blob: 27e60f3b85d7a9971de88f009623a7b5af3a7369 [file] [log] [blame]
//
// Copyright 2006 The Android Open Source Project
//
// Android Asset Packaging Tool main entry point.
//
#include "AaptXml.h"
#include "ApkBuilder.h"
#include "Bundle.h"
#include "Images.h"
#include "Main.h"
#include "ResourceFilter.h"
#include "ResourceTable.h"
#include "XMLNode.h"
#include <utils/Errors.h>
#include <utils/KeyedVector.h>
#include <utils/List.h>
#include <utils/Log.h>
#include <utils/SortedVector.h>
#include <utils/threads.h>
#include <utils/Vector.h>
#include <errno.h>
#include <fcntl.h>
using namespace android;
#ifndef AAPT_VERSION
#define AAPT_VERSION ""
#endif
/*
* Show version info. All the cool kids do it.
*/
int doVersion(Bundle* bundle)
{
if (bundle->getFileSpecCount() != 0) {
printf("(ignoring extra arguments)\n");
}
printf("Android Asset Packaging Tool, v0.2-" AAPT_VERSION "\n");
return 0;
}
/*
* Open the file read only. The call fails if the file doesn't exist.
*
* Returns NULL on failure.
*/
ZipFile* openReadOnly(const char* fileName)
{
ZipFile* zip;
status_t result;
zip = new ZipFile;
result = zip->open(fileName, ZipFile::kOpenReadOnly);
if (result != NO_ERROR) {
if (result == NAME_NOT_FOUND) {
fprintf(stderr, "ERROR: '%s' not found\n", fileName);
} else if (result == PERMISSION_DENIED) {
fprintf(stderr, "ERROR: '%s' access denied\n", fileName);
} else {
fprintf(stderr, "ERROR: failed opening '%s' as Zip file\n",
fileName);
}
delete zip;
return NULL;
}
return zip;
}
/*
* Open the file read-write. The file will be created if it doesn't
* already exist and "okayToCreate" is set.
*
* Returns NULL on failure.
*/
ZipFile* openReadWrite(const char* fileName, bool okayToCreate)
{
ZipFile* zip = NULL;
status_t result;
int flags;
flags = ZipFile::kOpenReadWrite;
if (okayToCreate) {
flags |= ZipFile::kOpenCreate;
}
zip = new ZipFile;
result = zip->open(fileName, flags);
if (result != NO_ERROR) {
delete zip;
zip = NULL;
goto bail;
}
bail:
return zip;
}
/*
* Return a short string describing the compression method.
*/
const char* compressionName(int method)
{
if (method == ZipEntry::kCompressStored) {
return "Stored";
} else if (method == ZipEntry::kCompressDeflated) {
return "Deflated";
} else {
return "Unknown";
}
}
/*
* Return the percent reduction in size (0% == no compression).
*/
int calcPercent(long uncompressedLen, long compressedLen)
{
if (!uncompressedLen) {
return 0;
} else {
return (int) (100.0 - (compressedLen * 100.0) / uncompressedLen + 0.5);
}
}
/*
* Handle the "list" command, which can be a simple file dump or
* a verbose listing.
*
* The verbose listing closely matches the output of the Info-ZIP "unzip"
* command.
*/
int doList(Bundle* bundle)
{
int result = 1;
ZipFile* zip = NULL;
const ZipEntry* entry;
long totalUncLen, totalCompLen;
const char* zipFileName;
if (bundle->getFileSpecCount() != 1) {
fprintf(stderr, "ERROR: specify zip file name (only)\n");
goto bail;
}
zipFileName = bundle->getFileSpecEntry(0);
zip = openReadOnly(zipFileName);
if (zip == NULL) {
goto bail;
}
int count, i;
if (bundle->getVerbose()) {
printf("Archive: %s\n", zipFileName);
printf(
" Length Method Size Ratio Offset Date Time CRC-32 Name\n");
printf(
"-------- ------ ------- ----- ------- ---- ---- ------ ----\n");
}
totalUncLen = totalCompLen = 0;
count = zip->getNumEntries();
for (i = 0; i < count; i++) {
entry = zip->getEntryByIndex(i);
if (bundle->getVerbose()) {
char dateBuf[32];
time_t when;
when = entry->getModWhen();
strftime(dateBuf, sizeof(dateBuf), "%m-%d-%y %H:%M",
localtime(&when));
printf("%8ld %-7.7s %7ld %3d%% %8zd %s %08lx %s\n",
(long) entry->getUncompressedLen(),
compressionName(entry->getCompressionMethod()),
(long) entry->getCompressedLen(),
calcPercent(entry->getUncompressedLen(),
entry->getCompressedLen()),
(size_t) entry->getLFHOffset(),
dateBuf,
entry->getCRC32(),
entry->getFileName());
} else {
printf("%s\n", entry->getFileName());
}
totalUncLen += entry->getUncompressedLen();
totalCompLen += entry->getCompressedLen();
}
if (bundle->getVerbose()) {
printf(
"-------- ------- --- -------\n");
printf("%8ld %7ld %2d%% %d files\n",
totalUncLen,
totalCompLen,
calcPercent(totalUncLen, totalCompLen),
zip->getNumEntries());
}
if (bundle->getAndroidList()) {
AssetManager assets;
if (!assets.addAssetPath(String8(zipFileName), NULL)) {
fprintf(stderr, "ERROR: list -a failed because assets could not be loaded\n");
goto bail;
}
const ResTable& res = assets.getResources(false);
if (&res == NULL) {
printf("\nNo resource table found.\n");
} else {
#ifndef HAVE_ANDROID_OS
printf("\nResource table:\n");
res.print(false);
#endif
}
Asset* manifestAsset = assets.openNonAsset("AndroidManifest.xml",
Asset::ACCESS_BUFFER);
if (manifestAsset == NULL) {
printf("\nNo AndroidManifest.xml found.\n");
} else {
printf("\nAndroid manifest:\n");
ResXMLTree tree;
tree.setTo(manifestAsset->getBuffer(true),
manifestAsset->getLength());
printXMLBlock(&tree);
}
delete manifestAsset;
}
result = 0;
bail:
delete zip;
return result;
}
static void printResolvedResourceAttribute(const ResTable& resTable, const ResXMLTree& tree,
uint32_t attrRes, String8 attrLabel, String8* outError)
{
Res_value value;
AaptXml::getResolvedResourceAttribute(resTable, tree, attrRes, &value, outError);
if (*outError != "") {
*outError = "error print resolved resource attribute";
return;
}
if (value.dataType == Res_value::TYPE_STRING) {
String8 result = AaptXml::getResolvedAttribute(resTable, tree, attrRes, outError);
printf("%s='%s'", attrLabel.string(),
ResTable::normalizeForOutput(result.string()).string());
} else if (Res_value::TYPE_FIRST_INT <= value.dataType &&
value.dataType <= Res_value::TYPE_LAST_INT) {
printf("%s='%d'", attrLabel.string(), value.data);
} else {
printf("%s='0x%x'", attrLabel.string(), (int)value.data);
}
}
// These are attribute resource constants for the platform, as found
// in android.R.attr
enum {
LABEL_ATTR = 0x01010001,
ICON_ATTR = 0x01010002,
NAME_ATTR = 0x01010003,
PERMISSION_ATTR = 0x01010006,
EXPORTED_ATTR = 0x01010010,
GRANT_URI_PERMISSIONS_ATTR = 0x0101001b,
RESOURCE_ATTR = 0x01010025,
DEBUGGABLE_ATTR = 0x0101000f,
VALUE_ATTR = 0x01010024,
VERSION_CODE_ATTR = 0x0101021b,
VERSION_NAME_ATTR = 0x0101021c,
SCREEN_ORIENTATION_ATTR = 0x0101001e,
MIN_SDK_VERSION_ATTR = 0x0101020c,
MAX_SDK_VERSION_ATTR = 0x01010271,
REQ_TOUCH_SCREEN_ATTR = 0x01010227,
REQ_KEYBOARD_TYPE_ATTR = 0x01010228,
REQ_HARD_KEYBOARD_ATTR = 0x01010229,
REQ_NAVIGATION_ATTR = 0x0101022a,
REQ_FIVE_WAY_NAV_ATTR = 0x01010232,
TARGET_SDK_VERSION_ATTR = 0x01010270,
TEST_ONLY_ATTR = 0x01010272,
ANY_DENSITY_ATTR = 0x0101026c,
GL_ES_VERSION_ATTR = 0x01010281,
SMALL_SCREEN_ATTR = 0x01010284,
NORMAL_SCREEN_ATTR = 0x01010285,
LARGE_SCREEN_ATTR = 0x01010286,
XLARGE_SCREEN_ATTR = 0x010102bf,
REQUIRED_ATTR = 0x0101028e,
INSTALL_LOCATION_ATTR = 0x010102b7,
SCREEN_SIZE_ATTR = 0x010102ca,
SCREEN_DENSITY_ATTR = 0x010102cb,
REQUIRES_SMALLEST_WIDTH_DP_ATTR = 0x01010364,
COMPATIBLE_WIDTH_LIMIT_DP_ATTR = 0x01010365,
LARGEST_WIDTH_LIMIT_DP_ATTR = 0x01010366,
PUBLIC_KEY_ATTR = 0x010103a6,
CATEGORY_ATTR = 0x010103e8,
BANNER_ATTR = 0x10103f2,
};
String8 getComponentName(String8 &pkgName, String8 &componentName) {
ssize_t idx = componentName.find(".");
String8 retStr(pkgName);
if (idx == 0) {
retStr += componentName;
} else if (idx < 0) {
retStr += ".";
retStr += componentName;
} else {
return componentName;
}
return retStr;
}
static void printCompatibleScreens(ResXMLTree& tree, String8* outError) {
size_t len;
ResXMLTree::event_code_t code;
int depth = 0;
bool first = true;
printf("compatible-screens:");
while ((code=tree.next()) != ResXMLTree::END_DOCUMENT && code != ResXMLTree::BAD_DOCUMENT) {
if (code == ResXMLTree::END_TAG) {
depth--;
if (depth < 0) {
break;
}
continue;
}
if (code != ResXMLTree::START_TAG) {
continue;
}
depth++;
const char16_t* ctag16 = tree.getElementName(&len);
if (ctag16 == NULL) {
*outError = "failed to get XML element name (bad string pool)";
return;
}
String8 tag(ctag16);
if (tag == "screen") {
int32_t screenSize = AaptXml::getIntegerAttribute(tree,
