tools/releasetools/check_target_files_signatures.py - LeafOS-Project/android_build - Gitiles

 #!/usr/bin/env python
 #
 # Copyright (C) 2009 The Android Open Source Project
 #
 # Licensed under the Apache License, Version 2.0 (the "License");
 # you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at
 #
 #      http://www.apache.org/licenses/LICENSE-2.0
 #
 # Unless required by applicable law or agreed to in writing, software
 # distributed under the License is distributed on an "AS IS" BASIS,
 # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and
 # limitations under the License.

 """
 Check the signatures of all APKs in a target_files .zip file.  With
 -c, compare the signatures of each package to the ones in a separate
 target_files (usually a previously distributed build for the same
 device) and flag any changes.

 Usage:  check_target_file_signatures [flags] target_files

   -c  (--compare_with)  <other_target_files>
       Look for compatibility problems between the two sets of target
       files (eg., packages whose keys have changed).

   -l  (--local_cert_dirs)  <dir,dir,...>
       Comma-separated list of top-level directories to scan for
       .x509.pem files.  Defaults to "vendor,build".  Where cert files
       can be found that match APK signatures, the filename will be
       printed as the cert name, otherwise a hash of the cert plus its
       subject string will be printed instead.

   -t  (--text)
       Dump the certificate information for both packages in comparison
       mode (this output is normally suppressed).

 """

 from __future__ import print_function

 import logging
 import os
 import os.path
 import re
 import subprocess
 import sys
 import zipfile

 import common

 if sys.hexversion < 0x02070000:
   print("Python 2.7 or newer is required.", file=sys.stderr)
   sys.exit(1)


 logger = logging.getLogger(__name__)


 OPTIONS = common.OPTIONS

 OPTIONS.text = False
 OPTIONS.compare_with = None
 OPTIONS.local_cert_dirs = ("vendor", "build")

 PROBLEMS = []
 PROBLEM_PREFIX = []


 def AddProblem(msg):
   logger.error(msg)
   PROBLEMS.append(" ".join(PROBLEM_PREFIX) + " " + msg)


 def Push(msg):
   PROBLEM_PREFIX.append(msg)


 def Pop():
   PROBLEM_PREFIX.pop()


 def Banner(msg):
   print("-" * 70)
   print("  ", msg)
   print("-" * 70)


 def GetCertSubject(cert):
   p = common.Run(["openssl", "x509", "-inform", "DER", "-text"],
                  stdin=subprocess.PIPE,
                  stdout=subprocess.PIPE,
                  universal_newlines=False)
   out, err = p.communicate(cert)
   if err and not err.strip():
     return "(error reading cert subject)"
   for line in out.decode().split("\n"):
     line = line.strip()
     if line.startswith("Subject:"):
       return line[8:].strip()
   return "(unknown cert subject)"


 class CertDB(object):

   def __init__(self):
     self.certs = {}

   def Add(self, cert_digest, subject, name=None):
     if cert_digest in self.certs:
       if name:
         self.certs[cert_digest] = self.certs[cert_digest] + "," + name
     else:
       if name is None:
         name = "unknown cert %s (%s)" % (cert_digest[:12], subject)
       self.certs[cert_digest] = name

   def Get(self, cert_digest):
     """Return the name for a given cert digest."""
     return self.certs.get(cert_digest, None)

   def FindLocalCerts(self):
     to_load = []
     for top in OPTIONS.local_cert_dirs:
       for dirpath, _, filenames in os.walk(top):
         certs = [os.path.join(dirpath, i)
                  for i in filenames if i.endswith(".x509.pem")]
         if certs:
           to_load.extend(certs)

     for i in to_load:
       with open(i) as f:
         cert = common.ParseCertificate(f.read())
       name, _ = os.path.splitext(i)
       name, _ = os.path.splitext(name)

       cert_sha1 = common.sha1(cert).hexdigest()
       cert_subject = GetCertSubject(cert)
       self.Add(cert_sha1, cert_subject, name)


