// // Copyright 2006 The Android Open Source Project // // Build resource files from raw assets. // #include "AaptAssets.h" #include "AaptXml.h" #include "CacheUpdater.h" #include "CrunchCache.h" #include "FileFinder.h" #include "Images.h" #include "IndentPrinter.h" #include "Main.h" #include "ResourceTable.h" #include "StringPool.h" #include "WorkQueue.h" #include "XMLNode.h" #if HAVE_PRINTF_ZD # define ZD "%zd" # define ZD_TYPE ssize_t #else # define ZD "%ld" # define ZD_TYPE long #endif #define NOISY(x) // x // Number of threads to use for preprocessing images. static const size_t MAX_THREADS = 4; // ========================================================================== // ========================================================================== // ========================================================================== class PackageInfo { public: PackageInfo() { } ~PackageInfo() { } status_t parsePackage(const sp& grp); }; // ========================================================================== // ========================================================================== // ========================================================================== String8 parseResourceName(const String8& leaf) { const char* firstDot = strchr(leaf.string(), '.'); const char* str = leaf.string(); if (firstDot) { return String8(str, firstDot-str); } else { return String8(str); } } ResourceTypeSet::ResourceTypeSet() :RefBase(), KeyedVector >() { } FilePathStore::FilePathStore() :RefBase(), Vector() { } class ResourceDirIterator { public: ResourceDirIterator(const sp& set, const String8& resType) : mResType(resType), mSet(set), mSetPos(0), mGroupPos(0) { memset(&mParams, 0, sizeof(ResTable_config)); } inline const sp& getGroup() const { return mGroup; } inline const sp& getFile() const { return mFile; } inline const String8& getBaseName() const { return mBaseName; } inline const String8& getLeafName() const { return mLeafName; } inline String8 getPath() const { return mPath; } inline const ResTable_config& getParams() const { return mParams; } enum { EOD = 1 }; ssize_t next() { while (true) { sp group; sp file; // Try to get next file in this current group. if (mGroup != NULL && mGroupPos < mGroup->getFiles().size()) { group = mGroup; file = group->getFiles().valueAt(mGroupPos++); // Try to get the next group/file in this directory } else if (mSetPos < mSet->size()) { mGroup = group = mSet->valueAt(mSetPos++); if (group->getFiles().size() < 1) { continue; } file = group->getFiles().valueAt(0); mGroupPos = 1; // All done! } else { return EOD; } mFile = file; String8 leaf(group->getLeaf()); mLeafName = String8(leaf); mParams = file->getGroupEntry().toParams(); NOISY(printf("Dir %s: mcc=%d mnc=%d lang=%c%c cnt=%c%c orient=%d ui=%d density=%d touch=%d key=%d inp=%d nav=%d\n", group->getPath().string(), mParams.mcc, mParams.mnc, mParams.language[0] ? mParams.language[0] : '-', mParams.language[1] ? mParams.language[1] : '-', mParams.country[0] ? mParams.country[0] : '-', mParams.country[1] ? mParams.country[1] : '-', mParams.orientation, mParams.uiMode, mParams.density, mParams.touchscreen, mParams.keyboard, mParams.inputFlags, mParams.navigation)); mPath = "res"; mPath.appendPath(file->getGroupEntry().toDirName(mResType)); mPath.appendPath(leaf); mBaseName = parseResourceName(leaf); if (mBaseName == "") { fprintf(stderr, "Error: malformed resource filename %s\n", file->getPrintableSource().string()); return UNKNOWN_ERROR; } NOISY(printf("file name=%s\n", mBaseName.string())); return NO_ERROR; } } private: String8 mResType; const sp mSet; size_t mSetPos; sp mGroup; size_t mGroupPos; sp mFile; String8 mBaseName; String8 mLeafName; String8 mPath; ResTable_config mParams; }; class AnnotationProcessor { public: AnnotationProcessor() : mDeprecated(false), mSystemApi(false) { } void preprocessComment(String8& comment) { if (comment.size() > 0) { if (comment.contains("@deprecated")) { mDeprecated = true; } if (comment.removeAll("@SystemApi")) { mSystemApi = true; } } } void printAnnotations(FILE* fp, const char* indentStr) { if (mDeprecated) { fprintf(fp, "%s@Deprecated\n", indentStr); } if (mSystemApi) { fprintf(fp, "%s@android.annotation.SystemApi\n", indentStr); } } private: bool mDeprecated; bool mSystemApi; }; // ========================================================================== // ========================================================================== // ========================================================================== bool isValidResourceType(const String8& type) { return type == "anim" || type == "animator" || type == "interpolator" || type == "transition" || type == "drawable" || type == "layout" || type == "values" || type == "xml" || type == "raw" || type == "color" || type == "menu" || type == "mipmap"; } static status_t parsePackage(Bundle* bundle, const sp& assets, const sp& grp) { if (grp->getFiles().size() != 1) { fprintf(stderr, "warning: Multiple AndroidManifest.xml files found, using %s\n", grp->getFiles().valueAt(0)->getPrintableSource().string()); } sp file = grp->getFiles().valueAt(0); ResXMLTree block; status_t err = parseXMLResource(file, &block); if (err != NO_ERROR) { return err; } //printXMLBlock(&block); ResXMLTree::event_code_t code; while ((code=block.next()) != ResXMLTree::START_TAG && code != ResXMLTree::END_DOCUMENT && code != ResXMLTree::BAD_DOCUMENT) { } size_t len; if (code != ResXMLTree::START_TAG) { fprintf(stderr, "%s:%d: No start tag found\n", file->getPrintableSource().string(), block.getLineNumber()); return UNKNOWN_ERROR; } if (strcmp16(block.getElementName(&len), String16("manifest").string()) != 0) { fprintf(stderr, "%s:%d: Invalid start tag %s, expected \n", file->getPrintableSource().string(), block.getLineNumber(), String8(block.getElementName(&len)).string()); return UNKNOWN_ERROR; } ssize_t nameIndex = block.indexOfAttribute(NULL, "package"); if (nameIndex < 0) { fprintf(stderr, "%s:%d: does not have package attribute.\n", file->getPrintableSource().string(), block.getLineNumber()); return UNKNOWN_ERROR; } assets->setPackage(String8(block.getAttributeStringValue(nameIndex, &len))); String16 uses_sdk16("uses-sdk"); while ((code=block.next()) != ResXMLTree::END_DOCUMENT && code != ResXMLTree::BAD_DOCUMENT) { if (code == ResXMLTree::START_TAG) { if (strcmp16(block.getElementName(&len), uses_sdk16.string()) == 0) { ssize_t minSdkIndex = block.indexOfAttribute(RESOURCES_ANDROID_NAMESPACE, "minSdkVersion"); if (minSdkIndex >= 0) { const uint16_t* minSdk16 = block.getAttributeStringValue(minSdkIndex, &len); const char* minSdk8 = strdup(String8(minSdk16).string()); bundle->setManifestMinSdkVersion(minSdk8); } } } } return NO_ERROR; } // ========================================================================== // ========================================================================== // ========================================================================== static status_t makeFileResources(Bundle* bundle, const sp& assets, ResourceTable* table, const sp& set, const char* resType) { String8 type8(resType); String16 type16(resType); bool hasErrors = false; ResourceDirIterator it(set, String8(resType)); ssize_t res; while ((res=it.next()) == NO_ERROR) { if (bundle->getVerbose()) { printf(" (new resource id %s from %s)\n", it.getBaseName().string(), it.getFile()->getPrintableSource().string()); } String16 baseName(it.getBaseName()); const char16_t* str = baseName.string(); const char16_t* const end = str + baseName.size(); while (str < end) { if (!((*str >= 'a' && *str <= 'z') || (*str >= '0' && *str <= '9') || *str == '_' || *str == '.')) { fprintf(stderr, "%s: Invalid file name: must contain only [a-z0-9_.]\n", it.getPath().string()); hasErrors = true; } str++; } String8 resPath = it.getPath(); resPath.convertToResPath(); table->addEntry(SourcePos(it.getPath(), 0), String16(assets->getPackage()), type16, baseName, String16(resPath), NULL, &it.getParams()); assets->addResource(it.getLeafName(), resPath, it.getFile(), type8); } return hasErrors ? UNKNOWN_ERROR : NO_ERROR; } class PreProcessImageWorkUnit : public WorkQueue::WorkUnit { public: PreProcessImageWorkUnit(const Bundle* bundle, const sp& assets, const sp& file, volatile bool* hasErrors) : mBundle(bundle), mAssets(assets), mFile(file), mHasErrors(hasErrors) { } virtual bool run() { status_t status = preProcessImage(mBundle, mAssets, mFile, NULL); if (status) { *mHasErrors = true; } return true; // continue even if there are errors } private: const Bundle* mBundle; sp mAssets; sp mFile; volatile bool* mHasErrors; }; static status_t preProcessImages(const Bundle* bundle, const sp& assets, const sp& set, const char* type) { volatile bool hasErrors = false; ssize_t res = NO_ERROR; if (bundle->getUseCrunchCache() == false) { WorkQueue wq(MAX_THREADS, false); ResourceDirIterator it(set, String8(type)); while ((res=it.next()) == NO_ERROR) { PreProcessImageWorkUnit* w = new PreProcessImageWorkUnit( bundle, assets, it.getFile(), &hasErrors); status_t status = wq.schedule(w); if (status) { fprintf(stderr, "preProcessImages failed: schedule() returned %d\n", status); hasErrors = true; delete w; break; } } status_t status = wq.finish(); if (status) { fprintf(stderr, "preProcessImages failed: finish() returned %d\n", status); hasErrors = true; } } return (hasErrors || (res < NO_ERROR)) ? UNKNOWN_ERROR : NO_ERROR; } static void collect_files(const sp& dir, KeyedVector >* resources) { const DefaultKeyedVector >& groups = dir->getFiles(); int N = groups.size(); for (int i=0; i& group = groups.valueAt(i); const DefaultKeyedVector >& files = group->getFiles(); if (files.size() == 0) { continue; } String8 resType = files.valueAt(0)->getResourceType(); ssize_t index = resources->indexOfKey(resType); if (index < 0) { sp set = new ResourceTypeSet(); NOISY(printf("Creating new resource type set for leaf %s with group %s (%p)\n", leafName.string(), group->getPath().string(), group.get())); set->add(leafName, group); resources->add(resType, set); } else { sp set = resources->valueAt(index); index = set->indexOfKey(leafName); if (index < 0) { NOISY(printf("Adding