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bisection.py
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bisection.py
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"""bisection.py
Runs bisection to determine PRs that trigger performance signals.
It assumes that the pytorch, torchbench, torchvision, and torchaudio repositories provided are all clean with the latest code.
By default, the torchaudio and torchvision packages will be fixed to the latest commit on the same pytorch commit date.
Usage:
python bisection.py --work-dir <WORK_DIR> \
--torch-repos-path <PYTORCH_REPOS_PATH> \
--torchbench-repo-path <TORCHBENCH_SRC_DIR> \
--config <BISECT_CONFIG> --output <OUTPUT_FILE_PATH>
"""
import argparse
import json
import os
import shutil
import subprocess
import sys
import time
from dataclasses import asdict
from datetime import datetime
from pathlib import Path
from typing import Any, Callable, Dict, List, Optional, Tuple
import yaml
from userbenchmark.utils import (
parse_abtest_result_from_regression_file_for_bisect,
TorchBenchABTestResult,
)
TORCHBENCH_BISECTION_TARGETS = {
"pytorch": {
"name": "pytorch",
"url": "https://github.com/pytorch/pytorch.git",
"build_command": [sys.executable, "setup.py", "install"],
},
"torchvision": {
"name": "vision",
"url": "https://github.com/pytorch/vision.git",
"build_command": [sys.executable, "setup.py", "install"],
},
"torchaudio": {
"name": "audio",
"url": "https://github.com/pytorch/audio.git",
"build_command": [sys.executable, "setup.py", "clean", "develop"],
},
"torchbench": {
"name": "benchmark",
"url": "https://github.com/pytorch/benchmark.git",
"build_command": [sys.executable, "install.py"],
},
}
try:
# OSS utils
from regression_detector import generate_regression_result
from utils import gitutils
from utils.build_utils import (
build_repo,
cleanup_torch_packages,
setup_bisection_build_env,
TorchRepo,
)
from utils.cuda_utils import DEFAULT_CUDA_VERSION, prepare_cuda_env
from utils.github import process_bisection_into_gh_issue
IS_FBCODE = False
except (ImportError, ModuleNotFoundError):
# Meta-Internal imports
from .regression_detector import generate_regression_result
from .utils.build_utils import setup_bisection_build_env, TorchRepo
from .utils.cuda_utils import DEFAULT_CUDA_VERSION, prepare_cuda_env
from .utils.fb import hgutils
from .utils.fb.build_utils import (
build_fbcode_repo,
FBCODE_BUILD_COMMAND,
FBCODE_URL,
get_fbcode_build_artifact_dir,
setup_fbcode_repo,
)
IS_FBCODE = True
TORCHBENCH_BISECTION_TARGETS["fbcode"] = {
"name": "fbcode",
"url": FBCODE_URL,
"build_command": FBCODE_BUILD_COMMAND,
}
SKIP_INSTALL_TORCHBENCH = False
def exist_dir_path(string):
if os.path.isdir(string):
return string
else:
raise NotADirectoryError(string)
def exist_file_path(string):
if not os.path.exists(string):
raise FileNotFoundError(string)
elif os.path.isdir(string):
return IsADirectoryError(string)
else:
return string
def get_latest_non_empty_file(directory: str, cond: Callable) -> Optional[str]:
if os.path.isdir(directory):
filelist = [os.path.join(directory, f) for f in os.listdir(directory)]
non_empty_filelist = [f for f in filelist if os.path.getsize(f) and cond(f)]
if len(non_empty_filelist):
return max(non_empty_filelist, key=os.path.getctime)
return None
def get_updated_clean_torch_repos(
pytorch_repos_path: str,
torchbench_repo_path: Optional[str] = None,
skip_update_repos: Optional[List[str]] = None,
) -> Dict[str, TorchRepo]:
if IS_FBCODE:
return setup_fbcode_repo(pytorch_repos_path)
all_repos = {}
def _gen_torch_repo(repo_name: str, repo_path: str):
assert (
repo_path.exists() and repo_path.is_dir()
), f"{str(repo_path)} is not an existing directory."