 ALL_CERTS = CertDB()


 def CertFromPKCS7(data, filename):
   """Read the cert out of a PKCS#7-format file (which is what is
   stored in a signed .apk)."""
   Push(filename + ":")
   try:
     p = common.Run(["openssl", "pkcs7",
                     "-inform", "DER",
                     "-outform", "PEM",
                     "-print_certs"],
                    stdin=subprocess.PIPE,
                    stdout=subprocess.PIPE,
                    universal_newlines=False)
     out, err = p.communicate(data)
     if err and not err.strip():
       AddProblem("error reading cert:\n" + err.decode())
       return None

     cert = common.ParseCertificate(out.decode())
     if not cert:
       AddProblem("error parsing cert output")
       return None
     return cert
   finally:
     Pop()


 class APK(object):

   def __init__(self, full_filename, filename):
     self.filename = filename
     self.cert_digests = frozenset()
     self.shared_uid = None
     self.package = None

     Push(filename+":")
     try:
       self.RecordCerts(full_filename)
       self.ReadManifest(full_filename)
     finally:
       Pop()

   def ReadCertsDeprecated(self, full_filename):
     print("reading certs in deprecated way for {}".format(full_filename))
     cert_digests = set()
     with zipfile.ZipFile(full_filename) as apk:
       for info in apk.infolist():
         filename = info.filename
         if (filename.startswith("META-INF/") and
                 info.filename.endswith((".DSA", ".RSA"))):
           pkcs7 = apk.read(filename)
           cert = CertFromPKCS7(pkcs7, filename)
           if not cert:
             continue
           cert_sha1 = common.sha1(cert).hexdigest()
           cert_subject = GetCertSubject(cert)
           ALL_CERTS.Add(cert_sha1, cert_subject)
           cert_digests.add(cert_sha1)
     if not cert_digests:
       AddProblem("No signature found")
       return
     self.cert_digests = frozenset(cert_digests)

   def RecordCerts(self, full_filename):
     """Parse and save the signature of an apk file."""

     # Dump the cert info with apksigner
     cmd = ["apksigner", "verify", "--print-certs", full_filename]
     p = common.Run(cmd, stdout=subprocess.PIPE)
     output, _ = p.communicate()
     if p.returncode != 0:
       self.ReadCertsDeprecated(full_filename)
       return

     # Sample output:
     # Signer #1 certificate DN: ...
     # Signer #1 certificate SHA-256 digest: ...
     # Signer #1 certificate SHA-1 digest: ...
     # Signer (minSdkVersion=24, maxSdkVersion=32) certificate SHA-256 digest: 56be132b780656fe2444cd34326eb5d7aac91d2096abf0fe673a99270622ec87
     # Signer (minSdkVersion=24, maxSdkVersion=32) certificate SHA-1 digest: 19da94896ce4078c38ca695701f1dec741ec6d67
     # ...
     certs_info = {}
     certificate_regex = re.compile(
         r"(Signer (?:#[0-9]+|\(.*\))) (certificate .*):(.*)")
     for line in output.splitlines():
       m = certificate_regex.match(line)
       if not m:
         continue
       signer, key, val = m.group(1), m.group(2), m.group(3)
       if certs_info.get(signer):
         certs_info[signer].update({key.strip(): val.strip()})
       else:
         certs_info.update({signer: {key.strip(): val.strip()}})
     if not certs_info:
       AddProblem("Failed to parse cert info")
       return

     cert_digests = set()
     for signer, props in certs_info.items():
       subject = props.get("certificate DN")
       digest = props.get("certificate SHA-1 digest")
       if not subject or not digest:
         AddProblem("Failed to parse cert subject or digest")
         return
       ALL_CERTS.Add(digest, subject)
       cert_digests.add(digest)
     self.cert_digests = frozenset(cert_digests)

   def ReadManifest(self, full_filename):
     p = common.Run(["aapt2", "dump", "xmltree", full_filename, "--file",
                     "AndroidManifest.xml"],
                    stdout=subprocess.PIPE)
     manifest, err = p.communicate()
     if err:
       AddProblem("failed to read manifest " + full_filename)
       return

     self.shared_uid = None
     self.package = None

     for line in manifest.split("\n"):
       line = line.strip()
       m = re.search(r'A: (\S*?)(?:\(0x[0-9a-f]+\))?="(.*?)" \(Raw', line)
       if m:
         name = m.group(1)
         if name == "android:sharedUserId":
           if self.shared_uid is not None:
             AddProblem("multiple sharedUserId declarations " + full_filename)
           self.shared_uid = m.group(2)
         elif name == "package":
           if self.package is not None:
             AddProblem("multiple package declarations " + full_filename)
           self.package = m.group(2)