SCREEN_SIZE_ATTR);
int32_t screenDensity = AaptXml::getIntegerAttribute(tree,
SCREEN_DENSITY_ATTR);
if (screenSize > 0 && screenDensity > 0) {
if (!first) {
printf(",");
}
first = false;
printf("'%d/%d'", screenSize, screenDensity);
}
}
}
printf("\n");
}
static void printUsesPermission(const String8& name, bool optional=false, int maxSdkVersion=-1) {
printf("uses-permission: name='%s'", ResTable::normalizeForOutput(name.string()).string());
if (maxSdkVersion != -1) {
printf(" maxSdkVersion='%d'", maxSdkVersion);
}
printf("\n");
if (optional) {
printf("optional-permission: name='%s'",
ResTable::normalizeForOutput(name.string()).string());
if (maxSdkVersion != -1) {
printf(" maxSdkVersion='%d'", maxSdkVersion);
}
printf("\n");
}
}
static void printUsesImpliedPermission(const String8& name, const String8& reason) {
printf("uses-implied-permission: name='%s' reason='%s'\n",
ResTable::normalizeForOutput(name.string()).string(),
ResTable::normalizeForOutput(reason.string()).string());
}
Vector<String8> getNfcAidCategories(AssetManager& assets, String8 xmlPath, bool offHost,
String8 *outError = NULL)
{
Asset* aidAsset = assets.openNonAsset(xmlPath, Asset::ACCESS_BUFFER);
if (aidAsset == NULL) {
if (outError != NULL) *outError = "xml resource does not exist";
return Vector<String8>();
}
const String8 serviceTagName(offHost ? "offhost-apdu-service" : "host-apdu-service");
bool withinApduService = false;
Vector<String8> categories;
String8 error;
ResXMLTree tree;
tree.setTo(aidAsset->getBuffer(true), aidAsset->getLength());
size_t len;
int depth = 0;
ResXMLTree::event_code_t code;
while ((code=tree.next()) != ResXMLTree::END_DOCUMENT && code != ResXMLTree::BAD_DOCUMENT) {
if (code == ResXMLTree::END_TAG) {
depth--;
const char16_t* ctag16 = tree.getElementName(&len);
if (ctag16 == NULL) {
*outError = "failed to get XML element name (bad string pool)";
return Vector<String8>();
}
String8 tag(ctag16);
if (depth == 0 && tag == serviceTagName) {
withinApduService = false;
}
} else if (code == ResXMLTree::START_TAG) {
depth++;
const char16_t* ctag16 = tree.getElementName(&len);
if (ctag16 == NULL) {
*outError = "failed to get XML element name (bad string pool)";
return Vector<String8>();
}
String8 tag(ctag16);
if (depth == 1) {
if (tag == serviceTagName) {
withinApduService = true;
}
} else if (depth == 2 && withinApduService) {
if (tag == "aid-group") {
String8 category = AaptXml::getAttribute(tree, CATEGORY_ATTR, &error);
if (error != "") {
if (outError != NULL) *outError = error;
return Vector<String8>();
}
categories.add(category);
}
}
}
}
aidAsset->close();
return categories;
}
static void printComponentPresence(const char* componentName) {
printf("provides-component:'%s'\n", componentName);
}
/**
* Represents a feature that has been automatically added due to
* a pre-requisite or some other reason.
*/
struct ImpliedFeature {
/**
* Name of the implied feature.
*/
String8 name;
/**
* List of human-readable reasons for why this feature was implied.
*/
SortedVector<String8> reasons;
};
/**
* Represents a <feature-group> tag in the AndroidManifest.xml
*/
struct FeatureGroup {
FeatureGroup() : openGLESVersion(-1) {}
/**
* Human readable label
*/
String8 label;
/**
* Explicit features defined in the group
*/
KeyedVector<String8, bool> features;
/**
* OpenGL ES version required
*/
int openGLESVersion;
};
static void addImpliedFeature(KeyedVector<String8, ImpliedFeature>* impliedFeatures,
const char* name, const char* reason) {
String8 name8(name);
ssize_t idx = impliedFeatures->indexOfKey(name8);
if (idx < 0) {
idx = impliedFeatures->add(name8, ImpliedFeature());
impliedFeatures->editValueAt(idx).name = name8;
}
impliedFeatures->editValueAt(idx).reasons.add(String8(reason));
}
static void printFeatureGroup(const FeatureGroup& grp,
const KeyedVector<String8, ImpliedFeature>* impliedFeatures = NULL) {
printf("feature-group: label='%s'\n", grp.label.string());
if (grp.openGLESVersion > 0) {
printf(" uses-gl-es: '0x%x'\n", grp.openGLESVersion);
}
const size_t numFeatures = grp.features.size();
for (size_t i = 0; i < numFeatures; i++) {
if (!grp.features[i]) {
continue;
}
const String8& featureName = grp.features.keyAt(i);
printf(" uses-feature: name='%s'\n",
ResTable::normalizeForOutput(featureName.string()).string());
}
const size_t numImpliedFeatures =
(impliedFeatures != NULL) ? impliedFeatures->size() : 0;
for (size_t i = 0; i < numImpliedFeatures; i++) {
const ImpliedFeature& impliedFeature = impliedFeatures->valueAt(i);
if (grp.features.indexOfKey(impliedFeature.name) >= 0) {
// The feature is explicitly set, no need to use implied
// definition.
continue;
}
String8 printableFeatureName(ResTable::normalizeForOutput(
impliedFeature.name.string()));
printf(" uses-feature: name='%s'\n", printableFeatureName.string());
printf(" uses-implied-feature: name='%s' reason='",
printableFeatureName.string());
const size_t numReasons = impliedFeature.reasons.size();
for (size_t j = 0; j < numReasons; j++) {
printf("%s", impliedFeature.reasons[j].string());
if (j + 2 < numReasons) {
printf(", ");
} else if (j + 1 < numReasons) {
printf(", and ");
}
}
printf("'\n");
}
}
static void addParentFeatures(FeatureGroup* grp, const String8& name) {
if (name == "android.hardware.camera.autofocus" ||
name == "android.hardware.camera.flash") {
grp->features.add(String8("android.hardware.camera"), true);
} else if (name == "android.hardware.location.gps" ||
name == "android.hardware.location.network") {
grp->features.add(String8("android.hardware.location"), true);
} else if (name == "android.hardware.touchscreen.multitouch") {
grp->features.add(String8("android.hardware.touchscreen"), true);
} else if (name == "android.hardware.touchscreen.multitouch.distinct") {
grp->features.add(String8("android.hardware.touchscreen.multitouch"), true);
grp->features.add(String8("android.hardware.touchscreen"), true);
} else if (name == "android.hardware.opengles.aep") {
const int openGLESVersion31 = 0x00030001;
if (openGLESVersion31 > grp->openGLESVersion) {
grp->openGLESVersion = openGLESVersion31;
}
}
}
/*
* Handle the "dump" command, to extract select data from an archive.
*/
extern char CONSOLE_DATA[2925]; // see EOF
int doDump(Bundle* bundle)
{
status_t result = UNKNOWN_ERROR;
if (bundle->getFileSpecCount() < 1) {
fprintf(stderr, "ERROR: no dump option specified\n");
return 1;
}
if (bundle->getFileSpecCount() < 2) {
fprintf(stderr, "ERROR: no dump file specified\n");
return 1;
}
const char* option = bundle->getFileSpecEntry(0);
const char* filename = bundle->getFileSpecEntry(1);
AssetManager assets;
int32_t assetsCookie;
if (!assets.addAssetPath(String8(filename), &assetsCookie)) {
fprintf(stderr, "ERROR: dump failed because assets could not be loaded\n");
return 1;
}
// Make a dummy config for retrieving resources... we need to supply
// non-default values for some configs so that we can retrieve resources
// in the app that don't have a default. The most important of these is
// the API version because key resources like icons will have an implicit
// version if they are using newer config types like density.
ResTable_config config;
memset(&config, 0, sizeof(ResTable_config));
config.language[0] = 'e';
config.language[1] = 'n';
config.country[0] = 'U';
config.country[1] = 'S';
config.orientation = ResTable_config::ORIENTATION_PORT;
config.density = ResTable_config::DENSITY_MEDIUM;
config.sdkVersion = 10000; // Very high.
config.screenWidthDp = 320;
config.screenHeightDp = 480;
config.smallestScreenWidthDp = 320;
config.screenLayout |= ResTable_config::SCREENSIZE_NORMAL;
assets.setConfiguration(config);
const ResTable& res = assets.getResources(false);
if (&res == NULL) {
fprintf(stderr, "ERROR: dump failed because no resource table was found\n");
return 1;
} else if (res.getError() != NO_ERROR) {
fprintf(stderr, "ERROR: dump failed because the resource table is invalid/corrupt.\n");
return 1;
}
// The dynamicRefTable can be null if there are no resources for this asset cookie.
// This fine.
