);
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let mut results = HashMap::<String, HashMap<String, f64>>::new();
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let hyperfine_results = read_json(benchmark_file)?;
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for ((name, _, _), data) in EXEC_TIME_BENCHMARKS.iter().zip(
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hyperfine_results
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.as_object()
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.unwrap()
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.get("results")
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.unwrap()
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.as_array()
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.unwrap(),
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) {
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let data = data.as_object().unwrap().clone();
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results.insert(
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name.to_string(),
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data
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.into_iter()
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.filter(|(key, _)| RESULT_KEYS.contains(&key.as_str()))
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.map(|(key, val)| (key, val.as_f64().unwrap()))
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.collect(),
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);
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}
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Ok(results)
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}
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fn rlib_size(target_dir: &std::path::Path, prefix: &str) -> u64 {
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let mut size = 0;
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let mut seen = std::collections::HashSet::new();
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for entry in std::fs::read_dir(target_dir.join("deps")).unwrap() {
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let entry = entry.unwrap();
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let os_str = entry.file_name();
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let name = os_str.to_str().unwrap();
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if name.starts_with(prefix) && name.ends_with(".rlib") {
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let start = name.split('-').next().unwrap().to_string();
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if seen.contains(&start) {
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println!("skip {}", name);
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} else {
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seen.insert(start);
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size += entry.metadata().unwrap().len();
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println!("check size {} {}", name, size);
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}
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}
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}
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assert!(size > 0);
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size
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}
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const BINARY_TARGET_FILES: &[&str] =
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&["CLI_SNAPSHOT.bin", "COMPILER_SNAPSHOT.bin"];
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fn get_binary_sizes(target_dir: &Path) -> Result<HashMap<String, u64>> {
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let mut sizes = HashMap::<String, u64>::new();
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let mut mtimes = HashMap::<String, SystemTime>::new();
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sizes.insert(
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"deno".to_string(),
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test_util::deno_exe_path().metadata()?.len(),
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);
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// add up size for everything in target/release/deps/libswc*
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let swc_size = rlib_size(&target_dir, "libswc");
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println!("swc {} bytes", swc_size);
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sizes.insert("swc_rlib".to_string(), swc_size);
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let rusty_v8_size = rlib_size(&target_dir, "librusty_v8");
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println!("rusty_v8 {} bytes", rusty_v8_size);
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sizes.insert("rusty_v8_rlib".to_string(), rusty_v8_size);
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// Because cargo's OUT_DIR is not predictable, search the build tree for
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// snapshot related files.
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for file in walkdir::WalkDir::new(target_dir) {
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let file = match file {
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Ok(file) => file,
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Err(_) => continue,
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};
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let filename = file.file_name().to_str().unwrap().to_string();
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if !BINARY_TARGET_FILES.contains(&filename.as_str()) {
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continue;
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}
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let meta = file.metadata()?;
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let file_mtime = meta.modified()?;
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// If multiple copies of a file are found, use the most recent one.
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if let Some(stored_mtime) = mtimes.get(&filename) {
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if *stored_mtime > file_mtime {
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continue;
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}
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}
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mtimes.insert(filename.clone(), file_mtime);
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sizes.insert(filename, meta.len());
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}
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Ok(sizes)
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}
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const BUNDLES: &[(&str, &str)] = &[
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("file_server", "./test_util/std/http/file_server.ts"),
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("gist", "./test_util/std/examples/gist.ts"),
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];
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fn bundle_benchmark(deno_exe: &Path) -> Result<HashMap<String, u64>> {
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let mut sizes = HashMap::<String, u64>::new();
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for (name, url) in BUNDLES {
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let path = format!("{}.bundle.js", name);
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test_util::run(
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&[
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deno_exe.to_str().unwrap(),
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"bundle",
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"--unstable",
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url,
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&path,
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],
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None,
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None,
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None,
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true,
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);
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let file = PathBuf::from(path);
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assert!(file.is_file());
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sizes.insert(name.to_string(), file.metadata()?.len());
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let _ = fs::remove_file(file);
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}
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Ok(sizes)
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}
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fn run_throughput(deno_exe: &Path) -> Result<HashMap<String, f64>> {
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let mut m = HashMap::<String, f64>::new();
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m.insert("100M_tcp".to_string(), throughput::tcp(deno_exe, 100)?);
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m.insert("100M_cat".to_string(), throughput::cat(deno_exe, 100));
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m.insert("10M_tcp".to_string(), throughput::tcp(deno_exe, 10)?);
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m.insert("10M_cat".to_string(), throughput::cat(deno_exe, 10));
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Ok(m)
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}
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fn run_http(target_dir: &Path, new_data: &mut BenchResult) -> Result<()> {
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let stats = http::benchmark(target_dir)?;
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new_data.req_per_sec = stats
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.iter()
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.map(|(name, result)| (name.clone(), result.requests))
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.collect();
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new_data.max_latency = stats
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.iter()
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.map(|(name, result)| (name.clone(), result.latency))
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.collect();
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Ok(())
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}
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fn run_strace_benchmarks(
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deno_exe: &Path,
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new_data: &mut BenchResult,
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) -> Result<()> {
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use std::io::Read;
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let mut thread_count = HashMap::<String, u64>::new();
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let mut syscall_count = HashMap::<String, u64>::new();
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for (name, args, _) in EXEC_TIME_BENCHMARKS {
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let mut file = tempfile::NamedTempFile::new()?;
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Command::new("strace")
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.args(&[
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"-c",
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"-f",
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"-o",
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file.path().to_str().unwrap(),
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deno_exe.to_str().unwrap(),
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])
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.args(args.iter())
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.stdout(Stdio::inherit())
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.spawn()?