     if self.package is None:
       AddProblem("no package declaration " + full_filename)


 class TargetFiles(object):
   def __init__(self):
     self.max_pkg_len = 30
     self.max_fn_len = 20
     self.apks = None
     self.apks_by_basename = None
     self.certmap = None

   def LoadZipFile(self, filename):
     # First read the APK certs file to figure out whether there are compressed
     # APKs in the archive. If we do have compressed APKs in the archive, then we
     # must decompress them individually before we perform any analysis.

     # This is the list of wildcards of files we extract from |filename|.
     apk_extensions = ['*.apk', '*.apex']

     with zipfile.ZipFile(filename, "r") as input_zip:
       self.certmap, compressed_extension = common.ReadApkCerts(input_zip)
     if compressed_extension:
       apk_extensions.append('*.apk' + compressed_extension)

     d = common.UnzipTemp(filename, apk_extensions)
     self.apks = {}
     self.apks_by_basename = {}
     for dirpath, _, filenames in os.walk(d):
       for fn in filenames:
         # Decompress compressed APKs before we begin processing them.
         if compressed_extension and fn.endswith(compressed_extension):
           # First strip the compressed extension from the file.
           uncompressed_fn = fn[:-len(compressed_extension)]

           # Decompress the compressed file to the output file.
           common.Gunzip(os.path.join(dirpath, fn),
                         os.path.join(dirpath, uncompressed_fn))

           # Finally, delete the compressed file and use the uncompressed file
           # for further processing. Note that the deletion is not strictly
           # required, but is done here to ensure that we're not using too much
           # space in the temporary directory.
           os.remove(os.path.join(dirpath, fn))
           fn = uncompressed_fn

         if fn.endswith(('.apk', '.apex')):
           fullname = os.path.join(dirpath, fn)
           displayname = fullname[len(d)+1:]
           apk = APK(fullname, displayname)
           self.apks[apk.filename] = apk
           self.apks_by_basename[os.path.basename(apk.filename)] = apk
           if apk.package:
             self.max_pkg_len = max(self.max_pkg_len, len(apk.package))
           self.max_fn_len = max(self.max_fn_len, len(apk.filename))

   def CheckSharedUids(self):
     """Look for any instances where packages signed with different
     certs request the same sharedUserId."""
     apks_by_uid = {}
     for apk in self.apks.values():
       if apk.shared_uid:
         apks_by_uid.setdefault(apk.shared_uid, []).append(apk)

     for uid in sorted(apks_by_uid):
       apks = apks_by_uid[uid]
       for apk in apks[1:]:
         if apk.certs != apks[0].certs:
           break
       else:
         # all packages have the same set of certs; this uid is fine.
         continue

       AddProblem("different cert sets for packages with uid %s" % (uid,))

       print("uid %s is shared by packages with different cert sets:" % (uid,))
       for apk in apks:
         print("%-*s  [%s]" % (self.max_pkg_len, apk.package, apk.filename))
         for digest in apk.cert_digests:
           print("   ", ALL_CERTS.Get(digest))
       print()

   def CheckExternalSignatures(self):
     for apk_filename, certname in self.certmap.items():
       if certname == "EXTERNAL":
         # Apps marked EXTERNAL should be signed with the test key
         # during development, then manually re-signed after
         # predexopting.  Consider it an error if this app is now
         # signed with any key that is present in our tree.
         apk = self.apks_by_basename[apk_filename]
         signed_with_external = False
         for digest in apk.cert_digests:
           name = ALL_CERTS.Get(digest)
           if name and name.startswith("unknown "):
             signed_with_external = True

         if not signed_with_external:
           Push(apk.filename)
           AddProblem("hasn't been signed with EXTERNAL cert")
           Pop()

   def PrintCerts(self):
     """Display a table of packages grouped by cert."""
     by_digest = {}
     for apk in self.apks.values():
       for digest in apk.cert_digests:
         if apk.package:
           by_digest.setdefault(digest, []).append((apk.package, apk))

     order = [(-len(v), k) for (k, v) in by_digest.items()]
     order.sort()