const DynamicRefTable* dynamicRefTable = res.getDynamicRefTableForCookie(assetsCookie);
Asset* asset = NULL;
if (strcmp("resources", option) == 0) {
#ifndef HAVE_ANDROID_OS
res.print(bundle->getValues());
#endif
} else if (strcmp("strings", option) == 0) {
const ResStringPool* pool = res.getTableStringBlock(0);
printStringPool(pool);
} else if (strcmp("xmltree", option) == 0) {
if (bundle->getFileSpecCount() < 3) {
fprintf(stderr, "ERROR: no dump xmltree resource file specified\n");
goto bail;
}
for (int i=2; i<bundle->getFileSpecCount(); i++) {
const char* resname = bundle->getFileSpecEntry(i);
ResXMLTree tree(dynamicRefTable);
asset = assets.openNonAsset(assetsCookie, resname, Asset::ACCESS_BUFFER);
if (asset == NULL) {
fprintf(stderr, "ERROR: dump failed because resource %s found\n", resname);
goto bail;
}
if (tree.setTo(asset->getBuffer(true),
asset->getLength()) != NO_ERROR) {
fprintf(stderr, "ERROR: Resource %s is corrupt\n", resname);
goto bail;
}
tree.restart();
printXMLBlock(&tree);
tree.uninit();
delete asset;
asset = NULL;
}
} else if (strcmp("xmlstrings", option) == 0) {
if (bundle->getFileSpecCount() < 3) {
fprintf(stderr, "ERROR: no dump xmltree resource file specified\n");
goto bail;
}
for (int i=2; i<bundle->getFileSpecCount(); i++) {
const char* resname = bundle->getFileSpecEntry(i);
asset = assets.openNonAsset(assetsCookie, resname, Asset::ACCESS_BUFFER);
if (asset == NULL) {
fprintf(stderr, "ERROR: dump failed because resource %s found\n", resname);
goto bail;
}
ResXMLTree tree(dynamicRefTable);
if (tree.setTo(asset->getBuffer(true),
asset->getLength()) != NO_ERROR) {
fprintf(stderr, "ERROR: Resource %s is corrupt\n", resname);
goto bail;
}
printStringPool(&tree.getStrings());
delete asset;
asset = NULL;
}
} else {
asset = assets.openNonAsset(assetsCookie, "AndroidManifest.xml", Asset::ACCESS_BUFFER);
if (asset == NULL) {
fprintf(stderr, "ERROR: dump failed because no AndroidManifest.xml found\n");
goto bail;
}
ResXMLTree tree(dynamicRefTable);
if (tree.setTo(asset->getBuffer(true),
asset->getLength()) != NO_ERROR) {
fprintf(stderr, "ERROR: AndroidManifest.xml is corrupt\n");
goto bail;
}
tree.restart();
if (strcmp("permissions", option) == 0) {
size_t len;
ResXMLTree::event_code_t code;
int depth = 0;
while ((code=tree.next()) != ResXMLTree::END_DOCUMENT && code != ResXMLTree::BAD_DOCUMENT) {
if (code == ResXMLTree::END_TAG) {
depth--;
continue;
}
if (code != ResXMLTree::START_TAG) {
continue;
}
depth++;
const char16_t* ctag16 = tree.getElementName(&len);
if (ctag16 == NULL) {
fprintf(stderr, "ERROR: failed to get XML element name (bad string pool)\n");
goto bail;
}
String8 tag(ctag16);
//printf("Depth %d tag %s\n", depth, tag.string());
if (depth == 1) {
if (tag != "manifest") {
fprintf(stderr, "ERROR: manifest does not start with <manifest> tag\n");
goto bail;
}
String8 pkg = AaptXml::getAttribute(tree, NULL, "package", NULL);
printf("package: %s\n", ResTable::normalizeForOutput(pkg.string()).string());
} else if (depth == 2 && tag == "permission") {
String8 error;
String8 name = AaptXml::getAttribute(tree, NAME_ATTR, &error);
if (error != "") {
fprintf(stderr, "ERROR: %s\n", error.string());
goto bail;
}
printf("permission: %s\n",
ResTable::normalizeForOutput(name.string()).string());
} else if (depth == 2 && tag == "uses-permission") {
String8 error;
String8 name = AaptXml::getAttribute(tree, NAME_ATTR, &error);
if (error != "") {
fprintf(stderr, "ERROR: %s\n", error.string());
goto bail;
}
printUsesPermission(name,
AaptXml::getIntegerAttribute(tree, REQUIRED_ATTR, 1) == 0,
AaptXml::getIntegerAttribute(tree, MAX_SDK_VERSION_ATTR));
}
}
} else if (strcmp("badging", option) == 0) {
Vector<String8> locales;
res.getLocales(&locales);
Vector<ResTable_config> configs;
res.getConfigurations(&configs);
SortedVector<int> densities;
const size_t NC = configs.size();
for (size_t i=0; i<NC; i++) {
int dens = configs[i].density;
if (dens == 0) {
dens = 160;
}
densities.add(dens);
}
size_t len;
ResXMLTree::event_code_t code;
int depth = 0;
String8 error;
bool withinActivity = false;
bool isMainActivity = false;
bool isLauncherActivity = false;
bool isLeanbackLauncherActivity = false;
bool isSearchable = false;
bool withinApplication = false;
bool withinSupportsInput = false;
bool withinFeatureGroup = false;
bool withinReceiver = false;
bool withinService = false;
bool withinProvider = false;
bool withinIntentFilter = false;
bool hasMainActivity = false;
bool hasOtherActivities = false;
bool hasOtherReceivers = false;
bool hasOtherServices = false;
bool hasIntentFilter = false;
bool hasWallpaperService = false;
bool hasImeService = false;
bool hasAccessibilityService = false;
bool hasPrintService = false;
bool hasWidgetReceivers = false;
bool hasDeviceAdminReceiver = false;
bool hasPaymentService = false;
bool hasDocumentsProvider = false;
bool hasCameraActivity = false;
bool hasCameraSecureActivity = false;
bool hasLauncher = false;
bool hasNotificationListenerService = false;
bool hasDreamService = false;
bool actMainActivity = false;
bool actWidgetReceivers = false;
bool actDeviceAdminEnabled = false;
bool actImeService = false;
bool actWallpaperService = false;
bool actAccessibilityService = false;
bool actPrintService = false;
bool actHostApduService = false;
bool actOffHostApduService = false;
bool actDocumentsProvider = false;
bool actNotificationListenerService = false;
bool actDreamService = false;
bool actCamera = false;
bool actCameraSecure = false;
bool catLauncher = false;
bool hasMetaHostPaymentCategory = false;
bool hasMetaOffHostPaymentCategory = false;
// These permissions are required by services implementing services
// the system binds to (IME, Accessibility, PrintServices, etc.)
bool hasBindDeviceAdminPermission = false;
bool hasBindInputMethodPermission = false;
bool hasBindAccessibilityServicePermission = false;
bool hasBindPrintServicePermission = false;
bool hasBindNfcServicePermission = false;
bool hasRequiredSafAttributes = false;
bool hasBindNotificationListenerServicePermission = false;
bool hasBindDreamServicePermission = false;
// These two implement the implicit permissions that are granted
// to pre-1.6 applications.
bool hasWriteExternalStoragePermission = false;
bool hasReadPhoneStatePermission = false;
// If an app requests write storage, they will also get read storage.
bool hasReadExternalStoragePermission = false;
// Implement transition to read and write call log.
bool hasReadContactsPermission = false;
bool hasWriteContactsPermission = false;
bool hasReadCallLogPermission = false;
bool hasWriteCallLogPermission = false;
// If an app declares itself as multiArch, we report the
// native libraries differently.
bool hasMultiArch = false;
// This next group of variables is used to implement a group of
// backward-compatibility heuristics necessitated by the addition of
// some new uses-feature constants in 2.1 and 2.2. In most cases, the
// heuristic is "if an app requests a permission but doesn't explicitly
// request the corresponding <uses-feature>, presume it's there anyway".
// 2.2 also added some other features that apps can request, but that
// have no corresponding permission, so we cannot implement any
// back-compatibility heuristic for them. The below are thus unnecessary
// (but are retained here for documentary purposes.)
//bool specCompassFeature = false;
//bool specAccelerometerFeature = false;
//bool specProximityFeature = false;
//bool specAmbientLightFeature = false;
//bool specLiveWallpaperFeature = false;
int targetSdk = 0;
int smallScreen = 1;
int normalScreen = 1;
int largeScreen = 1;
int xlargeScreen = 1;
int anyDensity = 1;
int requiresSmallestWidthDp = 0;
int compatibleWidthLimitDp = 0;
int largestWidthLimitDp = 0;
String8 pkg;
String8 activityName;
String8 activityLabel;
String8 activityIcon;
String8 activityBanner;
String8 receiverName;
String8 serviceName;
Vector<String8> supportedInput;
FeatureGroup commonFeatures;
Vector<FeatureGroup> featureGroups;
KeyedVector<String8, ImpliedFeature> impliedFeatures;
while ((code=tree.next()) != ResXMLTree::END_DOCUMENT && code != ResXMLTree::BAD_DOCUMENT) {
if (code == ResXMLTree::END_TAG) {
depth--;
if (depth < 2) {
if (withinSupportsInput && !supportedInput.isEmpty()) {
printf("supports-input: '");
const size_t N = supportedInput.size();
for (size_t i=0; i<N; i++) {
printf("%s", ResTable::normalizeForOutput(
supportedInput[i].string()).string());
if (i != N - 1) {
printf("' '");
} else {
printf("'\n");
}
}
supportedInput.clear();
}
withinApplication = false;
withinSupportsInput = false;
withinFeatureGroup = false;
} else if (depth < 3) {
if (withinActivity && isMainActivity) {
String8 aName(getComponentName(pkg, activityName));
if (isLauncherActivity) {
printf("launchable-activity:");
if (aName.length() > 0) {
printf(" name='%s' ",
ResTable::normalizeForOutput(aName.string()).string());
}
printf(" label='%s' icon='%s'\n",
ResTable::normalizeForOutput(activityLabel.string()).string(),
