# Copyright (C) 2008 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.
import errno
import getopt
import getpass
import imp
import os
import re
import shutil
import subprocess
import sys
import tempfile
import zipfile
# missing in Python 2.4 and before
if not hasattr(os, "SEEK_SET"):
os.SEEK_SET = 0
class Options(object): pass
OPTIONS = Options()
OPTIONS.search_path = "out/host/linux-x86"
OPTIONS.max_image_size = {}
OPTIONS.verbose = False
OPTIONS.tempfiles = []
OPTIONS.device_specific = None
class ExternalError(RuntimeError): pass
def Run(args, **kwargs):
"""Create and return a subprocess.Popen object, printing the command
line on the terminal if -v was specified."""
if OPTIONS.verbose:
print " running: ", " ".join(args)
return subprocess.Popen(args, **kwargs)
def LoadMaxSizes():
"""Load the maximum allowable images sizes from the input
target_files size."""
OPTIONS.max_image_size = {}
try:
for line in open(os.path.join(OPTIONS.input_tmp, "META", "imagesizes.txt")):
pieces = line.split()
if len(pieces) != 2: continue
image = pieces[0]
size = int(pieces[1])
OPTIONS.max_image_size[image + ".img"] = size
except IOError, e:
if e.errno == errno.ENOENT:
pass
def BuildAndAddBootableImage(sourcedir, targetname, output_zip):
"""Take a kernel, cmdline, and ramdisk directory from the input (in
'sourcedir'), and turn them into a boot image. Put the boot image
into the output zip file under the name 'targetname'. Returns
targetname on success or None on failure (if sourcedir does not
appear to contain files for the requested image)."""
print "creating %s..." % (targetname,)
img = BuildBootableImage(sourcedir)
if img is None:
return None
CheckSize(img, targetname)
ZipWriteStr(output_zip, targetname, img)
return targetname
def BuildBootableImage(sourcedir):
"""Take a kernel, cmdline, and ramdisk directory from the input (in
'sourcedir'), and turn them into a boot image. Return the image
data, or None if sourcedir does not appear to contains files for
building the requested image."""
if (not os.access(os.path.join(sourcedir, "RAMDISK"), os.F_OK) or
not os.access(os.path.join(sourcedir, "kernel"), os.F_OK)):
return None
ramdisk_img = tempfile.NamedTemporaryFile()
img = tempfile.NamedTemporaryFile()
p1 = Run(["mkbootfs", os.path.join(sourcedir, "RAMDISK")],
stdout=subprocess.PIPE)
p2 = Run(["minigzip"],
stdin=p1.stdout, stdout=ramdisk_img.file.fileno())
p2.wait()
p1.wait()
assert p1.returncode == 0, "mkbootfs of %s ramdisk failed" % (targetname,)
assert p2.returncode == 0, "minigzip of %s ramdisk failed" % (targetname,)
cmd = ["mkbootimg", "--kernel", os.path.join(sourcedir, "kernel")]
fn = os.path.join(sourcedir, "cmdline")
if os.access(fn, os.F_OK):
cmd.append("--cmdline")
cmd.append(open(fn).read().rstrip("\n"))
fn = os.path.join(sourcedir, "base")
if os.access(fn, os.F_OK):
cmd.append("--base")
cmd.append(open(fn).read().rstrip("\n"))
cmd.extend(["--ramdisk", ramdisk_img.name,
"--output", img.name])
p = Run(cmd, stdout=subprocess.PIPE)
p.communicate()
assert p.returncode == 0, "mkbootimg of %s image failed" % (
os.path.basename(sourcedir),)
img.seek(os.SEEK_SET, 0)
data = img.read()
ramdisk_img.close()
img.close()
return data
def AddRecovery(output_zip):
BuildAndAddBootableImage(os.path.join(OPTIONS.input_tmp, "RECOVERY"),
"recovery.img", output_zip)
def AddBoot(output_zip):
BuildAndAddBootableImage(os.path.join(OPTIONS.input_tmp, "BOOT"),
"boot.img", output_zip)
def UnzipTemp(filename):
"""Unzip the given archive into a temporary directory and return the name."""
tmp = tempfile.mkdtemp(prefix="targetfiles-")
OPTIONS.tempfiles.append(tmp)
p = Run(["unzip", "-o", "-q", filename, "-d", tmp], stdout=subprocess.PIPE)
p.communicate()
if p.returncode != 0:
raise ExternalError("failed to unzip input target-files \"%s\"" %
(filename,))
return tmp
def GetKeyPasswords(keylist):
"""Given a list of keys, prompt the user to enter passwords for
those which require them. Return a {key: password} dict. password
will be None if the key has no password."""