     for _, digest in order:
       print("%s:" % (ALL_CERTS.Get(digest),))
       apks = by_digest[digest]
       apks.sort(key=lambda x: x[0])
       for i in range(1, len(apks)):
         pkgname, apk = apks[i]
         if pkgname == apks[i-1][0]:
           print("Both {} and {} have same package name {}".format(
               apk.filename, apks[i-1][1].filename, pkgname))
       for _, apk in apks:
         if apk.shared_uid:
           print("  %-*s  %-*s  [%s]" % (self.max_fn_len, apk.filename,
                                         self.max_pkg_len, apk.package,
                                         apk.shared_uid))
         else:
           print("  %-*s  %s" % (self.max_fn_len, apk.filename, apk.package))
       print()

   def CompareWith(self, other):
     """Look for instances where a given package that exists in both
     self and other have different certs."""

     all_apks = set(self.apks.keys())
     all_apks.update(other.apks.keys())

     max_pkg_len = max(self.max_pkg_len, other.max_pkg_len)

     by_digestpair = {}

     for i in all_apks:
       if i in self.apks:
         if i in other.apks:
           # in both; should have same set of certs
           if self.apks[i].cert_digests != other.apks[i].cert_digests:
             by_digestpair.setdefault((other.apks[i].cert_digests,
                                       self.apks[i].cert_digests), []).append(i)
         else:
           print("%s [%s]: new APK (not in comparison target_files)" % (
               i, self.apks[i].filename))
       else:
         if i in other.apks:
           print("%s [%s]: removed APK (only in comparison target_files)" % (
               i, other.apks[i].filename))

     if by_digestpair:
       AddProblem("some APKs changed certs")
       Banner("APK signing differences")
       for (old, new), packages in sorted(by_digestpair.items()):
         for i, o in enumerate(old):
           if i == 0:
             print("was", ALL_CERTS.Get(o))
           else:
             print("   ", ALL_CERTS.Get(o))
         for i, n in enumerate(new):
           if i == 0:
             print("now", ALL_CERTS.Get(n))
           else:
             print("   ", ALL_CERTS.Get(n))
         for i in sorted(packages):
           old_fn = other.apks[i].filename
           new_fn = self.apks[i].filename
           if old_fn == new_fn:
             print("  %-*s  [%s]" % (max_pkg_len, i, old_fn))
           else:
             print("  %-*s  [was: %s; now: %s]" % (max_pkg_len, i,
                                                   old_fn, new_fn))
         print()


 def main(argv):
   def option_handler(o, a):
     if o in ("-c", "--compare_with"):
       OPTIONS.compare_with = a
     elif o in ("-l", "--local_cert_dirs"):
       OPTIONS.local_cert_dirs = [i.strip() for i in a.split(",")]
     elif o in ("-t", "--text"):
       OPTIONS.text = True
     else:
       return False
     return True

   args = common.ParseOptions(argv, __doc__,
                              extra_opts="c:l:t",
                              extra_long_opts=["compare_with=",
                                               "local_cert_dirs="],
                              extra_option_handler=option_handler)

   if len(args) != 1:
     common.Usage(__doc__)
     sys.exit(1)

   common.InitLogging()

   ALL_CERTS.FindLocalCerts()

   Push("input target_files:")
   try:
     target_files = TargetFiles()
     target_files.LoadZipFile(args[0])
   finally:
     Pop()

   compare_files = None
   if OPTIONS.compare_with:
     Push("comparison target_files:")
     try:
       compare_files = TargetFiles()
       compare_files.LoadZipFile(OPTIONS.compare_with)
     finally:
       Pop()

   if OPTIONS.text or not compare_files:
     Banner("target files")
     target_files.PrintCerts()
   target_files.CheckSharedUids()
   target_files.CheckExternalSignatures()
   if compare_files:
     if OPTIONS.text:
       Banner("comparison files")
       compare_files.PrintCerts()
     target_files.CompareWith(compare_files)

   if PROBLEMS:
     print("%d problem(s) found:\n" % (len(PROBLEMS),))
     for p in PROBLEMS:
       print(p)
     return 1

   return 0


 if __name__ == '__main__':
   try:
     r = main(sys.argv[1:])
     sys.exit(r)
   finally:
     common.Cleanup()
	#!/usr/bin/env python
	#
	# Copyright (C) 2009 The Android Open Source Project
	#
	# Licensed under the Apache License, Version 2.0 (the "License");
	# you may not use this file except in compliance with the License.
	# You may obtain a copy of the License at
	#
	# http://www.apache.org/licenses/LICENSE-2.0
	#
	# Unless required by applicable law or agreed to in writing, software
	# distributed under the License is distributed on an "AS IS" BASIS,
	# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	# See the License for the specific language governing permissions and
	# limitations under the License.

