poky/scripts/contrib/patchreview.py - openbmc/openbmc - Gitiles

 #! /usr/bin/env python3
 #
 # Copyright OpenEmbedded Contributors
 #
 # SPDX-License-Identifier: GPL-2.0-only
 #

 import argparse
 import collections
 import json
 import os
 import os.path
 import pathlib
 import re
 import subprocess

 # TODO
 # - option to just list all broken files
 # - test suite
 # - validate signed-off-by

 status_values = ("accepted", "pending", "inappropriate", "backport", "submitted", "denied", "inactive-upstream")

 class Result:
     # Whether the patch has an Upstream-Status or not
     missing_upstream_status = False
     # If the Upstream-Status tag is malformed in some way (string for bad bit)
     malformed_upstream_status = None
     # If the Upstream-Status value is unknown (boolean)
     unknown_upstream_status = False
     # The upstream status value (Pending, etc)
     upstream_status = None
     # Whether the patch has a Signed-off-by or not
     missing_sob = False
     # Whether the Signed-off-by tag is malformed in some way
     malformed_sob = False
     # The Signed-off-by tag value
     sob = None
     # Whether a patch looks like a CVE but doesn't have a CVE tag
     missing_cve = False

 def blame_patch(patch):
     """
     From a patch filename, return a list of "commit summary (author name <author
     email>)" strings representing the history.
     """
     return subprocess.check_output(("git", "log",
                                     "--follow", "--find-renames", "--diff-filter=A",
                                     "--format=%s (%aN <%aE>)",
                                     "--", patch)).decode("utf-8").splitlines()

 def patchreview(patches):

     # General pattern: start of line, optional whitespace, tag with optional
     # hyphen or spaces, maybe a colon, some whitespace, then the value, all case
     # insensitive.
     sob_re = re.compile(r"^[\t ]*(Signed[-_ ]off[-_ ]by:?)[\t ]*(.+)", re.IGNORECASE | re.MULTILINE)
     status_re = re.compile(r"^[\t ]*(Upstream[-_ ]Status:?)[\t ]*([\w-]*)", re.IGNORECASE | re.MULTILINE)
     cve_tag_re = re.compile(r"^[\t ]*(CVE:)[\t ]*(.*)", re.IGNORECASE | re.MULTILINE)
     cve_re = re.compile(r"cve-[0-9]{4}-[0-9]{4,6}", re.IGNORECASE)

     results = {}

     for patch in patches:

         result = Result()
         results[patch] = result

         content = open(patch, encoding='ascii', errors='ignore').read()

         # Find the Signed-off-by tag
         match = sob_re.search(content)
         if match:
             value = match.group(1)
             if value != "Signed-off-by:":
                 result.malformed_sob = value
             result.sob = match.group(2)
         else:
             result.missing_sob = True


         # Find the Upstream-Status tag
         match = status_re.search(content)
         if match:
             value = match.group(1)
             if value != "Upstream-Status:":
                 result.malformed_upstream_status = value

             value = match.group(2).lower()
             # TODO: check case
             if value not in status_values:
                 result.unknown_upstream_status = True
             result.upstream_status = value
         else:
             result.missing_upstream_status = True

         # Check that patches which looks like CVEs have CVE tags
         if cve_re.search(patch) or cve_re.search(content):
             if not cve_tag_re.search(content):
                 result.missing_cve = True
         # TODO: extract CVE list

     return results


 def analyse(results, want_blame=False, verbose=True):
     """
     want_blame: display blame data for each malformed patch
     verbose: display per-file results instead of just summary
     """

     # want_blame requires verbose, so disable blame if we're not verbose
     if want_blame and not verbose:
         want_blame = False

     total_patches = 0
     missing_sob = 0
     malformed_sob = 0
     missing_status = 0
     malformed_status = 0
     missing_cve = 0
     pending_patches = 0

     for patch in sorted(results):
         r = results[patch]
         total_patches += 1
         need_blame = False

         # Build statistics
         if r.missing_sob:
             missing_sob += 1
         if r.malformed_sob:
             malformed_sob += 1
         if r.missing_upstream_status:
             missing_status += 1
         if r.malformed_upstream_status or r.unknown_upstream_status:
             malformed_status += 1
             # Count patches with no status as pending
             pending_patches +=1
         if r.missing_cve:
             missing_cve += 1
         if r.upstream_status == "pending":
             pending_patches += 1