ResTable::normalizeForOutput(activityIcon.string()).string());
}
if (isLeanbackLauncherActivity) {
printf("leanback-launchable-activity:");
if (aName.length() > 0) {
printf(" name='%s' ",
ResTable::normalizeForOutput(aName.string()).string());
}
printf(" label='%s' icon='%s' banner='%s'\n",
ResTable::normalizeForOutput(activityLabel.string()).string(),
ResTable::normalizeForOutput(activityIcon.string()).string(),
ResTable::normalizeForOutput(activityBanner.string()).string());
}
}
if (!hasIntentFilter) {
hasOtherActivities |= withinActivity;
hasOtherReceivers |= withinReceiver;
hasOtherServices |= withinService;
} else {
if (withinService) {
hasPaymentService |= (actHostApduService && hasMetaHostPaymentCategory &&
hasBindNfcServicePermission);
hasPaymentService |= (actOffHostApduService && hasMetaOffHostPaymentCategory &&
hasBindNfcServicePermission);
}
}
withinActivity = false;
withinService = false;
withinReceiver = false;
withinProvider = false;
hasIntentFilter = false;
isMainActivity = isLauncherActivity = isLeanbackLauncherActivity = false;
} else if (depth < 4) {
if (withinIntentFilter) {
if (withinActivity) {
hasMainActivity |= actMainActivity;
hasLauncher |= catLauncher;
hasCameraActivity |= actCamera;
hasCameraSecureActivity |= actCameraSecure;
hasOtherActivities |= !actMainActivity && !actCamera && !actCameraSecure;
} else if (withinReceiver) {
hasWidgetReceivers |= actWidgetReceivers;
hasDeviceAdminReceiver |= (actDeviceAdminEnabled &&
hasBindDeviceAdminPermission);
hasOtherReceivers |= (!actWidgetReceivers && !actDeviceAdminEnabled);
} else if (withinService) {
hasImeService |= actImeService;
hasWallpaperService |= actWallpaperService;
hasAccessibilityService |= (actAccessibilityService &&
hasBindAccessibilityServicePermission);
hasPrintService |= (actPrintService && hasBindPrintServicePermission);
hasNotificationListenerService |= actNotificationListenerService &&
hasBindNotificationListenerServicePermission;
hasDreamService |= actDreamService && hasBindDreamServicePermission;
hasOtherServices |= (!actImeService && !actWallpaperService &&
!actAccessibilityService && !actPrintService &&
!actHostApduService && !actOffHostApduService &&
!actNotificationListenerService);
} else if (withinProvider) {
hasDocumentsProvider |= actDocumentsProvider && hasRequiredSafAttributes;
}
}
withinIntentFilter = false;
}
continue;
}
if (code != ResXMLTree::START_TAG) {
continue;
}
depth++;
const char16_t* ctag16 = tree.getElementName(&len);
if (ctag16 == NULL) {
fprintf(stderr, "ERROR: failed to get XML element name (bad string pool)\n");
goto bail;
}
String8 tag(ctag16);
//printf("Depth %d, %s\n", depth, tag.string());
if (depth == 1) {
if (tag != "manifest") {
fprintf(stderr, "ERROR: manifest does not start with <manifest> tag\n");
goto bail;
}
pkg = AaptXml::getAttribute(tree, NULL, "package", NULL);
printf("package: name='%s' ",
ResTable::normalizeForOutput(pkg.string()).string());
int32_t versionCode = AaptXml::getIntegerAttribute(tree, VERSION_CODE_ATTR,
&error);
if (error != "") {
fprintf(stderr, "ERROR getting 'android:versionCode' attribute: %s\n",
error.string());
goto bail;
}
if (versionCode > 0) {
printf("versionCode='%d' ", versionCode);
} else {
printf("versionCode='' ");
}
String8 versionName = AaptXml::getResolvedAttribute(res, tree,
VERSION_NAME_ATTR, &error);
if (error != "") {
fprintf(stderr, "ERROR getting 'android:versionName' attribute: %s\n",
error.string());
goto bail;
}
printf("versionName='%s'",
ResTable::normalizeForOutput(versionName.string()).string());
String8 splitName = AaptXml::getAttribute(tree, NULL, "split");
if (!splitName.isEmpty()) {
printf(" split='%s'", ResTable::normalizeForOutput(
splitName.string()).string());
}
String8 platformVersionName = AaptXml::getAttribute(tree, NULL,
"platformBuildVersionName");
printf(" platformBuildVersionName='%s'", platformVersionName.string());
printf("\n");
int32_t installLocation = AaptXml::getResolvedIntegerAttribute(res, tree,
INSTALL_LOCATION_ATTR, &error);
if (error != "") {
fprintf(stderr, "ERROR getting 'android:installLocation' attribute: %s\n",
error.string());
goto bail;
}
if (installLocation >= 0) {
printf("install-location:'");
switch (installLocation) {
case 0:
printf("auto");
break;
case 1:
printf("internalOnly");
break;
case 2:
printf("preferExternal");
break;
default:
fprintf(stderr, "Invalid installLocation %d\n", installLocation);
goto bail;
}
printf("'\n");
}
} else if (depth == 2) {
withinApplication = false;
if (tag == "application") {
withinApplication = true;
String8 label;
const size_t NL = locales.size();
for (size_t i=0; i<NL; i++) {
const char* localeStr = locales[i].string();
assets.setLocale(localeStr != NULL ? localeStr : "");
String8 llabel = AaptXml::getResolvedAttribute(res, tree, LABEL_ATTR,
&error);
if (llabel != "") {
if (localeStr == NULL || strlen(localeStr) == 0) {
label = llabel;
printf("application-label:'%s'\n",
ResTable::normalizeForOutput(llabel.string()).string());
} else {
if (label == "") {
label = llabel;
}
printf("application-label-%s:'%s'\n", localeStr,
ResTable::normalizeForOutput(llabel.string()).string());
}
}
}
ResTable_config tmpConfig = config;
const size_t ND = densities.size();
for (size_t i=0; i<ND; i++) {
tmpConfig.density = densities[i];
assets.setConfiguration(tmpConfig);
String8 icon = AaptXml::getResolvedAttribute(res, tree, ICON_ATTR,
&error);
if (icon != "") {
printf("application-icon-%d:'%s'\n", densities[i],
ResTable::normalizeForOutput(icon.string()).string());
}
}
assets.setConfiguration(config);
String8 icon = AaptXml::getResolvedAttribute(res, tree, ICON_ATTR, &error);
if (error != "") {
fprintf(stderr, "ERROR getting 'android:icon' attribute: %s\n",
error.string());
goto bail;
}
int32_t testOnly = AaptXml::getIntegerAttribute(tree, TEST_ONLY_ATTR, 0,
&error);
if (error != "") {
fprintf(stderr, "ERROR getting 'android:testOnly' attribute: %s\n",
error.string());
goto bail;
}
printf("application: label='%s' ",
ResTable::normalizeForOutput(label.string()).string());
printf("icon='%s'\n", ResTable::normalizeForOutput(icon.string()).string());
if (testOnly != 0) {
printf("testOnly='%d'\n", testOnly);
}
int32_t debuggable = AaptXml::getResolvedIntegerAttribute(res, tree,
DEBUGGABLE_ATTR, 0, &error);
if (error != "") {
fprintf(stderr, "ERROR getting 'android:debuggable' attribute: %s\n",
error.string());
goto bail;
}
if (debuggable != 0) {
printf("application-debuggable\n");
}
// We must search by name because the multiArch flag hasn't been API
// frozen yet.
int32_t multiArchIndex = tree.indexOfAttribute(RESOURCES_ANDROID_NAMESPACE,
"multiArch");
if (multiArchIndex >= 0) {
Res_value value;
if (tree.getAttributeValue(multiArchIndex, &value) != NO_ERROR) {
if (value.dataType >= Res_value::TYPE_FIRST_INT &&
value.dataType <= Res_value::TYPE_LAST_INT) {
hasMultiArch = value.data;
}
}
}
} else if (tag == "uses-sdk") {
int32_t code = AaptXml::getIntegerAttribute(tree, MIN_SDK_VERSION_ATTR, &error);
if (error != "") {
error = "";
String8 name = AaptXml::getResolvedAttribute(res, tree,
MIN_SDK_VERSION_ATTR, &error);
if (error != "") {
fprintf(stderr, "ERROR getting 'android:minSdkVersion' attribute: %s\n",
error.string());
goto bail;
}
if (name == "Donut") targetSdk = 4;
printf("sdkVersion:'%s'\n",
ResTable::normalizeForOutput(name.string()).string());
} else if (code != -1) {
targetSdk = code;
printf("sdkVersion:'%d'\n", code);
}
code = AaptXml::getIntegerAttribute(tree, MAX_SDK_VERSION_ATTR);
if (code != -1) {
printf("maxSdkVersion:'%d'\n", code);
}
code = AaptXml::getIntegerAttribute(tree, TARGET_SDK_VERSION_ATTR, &error);
if (error != "") {
error = "";
String8 name = AaptXml::getResolvedAttribute(res, tree,
TARGET_SDK_VERSION_ATTR, &error);
if (error != "") {
fprintf(stderr, "ERROR getting 'android:targetSdkVersion' attribute: %s\n",
error.string());
goto bail;
}
if (name == "Donut" && targetSdk < 4) targetSdk = 4;
printf("targetSdkVersion:'%s'\n",
ResTable::normalizeForOutput(name.string()).string());
} else if (code != -1) {
if (targetSdk < code) {
targetSdk = code;
}
printf("targetSdkVersion:'%d'\n", code);
}
} else if (tag == "uses-configuration") {
int32_t reqTouchScreen = AaptXml::getIntegerAttribute(tree,
REQ_TOUCH_SCREEN_ATTR, 0);
int32_t reqKeyboardType = AaptXml::getIntegerAttribute(tree,
REQ_KEYBOARD_TYPE_ATTR, 0);
int32_t reqHardKeyboard = AaptXml::getIntegerAttribute(tree,
REQ_HARD_KEYBOARD_ATTR, 0);
int32_t reqNavigation = AaptXml::getIntegerAttribute(tree,
REQ_NAVIGATION_ATTR, 0);
int32_t reqFiveWayNav = AaptXml::getIntegerAttribute(tree,
REQ_FIVE_WAY_NAV_ATTR, 0);
printf("uses-configuration:");
if (reqTouchScreen != 0) {
printf(" reqTouchScreen='%d'", reqTouchScreen);
}
if (reqKeyboardType != 0) {
printf(" reqKeyboardType='%d'", reqKeyboardType);
}
if (reqHardKeyboard != 0) {
printf(" reqHardKeyboard='%d'", reqHardKeyboard);
}
if (reqNavigation != 0) {
printf(" reqNavigation='%d'", reqNavigation);
}
