Revert of Android: Delete rezip in favor of zipalign -p (patchset #1 id:1 of https://codereview.chromium.org/2594803002/ )

Reason for revert:
Broke downstream monochrome

Original issue's description:
> Android: Delete rezip in favor of zipalign -p
>
> There's no need for a custom alignment tool now that zipalign supports
> page-aligning libraries.
>
> BUG=676029
>
> Committed: https://crrev.com/5e7b486a42ae172313d28a6ef9c5e4bba38cd74f
> Cr-Commit-Position: refs/heads/master@{#440140}

TBR=michaelbai@chromium.org,jbudorick@chromium.org
# Not skipping CQ checks because original CL landed more than 1 days ago.
BUG=676029,676589

Review-Url: https://codereview.chromium.org/2595233003
Cr-Original-Commit-Position: refs/heads/master@{#440457}
Cr-Mirrored-From: https://chromium.googlesource.com/chromium/src
Cr-Mirrored-Commit: 8f43f71ff691157cd0db2725f527dc197c89685c
This commit is contained in:
agrieve 2016-12-22 10:46:45 -08:00 коммит произвёл Commit bot
Родитель a9e7851a16
Коммит 2693c961c5
6 изменённых файлов: 586 добавлений и 44 удалений

Просмотреть файл

@ -163,15 +163,12 @@ def _AddNativeLibraries(out_apk, native_libs, android_abi, uncompress):
"""Add native libraries to APK."""
for path in native_libs:
basename = os.path.basename(path)
apk_path = 'lib/%s/%s' % (android_abi, basename)
compress = None
if (uncompress and os.path.splitext(basename)[1] == '.so'
and 'android_linker' not in basename):
if (uncompress and os.path.splitext(basename)[1] == '.so'):
compress = False
# Add prefix to prevent android install from extracting upon install.
basename = 'crazy.' + basename
apk_path = 'lib/%s/%s' % (android_abi, basename)
build_utils.AddToZipHermetic(out_apk,
apk_path,
src_path=path,
@ -268,9 +265,8 @@ def main(args):
options.uncompress_shared_libraries)
for name in sorted(options.native_lib_placeholders):
# Note: Empty libs files are ignored by md5check (can cause issues
# with stale builds when the only change is adding/removing
# placeholders).
# Empty libs files are ignored by md5check, but rezip requires them
# to be empty in order to identify them as placeholders.
apk_path = 'lib/%s/%s' % (options.android_abi, name)
build_utils.AddToZipHermetic(out_apk, apk_path, data='')

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@ -21,6 +21,32 @@ import resource_sizes # pylint: disable=unused-import
from util import build_utils
def RenameInflateAndAddPageAlignment(
rezip_apk_jar_path, in_zip_file, out_zip_file):
rezip_apk_cmd = [
'java',
'-classpath',
rezip_apk_jar_path,
'RezipApk',
'renamealign',
in_zip_file,
out_zip_file,
]
build_utils.CheckOutput(rezip_apk_cmd)
def ReorderAndAlignApk(rezip_apk_jar_path, in_zip_file, out_zip_file):
rezip_apk_cmd = [
'java',
'-classpath',
rezip_apk_jar_path,
'RezipApk',
'reorder',
in_zip_file,
out_zip_file,
]
build_utils.CheckOutput(rezip_apk_cmd)
def JarSigner(key_path, key_name, key_passwd, unsigned_path, signed_path):
shutil.copy(unsigned_path, signed_path)
@ -36,15 +62,14 @@ def JarSigner(key_path, key_name, key_passwd, unsigned_path, signed_path):
build_utils.CheckOutput(sign_cmd)
def AlignApk(zipalign_path, unaligned_path, final_path):
# Note -p will page align native libraries (files ending with .so), but
# only those that are stored uncompressed.
def AlignApk(zipalign_path, package_align, unaligned_path, final_path):
align_cmd = [
zipalign_path,
'-p',
'-f',
'-f'
]
if package_align:
align_cmd += ['-p']
align_cmd += [
'4', # 4 bytes
@ -60,13 +85,23 @@ def main(args):
parser = optparse.OptionParser()
build_utils.AddDepfileOption(parser)
parser.add_option('--rezip-apk-jar-path',
help='Path to the RezipApk jar file.')