no_passwords = []
need_passwords = []
devnull = open("/dev/null", "w+b")
for k in sorted(keylist):
# An empty-string key is used to mean don't re-sign this package.
# Obviously we don't need a password for this non-key.
if not k:
no_passwords.append(k)
continue
p = Run(["openssl", "pkcs8", "-in", k+".pk8",
"-inform", "DER", "-nocrypt"],
stdin=devnull.fileno(),
stdout=devnull.fileno(),
stderr=subprocess.STDOUT)
p.communicate()
if p.returncode == 0:
no_passwords.append(k)
else:
need_passwords.append(k)
devnull.close()
key_passwords = PasswordManager().GetPasswords(need_passwords)
key_passwords.update(dict.fromkeys(no_passwords, None))
return key_passwords
def SignFile(input_name, output_name, key, password, align=None,
whole_file=False):
"""Sign the input_name zip/jar/apk, producing output_name. Use the
given key and password (the latter may be None if the key does not
have a password.
If align is an integer > 1, zipalign is run to align stored files in
the output zip on 'align'-byte boundaries.
If whole_file is true, use the "-w" option to SignApk to embed a
signature that covers the whole file in the archive comment of the
zip file.
"""
if align == 0 or align == 1:
align = None
if align:
temp = tempfile.NamedTemporaryFile()
sign_name = temp.name
else:
sign_name = output_name
cmd = ["java", "-Xmx512m", "-jar",
os.path.join(OPTIONS.search_path, "framework", "signapk.jar")]
if whole_file:
cmd.append("-w")
cmd.extend([key + ".x509.pem", key + ".pk8",
input_name, sign_name])
p = Run(cmd, stdin=subprocess.PIPE, stdout=subprocess.PIPE)
if password is not None:
password += "\n"
p.communicate(password)
if p.returncode != 0:
raise ExternalError("signapk.jar failed: return code %s" % (p.returncode,))
if align:
p = Run(["zipalign", "-f", str(align), sign_name, output_name])
p.communicate()
if p.returncode != 0:
raise ExternalError("zipalign failed: return code %s" % (p.returncode,))
temp.close()
def CheckSize(data, target):
"""Check the data string passed against the max size limit, if
any, for the given target. Raise exception if the data is too big.
Print a warning if the data is nearing the maximum size."""
limit = OPTIONS.max_image_size.get(target, None)
if limit is None: return
size = len(data)
pct = float(size) * 100.0 / limit
msg = "%s size (%d) is %.2f%% of limit (%d)" % (target, size, pct, limit)
if pct >= 99.0:
raise ExternalError(msg)
elif pct >= 95.0:
print
print " WARNING: ", msg
print
elif OPTIONS.verbose:
print " ", msg
COMMON_DOCSTRING = """
-p (--path) <dir>
Prepend <dir>/bin to the list of places to search for binaries
run by this script, and expect to find jars in <dir>/framework.
-s (--device_specific) <file>
Path to the python module containing device-specific
releasetools code.
-v (--verbose)
Show command lines being executed.
-h (--help)
Display this usage message and exit.
"""
def Usage(docstring):
print docstring.rstrip("\n")
print COMMON_DOCSTRING
def ParseOptions(argv,
docstring,
extra_opts="", extra_long_opts=(),
extra_option_handler=None):
"""Parse the options in argv and return any arguments that aren't
flags. docstring is the calling module's docstring, to be displayed
for errors and -h. extra_opts and extra_long_opts are for flags
defined by the caller, which are processed by passing them to
extra_option_handler."""
try:
opts, args = getopt.getopt(
argv, "hvp:s:" + extra_opts,
["help", "verbose", "path=", "device_specific="] +
list(extra_long_opts))
except getopt.GetoptError, err:
Usage(docstring)
print "**", str(err), "**"
sys.exit(2)
path_specified = False
for o, a in opts:
if o in ("-h", "--help"):
Usage(docstring)
sys.exit()
elif o in ("-v", "--verbose"):
OPTIONS.verbose = True
elif o in ("-p", "--path"):
OPTIONS.search_path = a
elif o in ("-s", "--device_specific"):
OPTIONS.device_specific = a
else:
if extra_option_handler is None or not extra_option_handler(o, a):
assert False, "unknown option \"%s\"" % (o,)
os.environ["PATH"] = (os.path.join(OPTIONS.search_path, "bin") +
os.pathsep + os.environ["PATH"])
return args
def Cleanup():
for i in OPTIONS.tempfiles:
if os.path.isdir(i):
shutil.rmtree(i)
else:
os.remove(i)
class PasswordManager(object):
def __init__(self):
self.editor = os.getenv("EDITOR", None)
self.pwfile = os.getenv("ANDROID_PW_FILE", None)
def GetPasswords(self, items):
"""Get passwords corresponding to each string in 'items',
returning a dict. (The dict may have keys in addition to the
values in 'items'.)