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.wait()?;
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let mut output = String::new();
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file.as_file_mut().read_to_string(&mut output)?;
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let strace_result = test_util::parse_strace_output(&output);
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let clone = strace_result.get("clone").map(|d| d.calls).unwrap_or(0) + 1;
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let total = strace_result.get("total").unwrap().calls;
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thread_count.insert(name.to_string(), clone);
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syscall_count.insert(name.to_string(), total);
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}
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new_data.thread_count = thread_count;
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new_data.syscall_count = syscall_count;
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Ok(())
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}
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fn run_max_mem_benchmark(deno_exe: &Path) -> Result<HashMap<String, u64>> {
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let mut results = HashMap::<String, u64>::new();
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for (name, args, return_code) in EXEC_TIME_BENCHMARKS {
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let proc = Command::new("time")
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.args(&["-v", deno_exe.to_str().unwrap()])
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.args(args.iter())
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.stdout(Stdio::null())
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.stderr(Stdio::piped())
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.spawn()?;
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let proc_result = proc.wait_with_output()?;
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if let Some(code) = return_code {
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assert_eq!(proc_result.status.code().unwrap(), *code);
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}
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let out = String::from_utf8(proc_result.stderr)?;
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results.insert(name.to_string(), test_util::parse_max_mem(&out).unwrap());
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}
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Ok(results)
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}
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fn cargo_deps() -> usize {
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let cargo_lock = test_util::root_path().join("Cargo.lock");
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let mut count = 0;
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let file = std::fs::File::open(cargo_lock).unwrap();
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use std::io::BufRead;
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for line in std::io::BufReader::new(file).lines() {
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if line.unwrap().starts_with("[[package]]") {
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count += 1
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}
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}
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println!("cargo_deps {}", count);
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assert!(count > 10); // Sanity check.
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count
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}
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#[derive(Default, Serialize)]
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struct BenchResult {
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created_at: String,
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sha1: String,
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// TODO(ry) The "benchmark" benchmark should actually be called "exec_time".
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// When this is changed, the historical data in gh-pages branch needs to be
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// changed too.
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benchmark: HashMap<String, HashMap<String, f64>>,
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binary_size: HashMap<String, u64>,
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bundle_size: HashMap<String, u64>,
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cargo_deps: usize,
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max_latency: HashMap<String, f64>,
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max_memory: HashMap<String, u64>,
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lsp_exec_time: HashMap<String, u64>,
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req_per_sec: HashMap<String, u64>,
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syscall_count: HashMap<String, u64>,
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thread_count: HashMap<String, u64>,
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throughput: HashMap<String, f64>,
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}
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/*
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TODO(SyrupThinker)
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Switch to the #[bench] attribute once
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it is stabilized.
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Before that the #[test] tests won't be run because
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we replace the harness with our own runner here.
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*/
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fn main() -> Result<()> {
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if env::args().find(|s| s == "--bench").is_none() {
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return Ok(());
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}
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println!("Starting Deno benchmark");
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let target_dir = test_util::target_dir();
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let deno_exe = test_util::deno_exe_path();
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env::set_current_dir(&test_util::root_path())?;
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let mut new_data = BenchResult {
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created_at: chrono::Utc::now()
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.to_rfc3339_opts(chrono::SecondsFormat::Secs, true),
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sha1: test_util::run_collect(
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&["git", "rev-parse", "HEAD"],
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None,
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None,
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None,
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true,
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)
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.0
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.trim()
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.to_string(),
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benchmark: run_exec_time(&deno_exe, &target_dir)?,
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binary_size: get_binary_sizes(&target_dir)?,
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bundle_size: bundle_benchmark(&deno_exe)?,
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cargo_deps: cargo_deps(),
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lsp_exec_time: lsp::benchmarks(&deno_exe)?,
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..Default::default()
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};
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// Cannot run throughput benchmark on windows because they don't have nc or
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// pipe.
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if cfg!(not(target_os = "windows")) {
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new_data.throughput = run_throughput(&deno_exe)?;
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run_http(&target_dir, &mut new_data)?;
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}
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if cfg!(target_os = "linux") {
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run_strace_benchmarks(&deno_exe, &mut new_data)?;
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new_data.max_memory = run_max_mem_benchmark(&deno_exe)?;
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}
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println!("===== <BENCHMARK RESULTS>");
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serde_json::to_writer_pretty(std::io::stdout(), &new_data)?;
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println!("\n===== </BENCHMARK RESULTS>");
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if let Some(filename) = target_dir.join("bench.json").to_str() {
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write_json(filename, &serde_json::to_value(&new_data)?)?;
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} else {
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eprintln!("Cannot write bench.json, path is invalid");
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}
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Ok(())
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}
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pub(crate) type Result<T> = std::result::Result<T, AnyError>;
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