parser.add_option('--zipalign-path', help='Path to the zipalign tool.')
parser.add_option('--page-align-shared-libraries',
action='store_true',
help='Page align shared libraries.')
parser.add_option('--unsigned-apk-path', help='Path to input unsigned APK.')
parser.add_option('--final-apk-path',
help='Path to output signed and aligned APK.')
parser.add_option('--key-path', help='Path to keystore for signing.')
parser.add_option('--key-passwd', help='Keystore password')
parser.add_option('--key-name', help='Keystore name')
parser.add_option('--stamp', help='Path to touch on success.')
parser.add_option('--load-library-from-zip', type='int',
help='If non-zero, build the APK such that the library can be loaded ' +
'directly from the zip file using the crazy linker. The library ' +
'will be renamed, uncompressed and page aligned.')
options, _ = parser.parse_args()
@ -75,9 +110,14 @@ def main(args):
options.key_path,
]
if options.load_library_from_zip:
input_paths.append(options.rezip_apk_jar_path)
input_strings = [
options.load_library_from_zip,
options.key_name,
options.key_passwd,
options.page_align_shared_libraries,
]
build_utils.CallAndWriteDepfileIfStale(
@ -89,9 +129,30 @@ def main(args):
output_paths=[options.final_apk_path])
def _NormalizeZip(path):
def FinalizeApk(options):
with tempfile.NamedTemporaryFile() as signed_apk_path_tmp, \
tempfile.NamedTemporaryFile() as apk_to_sign_tmp:
if options.load_library_from_zip:
# We alter the name of the library so that the Android Package Manager
# does not extract it into a separate file. This must be done before
# signing, as the filename is part of the signed manifest. At the same
# time we uncompress the library, which is necessary so that it can be
# loaded directly from the APK.
# Move the library to a page boundary by adding a page alignment file.
apk_to_sign = apk_to_sign_tmp.name
RenameInflateAndAddPageAlignment(
options.rezip_apk_jar_path, options.unsigned_apk_path, apk_to_sign)
else:
apk_to_sign = options.unsigned_apk_path
signed_apk_path = signed_apk_path_tmp.name
JarSigner(options.key_path, options.key_name, options.key_passwd,
apk_to_sign, signed_apk_path)
# Make the signing files hermetic.
with tempfile.NamedTemporaryFile(suffix='.zip') as hermetic_signed_apk:
with zipfile.ZipFile(path, 'r') as zi:
with zipfile.ZipFile(signed_apk_path, 'r') as zi:
with zipfile.ZipFile(hermetic_signed_apk, 'w') as zo:
for info in zi.infolist():
# Ignore 'extended local file headers'. Python doesn't write them
@ -105,18 +166,20 @@ def _NormalizeZip(path):
info.date_time = build_utils.HERMETIC_TIMESTAMP
zo.writestr(info, zi.read(info.filename))
shutil.copy(hermetic_signed_apk.name, path)
shutil.copy(hermetic_signed_apk.name, signed_apk_path)
def FinalizeApk(options):
with tempfile.NamedTemporaryFile() as signed_apk_path_tmp:
signed_apk_path = signed_apk_path_tmp.name
JarSigner(options.key_path, options.key_name, options.key_passwd,
options.unsigned_apk_path, signed_apk_path)
# Make the newly added signing files hermetic.
_NormalizeZip(signed_apk_path)
AlignApk(options.zipalign_path, signed_apk_path, options.final_apk_path)
if options.load_library_from_zip:
# Reorder the contents of the APK. This re-establishes the canonical
# order which means the library will be back at its page aligned location.
# This step also aligns uncompressed items to 4 bytes.
ReorderAndAlignApk(
options.rezip_apk_jar_path, signed_apk_path, options.final_apk_path)
else:
# Align uncompressed items to 4 bytes
AlignApk(options.zipalign_path,
options.page_align_shared_libraries,
signed_apk_path,
options.final_apk_path)
if __name__ == '__main__':

