// // Copyright 2006 The Android Open Source Project // #include "AaptAssets.h" #include "AaptConfig.h" #include "AaptUtil.h" #include "Main.h" #include "ResourceFilter.h" #include #include #include #include #include static const char* kAssetDir = "assets"; static const char* kResourceDir = "res"; static const char* kValuesDir = "values"; static const char* kMipmapDir = "mipmap"; static const char* kInvalidChars = "/\\:"; static const size_t kMaxAssetFileName = 100; static const String8 kResString(kResourceDir); /* * Names of asset files must meet the following criteria: * * - the filename length must be less than kMaxAssetFileName bytes long * (and can't be empty) * - all characters must be 7-bit printable ASCII * - none of { '/' '\\' ':' } * * Pass in just the filename, not the full path. */ static bool validateFileName(const char* fileName) { const char* cp = fileName; size_t len = 0; while (*cp != '\0') { if ((*cp & 0x80) != 0) return false; // reject high ASCII if (*cp < 0x20 || *cp >= 0x7f) return false; // reject control chars and 0x7f if (strchr(kInvalidChars, *cp) != NULL) return false; // reject path sep chars cp++; len++; } if (len < 1 || len > kMaxAssetFileName) return false; // reject empty or too long return true; } // The default to use if no other ignore pattern is defined. const char * const gDefaultIgnoreAssets = "!.svn:!.git:!.ds_store:!*.scc:.*:_*:!CVS:!thumbs.db:!picasa.ini:!*~"; // The ignore pattern that can be passed via --ignore-assets in Main.cpp const char * gUserIgnoreAssets = NULL; static bool isHidden(const char *root, const char *path) { // Patterns syntax: // - Delimiter is : // - Entry can start with the flag ! to avoid printing a warning // about the file being ignored. // - Entry can have the flag "" to match only directories // or to match only files. Default is to match both. // - Entry can be a simplified glob "*" or "*" // where prefix/suffix must have at least 1 character (so that // we don't match a '*' catch-all pattern.) // - The special filenames "." and ".." are always ignored. // - Otherwise the full string is matched. // - match is not case-sensitive. if (strcmp(path, ".") == 0 || strcmp(path, "..") == 0) { return true; } const char *delim = ":"; const char *p = gUserIgnoreAssets; if (!p || !p[0]) { p = getenv("ANDROID_AAPT_IGNORE"); } if (!p || !p[0]) { p = gDefaultIgnoreAssets; } char *patterns = strdup(p); bool ignore = false; bool chatty = true; char *matchedPattern = NULL; String8 fullPath(root); fullPath.appendPath(path); FileType type = getFileType(fullPath); int plen = strlen(path); // Note: we don't have strtok_r under mingw. for(char *token = strtok(patterns, delim); !ignore && token != NULL; token = strtok(NULL, delim)) { chatty = token[0] != '!'; if (!chatty) token++; // skip ! if (strncasecmp(token, "" , 5) == 0) { if (type != kFileTypeDirectory) continue; token += 5; } if (strncasecmp(token, "", 6) == 0) { if (type != kFileTypeRegular) continue; token += 6; } matchedPattern = token; int n = strlen(token); if (token[0] == '*') { // Match *suffix token++; n--; if (n <= plen) { ignore = strncasecmp(token, path + plen - n, n) == 0; } } else if (n > 1 && token[n - 1] == '*') { // Match prefix* ignore = strncasecmp(token, path, n - 1) == 0; } else { ignore = strcasecmp(token, path) == 0; } } if (ignore && chatty) { fprintf(stderr, " (skipping %s '%s' due to ANDROID_AAPT_IGNORE pattern '%s')\n", type == kFileTypeDirectory ? "dir" : "file", path, matchedPattern ? matchedPattern : ""); } free(patterns); return ignore; } // ========================================================================= // ========================================================================= // ========================================================================= /* static */ inline bool isAlpha(const String8& string) { const size_t length = string.length(); for (size_t i = 0; i < length; ++i) { if (!isalpha(string[i])) { return false; } } return true; } /* static */ inline bool isNumber(const String8& string) { const size_t length = string.length(); for (size_t i = 0; i < length; ++i) { if (!isdigit(string[i])) { return false; } } return true; } void AaptLocaleValue::setLanguage(const char* languageChars) { size_t i = 0; while ((*languageChars) != '\0' && i < sizeof(language)/sizeof(language[0])) { language[i++] = tolower(*languageChars); languageChars++; } } void AaptLocaleValue::setRegion(const