main_branch = (
"main"
if not "main_branch" in TORCHBENCH_BISECTION_TARGETS[repo_name]
else TORCHBENCH_BISECTION_TARGETS[repo_name]["main_branch"]
)
if not skip_update_repos or not repo_name in skip_update_repos:
gitutils.cleanup_local_changes(repo_path.absolute())
assert gitutils.update_git_repo(repo_path.absolute(), main_branch)
assert gitutils.clean_git_repo(repo_path.absolute())
cur_commit = gitutils.get_current_commit(repo_path.absolute())
return TorchRepo(
name=repo_name,
origin_url=TORCHBENCH_BISECTION_TARGETS[repo_name]["url"],
main_branch=main_branch,
src_path=repo_path,
cur_commit=cur_commit,
build_command=TORCHBENCH_BISECTION_TARGETS[repo_name]["build_command"],
)
for repo_name in TORCHBENCH_BISECTION_TARGETS.keys():
repo_subdir_name = TORCHBENCH_BISECTION_TARGETS[repo_name]["name"]
repo_path = (
Path(pytorch_repos_path).joinpath(repo_subdir_name)
if not (torchbench_repo_path and repo_name == "torchbench")
else Path(torchbench_repo_path)
)
all_repos[repo_name] = _gen_torch_repo(repo_name, repo_path)
return all_repos
class Commit:
sha: str
ctime: str
digest: Optional[Dict[str, Any]]
def __init__(self, sha, ctime):
self.sha = sha
self.ctime = ctime
self.digest = None
def __str__(self):
return self.sha
class BisectionTargetRepo:
repo: TorchRepo
# Start and end git hash
start: str
end: str
# Start and end version
start_version: str
end_version: str
non_target_repos: List[TorchRepo]
# generated in prep()
bisection_env: os._Environ
commits: List[Commit]
# Map from commit SHA to its index in commits
commit_dict: Dict[str, int]
def __init__(
self,
repo: TorchRepo,
start: str,
end: str,
start_version: str,
end_version: str,
non_target_repos: List[TorchRepo],
):
self.repo = repo
self.start = start
self.end = end
self.start_version = start_version
self.end_version = end_version
self.non_target_repos = non_target_repos
self.commits = []
self.commit_dict = dict()
# Checkout the last commit of non-target repos on date
def _checkout_non_target_repos(self, cdate: datetime):
for repo in self.non_target_repos:
gitutils.checkout_git_branch(repo.src_path.absolute(), repo.main_branch)
dep_commit = gitutils.get_git_commit_on_date(
repo.src_path.absolute(), cdate
)
assert dep_commit, f"Failed to find the commit on {cdate} of {repo.name}"
print(
f"Checking out {repo.name} commit {dep_commit} ...", end="", flush=True
)
assert gitutils.checkout_git_commit(
repo.src_path.absolute(), dep_commit
), f"Failed to checkout commit {dep_commit} of {repo.name}"
print("done.")
def prep(self, interactive: bool = False) -> bool:
if not IS_FBCODE:
if not interactive:
base_build_env = prepare_cuda_env(cuda_version=DEFAULT_CUDA_VERSION)
self.bisection_env = setup_bisection_build_env(base_build_env)
else:
self.bisection_env = os.environ.copy()
commits = gitutils.get_git_commits(self.repo.src_path, self.start, self.end)
else:
self.bisection_env = os.environ.copy()
commits = hgutils.get_hg_commits_between(
self.repo.src_path, self.start, self.end
)
if not commits or len(commits) < 2:
print(
f"Failed to retrieve commits from {self.start} to {self.end} in {self.repo.src_path}."