if (reqFiveWayNav != 0) {
printf(" reqFiveWayNav='%d'", reqFiveWayNav);
}
printf("\n");
} else if (tag == "supports-input") {
withinSupportsInput = true;
} else if (tag == "supports-screens") {
smallScreen = AaptXml::getIntegerAttribute(tree,
SMALL_SCREEN_ATTR, 1);
normalScreen = AaptXml::getIntegerAttribute(tree,
NORMAL_SCREEN_ATTR, 1);
largeScreen = AaptXml::getIntegerAttribute(tree,
LARGE_SCREEN_ATTR, 1);
xlargeScreen = AaptXml::getIntegerAttribute(tree,
XLARGE_SCREEN_ATTR, 1);
anyDensity = AaptXml::getIntegerAttribute(tree,
ANY_DENSITY_ATTR, 1);
requiresSmallestWidthDp = AaptXml::getIntegerAttribute(tree,
REQUIRES_SMALLEST_WIDTH_DP_ATTR, 0);
compatibleWidthLimitDp = AaptXml::getIntegerAttribute(tree,
COMPATIBLE_WIDTH_LIMIT_DP_ATTR, 0);
largestWidthLimitDp = AaptXml::getIntegerAttribute(tree,
LARGEST_WIDTH_LIMIT_DP_ATTR, 0);
} else if (tag == "feature-group") {
withinFeatureGroup = true;
FeatureGroup group;
group.label = AaptXml::getResolvedAttribute(res, tree, LABEL_ATTR, &error);
if (error != "") {
fprintf(stderr, "ERROR getting 'android:label' attribute:"
" %s\n", error.string());
goto bail;
}
featureGroups.add(group);
} else if (tag == "uses-feature") {
String8 name = AaptXml::getAttribute(tree, NAME_ATTR, &error);
if (name != "" && error == "") {
int req = AaptXml::getIntegerAttribute(tree,
REQUIRED_ATTR, 1);
commonFeatures.features.add(name, req);
if (req) {
addParentFeatures(&commonFeatures, name);
}
} else {
int vers = AaptXml::getIntegerAttribute(tree,
GL_ES_VERSION_ATTR, &error);
if (error == "") {
if (vers > commonFeatures.openGLESVersion) {
commonFeatures.openGLESVersion = vers;
}
}
}
} else if (tag == "uses-permission") {
String8 name = AaptXml::getAttribute(tree, NAME_ATTR, &error);
if (name != "" && error == "") {
if (name == "android.permission.CAMERA") {
addImpliedFeature(&impliedFeatures, "android.hardware.camera",
String8::format("requested %s permission", name.string())
.string());
} else if (name == "android.permission.ACCESS_FINE_LOCATION") {
addImpliedFeature(&impliedFeatures, "android.hardware.location.gps",
String8::format("requested %s permission", name.string())
.string());
addImpliedFeature(&impliedFeatures, "android.hardware.location",
String8::format("requested %s permission", name.string())
.string());
} else if (name == "android.permission.ACCESS_MOCK_LOCATION") {
addImpliedFeature(&impliedFeatures, "android.hardware.location",
String8::format("requested %s permission", name.string())
.string());
} else if (name == "android.permission.ACCESS_COARSE_LOCATION") {
addImpliedFeature(&impliedFeatures, "android.hardware.location.network",
String8::format("requested %s permission", name.string())
.string());
addImpliedFeature(&impliedFeatures, "android.hardware.location",
String8::format("requested %s permission", name.string())
.string());
} else if (name == "android.permission.ACCESS_LOCATION_EXTRA_COMMANDS" ||
name == "android.permission.INSTALL_LOCATION_PROVIDER") {
addImpliedFeature(&impliedFeatures, "android.hardware.location",
String8::format("requested %s permission", name.string())
.string());
} else if (name == "android.permission.BLUETOOTH" ||
name == "android.permission.BLUETOOTH_ADMIN") {
if (targetSdk > 4) {
addImpliedFeature(&impliedFeatures, "android.hardware.bluetooth",
String8::format("requested %s permission", name.string())
.string());
addImpliedFeature(&impliedFeatures, "android.hardware.bluetooth",
"targetSdkVersion > 4");
}
} else if (name == "android.permission.RECORD_AUDIO") {
addImpliedFeature(&impliedFeatures, "android.hardware.microphone",
String8::format("requested %s permission", name.string())
.string());
} else if (name == "android.permission.ACCESS_WIFI_STATE" ||
name == "android.permission.CHANGE_WIFI_STATE" ||
name == "android.permission.CHANGE_WIFI_MULTICAST_STATE") {
addImpliedFeature(&impliedFeatures, "android.hardware.wifi",
String8::format("requested %s permission", name.string())
.string());
} else if (name == "android.permission.CALL_PHONE" ||
name == "android.permission.CALL_PRIVILEGED" ||
name == "android.permission.MODIFY_PHONE_STATE" ||
name == "android.permission.PROCESS_OUTGOING_CALLS" ||
name == "android.permission.READ_SMS" ||
name == "android.permission.RECEIVE_SMS" ||
name == "android.permission.RECEIVE_MMS" ||
name == "android.permission.RECEIVE_WAP_PUSH" ||
name == "android.permission.SEND_SMS" ||
name == "android.permission.WRITE_APN_SETTINGS" ||
name == "android.permission.WRITE_SMS") {
addImpliedFeature(&impliedFeatures, "android.hardware.telephony",
String8("requested a telephony permission").string());
} else if (name == "android.permission.WRITE_EXTERNAL_STORAGE") {
hasWriteExternalStoragePermission = true;
} else if (name == "android.permission.READ_EXTERNAL_STORAGE") {
hasReadExternalStoragePermission = true;
} else if (name == "android.permission.READ_PHONE_STATE") {
hasReadPhoneStatePermission = true;
} else if (name == "android.permission.READ_CONTACTS") {
hasReadContactsPermission = true;
} else if (name == "android.permission.WRITE_CONTACTS") {
hasWriteContactsPermission = true;
} else if (name == "android.permission.READ_CALL_LOG") {
hasReadCallLogPermission = true;
} else if (name == "android.permission.WRITE_CALL_LOG") {
hasWriteCallLogPermission = true;
}
printUsesPermission(name,
AaptXml::getIntegerAttribute(tree, REQUIRED_ATTR, 1) == 0,
AaptXml::getIntegerAttribute(tree, MAX_SDK_VERSION_ATTR));
} else {
fprintf(stderr, "ERROR getting 'android:name' attribute: %s\n",
error.string());
goto bail;
}
} else if (tag == "uses-package") {
String8 name = AaptXml::getAttribute(tree, NAME_ATTR, &error);
if (name != "" && error == "") {
printf("uses-package:'%s'\n",
ResTable::normalizeForOutput(name.string()).string());
} else {
fprintf(stderr, "ERROR getting 'android:name' attribute: %s\n",
error.string());
goto bail;
}
} else if (tag == "original-package") {
String8 name = AaptXml::getAttribute(tree, NAME_ATTR, &error);
if (name != "" && error == "") {
printf("original-package:'%s'\n",
ResTable::normalizeForOutput(name.string()).string());
} else {
fprintf(stderr, "ERROR getting 'android:name' attribute: %s\n",
error.string());
goto bail;
}
} else if (tag == "supports-gl-texture") {
String8 name = AaptXml::getAttribute(tree, NAME_ATTR, &error);
if (name != "" && error == "") {
printf("supports-gl-texture:'%s'\n",
ResTable::normalizeForOutput(name.string()).string());
} else {
fprintf(stderr, "ERROR getting 'android:name' attribute: %s\n",
error.string());
goto bail;
}
} else if (tag == "compatible-screens") {
printCompatibleScreens(tree, &error);
if (error != "") {
fprintf(stderr, "ERROR getting compatible screens: %s\n",
error.string());
goto bail;
}
depth--;
} else if (tag == "package-verifier") {
String8 name = AaptXml::getAttribute(tree, NAME_ATTR, &error);
if (name != "" && error == "") {
String8 publicKey = AaptXml::getAttribute(tree, PUBLIC_KEY_ATTR, &error);
if (publicKey != "" && error == "") {
printf("package-verifier: name='%s' publicKey='%s'\n",
ResTable::normalizeForOutput(name.string()).string(),
ResTable::normalizeForOutput(publicKey.string()).string());
}
}
}
} else if (depth == 3) {
withinActivity = false;
withinReceiver = false;
withinService = false;
withinProvider = false;
hasIntentFilter = false;
hasMetaHostPaymentCategory = false;
hasMetaOffHostPaymentCategory = false;
hasBindDeviceAdminPermission = false;
hasBindInputMethodPermission = false;
hasBindAccessibilityServicePermission = false;
hasBindPrintServicePermission = false;
hasBindNfcServicePermission = false;
hasRequiredSafAttributes = false;
hasBindNotificationListenerServicePermission = false;
hasBindDreamServicePermission = false;
if (withinApplication) {
if(tag == "activity") {
withinActivity = true;
activityName = AaptXml::getAttribute(tree, NAME_ATTR, &error);
if (error != "") {
fprintf(stderr, "ERROR getting 'android:name' attribute: %s\n",
error.string());
goto bail;
}
activityLabel = AaptXml::getResolvedAttribute(res, tree, LABEL_ATTR,
&error);
if (error != "") {
fprintf(stderr, "ERROR getting 'android:label' attribute: %s\n",
error.string());
goto bail;
}
activityIcon = AaptXml::getResolvedAttribute(res, tree, ICON_ATTR,
&error);
if (error != "") {
fprintf(stderr, "ERROR getting 'android:icon' attribute: %s\n",
error.string());
goto bail;
}
activityBanner = AaptXml::getResolvedAttribute(res, tree, BANNER_ATTR,
&error);
if (error != "") {
fprintf(stderr, "ERROR getting 'android:banner' attribute: %s\n",
error.string());
goto bail;
}
int32_t orien = AaptXml::getResolvedIntegerAttribute(res, tree,
SCREEN_ORIENTATION_ATTR, &error);
if (error == "") {
if (orien == 0 || orien == 6 || orien == 8) {
// Requests landscape, sensorLandscape, or reverseLandscape.
addImpliedFeature(&impliedFeatures, "android.hardware.screen.landscape",
"one or more activities have specified a landscape orientation");
} else if (orien == 1 || orien == 7 || orien == 9) {
// Requests portrait, sensorPortrait, or reversePortrait.