char* regionChars) { size_t i = 0; while ((*regionChars) != '\0' && i < sizeof(region)/sizeof(region[0])) { region[i++] = toupper(*regionChars); regionChars++; } } void AaptLocaleValue::setScript(const char* scriptChars) { size_t i = 0; while ((*scriptChars) != '\0' && i < sizeof(script)/sizeof(script[0])) { if (i == 0) { script[i++] = toupper(*scriptChars); } else { script[i++] = tolower(*scriptChars); } scriptChars++; } } void AaptLocaleValue::setVariant(const char* variantChars) { size_t i = 0; while ((*variantChars) != '\0' && i < sizeof(variant)/sizeof(variant[0])) { variant[i++] = *variantChars; variantChars++; } } bool AaptLocaleValue::initFromFilterString(const String8& str) { // A locale (as specified in the filter) is an underscore separated name such // as "en_US", "en_Latn_US", or "en_US_POSIX". Vector parts = AaptUtil::splitAndLowerCase(str, '_'); const int numTags = parts.size(); bool valid = false; if (numTags >= 1) { const String8& lang = parts[0]; if (isAlpha(lang) && (lang.length() == 2 || lang.length() == 3)) { setLanguage(lang.string()); valid = true; } } if (!valid || numTags == 1) { return valid; } // At this point, valid == true && numTags > 1. const String8& part2 = parts[1]; if ((part2.length() == 2 && isAlpha(part2)) || (part2.length() == 3 && isNumber(part2))) { setRegion(part2.string()); } else if (part2.length() == 4 && isAlpha(part2)) { setScript(part2.string()); } else if (part2.length() >= 4 && part2.length() <= 8) { setVariant(part2.string()); } else { valid = false; } if (!valid || numTags == 2) { return valid; } // At this point, valid == true && numTags > 1. const String8& part3 = parts[2]; if (((part3.length() == 2 && isAlpha(part3)) || (part3.length() == 3 && isNumber(part3))) && script[0]) { setRegion(part3.string()); } else if (part3.length() >= 4 && part3.length() <= 8) { setVariant(part3.string()); } else { valid = false; } if (!valid || numTags == 3) { return valid; } const String8& part4 = parts[3]; if (part4.length() >= 4 && part4.length() <= 8) { setVariant(part4.string()); } else { valid = false; } if (!valid || numTags > 4) { return false; } return true; } int AaptLocaleValue::initFromDirName(const Vector& parts, const int startIndex) { const int size = parts.size(); int currentIndex = startIndex; String8 part = parts[currentIndex]; if (part[0] == 'b' && part[1] == '+') { // This is a "modified" BCP 47 language tag. Same semantics as BCP 47 tags, // except that the separator is "+" and not "-". Vector subtags = AaptUtil::splitAndLowerCase(part, '+'); subtags.removeItemsAt(0); if (subtags.size() == 1) { setLanguage(subtags[0]); } else if (subtags.size() == 2) { setLanguage(subtags[0]); // The second tag can either be a region, a variant or a script. switch (subtags[1].size()) { case 2: case 3: setRegion(subtags[1]); break; case 4: if (isAlpha(subtags[1])) { setScript(subtags[1]); break; } // This is not alphabetical, so we fall through to variant case 5: case 6: case 7: case 8: setVariant(subtags[1]); break; default: fprintf(stderr, "ERROR: Invalid BCP 47 tag in directory name %s\n", part.string()); return -1; } } else if (subtags.size() == 3) { // The language is always the first subtag. setLanguage(subtags[0]); // The second subtag can either be a script or a region code. // If its size is 4, it's a script code, else it's a region code. bool hasRegion = false; if (subtags[1].size() == 4) { setScript(subtags[1]); } else if (subtags[1].size() == 2 || subtags[1].size() == 3) { setRegion(subtags[1]); hasRegion = true; } else { fprintf(stderr, "ERROR: Invalid BCP 47 tag in directory name %s\n", part.string()); return -1; } // The third tag can either be a region code (if the second tag was // a script), else a variant code. if (subtags[2].size() >= 4) { setVariant(subtags[2]); } else { setRegion(subtags[2]); } } else if (subtags.size() == 4) { setLanguage(subtags[0]); setScript(subtags[1]); setRegion(subtags[2]); setVariant(subtags[3]); } else { fprintf(stderr, "ERROR: Invalid BCP 47 tag in directory name: %s\n", part.string()); return -1; } return ++currentIndex; } else { if ((part.length() == 2 || part.length() == 3) && isAlpha(part) && strcmp("car", part.string())) { setLanguage(part); if (++currentIndex == size) { return size; } } else { return currentIndex; } part = parts[currentIndex]; if (part.string()[0] == 'r' && part.length() == 3) { setRegion(part.string() + 1); if (++currentIndex == size) { return