to resource type set for leaf %s group %s (%p)\n", leafName.string(), group->getPath().string(), group.get())); set->add(leafName, group); } else { sp existingGroup = set->valueAt(index); NOISY(printf("Extending to resource type set for leaf %s group %s (%p)\n", leafName.string(), group->getPath().string(), group.get())); for (size_t j=0; jgetSourceFile().string(), files.keyAt(j).toDirName(String8()).string(), resType.string())); status_t err = existingGroup->addFile(files.valueAt(j)); } } } } } static void collect_files(const sp& ass, KeyedVector >* resources) { const Vector >& dirs = ass->resDirs(); int N = dirs.size(); for (int i=0; i d = dirs.itemAt(i); NOISY(printf("Collecting dir #%d %p: %s, leaf %s\n", i, d.get(), d->getPath().string(), d->getLeaf().string())); collect_files(d, resources); // don't try to include the res dir NOISY(printf("Removing dir leaf %s\n", d->getLeaf().string())); ass->removeDir(d->getLeaf()); } } enum { ATTR_OKAY = -1, ATTR_NOT_FOUND = -2, ATTR_LEADING_SPACES = -3, ATTR_TRAILING_SPACES = -4 }; static int validateAttr(const String8& path, const ResTable& table, const ResXMLParser& parser, const char* ns, const char* attr, const char* validChars, bool required) { size_t len; ssize_t index = parser.indexOfAttribute(ns, attr); const uint16_t* str; Res_value value; if (index >= 0 && parser.getAttributeValue(index, &value) >= 0) { const ResStringPool* pool = &parser.getStrings(); if (value.dataType == Res_value::TYPE_REFERENCE) { uint32_t specFlags = 0; int strIdx; if ((strIdx=table.resolveReference(&value, 0x10000000, NULL, &specFlags)) < 0) { fprintf(stderr, "%s:%d: Tag <%s> attribute %s references unknown resid 0x%08x.\n", path.string(), parser.getLineNumber(), String8(parser.getElementName(&len)).string(), attr, value.data); return ATTR_NOT_FOUND; } pool = table.getTableStringBlock(strIdx); #if 0 if (pool != NULL) { str = pool->stringAt(value.data, &len); } printf("***** RES ATTR: %s specFlags=0x%x strIdx=%d: %s\n", attr, specFlags, strIdx, str != NULL ? String8(str).string() : "???"); #endif if ((specFlags&~ResTable_typeSpec::SPEC_PUBLIC) != 0 && false) { fprintf(stderr, "%s:%d: Tag <%s> attribute %s varies by configurations 0x%x.\n", path.string(), parser.getLineNumber(), String8(parser.getElementName(&len)).string(), attr, specFlags); return ATTR_NOT_FOUND; } } if (value.dataType == Res_value::TYPE_STRING) { if (pool == NULL) { fprintf(stderr, "%s:%d: Tag <%s> attribute %s has no string block.\n", path.string(), parser.getLineNumber(), String8(parser.getElementName(&len)).string(), attr); return ATTR_NOT_FOUND; } if ((str=pool->stringAt(value.data, &len)) == NULL) { fprintf(stderr, "%s:%d: Tag <%s> attribute %s has corrupt string value.\n", path.string(), parser.getLineNumber(), String8(parser.getElementName(&len)).string(), attr); return ATTR_NOT_FOUND; } } else { fprintf(stderr, "%s:%d: Tag <%s> attribute %s has invalid type %d.\n", path.string(), parser.getLineNumber(), String8(parser.getElementName(&len)).string(), attr, value.dataType); return ATTR_NOT_FOUND; } if (validChars) { for (size_t i=0; i attribute %s has invalid character '%c'.\n", path.string(), parser.getLineNumber(), String8(parser.getElementName(&len)).string(), attr, (char)str[i]); return (int)i; } } } if (*str == ' ') { fprintf(stderr, "%s:%d: Tag <%s> attribute %s can not start with a space.\n", path.string(), parser.getLineNumber(), String8(parser.getElementName(&len)).string(), attr); return ATTR_LEADING_SPACES; } if (str[len-1] == ' ') { fprintf(stderr, "%s:%d: Tag <%s> attribute %s can not end with a space.\n", path.string(), parser.getLineNumber(), String8(parser.getElementName(&len)).string(), attr); return ATTR_TRAILING_SPACES; } return ATTR_OKAY; } if (required) { fprintf(stderr, "%s:%d: Tag <%s> missing required attribute %s.\n", path.string(), parser.getLineNumber(), String8(parser.getElementName(&len)).string(), attr); return ATTR_NOT_FOUND; } return ATTR_OKAY; } static void checkForIds(const String8& path, ResXMLParser& parser) { ResXMLTree::event_code_t code; while ((code=parser.next()) != ResXMLTree::END_DOCUMENT && code > ResXMLTree::BAD_DOCUMENT) { if (code == ResXMLTree::START_TAG) { ssize_t index = parser.indexOfAttribute(NULL, "id"); if (index >= 0) { fprintf(stderr, "%s:%d: warning: found plain 'id' attribute; did you mean the new 'android:id' name?\n", path.string(), parser.getLineNumber()); } } } } static bool applyFileOverlay(Bundle *bundle, const sp& assets, sp *baseSet, const char *resType) { if (bundle->getVerbose()) { printf("applyFileOverlay for %s\n", resType); } // Replace any base level files in this category with any found from the overlay // Also add any found only in the overlay. sp overlay = assets->getOverlay(); String8 resTypeString(resType); // work through the linked list of overlays while (overlay.get()) { KeyedVector >* overlayRes = overlay->getResources(); // get the overlay resources of the requested type ssize_t index = overlayRes->indexOfKey(resTypeString); if (index >= 0) { sp overlaySet = overlayRes->valueAt(index); // for each of the resources, check for a match in the previously built // non-overlay "baseset". size_t overlayCount = overlaySet->size(); for (size_t overlayIndex=0; overlayIndexgetVerbose()) { printf("trying overlaySet Key=%s\n",overlaySet->keyAt(overlayIndex).string()); } ssize_t baseIndex = -1; if (baseSet->get() != NULL) { baseIndex = (*baseSet)->indexOfKey(overlaySet->keyAt(overlayIndex)); } if (baseIndex >= 0) { // look for same flavor. For a given file (strings.xml, for example) // there may be a locale specific or other flavors - we want to match // the same flavor. sp overlayGroup = overlaySet->valueAt(overlayIndex); sp baseGroup = (*baseSet)->valueAt(baseIndex); DefaultKeyedVector > overlayFiles = overlayGroup->getFiles(); if (bundle->getVerbose()) { DefaultKeyedVector > baseFiles = baseGroup->getFiles(); for (size_t i=0; i < baseFiles.size(); i++) { printf("baseFile " ZD " has flavor %s\n", (ZD_TYPE) i, baseFiles.keyAt(i).toString().string()); } for (size_t i=0; i < overlayFiles.size(); i++) { printf("overlayFile " ZD " has flavor %s\n", (ZD_TYPE) i, overlayFiles.keyAt(i).toString().string()); } } size_t overlayGroupSize = overlayFiles.size(); for (size_t overlayGroupIndex = 0; overlayGroupIndexgetFiles().indexOfKey(overlayFiles. keyAt(overlayGroupIndex)); if (baseFileIndex >= 0) { if (bundle->getVerbose()) { printf("found a match (" ZD ") for overlay file %s, for flavor %s\n", (ZD_TYPE) baseFileIndex, overlayGroup->getLeaf().string(), overlayFiles.keyAt(overlayGroupIndex).toString().string()); } baseGroup->removeFile(baseFileIndex); } else { // didn't find a match fall through and add it.. if (true || bundle->getVerbose()) { printf("nothing matches overlay file %s, for flavor %s\n", overlayGroup->getLeaf().string(), overlayFiles.keyAt(overlayGroupIndex).toString().string()); } } baseGroup->addFile(overlayFiles.valueAt(overlayGroupIndex)); assets->addGroupEntry(overlayFiles.keyAt(overlayGroupIndex)); } } else { if (baseSet->get() == NULL) { *baseSet = new ResourceTypeSet(); assets->getResources()->add(String8(resType), *baseSet); } // this group doesn't exist (a file that's only in the overlay) (*baseSet)->add(overlaySet->keyAt(overlayIndex), overlaySet->valueAt(overlayIndex)); // make sure all flavors are defined in the resources. sp overlayGroup = overlaySet->valueAt(overlayIndex); DefaultKeyedVector > overlayFiles = overlayGroup->getFiles(); size_t overlayGroupSize = overlayFiles.size(); for (size_t overlayGroupIndex = 0; overlayGroupIndexaddGroupEntry(overlayFiles.keyAt(overlayGroupIndex)); } } } // this overlay didn't have resources for this type } // try next overlay overlay = overlay->getOverlay(); } return true; } /* * Inserts an attribute in a given node. * If errorOnFailedInsert is true, and the attribute already exists, returns false. * If replaceExisting is true, the attribute will be updated if it already exists. * Returns true otherwise, even if the attribute already exists, and does not modify * the existing attribute's value. */ bool addTagAttribute(const sp& node, const char* ns8, const char* attr8, const char* value, bool errorOnFailedInsert, bool replaceExisting) { if (value == NULL) { return true; } const String16 ns(ns8); const String16 attr(attr8); XMLNode::attribute_entry* existingEntry = node->editAttribute(ns, attr); if (existingEntry != NULL) { if (replaceExisting) { NOISY(printf("Info: AndroidManifest.xml already defines %s (in %s);" " overwriting existing value from manifest.\n", String8(attr).string(), String8(ns).string())); existingEntry->string = String16(value); return true; } if (errorOnFailedInsert) { fprintf(stderr, "Error: AndroidManifest.xml already defines %s (in %s);" " cannot insert new value %s.\n", String8(attr).string(), String8(ns).string(), value); return false; } fprintf(stderr, "Warning: AndroidManifest.xml already defines %s (in %s);" " using existing value in manifest.\n", String8(attr).string(), String8(ns).string()); // don't stop the build. return true; } node->addAttribute(ns, attr, String16(value)); return true; } /* * Inserts an attribute in a given node, only if the attribute does not * exist. * If errorOnFailedInsert is true, and the attribute already exists, returns false. * Returns true otherwise, even if the attribute already exists. */ bool addTagAttribute(const sp& node, const char* ns8, const char* attr8, const char* value, bool errorOnFailedInsert) { return addTagAttribute(node, ns8, attr8, value, errorOnFailedInsert, false); } static void fullyQualifyClassName(const String8& package, sp node, const String16& attrName) { XMLNode::attribute_entry* attr = node->editAttribute( String16("http://schemas.android.com/apk/res/android"), attrName); if (attr != NULL) { String8 name(attr->string); // asdf --> package.asdf // .asdf .a.b --> package.asdf package.a.b // asdf.adsf --> asdf.asdf String8 className; const char* p = name.string(); const char* q = strchr(p, '.'); if (p == q) { className += package; className += name; } else if (q == NULL) { className += package; className += "."; className += name; } else { className += name; } NOISY(printf("Qualifying class '%s' to '%s'", name.string(), className.string())); attr->string.setTo(String16(className)); } } status_t massageManifest(Bundle* bundle, sp root) { root = root->searchElement(String16(), String16("manifest")); if (root == NULL) { fprintf(stderr, "No tag.