         # Output warnings
         if r.missing_sob:
             need_blame = True
             if verbose:
                 print("Missing Signed-off-by tag (%s)" % patch)
         if r.malformed_sob:
             need_blame = True
             if verbose:
                 print("Malformed Signed-off-by '%s' (%s)" % (r.malformed_sob, patch))
         if r.missing_cve:
             need_blame = True
             if verbose:
                 print("Missing CVE tag (%s)" % patch)
         if r.missing_upstream_status:
             need_blame = True
             if verbose:
                 print("Missing Upstream-Status tag (%s)" % patch)
         if r.malformed_upstream_status:
             need_blame = True
             if verbose:
                 print("Malformed Upstream-Status '%s' (%s)" % (r.malformed_upstream_status, patch))
         if r.unknown_upstream_status:
             need_blame = True
             if verbose:
                 print("Unknown Upstream-Status value '%s' (%s)" % (r.upstream_status, patch))

         if want_blame and need_blame:
             print("\n".join(blame_patch(patch)) + "\n")

     def percent(num):
         try:
             return "%d (%d%%)" % (num, round(num * 100.0 / total_patches))
         except ZeroDivisionError:
             return "N/A"

     if verbose:
         print()

     print("""Total patches found: %d
 Patches missing Signed-off-by: %s
 Patches with malformed Signed-off-by: %s
 Patches missing CVE: %s
 Patches missing Upstream-Status: %s
 Patches with malformed Upstream-Status: %s
 Patches in Pending state: %s""" % (total_patches,
                                    percent(missing_sob),
                                    percent(malformed_sob),
                                    percent(missing_cve),
                                    percent(missing_status),
                                    percent(malformed_status),
                                    percent(pending_patches)))


 def histogram(results):
     from toolz import recipes, dicttoolz
     import math

     counts = recipes.countby(lambda r: r.upstream_status, results.values())
     bars = dicttoolz.valmap(lambda v: "#" * int(math.ceil(float(v) / len(results) * 100)), counts)
     for k in bars:
         print("%-20s %s (%d)" % (k.capitalize() if k else "No status", bars[k], counts[k]))

 def find_layers(candidate):
     # candidate can either be the path to a layer directly (eg meta-intel), or a
     # repository that contains other layers (meta-arm). We can determine what by
     # looking for a conf/layer.conf file. If that file exists then it's a layer,
     # otherwise its a repository of layers and we can assume they're called
     # meta-*.

     if (candidate / "conf" / "layer.conf").exists():
         return [candidate.absolute()]
     else:
         return [d.absolute() for d in candidate.iterdir() if d.is_dir() and (d.name == "meta" or d.name.startswith("meta-"))]

 # TODO these don't actually handle dynamic-layers/

 def gather_patches(layers):
     patches = []
     for directory in layers:
         filenames = subprocess.check_output(("git", "-C", directory, "ls-files", "recipes-*/**/*.patch", "recipes-*/**/*.diff"), universal_newlines=True).split()
         patches += [os.path.join(directory, f) for f in filenames]
     return patches

 def count_recipes(layers):
     count = 0
     for directory in layers:
         output = subprocess.check_output(["git", "-C", directory, "ls-files", "recipes-*/**/*.bb"], universal_newlines=True)
         count += len(output.splitlines())
     return count

 if __name__ == "__main__":
     args = argparse.ArgumentParser(description="Patch Review Tool")
     args.add_argument("-b", "--blame", action="store_true", help="show blame for malformed patches")
     args.add_argument("-v", "--verbose", action="store_true", help="show per-patch results")
     args.add_argument("-g", "--histogram", action="store_true", help="show patch histogram")
     args.add_argument("-j", "--json", help="update JSON")
     args.add_argument("directory", type=pathlib.Path, metavar="DIRECTORY", help="directory to scan (layer, or repository of layers)")
     args = args.parse_args()

     layers = find_layers(args.directory)
     print(f"Found layers {' '.join((d.name for d in layers))}")
     patches = gather_patches(layers)
     results = patchreview(patches)
     analyse(results, want_blame=args.blame, verbose=args.verbose)

     if args.json:
         if os.path.isfile(args.json):
             data = json.load(open(args.json))
         else:
             data = []

         row = collections.Counter()
         row["total"] = len(results)
         row["date"] = subprocess.check_output(["git", "-C", args.directory, "show", "-s", "--pretty=format:%cd", "--date=format:%s"], universal_newlines=True).strip()
         row["commit"] = subprocess.check_output(["git", "-C", args.directory, "rev-parse", "HEAD"], universal_newlines=True).strip()
         row['commit_count'] = subprocess.check_output(["git", "-C", args.directory, "rev-list", "--count", "HEAD"], universal_newlines=True).strip()
         row['recipe_count'] = count_recipes(layers)

         for r in results.values():
             if r.upstream_status in status_values:
                 row[r.upstream_status] += 1
             if r.malformed_upstream_status or r.missing_upstream_status:
                 row['malformed-upstream-status'] += 1
             if r.malformed_sob or r.missing_sob:
                 row['malformed-sob'] += 1

         data.append(row)
         json.dump(data, open(args.json, "w"), sort_keys=True, indent="\t")

     if args.histogram:
         print()
         histogram(results)
	#! /usr/bin/env python3
	#
	# Copyright OpenEmbedded Contributors
	#
	# SPDX-License-Identifier: GPL-2.0-only
	#

	import argparse
	import collections
	import json
	import os
	import os.path
	import pathlib
	import re
	import subprocess