size; } } } return currentIndex; } void AaptLocaleValue::initFromResTable(const ResTable_config& config) { config.unpackLanguage(language); config.unpackRegion(region); if (config.localeScript[0] && !config.localeScriptWasComputed) { memcpy(script, config.localeScript, sizeof(config.localeScript)); } if (config.localeVariant[0]) { memcpy(variant, config.localeVariant, sizeof(config.localeVariant)); } } void AaptLocaleValue::writeTo(ResTable_config* out) const { out->packLanguage(language); out->packRegion(region); if (script[0]) { memcpy(out->localeScript, script, sizeof(out->localeScript)); } if (variant[0]) { memcpy(out->localeVariant, variant, sizeof(out->localeVariant)); } } bool AaptGroupEntry::initFromDirName(const char* dir, String8* resType) { const char* q = strchr(dir, '-'); size_t typeLen; if (q != NULL) { typeLen = q - dir; } else { typeLen = strlen(dir); } String8 type(dir, typeLen); if (!isValidResourceType(type)) { return false; } if (q != NULL) { if (!AaptConfig::parse(String8(q + 1), &mParams)) { return false; } } *resType = type; return true; } String8 AaptGroupEntry::toDirName(const String8& resType) const { String8 s = resType; String8 params = mParams.toString(); if (params.length() > 0) { if (s.length() > 0) { s += "-"; } s += params; } return s; } // ========================================================================= // ========================================================================= // ========================================================================= void* AaptFile::editData(size_t size) { if (size <= mBufferSize) { mDataSize = size; return mData; } size_t allocSize = (size*3)/2; void* buf = realloc(mData, allocSize); if (buf == NULL) { return NULL; } mData = buf; mDataSize = size; mBufferSize = allocSize; return buf; } void* AaptFile::editDataInRange(size_t offset, size_t size) { return (void*)(((uint8_t*) editData(offset + size)) + offset); } void* AaptFile::editData(size_t* outSize) { if (outSize) { *outSize = mDataSize; } return mData; } void* AaptFile::padData(size_t wordSize) { const size_t extra = mDataSize%wordSize; if (extra == 0) { return mData; } size_t initial = mDataSize; void* data = editData(initial+(wordSize-extra)); if (data != NULL) { memset(((uint8_t*)data) + initial, 0, wordSize-extra); } return data; } status_t AaptFile::writeData(const void* data, size_t size) { size_t end = mDataSize; size_t total = size + end; void* buf = editData(total); if (buf == NULL) { return UNKNOWN_ERROR; } memcpy(((char*)buf)+end, data, size); return NO_ERROR; } void AaptFile::clearData() { if (mData != NULL) free(mData); mData = NULL; mDataSize = 0; mBufferSize = 0; } String8 AaptFile::getPrintableSource() const { if (hasData()) { String8 name(mGroupEntry.toDirName(String8())); name.appendPath(mPath); name.append(" #generated"); return name; } return mSourceFile; } // ========================================================================= // ========================================================================= // ========================================================================= status_t AaptGroup::addFile(const sp& file, const bool overwriteDuplicate) { ssize_t index = mFiles.indexOfKey(file->getGroupEntry()); if (index >= 0 && overwriteDuplicate) { fprintf(stderr, "warning: overwriting '%s' with '%s'\n", mFiles[index]->getSourceFile().string(), file->getSourceFile().string()); removeFile(index); index = -1; } if (index < 0) { file->mPath = mPath; mFiles.add(file->getGroupEntry(), file); return NO_ERROR; } // Check if the version is automatically applied. This is a common source of // error. ConfigDescription withoutVersion = file->getGroupEntry().toParams(); withoutVersion.version = 0; AaptConfig::applyVersionForCompatibility(&withoutVersion); const sp& originalFile = mFiles.valueAt(index); SourcePos(file->getSourceFile(), -1) .error("Duplicate file.