addImpliedFeature(&impliedFeatures, "android.hardware.screen.portrait",
"one or more activities have specified a portrait orientation");
}
}
} else if (tag == "uses-library") {
String8 libraryName = AaptXml::getAttribute(tree, NAME_ATTR, &error);
if (error != "") {
fprintf(stderr,
"ERROR getting 'android:name' attribute for uses-library"
" %s\n", error.string());
goto bail;
}
int req = AaptXml::getIntegerAttribute(tree,
REQUIRED_ATTR, 1);
printf("uses-library%s:'%s'\n",
req ? "" : "-not-required", ResTable::normalizeForOutput(
libraryName.string()).string());
} else if (tag == "receiver") {
withinReceiver = true;
receiverName = AaptXml::getAttribute(tree, NAME_ATTR, &error);
if (error != "") {
fprintf(stderr,
"ERROR getting 'android:name' attribute for receiver:"
" %s\n", error.string());
goto bail;
}
String8 permission = AaptXml::getAttribute(tree, PERMISSION_ATTR,
&error);
if (error == "") {
if (permission == "android.permission.BIND_DEVICE_ADMIN") {
hasBindDeviceAdminPermission = true;
}
} else {
fprintf(stderr, "ERROR getting 'android:permission' attribute for"
" receiver '%s': %s\n", receiverName.string(), error.string());
}
} else if (tag == "service") {
withinService = true;
serviceName = AaptXml::getAttribute(tree, NAME_ATTR, &error);
if (error != "") {
fprintf(stderr, "ERROR getting 'android:name' attribute for "
"service:%s\n", error.string());
goto bail;
}
String8 permission = AaptXml::getAttribute(tree, PERMISSION_ATTR,
&error);
if (error == "") {
if (permission == "android.permission.BIND_INPUT_METHOD") {
hasBindInputMethodPermission = true;
} else if (permission == "android.permission.BIND_ACCESSIBILITY_SERVICE") {
hasBindAccessibilityServicePermission = true;
} else if (permission == "android.permission.BIND_PRINT_SERVICE") {
hasBindPrintServicePermission = true;
} else if (permission == "android.permission.BIND_NFC_SERVICE") {
hasBindNfcServicePermission = true;
} else if (permission == "android.permission.BIND_NOTIFICATION_LISTENER_SERVICE") {
hasBindNotificationListenerServicePermission = true;
} else if (permission == "android.permission.BIND_DREAM_SERVICE") {
hasBindDreamServicePermission = true;
}
} else {
fprintf(stderr, "ERROR getting 'android:permission' attribute for"
" service '%s': %s\n", serviceName.string(), error.string());
}
} else if (tag == "provider") {
withinProvider = true;
bool exported = AaptXml::getResolvedIntegerAttribute(res, tree,
EXPORTED_ATTR, &error);
if (error != "") {
fprintf(stderr, "ERROR getting 'android:exported' attribute for provider:"
" %s\n", error.string());
goto bail;
}
bool grantUriPermissions = AaptXml::getResolvedIntegerAttribute(
res, tree, GRANT_URI_PERMISSIONS_ATTR, &error);
if (error != "") {
fprintf(stderr, "ERROR getting 'android:grantUriPermissions' attribute for provider:"
" %s\n", error.string());
goto bail;
}
String8 permission = AaptXml::getResolvedAttribute(res, tree,
PERMISSION_ATTR, &error);
if (error != "") {
fprintf(stderr, "ERROR getting 'android:permission' attribute for provider:"
" %s\n", error.string());
goto bail;
}
hasRequiredSafAttributes |= exported && grantUriPermissions &&
permission == "android.permission.MANAGE_DOCUMENTS";
} else if (bundle->getIncludeMetaData() && tag == "meta-data") {
String8 metaDataName = AaptXml::getResolvedAttribute(res, tree,
NAME_ATTR, &error);
if (error != "") {
fprintf(stderr, "ERROR getting 'android:name' attribute for "
"meta-data:%s\n", error.string());
goto bail;
}
printf("meta-data: name='%s' ",
ResTable::normalizeForOutput(metaDataName.string()).string());
printResolvedResourceAttribute(res, tree, VALUE_ATTR, String8("value"),
&error);
if (error != "") {
// Try looking for a RESOURCE_ATTR
error = "";
printResolvedResourceAttribute(res, tree, RESOURCE_ATTR,
String8("resource"), &error);
if (error != "") {
fprintf(stderr, "ERROR getting 'android:value' or "
"'android:resource' attribute for "
"meta-data:%s\n", error.string());
goto bail;
}
}
printf("\n");
} else if (withinSupportsInput && tag == "input-type") {
String8 name = AaptXml::getAttribute(tree, NAME_ATTR, &error);
if (name != "" && error == "") {
supportedInput.add(name);
} else {
fprintf(stderr, "ERROR getting 'android:name' attribute: %s\n",
error.string());
goto bail;
}
}
} else if (withinFeatureGroup && tag == "uses-feature") {
FeatureGroup& top = featureGroups.editTop();
String8 name = AaptXml::getResolvedAttribute(res, tree, NAME_ATTR, &error);
if (name != "" && error == "") {
top.features.add(name, true);
addParentFeatures(&top, name);
} else {
int vers = AaptXml::getIntegerAttribute(tree, GL_ES_VERSION_ATTR,
&error);
if (error == "") {
if (vers > top.openGLESVersion) {
top.openGLESVersion = vers;
}
}
}
}
} else if (depth == 4) {
if (tag == "intent-filter") {
hasIntentFilter = true;
withinIntentFilter = true;
actMainActivity = false;
actWidgetReceivers = false;
actImeService = false;
actWallpaperService = false;
actAccessibilityService = false;
actPrintService = false;
actDeviceAdminEnabled = false;
actHostApduService = false;
actOffHostApduService = false;
actDocumentsProvider = false;
actNotificationListenerService = false;
actDreamService = false;
actCamera = false;
actCameraSecure = false;
catLauncher = false;
} else if (withinService && tag == "meta-data") {
String8 name = AaptXml::getAttribute(tree, NAME_ATTR, &error);
if (error != "") {
fprintf(stderr, "ERROR getting 'android:name' attribute for"
" meta-data tag in service '%s': %s\n", serviceName.string(), error.string());
goto bail;
}
if (name == "android.nfc.cardemulation.host_apdu_service" ||
name == "android.nfc.cardemulation.off_host_apdu_service") {
bool offHost = true;
if (name == "android.nfc.cardemulation.host_apdu_service") {
offHost = false;
}
String8 xmlPath = AaptXml::getResolvedAttribute(res, tree,
RESOURCE_ATTR, &error);
if (error != "") {
fprintf(stderr, "ERROR getting 'android:resource' attribute for"
" meta-data tag in service '%s': %s\n", serviceName.string(), error.string());
goto bail;
}
Vector<String8> categories = getNfcAidCategories(assets, xmlPath,
offHost, &error);
if (error != "") {
fprintf(stderr, "ERROR getting AID category for service '%s'\n",
serviceName.string());
goto bail;
}
const size_t catLen = categories.size();
for (size_t i = 0; i < catLen; i++) {
bool paymentCategory = (categories[i] == "payment");
if (offHost) {
hasMetaOffHostPaymentCategory |= paymentCategory;
} else {
hasMetaHostPaymentCategory |= paymentCategory;
}
}
}
}
} else if ((depth == 5) && withinIntentFilter) {
String8 action;
if (tag == "action") {
action = AaptXml::getAttribute(tree, NAME_ATTR, &error);
if (error != "") {
fprintf(stderr, "ERROR getting 'android:name' attribute: %s\n",
error.string());
goto bail;
}
if (withinActivity) {
if (action == "android.intent.action.MAIN") {
isMainActivity = true;
actMainActivity = true;
} else if (action == "android.media.action.STILL_IMAGE_CAMERA" ||
action == "android.media.action.VIDEO_CAMERA") {
actCamera = true;
} else if (action == "android.media.action.STILL_IMAGE_CAMERA_SECURE") {
actCameraSecure = true;
}
} else if (withinReceiver) {
if (action == "android.appwidget.action.APPWIDGET_UPDATE") {
actWidgetReceivers = true;
} else if (action == "android.app.action.DEVICE_ADMIN_ENABLED") {
actDeviceAdminEnabled = true;
}
} else if (withinService) {
if (action == "android.view.InputMethod") {
actImeService = true;
} else if (action == "android.service.wallpaper.WallpaperService") {
actWallpaperService = true;
} else if (action == "android.accessibilityservice.AccessibilityService") {
actAccessibilityService = true;
} else if (action == "android.printservice.PrintService") {
actPrintService = true;
} else if (action == "android.nfc.cardemulation.action.HOST_APDU_SERVICE") {
actHostApduService = true;
} else if (action == "android.nfc.cardemulation.action.OFF_HOST_APDU_SERVICE") {
actOffHostApduService = true;
} else if (action == "android.service.notification.NotificationListenerService") {
actNotificationListenerService = true;
} else if (action == "android.service.dreams.DreamService") {
actDreamService = true;
}
} else if (withinProvider) {
if (action == "android.content.action.DOCUMENTS_PROVIDER") {
actDocumentsProvider = true;
}
}
if (action == "android.intent.action.SEARCH") {
isSearchable = true;
}
}
if (tag == "category") {
String8 category = AaptXml::getAttribute(tree, NAME_ATTR, &error);
if (error != "") {
fprintf(stderr, "ERROR getting 'name' attribute: %s\n",
error.string());
goto bail;
}
if (withinActivity) {
if (category == "android.intent.category.LAUNCHER") {
isLauncherActivity = true;
} else if (category == "android.intent.category.LEANBACK_LAUNCHER") {
isLeanbackLauncherActivity = true;
} else if (category == "android.intent.category.HOME") {
catLauncher = true;
}
}
}
}
}
// Pre-1.6 implicitly granted permission compatibility logic
if (targetSdk < 4) {
if (!hasWriteExternalStoragePermission) {
printUsesPermission(String8("android.permission.WRITE_EXTERNAL_STORAGE"));
printUsesImpliedPermission(String8("android.permission.WRITE_EXTERNAL_STORAGE"),
String8("targetSdkVersion < 4"));
hasWriteExternalStoragePermission = true;
}
if (!hasReadPhoneStatePermission) {
printUsesPermission(String8("android.permission.READ_PHONE_STATE"));
printUsesImpliedPermission(String8("android.permission.READ_PHONE_STATE"),
String8("targetSdkVersion < 4"));
}
}
// If the application has requested WRITE_EXTERNAL_STORAGE, we will
// force them to always take READ_EXTERNAL_STORAGE as well. We always
// do this (regardless of target API version) because we can't have
// an app with write permission but not read permission.
if (!hasReadExternalStoragePermission && hasWriteExternalStoragePermission) {
printUsesPermission(String8("android.permission.READ_EXTERNAL_STORAGE"));
printUsesImpliedPermission(String8("android.permission.READ_EXTERNAL_STORAGE"),
String8("requested WRITE_EXTERNAL_STORAGE"));
}
// Pre-JellyBean call log permission compatibility.
if (targetSdk < 16) {
if (!hasReadCallLogPermission && hasReadContactsPermission) {
printUsesPermission(String8("android.permission.READ_CALL_LOG"));
printUsesImpliedPermission(String8("android.permission.READ_CALL_LOG"),
String8("targetSdkVersion < 16 and requested READ_CONTACTS"));
}
if (!hasWriteCallLogPermission && hasWriteContactsPermission) {
printUsesPermission(String8("android.permission.WRITE_CALL_LOG"));
printUsesImpliedPermission(String8("android.permission.WRITE_CALL_LOG"),
String8("targetSdkVersion < 16 and requested WRITE_CONTACTS"));
}
}
addImpliedFeature(&impliedFeatures, "android.hardware.touchscreen",
"default feature for all apps");
const size_t numFeatureGroups = featureGroups.size();
if (numFeatureGroups == 0) {
// If no <feature-group> tags were defined, apply auto-implied features.
printFeatureGroup(commonFeatures, &impliedFeatures);
} else {
// <feature-group> tags are defined, so we ignore implied features and
for (size_t i = 0; i < numFeatureGroups; i++) {
FeatureGroup& grp = featureGroups.editItemAt(i);
if (commonFeatures.openGLESVersion > grp.openGLESVersion) {
grp.openGLESVersion = commonFeatures.openGLESVersion;
}
// Merge the features defined in the top level (not inside a <feature-group>)
// with this feature group.