10
android/rezip/BUILD.gn Normal file
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@ -0,0 +1,10 @@
# Copyright 2014 The Chromium Authors. All rights reserved.
# Use of this source code is governed by a BSD-style license that can be
# found in the LICENSE file.
import("//build/config/android/rules.gni")
java_library("rezip") {
jar_path = "$root_build_dir/lib.java/rezip_apk.jar"
java_files = [ "RezipApk.java" ]
}

448
android/rezip/RezipApk.java Normal file
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@ -0,0 +1,448 @@
// Copyright 2014 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
import java.io.File;
import java.io.FileOutputStream;
import java.io.IOException;
import java.io.InputStream;
import java.io.OutputStream;
import java.util.ArrayList;
import java.util.Collections;
import java.util.Comparator;
import java.util.Enumeration;
import java.util.List;
import java.util.jar.JarEntry;
import java.util.jar.JarFile;
import java.util.jar.JarOutputStream;
import java.util.regex.Pattern;
import java.util.zip.CRC32;
/**
* Command line tool used to build APKs which support loading the native code library
* directly from the APK file. To construct the APK we rename the native library by
* adding the prefix "crazy." to the filename. This is done to prevent the Android
* Package Manager from extracting the library. The native code must be page aligned
* and uncompressed. The page alignment is implemented by adding a zero filled file
* in front of the the native code library. This tool is designed so that running
* SignApk and/or zipalign on the resulting APK does not break the page alignment.
* This is achieved by outputing the filenames in the same canonical order used
* by SignApk and adding the same alignment fields added by zipalign.
*/
class RezipApk {
// Alignment to use for non-compressed files (must match zipalign).
private static final int ALIGNMENT = 4;
// Alignment to use for non-compressed *.so files
private static final int LIBRARY_ALIGNMENT = 4096;
// Files matching this pattern are not copied to the output when adding alignment.
// When reordering and verifying the APK they are copied to the end of the file.
private static Pattern sMetaFilePattern =
Pattern.compile("^(META-INF/((.*)[.](SF|RSA|DSA)|com/android/otacert))|("
+ Pattern.quote(JarFile.MANIFEST_NAME) + ")$");
// Pattern for matching a shared library in the APK
private static Pattern sLibraryPattern = Pattern.compile("^lib/[^/]*/lib.*[.]so$");
// Pattern for match the crazy linker in the APK
private static Pattern sCrazyLinkerPattern =
Pattern.compile("^lib/[^/]*/libchromium_android_linker.so$");
// Pattern for matching a crazy loaded shared library in the APK
private static Pattern sCrazyLibraryPattern = Pattern.compile("^lib/[^/]*/crazy.lib.*[.]so$");
private static boolean isLibraryFilename(String filename) {
return sLibraryPattern.matcher(filename).matches()
&& !sCrazyLinkerPattern.matcher(filename).matches();
}
private static boolean isCrazyLibraryFilename(String filename) {
return sCrazyLibraryPattern.matcher(filename).matches();
}
private static String renameLibraryForCrazyLinker(String filename) {
int lastSlash = filename.lastIndexOf('/');
// We rename the library, so that the Android Package Manager
// no longer extracts the library.
return filename.substring(0, lastSlash + 1) + "crazy." + filename.substring(lastSlash + 1);
}
/**
* Wraps another output stream, counting the number of bytes written.
*/
private static class CountingOutputStream extends OutputStream {
private long mCount = 0;
private OutputStream mOut;
public CountingOutputStream(OutputStream out) {
this.mOut = out;
}
/** Returns the number of bytes written. */
public long getCount() {
return mCount;
}
@Override public void write(byte[] b, int off, int len) throws IOException {
mOut.write(b, off, len);
mCount += len;
}
@Override public void write(int b) throws IOException {
mOut.write(b);
mCount++;
}
@Override public void close() throws IOException {
mOut.close();
}
@Override public void flush() throws IOException {
mOut.flush();
}
}
private static String outputName(JarEntry entry, boolean rename) {
String inName = entry.getName();
if (rename && entry.getSize() > 0 && isLibraryFilename(inName)) {
return renameLibraryForCrazyLinker(inName);
}
return inName;
}
/**
* Comparator used to sort jar entries from the input file.
