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llvm-mirror/utils/revert_checker.py
George Burgess IV 6032fd6068 utils: add a revert checker
Chrome OS and Android have found it useful to have an automated revert
checker. It was requested to upstream it, since other folks in the LLVM
community may also find value in it.

The tests depend on having a full (non-shallow) checkout of LLVM. This
seems reasonable to me, since:

- the tests should only be run if the user is developing on this script
- it's kind of hard to develop on this script without local git history
  :)

If people really want, the tests' dependency on LLVM's history can be
removed. It's mostly just effort/complexity that doesn't seem necessary.

Differential Revision: https://reviews.llvm.org/D105578
2021-07-07 14:20:01 -07:00

258 lines
8.3 KiB
Python
Executable File

#!/usr/bin/env python3
# -*- coding: utf-8 -*-
#===----------------------------------------------------------------------===##
#
# Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
# See https://llvm.org/LICENSE.txt for license information.
# SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
#
#===----------------------------------------------------------------------===##
"""Checks for reverts of commits across a given git commit.
To clarify the meaning of 'across' with an example, if we had the following
commit history (where `a -> b` notes that `b` is a direct child of `a`):
123abc -> 223abc -> 323abc -> 423abc -> 523abc
And where 423abc is a revert of 223abc, this revert is considered to be 'across'
323abc. More generally, a revert A of a parent commit B is considered to be
'across' a commit C if C is a parent of A and B is a parent of C.
Please note that revert detection in general is really difficult, since merge
conflicts/etc always introduce _some_ amount of fuzziness. This script just
uses a bundle of heuristics, and is bound to ignore / incorrectly flag some
reverts. The hope is that it'll easily catch the vast majority (>90%) of them,
though.
This is designed to be used in one of two ways: an import in Python, or run
directly from a shell. If you want to import this, the `find_reverts`
function is the thing to look at. If you'd rather use this from a shell, have a
usage example:
```
./revert_checker.py c47f97169 origin/main origin/release/12.x
```
This checks for all reverts from the tip of origin/main to c47f97169, which are
across the latter. It then does the same for origin/release/12.x to c47f97169.
Duplicate reverts discovered when walking both roots (origin/main and
origin/release/12.x) are deduplicated in output.
"""
import argparse
import collections
import logging
import re
import subprocess
import sys
from typing import Generator, List, NamedTuple, Iterable
assert sys.version_info >= (3, 6), 'Only Python 3.6+ is supported.'
# People are creative with their reverts, and heuristics are a bit difficult.
# Like 90% of of reverts have "This reverts commit ${full_sha}".
# Some lack that entirely, while others have many of them specified in ad-hoc
# ways, while others use short SHAs and whatever.
#
# The 90% case is trivial to handle (and 100% free + automatic). The extra 10%
# starts involving human intervention, which is probably not worth it for now.
def _try_parse_reverts_from_commit_message(commit_message: str) -> List[str]:
if not commit_message:
return []
results = re.findall(r'This reverts commit ([a-f0-9]{40})\b', commit_message)
first_line = commit_message.splitlines()[0]
initial_revert = re.match(r'Revert ([a-f0-9]{6,}) "', first_line)
if initial_revert:
results.append(initial_revert.group(1))
return results
def _stream_stdout(command: List[str]) -> Generator[str, None, None]:
with subprocess.Popen(
command, stdout=subprocess.PIPE, encoding='utf-8', errors='replace') as p:
assert p.stdout is not None # for mypy's happiness.
yield from p.stdout
def _resolve_sha(git_dir: str, sha: str) -> str:
if len(sha) == 40:
return sha
return subprocess.check_output(
['git', '-C', git_dir, 'rev-parse', sha],
encoding='utf-8',
stderr=subprocess.DEVNULL,
).strip()
_LogEntry = NamedTuple('_LogEntry', [
('sha', str),
('commit_message', str),
])
def _log_stream(git_dir: str, root_sha: str,
end_at_sha: str) -> Iterable[_LogEntry]:
sep = 50 * '<>'