const size_t numCommonFeatures = commonFeatures.features.size();
for (size_t j = 0; j < numCommonFeatures; j++) {
if (grp.features.indexOfKey(commonFeatures.features.keyAt(j)) < 0) {
grp.features.add(commonFeatures.features.keyAt(j),
commonFeatures.features[j]);
}
}
if (!grp.features.isEmpty()) {
printFeatureGroup(grp);
}
}
}
if (hasWidgetReceivers) {
printComponentPresence("app-widget");
}
if (hasDeviceAdminReceiver) {
printComponentPresence("device-admin");
}
if (hasImeService) {
printComponentPresence("ime");
}
if (hasWallpaperService) {
printComponentPresence("wallpaper");
}
if (hasAccessibilityService) {
printComponentPresence("accessibility");
}
if (hasPrintService) {
printComponentPresence("print-service");
}
if (hasPaymentService) {
printComponentPresence("payment");
}
if (isSearchable) {
printComponentPresence("search");
}
if (hasDocumentsProvider) {
printComponentPresence("document-provider");
}
if (hasLauncher) {
printComponentPresence("launcher");
}
if (hasNotificationListenerService) {
printComponentPresence("notification-listener");
}
if (hasDreamService) {
printComponentPresence("dream");
}
if (hasCameraActivity) {
printComponentPresence("camera");
}
if (hasCameraSecureActivity) {
printComponentPresence("camera-secure");
}
if (hasMainActivity) {
printf("main\n");
}
if (hasOtherActivities) {
printf("other-activities\n");
}
if (hasOtherReceivers) {
printf("other-receivers\n");
}
if (hasOtherServices) {
printf("other-services\n");
}
// For modern apps, if screen size buckets haven't been specified
// but the new width ranges have, then infer the buckets from them.
if (smallScreen > 0 && normalScreen > 0 && largeScreen > 0 && xlargeScreen > 0
&& requiresSmallestWidthDp > 0) {
int compatWidth = compatibleWidthLimitDp;
if (compatWidth <= 0) {
compatWidth = requiresSmallestWidthDp;
}
if (requiresSmallestWidthDp <= 240 && compatWidth >= 240) {
smallScreen = -1;
} else {
smallScreen = 0;
}
if (requiresSmallestWidthDp <= 320 && compatWidth >= 320) {
normalScreen = -1;
} else {
normalScreen = 0;
}
if (requiresSmallestWidthDp <= 480 && compatWidth >= 480) {
largeScreen = -1;
} else {
largeScreen = 0;
}
if (requiresSmallestWidthDp <= 720 && compatWidth >= 720) {
xlargeScreen = -1;
} else {
xlargeScreen = 0;
}
}
// Determine default values for any unspecified screen sizes,
// based on the target SDK of the package. As of 4 (donut)
// the screen size support was introduced, so all default to
// enabled.
if (smallScreen > 0) {
smallScreen = targetSdk >= 4 ? -1 : 0;
}
if (normalScreen > 0) {
normalScreen = -1;
}
if (largeScreen > 0) {
largeScreen = targetSdk >= 4 ? -1 : 0;
}
if (xlargeScreen > 0) {
// Introduced in Gingerbread.
xlargeScreen = targetSdk >= 9 ? -1 : 0;
}
if (anyDensity > 0) {
anyDensity = (targetSdk >= 4 || requiresSmallestWidthDp > 0
|| compatibleWidthLimitDp > 0) ? -1 : 0;
}
printf("supports-screens:");
if (smallScreen != 0) {
printf(" 'small'");
}
if (normalScreen != 0) {
printf(" 'normal'");
}
if (largeScreen != 0) {
printf(" 'large'");
}
if (xlargeScreen != 0) {
printf(" 'xlarge'");
}
printf("\n");
printf("supports-any-density: '%s'\n", anyDensity ? "true" : "false");
if (requiresSmallestWidthDp > 0) {
printf("requires-smallest-width:'%d'\n", requiresSmallestWidthDp);
}
if (compatibleWidthLimitDp > 0) {
printf("compatible-width-limit:'%d'\n", compatibleWidthLimitDp);
}
if (largestWidthLimitDp > 0) {
printf("largest-width-limit:'%d'\n", largestWidthLimitDp);
}
printf("locales:");
const size_t NL = locales.size();
for (size_t i=0; i<NL; i++) {
const char* localeStr = locales[i].string();
if (localeStr == NULL || strlen(localeStr) == 0) {
localeStr = "--_--";
}
printf(" '%s'", localeStr);
}
printf("\n");
printf("densities:");
const size_t ND = densities.size();
for (size_t i=0; i<ND; i++) {
printf(" '%d'", densities[i]);
}
printf("\n");
AssetDir* dir = assets.openNonAssetDir(assetsCookie, "lib");
if (dir != NULL) {
if (dir->getFileCount() > 0) {
SortedVector<String8> architectures;
for (size_t i=0; i<dir->getFileCount(); i++) {
architectures.add(ResTable::normalizeForOutput(
dir->getFileName(i).string()));
}
bool outputAltNativeCode = false;
// A multiArch package is one that contains 64-bit and
// 32-bit versions of native code and expects 3rd-party
// apps to load these native code libraries. Since most
// 64-bit systems also support 32-bit apps, the apps
// loading this multiArch package's code may be either
// 32-bit or 64-bit.
if (hasMultiArch) {
// If this is a multiArch package, report the 64-bit
// version only. Then as a separate entry, report the
// rest.
//
// If we report the 32-bit architecture, this APK will
// be installed on a 32-bit device, causing a large waste
// of bandwidth and disk space. This assumes that
// the developer of the multiArch package has also
// made a version that is 32-bit only.
String8 intel64("x86_64");
String8 arm64("arm64-v8a");
ssize_t index = architectures.indexOf(intel64);
if (index < 0) {
index = architectures.indexOf(arm64);
}
if (index >= 0) {
printf("native-code: '%s'\n", architectures[index].string());
architectures.removeAt(index);
outputAltNativeCode = true;
}
}
const size_t archCount = architectures.size();
if (archCount > 0) {
if (outputAltNativeCode) {
printf("alt-");
}
printf("native-code:");
for (size_t i = 0; i < archCount; i++) {
printf(" '%s'", architectures[i].string());
}
printf("\n");
}
}
delete dir;
}
} else if (strcmp("badger", option) == 0) {
printf("%s", CONSOLE_DATA);
} else if (strcmp("configurations", option) == 0) {
Vector<ResTable_config> configs;
res.getConfigurations(&configs);
const size_t N = configs.size();
for (size_t i=0; i<N; i++) {
printf("%s\n", configs[i].toString().string());
}
} else {
fprintf(stderr, "ERROR: unknown dump option '%s'\n", option);
goto bail;
}
}
result = NO_ERROR;
bail:
if (asset) {
delete asset;
}
return (result != NO_ERROR);
}
/*
* Handle the "add" command, which wants to add files to a new or
* pre-existing archive.
*/
int doAdd(Bundle* bundle)
{
ZipFile* zip = NULL;
status_t result = UNKNOWN_ERROR;
const char* zipFileName;
if (bundle->getUpdate()) {
/* avoid confusion */
fprintf(stderr, "ERROR: can't use '-u' with add\n");
goto bail;
}
if (bundle->getFileSpecCount() < 1) {
fprintf(stderr, "ERROR: must specify zip file name\n");
goto bail;
}
zipFileName = bundle->getFileSpecEntry(0);
if (bundle->getFileSpecCount() < 2) {
fprintf(stderr, "NOTE: nothing to do\n");
goto bail;
}
zip = openReadWrite(zipFileName, true);
if (zip == NULL) {
fprintf(stderr, "ERROR: failed opening/creating '%s' as Zip file\n", zipFileName);
goto bail;
}
for (int i = 1; i < bundle->getFileSpecCount(); i++) {
const char* fileName = bundle->getFileSpecEntry(i);
if (strcasecmp(String8(fileName).getPathExtension().string(), ".gz") == 0) {
printf(" '%s'... (from gzip)\n", fileName);
result = zip->addGzip(fileName, String8(fileName).getBasePath().string(), NULL);
} else {
if (bundle->getJunkPath()) {
String8 storageName = String8(fileName).getPathLeaf();
printf(" '%s' as '%s'...\n", fileName,
ResTable::normalizeForOutput(storageName.string()).string());
result = zip->add(fileName, storageName.string(),
bundle->getCompressionMethod(), NULL);
} else {
printf(" '%s'...\n", fileName);
result = zip->add(fileName, bundle->getCompressionMethod(), NULL);
}
}
if (result != NO_ERROR) {
fprintf(stderr, "Unable to add '%s' to '%s'", bundle->getFileSpecEntry(i), zipFileName);
if (result == NAME_NOT_FOUND) {
fprintf(stderr, ": file not found\n");
} else if (result == ALREADY_EXISTS) {
fprintf(stderr, ": already exists in archive\n");
} else {
fprintf(stderr, "\n");
}
goto bail;
}
}
result = NO_ERROR;
bail:
delete zip;
return (result != NO_ERROR);
}
/*
* Delete files from an existing archive.