)
return False
for count, commit in enumerate(commits):
ctime = (
hgutils.get_commit_date(self.repo.src_path, commit)
if IS_FBCODE
else gitutils.get_git_commit_date(self.repo.src_path, commit)
)
self.commits.append(Commit(sha=commit, ctime=ctime))
self.commit_dict[commit] = count
return True
def get_mid_commit(self, left: Commit, right: Commit) -> Optional[Commit]:
left_index = self.commit_dict[left.sha]
right_index = self.commit_dict[right.sha]
if right_index == left_index + 1:
return None
else:
return self.commits[int((left_index + right_index) / 2)]
def build(self, commit: Commit):
# checkout target repo commit
print(
f"====================== [TORCHBENCH] Checking out and building target repo {self.repo.name} commit {commit.sha} "
"=======================",
flush=True,
)
if not IS_FBCODE:
assert gitutils.checkout_git_commit(
self.repo.src_path.absolute(), commit.sha
)
ctime = datetime.strptime(commit.ctime.split(" ")[0], "%Y-%m-%d")
self._checkout_non_target_repos(ctime)
# build target repo
build_repo(self.repo, self.bisection_env)
# build non target repos
for repo in self.non_target_repos:
build_repo(repo, self.bisection_env)
else:
assert hgutils.checkout_commit(self.repo.src_path.absolute(), commit.sha)
build_fbcode_repo(self.repo, self.bisection_env, commit.sha)
class TorchBenchRepo:
repo: TorchRepo
target_repo: BisectionTargetRepo
workdir: Path
bisection_env: os._Environ
timelimit: int # timeout limit in minutes
first_time: bool
def __init__(
self, repo: TorchRepo, target_repo: BisectionTargetRepo, workdir: Path
):
self.repo = repo
self.target_repo = target_repo
self.workdir = workdir
self.first_time = True
def prep(self, bisection_env: os._Environ) -> bool:
self.bisection_env = bisection_env
return True
def _install_benchmark(self):
"Install and build TorchBench dependencies"
command = [sys.executable, "install.py"]
subprocess.check_call(
command, cwd=self.repo.src_path.absolute(), env=self.bisection_env
)
def _run_benchmark_for_commit(
self, commit: Commit, bisect_config: TorchBenchABTestResult
) -> str:
# Return the result json file path
output_dir = os.path.join(self.workdir.absolute(), commit.sha)
# If the directory already exists, clear its contents
if os.path.exists(output_dir):
assert os.path.isdir(
output_dir
), "Must specify output directory: {output_dir}"
shutil.rmtree(output_dir)
os.mkdir(output_dir)
# If the first time to run benchmark, install the dependencies first
if self.first_time and not SKIP_INSTALL_TORCHBENCH and not IS_FBCODE:
self._install_benchmark()
self.first_time = False
bm_name = bisect_config.name
output_file = "metrics-{}.json".format(
datetime.fromtimestamp(time.time()).strftime("%Y%m%d%H%M%S")
)
output_file_path = os.path.join(output_dir, output_file)
print(
f"===================== [TORCHBENCH] Running TorchBench for commit: {commit.sha} START =====================",
flush=True,
)
if IS_FBCODE:
self.bisection_env["CURRENT_HG_COMMIT_HASH"] = commit.sha
command = (
[
sys.executable,
"run_benchmark.py",
bm_name,
"--run-bisect",
bisect_config.bisection_config_file_path,
"--output",
output_file_path,
]
if not IS_FBCODE
else [
f"./run_benchmark.par",
bm_name,
"--run-bisect",
bisect_config.bisection_config_file_path,
"--output",
output_file_path,
]
)
work_directory = (
self.repo.src_path
if not IS_FBCODE
else get_fbcode_build_artifact_dir(self.repo, commit.sha)
)
subprocess.check_call(command, cwd=work_directory, env=self.bisection_env)
print(
f"===================== [TORCHBENCH] Running TorchBench for commit: {commit.sha} END. OUTPUT: {output_file_path} =====================",
flush=True,
)
return output_file_path
def _gen_digest(self, result_json: str) -> Dict[str, float]:
out = {}
if not os.path.getsize(result_json):
print(f"Empty json file {result_json}. Return empty digest.")
return out
with open(result_json, "r") as df:
data = json.load(df)
return data
def get_digest_for_commit(
self, commit: Commit, abtest_result: Dict[str, Any], debug: bool
) -> Dict[str, float]:
# digest is cached before
if commit.digest:
return commit.digest
# if in debug mode, load from the benchmark file if it exists
if debug:
result_dir = os.path.join(self.workdir, commit.sha)
result_json = get_latest_non_empty_file(
result_dir, lambda x: x.endswith(".json")
)
if result_json:
commit.digest = self._gen_digest(result_json)
return commit.digest
# Build all torch packages
self.target_repo.build(commit)
# Run benchmark, return the output json file
result_json = self._run_benchmark_for_commit(commit, abtest_result)
commit.digest = self._gen_digest(result_json)
if not IS_FBCODE:
print(
f"================== [TORCHBENCH] Cleaning up packages for commit {commit.sha} ==================",
flush=True,
)
cleanup_torch_packages()
return commit.digest
class TorchBenchBisection:
workdir: Path
torch_repos: Dict[str, TorchRepo]