\n%s: Original is here. %s", originalFile->getPrintableSource().string(), (withoutVersion.version != 0) ? "The version qualifier may be implied." : ""); return UNKNOWN_ERROR; } void AaptGroup::removeFile(size_t index) { mFiles.removeItemsAt(index); } void AaptGroup::print(const String8& prefix) const { printf("%s%s\n", prefix.string(), getPath().string()); const size_t N=mFiles.size(); size_t i; for (i=0; i file = mFiles.valueAt(i); const AaptGroupEntry& e = file->getGroupEntry(); if (file->hasData()) { printf("%s Gen: (%s) %d bytes\n", prefix.string(), e.toDirName(String8()).string(), (int)file->getSize()); } else { printf("%s Src: (%s) %s\n", prefix.string(), e.toDirName(String8()).string(), file->getPrintableSource().string()); } //printf("%s File Group Entry: %s\n", prefix.string(), // file->getGroupEntry().toDirName(String8()).string()); } } String8 AaptGroup::getPrintableSource() const { if (mFiles.size() > 0) { // Arbitrarily pull the first source file out of the list. return mFiles.valueAt(0)->getPrintableSource(); } // Should never hit this case, but to be safe... return getPath(); } // ========================================================================= // ========================================================================= // ========================================================================= status_t AaptDir::addFile(const String8& name, const sp& file) { if (mFiles.indexOfKey(name) >= 0) { return ALREADY_EXISTS; } mFiles.add(name, file); return NO_ERROR; } status_t AaptDir::addDir(const String8& name, const sp& dir) { if (mDirs.indexOfKey(name) >= 0) { return ALREADY_EXISTS; } mDirs.add(name, dir); return NO_ERROR; } sp AaptDir::makeDir(const String8& path) { String8 name; String8 remain = path; sp subdir = this; while (name = remain.walkPath(&remain), remain != "") { subdir = subdir->makeDir(name); } ssize_t i = subdir->mDirs.indexOfKey(name); if (i >= 0) { return subdir->mDirs.valueAt(i); } sp dir = new AaptDir(name, subdir->mPath.appendPathCopy(name)); subdir->mDirs.add(name, dir); return dir; } void AaptDir::removeFile(const String8& name) { mFiles.removeItem(name); } void AaptDir::removeDir(const String8& name) { mDirs.removeItem(name); } status_t AaptDir::addLeafFile(const String8& leafName, const sp& file, const bool overwrite) { sp group; if (mFiles.indexOfKey(leafName) >= 0) { group = mFiles.valueFor(leafName); } else { group = new AaptGroup(leafName, mPath.appendPathCopy(leafName)); mFiles.add(leafName, group); } return group->addFile(file, overwrite); } ssize_t AaptDir::slurpFullTree(Bundle* bundle, const String8& srcDir, const AaptGroupEntry& kind, const String8& resType, sp& fullResPaths, const bool overwrite) { Vector fileNames; { DIR* dir = NULL; dir = opendir(srcDir.string()); if (dir == NULL) { fprintf(stderr, "ERROR: opendir(%s): %s\n", srcDir.string(), strerror(errno)); return UNKNOWN_ERROR; } /* * Slurp the filenames out of the directory. */ while (1) { struct dirent* entry; entry = readdir(dir); if (entry == NULL) break; if (isHidden(srcDir.string(), entry->d_name)) continue; String8 name(entry->d_name); fileNames.add(name); // Add fully qualified path for dependency purposes // if we're collecting them if (fullResPaths != NULL) { fullResPaths->add(srcDir.appendPathCopy(name)); } } closedir(dir); } ssize_t count = 0; /* * Stash away the files and recursively descend into subdirectories. */ const size_t N = fileNames.size(); size_t i; for (i = 0; i < N; i++) { String8 pathName(srcDir); FileType type; pathName.appendPath(fileNames[i].string()); type = getFileType(pathName.string()); if (type == kFileTypeDirectory) { sp subdir; bool notAdded = false; if (mDirs.indexOfKey(fileNames[i]) >= 0) { subdir = mDirs.valueFor(fileNames[i]); } else { subdir = new AaptDir(fileNames[i], mPath.appendPathCopy(fileNames[i])); notAdded = true; } ssize_t res = subdir->slurpFullTree(bundle, pathName, kind, resType, fullResPaths, overwrite); if (res < NO_ERROR) { return res; } if (res > 0 && notAdded) { mDirs.add(fileNames[i], subdir); } count += res; } else if (type == kFileTypeRegular) { sp file = new AaptFile(pathName, kind, resType); status_t err = addLeafFile(fileNames[i], file, overwrite); if (err != NO_ERROR) { return err; } count++; } else { if (bundle->getVerbose()) printf(" (ignoring non-file/dir '%s')\n", pathName.string()); } } return count; } status_t AaptDir::validate() const { const size_t NF = mFiles.size(); const size_t ND = mDirs.size(); size_t i; for (i = 0; i < NF; i++) { if (!validateFileName(mFiles.valueAt(i)->getLeaf().string())) { SourcePos(mFiles.valueAt(i)->getPrintableSource(), -1).error( "Invalid filename. Unable to add."); return UNKNOWN_ERROR; } size_t j; for (j = i+1; j < NF; j++) { if (strcasecmp(mFiles.valueAt(i)->getLeaf().string(), mFiles.valueAt(j)->getLeaf().string()) == 0) { SourcePos(mFiles.valueAt(i)->getPrintableSource(), -1).error( "File is case-insensitive equivalent to: %s", mFiles.valueAt(j)->getPrintableSource().string()); return