	# TODO
	# - option to just list all broken files
	# - test suite
	# - validate signed-off-by

	status_values = ("accepted", "pending", "inappropriate", "backport", "submitted", "denied", "inactive-upstream")

	class Result:
	# Whether the patch has an Upstream-Status or not
	missing_upstream_status = False
	# If the Upstream-Status tag is malformed in some way (string for bad bit)
	malformed_upstream_status = None
	# If the Upstream-Status value is unknown (boolean)
	unknown_upstream_status = False
	# The upstream status value (Pending, etc)
	upstream_status = None
	# Whether the patch has a Signed-off-by or not
	missing_sob = False
	# Whether the Signed-off-by tag is malformed in some way
	malformed_sob = False
	# The Signed-off-by tag value
	sob = None
	# Whether a patch looks like a CVE but doesn't have a CVE tag
	missing_cve = False

	def blame_patch(patch):
	"""
	From a patch filename, return a list of "commit summary (author name <author
	email>)" strings representing the history.
	"""
	return subprocess.check_output(("git", "log",
	"--follow", "--find-renames", "--diff-filter=A",
	"--format=%s (%aN <%aE>)",
	"--", patch)).decode("utf-8").splitlines()

	def patchreview(patches):

	# General pattern: start of line, optional whitespace, tag with optional
	# hyphen or spaces, maybe a colon, some whitespace, then the value, all case
	# insensitive.
	sob_re = re.compile(r"^[\t ](Signed[-_ ]off[-_ ]by:?)[\t ](.+)", re.IGNORECASE \| re.MULTILINE)
	status_re = re.compile(r"^[\t ](Upstream[-_ ]Status:?)[\t ]([\w-]*)", re.IGNORECASE \| re.MULTILINE)
	cve_tag_re = re.compile(r"^[\t ](CVE:)[\t ](.*)", re.IGNORECASE \| re.MULTILINE)
	cve_re = re.compile(r"cve-[0-9]{4}-[0-9]{4,6}", re.IGNORECASE)

	results = {}

	for patch in patches:

	result = Result()
	results[patch] = result

	content = open(patch, encoding='ascii', errors='ignore').read()

	# Find the Signed-off-by tag
	match = sob_re.search(content)
	if match:
	value = match.group(1)
	if value != "Signed-off-by:":
	result.malformed_sob = value
	result.sob = match.group(2)
	else:
	result.missing_sob = True


	# Find the Upstream-Status tag
	match = status_re.search(content)
	if match:
	value = match.group(1)
	if value != "Upstream-Status:":
	result.malformed_upstream_status = value

	value = match.group(2).lower()
	# TODO: check case
	if value not in status_values:
	result.unknown_upstream_status = True
	result.upstream_status = value
	else:
	result.missing_upstream_status = True

	# Check that patches which looks like CVEs have CVE tags
	if cve_re.search(patch) or cve_re.search(content):
	if not cve_tag_re.search(content):
	result.missing_cve = True
	# TODO: extract CVE list

	return results


	def analyse(results, want_blame=False, verbose=True):
	"""
	want_blame: display blame data for each malformed patch
	verbose: display per-file results instead of just summary
	"""

	# want_blame requires verbose, so disable blame if we're not verbose
	if want_blame and not verbose:
	want_blame = False

	total_patches = 0
	missing_sob = 0
	malformed_sob = 0
	missing_status = 0
	malformed_status = 0
	missing_cve = 0
	pending_patches = 0

	for patch in sorted(results):
	r = results[patch]
	total_patches += 1
	need_blame = False

	# Build statistics
	if r.missing_sob:
	missing_sob += 1
	if r.malformed_sob:
	malformed_sob += 1
	if r.missing_upstream_status:
	missing_status += 1
	if r.malformed_upstream_status or r.unknown_upstream_status:
	malformed_status += 1
	# Count patches with no status as pending
	pending_patches +=1
	if r.missing_cve:
	missing_cve += 1
	if r.upstream_status == "pending":
	pending_patches += 1