target_repo: BisectionTargetRepo
torchbench: TorchBenchRepo
bisect_config: TorchBenchABTestResult
output_json: str
# Run in debug mode.
# If true, will try to resume from the previous failed run.
debug: bool
# Run in interactive mode.
# If true, skip running and manually specify good and bad commits.
interactive: bool
# left commit, right commit, TorchBenchABTestResult to test.
bisectq: List[Tuple[Commit, Commit, TorchBenchABTestResult]]
result: List[Tuple[Commit, Commit]]
def __init__(
self,
workdir: str,
torch_repos: List[TorchRepo],
target_repo: TorchRepo,
start: str,
end: str,
start_version: str,
end_version: str,
bisect_config: TorchBenchABTestResult,
output_json: str,
debug: bool = False,
interactive: bool = False,
):
self.workdir = Path(workdir)
self.torch_repos = torch_repos
non_target_repos = list(
filter(
lambda x: not x.name == target_repo.name and not x.name == "torchbench",
torch_repos.values(),
)
)
torchbench_repo_key = "torchbench" if not IS_FBCODE else "fbcode"
self.target_repo = BisectionTargetRepo(
repo=target_repo,
start=start,
end=end,
start_version=start_version,
end_version=end_version,
non_target_repos=non_target_repos,
)
self.torchbench = TorchBenchRepo(
repo=torch_repos[torchbench_repo_key],
target_repo=self.target_repo,
workdir=self.workdir,
)
self.bisect_config = bisect_config
self.bisectq = list()
self.result = list()
self.output_json = output_json
self.debug = debug
self.interactive = interactive
def prep(self) -> bool:
if not IS_FBCODE:
cleanup_torch_packages()
if not self.target_repo.prep(self.interactive):
return False
if not self.torchbench.prep(self.target_repo.bisection_env):
return False
left_commit = self.target_repo.commits[0]
right_commit = self.target_repo.commits[-1]
self.bisectq.append((left_commit, right_commit, self.bisect_config))
return True
# Left: older commit, right: newer commit, target: TorchBenchABTestResult
# Return: List of [left, right, TorchBenchABTestResult] that satisfy the regression rule
def regression_detection(
self, left: Commit, right: Commit
) -> TorchBenchABTestResult:
# If uncalculated, commit.digest will be None
assert left.digest, "Commit {left.sha} must have a digest"
assert right.digest, "Commit {right.sha} must have a digest"
regression_result = generate_regression_result(
left.digest.copy(), right.digest.copy()
)
regression_file = f"regression-{left.sha}-{right.sha}.yaml"
regression_file_full_path = os.path.join(
self.workdir.absolute(), regression_file
)
with open(regression_file_full_path, "w") as rf:
rf.write(yaml.safe_dump(asdict(regression_result)))
regression_result.bisection_config_file_path = regression_file_full_path
return regression_result
def interactive_signal(self, commit: Commit) -> bool:
"""Prompt for good or bad commit from user input."""
val = input(f"Commit {commit.sha} good or bad (G/B)? ").strip()
if val == "G":
return True
elif val == "B":
return False
else:
assert False, "We only accept G or B as user input."
def run(self):
while len(self.bisectq):
(left, right, abtest_result) = self.bisectq.pop(0)
if self.interactive:
left_signal = self.interactive_signal(left)
right_signal = self.interactive_signal(right)
signal = not (left_signal == right_signal)
updated_abtest_result = None
else:
self.torchbench.get_digest_for_commit(left, abtest_result, self.debug)
self.torchbench.get_digest_for_commit(right, abtest_result, self.debug)
updated_abtest_result = self.regression_detection(left, right)
signal = bool(len(updated_abtest_result.details))
print(
f"Left commit: {left.sha}, right commit: {right.sha}, signal: {signal}"
)
if signal:
mid = self.target_repo.get_mid_commit(left, right)
if mid == None:
self.result.append((left, right))
else:
self.bisectq.append((left, mid, updated_abtest_result))
self.bisectq.append((mid, right, updated_abtest_result))
def output(self):
json_obj = dict()
json_obj["target_repo"] = self.target_repo.repo.name
json_obj["start"] = self.target_repo.start
json_obj["start_version"] = self.target_repo.start_version
json_obj["end"] = self.target_repo.end
json_obj["end_version"] = self.target_repo.end_version
json_obj["result"] = []
for res in self.result:
r = dict()
r["commit1"] = res[0].sha
r["commit1_time"] = res[0].ctime
r["commit1_digest"] = res[0].digest
r["commit2"] = res[1].sha
r["commit2_time"] = res[1].ctime
r["commit2_digest"] = res[1].digest
json_obj["result"].append(r)
with open(self.output_json, "w") as outfile:
json.dump(json_obj, outfile, indent=2)
print(f"Bisection successful. Result saved to {self.output_json}.")