\n"); return UNKNOWN_ERROR; } bool errorOnFailedInsert = bundle->getErrorOnFailedInsert(); bool replaceVersion = bundle->getReplaceVersion(); if (!addTagAttribute(root, RESOURCES_ANDROID_NAMESPACE, "versionCode", bundle->getVersionCode(), errorOnFailedInsert, replaceVersion)) { return UNKNOWN_ERROR; } else { const XMLNode::attribute_entry* attr = root->getAttribute( String16(RESOURCES_ANDROID_NAMESPACE), String16("versionCode")); if (attr != NULL) { bundle->setVersionCode(strdup(String8(attr->string).string())); } } if (!addTagAttribute(root, RESOURCES_ANDROID_NAMESPACE, "versionName", bundle->getVersionName(), errorOnFailedInsert, replaceVersion)) { return UNKNOWN_ERROR; } else { const XMLNode::attribute_entry* attr = root->getAttribute( String16(RESOURCES_ANDROID_NAMESPACE), String16("versionName")); if (attr != NULL) { bundle->setVersionName(strdup(String8(attr->string).string())); } } sp vers = root->getChildElement(String16(), String16("uses-sdk")); if (bundle->getMinSdkVersion() != NULL || bundle->getTargetSdkVersion() != NULL || bundle->getMaxSdkVersion() != NULL) { if (vers == NULL) { vers = XMLNode::newElement(root->getFilename(), String16(), String16("uses-sdk")); root->insertChildAt(vers, 0); } if (!addTagAttribute(vers, RESOURCES_ANDROID_NAMESPACE, "minSdkVersion", bundle->getMinSdkVersion(), errorOnFailedInsert)) { return UNKNOWN_ERROR; } if (!addTagAttribute(vers, RESOURCES_ANDROID_NAMESPACE, "targetSdkVersion", bundle->getTargetSdkVersion(), errorOnFailedInsert)) { return UNKNOWN_ERROR; } if (!addTagAttribute(vers, RESOURCES_ANDROID_NAMESPACE, "maxSdkVersion", bundle->getMaxSdkVersion(), errorOnFailedInsert)) { return UNKNOWN_ERROR; } } if (vers != NULL) { const XMLNode::attribute_entry* attr = vers->getAttribute( String16(RESOURCES_ANDROID_NAMESPACE), String16("minSdkVersion")); if (attr != NULL) { bundle->setMinSdkVersion(strdup(String8(attr->string).string())); } } if (bundle->getPlatformBuildVersionCode() != "") { if (!addTagAttribute(root, "", "platformBuildVersionCode", bundle->getPlatformBuildVersionCode(), errorOnFailedInsert, true)) { return UNKNOWN_ERROR; } } if (bundle->getPlatformBuildVersionName() != "") { if (!addTagAttribute(root, "", "platformBuildVersionName", bundle->getPlatformBuildVersionName(), errorOnFailedInsert, true)) { return UNKNOWN_ERROR; } } if (bundle->getDebugMode()) { sp application = root->getChildElement(String16(), String16("application")); if (application != NULL) { if (!addTagAttribute(application, RESOURCES_ANDROID_NAMESPACE, "debuggable", "true", errorOnFailedInsert)) { return UNKNOWN_ERROR; } } } // Deal with manifest package name overrides const char* manifestPackageNameOverride = bundle->getManifestPackageNameOverride(); if (manifestPackageNameOverride != NULL) { // Update the actual package name XMLNode::attribute_entry* attr = root->editAttribute(String16(), String16("package")); if (attr == NULL) { fprintf(stderr, "package name is required with --rename-manifest-package.\n"); return UNKNOWN_ERROR; } String8 origPackage(attr->string); attr->string.setTo(String16(manifestPackageNameOverride)); NOISY(printf("Overriding package '%s' to be '%s'\n", origPackage.string(), manifestPackageNameOverride)); // Make class names fully qualified sp application = root->getChildElement(String16(), String16("application")); if (application != NULL) { fullyQualifyClassName(origPackage, application, String16("name")); fullyQualifyClassName(origPackage, application, String16("backupAgent")); Vector >& children = const_cast >&>(application->getChildren()); for (size_t i = 0; i < children.size(); i++) { sp child = children.editItemAt(i); String8 tag(child->getElementName()); if (tag == "activity" || tag == "service" || tag == "receiver" || tag == "provider") { fullyQualifyClassName(origPackage, child, String16("name")); } else if (tag == "activity-alias") { fullyQualifyClassName(origPackage, child, String16("name")); fullyQualifyClassName(origPackage, child, String16("targetActivity")); } } } } // Deal with manifest package name overrides const char* instrumentationPackageNameOverride = bundle->getInstrumentationPackageNameOverride(); if (instrumentationPackageNameOverride != NULL) { // Fix up instrumentation targets. Vector >& children = const_cast >&>(root->getChildren()); for (size_t i = 0; i < children.size(); i++) { sp child = children.editItemAt(i); String8 tag(child->getElementName()); if (tag == "instrumentation") { XMLNode::attribute_entry* attr = child->editAttribute( String16("http://schemas.android.com/apk/res/android"), String16("targetPackage")); if (attr != NULL) { attr->string.setTo(String16(instrumentationPackageNameOverride)); } } } } // Generate split name if feature is present. const XMLNode::attribute_entry* attr = root->getAttribute(String16(), String16("featureName")); if (attr != NULL) { String16 splitName("feature_"); splitName.append(attr->string); status_t err = root->addAttribute(String16(), String16("split"), splitName); if (err != NO_ERROR) { ALOGE("Failed to insert split name into AndroidManifest.xml"); return err; } } return NO_ERROR; } static int32_t getPlatformAssetCookie(const AssetManager& assets) { // Find the system package (0x01). AAPT always generates attributes // with the type 0x01, so we're looking for the first attribute // resource in the system package. const ResTable& table = assets.getResources(true); Res_value val; ssize_t idx = table.getResource(0x01010000, &val, true); if (idx != NO_ERROR) { // Try as a bag. const ResTable::bag_entry* entry; ssize_t cnt = table.lockBag(0x01010000, &entry); if (cnt >= 0) { idx = entry->stringBlock; } table.unlockBag(entry); } if (idx < 0) { return 0; } return table.getTableCookie(idx); } enum { VERSION_CODE_ATTR = 0x0101021b, VERSION_NAME_ATTR = 0x0101021c, }; static ssize_t extractPlatformBuildVersion(ResXMLTree& tree, Bundle* bundle) { size_t len; ResXMLTree::event_code_t code; while ((code = tree.next()) != ResXMLTree::END_DOCUMENT && code != ResXMLTree::BAD_DOCUMENT) { if (code != ResXMLTree::START_TAG) { continue; } const char16_t* ctag16 = tree.getElementName(&len); if (ctag16 == NULL) { fprintf(stderr, "ERROR: failed to get XML element name (bad string pool)\n"); return UNKNOWN_ERROR; } String8 tag(ctag16, len); if (tag != "manifest") { continue; } String8 error; int32_t versionCode = AaptXml::getIntegerAttribute(tree, VERSION_CODE_ATTR, &error); if (error != "") { fprintf(stderr, "ERROR: failed to get platform version code\n"); return UNKNOWN_ERROR; } if (versionCode >= 0 && bundle->getPlatformBuildVersionCode() == "") { bundle->setPlatformBuildVersionCode(String8::format("%d", versionCode)); } String8 versionName = AaptXml::getAttribute(tree, VERSION_NAME_ATTR, &error); if (error != "") { fprintf(stderr, "ERROR: failed to get platform version name\n"); return UNKNOWN_ERROR; } if (versionName != "" && bundle->getPlatformBuildVersionName() == "") { bundle->setPlatformBuildVersionName(versionName); } return NO_ERROR; } fprintf(stderr, "ERROR: no tag found in platform AndroidManifest.xml\n"); return UNKNOWN_ERROR; } static ssize_t extractPlatformBuildVersion(AssetManager& assets, Bundle* bundle) { int32_t cookie = getPlatformAssetCookie(assets); if (cookie == 0) { // No platform was loaded. return NO_ERROR; } ResXMLTree tree; Asset* asset = assets.openNonAsset(cookie, "AndroidManifest.xml", Asset::ACCESS_STREAMING); if (asset == NULL) { fprintf(stderr, "ERROR: Platform AndroidManifest.xml not found\n"); return UNKNOWN_ERROR; } ssize_t result = NO_ERROR; if (tree.setTo(asset->getBuffer(true), asset->getLength()) != NO_ERROR) { fprintf(stderr, "ERROR: Platform AndroidManifest.xml is corrupt\n"); result = UNKNOWN_ERROR; } else { result = extractPlatformBuildVersion(tree, bundle); } delete asset; return result; } #define ASSIGN_IT(n) \ do { \ ssize_t index = resources->indexOfKey(String8(#n)); \ if (index >= 0) { \ n ## s = resources->valueAt(index); \ } \ } while (0) status_t updatePreProcessedCache(Bundle* bundle) { #if BENCHMARK fprintf(stdout, "BENCHMARK: Starting PNG PreProcessing \n"); long startPNGTime = clock(); #endif /* BENCHMARK */ String8 source(bundle->getResourceSourceDirs()[0]); String8 dest(bundle->getCrunchedOutputDir()); FileFinder* ff = new SystemFileFinder(); CrunchCache cc(source,dest,ff); CacheUpdater* cu = new SystemCacheUpdater(bundle); size_t numFiles = cc.crunch(cu); if (bundle->getVerbose()) fprintf(stdout, "Crunched %d PNG files to update cache\n", (int)numFiles); delete ff; delete cu; #if BENCHMARK fprintf(stdout, "BENCHMARK: End PNG PreProcessing. Time Elapsed: %f ms \n" ,(clock() - startPNGTime)/1000.0); #endif /* BENCHMARK */ return 0; } status_t generateAndroidManifestForSplit(Bundle* bundle, const sp& assets, const sp& split, sp& outFile, ResourceTable* table) { const String8 filename("AndroidManifest.xml"); const String16 androidPrefix("android"); const String16 androidNSUri("http://schemas.android.com/apk/res/android"); sp root = XMLNode::newNamespace(filename, androidPrefix, androidNSUri); // Build the tag sp manifest = XMLNode::newElement(filename, String16(), String16("manifest")); // Add the 'package' attribute which is set to the package name. const char* packageName = assets->getPackage(); const char* manifestPackageNameOverride = bundle->getManifestPackageNameOverride(); if (manifestPackageNameOverride != NULL) { packageName = manifestPackageNameOverride; } manifest->addAttribute(String16(), String16("package"), String16(packageName)); // Add the 'versionCode' attribute which is set to the original version code. if (!addTagAttribute(manifest, RESOURCES_ANDROID_NAMESPACE, "versionCode", bundle->getVersionCode(), true, true)) { return UNKNOWN_ERROR; } // Add the 'split' attribute which describes the configurations included. String8 splitName("config."); splitName.append(split->getPackageSafeName()); manifest->addAttribute(String16(), String16("split"), String16(splitName)); // Build an empty tag (required). sp app = XMLNode::newElement(filename, String16(), String16("application")); // Add the 'hasCode' attribute which is never true for resource splits. if (!addTagAttribute(app, RESOURCES_ANDROID_NAMESPACE, "hasCode", "false", true, true)) { return UNKNOWN_ERROR; } manifest->addChild(app); root->addChild(manifest); int err = compileXmlFile(bundle, assets, String16(), root, outFile, table); if (err < NO_ERROR) { return err; } outFile->setCompressionMethod(ZipEntry::kCompressDeflated); return NO_ERROR; } status_t buildResources(Bundle* bundle, const sp& assets, sp& builder) { // First, look for a package file to parse. This is required to // be able to generate the resource information. sp androidManifestFile = assets->getFiles().valueFor(String8("AndroidManifest.xml")); if (androidManifestFile == NULL) { fprintf(stderr, "ERROR: No AndroidManifest.xml file found.