# SPDX-License-Identifier: GPL-2.0+ # Copyright (c) 2011 The Chromium OS Authors. # """Handles parsing a stream of commits/emails from 'git log' or other source""" import datetime import math import os import re import shutil import tempfile from patman import command from patman import commit from patman import gitutil from patman.series import Series # Tags that we detect and remove re_remove = re.compile(r'^BUG=|^TEST=|^BRANCH=|^Review URL:' r'|Reviewed-on:|Commit-\w*:') # Lines which are allowed after a TEST= line re_allowed_after_test = re.compile('^Signed-off-by:') # Signoffs re_signoff = re.compile('^Signed-off-by: *(.*)') # Cover letter tag re_cover = re.compile('^Cover-([a-z-]*): *(.*)') # Patch series tag re_series_tag = re.compile('^Series-([a-z-]*): *(.*)') # Change-Id will be used to generate the Message-Id and then be stripped re_change_id = re.compile('^Change-Id: *(.*)') # Commit series tag re_commit_tag = re.compile('^Commit-([a-z-]*): *(.*)') # Commit tags that we want to collect and keep re_tag = re.compile('^(Tested-by|Acked-by|Reviewed-by|Patch-cc|Fixes): (.*)') # The start of a new commit in the git log re_commit = re.compile('^commit ([0-9a-f]*)$') # We detect these since checkpatch doesn't always do it re_space_before_tab = re.compile('^[+].* \t') # Match indented lines for changes re_leading_whitespace = re.compile(r'^\s') # States we can be in - can we use range() and still have comments? STATE_MSG_HEADER = 0 # Still in the message header STATE_PATCH_SUBJECT = 1 # In patch subject (first line of log for a commit) STATE_PATCH_HEADER = 2 # In patch header (after the subject) STATE_DIFFS = 3 # In the diff part (past --- line) class PatchStream: """Class for detecting/injecting tags in a patch or series of patches We support processing the output of 'git log' to read out the tags we are interested in. We can also process a patch file in order to remove unwanted tags or inject additional ones. These correspond to the two phases of processing. """ def __init__(self, series, name=None, is_log=False): self.skip_blank = False # True to skip a single blank line self.found_test = False # Found a TEST= line self.lines_after_test = 0 # Number of lines found after TEST= self.warn = [] # List of warnings we have collected self.linenum = 1 # Output line number we are up to self.in_section = None # Name of start...END section we are in self.notes = [] # Series notes self.section = [] # The current section...END section self.series = series # Info about the patch series self.is_log = is_log # True if indent like git log self.in_change = None # Name of the change list we are in self.change_version = 0 # Non-zero if we are in a change list self.change_lines = [] # Lines of the current change self.blank_count = 0 # Number of blank lines stored up self.state = STATE_MSG_HEADER # What state are we in? self.signoff = [] # Contents of signoff line self.commit = None # Current commit def AddToSeries(self, line, name, value): """Add a new Series-xxx tag. When a Series-xxx tag is detected, we come here to record it, if we are scanning a 'git log'. Args: line: Source line containing tag (useful for debug/error messages) name: Tag name (part after 'Series-') value: Tag value (part after 'Series-xxx: ') """ if name == 'notes': self.in_section = name self.skip_blank = False if self.is_log: self.series.AddTag(self.commit, line, name, value) def AddToCommit(self, line, name, value): """Add a new Commit-xxx tag. When a Commit-xxx tag is detected, we come here to record it. Args: line: Source line containing tag (useful for debug/error messages) name: Tag name (part after 'Commit-') value: Tag value (part after 'Commit-xxx: ') """ if name == 'notes': self.in_section = 'commit-' + name self.skip_blank = False def AddCommitRtag(self, rtag_type, who): """Add a response tag to the current commit Args: key: rtag type (e.g. 'Reviewed-by') who: Person who gave that rtag, e.g. 'Fred Bloggs ' """ self.commit.AddRtag(rtag_type, who) def CloseCommit(self): """Save the current commit into our commit list, and reset our state""" if self.commit and self.is_log: self.series.AddCommit(self.commit) self.commit = None # If 'END' is missing in a 'Cover-letter' section, and that section # happens to show up at the very end of the commit message, this is # the chance for us to fix it up. if self.in_section == 'cover' and self.is_log: self.series.cover = self.section self.in_section = None self.skip_blank = True self.section = [] def ParseVersion(self, value, line): """Parse a version from a *-changes tag Args: value: Tag value (part after 'xxx-changes: ' line: Source line containing tag Returns: The version as an integer """ try: return int(value) except ValueError as str: raise ValueError("%s: Cannot decode version info '%s'" % (self.commit.hash, line)) def FinalizeChange(self): """Finalize a (multi-line) change and add it to the series or commit""" if not self.change_lines: return change = '\n'.join(self.change_lines) if self.in_change == 'Series': self.series.AddChange(self.change_version, self.commit, change) elif self.in_change == 'Cover': self.series.AddChange(self.change_version, None, change) elif self.in_change == 'Commit': self.commit.AddChange(self.change_version, change) self.change_lines = [] def ProcessLine(self, line): """Process a single line of a patch file or commit log This process a line and returns a list of lines to output. The list may be empty or may contain multiple output lines. This is where all the complicated logic is located. The class's state is used to move between different states and detect things properly. We can be in one of two modes: self.is_log == True: This is 'git log' mode, where most output is indented by 4 characters and we are scanning for tags self.is_log == False: This is 'patch' mode, where we already have all the tags, and are processing patches to remove junk we don't want, and add things we think are required. Args: line: text line to process Returns: list of output lines, or [] if nothing should be output """ # Initially we have no output. Prepare the input line string out = [] line = line.rstrip('\n') commit_match = re_commit.match(line) if self.is_log else None if self.is_log: if line[:4] == ' ': line = line[4:] # Handle state transition and skipping blank lines series_tag_match = re_series_tag.match(line) change_id_match = re_change_id.match(line) commit_tag_match = re_commit_tag.match(line) cover_match = re_cover.match(line) signoff_match = re_signoff.match(line) leading_whitespace_match = re_leading_whitespace.match(line) tag_match = None if self.state == STATE_PATCH_HEADER: tag_match = re_tag.match(line) is_blank = not line.strip() if is_blank: if (self.state == STATE_MSG_HEADER or self.state == STATE_PATCH_SUBJECT): self.state += 1 # We don't have a subject in the text stream of patch files # It has its own line with a Subject: tag if not self.is_log and self.state == STATE_PATCH_SUBJECT: self.state += 1 elif commit_match: self.state = STATE_MSG_HEADER # If a tag is detected, or a new commit starts if series_tag_match or commit_tag_match or change_id_match or \ cover_match or signoff_match or self.state == STATE_MSG_HEADER: # but we are already in a section, this means 'END' is missing # for that section, fix it up. if self.in_section: self.warn.append("Missing 'END' in section '%s'" % self.in_section) if self.in_section == 'cover': self.series.cover = self.section elif self.in_section == 'notes': if self.is_log: self.series.notes += self.section elif self.in_section == 'commit-notes': if self.is_log: self.commit.notes += self.section else: self.warn.append("Unknown section '%s'" % self.in_section) self.in_section = None self.skip_blank = True self.section = [] # but we are already in a change list, that means a blank line # is missing, fix it up. if self.in_change: self.warn.append("Missing 'blank line' in section '%s-changes'" % self.in_change) self.FinalizeChange() self.in_change = None self.change_version = 0 # If we are in a section, keep collecting lines until we see END if self.in_section: if line == 'END': if self.in_section == 'cover': self.series.cover = self.section elif self.in_section == 'notes': if self.is_log: self.series.notes += self.section elif self.in_section == 'commit-notes': if self.is_log: self.commit.notes += self.section else: self.warn.append("Unknown section '%s'" % self.in_section) self.in_section = None self.skip_blank = True self.section = [] else: self.section.append(line) # If we are not in a section, it is an unexpected END elif line == 'END': raise ValueError("'END' wihout section") # Detect the commit subject elif not is_blank and self.state == STATE_PATCH_SUBJECT: self.commit.subject = line # Detect the tags we want to remove, and skip blank lines elif re_remove.match(line) and not commit_tag_match: self.skip_blank = True # TEST= should be the last thing in the commit, so remove # everything after it if line.startswith('TEST='): self.found_test = True elif self.skip_blank and is_blank: self.skip_blank = False # Detect Cover-xxx tags elif cover_match: name = cover_match.group(1) value = cover_match.group(2) if name == 'letter': self.in_section = 'cover' self.skip_blank = False elif name == 'letter-cc': self.AddToSeries(line, 'cover-cc', value) elif name == 