	"""
	Check the signatures of all APKs in a target_files .zip file. With
	-c, compare the signatures of each package to the ones in a separate
	target_files (usually a previously distributed build for the same
	device) and flag any changes.

	Usage: check_target_file_signatures [flags] target_files

	-c (--compare_with) <other_target_files>
	Look for compatibility problems between the two sets of target
	files (eg., packages whose keys have changed).

	-l (--local_cert_dirs) <dir,dir,...>
	Comma-separated list of top-level directories to scan for
	.x509.pem files. Defaults to "vendor,build". Where cert files
	can be found that match APK signatures, the filename will be
	printed as the cert name, otherwise a hash of the cert plus its
	subject string will be printed instead.

	-t (--text)
	Dump the certificate information for both packages in comparison
	mode (this output is normally suppressed).

	"""

	from __future__ import print_function

	import logging
	import os
	import os.path
	import re
	import subprocess
	import sys
	import zipfile

	import common

	if sys.hexversion < 0x02070000:
	print("Python 2.7 or newer is required.", file=sys.stderr)
	sys.exit(1)


	logger = logging.getLogger(__name__)


	OPTIONS = common.OPTIONS

	OPTIONS.text = False
	OPTIONS.compare_with = None
	OPTIONS.local_cert_dirs = ("vendor", "build")

	PROBLEMS = []
	PROBLEM_PREFIX = []


	def AddProblem(msg):
	logger.error(msg)
	PROBLEMS.append(" ".join(PROBLEM_PREFIX) + " " + msg)


	def Push(msg):
	PROBLEM_PREFIX.append(msg)


	def Pop():
	PROBLEM_PREFIX.pop()


	def Banner(msg):
	print("-" * 70)
	print(" ", msg)
	print("-" * 70)


	def GetCertSubject(cert):
	p = common.Run(["openssl", "x509", "-inform", "DER", "-text"],
	stdin=subprocess.PIPE,
	stdout=subprocess.PIPE,
	universal_newlines=False)
	out, err = p.communicate(cert)
	if err and not err.strip():
	return "(error reading cert subject)"
	for line in out.decode().split("\n"):
	line = line.strip()
	if line.startswith("Subject:"):
	return line[8:].strip()
	return "(unknown cert subject)"


	class CertDB(object):

	def __init__(self):
	self.certs = {}

	def Add(self, cert_digest, subject, name=None):
	if cert_digest in self.certs:
	if name:
	self.certs[cert_digest] = self.certs[cert_digest] + "," + name
	else:
	if name is None:
	name = "unknown cert %s (%s)" % (cert_digest[:12], subject)
	self.certs[cert_digest] = name

	def Get(self, cert_digest):
	"""Return the name for a given cert digest."""
	return self.certs.get(cert_digest, None)

	def FindLocalCerts(self):
	to_load = []
	for top in OPTIONS.local_cert_dirs:
	for dirpath, _, filenames in os.walk(top):
	certs = [os.path.join(dirpath, i)
	for i in filenames if i.endswith(".x509.pem")]
	if certs:
	to_load.extend(certs)

	for i in to_load:
	with open(i) as f:
	cert = common.ParseCertificate(f.read())
	name, _ = os.path.splitext(i)
	name, _ = os.path.splitext(name)

	cert_sha1 = common.sha1(cert).hexdigest()
	cert_subject = GetCertSubject(cert)
	self.Add(cert_sha1, cert_subject, name)


