#!/usr/bin/env python # Copyright 2018 the Deno authors. All rights reserved. MIT license. # Performs benchmark and append data to //website/data.json. # If //website/data.json doesn't exist, this script tries to import it from gh-pages branch. # To view the results locally run ./tools/http_server.py and visit # http://localhost:4545/website import os import sys import json import time import shutil from util import run, run_output, root_path, build_path, executable_suffix import tempfile import http_server import throughput_benchmark # The list of the tuples of the benchmark name and arguments exec_time_benchmarks = [ ("hello", ["tests/002_hello.ts"]), ("relative_import", ["tests/003_relative_import.ts"]), ("cold_hello", ["tests/002_hello.ts", "--recompile"]), ("cold_relative_import", ["tests/003_relative_import.ts", "--recompile"]), ] gh_pages_data_file = "gh-pages/data.json" data_file = "website/data.json" def read_json(filename): with open(filename) as json_file: return json.load(json_file) def write_json(filename, data): with open(filename, 'w') as outfile: json.dump(data, outfile) def import_data_from_gh_pages(): if os.path.exists(data_file): return try: run([ "git", "clone", "--depth", "1", "-b", "gh-pages", "https://github.com/denoland/deno.git", "gh-pages" ]) shutil.copy(gh_pages_data_file, data_file) except: write_json(data_file, []) # writes empty json data def get_binary_sizes(build_dir): path_dict = { "deno": os.path.join(build_dir, "deno" + executable_suffix), "main.js": os.path.join(build_dir, "gen/bundle/main.js"), "main.js.map": os.path.join(build_dir, "gen/bundle/main.js.map"), "snapshot_deno.bin": os.path.join(build_dir, "gen/snapshot_deno.bin") } sizes = {} for name, path in path_dict.items(): sizes[name] = os.path.getsize(path) return sizes def get_strace_summary_text(test_args): f = tempfile.NamedTemporaryFile() run(["strace", "-c", "-f", "-o", f.name] + test_args) return f.read() def strace_parse(summary_text): summary = {} # clear empty lines lines = list(filter(lambda x: x and x != "\n", summary_text.split("\n"))) if len(lines) < 4: return {} # malformed summary lines, total_line = lines[2:-2], lines[-1] # data to dict for each line for line in lines: syscall_fields = line.split() syscall_name = syscall_fields[-1] syscall_dict = {} if 5 <= len(syscall_fields) <= 6: syscall_dict = { "% time": float(syscall_fields[0]), "seconds": float(syscall_fields[1]), "usecs/call": int(syscall_fields[2]), "calls": int(syscall_fields[3]) } syscall_dict["errors"] = 0 if len(syscall_fields) < 6 else int( syscall_fields[4]) summary[syscall_name] = syscall_dict # record overall (total) data total_fields = total_line.split() summary["total"] = { "% time": float(total_fields[0]), "seconds": float(total_fields[1]), "calls": int(total_fields[2]), "errors": int(total_fields[3]) } return summary def get_strace_summary(test_args): return strace_parse(get_strace_summary_text(test_args)) def run_thread_count_benchmark(deno_path): thread_count_map = {} thread_count_map["set_timeout"] = get_strace_summary([ deno_path, "tests/004_set_timeout.ts", "--reload" ])["clone"]["calls"] + 1 thread_count_map["fetch_deps"] = get_strace_summary([ deno_path, "tests/fetch_deps.ts", "--reload", "--allow-net" ])["clone"]["calls"] + 1 return thread_count_map def run_throughput(deno_exe): m = {} m["100M_tcp"] = throughput_benchmark.tcp(deno_exe, 100) m["100M_cat"] = throughput_benchmark.cat(deno_exe, 100) m["10M_tcp"] = throughput_benchmark.tcp(deno_exe, 10) m["10M_cat"] = throughput_benchmark.cat(deno_exe, 10) return m def run_syscall_count_benchmark(deno_path): syscall_count_map = {} syscall_count_map["hello"] = get_strace_summary( [deno_path, "tests/002_hello.ts", "--reload"])["total"]["calls"] syscall_count_map["fetch_deps"] = get_strace_summary( [deno_path, "tests/fetch_deps.ts", "--reload", "--allow-net"])["total"]["calls"] return syscall_count_map def main(argv): if len(argv) == 2: build_dir = sys.argv[1] elif len(argv) == 1: build_dir = build_path() else: print "Usage: tools/benchmark.py [build_dir]" sys.exit(1) http_server.spawn() deno_path = os.path.join(build_dir, "deno") benchmark_file = os.path.join(build_dir, "benchmark.json") os.chdir(root_path) import_data_from_gh_pages() # TODO: Use hyperfine in //third_party run(["hyperfine", "--export-json", benchmark_file, "--warmup", "3"] + [ deno_path + " " + " ".join(args) for [_, args] in exec_time_benchmarks ]) all_data = read_json(data_file) benchmark_data = read_json(benchmark_file) sha1 = run_output(["git", "rev-parse", "HEAD"]).strip() new_data = { "created_at": time.strftime("%Y-%m-%dT%H:%M:%SZ"), "sha1": sha1, "binary_size": {}, "thread_count": {}, "syscall_count": {}, "benchmark": {} } for [[name, _], data] in zip(exec_time_benchmarks, benchmark_data["results"]): new_data["benchmark"][name] = { "mean": data["mean"], "stddev": data["stddev"], "user": data["user"], "system": data["system"], "min": data["min"], "max": data["max"] } new_data["binary_size"] = get_binary_sizes(build_dir) # Cannot run throughput benchmark on windows because they don't have nc or # pipe. if os.name != 'nt': new_data["throughput"] = run_throughput(deno_path) if "linux" in sys.platform: # Thread count test, only on linux new_data["thread_count"] = run_thread_count_benchmark(deno_path) new_data["syscall_count"] = run_syscall_count_benchmark(deno_path) all_data.append(new_data) write_json(data_file, all_data) if __name__ == '__main__': main(sys.argv)