'changes': self.in_change = 'Cover' self.change_version = self.ParseVersion(value, line) # If we are in a change list, key collected lines until a blank one elif self.in_change: if is_blank: # Blank line ends this change list self.FinalizeChange() self.in_change = None self.change_version = 0 elif line == '---': self.FinalizeChange() self.in_change = None self.change_version = 0 out = self.ProcessLine(line) elif self.is_log: if not leading_whitespace_match: self.FinalizeChange() self.change_lines.append(line) self.skip_blank = False # Detect Series-xxx tags elif series_tag_match: name = series_tag_match.group(1) value = series_tag_match.group(2) if name == 'changes': # value is the version number: e.g. 1, or 2 self.in_change = 'Series' self.change_version = self.ParseVersion(value, line) else: self.AddToSeries(line, name, value) self.skip_blank = True # Detect Change-Id tags elif change_id_match: value = change_id_match.group(1) if self.is_log: if self.commit.change_id: raise ValueError( "%s: Two Change-Ids: '%s' vs. '%s'" % self.commit.hash, self.commit.change_id, value) self.commit.change_id = value self.skip_blank = True # Detect Commit-xxx tags elif commit_tag_match: name = commit_tag_match.group(1) value = commit_tag_match.group(2) if name == 'notes': self.AddToCommit(line, name, value) self.skip_blank = True elif name == 'changes': self.in_change = 'Commit' self.change_version = self.ParseVersion(value, line) else: self.warn.append('Line %d: Ignoring Commit-%s' % (self.linenum, name)) # Detect the start of a new commit elif commit_match: self.CloseCommit() self.commit = commit.Commit(commit_match.group(1)) # Detect tags in the commit message elif tag_match: rtag_type, who = tag_match.groups() self.AddCommitRtag(rtag_type, who) # Remove Tested-by self, since few will take much notice if (rtag_type == 'Tested-by' and who.find(os.getenv('USER') + '@') != -1): self.warn.append("Ignoring %s" % line) elif rtag_type == 'Patch-cc': self.commit.AddCc(who.split(',')) else: out = [line] # Suppress duplicate signoffs elif signoff_match: if (self.is_log or not self.commit or self.commit.CheckDuplicateSignoff(signoff_match.group(1))): out = [line] # Well that means this is an ordinary line else: # Look for space before tab m = re_space_before_tab.match(line) if m: self.warn.append('Line %d/%d has space before tab' % (self.linenum, m.start())) # OK, we have a valid non-blank line out = [line] self.linenum += 1 self.skip_blank = False if self.state == STATE_DIFFS: pass # If this is the start of the diffs section, emit our tags and # change log elif line == '---': self.state = STATE_DIFFS # Output the tags (signoff first), then change list out = [] log = self.series.MakeChangeLog(self.commit) out += [line] if self.commit: out += self.commit.notes out += [''] + log elif self.found_test: if not re_allowed_after_test.match(line): self.lines_after_test += 1 return out def Finalize(self): """Close out processing of this patch stream""" self.FinalizeChange() self.CloseCommit() if self.lines_after_test: self.warn.append('Found %d lines after TEST=' % self.lines_after_test) def WriteMessageId(self, outfd): """Write the Message-Id into the output. This is based on the Change-Id in the original patch, the version, and the prefix. Args: outfd: Output stream file object """ if not self.commit.change_id: return # If the count is -1 we're testing, so use a fixed time if self.commit.count == -1: time_now = datetime.datetime(1999, 12, 31, 23, 59, 59) else: time_now = datetime.datetime.now() # In theory there is email.utils.make_msgid() which would be nice # to use, but it already produces something way too long and thus # will produce ugly commit lines if someone throws this into # a "Link:" tag in the final commit. So (sigh) roll our own. # Start with the time; presumably we wouldn't send the same series # with the same Change-Id at the exact same second. parts = [time_now.strftime("%Y%m%d%H%M%S")] # These seem like they would be nice to include. if 'prefix' in self.series: parts.append(self.series['prefix']) if 'version' in self.series: parts.append("v%s" % self.series['version']) parts.append(str(self.commit.count + 1)) # The Change-Id must be last, right before the @ parts.append(self.commit.change_id) # Join parts together with "." and write it out. outfd.write('Message-Id: <%s@changeid>\n' % '.'.join(parts)) def ProcessStream(self, infd, outfd): """Copy a stream from infd to outfd, filtering out unwanting things. This is used to process patch files one at a time. Args: infd: Input stream file object outfd: Output stream file object """ # Extract the filename from each diff, for nice warnings fname = None last_fname = None re_fname = re.compile('diff --git a/(.