* Sorting is done based on the output filename (which maybe renamed).
* Filenames are in natural string order, except that filenames matching
* the meta-file pattern are always after other files. This is so the manifest
* and signature are at the end of the file after any alignment file.
*/
private static class EntryComparator implements Comparator<JarEntry> {
private boolean mRename;
public EntryComparator(boolean rename) {
mRename = rename;
}
@Override
public int compare(JarEntry j1, JarEntry j2) {
String o1 = outputName(j1, mRename);
String o2 = outputName(j2, mRename);
boolean o1Matches = sMetaFilePattern.matcher(o1).matches();
boolean o2Matches = sMetaFilePattern.matcher(o2).matches();
if (o1Matches != o2Matches) {
return o1Matches ? 1 : -1;
} else {
return o1.compareTo(o2);
}
}
}
// Build an ordered list of jar entries. The jar entries from the input are
// sorted based on the output filenames (which maybe renamed). If |omitMetaFiles|
// is true do not include the jar entries for the META-INF files.
// Entries are ordered in the deterministic order used by SignApk.
private static List<JarEntry> getOutputFileOrderEntries(
JarFile jar, boolean omitMetaFiles, boolean rename) {
List<JarEntry> entries = new ArrayList<JarEntry>();
for (Enumeration<JarEntry> e = jar.entries(); e.hasMoreElements(); ) {
JarEntry entry = e.nextElement();
if (entry.isDirectory()) {
continue;
}
if (omitMetaFiles && sMetaFilePattern.matcher(entry.getName()).matches()) {
continue;
}
entries.add(entry);
}
// We sort the input entries by name. When present META-INF files
// are sorted to the end.
Collections.sort(entries, new EntryComparator(rename));
return entries;
}
/**
* Add a zero filled alignment file at this point in the zip file,
* The added file will be added before |name| and after |prevName|.
* The size of the alignment file is such that the location of the
* file |name| will be on a LIBRARY_ALIGNMENT boundary.
*
* Note this arrangement is devised so that running SignApk and/or zipalign on the resulting
* file will not alter the alignment.
*
* @param offset number of bytes into the output file at this point.
* @param timestamp time in millis since the epoch to include in the header.
* @param name the name of the library filename.
* @param prevName the name of the previous file in the archive (or null).
* @param out jar output stream to write the alignment file to.
*
* @throws IOException if the output file can not be written.
*/
private static void addAlignmentFile(
long offset, long timestamp, String name, String prevName,
JarOutputStream out) throws IOException {
// Compute the start and alignment of the library, as if it was next.
int headerSize = JarFile.LOCHDR + name.length();
long libOffset = offset + headerSize;
int libNeeded = LIBRARY_ALIGNMENT - (int) (libOffset % LIBRARY_ALIGNMENT);
if (libNeeded == LIBRARY_ALIGNMENT) {
// Already aligned, no need to added alignment file.
return;
}
// Check that there is not another file between the library and the
// alignment file.
String alignName = name.substring(0, name.length() - 2) + "align";
if (prevName != null && prevName.compareTo(alignName) >= 0) {
throw new UnsupportedOperationException(
"Unable to insert alignment file, because there is "
+ "another file in front of the file to be aligned. "
+ "Other file: " + prevName + " Alignment file: " + alignName
+ " file: " + name);
}
// Compute the size of the alignment file header.
headerSize = JarFile.LOCHDR + alignName.length();
// We are going to add an alignment file of type STORED. This file
// will itself induce a zipalign alignment adjustment.
int extraNeeded =
(ALIGNMENT - (int) ((offset + headerSize) % ALIGNMENT)) % ALIGNMENT;
headerSize += extraNeeded;
if (libNeeded < headerSize + 1) {
// The header was bigger than the alignment that we need, add another page.
libNeeded += LIBRARY_ALIGNMENT;
}
// Compute the size of the alignment file.
libNeeded -= headerSize;
// Build the header for the alignment file.