print(json_obj)
def main() -> None:
global SKIP_INSTALL_TORCHBENCH
parser = argparse.ArgumentParser(description=__doc__)
parser.add_argument(
"--work-dir",
required=True,
help="bisection working directory for logs and results",
type=exist_dir_path,
)
parser.add_argument(
"--torch-repos-path",
required=True,
help="the directory of pytorch/* source code repositories, or fbcode repo if running internally",
type=exist_dir_path,
)
parser.add_argument(
"--config",
required=True,
help="the regression dict output of regression_detector.py in YAML",
type=exist_file_path,
)
parser.add_argument(
"--torchbench-repo-path",
default=None,
help="the directory of torchbench source code git repository, if None, use `args.torch_repo_path/benchmark`.",
type=exist_dir_path,
)
parser.add_argument(
"--skip-install-torchbench",
action="store_true",
help="Skip installing torchbench",
)
parser.add_argument("--output", required=True, help="the output json file")
parser.add_argument(
"--skip-update",
type=str,
default="torchbench",
help="Repositories to skip update.",
)
parser.add_argument(
"--gh-issue-path",
default="gh-issue.md",
help="Output path to print the issue body",
)
# by default, debug mode is disabled
parser.add_argument(
"--debug",
help="run in debug mode, if the result json exists, use it directly",
action="store_true",
)
parser.add_argument(
"--interactive",
help="run in interactive mode, manually specify good and bad commits",
action="store_true",
)
args = parser.parse_args()
bisect_config = parse_abtest_result_from_regression_file_for_bisect(args.config)
# sanity checks
assert (
bisect_config.name
), "Invalid bisection config, must specify userbenchmark name."
assert bisect_config.control_env[
"git_commit_hash"
], "Invalid bisection config, must specify control group commit hash."
assert bisect_config.treatment_env[
"git_commit_hash"
], "Invalid bisection config, must specify treatment group commit hash."
assert bisect_config.bisection in TORCHBENCH_BISECTION_TARGETS.keys(), (
f"Invalid bisection config, "
f"get bisection target repo {bisect_config.bisection}, "
f"available target repos: {TORCHBENCH_BISECTION_TARGETS.keys()}"
)
assert bisect_config.bisection_mode == "bisect", "Abtest mode is not supported yet."
assert len(bisect_config.details), "The bisection target metrics must not be empty."
if args.skip_update:
skip_update_repos = list(map(lambda x: x.strip(), args.skip_update.split(",")))
for repo in skip_update_repos:
assert repo in list(
TORCHBENCH_BISECTION_TARGETS.keys()
), f"User specified skip update repo {repo} not in list: {TORCHBENCH_BISECTION_TARGETS.keys()}"
else:
skip_update_repos = None
if args.skip_install_torchbench:
SKIP_INSTALL_TORCHBENCH = True
# load, update, and clean the repo directories
torch_repos: Dict[str, TorchRepo] = get_updated_clean_torch_repos(
args.torch_repos_path, args.torchbench_repo_path, skip_update_repos
)
target_repo = torch_repos[bisect_config.bisection]
start_hash = (
gitutils.get_torch_main_commit(
target_repo.src_path.absolute(),
bisect_config.control_env["git_commit_hash"],
)
if not IS_FBCODE
else bisect_config.control_env["git_commit_hash"]
)
end_hash = (
gitutils.get_torch_main_commit(
target_repo.src_path.absolute(),
bisect_config.treatment_env["git_commit_hash"],
)
if not IS_FBCODE
else bisect_config.treatment_env["git_commit_hash"]
)
bisection = TorchBenchBisection(
workdir=args.work_dir,
torch_repos=torch_repos,
target_repo=target_repo,
start=start_hash,
end=end_hash,
start_version=bisect_config.control_env.get("pytorch_version", "N/A"),
end_version=bisect_config.treatment_env.get("pytorch_version", "N/A"),
bisect_config=bisect_config,
output_json=args.output,
debug=args.debug,
interactive=args.interactive,
)
if start_hash == end_hash:
print(f"Start and end hash are the same: {start_hash}. Skip bisection")
bisection.output()
exit(0)
assert bisection.prep(), "The working condition of bisection is not satisfied."
print(
"Preparation steps ok. Commit to bisect: "
+ " ".join([str(x) for x in bisection.target_repo.commits])
)
bisection.run()
bisection.output()
# Format the output into a github issue if the bisector finds the root cause commit
if bisection.result:
process_bisection_into_gh_issue(bisection.output_json, args.gh_issue_path)
if __name__ == "__main__":
main() # pragma: no cover