*) b/.*') self.WriteMessageId(outfd) while True: line = infd.readline() if not line: break out = self.ProcessLine(line) # Try to detect blank lines at EOF for line in out: match = re_fname.match(line) if match: last_fname = fname fname = match.group(1) if line == '+': self.blank_count += 1 else: if self.blank_count and (line == '-- ' or match): self.warn.append("Found possible blank line(s) at " "end of file '%s'" % last_fname) outfd.write('+\n' * self.blank_count) outfd.write(line + '\n') self.blank_count = 0 self.Finalize() def GetMetaDataForList(commit_range, git_dir=None, count=None, series=None, allow_overwrite=False): """Reads out patch series metadata from the commits This does a 'git log' on the relevant commits and pulls out the tags we are interested in. Args: commit_range: Range of commits to count (e.g. 'HEAD..base') git_dir: Path to git repositiory (None to use default) count: Number of commits to list, or None for no limit series: Series object to add information into. By default a new series is started. allow_overwrite: Allow tags to overwrite an existing tag Returns: A Series object containing information about the commits. """ if not series: series = Series() series.allow_overwrite = allow_overwrite params = gitutil.LogCmd(commit_range, reverse=True, count=count, git_dir=git_dir) stdout = command.RunPipe([params], capture=True).stdout ps = PatchStream(series, is_log=True) for line in stdout.splitlines(): ps.ProcessLine(line) ps.Finalize() return series def GetMetaData(branch, start, count): """Reads out patch series metadata from the commits This does a 'git log' on the relevant commits and pulls out the tags we are interested in. Args: branch: Branch to use (None for current branch) start: Commit to start from: 0=branch HEAD, 1=next one, etc. count: Number of commits to list """ return GetMetaDataForList('%s~%d' % (branch if branch else 'HEAD', start), None, count) def GetMetaDataForTest(text): """Process metadata from a file containing a git log. Used for tests Args: text: """ series = Series() ps = PatchStream(series, is_log=True) for line in text.splitlines(): ps.ProcessLine(line) ps.Finalize() return series def FixPatch(backup_dir, fname, series, commit): """Fix up a patch file, by adding/removing as required. We remove our tags from the patch file, insert changes lists, etc. The patch file is processed in place, and overwritten. A backup file is put into backup_dir (if not None). Args: fname: Filename to patch file to process series: Series information about this patch set commit: Commit object for this patch file Return: A list of errors, or [] if all ok. """ handle, tmpname = tempfile.mkstemp() outfd = os.fdopen(handle, 'w', encoding='utf-8') infd = open(fname, 'r', encoding='utf-8') ps = PatchStream(series) ps.commit = commit ps.ProcessStream(infd, outfd) infd.close() outfd.close() # Create a backup file if required if backup_dir: shutil.copy(fname, os.path.join(backup_dir, os.path.basename(fname))) shutil.move(tmpname, fname) return ps.warn def FixPatches(series, fnames): """Fix up a list of patches identified by filenames The patch files are processed in place, and overwritten. Args: series: The series object fnames: List of patch files to process """ # Current workflow creates patches, so we shouldn't need a backup backup_dir = None #tempfile.mkdtemp('clean-patch') count = 0 for fname in fnames: commit = series.commits[count] commit.patch = fname commit.count = count result = FixPatch(backup_dir, fname, series, commit) if result: print('%d warnings for %s:' % (len(result), fname)) for warn in result: print('\t', warn) print count += 1 print('Cleaned %d patches' % count) def InsertCoverLetter(fname, series, count): """Inserts a cover letter with the required info into patch 0 Args: fname: Input / output filename of the cover letter file series: Series object count: Number of patches in the series """ fd = open(fname, 'r') lines = fd.readlines() fd.close() fd = open(fname, 'w') text = series.cover prefix = series.GetPatchPrefix() for line in lines: if line.startswith('Subject:'): # if more than 10 or 100 patches, it should say 00/xx, 000/xxx, etc zero_repeat = int(math.log10(count)) + 1 zero = '0' * zero_repeat line = 'Subject: [%s %s/%d] %s\n' % (prefix, zero, count, text[0]) # Insert our cover letter elif line.startswith('*** BLURB HERE ***'): # First the blurb test line = '\n'.join(text[1:]) + '\n' if series.get('notes'): line += '\n'.join(series.notes) + '\n' # Now the change list out = series.MakeChangeLog(None) line += '\n' + '\n'.join(out) fd.write(line) fd.close()