byte[] zeroBuffer = new byte[libNeeded];
JarEntry alignEntry = new JarEntry(alignName);
alignEntry.setMethod(JarEntry.STORED);
alignEntry.setSize(libNeeded);
alignEntry.setTime(timestamp);
CRC32 crc = new CRC32();
crc.update(zeroBuffer);
alignEntry.setCrc(crc.getValue());
if (extraNeeded != 0) {
alignEntry.setExtra(new byte[extraNeeded]);
}
// Output the alignment file.
out.putNextEntry(alignEntry);
out.write(zeroBuffer);
out.closeEntry();
out.flush();
}
// Make a JarEntry for the output file which corresponds to the input
// file. The output file will be called |name|. The output file will always
// be uncompressed (STORED). If the input is not STORED it is necessary to inflate
// it to compute the CRC and size of the output entry.
private static JarEntry makeStoredEntry(String name, JarEntry inEntry, JarFile in)
throws IOException {
JarEntry outEntry = new JarEntry(name);
outEntry.setMethod(JarEntry.STORED);
if (inEntry.getMethod() == JarEntry.STORED) {
outEntry.setCrc(inEntry.getCrc());
outEntry.setSize(inEntry.getSize());
} else {
// We are inflating the file. We need to compute the CRC and size.
byte[] buffer = new byte[4096];
CRC32 crc = new CRC32();
int size = 0;
int num;
InputStream data = in.getInputStream(inEntry);
while ((num = data.read(buffer)) > 0) {
crc.update(buffer, 0, num);
size += num;
}
data.close();
outEntry.setCrc(crc.getValue());
outEntry.setSize(size);
}
return outEntry;
}
/**
* Copy the contents of the input APK file to the output APK file. If |rename| is
* true then non-empty libraries (*.so) in the input will be renamed by prefixing
* "crazy.". This is done to prevent the Android Package Manager extracting the
* library. Note the crazy linker itself is not renamed, for bootstrapping reasons.
* Empty libraries are not renamed (they are in the APK to workaround a bug where
* the Android Package Manager fails to delete old versions when upgrading).
* There must be exactly one "crazy" library in the output stream. The "crazy"
* library will be uncompressed and page aligned in the output stream. Page
* alignment is implemented by adding a zero filled file, regular alignment is
* implemented by adding a zero filled extra field to the zip file header. If
* |addAlignment| is true a page alignment file is added, otherwise the "crazy"
* library must already be page aligned. Care is taken so that the output is generated
* in the same way as SignApk. This is important so that running SignApk and
* zipalign on the output does not break the page alignment. The archive may not
* contain a "*.apk" as SignApk has special nested signing logic that we do not
* support.
*
* @param in The input APK File.
* @param out The output APK stream.
* @param countOut Counting output stream (to measure the current offset).
* @param addAlignment Whether to add the alignment file or just check.
* @param rename Whether to rename libraries to be "crazy".
*
* @throws IOException if the output file can not be written.
*/
private static void rezip(
JarFile in, JarOutputStream out, CountingOutputStream countOut,
boolean addAlignment, boolean rename) throws IOException {
List<JarEntry> entries = getOutputFileOrderEntries(in, addAlignment, rename);
long timestamp = System.currentTimeMillis();
byte[] buffer = new byte[4096];
boolean firstEntry = true;
String prevName = null;
int numCrazy = 0;
for (JarEntry inEntry : entries) {
// Rename files, if specied.
String name = outputName(inEntry, rename);
if (name.endsWith(".apk")) {
throw new UnsupportedOperationException(
"Nested APKs are not supported: " + name);
}
// Build the header.