*/
int doRemove(Bundle* bundle)
{
ZipFile* zip = NULL;
status_t result = UNKNOWN_ERROR;
const char* zipFileName;
if (bundle->getFileSpecCount() < 1) {
fprintf(stderr, "ERROR: must specify zip file name\n");
goto bail;
}
zipFileName = bundle->getFileSpecEntry(0);
if (bundle->getFileSpecCount() < 2) {
fprintf(stderr, "NOTE: nothing to do\n");
goto bail;
}
zip = openReadWrite(zipFileName, false);
if (zip == NULL) {
fprintf(stderr, "ERROR: failed opening Zip archive '%s'\n",
zipFileName);
goto bail;
}
for (int i = 1; i < bundle->getFileSpecCount(); i++) {
const char* fileName = bundle->getFileSpecEntry(i);
ZipEntry* entry;
entry = zip->getEntryByName(fileName);
if (entry == NULL) {
printf(" '%s' NOT FOUND\n", fileName);
continue;
}
result = zip->remove(entry);
if (result != NO_ERROR) {
fprintf(stderr, "Unable to delete '%s' from '%s'\n",
bundle->getFileSpecEntry(i), zipFileName);
goto bail;
}
}
/* update the archive */
zip->flush();
bail:
delete zip;
return (result != NO_ERROR);
}
static status_t addResourcesToBuilder(const sp<AaptDir>& dir, const sp<ApkBuilder>& builder, bool ignoreConfig=false) {
const size_t numDirs = dir->getDirs().size();
for (size_t i = 0; i < numDirs; i++) {
bool ignore = ignoreConfig;
const sp<AaptDir>& subDir = dir->getDirs().valueAt(i);
const char* dirStr = subDir->getLeaf().string();
if (!ignore && strstr(dirStr, "mipmap") == dirStr) {
ignore = true;
}
status_t err = addResourcesToBuilder(subDir, builder, ignore);
if (err != NO_ERROR) {
return err;
}
}
const size_t numFiles = dir->getFiles().size();
for (size_t i = 0; i < numFiles; i++) {
sp<AaptGroup> gp = dir->getFiles().valueAt(i);
const size_t numConfigs = gp->getFiles().size();
for (size_t j = 0; j < numConfigs; j++) {
status_t err = NO_ERROR;
if (ignoreConfig) {
err = builder->getBaseSplit()->addEntry(gp->getPath(), gp->getFiles().valueAt(j));
} else {
err = builder->addEntry(gp->getPath(), gp->getFiles().valueAt(j));
}
if (err != NO_ERROR) {
fprintf(stderr, "Failed to add %s (%s) to builder.\n",
gp->getPath().string(), gp->getFiles()[j]->getPrintableSource().string());
return err;
}
}
}
return NO_ERROR;
}
static String8 buildApkName(const String8& original, const sp<ApkSplit>& split) {
if (split->isBase()) {
return original;
}
String8 ext(original.getPathExtension());
if (ext == String8(".apk")) {
return String8::format("%s_%s%s",
original.getBasePath().string(),
split->getDirectorySafeName().string(),
ext.string());
}
return String8::format("%s_%s", original.string(),
split->getDirectorySafeName().string());
}
/*
* Package up an asset directory and associated application files.
*/
int doPackage(Bundle* bundle)
{
const char* outputAPKFile;
int retVal = 1;
status_t err;
sp<AaptAssets> assets;
int N;
FILE* fp;
String8 dependencyFile;
sp<ApkBuilder> builder;
// -c en_XA or/and ar_XB means do pseudolocalization
sp<WeakResourceFilter> configFilter = new WeakResourceFilter();
err = configFilter->parse(bundle->getConfigurations());
if (err != NO_ERROR) {
goto bail;
}
if (configFilter->containsPseudo()) {
bundle->setPseudolocalize(bundle->getPseudolocalize() | PSEUDO_ACCENTED);
}
if (configFilter->containsPseudoBidi()) {
bundle->setPseudolocalize(bundle->getPseudolocalize() | PSEUDO_BIDI);
}
N = bundle->getFileSpecCount();
if (N < 1 && bundle->getResourceSourceDirs().size() == 0 && bundle->getJarFiles().size() == 0
&& bundle->getAndroidManifestFile() == NULL && bundle->getAssetSourceDirs().size() == 0) {
fprintf(stderr, "ERROR: no input files\n");
goto bail;
}
outputAPKFile = bundle->getOutputAPKFile();
// Make sure the filenames provided exist and are of the appropriate type.
if (outputAPKFile) {
FileType type;
type = getFileType(outputAPKFile);
if (type != kFileTypeNonexistent && type != kFileTypeRegular) {
fprintf(stderr,
"ERROR: output file '%s' exists but is not regular file\n",
outputAPKFile);
goto bail;
}
}
// Load the assets.
assets = new AaptAssets();
// Set up the resource gathering in assets if we're going to generate
// dependency files. Every time we encounter a resource while slurping
// the tree, we'll add it to these stores so we have full resource paths
// to write to a dependency file.
if (bundle->getGenDependencies()) {
sp<FilePathStore> resPathStore = new FilePathStore;
assets->setFullResPaths(resPathStore);
sp<FilePathStore> assetPathStore = new FilePathStore;
assets->setFullAssetPaths(assetPathStore);
}
err = assets->slurpFromArgs(bundle);
if (err < 0) {
goto bail;
}
if (bundle->getVerbose()) {
assets->print(String8());
}
// Create the ApkBuilder, which will collect the compiled files
// to write to the final APK (or sets of APKs if we are building
// a Split APK.
builder = new ApkBuilder(configFilter);
// If we are generating a Split APK, find out which configurations to split on.
if (bundle->getSplitConfigurations().size() > 0) {
const Vector<String8>& splitStrs = bundle->getSplitConfigurations();
const size_t numSplits = splitStrs.size();
for (size_t i = 0; i < numSplits; i++) {
std::set<ConfigDescription> configs;
if (!AaptConfig::parseCommaSeparatedList(splitStrs[i], &configs)) {
fprintf(stderr, "ERROR: failed to parse split configuration '%s'\n", splitStrs[i].string());
goto bail;
}
err = builder->createSplitForConfigs(configs);
if (err != NO_ERROR) {
goto bail;
}
}
}
// If they asked for any fileAs that need to be compiled, do so.
if (bundle->getResourceSourceDirs().size() || bundle->getAndroidManifestFile()) {
err = buildResources(bundle, assets, builder);
if (err != 0) {
goto bail;
}
}
// At this point we've read everything and processed everything. From here
// on out it's just writing output files.
if (SourcePos::hasErrors()) {
goto bail;
}
// Update symbols with information about which ones are needed as Java symbols.
assets->applyJavaSymbols();
if (SourcePos::hasErrors()) {
goto bail;
}
// If we've been asked to generate a dependency file, do that here
if (bundle->getGenDependencies()) {
// If this is the packaging step, generate the dependency file next to
// the output apk (e.g. bin/resources.ap_.d)
if (outputAPKFile) {
dependencyFile = String8(outputAPKFile);
// Add the .d extension to the dependency file.
dependencyFile.append(".d");
} else {
// Else if this is the R.java dependency generation step,
// generate the dependency file in the R.java package subdirectory
// e.g. gen/com/foo/app/R.java.d
dependencyFile = String8(bundle->getRClassDir());
dependencyFile.appendPath("R.java.d");
}
// Make sure we have a clean dependency file to start with
fp = fopen(dependencyFile, "w");
fclose(fp);
}
// Write out R.java constants
if (!assets->havePrivateSymbols()) {
if (bundle->getCustomPackage() == NULL) {
// Write the R.java file into the appropriate class directory
// e.g. gen/com/foo/app/R.java
err = writeResourceSymbols(bundle, assets, assets->getPackage(), true,
bundle->getBuildSharedLibrary());
} else {
const String8 customPkg(bundle->getCustomPackage());
err = writeResourceSymbols(bundle, assets, customPkg, true,
bundle->getBuildSharedLibrary());
}
if (err < 0) {
goto bail;
}
// If we have library files, we're going to write our R.java file into
// the appropriate class directory for those libraries as well.
// e.g. gen/com/foo/app/lib/R.java
if (bundle->getExtraPackages() != NULL) {
// Split on colon
String8 libs(bundle->getExtraPackages());
char* packageString = strtok(libs.lockBuffer(libs.length()), ":");
while (packageString != NULL) {
// Write the R.java file out with the correct package name
err = writeResourceSymbols(bundle, assets, String8(packageString), true, false);
if (err < 0) {
goto bail;
}
packageString = strtok(NULL, ":");
}
libs.unlockBuffer();
}
} else {
err = writeResourceSymbols(bundle, assets, assets->getPackage(), false, false);
if (err < 0) {
goto bail;
}
err = writeResourceSymbols(bundle, assets, assets->getSymbolsPrivatePackage(), true, false);
if (err < 0) {
goto bail;
}
}
// Write out the ProGuard file
err = writeProguardFile(bundle, assets);
if (err < 0) {
goto bail;
}
// Write the apk
if (outputAPKFile) {
// Gather all resources and add them to the APK Builder. The builder will then
// figure out which Split they belong in.
err = addResourcesToBuilder(assets, builder);
if (err != NO_ERROR) {
goto bail;
}
const Vector<sp<ApkSplit> >& splits = builder->getSplits();
const size_t numSplits = splits.size();
for (size_t i = 0; i < numSplits; i++) {
const sp<ApkSplit>& split = splits[i];
String8 outputPath = buildApkName(String8(outputAPKFile), split);
err = writeAPK(bundle, outputPath, split);
if (err != NO_ERROR) {
fprintf(stderr, "ERROR: packaging of '%s' failed\n", outputPath.string());
goto bail;
}
}
}
// If we've been asked to generate a dependency file, we need to finish up here.
// the writeResourceSymbols and writeAPK functions have already written the target
// half of the dependency file, now we need to write the prerequisites. (files that
// the R.java file or .ap_ file depend on)
if (bundle->getGenDependencies()) {
// Now that writeResourceSymbols or writeAPK has taken care of writing
// the targets to our dependency file, we'll write the prereqs
fp = fopen(dependencyFile, "a+");
fprintf(fp, " : ");
bool includeRaw = (outputAPKFile != NULL);
err = writeDependencyPreReqs(bundle, assets, fp, includeRaw);
// Also manually add the AndroidManifeset since it's not under res/ or assets/
// and therefore was not added to our pathstores during slurping
fprintf(fp, "%s \\\n", bundle->getAndroidManifestFile());
fclose(fp);
}
retVal = 0;
bail:
if (SourcePos::hasErrors()) {
SourcePos::printErrors(stderr);
}
return retVal;
}
/*
* Do PNG Crunching
* PRECONDITIONS
* -S flag points to a source directory containing drawable* folders
* -C flag points to destination directory. The folder structure in the
* source directory will be mirrored to the destination (cache) directory
*
* POSTCONDITIONS
* Destination directory will be updated to match the PNG files in
* the source directory.
*/
int doCrunch(Bundle* bundle)
{
fprintf(stdout, "Crunching PNG Files in ");
fprintf(stdout, "source dir: %s\n", bundle->getResourceSourceDirs()[0]);
fprintf(stdout, "To destination dir: %s\n", bundle->getCrunchedOutputDir());
updatePreProcessedCache(bundle);
return NO_ERROR;
}
/*
* Do PNG Crunching on a single flag
* -i points to a single png file
* -o points to a single png output file
*/
int doSingleCrunch(Bundle* bundle)
{
fprintf(stdout, "Crunching single PNG file: %s\n", bundle->getSingleCrunchInputFile());
fprintf(stdout, "\tOutput file: %s\n", bundle->getSingleCrunchOutputFile());
String8 input(bundle->getSingleCrunchInputFile());
String8 output(bundle->getSingleCrunchOutputFile());
if (preProcessImageToCache(bundle, input, output) != NO_ERROR) {
// we can't return the status_t as it gets truncate to the lower 8 bits.
return 42;
}
return NO_ERROR;
}
char CONSOLE_DATA[2925] = {
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81, 68, 32, 32, 32,