UNKNOWN_ERROR; } // TODO: if ".gz", check for non-.gz; if non-, check for ".gz" // (this is mostly caught by the "marked" stuff, below) } for (j = 0; j < ND; j++) { if (strcasecmp(mFiles.valueAt(i)->getLeaf().string(), mDirs.valueAt(j)->getLeaf().string()) == 0) { SourcePos(mFiles.valueAt(i)->getPrintableSource(), -1).error( "File conflicts with dir from: %s", mDirs.valueAt(j)->getPrintableSource().string()); return UNKNOWN_ERROR; } } } for (i = 0; i < ND; i++) { if (!validateFileName(mDirs.valueAt(i)->getLeaf().string())) { SourcePos(mDirs.valueAt(i)->getPrintableSource(), -1).error( "Invalid directory name, unable to add."); return UNKNOWN_ERROR; } size_t j; for (j = i+1; j < ND; j++) { if (strcasecmp(mDirs.valueAt(i)->getLeaf().string(), mDirs.valueAt(j)->getLeaf().string()) == 0) { SourcePos(mDirs.valueAt(i)->getPrintableSource(), -1).error( "Directory is case-insensitive equivalent to: %s", mDirs.valueAt(j)->getPrintableSource().string()); return UNKNOWN_ERROR; } } status_t err = mDirs.valueAt(i)->validate(); if (err != NO_ERROR) { return err; } } return NO_ERROR; } void AaptDir::print(const String8& prefix) const { const size_t ND=getDirs().size(); size_t i; for (i=0; iprint(prefix); } const size_t NF=getFiles().size(); for (i=0; iprint(prefix); } } String8 AaptDir::getPrintableSource() const { if (mFiles.size() > 0) { // Arbitrarily pull the first file out of the list as the source dir. return mFiles.valueAt(0)->getPrintableSource().getPathDir(); } if (mDirs.size() > 0) { // Or arbitrarily pull the first dir out of the list as the source dir. return mDirs.valueAt(0)->getPrintableSource().getPathDir(); } // Should never hit this case, but to be safe... return mPath; } // ========================================================================= // ========================================================================= // ========================================================================= status_t AaptSymbols::applyJavaSymbols(const sp& javaSymbols) { status_t err = NO_ERROR; size_t N = javaSymbols->mSymbols.size(); for (size_t i=0; imSymbols.keyAt(i); const AaptSymbolEntry& entry = javaSymbols->mSymbols.valueAt(i); ssize_t pos = mSymbols.indexOfKey(name); if (pos < 0) { entry.sourcePos.error("Symbol '%s' declared with not defined\n", name.string()); err = UNKNOWN_ERROR; continue; } //printf("**** setting symbol #%d/%d %s to isJavaSymbol=%d\n", // i, N, name.string(), entry.isJavaSymbol ? 1 : 0); mSymbols.editValueAt(pos).isJavaSymbol = entry.isJavaSymbol; } N = javaSymbols->mNestedSymbols.size(); for (size_t i=0; imNestedSymbols.keyAt(i); const sp& symbols = javaSymbols->mNestedSymbols.valueAt(i); ssize_t pos = mNestedSymbols.indexOfKey(name); if (pos < 0) { SourcePos pos; pos.error("Java symbol dir %s not defined\n", name.string()); err = UNKNOWN_ERROR; continue; } //printf("**** applying java symbols in dir %s\n", name.string()); status_t myerr = mNestedSymbols.valueAt(pos)->applyJavaSymbols(symbols); if (myerr != NO_ERROR) { err = myerr; } } return err; } // ========================================================================= // ========================================================================= // ========================================================================= AaptAssets::AaptAssets() : AaptDir(String8(), String8()), mHavePrivateSymbols(false), mChanged(false), mHaveIncludedAssets(false), mRes(NULL) {} const SortedVector& AaptAssets::getGroupEntries() const { if (mChanged) { } return mGroupEntries; } status_t AaptAssets::addFile(const String8& name, const sp& file) { mChanged = true; return AaptDir::addFile(name, file); } sp AaptAssets::addFile( const String8& filePath, const AaptGroupEntry& entry, const String8& srcDir, sp* outGroup, const String8& resType) { sp dir = this; sp group; sp file; String8 root, remain(filePath), partialPath; while (remain.length() > 0) { root = remain.walkPath(&remain); partialPath.appendPath(root); const String8 rootStr(root); if (remain.length() == 0) { ssize_t i = dir->getFiles().indexOfKey(rootStr); if (i >= 0) { group = dir->getFiles().valueAt(i); } else { group = new AaptGroup(rootStr, filePath); status_t res = dir->addFile(rootStr, group); if (res != NO_ERROR) { return NULL; } } file = new AaptFile(srcDir.appendPathCopy(filePath), entry, resType); status_t res = group->addFile(file); if (res != NO_ERROR) { return NULL; } break; } else { ssize_t i = dir->getDirs().indexOfKey(rootStr); if (i >= 0) { dir = dir->getDirs().valueAt(i); } else { sp subdir = new AaptDir(rootStr, partialPath); status_t res = dir->addDir(rootStr, subdir); if (res != NO_ERROR) { return NULL; } dir = subdir; } } } mGroupEntries.add(entry); if (outGroup) *outGroup = group; return file; } void AaptAssets::addResource(const String8& leafName, const String8& path, const sp& file, const String8& resType) { sp res = AaptDir::makeDir(kResString); String8 dirname = file->getGroupEntry().toDirName(resType); sp subdir = res->makeDir(dirname); sp grr = new AaptGroup(leafName, path); grr->addFile(file); subdir->addFile(leafName, grr); } ssize_t AaptAssets::slurpFromArgs(Bundle* bundle) { int count; int totalCount = 0; FileType type; const Vector& resDirs = bundle->getResourceSourceDirs(); const size_t dirCount =resDirs.size(); sp current = this; const int N = bundle->getFileSpecCount(); /* * If a package manifest was specified, include that first. */ if (bundle->getAndroidManifestFile() != NULL) { // place at root of zip. String8 srcFile(bundle->getAndroidManifestFile()); addFile(srcFile.getPathLeaf(), AaptGroupEntry(), srcFile.getPathDir(), NULL, String8()); totalCount++; } /* * If a directory of custom assets was supplied, slurp 'em up. */ const Vector& assetDirs = bundle->getAssetSourceDirs(); const int AN = assetDirs.size(); for (int i = 0; i < AN; i++) { FileType type = getFileType(assetDirs[i]); if (type == kFileTypeNonexistent) { fprintf(stderr, "ERROR: asset directory '%s' does not exist\n", assetDirs[i]); return UNKNOWN_ERROR; } if (type != kFileTypeDirectory) { fprintf(stderr, "ERROR: '%s' is not a directory\n", assetDirs[i]); return UNKNOWN_ERROR; } String8 assetRoot(assetDirs[i]); sp assetAaptDir = makeDir(String8(kAssetDir)); AaptGroupEntry group; count = assetAaptDir->slurpFullTree(bundle, assetRoot, group, String8(), mFullAssetPaths, true); if (count < 0) { totalCount = count; goto bail; } if (count > 0) { mGroupEntries.add(group); } totalCount += count; if (bundle->getVerbose()) { printf("Found %d custom asset file%s in %s\n", count, (count==1) ? "" : "s", assetDirs[i]); } } /* * If a directory of resource-specific assets was supplied, slurp 'em up. */ for (size_t i=0; i0) { sp nextOverlay = new AaptAssets(); current->setOverlay(nextOverlay); current = nextOverlay; current->setFullResPaths(mFullResPaths); } count = current->slurpResourceTree(bundle, String8(res)); if (i > 0 && count > 0) { count = current->filter(bundle); } if (count < 0) { totalCount = count; goto bail; } totalCount += count; } else { fprintf(stderr, "ERROR: '%s' is not a directory\n", res); return UNKNOWN_ERROR; } } } /* * Now do any additional raw files. */ for (int arg=0; arggetFileSpecEntry(arg); FileType type = getFileType(assetDir); if (type == kFileTypeNonexistent) { fprintf(stderr, "ERROR: input directory '%s' does not exist\n", assetDir); return UNKNOWN_ERROR; } if (type != kFileTypeDirectory) { fprintf(stderr, "ERROR: '%s' is not a directory\n", assetDir); return UNKNOWN_ERROR; } String8 assetRoot(assetDir); if (bundle->getVerbose()) printf("Processing raw dir '%s'\n", (const char*) assetDir); /* * Do a recursive traversal of subdir tree. We don't make any * guarantees about ordering, so we're okay with an inorder search * using whatever order the OS happens to hand back to us. */ count = slurpFullTree(bundle, assetRoot, AaptGroupEntry(), String8(), mFullAssetPaths); if (count < 0) { /* failure; report error and remove archive */ totalCount = count; goto bail; } totalCount += count; if (bundle->getVerbose()) printf("Found %d asset file%s in %s\n", count, (count==1) ? "" : "s", assetDir); } count = validate(); if (count != NO_ERROR) { totalCount = count; goto bail; } count = filter(bundle); if (count != NO_ERROR) { totalCount = count; goto bail; } bail: return totalCount; } ssize_t AaptAssets::slurpFullTree(Bundle* bundle, const String8& srcDir, const AaptGroupEntry& kind, const String8& resType, sp& fullResPaths, const bool overwrite) { ssize_t res = AaptDir::slurpFullTree(bundle, srcDir, kind, resType, fullResPaths, overwrite); if (res > 0) { mGroupEntries.add(kind); } return res; } ssize_t AaptAssets::slurpResourceTree(Bundle* bundle, const String8& srcDir) { ssize_t err = 0; DIR* dir = opendir(srcDir.string()); if (dir == NULL) { fprintf(stderr, "ERROR: opendir(%s): %s\n", srcDir.string(), strerror(errno)); return UNKNOWN_ERROR; } status_t