log_command = [
'git',
'-C',
git_dir,
'log',
'^' + end_at_sha,
root_sha,
'--format=' + sep + '%n%H%n%B%n',
]
stdout_stream = iter(_stream_stdout(log_command))
# Find the next separator line. If there's nothing to log, it may not exist.
# It might not be the first line if git feels complainy.
found_commit_header = False
for line in stdout_stream:
if line.rstrip() == sep:
found_commit_header = True
break
while found_commit_header:
sha = next(stdout_stream, None)
assert sha is not None, 'git died?'
sha = sha.rstrip()
commit_message = []
found_commit_header = False
for line in stdout_stream:
line = line.rstrip()
if line.rstrip() == sep:
found_commit_header = True
break
commit_message.append(line)
yield _LogEntry(sha, '\n'.join(commit_message).rstrip())
def _shas_between(git_dir: str, base_ref: str, head_ref: str) -> Iterable[str]:
rev_list = [
'git',
'-C',
git_dir,
'rev-list',
'--first-parent',
f'{base_ref}..{head_ref}',
]
return (x.strip() for x in _stream_stdout(rev_list))
def _rev_parse(git_dir: str, ref: str) -> str:
return subprocess.check_output(
['git', '-C', git_dir, 'rev-parse', ref],
encoding='utf-8',
).strip()
Revert = NamedTuple('Revert', [
('sha', str),
('reverted_sha', str),
])
def _find_common_parent_commit(git_dir: str, ref_a: str, ref_b: str) -> str:
"""Finds the closest common parent commit between `ref_a` and `ref_b`."""
return subprocess.check_output(
['git', '-C', git_dir, 'merge-base', ref_a, ref_b],
encoding='utf-8',
).strip()
def find_reverts(git_dir: str, across_ref: str, root: str) -> List[Revert]:
"""Finds reverts across `across_ref` in `git_dir`, starting from `root`."""
across_sha = _rev_parse(git_dir, across_ref)
root_sha = _rev_parse(git_dir, root)
common_ancestor = _find_common_parent_commit(git_dir, across_sha, root_sha)
if common_ancestor != across_sha:
raise ValueError(f"{across_sha} isn't an ancestor of {root_sha} "
'(common ancestor: {common_ancestor})')
intermediate_commits = set(_shas_between(git_dir, across_sha, root_sha))
assert across_ref not in intermediate_commits
logging.debug('%d commits appear between %s and %s',
len(intermediate_commits), across_sha, root_sha)
all_reverts = []
for sha, commit_message in _log_stream(git_dir, root_sha, across_sha):
reverts = _try_parse_reverts_from_commit_message(commit_message)
if not reverts:
continue
resolved_reverts = sorted(set(_resolve_sha(git_dir, x) for x in reverts))
for reverted_sha in resolved_reverts:
if reverted_sha in intermediate_commits:
logging.debug('Commit %s reverts %s, which happened after %s', sha,
reverted_sha, across_sha)
continue
try:
object_type = subprocess.check_output(
['git', '-C', git_dir, 'cat-file', '-t', reverted_sha],
encoding='utf-8',
stderr=subprocess.DEVNULL,
).strip()
except subprocess.CalledProcessError:
logging.warning(
'Failed to resolve reverted object %s (claimed to be reverted '
'by sha %s)', reverted_sha, sha)
continue
if object_type == 'commit':
all_reverts.append(Revert(sha, reverted_sha))
continue
logging.error("%s claims to revert %s -- which isn't a commit -- %s", sha,
object_type, reverted_sha)
return all_reverts
def _main() -> None:
parser = argparse.ArgumentParser(
description=__doc__, formatter_class=argparse.RawDescriptionHelpFormatter)
parser.add_argument(
'base_ref', help='Git ref or sha to check for reverts around.')
parser.add_argument(
'-C', '--git_dir', default='.', help='Git directory to use.')
parser.add_argument(
'root', nargs='+', help='Root(s) to search for commits from.')
parser.add_argument('--debug', action='store_true')
opts = parser.parse_args()
logging.basicConfig(
format='%(asctime)s: %(levelname)s: %(filename)s:%(lineno)d: %(message)s',
level=logging.DEBUG if opts.debug else logging.INFO,
)
# `root`s can have related history, so we want to filter duplicate commits
# out. The overwhelmingly common case is also to have one root, and it's way
# easier to reason about output that comes in an order that's meaningful to
# git.
seen_reverts = set()
all_reverts = []
for root in opts.root:
for revert in find_reverts(opts.git_dir, opts.base_ref, root):
if revert not in seen_reverts:
seen_reverts.add(revert)
all_reverts.append(revert)
for revert in all_reverts:
print(f'{revert.sha} claims to revert {revert.reverted_sha}')
if __name__ == '__main__':
_main()