\n"); return UNKNOWN_ERROR; } status_t err = parsePackage(bundle, assets, androidManifestFile); if (err != NO_ERROR) { return err; } NOISY(printf("Creating resources for package %s\n", assets->getPackage().string())); ResourceTable::PackageType packageType = ResourceTable::App; if (bundle->getBuildSharedLibrary()) { packageType = ResourceTable::SharedLibrary; } else if (bundle->getExtending()) { packageType = ResourceTable::System; } else if (!bundle->getFeatureOfPackage().isEmpty()) { packageType = ResourceTable::AppFeature; } ResourceTable table(bundle, String16(assets->getPackage()), packageType); err = table.addIncludedResources(bundle, assets); if (err != NO_ERROR) { return err; } NOISY(printf("Found %d included resource packages\n", (int)table.size())); // Standard flags for compiled XML and optional UTF-8 encoding int xmlFlags = XML_COMPILE_STANDARD_RESOURCE; /* Only enable UTF-8 if the caller of aapt didn't specifically * request UTF-16 encoding and the parameters of this package * allow UTF-8 to be used. */ if (!bundle->getUTF16StringsOption()) { xmlFlags |= XML_COMPILE_UTF8; } // -------------------------------------------------------------- // First, gather all resource information. // -------------------------------------------------------------- // resType -> leafName -> group KeyedVector > *resources = new KeyedVector >; collect_files(assets, resources); sp drawables; sp layouts; sp anims; sp animators; sp interpolators; sp transitions; sp xmls; sp raws; sp colors; sp menus; sp mipmaps; ASSIGN_IT(drawable); ASSIGN_IT(layout); ASSIGN_IT(anim); ASSIGN_IT(animator); ASSIGN_IT(interpolator); ASSIGN_IT(transition); ASSIGN_IT(xml); ASSIGN_IT(raw); ASSIGN_IT(color); ASSIGN_IT(menu); ASSIGN_IT(mipmap); assets->setResources(resources); // now go through any resource overlays and collect their files sp current = assets->getOverlay(); while(current.get()) { KeyedVector > *resources = new KeyedVector >; current->setResources(resources); collect_files(current, resources); current = current->getOverlay(); } // apply the overlay files to the base set if (!applyFileOverlay(bundle, assets, &drawables, "drawable") || !applyFileOverlay(bundle, assets, &layouts, "layout") || !applyFileOverlay(bundle, assets, &anims, "anim") || !applyFileOverlay(bundle, assets, &animators, "animator") || !applyFileOverlay(bundle, assets, &interpolators, "interpolator") || !applyFileOverlay(bundle, assets, &transitions, "transition") || !applyFileOverlay(bundle, assets, &xmls, "xml") || !applyFileOverlay(bundle, assets, &raws, "raw") || !applyFileOverlay(bundle, assets, &colors, "color") || !applyFileOverlay(bundle, assets, &menus, "menu") || !applyFileOverlay(bundle, assets, &mipmaps, "mipmap")) { return UNKNOWN_ERROR; } bool hasErrors = false; if (drawables != NULL) { if (bundle->getOutputAPKFile() != NULL) { err = preProcessImages(bundle, assets, drawables, "drawable"); } if (err == NO_ERROR) { err = makeFileResources(bundle, assets, &table, drawables, "drawable"); if (err != NO_ERROR) { hasErrors = true; } } else { hasErrors = true; } } if (mipmaps != NULL) { if (bundle->getOutputAPKFile() != NULL) { err = preProcessImages(bundle, assets, mipmaps, "mipmap"); } if (err == NO_ERROR) { err = makeFileResources(bundle, assets, &table, mipmaps, "mipmap"); if (err != NO_ERROR) { hasErrors = true; } } else { hasErrors = true; } } if (layouts != NULL) { err = makeFileResources(bundle, assets, &table, layouts, "layout"); if (err != NO_ERROR) { hasErrors = true; } } if (anims != NULL) { err = makeFileResources(bundle, assets, &table, anims, "anim"); if (err != NO_ERROR) { hasErrors = true; } } if (animators != NULL) { err = makeFileResources(bundle, assets, &table, animators, "animator"); if (err != NO_ERROR) { hasErrors = true; } } if (transitions != NULL) { err = makeFileResources(bundle, assets, &table, transitions, "transition"); if (err != NO_ERROR) { hasErrors = true; } } if (interpolators != NULL) { err = makeFileResources(bundle, assets, &table, interpolators, "interpolator"); if (err != NO_ERROR) { hasErrors = true; } } if (xmls != NULL) { err = makeFileResources(bundle, assets, &table, xmls, "xml"); if (err != NO_ERROR) { hasErrors = true; } } if (raws != NULL) { err = makeFileResources(bundle, assets, &table, raws, "raw"); if (err != NO_ERROR) { hasErrors = true; } } // compile resources current = assets; while(current.get()) { KeyedVector > *resources = current->getResources(); ssize_t index = resources->indexOfKey(String8("values")); if (index >= 0) { ResourceDirIterator it(resources->valueAt(index), String8("values")); ssize_t res; while ((res=it.next()) == NO_ERROR) { sp file = it.getFile(); res = compileResourceFile(bundle, assets, file, it.getParams(), (current!=assets), &table); if (res != NO_ERROR) { hasErrors = true; } } } current = current->getOverlay(); } if (colors != NULL) { err = makeFileResources(bundle, assets, &table, colors, "color"); if (err != NO_ERROR) { hasErrors = true; } } if (menus != NULL) { err = makeFileResources(bundle, assets, &table, menus, "menu"); if (err != NO_ERROR) { hasErrors = true; } } // -------------------------------------------------------------------- // Assignment of resource IDs and initial generation of resource table. // -------------------------------------------------------------------- if (table.hasResources()) { err = table.assignResourceIds(); if (err < NO_ERROR) { return err; } } // -------------------------------------------------------------- // Finally, we can now we can compile XML files, which may reference // resources. // -------------------------------------------------------------- if (layouts != NULL) { ResourceDirIterator it(layouts, String8("layout")); while ((err=it.next()) == NO_ERROR) { String8 src = it.getFile()->getPrintableSource(); err = compileXmlFile(bundle, assets, String16(it.getBaseName()), it.getFile(), &table, xmlFlags); if (err == NO_ERROR) { ResXMLTree block; block.setTo(it.getFile()->getData(), it.getFile()->getSize(), true); checkForIds(src, block); } else { hasErrors = true; } } if (err < NO_ERROR) { hasErrors = true; } err = NO_ERROR; } if (anims != NULL) { ResourceDirIterator it(anims, String8("anim")); while ((err=it.next()) == NO_ERROR) { err = compileXmlFile(bundle, assets, String16(it.getBaseName()), it.getFile(), &table, xmlFlags); if (err != NO_ERROR) { hasErrors = true; } } if (err < NO_ERROR) { hasErrors = true; } err = NO_ERROR; } if (animators != NULL) { ResourceDirIterator it(animators, String8("animator")); while ((err=it.next()) == NO_ERROR) { err = compileXmlFile(bundle, assets, String16(it.getBaseName()), it.getFile(), &table, xmlFlags); if (err != NO_ERROR) { hasErrors = true; } } if (err < NO_ERROR) { hasErrors = true; } err = NO_ERROR; } if (interpolators != NULL) { ResourceDirIterator it(interpolators, String8("interpolator")); while ((err=it.next()) == NO_ERROR) { err = compileXmlFile(bundle, assets, String16(it.getBaseName()), it.getFile(), &table, xmlFlags); if (err != NO_ERROR) { hasErrors = true; } } if (err < NO_ERROR) { hasErrors = true; } err = NO_ERROR; } if (transitions != NULL) { ResourceDirIterator it(transitions, String8("transition")); while ((err=it.next()) == NO_ERROR) { err = compileXmlFile(bundle, assets, String16(it.getBaseName()), it.getFile(), &table, xmlFlags); if (err != NO_ERROR) { hasErrors = true; } } if (err < NO_ERROR) { hasErrors = true; } err = NO_ERROR; } if (xmls != NULL) { ResourceDirIterator it(xmls, String8("xml")); while ((err=it.next()) == NO_ERROR) { err = compileXmlFile(bundle, assets, String16(it.getBaseName()), it.getFile(), &table, xmlFlags); if (err != NO_ERROR) { hasErrors = true; } } if (err < NO_ERROR) { hasErrors = true; } err = NO_ERROR; } if (drawables != NULL) { ResourceDirIterator it(drawables, String8("drawable")); while ((err=it.next()) == NO_ERROR) { err = postProcessImage(bundle, assets, &table, it.getFile()); if (err != NO_ERROR) { hasErrors = true; } } if (err < NO_ERROR) { hasErrors = true; } err = NO_ERROR; } if (colors != NULL) { ResourceDirIterator it(colors, String8("color")); while ((err=it.next()) == NO_ERROR) { err = compileXmlFile(bundle, assets, String16(it.getBaseName()), it.getFile(), &table, xmlFlags); if (err != NO_ERROR) { hasErrors = true; } } if (err < NO_ERROR) { hasErrors = true; } err = NO_ERROR; } if (menus != NULL) { ResourceDirIterator it(menus, String8("menu")); while ((err=it.next()) == NO_ERROR) { String8 src = it.getFile()->getPrintableSource(); err = compileXmlFile(bundle, assets, String16(it.getBaseName()), it.getFile(), &table, xmlFlags); if (err == NO_ERROR) { ResXMLTree block; block.setTo(it.getFile()->getData(), it.getFile()->getSize(), true); checkForIds(src, block); } else { hasErrors = true; } } if (err < NO_ERROR) { hasErrors = true; } err = NO_ERROR; } // Now compile any generated resources. std::queue& workQueue = table.getWorkQueue(); while (!workQueue.empty()) { CompileResourceWorkItem& workItem = workQueue.front(); err = compileXmlFile(bundle, assets, workItem.resourceName, workItem.file, &table, xmlFlags); if (err == NO_ERROR) { assets->addResource(workItem.resPath.getPathLeaf(), workItem.resPath, workItem.file, workItem.file->getResourceType()); } else { hasErrors = true; } workQueue.pop(); } if (table.validateLocalizations()) { hasErrors = true; } if (hasErrors) { return UNKNOWN_ERROR; } // If we're not overriding the platform build versions, // extract them from the platform APK. if (packageType != ResourceTable::System && (bundle->getPlatformBuildVersionCode() == "" || bundle->getPlatformBuildVersionName() == "")) { err = extractPlatformBuildVersion(assets->getAssetManager(), bundle); if (err != NO_ERROR) { return UNKNOWN_ERROR; } } const sp manifestFile(androidManifestFile->getFiles().valueAt(0)); String8 manifestPath(manifestFile->getPrintableSource()); // Generate final compiled manifest file. manifestFile->clearData(); sp manifestTree = XMLNode::parse(manifestFile); if (manifestTree == NULL) { return UNKNOWN_ERROR; } err = massageManifest(bundle, manifestTree); if (err < NO_ERROR) { return err; } err = compileXmlFile(bundle, assets, String16(), manifestTree, manifestFile, &table); if (err < NO_ERROR) { return err; } if (table.modifyForCompat(bundle) != NO_ERROR) { return UNKNOWN_ERROR; } //block.restart(); //printXMLBlock(&block); // -------------------------------------------------------------- // Generate the final resource table. // Re-flatten because we may have added new resource IDs // -------------------------------------------------------------- ResTable finalResTable; sp resFile; if (table.hasResources()) { sp symbols = assets->getSymbolsFor(String8("R")); err = table.addSymbols(symbols); if (err < NO_ERROR) { return err; } Vector >& splits = builder->getSplits(); const size_t numSplits = splits.size(); for (size_t i = 0; i < numSplits; i++) { sp& split = splits.editItemAt(i); sp flattenedTable = new AaptFile(String8("resources.arsc"), AaptGroupEntry(), String8()); err = table.flatten(bundle, split->getResourceFilter(), flattenedTable, split->isBase()); if (err != NO_ERROR) { fprintf(stderr, "Failed to generate resource table for split '%s'\n", split->getPrintableName().string()); return err; } split->addEntry(String8("resources.arsc"), flattenedTable); if (split->isBase()) { resFile = flattenedTable; err = finalResTable.add(flattenedTable->getData(), flattenedTable->getSize()); if (err != NO_ERROR) { fprintf(stderr, "Generated resource table is corrupt.\n"); return err; } } else { sp generatedManifest = new AaptFile(String8("AndroidManifest.xml"), AaptGroupEntry(), String8()); err = generateAndroidManifestForSplit(bundle, assets, split, generatedManifest, &table); if (err != NO_ERROR) { fprintf(stderr, "Failed to generate AndroidManifest.xml for split '%s'\n", split->getPrintableName().string()); return err; } split->addEntry(String8("AndroidManifest.xml"), generatedManifest); } } if (bundle->getPublicOutputFile()) { FILE* fp = fopen(bundle->getPublicOutputFile(), "w+"); if (fp == NULL) { fprintf(stderr, "ERROR: Unable to open public definitions output file %s: %s\n", (const char*)bundle->getPublicOutputFile(), strerror(errno)); return UNKNOWN_ERROR; } if (bundle->getVerbose()) { printf(" Writing public definitions to %s.\n", bundle->getPublicOutputFile()); } table.writePublicDefinitions(String16(assets->getPackage()), fp); fclose(fp); } if (finalResTable.getTableCount() == 0 || resFile == NULL) { fprintf(stderr, "No resource table was generated.\n"); return UNKNOWN_ERROR; } } // Perform a basic validation of the manifest file. This time we // parse it with the comments intact, so that we can use them to // generate java docs... so we are not going to write this one // back out to the final manifest data. sp outManifestFile = new AaptFile(manifestFile->getSourceFile(), manifestFile->getGroupEntry(), manifestFile->getResourceType()); err = compileXmlFile(bundle, assets, String16(), manifestFile, outManifestFile, &table, XML_COMPILE_ASSIGN_ATTRIBUTE_IDS | XML_COMPILE_STRIP_WHITESPACE | XML_COMPILE_STRIP_RAW_VALUES); if (err < NO_ERROR) { return err; } ResXMLTree block; block.setTo(outManifestFile->getData(), outManifestFile->getSize(), true); String16 manifest16("manifest"); String16 permission16("permission"); String16 permission_group16("permission-group"); String16 uses_permission16("uses-permission"); String16 instrumentation16("instrumentation"); String16 application16("application"); String16 provider16("provider"); String16 service16("service"); String16 receiver16("receiver"); String16 activity16("activity"); String16 action16("action"); String16 category16("category"); String16 data16("scheme"); String16 feature_group16("feature-group"); String16 uses_feature16("uses-feature"); const char* packageIdentChars = "abcdefghijklmnopqrstuvwxyz" "ABCDEFGHIJKLMNOPQRSTUVWXYZ._0123456789"; const char* packageIdentCharsWithTheStupid = "abcdefghijklmnopqrstuvwxyz" "ABCDEFGHIJKLMNOPQRSTUVWXYZ._0123456789-"; const char* classIdentChars = "abcdefghijklmnopqrstuvwxyz" "ABCDEFGHIJKLMNOPQRSTUVWXYZ._0123456789$"; const char* processIdentChars = "abcdefghijklmnopqrstuvwxyz" "ABCDEFGHIJKLMNOPQRSTUVWXYZ._0123456789:"; const char* authoritiesIdentChars = "abcdefghijklmnopqrstuvwxyz" "ABCDEFGHIJKLMNOPQRSTUVWXYZ._0123456789-:;"; const char* typeIdentChars = "abcdefghijklmnopqrstuvwxyz" "ABCDEFGHIJKLMNOPQRSTUVWXYZ._0123456789:-/*+"; const char* schemeIdentChars = "abcdefghijklmnopqrstuvwxyz" "ABCDEFGHIJKLMNOPQRSTUVWXYZ._0123456789-"; ResXMLTree::event_code_t code; sp permissionSymbols; sp permissionGroupSymbols; while ((code=block.next()) != ResXMLTree::END_DOCUMENT && code > ResXMLTree::BAD_DOCUMENT) { if (code == ResXMLTree::START_TAG) { size_t len; if (block.getElementNamespace(&len) != NULL) { continue; } if (strcmp16(block.getElementName(&len), manifest16.string()) == 0) { if (validateAttr(manifestPath, finalResTable, block, NULL, "package", packageIdentChars, true) != ATTR_OKAY) { hasErrors = true; } if (validateAttr(manifestPath, finalResTable, block, RESOURCES_ANDROID_NAMESPACE, "sharedUserId", packageIdentChars, false) != ATTR_OKAY) { hasErrors = true; } } else if (strcmp16(block.getElementName(&len), permission16.string()) == 0 || strcmp16(block.getElementName(&len), permission_group16.string()) == 0) { const bool isGroup = strcmp16(block.getElementName(&len), permission_group16.string()) == 0; if (validateAttr(manifestPath, finalResTable, block, RESOURCES_ANDROID_NAMESPACE, "name", isGroup ? packageIdentCharsWithTheStupid : packageIdentChars, true) != ATTR_OKAY) { hasErrors = true; } SourcePos srcPos(manifestPath, block.getLineNumber()); sp syms; if (!isGroup) { syms = permissionSymbols; if (syms == NULL) { sp symbols = assets->getSymbolsFor(String8("Manifest")); syms = permissionSymbols = symbols->addNestedSymbol( String8("permission"), srcPos); } } else { syms = permissionGroupSymbols; if (syms == NULL) { sp symbols = assets->getSymbolsFor(String8("Manifest")); syms = permissionGroupSymbols = symbols->addNestedSymbol( String8("permission_group"), srcPos); } } size_t len; ssize_t index = block.indexOfAttribute(RESOURCES_ANDROID_NAMESPACE, "name"); const uint16_t* id = block.getAttributeStringValue(index, &len); if (id == NULL) { fprintf(stderr, "%s:%d: missing name attribute in element <%s>.\n", manifestPath.string(), block.getLineNumber(), String8(block.getElementName(&len)).string()); hasErrors = true; break; } String8 idStr(id); char* p = idStr.lockBuffer(idStr.size()); char* e = p + idStr.size(); bool begins_with_digit = true; // init to true so an empty string fails while (e > p) { e--; if (*e >= '0' && *e <= '9') { begins_with_digit = true; continue; } if ((*e >= 'a' && *e <= 'z') || (*e >= 'A' && *e <= 'Z') || (*e == '_')) { begins_with_digit = false; continue; } if (isGroup && (*e == '-')) { *e = '_'; begins_with_digit = false; continue; } e++; break; } idStr.unlockBuffer(); // verify that we stopped because we hit a period or // the beginning of the string, and that the // identifier didn't begin with a digit. if (begins_with_digit || (e != p && *(e-1) != '.')) { fprintf(stderr, "%s:%d: Permission name <%s> is not a valid Java symbol\n", manifestPath.string(), block.getLineNumber(), idStr.string()); hasErrors = true; } syms->addStringSymbol(String8(e), idStr, srcPos); const uint16_t* cmt = block.getComment(&len); if (cmt != NULL && *cmt != 0) { //printf("Comment of %s: %s\n", String8(e).string(), // String8(cmt).string()); syms->appendComment(String8(e), String16(cmt), srcPos); } else { //printf("No comment for %s\n", String8(e).string()); } syms->makeSymbolPublic(String8(e), srcPos); } else if (strcmp16(block.getElementName(&len), uses_permission16.string()) == 0) { if (validateAttr(manifestPath, finalResTable, block, RESOURCES_ANDROID_NAMESPACE, "name", packageIdentChars, true) != ATTR_OKAY) { hasErrors = true; } } else if (strcmp16(block.getElementName(&len), instrumentation16.string()) == 0) { if (validateAttr(manifestPath, finalResTable, block, RESOURCES_ANDROID_NAMESPACE, "name", classIdentChars, true) != ATTR_OKAY) { hasErrors = true; } if (validateAttr(manifestPath, finalResTable, block, RESOURCES_ANDROID_NAMESPACE, "targetPackage", packageIdentChars, true) != ATTR_OKAY) { hasErrors = true; } } else if (strcmp16(block.getElementName(&len), application16.string()) == 0) { if (validateAttr(manifestPath, finalResTable, block, RESOURCES_ANDROID_NAMESPACE, "name", classIdentChars, false) != ATTR_OKAY) { hasErrors = true; } if (validateAttr(manifestPath, finalResTable, block, RESOURCES_ANDROID_NAMESPACE, "permission", packageIdentChars, false) != ATTR_OKAY) { hasErrors = true; } if (validateAttr(manifestPath, finalResTable, block, RESOURCES_ANDROID_NAMESPACE, "process", processIdentChars, false) != ATTR_OKAY) { hasErrors = true; } if (validateAttr(manifestPath, finalResTable, block, RESOURCES_ANDROID_NAMESPACE, "taskAffinity", processIdentChars, false) != ATTR_OKAY) { hasErrors = true; } } else if (strcmp16(block.getElementName(&len), provider16.string()) == 0) { if (validateAttr(manifestPath, finalResTable, block, RESOURCES_ANDROID_NAMESPACE, "name", classIdentChars, true) != ATTR_OKAY) { hasErrors = true; } if (validateAttr(manifestPath, finalResTable, block, RESOURCES_ANDROID_NAMESPACE, "authorities", authoritiesIdentChars, true) != ATTR_OKAY) { hasErrors = true; } if (validateAttr(manifestPath, finalResTable, block, RESOURCES_ANDROID_NAMESPACE, "permission", packageIdentChars, false) != ATTR_OKAY) { hasErrors = true; } if (validateAttr(manifestPath, finalResTable, block, RESOURCES_ANDROID_NAMESPACE, "process", processIdentChars, false) != ATTR_OKAY) { hasErrors = true; } } else if (strcmp16(block.getElementName(&len), service16.string()) == 0 || strcmp16(block.getElementName(&len), receiver16.string()) == 0 || strcmp16(block.getElementName(&len), activity16.string()) == 0) { if (validateAttr(manifestPath, finalResTable, block, RESOURCES_ANDROID_NAMESPACE, "name", classIdentChars, true) != ATTR_OKAY) { hasErrors = true; } if (validateAttr(manifestPath, finalResTable, block, RESOURCES_ANDROID_NAMESPACE, "permission", packageIdentChars, false) != ATTR_OKAY) { hasErrors = true; } if (validateAttr(manifestPath, finalResTable, block, RESOURCES_ANDROID_NAMESPACE, "process", processIdentChars, false) != ATTR_OKAY) { hasErrors = true; } if (validateAttr(manifestPath, finalResTable, block, RESOURCES_ANDROID_NAMESPACE, "taskAffinity", processIdentChars, false) != ATTR_OKAY) { hasErrors = true; } } else if (strcmp16(block.getElementName(&len), action16.string()) == 0 || strcmp16(block.getElementName(&len), category16.string()) == 0) { if (validateAttr(manifestPath, finalResTable, block, RESOURCES_ANDROID_NAMESPACE, "name", packageIdentChars, true) != ATTR_OKAY) { hasErrors = true; } } else if (strcmp16(block.getElementName(&len), data16.string()) == 0) { if (validateAttr(manifestPath, finalResTable, block, RESOURCES_ANDROID_NAMESPACE, "mimeType", typeIdentChars, true) != ATTR_OKAY) { hasErrors = true; } if (validateAttr(manifestPath, finalResTable, block, RESOURCES_ANDROID_NAMESPACE, "scheme", schemeIdentChars, true) != ATTR_OKAY) { hasErrors = true; } } else if (strcmp16(block.getElementName(&len), feature_group16.string()) == 0) { int depth = 1; while ((code=block.next()) != ResXMLTree::END_DOCUMENT && code > ResXMLTree::BAD_DOCUMENT) { if (code == ResXMLTree::START_TAG) { depth++; if (strcmp16(block.getElementName(&len), uses_feature16.string()) == 0) { ssize_t idx = block.indexOfAttribute( RESOURCES_ANDROID_NAMESPACE, "required"); if (idx < 0) { continue; } int32_t data = block.getAttributeData(idx); if (data == 0) { fprintf(stderr, "%s:%d: Tag can not have " "android:required=\"false\" when inside a " " tag.\n", manifestPath.string(), block.getLineNumber()); hasErrors = true; } } } else if (code == ResXMLTree::END_TAG) { depth--; if (depth == 0) { break; } } } } } } if (hasErrors) { return UNKNOWN_ERROR; } if (resFile != NULL) { // These resources are now considered to be a part of the included // resources, for others to reference. err = assets->addIncludedResources(resFile); if (err < NO_ERROR) { fprintf(stderr, "ERROR: Unable to parse generated resources, aborting.\n"); return err; } } return err; } static const char* getIndentSpace(int indent) { static const char whitespace[] = " "; return whitespace + sizeof(whitespace) - 1 - indent*4; } static String8 flattenSymbol(const String8& symbol) { String8 result(symbol); ssize_t first; if ((first = symbol.find(":", 0)) >= 0 || (first = symbol.find(".", 0)) >= 0) { size_t size = symbol.size(); char* buf = result.lockBuffer(size); for (size_t i = first; i < size; i++) { if (buf[i] == ':' || buf[i] == '.') { buf[i] = '_'; } } result.unlockBuffer(size); } return result; } static String8 getSymbolPackage(const String8& symbol, const sp& assets, bool pub) { ssize_t colon = symbol.find(":", 0); if (colon >= 0) { return String8(symbol.string(), colon); } return pub ? assets->getPackage() : assets->getSymbolsPrivatePackage(); } static String8 getSymbolName(const String8& symbol) { ssize_t colon = symbol.find(":", 0); if (colon >= 0) { return String8(symbol.string() + colon + 1); } return symbol; } static String16 getAttributeComment(const sp& assets, const String8& name, String16* outTypeComment = NULL) { sp asym = assets->getSymbolsFor(String8("R")); if (asym != NULL) { //printf("Got R symbols!\n"); asym = asym->getNestedSymbols().valueFor(String8("attr")); if (asym != NULL) { //printf("Got attrs symbols! comment %s=%s\n", // name.string(), String8(asym->getComment(name)).string()); if (outTypeComment != NULL) { *outTypeComment = asym->getTypeComment(name); } return asym->getComment(name); } } return String16(); } static status_t writeResourceLoadedCallbackForLayoutClasses( FILE* fp, const sp& assets, const sp& symbols, int indent, bool includePrivate) { String16 attr16("attr"); String16 package16(assets->getPackage()); const char* indentStr = getIndentSpace(indent); bool hasErrors = false; size_t i; size_t N = symbols->getNestedSymbols().size(); for (i=0; i nsymbols = symbols->getNestedSymbols().valueAt(i); String8 realClassName(symbols->getNestedSymbols().keyAt(i)); String8 nclassName(flattenSymbol(realClassName)); fprintf(fp, "%sfor(int i = 0; i < styleable.%s.length; ++i) {\n" "%sstyleable.%s[i] = (styleable.%s[i] & 0x00ffffff) | (packageId << 24);\n" "%s}\n", indentStr, nclassName.string(), getIndentSpace(indent+1), nclassName.string(), nclassName.string(), indentStr); } return hasErrors ? UNKNOWN_ERROR : NO_ERROR; } static status_t writeResourceLoadedCallback( FILE* fp, const sp& assets, bool includePrivate, const sp& symbols, const String8& className, int indent) { size_t i; status_t err = NO_ERROR; size_t N = symbols->getSymbols().size(); for (i=0; igetSymbols().valueAt(i); if (sym.typeCode == AaptSymbolEntry::TYPE_UNKNOWN) { continue; } if (!assets->isJavaSymbol(sym, includePrivate)) { continue; } String8 flat_name(flattenSymbol(sym.name)); fprintf(fp, "%s%s.%s = (%s.%s & 0x00ffffff) | (packageId << 24);\n", getIndentSpace(indent), className.string(), flat_name.string(), className.string(), flat_name.string()); } N = symbols->getNestedSymbols().size(); for (i=0; i nsymbols = symbols->getNestedSymbols().valueAt(i); String8 nclassName(symbols->getNestedSymbols().keyAt(i)); if (nclassName == "styleable") { err = writeResourceLoadedCallbackForLayoutClasses( fp, assets, nsymbols, indent, includePrivate); } else { err = writeResourceLoadedCallback(fp, assets, includePrivate, nsymbols, nclassName, indent); } if (err != NO_ERROR) { return err; } } return NO_ERROR; } static status_t writeLayoutClasses( FILE* fp, const sp& assets, const sp& symbols, int indent, bool includePrivate, bool nonConstantId) { const char* indentStr = getIndentSpace(indent); if (!includePrivate) { fprintf(fp, "%s/** @doconly */\n", indentStr); } fprintf(fp, "%spublic static final class styleable {\n", indentStr); indent++; String16 attr16("attr"); String16 package16(assets->getPackage()); indentStr = getIndentSpace(indent); bool hasErrors = false; size_t i; size_t N = symbols->getNestedSymbols().size(); for (i=0; i nsymbols = symbols->getNestedSymbols().valueAt(i); String8 realClassName(symbols->getNestedSymbols().keyAt(i)); String8 nclassName(flattenSymbol(realClassName)); SortedVector idents; Vector origOrder; Vector publicFlags; size_t a; size_t NA = nsymbols->getSymbols().size(); for (a=0; agetSymbols().valueAt(a)); int32_t code = sym.typeCode == AaptSymbolEntry::TYPE_INT32 ? sym.int32Val : 0; bool isPublic = true; if (code == 0) { String16 name16(sym.name); uint32_t typeSpecFlags; code = assets->getIncludedResources().identifierForName( name16.string(), name16.size(), attr16.string(), attr16.size(), package16.string(), package16.size(), &typeSpecFlags); if (code == 0) { fprintf(stderr, "ERROR: In %s, unable to find attribute %s\n", nclassName.string(), sym.name.string()); hasErrors = true; } isPublic = (typeSpecFlags&ResTable_typeSpec::SPEC_PUBLIC) != 0; } idents.add(code); origOrder.add(code); publicFlags.add(isPublic); } NA = idents.size(); String16 comment = symbols->getComment(realClassName); AnnotationProcessor ann; fprintf(fp, "%s/** ", indentStr); if (comment.size() > 0) { String8 cmt(comment); ann.preprocessComment(cmt); fprintf(fp, "%s\n", cmt.string()); } else { fprintf(fp, "Attributes that can be used with a %s.\n", nclassName.string()); } bool hasTable = false; for (a=0; a= 0) { if (!hasTable) { hasTable = true; fprintf(fp, "%s

Includes the following attributes:

\n" "%s \n" "%s \n" "%s \n" "%s \n", indentStr, indentStr, indentStr, indentStr, indentStr); } const AaptSymbolEntry& sym = nsymbols->getSymbols().valueAt(a); if (!publicFlags.itemAt(a) && !includePrivate) { continue; } String8 name8(sym.name); String16 comment(sym.comment); if (comment.size() <= 0) { comment = getAttributeComment(assets, name8); } if (comment.size() > 0) { const char16_t* p = comment.string(); while (*p != 0 && *p != '.') { if (*p == '{') { while (*p != 0 && *p != '}') { p++; } } else { p++; } } if (*p == '.') { p++; } comment = String16(comment.string(), p-comment.string()); } fprintf(fp, "%s \n", indentStr, nclassName.string(), flattenSymbol(name8).string(), getSymbolPackage(name8, assets, true).string(), getSymbolName(name8).string(), String8(comment).string()); } } if (hasTable) { fprintf(fp, "%s
AttributeDescription
{@link #%s_%s %s:%s}%s
\n", indentStr); } for (a=0; a= 0) { const AaptSymbolEntry& sym = nsymbols->getSymbols().valueAt(a); if (!publicFlags.itemAt(a) && !includePrivate) { continue; } fprintf(fp, "%s @see #%s_%s\n", indentStr, nclassName.string(), flattenSymbol(sym.name).string()); } } fprintf(fp, "%s */\n", getIndentSpace(indent)); ann.printAnnotations(fp, indentStr); fprintf(fp, "%spublic static final int[] %s = {\n" "%s", indentStr, nclassName.string(), getIndentSpace(indent+1)); for (a=0; a= 0) { const AaptSymbolEntry& sym = nsymbols->getSymbols().valueAt(a); if (!publicFlags.itemAt(a) && !includePrivate) { continue; } String8 name8(sym.name); String16 comment(sym.comment); String16 typeComment; if (comment.size() <= 0) { comment = getAttributeComment(assets, name8, &typeComment); } else { getAttributeComment(assets, name8, &typeComment); } uint32_t typeSpecFlags = 0; String16 name16(sym.name); assets->getIncludedResources().identifierForName( name16.string(), name16.size(), attr16.string(), attr16.size(), package16.string(), package16.size(), &typeSpecFlags); //printf("%s:%s/%s: 0x%08x\n", String8(package16).string(), // String8(attr16).string(), String8(name16).string(), typeSpecFlags); const bool pub = (typeSpecFlags&ResTable_typeSpec::SPEC_PUBLIC) != 0; AnnotationProcessor ann; fprintf(fp, "%s/**\n", indentStr); if (comment.size() > 0) { String8 cmt(comment); ann.preprocessComment(cmt); fprintf(fp, "%s