JarEntry outEntry = null;
boolean isCrazy = isCrazyLibraryFilename(name);
if (isCrazy) {
// "crazy" libraries are alway output uncompressed (STORED).
outEntry = makeStoredEntry(name, inEntry, in);
numCrazy++;
if (numCrazy > 1) {
throw new UnsupportedOperationException(
"Found more than one library\n"
+ "Multiple libraries are not supported for APKs that use "
+ "'load_library_from_zip'.\n"
+ "See crbug/388223.\n"
+ "Note, check that your build is clean.\n"
+ "An unclean build can incorrectly incorporate old "
+ "libraries in the APK.");
}
} else if (inEntry.getMethod() == JarEntry.STORED) {
// Preserve the STORED method of the input entry.
outEntry = new JarEntry(inEntry);
outEntry.setExtra(null);
} else {
// Create a new entry so that the compressed len is recomputed.
outEntry = new JarEntry(name);
}
outEntry.setTime(timestamp);
// Compute and add alignment
long offset = countOut.getCount();
if (firstEntry) {
// The first entry in a jar file has an extra field of
// four bytes that you can't get rid of; any extra
// data you specify in the JarEntry is appended to
// these forced four bytes. This is JAR_MAGIC in
// JarOutputStream; the bytes are 0xfeca0000.
firstEntry = false;
offset += 4;
}
if (outEntry.getMethod() == JarEntry.STORED) {
if (isCrazy) {
if (addAlignment) {
addAlignmentFile(offset, timestamp, name, prevName, out);
}
// We check that we did indeed get to a page boundary.
offset = countOut.getCount() + JarFile.LOCHDR + name.length();
if ((offset % LIBRARY_ALIGNMENT) != 0) {
throw new AssertionError(
"Library was not page aligned when verifying page alignment. "
+ "Library name: " + name + " Expected alignment: "
+ LIBRARY_ALIGNMENT + "Offset: " + offset + " Error: "
+ (offset % LIBRARY_ALIGNMENT));
}
} else {
// This is equivalent to zipalign.
offset += JarFile.LOCHDR + name.length();
int needed = (ALIGNMENT - (int) (offset % ALIGNMENT)) % ALIGNMENT;
if (needed != 0) {
outEntry.setExtra(new byte[needed]);
}
}
}
out.putNextEntry(outEntry);
// Copy the data from the input to the output
int num;
InputStream data = in.getInputStream(inEntry);
while ((num = data.read(buffer)) > 0) {
out.write(buffer, 0, num);
}
data.close();
out.closeEntry();
out.flush();
prevName = name;
}
if (numCrazy == 0) {
throw new AssertionError("There was no crazy library in the archive");
}
}
private static void usage() {
System.err.println("Usage: prealignapk (addalignment|reorder) input.apk output.apk");
System.err.println("\"crazy\" libraries are always inflated in the output");
System.err.println(
" renamealign - rename libraries with \"crazy.\" prefix and add alignment file");
System.err.println(" align - add alignment file");
System.err.println(" reorder - re-creates canonical ordering and checks alignment");
System.exit(2);
}
public static void main(String[] args) throws IOException {
if (args.length != 3) usage();
boolean addAlignment = false;
boolean rename = false;
if (args[0].equals("renamealign")) {
// Normal case. Before signing we rename the library and add an alignment file.
addAlignment = true;
rename = true;
} else if (args[0].equals("align")) {
// LGPL compliance case. Before signing, we add an alignment file to a
// reconstructed APK which already contains the "crazy" library.
addAlignment = true;
rename = false;
} else if (args[0].equals("reorder")) {
// Normal case. After jarsigning we write the file in the canonical order and check.
addAlignment = false;
} else {
usage();
}
String inputFilename = args[1];
String outputFilename = args[2];
JarFile inputJar = null;
FileOutputStream outputFile = null;
try {
inputJar = new JarFile(new File(inputFilename), true);
outputFile = new FileOutputStream(outputFilename);
CountingOutputStream outCount = new CountingOutputStream(outputFile);
JarOutputStream outputJar = new JarOutputStream(outCount);
// Match the compression level used by SignApk.
