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releasetools.py
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releasetools.py
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# Copyright (C) 2009 The Android Open Source Project
# Copyright (c) 2011-2013, The Linux Foundation. All rights reserved.
# Copyright (C) 2019 The LineageOS 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 hashlib
import common
import re
bootImages = {}
binImages = {}
fwImages = {}
# Parse filesmap file containing firmware residing places
def LoadFilesMap(zip, name="RADIO/filesmap"):
try:
data = zip.read(name)
except KeyError:
print "Warning: could not find %s in %s." % (name, zip)
data = ""
d = {}
for line in data.split("\n"):
line = line.strip()
if not line or line.startswith("#"):
continue
pieces = line.split()
if not (len(pieces) == 2):
raise ValueError("malformed filesmap line: \"%s\"" % (line,))
d[pieces[0]] = pieces[1]
return d
# Read firmware images from target files zip
def GetRadioFiles(z):
out = {}
for info in z.infolist():
f = info.filename
if f.startswith("RADIO/") and (f.__len__() > len("RADIO/")):
fn = f[6:]
if fn.startswith("filesmap"):
continue
data = z.read(f)
out[fn] = common.File(f, data)
return out
# Get firmware residing place from filesmap
def GetFileDestination(fn, filesmap):
# get backup destination as well if present
backup = None
if fn + ".bak" in filesmap:
backup = filesmap[fn + ".bak"]
# If full filename is not specified in filesmap get only the name part
# and look for this token
if fn not in filesmap:
fn = fn.split(".")[0] + ".*"
if fn not in filesmap:
print "warning radio-update: '%s' not found in filesmap" % (fn)
return None, backup
return filesmap[fn], backup
# Separate image types as each type needs different handling
def SplitFwTypes(files):
boot = {}
bin = {}
fw = {}
for f in files:
extIdx = -1
dotSeparated = f.split(".")
if dotSeparated[extIdx] == 'mbn' or dotSeparated[extIdx] == 'elf' or dotSeparated[extIdx] == 'img':
boot[f] = files[f]
elif dotSeparated[extIdx] == 'bin':
bin[f] = files[f]
else:
fw[f] = files[f]
return boot, bin, fw
# Prepare radio-update files and verify them
def OTA_VerifyEnd(info, api_version, target_zip, source_zip=None):
if api_version < 3:
print "warning radio-update: no support for api_version less than 3"
return False
print "Loading radio filesmap..."
filesmap = LoadFilesMap(target_zip)
if filesmap == {}:
print "warning radio-update: no or invalid filesmap file found"
return False
print "Loading radio target..."
tgt_files = GetRadioFiles(target_zip)
if tgt_files == {}:
print "warning radio-update: no radio images in input target_files"
return False
src_files = None
if source_zip is not None:
print "Loading radio source..."
src_files = GetRadioFiles(source_zip)
update_list = {}
largest_source_size = 0
print "Preparing radio-update files..."
for fn in tgt_files:
dest, destBak = GetFileDestination(fn, filesmap)
if dest is None:
continue
tf = tgt_files[fn]
sf = None
if src_files is not None:
sf = src_files.get(fn, None)
full = sf is None or fn.endswith('.enc')
if not full:
# no difference - skip this file
if tf.sha1 == sf.sha1:
continue
d = common.Difference(tf, sf)
_, _, d = d.ComputePatch()
# no difference - skip this file
if d is None:
continue
# if patch is almost as big as the file - don't bother patching
full = len(d) > tf.size * common.OPTIONS.patch_threshold
if not full:
f = "patch/firmware-update/" + fn + ".p"
common.ZipWriteStr(info.output_zip, f, d)
update_list[f] = (dest, destBak, tf, sf)
largest_source_size = max(largest_source_size, sf.size)
if full:
f = "firmware-update/" + fn
common.ZipWriteStr(info.output_zip, f, tf.data)
update_list[f] = (dest, destBak, None, None)
global bootImages
global binImages
global fwImages
bootImages, binImages, fwImages = SplitFwTypes(update_list)
# If there are incremental patches verify them
if largest_source_size != 0:
info.script.Comment("---- radio update verification ----")
info.script.Print("Verifying radio-update...")