\n%s @attr description\n", indentStr, indentStr); fprintf(fp, "%s %s\n", indentStr, cmt.string()); } else { fprintf(fp, "%s

This symbol is the offset where the {@link %s.R.attr#%s}\n" "%s attribute's value can be found in the {@link #%s} array.\n", indentStr, getSymbolPackage(name8, assets, pub).string(), getSymbolName(name8).string(), indentStr, nclassName.string()); } if (typeComment.size() > 0) { String8 cmt(typeComment); ann.preprocessComment(cmt); fprintf(fp, "\n\n%s %s\n", indentStr, cmt.string()); } if (comment.size() > 0) { if (pub) { fprintf(fp, "%s

This corresponds to the global attribute\n" "%s resource symbol {@link %s.R.attr#%s}.\n", indentStr, indentStr, getSymbolPackage(name8, assets, true).string(), getSymbolName(name8).string()); } else { fprintf(fp, "%s

This is a private symbol.\n", indentStr); } } fprintf(fp, "%s @attr name %s:%s\n", indentStr, getSymbolPackage(name8, assets, pub).string(), getSymbolName(name8).string()); fprintf(fp, "%s*/\n", indentStr); ann.printAnnotations(fp, indentStr); const char * id_format = nonConstantId ? "%spublic static int %s_%s = %d;\n" : "%spublic static final int %s_%s = %d;\n"; fprintf(fp, id_format, indentStr, nclassName.string(), flattenSymbol(name8).string(), (int)pos); } } } indent--; fprintf(fp, "%s};\n", getIndentSpace(indent)); return hasErrors ? UNKNOWN_ERROR : NO_ERROR; } static status_t writeTextLayoutClasses( FILE* fp, const sp& assets, const sp& symbols, bool includePrivate) { String16 attr16("attr"); String16 package16(assets->getPackage()); bool hasErrors = false; size_t i; size_t N = symbols->getNestedSymbols().size(); for (i=0; i nsymbols = symbols->getNestedSymbols().valueAt(i); String8 realClassName(symbols->getNestedSymbols().keyAt(i)); String8 nclassName(flattenSymbol(realClassName)); SortedVector idents; Vector origOrder; Vector publicFlags; size_t a; size_t NA = nsymbols->getSymbols().size(); for (a=0; agetSymbols().valueAt(a)); int32_t code = sym.typeCode == AaptSymbolEntry::TYPE_INT32 ? sym.int32Val : 0; bool isPublic = true; if (code == 0) { String16 name16(sym.name); uint32_t typeSpecFlags; code = assets->getIncludedResources().identifierForName( name16.string(), name16.size(), attr16.string(), attr16.size(), package16.string(), package16.size(), &typeSpecFlags); if (code == 0) { fprintf(stderr, "ERROR: In %s, unable to find attribute %s\n", nclassName.string(), sym.name.string()); hasErrors = true; } isPublic = (typeSpecFlags&ResTable_typeSpec::SPEC_PUBLIC) != 0; } idents.add(code); origOrder.add(code); publicFlags.add(isPublic); } NA = idents.size(); fprintf(fp, "int[] styleable %s {", nclassName.string()); for (a=0; a= 0) { const AaptSymbolEntry& sym = nsymbols->getSymbols().valueAt(a); if (!publicFlags.itemAt(a) && !includePrivate) { continue; } String8 name8(sym.name); String16 comment(sym.comment); String16 typeComment; if (comment.size() <= 0) { comment = getAttributeComment(assets, name8, &typeComment); } else { getAttributeComment(assets, name8, &typeComment); } uint32_t typeSpecFlags = 0; String16 name16(sym.name); assets->getIncludedResources().identifierForName( name16.string(), name16.size(), attr16.string(), attr16.size(), package16.string(), package16.size(), &typeSpecFlags); //printf("%s:%s/%s: 0x%08x\n", String8(package16).string(), // String8(attr16).string(), String8(name16).string(), typeSpecFlags); const bool pub = (typeSpecFlags&ResTable_typeSpec::SPEC_PUBLIC) != 0; fprintf(fp, "int styleable %s_%s %d\n", nclassName.string(), flattenSymbol(name8).string(), (int)pos); } } } return hasErrors ? UNKNOWN_ERROR : NO_ERROR; } static status_t writeSymbolClass( FILE* fp, const sp& assets, bool includePrivate, const sp& symbols, const String8& className, int indent, bool nonConstantId, bool emitCallback) { fprintf(fp, "%spublic %sfinal class %s {\n", getIndentSpace(indent), indent != 0 ? "static " : "", className.string()); indent++; size_t i; status_t err = NO_ERROR; const char * id_format = nonConstantId ? "%spublic static int %s=0x%08x;\n" : "%spublic static final int %s=0x%08x;\n"; size_t N = symbols->getSymbols().size(); for (i=0; igetSymbols().valueAt(i); if (sym.typeCode != AaptSymbolEntry::TYPE_INT32) { continue; } if (!assets->isJavaSymbol(sym, includePrivate)) { continue; } String8 name8(sym.name); String16 comment(sym.comment); bool haveComment = false; AnnotationProcessor ann; if (comment.size() > 0) { haveComment = true; String8 cmt(comment); ann.preprocessComment(cmt); fprintf(fp, "%s/** %s\n", getIndentSpace(indent), cmt.string()); } else if (sym.isPublic && !includePrivate) { sym.sourcePos.warning("No comment for public symbol %s:%s/%s", assets->getPackage().string(), className.string(), String8(sym.name).string()); } String16 typeComment(sym.typeComment); if (typeComment.size() > 0) { String8 cmt(typeComment); ann.preprocessComment(cmt); if (!haveComment) { haveComment = true; fprintf(fp, "%s/** %s\n", getIndentSpace(indent), cmt.string()); } else { fprintf(fp, "%s %s\n", getIndentSpace(indent), cmt.string()); } } if (haveComment) { fprintf(fp,"%s */\n", getIndentSpace(indent)); } ann.printAnnotations(fp, getIndentSpace(indent)); fprintf(fp, id_format, getIndentSpace(indent), flattenSymbol(name8).string(), (int)sym.int32Val); } for (i=0; igetSymbols().valueAt(i); if (sym.typeCode != AaptSymbolEntry::TYPE_STRING) { continue; } if (!assets->isJavaSymbol(sym, includePrivate)) { continue; } String8 name8(sym.name); String16 comment(sym.comment); AnnotationProcessor ann; if (comment.size() > 0) { String8 cmt(comment); ann.preprocessComment(cmt); fprintf(fp, "%s/** %s\n" "%s */\n", getIndentSpace(indent), cmt.string(), getIndentSpace(indent)); } else if (sym.isPublic && !includePrivate) { sym.sourcePos.warning("No comment for public symbol %s:%s/%s", assets->getPackage().string(), className.string(), String8(sym.name).string()); } ann.printAnnotations(fp, getIndentSpace(indent)); fprintf(fp, "%spublic static final String %s=\"%s\";\n", getIndentSpace(indent), flattenSymbol(name8).string(), sym.stringVal.string()); } sp styleableSymbols; N = symbols->getNestedSymbols().size(); for (i=0; i nsymbols = symbols->getNestedSymbols().valueAt(i); String8 nclassName(symbols->getNestedSymbols().keyAt(i)); if (nclassName == "styleable") { styleableSymbols = nsymbols; } else { err = writeSymbolClass(fp, assets, includePrivate, nsymbols, nclassName, indent, nonConstantId, false); } if (err != NO_ERROR) { return err; } } if (styleableSymbols != NULL) { err = writeLayoutClasses(fp, assets, styleableSymbols, indent, includePrivate, nonConstantId); if (err != NO_ERROR) { return err; } } if (emitCallback) { fprintf(fp, "%spublic static void onResourcesLoaded(int packageId) {\n", getIndentSpace(indent)); writeResourceLoadedCallback(fp, assets, includePrivate, symbols, className, indent + 1); fprintf(fp, "%s}\n", getIndentSpace(indent)); } indent--; fprintf(fp, "%s}\n", getIndentSpace(indent)); return NO_ERROR; } static status_t writeTextSymbolClass( FILE* fp, const sp& assets, bool includePrivate, const sp& symbols, const String8& className) { size_t i; status_t err = NO_ERROR; size_t N = symbols->getSymbols().size(); for (i=0; igetSymbols().valueAt(i); if (sym.typeCode != AaptSymbolEntry::TYPE_INT32) { continue; } if (!assets->isJavaSymbol(sym, includePrivate)) { continue; } String8 name8(sym.name); fprintf(fp, "int %s %s 0x%08x\n", className.string(), flattenSymbol(name8).string(), (int)sym.int32Val); } N = symbols->getNestedSymbols().size(); for (i=0; i nsymbols = symbols->getNestedSymbols().valueAt(i); String8 nclassName(symbols->getNestedSymbols().keyAt(i)); if (nclassName == "styleable") { err = writeTextLayoutClasses(fp, assets, nsymbols, includePrivate); } else { err = writeTextSymbolClass(fp, assets, includePrivate, nsymbols, nclassName); } if (err != NO_ERROR) { return err; } } return NO_ERROR; } status_t writeResourceSymbols(Bundle* bundle, const sp& assets, const String8& package, bool includePrivate, bool emitCallback) { if (!bundle->getRClassDir()) { return NO_ERROR; } const char* textSymbolsDest = bundle->getOutputTextSymbols(); String8 R("R"); const size_t N = assets->getSymbols().size(); for (size_t i=0; i symbols = assets->getSymbols().valueAt(i); String8 className(assets->getSymbols().keyAt(i)); String8 dest(bundle->getRClassDir()); if (bundle->getMakePackageDirs()) { String8 pkg(package); const char* last = pkg.string(); const char* s = last-1; do { s++; if (s > last && (*s == '.' || *s == 0)) { String8 part(last, s-last); dest.appendPath(part); #ifdef HAVE_MS_C_RUNTIME _mkdir(dest.string()); #else mkdir(dest.string(), S_IRUSR|S_IWUSR|S_IXUSR|S_IRGRP|S_IXGRP); #endif last = s+1; } } while (*s); } dest.appendPath(className); dest.append(".java"); FILE* fp = fopen(dest.string(), "w+"); if (fp == NULL) { fprintf(stderr, "ERROR: Unable to open class file %s: %s\n", dest.string(), strerror(errno)); return UNKNOWN_ERROR; } if (bundle->getVerbose()) { printf(" Writing symbols for class %s.\n", className.string()); } fprintf(fp, "/* AUTO-GENERATED FILE. DO NOT MODIFY.\n" " *\n" " * This class was automatically generated by the\n" " * aapt tool from the resource data it found. It\n" " * should not be modified by hand.\n" " */\n" "\n" "package %s;\n\n", package.string()); status_t err = writeSymbolClass(fp, assets, includePrivate, symbols, className, 0, bundle->getNonConstantId(), emitCallback); fclose(fp); if (err != NO_ERROR) { return err; } if (textSymbolsDest != NULL && R == className) { String8 textDest(textSymbolsDest); textDest.appendPath(className); textDest.append(".txt"); FILE* fp = fopen(textDest.string(), "w+"); if (fp == NULL) { fprintf(stderr, "ERROR: Unable to open text symbol file %s: %s\n", textDest.string(), strerror(errno)); return UNKNOWN_ERROR; } if (bundle->getVerbose()) { printf(" Writing text symbols for class %s.