	# Output warnings
	if r.missing_sob:
	need_blame = True
	if verbose:
	print("Missing Signed-off-by tag (%s)" % patch)
	if r.malformed_sob:
	need_blame = True
	if verbose:
	print("Malformed Signed-off-by '%s' (%s)" % (r.malformed_sob, patch))
	if r.missing_cve:
	need_blame = True
	if verbose:
	print("Missing CVE tag (%s)" % patch)
	if r.missing_upstream_status:
	need_blame = True
	if verbose:
	print("Missing Upstream-Status tag (%s)" % patch)
	if r.malformed_upstream_status:
	need_blame = True
	if verbose:
	print("Malformed Upstream-Status '%s' (%s)" % (r.malformed_upstream_status, patch))
	if r.unknown_upstream_status:
	need_blame = True
	if verbose:
	print("Unknown Upstream-Status value '%s' (%s)" % (r.upstream_status, patch))

	if want_blame and need_blame:
	print("\n".join(blame_patch(patch)) + "\n")

	def percent(num):
	try:
	return "%d (%d%%)" % (num, round(num * 100.0 / total_patches))
	except ZeroDivisionError:
	return "N/A"

	if verbose:
	print()

	print("""Total patches found: %d
	Patches missing Signed-off-by: %s
	Patches with malformed Signed-off-by: %s
	Patches missing CVE: %s
	Patches missing Upstream-Status: %s
	Patches with malformed Upstream-Status: %s
	Patches in Pending state: %s""" % (total_patches,
	percent(missing_sob),
	percent(malformed_sob),
	percent(missing_cve),
	percent(missing_status),
	percent(malformed_status),
	percent(pending_patches)))



	def histogram(results):
	from toolz import recipes, dicttoolz
	import math

	counts = recipes.countby(lambda r: r.upstream_status, results.values())
	bars = dicttoolz.valmap(lambda v: "#" * int(math.ceil(float(v) / len(results) * 100)), counts)
	for k in bars:
	print("%-20s %s (%d)" % (k.capitalize() if k else "No status", bars[k], counts[k]))

	def find_layers(candidate):
	# candidate can either be the path to a layer directly (eg meta-intel), or a
	# repository that contains other layers (meta-arm). We can determine what by
	# looking for a conf/layer.conf file. If that file exists then it's a layer,
	# otherwise its a repository of layers and we can assume they're called
	# meta-*.

	if (candidate / "conf" / "layer.conf").exists():
	return [candidate.absolute()]
	else:
	return [d.absolute() for d in candidate.iterdir() if d.is_dir() and (d.name == "meta" or d.name.startswith("meta-"))]

	# TODO these don't actually handle dynamic-layers/

	def gather_patches(layers):
	patches = []
	for directory in layers:
	filenames = subprocess.check_output(("git", "-C", directory, "ls-files", "recipes-//.patch", "recipes-//.diff"), universal_newlines=True).split()
	patches += [os.path.join(directory, f) for f in filenames]
	return patches

	def count_recipes(layers):
	count = 0
	for directory in layers:
	output = subprocess.check_output(["git", "-C", directory, "ls-files", "recipes-//.bb"], universal_newlines=True)
	count += len(output.splitlines())
	return count

	if __name__ == "__main__":
	args = argparse.ArgumentParser(description="Patch Review Tool")
	args.add_argument("-b", "--blame", action="store_true", help="show blame for malformed patches")
	args.add_argument("-v", "--verbose", action="store_true", help="show per-patch results")
	args.add_argument("-g", "--histogram", action="store_true", help="show patch histogram")
	args.add_argument("-j", "--json", help="update JSON")
	args.add_argument("directory", type=pathlib.Path, metavar="DIRECTORY", help="directory to scan (layer, or repository of layers)")
	args = args.parse_args()

	layers = find_layers(args.directory)
	print(f"Found layers {' '.join((d.name for d in layers))}")
	patches = gather_patches(layers)
	results = patchreview(patches)
	analyse(results, want_blame=args.blame, verbose=args.verbose)

	if args.json:
	if os.path.isfile(args.json):
	data = json.load(open(args.json))
	else:
	data = []

	row = collections.Counter()
	row["total"] = len(results)
	row["date"] = subprocess.check_output(["git", "-C", args.directory, "show", "-s", "--pretty=format:%cd", "--date=format:%s"], universal_newlines=True).strip()
	row["commit"] = subprocess.check_output(["git", "-C", args.directory, "rev-parse", "HEAD"], universal_newlines=True).strip()
	row['commit_count'] = subprocess.check_output(["git", "-C", args.directory, "rev-list", "--count", "HEAD"], universal_newlines=True).strip()
	row['recipe_count'] = count_recipes(layers)

	for r in results.values():
	if r.upstream_status in status_values:
	row[r.upstream_status] += 1
	if r.malformed_upstream_status or r.missing_upstream_status:
	row['malformed-upstream-status'] += 1
	if r.malformed_sob or r.missing_sob:
	row['malformed-sob'] += 1

	data.append(row)
	json.dump(data, open(args.json, "w"), sort_keys=True, indent="\t")

	if args.histogram:
	print()
	histogram(results)