for f in bootImages:
dest, destBak, tf, sf = bootImages[f]
# Not incremental
if sf is None:
continue
info.script.PatchCheck("EMMC:%s:%d:%s:%d:%s" %
(dest, sf.size, sf.sha1, tf.size, tf.sha1))
if destBak is not None:
info.script.PatchCheck("EMMC:%s:%d:%s:%d:%s" %
(destBak, sf.size, sf.sha1, tf.size, tf.sha1))
for f in binImages:
dest, destBak, tf, sf = binImages[f]
# Not incremental
if sf is None:
continue
info.script.PatchCheck("EMMC:%s:%d:%s:%d:%s" %
(dest, sf.size, sf.sha1, tf.size, tf.sha1))
last_mounted = ""
for f in fwImages:
dest, destBak, tf, sf = fwImages[f]
# Not incremental
if sf is None:
continue
# Get the filename without the path and the patch (.p) extention
f = f.split("/")[-1][:-2]
# Parse filesmap destination paths for "/dev/" pattern in the beginng.
# This would mean that the file must be written to block device -
# fs mount needed
if dest.startswith("/dev/"):
if last_mounted != dest:
info.script.AppendExtra('unmount("/firmware");')
info.script.AppendExtra('mount("vfat", "EMMC", "%s", "/firmware");' %
(dest))
last_mounted = dest
dest = "/firmware/image/" + f
else:
dest = dest + "/" + f
info.script.PatchCheck(dest, tf.sha1, sf.sha1)
info.script.CacheFreeSpaceCheck(largest_source_size)
return True
# This function handles only non-HLOS whole partition images
def InstallRawImage(script, f, dest, tf, sf):
script.AppendExtra('package_extract_file("%s", "%s");' % (f, dest))
return
# This function handles only non-HLOS boot images - files list must contain
# only such images (aboot, tz, etc)
def InstallBootImages(script, files):
for f in files:
dest, _, tf, sf = files[f]
InstallRawImage(script, f, dest, tf, sf)
return
# This function handles only non-HLOS bin images
def InstallBinImages(script, files):
for f in files:
dest, _, tf, sf = files[f]
InstallRawImage(script, f, dest, tf, sf)
return
def FullOTA_InstallEnd(info):
OTA_InstallEnd(info)
return
def IncrementalOTA_InstallEnd(info):
OTA_InstallEnd(info)
return
def FullOTA_Assertions(info):
AddTrustZoneAssertion(info, info.input_zip)
return
def IncrementalOTA_Assertions(info):
AddTrustZoneAssertion(info, info.target_zip)
return
def IncrementalOTA_VerifyEnd(info):
OTA_VerifyEnd(info, info.target_version, info.target_zip, info.source_zip)
return
def AddImage(info, basename, dest):
path = "IMAGES/" + basename
if path not in info.input_zip.namelist():
return
data = info.input_zip.read(path)
common.ZipWriteStr(info.output_zip, basename, data)
info.script.AppendExtra('package_extract_file("%s", "%s");' % (basename, dest))
def OTA_InstallEnd(info):
info.script.Print("Patching device-tree and verity images...")
AddImage(info, "dtbo.img", "/dev/block/bootdevice/by-name/dtbo")
AddImage(info, "vbmeta.img", "/dev/block/bootdevice/by-name/vbmeta")
if OTA_VerifyEnd(info, info.input_version, info.input_zip):
print "Applying radio-update script modifications..."
info.script.Comment("---- radio update tasks ----")
info.script.Print("Patching firmware images...")
if bootImages != {}:
InstallBootImages(info.script, bootImages)
if binImages != {}:
InstallBinImages(info.script, binImages)
if fwImages != {}:
InstallFwImages(info.script, fwImages)
return
def AddTrustZoneAssertion(info, input_zip):
android_info = info.input_zip.read("OTA/android-info.txt")
m = re.search(r'require\s+version-trustzone\s*=\s*(\S+)', android_info)
if m:
versions = m.group(1).split('|')
if len(versions) and '*' not in versions:
cmd = 'assert(lavender.verify_trustzone(' + ','.join(['"%s"' % tz for tz in versions]) + ') == "1");'
info.script.AppendExtra(cmd)
return