count = 0; /* * Run through the directory, looking for dirs that match the * expected pattern. */ while (1) { struct dirent* entry = readdir(dir); if (entry == NULL) { break; } if (isHidden(srcDir.string(), entry->d_name)) { continue; } String8 subdirName(srcDir); subdirName.appendPath(entry->d_name); AaptGroupEntry group; String8 resType; bool b = group.initFromDirName(entry->d_name, &resType); if (!b) { fprintf(stderr, "invalid resource directory name: %s %s\n", srcDir.string(), entry->d_name); err = -1; continue; } if (bundle->getMaxResVersion() != NULL && group.getVersionString().length() != 0) { int maxResInt = atoi(bundle->getMaxResVersion()); const char *verString = group.getVersionString().string(); int dirVersionInt = atoi(verString + 1); // skip 'v' in version name if (dirVersionInt > maxResInt) { fprintf(stderr, "max res %d, skipping %s\n", maxResInt, entry->d_name); continue; } } FileType type = getFileType(subdirName.string()); if (type == kFileTypeDirectory) { sp dir = makeDir(resType); ssize_t res = dir->slurpFullTree(bundle, subdirName, group, resType, mFullResPaths); if (res < 0) { count = res; goto bail; } if (res > 0) { mGroupEntries.add(group); count += res; } // Only add this directory if we don't already have a resource dir // for the current type. This ensures that we only add the dir once // for all configs. sp rdir = resDir(resType); if (rdir == NULL) { mResDirs.add(dir); } } else { if (bundle->getVerbose()) { fprintf(stderr, " (ignoring file '%s')\n", subdirName.string()); } } } bail: closedir(dir); dir = NULL; if (err != 0) { return err; } return count; } ssize_t AaptAssets::slurpResourceZip(Bundle* /* bundle */, const char* filename) { int count = 0; SortedVector entries; ZipFile* zip = new ZipFile; status_t err = zip->open(filename, ZipFile::kOpenReadOnly); if (err != NO_ERROR) { fprintf(stderr, "error opening zip file %s\n", filename); count = err; delete zip; return -1; } const int N = zip->getNumEntries(); for (int i=0; igetEntryByIndex(i); if (entry->getDeleted()) { continue; } String8 entryName(entry->getFileName()); String8 dirName = entryName.getPathDir(); sp dir = dirName == "" ? this : makeDir(dirName); String8 resType; AaptGroupEntry kind; String8 remain; if (entryName.walkPath(&remain) == kResourceDir) { // these are the resources, pull their type out of the directory name kind.initFromDirName(remain.walkPath().string(), &resType); } else { // these are untyped and don't have an AaptGroupEntry } if (entries.indexOf(kind) < 0) { entries.add(kind); mGroupEntries.add(kind); } // use the one from the zip file if they both exist. dir->removeFile(entryName.getPathLeaf()); sp file = new AaptFile(entryName, kind, resType); status_t err = dir->addLeafFile(entryName.getPathLeaf(), file); if (err != NO_ERROR) { fprintf(stderr, "err=%s entryName=%s\n", strerror(err), entryName.string()); count = err; goto bail; } file->setCompressionMethod(entry->getCompressionMethod()); #if 0 if (entryName == "AndroidManifest.xml") { printf("AndroidManifest.xml\n"); } printf("\n\nfile: %s\n", entryName.string()); #endif size_t len = entry->getUncompressedLen(); void* data = zip->uncompress(entry); void* buf = file->editData(len); memcpy(buf, data, len); #if 0 const int OFF = 0; const unsigned char* p = (unsigned char*)data; const unsigned char* end = p+len; p += OFF; for (int i=0; i<32 && p < end; i++) { printf("0x%03x ", i*0x10 + OFF); for (int j=0; j<0x10 && p < end; j++) { printf(" %02x", *p); p++; } printf("\n"); } #endif free(data); count++; } bail: delete zip; return count; } status_t AaptAssets::filter(Bundle* bundle) { WeakResourceFilter reqFilter; status_t err = reqFilter.parse(bundle->getConfigurations()); if (err != NO_ERROR) { return err; } uint32_t preferredDensity = 0; if (bundle->getPreferredDensity().size() > 0) { ResTable_config preferredConfig; if (!AaptConfig::parseDensity(bundle->getPreferredDensity().string(), &preferredConfig)) { fprintf(stderr, "Error parsing preferred density: %s\n", bundle->getPreferredDensity().string()); return UNKNOWN_ERROR; } preferredDensity = preferredConfig.density; } if (reqFilter.isEmpty() && preferredDensity == 0) { return NO_ERROR; } if (bundle->getVerbose()) { if (!reqFilter.isEmpty()) { printf("Applying required filter: %s\n", bundle->getConfigurations().string()); } if (preferredDensity > 0) { printf("Applying preferred density filter: %s\n", bundle->getPreferredDensity().string()); } } const