	ALL_CERTS = CertDB()


	def CertFromPKCS7(data, filename):
	"""Read the cert out of a PKCS#7-format file (which is what is
	stored in a signed .apk)."""
	Push(filename + ":")
	try:
	p = common.Run(["openssl", "pkcs7",
	"-inform", "DER",
	"-outform", "PEM",
	"-print_certs"],
	stdin=subprocess.PIPE,
	stdout=subprocess.PIPE,
	universal_newlines=False)
	out, err = p.communicate(data)
	if err and not err.strip():
	AddProblem("error reading cert:\n" + err.decode())
	return None

	cert = common.ParseCertificate(out.decode())
	if not cert:
	AddProblem("error parsing cert output")
	return None
	return cert
	finally:
	Pop()


	class APK(object):

	def __init__(self, full_filename, filename):
	self.filename = filename
	self.cert_digests = frozenset()
	self.shared_uid = None
	self.package = None

	Push(filename+":")
	try:
	self.RecordCerts(full_filename)
	self.ReadManifest(full_filename)
	finally:
	Pop()

	def ReadCertsDeprecated(self, full_filename):
	print("reading certs in deprecated way for {}".format(full_filename))
	cert_digests = set()
	with zipfile.ZipFile(full_filename) as apk:
	for info in apk.infolist():
	filename = info.filename
	if (filename.startswith("META-INF/") and
	info.filename.endswith((".DSA", ".RSA"))):
	pkcs7 = apk.read(filename)
	cert = CertFromPKCS7(pkcs7, filename)
	if not cert:
	continue
	cert_sha1 = common.sha1(cert).hexdigest()
	cert_subject = GetCertSubject(cert)
	ALL_CERTS.Add(cert_sha1, cert_subject)
	cert_digests.add(cert_sha1)
	if not cert_digests:
	AddProblem("No signature found")
	return
	self.cert_digests = frozenset(cert_digests)

	def RecordCerts(self, full_filename):
	"""Parse and save the signature of an apk file."""

	# Dump the cert info with apksigner
	cmd = ["apksigner", "verify", "--print-certs", full_filename]
	p = common.Run(cmd, stdout=subprocess.PIPE)
	output, _ = p.communicate()
	if p.returncode != 0:
	self.ReadCertsDeprecated(full_filename)
	return

	# Sample output:
	# Signer #1 certificate DN: ...
	# Signer #1 certificate SHA-256 digest: ...
	# Signer #1 certificate SHA-1 digest: ...
	# Signer (minSdkVersion=24, maxSdkVersion=32) certificate SHA-256 digest: 56be132b780656fe2444cd34326eb5d7aac91d2096abf0fe673a99270622ec87
	# Signer (minSdkVersion=24, maxSdkVersion=32) certificate SHA-1 digest: 19da94896ce4078c38ca695701f1dec741ec6d67
	# ...
	certs_info = {}
	certificate_regex = re.compile(
	r"(Signer (?:#[0-9]+\|\(.\))) (certificate .):(.*)")
	for line in output.splitlines():
	m = certificate_regex.match(line)
	if not m:
	continue
	signer, key, val = m.group(1), m.group(2), m.group(3)
	if certs_info.get(signer):
	certs_info[signer].update({key.strip(): val.strip()})
	else:
	certs_info.update({signer: {key.strip(): val.strip()}})
	if not certs_info:
	AddProblem("Failed to parse cert info")
	return

	cert_digests = set()
	for signer, props in certs_info.items():
	subject = props.get("certificate DN")
	digest = props.get("certificate SHA-1 digest")
	if not subject or not digest:
	AddProblem("Failed to parse cert subject or digest")
	return
	ALL_CERTS.Add(digest, subject)
	cert_digests.add(digest)
	self.cert_digests = frozenset(cert_digests)

	def ReadManifest(self, full_filename):
	p = common.Run(["aapt2", "dump", "xmltree", full_filename, "--file",
	"AndroidManifest.xml"],
	stdout=subprocess.PIPE)
	manifest, err = p.communicate()
	if err:
	AddProblem("failed to read manifest " + full_filename)
	return

	self.shared_uid = None
	self.package = None

	for line in manifest.split("\n"):
	line = line.strip()
	m = re.search(r'A: (\S?)(?:\(0x[0-9a-f]+\))?="(.?)" \(Raw', line)
	if m:
	name = m.group(1)
	if name == "android:sharedUserId":
	if self.shared_uid is not None:
	AddProblem("multiple sharedUserId declarations " + full_filename)
	self.shared_uid = m.group(2)
	elif name == "package":
	if self.package is not None:
	AddProblem("multiple package declarations " + full_filename)
	self.package = m.group(2)