\n", className.string()); } status_t err = writeTextSymbolClass(fp, assets, includePrivate, symbols, className); fclose(fp); if (err != NO_ERROR) { return err; } } // If we were asked to generate a dependency file, we'll go ahead and add this R.java // as a target in the dependency file right next to it. if (bundle->getGenDependencies() && R == className) { // Add this R.java to the dependency file String8 dependencyFile(bundle->getRClassDir()); dependencyFile.appendPath("R.java.d"); FILE *fp = fopen(dependencyFile.string(), "a"); fprintf(fp,"%s \\\n", dest.string()); fclose(fp); } } return NO_ERROR; } class ProguardKeepSet { public: // { rule --> { file locations } } KeyedVector > rules; void add(const String8& rule, const String8& where); }; void ProguardKeepSet::add(const String8& rule, const String8& where) { ssize_t index = rules.indexOfKey(rule); if (index < 0) { index = rules.add(rule, SortedVector()); } rules.editValueAt(index).add(where); } void addProguardKeepRule(ProguardKeepSet* keep, const String8& inClassName, const char* pkg, const String8& srcName, int line) { String8 className(inClassName); if (pkg != NULL) { // asdf --> package.asdf // .asdf .a.b --> package.asdf package.a.b // asdf.adsf --> asdf.asdf const char* p = className.string(); const char* q = strchr(p, '.'); if (p == q) { className = pkg; className.append(inClassName); } else if (q == NULL) { className = pkg; className.append("."); className.append(inClassName); } } String8 rule("-keep class "); rule += className; rule += " { (...); }"; String8 location("view "); location += srcName; char lineno[20]; sprintf(lineno, ":%d", line); location += lineno; keep->add(rule, location); } void addProguardKeepMethodRule(ProguardKeepSet* keep, const String8& memberName, const char* pkg, const String8& srcName, int line) { String8 rule("-keepclassmembers class * { *** "); rule += memberName; rule += "(...); }"; String8 location("onClick "); location += srcName; char lineno[20]; sprintf(lineno, ":%d", line); location += lineno; keep->add(rule, location); } status_t writeProguardForAndroidManifest(ProguardKeepSet* keep, const sp& assets) { status_t err; ResXMLTree tree; size_t len; ResXMLTree::event_code_t code; int depth = 0; bool inApplication = false; String8 error; sp assGroup; sp assFile; String8 pkg; // First, look for a package file to parse. This is required to // be able to generate the resource information. assGroup = assets->getFiles().valueFor(String8("AndroidManifest.xml")); if (assGroup == NULL) { fprintf(stderr, "ERROR: No AndroidManifest.xml file found.\n"); return -1; } if (assGroup->getFiles().size() != 1) { fprintf(stderr, "warning: Multiple AndroidManifest.xml files found, using %s\n", assGroup->getFiles().valueAt(0)->getPrintableSource().string()); } assFile = assGroup->getFiles().valueAt(0); err = parseXMLResource(assFile, &tree); if (err != NO_ERROR) { return err; } tree.restart(); while ((code=tree.next()) != ResXMLTree::END_DOCUMENT && code != ResXMLTree::BAD_DOCUMENT) { if (code == ResXMLTree::END_TAG) { if (/* name == "Application" && */ depth == 2) { inApplication = false; } depth--; continue; } if (code != ResXMLTree::START_TAG) { continue; } depth++; String8 tag(tree.getElementName(&len)); // printf("Depth %d tag %s\n", depth, tag.string()); bool keepTag = false; if (depth == 1) { if (tag != "manifest") { fprintf(stderr, "ERROR: manifest does not start with tag\n"); return -1; } pkg = AaptXml::getAttribute(tree, NULL, "package"); } else if (depth == 2) { if (tag == "application") { inApplication = true; keepTag = true; String8 agent = AaptXml::getAttribute(tree, "http://schemas.android.com/apk/res/android", "backupAgent", &error); if (agent.length() > 0) { addProguardKeepRule(keep, agent, pkg.string(), assFile->getPrintableSource(), tree.getLineNumber()); } } else if (tag == "instrumentation") { keepTag = true; } } if (!keepTag && inApplication && depth == 3) { if (tag == "activity" || tag == "service" || tag == "receiver" || tag == "provider") { keepTag = true; } } if (keepTag) { String8 name = AaptXml::getAttribute(tree, "http://schemas.android.com/apk/res/android", "name", &error); if (error != "") { fprintf(stderr, "ERROR: %s\n", error.string()); return -1; } if (name.length() > 0) { addProguardKeepRule(keep, name, pkg.string(), assFile->getPrintableSource(), tree.getLineNumber()); } } } return NO_ERROR; } struct NamespaceAttributePair { const char* ns; const char* attr; NamespaceAttributePair(const char* n, const char* a) : ns(n), attr(a) {} NamespaceAttributePair() : ns(NULL), attr(NULL) {} }; status_t writeProguardForXml(ProguardKeepSet* keep, const sp& layoutFile, const Vector& startTags, const KeyedVector >* tagAttrPairs) { status_t err; ResXMLTree tree; size_t len; ResXMLTree::event_code_t code; err = parseXMLResource(layoutFile, &tree); if (err != NO_ERROR) { return err; } tree.restart(); if (!startTags.isEmpty()) { bool haveStart = false; while ((code=tree.next()) != ResXMLTree::END_DOCUMENT && code != ResXMLTree::BAD_DOCUMENT) { if (code != ResXMLTree::START_TAG) { continue; } String8 tag(tree.getElementName(&len)); const size_t numStartTags = startTags.size(); for (size_t i = 0; i < numStartTags; i++) { if (tag == startTags[i]) { haveStart = true; } } break; } if (!haveStart) { return NO_ERROR; } } while ((code=tree.next()) != ResXMLTree::END_DOCUMENT && code != ResXMLTree::BAD_DOCUMENT) { if (code != ResXMLTree::START_TAG) { continue; } String8 tag(tree.getElementName(&len)); // If there is no '.', we'll assume that it's one of the built in names. if (strchr(tag.string(), '.')) { addProguardKeepRule(keep, tag, NULL, layoutFile->getPrintableSource(), tree.getLineNumber()); } else if (tagAttrPairs != NULL) { ssize_t tagIndex = tagAttrPairs->indexOfKey(tag); if (tagIndex >= 0) { const Vector& nsAttrVector = tagAttrPairs->valueAt(tagIndex); for (size_t i = 0; i < nsAttrVector.size(); i++) { const NamespaceAttributePair& nsAttr = nsAttrVector[i]; ssize_t attrIndex = tree.indexOfAttribute(nsAttr.ns, nsAttr.attr); if (attrIndex < 0) { // fprintf(stderr, "%s:%d: <%s> does not have attribute %s:%s.\n", // layoutFile->getPrintableSource().string(), tree.getLineNumber(), // tag.string(), nsAttr.ns, nsAttr.attr); } else { size_t len; addProguardKeepRule(keep, String8(tree.getAttributeStringValue(attrIndex, &len)), NULL, layoutFile->getPrintableSource(), tree.getLineNumber()); } } } } ssize_t attrIndex = tree.indexOfAttribute(RESOURCES_ANDROID_NAMESPACE, "onClick"); if (attrIndex >= 0) { size_t len; addProguardKeepMethodRule(keep, String8(tree.getAttributeStringValue(attrIndex, &len)), NULL, layoutFile->getPrintableSource(), tree.getLineNumber()); } } return NO_ERROR; } static void addTagAttrPair(KeyedVector >* dest, const char* tag, const char* ns, const char* attr) { String8 tagStr(tag); ssize_t index = dest->indexOfKey(tagStr); if (index < 0) { Vector vector; vector.add(NamespaceAttributePair(ns, attr)); dest->add(tagStr, vector); } else { dest->editValueAt(index).add(NamespaceAttributePair(ns, attr)); } } status_t writeProguardForLayouts(ProguardKeepSet* keep, const sp& assets) { status_t err; // tag:attribute pairs that should be checked in layout files. KeyedVector > kLayoutTagAttrPairs; addTagAttrPair(&kLayoutTagAttrPairs, "view", NULL, "class"); addTagAttrPair(&kLayoutTagAttrPairs, "fragment", NULL, "class"); addTagAttrPair(&kLayoutTagAttrPairs, "fragment", RESOURCES_ANDROID_NAMESPACE, "name"); // tag:attribute pairs that should be checked in xml files. KeyedVector > kXmlTagAttrPairs; addTagAttrPair(&kXmlTagAttrPairs, "PreferenceScreen", RESOURCES_ANDROID_NAMESPACE, "fragment"); addTagAttrPair(&kXmlTagAttrPairs, "header", RESOURCES_ANDROID_NAMESPACE, "fragment"); const Vector >& dirs = assets->resDirs(); const size_t K = dirs.size(); for (size_t k=0; k& d = dirs.itemAt(k); const String8& dirName = d->getLeaf(); Vector startTags; const char* startTag = NULL; const KeyedVector >* tagAttrPairs = NULL; if ((dirName == String8("layout")) || (strncmp(dirName.string(), "layout-", 7) == 0)) { tagAttrPairs = &kLayoutTagAttrPairs; } else if ((dirName == String8("xml")) || (strncmp(dirName.string(), "xml-", 4) == 0)) { startTags.add(String8("PreferenceScreen")); startTags.add(String8("preference-headers")); tagAttrPairs = &kXmlTagAttrPairs; } else if ((dirName == String8("menu")) || (strncmp(dirName.string(), "menu-", 5) == 0)) { startTags.add(String8("menu")); tagAttrPairs = NULL; } else { continue; } const KeyedVector > groups = d->getFiles(); const size_t N = groups.size(); for (size_t i=0; i& group = groups.valueAt(i); const DefaultKeyedVector >& files = group->getFiles(); const size_t M = files.size(); for (size_t j=0; j overlay = assets->getOverlay(); if (overlay.get()) { return writeProguardForLayouts(keep, overlay); } return NO_ERROR; } status_t writeProguardFile(Bundle* bundle, const sp& assets) { status_t err = -1; if (!bundle->getProguardFile()) { return NO_ERROR; } ProguardKeepSet keep; err = writeProguardForAndroidManifest(&keep, assets); if (err < 0) { return err; } err = writeProguardForLayouts(&keep, assets); if (err < 0) { return err; } FILE* fp = fopen(bundle->getProguardFile(), "w+"); if (fp == NULL) { fprintf(stderr, "ERROR: Unable to open class file %s: %s\n", bundle->getProguardFile(), strerror(errno)); return UNKNOWN_ERROR; } const KeyedVector >& rules = keep.rules; const size_t N = rules.size(); for (size_t i=0; i& locations = rules.valueAt(i); const size_t M = locations.size(); for (size_t j=0; j& files, FILE* fp) { status_t deps = -1; for (size_t file_i = 0; file_i < files->size(); ++file_i) { // Add the full file path to the dependency file fprintf(fp, "%s \\\n", files->itemAt(file_i).string()); deps++; } return deps; } status_t writeDependencyPreReqs(Bundle* bundle, const sp& assets, FILE* fp, bool includeRaw) { status_t deps = -1; deps += writePathsToFile(assets->getFullResPaths(), fp); if (includeRaw) { deps += writePathsToFile(assets->getFullAssetPaths(), fp); } return deps; }