Uses the passwords in $ANDROID_PW_FILE if available, letting the
user edit that file to add more needed passwords. If no editor is
available, or $ANDROID_PW_FILE isn't define, prompts the user
interactively in the ordinary way.
"""
current = self.ReadFile()
first = True
while True:
missing = []
for i in items:
if i not in current or not current[i]:
missing.append(i)
# Are all the passwords already in the file?
if not missing: return current
for i in missing:
current[i] = ""
if not first:
print "key file %s still missing some passwords." % (self.pwfile,)
answer = raw_input("try to edit again? [y]> ").strip()
if answer and answer[0] not in 'yY':
raise RuntimeError("key passwords unavailable")
first = False
current = self.UpdateAndReadFile(current)
def PromptResult(self, current):
"""Prompt the user to enter a value (password) for each key in
'current' whose value is fales. Returns a new dict with all the
values.
"""
result = {}
for k, v in sorted(current.iteritems()):
if v:
result[k] = v
else:
while True:
result[k] = getpass.getpass("Enter password for %s key> "
% (k,)).strip()
if result[k]: break
return result
def UpdateAndReadFile(self, current):
if not self.editor or not self.pwfile:
return self.PromptResult(current)
f = open(self.pwfile, "w")
os.chmod(self.pwfile, 0600)
f.write("# Enter key passwords between the [[[ ]]] brackets.\n")
f.write("# (Additional spaces are harmless.)\n\n")
first_line = None
sorted = [(not v, k, v) for (k, v) in current.iteritems()]
sorted.sort()
for i, (_, k, v) in enumerate(sorted):
f.write("[[[ %s ]]] %s\n" % (v, k))
if not v and first_line is None:
# position cursor on first line with no password.
first_line = i + 4
f.close()
p = Run([self.editor, "+%d" % (first_line,), self.pwfile])
_, _ = p.communicate()
return self.ReadFile()
def ReadFile(self):
result = {}
if self.pwfile is None: return result
try:
f = open(self.pwfile, "r")
for line in f:
line = line.strip()
if not line or line[0] == '#': continue
m = re.match(r"^\[\[\[\s*(.*?)\s*\]\]\]\s*(\S+)$", line)
if not m:
print "failed to parse password file: ", line
else:
result[m.group(2)] = m.group(1)
f.close()
except IOError, e:
if e.errno != errno.ENOENT:
print "error reading password file: ", str(e)
return result
def ZipWriteStr(zip, filename, data, perms=0644):
# use a fixed timestamp so the output is repeatable.
zinfo = zipfile.ZipInfo(filename=filename,
date_time=(2009, 1, 1, 0, 0, 0))
zinfo.compress_type = zip.compression
zinfo.external_attr = perms << 16
zip.writestr(zinfo, data)
class DeviceSpecificParams(object):
module = None
def __init__(self, **kwargs):
"""Keyword arguments to the constructor become attributes of this
object, which is passed to all functions in the device-specific
module."""
for k, v in kwargs.iteritems():
setattr(self, k, v)
if self.module is None:
path = OPTIONS.device_specific
if not path: return
try:
if os.path.isdir(path):
info = imp.find_module("releasetools", [path])
else:
d, f = os.path.split(path)
b, x = os.path.splitext(f)
if x == ".py":
f = b
info = imp.find_module(f, [d])
self.module = imp.load_module("device_specific", *info)
except ImportError:
print "unable to load device-specific module; assuming none"
def _DoCall(self, function_name, *args, **kwargs):
"""Call the named function in the device-specific module, passing
the given args and kwargs. The first argument to the call will be
the DeviceSpecific object itself. If there is no module, or the
module does not define the function, return the value of the
'default' kwarg (which itself defaults to None)."""
if self.module is None or not hasattr(self.module, function_name):
return kwargs.get("default", None)
return getattr(self.module, function_name)(*((self,) + args), **kwargs)
def FullOTA_Assertions(self):
"""Called after emitting the block of assertions at the top of a
full OTA package. Implementations can add whatever additional
assertions they like."""
return self._DoCall("FullOTA_Assertions")
def FullOTA_InstallEnd(self):
"""Called at the end of full OTA installation; typically this is
used to install the image for the device's baseband processor."""
return self._DoCall("FullOTA_InstallEnd")
def IncrementalOTA_Assertions(self):
"""Called after emitting the block of assertions at the top of an
incremental OTA package. Implementations can add whatever
additional assertions they like."""
return self._DoCall("IncrementalOTA_Assertions")
def IncrementalOTA_VerifyEnd(self):
"""Called at the end of the verification phase of incremental OTA
installation; additional checks can be placed here to abort the
script before any changes are made."""
return self._DoCall("IncrementalOTA_VerifyEnd")
def IncrementalOTA_InstallEnd(self):
"""Called at the end of incremental OTA installation; typically
this is used to install the image for the device's baseband
processor."""
return self._DoCall("IncrementalOTA_InstallEnd")