	if self.package is None:
	AddProblem("no package declaration " + full_filename)


	class TargetFiles(object):
	def __init__(self):
	self.max_pkg_len = 30
	self.max_fn_len = 20
	self.apks = None
	self.apks_by_basename = None
	self.certmap = None

	def LoadZipFile(self, filename):
	# First read the APK certs file to figure out whether there are compressed
	# APKs in the archive. If we do have compressed APKs in the archive, then we
	# must decompress them individually before we perform any analysis.

	# This is the list of wildcards of files we extract from \|filename\|.
	apk_extensions = ['.apk', '.apex']

	with zipfile.ZipFile(filename, "r") as input_zip:
	self.certmap, compressed_extension = common.ReadApkCerts(input_zip)
	if compressed_extension:
	apk_extensions.append('*.apk' + compressed_extension)

	d = common.UnzipTemp(filename, apk_extensions)
	self.apks = {}
	self.apks_by_basename = {}
	for dirpath, _, filenames in os.walk(d):
	for fn in filenames:
	# Decompress compressed APKs before we begin processing them.
	if compressed_extension and fn.endswith(compressed_extension):
	# First strip the compressed extension from the file.
	uncompressed_fn = fn[:-len(compressed_extension)]

	# Decompress the compressed file to the output file.
	common.Gunzip(os.path.join(dirpath, fn),
	os.path.join(dirpath, uncompressed_fn))

	# Finally, delete the compressed file and use the uncompressed file
	# for further processing. Note that the deletion is not strictly
	# required, but is done here to ensure that we're not using too much
	# space in the temporary directory.
	os.remove(os.path.join(dirpath, fn))
	fn = uncompressed_fn

	if fn.endswith(('.apk', '.apex')):
	fullname = os.path.join(dirpath, fn)
	displayname = fullname[len(d)+1:]
	apk = APK(fullname, displayname)
	self.apks[apk.filename] = apk
	self.apks_by_basename[os.path.basename(apk.filename)] = apk
	if apk.package:
	self.max_pkg_len = max(self.max_pkg_len, len(apk.package))
	self.max_fn_len = max(self.max_fn_len, len(apk.filename))

	def CheckSharedUids(self):
	"""Look for any instances where packages signed with different
	certs request the same sharedUserId."""
	apks_by_uid = {}
	for apk in self.apks.values():
	if apk.shared_uid:
	apks_by_uid.setdefault(apk.shared_uid, []).append(apk)

	for uid in sorted(apks_by_uid):
	apks = apks_by_uid[uid]
	for apk in apks[1:]:
	if apk.certs != apks[0].certs:
	break
	else:
	# all packages have the same set of certs; this uid is fine.
	continue

	AddProblem("different cert sets for packages with uid %s" % (uid,))

	print("uid %s is shared by packages with different cert sets:" % (uid,))
	for apk in apks:
	print("%-*s [%s]" % (self.max_pkg_len, apk.package, apk.filename))
	for digest in apk.cert_digests:
	print(" ", ALL_CERTS.Get(digest))
	print()

	def CheckExternalSignatures(self):
	for apk_filename, certname in self.certmap.items():
	if certname == "EXTERNAL":
	# Apps marked EXTERNAL should be signed with the test key
	# during development, then manually re-signed after
	# predexopting. Consider it an error if this app is now
	# signed with any key that is present in our tree.
	apk = self.apks_by_basename[apk_filename]
	signed_with_external = False
	for digest in apk.cert_digests:
	name = ALL_CERTS.Get(digest)
	if name and name.startswith("unknown "):
	signed_with_external = True

	if not signed_with_external:
	Push(apk.filename)
	AddProblem("hasn't been signed with EXTERNAL cert")
	Pop()

	def PrintCerts(self):
	"""Display a table of packages grouped by cert."""
	by_digest = {}
	for apk in self.apks.values():
	for digest in apk.cert_digests:
	if apk.package:
	by_digest.setdefault(digest, []).append((apk.package, apk))

	order = [(-len(v), k) for (k, v) in by_digest.items()]
	order.sort()