outputJar.setLevel(9);
rezip(inputJar, outputJar, outCount, addAlignment, rename);
outputJar.close();
} finally {
if (inputJar != null) inputJar.close();
if (outputFile != null) outputFile.close();
}
}
}

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@ -32,6 +32,7 @@ _java_target_whitelist = [
# TODO(agrieve): Rename targets below to match above patterns.
"*android_webview/glue:glue",
"//build/android/rezip:rezip",
"//chrome/test/android/cast_emulator:cast_emulator",
]
@ -1384,6 +1385,7 @@ if (enable_java_templates) {
# keystore_path: Path to keystore to use for signing.
# keystore_name: Key alias to use.
# keystore_password: Keystore password.
# rezip_apk: Whether to add crazy-linker alignment.
template("finalize_apk") {
action(target_name) {
deps = []
@ -1426,6 +1428,20 @@ if (enable_java_templates) {
"--key-passwd",
invoker.keystore_password,
]
if (defined(invoker.rezip_apk) && invoker.rezip_apk) {
deps += [ "//build/android/rezip" ]
_rezip_jar_path = "$root_build_dir/lib.java/rezip_apk.jar"
args += [
"--load-library-from-zip=1",
"--rezip-apk-jar-path",
rebase_path(_rezip_jar_path, root_build_dir),
]
}
if (defined(invoker.page_align_shared_libraries) &&
invoker.page_align_shared_libraries) {
args += [ "--page-align-shared-libraries" ]
}
}
}
@ -1668,9 +1684,6 @@ if (enable_java_templates) {
"uncompress_shared_libraries",
"write_asset_list",
])
if (!defined(uncompress_shared_libraries)) {
uncompress_shared_libraries = _load_library_from_apk
}
deps = _deps + [ ":${_package_resources_target_name}" ]
native_libs = _native_libs + _native_libs_even_when_incremental
@ -1691,9 +1704,6 @@ if (enable_java_templates) {
"secondary_native_libs",
"uncompress_shared_libraries",
])
if (!defined(uncompress_shared_libraries)) {
uncompress_shared_libraries = _load_library_from_apk
}
_dex_target = "//build/android/incremental_install:bootstrap_java__dex"
deps = _incremental_deps + [
":${_incremental_package_resources_target_name}",
@ -1720,11 +1730,14 @@ if (enable_java_templates) {
_finalize_apk_rule_name = "${target_name}__finalize"
finalize_apk(_finalize_apk_rule_name) {
forward_variables_from(invoker, [ "page_align_shared_libraries" ])
input_apk_path = _packaged_apk_path
output_apk_path = _final_apk_path
keystore_path = _keystore_path
keystore_name = _keystore_name
keystore_password = _keystore_password
rezip_apk = _load_library_from_apk
public_deps = [
# Generator of the _packaged_apk_path this target takes as input.

Просмотреть файл

@ -2007,7 +2007,15 @@ if (enable_java_templates) {
_extra_native_libs_deps = []
assert(_extra_native_libs_deps == []) # Mark as used.
_extra_native_libs_even_when_incremental = []
_extra_native_libs_even_when_incremental_deps = []
assert(_extra_native_libs_even_when_incremental_deps == []) # Mark as used.
if (_native_libs_deps != []) {
# zipalign can't align gdb_server, don't pack gdbserver temporarily.
if (is_debug && (!defined(invoker.page_align_shared_libraries) ||
!invoker.page_align_shared_libraries)) {
_extra_native_libs_even_when_incremental = [ android_gdbserver ]
}
if (_use_chromium_linker) {
_extra_native_libs =
[ "$root_shlib_dir/libchromium_android_linker$shlib_extension" ]
@ -2029,6 +2037,7 @@ if (enable_java_templates) {
"deps",
"extensions_to_not_compress",
"language_splits",
"page_align_shared_libraries",
"public_deps",
"secondary_native_libs",
"shared_resources",
@ -2078,6 +2087,7 @@ if (enable_java_templates) {
_extra_native_libs_even_when_incremental != []) &&
!_create_abi_split) {
deps += _native_libs_deps + _extra_native_libs_deps +
_extra_native_libs_even_when_incremental_deps +
[ _native_libs_file_arg_dep ]
native_libs_filearg = _native_libs_file_arg
native_libs = _extra_native_libs
@ -2138,7 +2148,9 @@ if (enable_java_templates) {
"public_deps",
])
incremental_deps = deps + [ ":$_manifest_rule" ]
incremental_deps =
deps + _extra_native_libs_even_when_incremental_deps +
[ ":$_manifest_rule" ]
deps = []
deps = incremental_deps + _native_libs_deps + _extra_native_libs_deps +
[ _native_libs_file_arg_dep ]