	for _, digest in order:
	print("%s:" % (ALL_CERTS.Get(digest),))
	apks = by_digest[digest]
	apks.sort(key=lambda x: x[0])
	for i in range(1, len(apks)):
	pkgname, apk = apks[i]
	if pkgname == apks[i-1][0]:
	print("Both {} and {} have same package name {}".format(
	apk.filename, apks[i-1][1].filename, pkgname))
	for _, apk in apks:
	if apk.shared_uid:
	print(" %-s %-s [%s]" % (self.max_fn_len, apk.filename,
	self.max_pkg_len, apk.package,
	apk.shared_uid))
	else:
	print(" %-*s %s" % (self.max_fn_len, apk.filename, apk.package))
	print()

	def CompareWith(self, other):
	"""Look for instances where a given package that exists in both
	self and other have different certs."""

	all_apks = set(self.apks.keys())
	all_apks.update(other.apks.keys())

	max_pkg_len = max(self.max_pkg_len, other.max_pkg_len)

	by_digestpair = {}

	for i in all_apks:
	if i in self.apks:
	if i in other.apks:
	# in both; should have same set of certs
	if self.apks[i].cert_digests != other.apks[i].cert_digests:
	by_digestpair.setdefault((other.apks[i].cert_digests,
	self.apks[i].cert_digests), []).append(i)
	else:
	print("%s [%s]: new APK (not in comparison target_files)" % (
	i, self.apks[i].filename))
	else:
	if i in other.apks:
	print("%s [%s]: removed APK (only in comparison target_files)" % (
	i, other.apks[i].filename))

	if by_digestpair:
	AddProblem("some APKs changed certs")
	Banner("APK signing differences")
	for (old, new), packages in sorted(by_digestpair.items()):
	for i, o in enumerate(old):
	if i == 0:
	print("was", ALL_CERTS.Get(o))
	else:
	print(" ", ALL_CERTS.Get(o))
	for i, n in enumerate(new):
	if i == 0:
	print("now", ALL_CERTS.Get(n))
	else:
	print(" ", ALL_CERTS.Get(n))
	for i in sorted(packages):
	old_fn = other.apks[i].filename
	new_fn = self.apks[i].filename
	if old_fn == new_fn:
	print(" %-*s [%s]" % (max_pkg_len, i, old_fn))
	else:
	print(" %-*s [was: %s; now: %s]" % (max_pkg_len, i,
	old_fn, new_fn))
	print()


	def main(argv):
	def option_handler(o, a):
	if o in ("-c", "--compare_with"):
	OPTIONS.compare_with = a
	elif o in ("-l", "--local_cert_dirs"):
	OPTIONS.local_cert_dirs = [i.strip() for i in a.split(",")]
	elif o in ("-t", "--text"):
	OPTIONS.text = True
	else:
	return False
	return True

	args = common.ParseOptions(argv, __doc__,
	extra_opts="c:l:t",
	extra_long_opts=["compare_with=",
	"local_cert_dirs="],
	extra_option_handler=option_handler)

	if len(args) != 1:
	common.Usage(__doc__)
	sys.exit(1)

	common.InitLogging()

	ALL_CERTS.FindLocalCerts()

	Push("input target_files:")
	try:
	target_files = TargetFiles()
	target_files.LoadZipFile(args[0])
	finally:
	Pop()

	compare_files = None
	if OPTIONS.compare_with:
	Push("comparison target_files:")
	try:
	compare_files = TargetFiles()
	compare_files.LoadZipFile(OPTIONS.compare_with)
	finally:
	Pop()

	if OPTIONS.text or not compare_files:
	Banner("target files")
	target_files.PrintCerts()
	target_files.CheckSharedUids()
	target_files.CheckExternalSignatures()
	if compare_files:
	if OPTIONS.text:
	Banner("comparison files")
	compare_files.PrintCerts()
	target_files.CompareWith(compare_files)

	if PROBLEMS:
	print("%d problem(s) found:\n" % (len(PROBLEMS),))
	for p in PROBLEMS:
	print(p)
	return 1

	return 0


	if __name__ == '__main__':
	try:
	r = main(sys.argv[1:])
	sys.exit(r)
	finally:
	common.Cleanup()