Vector >& resdirs = mResDirs; const size_t ND = resdirs.size(); for (size_t i=0; i& dir = resdirs.itemAt(i); if (dir->getLeaf() == kValuesDir) { // The "value" dir is special since a single file defines // multiple resources, so we can not do filtering on the // files themselves. continue; } if (dir->getLeaf() == kMipmapDir) { // We also skip the "mipmap" directory, since the point of this // is to include all densities without stripping. If you put // other configurations in here as well they won't be stripped // either... So don't do that. Seriously. What is wrong with you? continue; } const size_t NG = dir->getFiles().size(); for (size_t j=0; j grp = dir->getFiles().valueAt(j); // First remove any configurations we know we don't need. for (size_t k=0; kgetFiles().size(); k++) { sp file = grp->getFiles().valueAt(k); if (k == 0 && grp->getFiles().size() == 1) { // If this is the only file left, we need to keep it. // Otherwise the resource IDs we are using will be inconsistent // with what we get when not stripping. Sucky, but at least // for now we can rely on the back-end doing another filtering // pass to take this out and leave us with this resource name // containing no entries. continue; } if (file->getPath().getPathExtension() == ".xml") { // We can't remove .xml files at this point, because when // we parse them they may add identifier resources, so // removing them can cause our resource identifiers to // become inconsistent. continue; } const ResTable_config& config(file->getGroupEntry().toParams()); if (!reqFilter.match(config)) { if (bundle->getVerbose()) { printf("Pruning unneeded resource: %s\n", file->getPrintableSource().string()); } grp->removeFile(k); k--; } } // Quick check: no preferred filters, nothing more to do. if (preferredDensity == 0) { continue; } // Get the preferred density if there is one. We do not match exactly for density. // If our preferred density is hdpi but we only have mdpi and xhdpi resources, we // pick xhdpi. for (size_t k=0; kgetFiles().size(); k++) { sp file = grp->getFiles().valueAt(k); if (k == 0 && grp->getFiles().size() == 1) { // If this is the only file left, we need to keep it. // Otherwise the resource IDs we are using will be inconsistent // with what we get when not stripping. Sucky, but at least // for now we can rely on the back-end doing another filtering // pass to take this out and leave us with this resource name // containing no entries. continue; } if (file->getPath().getPathExtension() == ".xml") { // We can't remove .xml files at this point, because when // we parse them they may add identifier resources, so // removing them can cause our resource identifiers to // become inconsistent. continue; } const ResTable_config& config(file->getGroupEntry().toParams()); if (config.density != 0 && config.density != preferredDensity) { // This is a resource we would prefer not to have. Check // to see if have a similar variation that we would like // to have and, if so, we can drop it. uint32_t bestDensity = config.density; for (size_t m=0; mgetFiles().size(); m++) { if (m == k) { continue; } sp mfile = grp->getFiles().valueAt(m); const ResTable_config& mconfig(mfile->getGroupEntry().toParams()); if (AaptConfig::isSameExcept(config, mconfig, ResTable_config::CONFIG_DENSITY)) { // See if there is a better density resource if (mconfig.density < bestDensity && mconfig.density >= preferredDensity && bestDensity > preferredDensity) { // This density is our preferred density, or between our best density and // the preferred density, therefore it is better. bestDensity = mconfig.density; } else if (mconfig.density > bestDensity && bestDensity < preferredDensity) { // This density is better than our best density and // our best density was smaller than our preferred // density, so it is better. bestDensity = mconfig.density; } } } if (bestDensity != config.density) { if (bundle->getVerbose()) { printf("Pruning unneeded resource: %s\n", file->getPrintableSource().string()); } grp->removeFile(k); k--; } } } } } return NO_ERROR; } sp AaptAssets::getSymbolsFor(const String8& name) { sp sym = mSymbols.valueFor(name); if (sym == NULL) { sym = new AaptSymbols(); mSymbols.add(name, sym); } return sym; } sp AaptAssets::getJavaSymbolsFor(const String8& name) { sp sym = mJavaSymbols.valueFor(name); if (sym == NULL) { sym = new AaptSymbols(); mJavaSymbols.add(name, sym); } return sym; } status_t AaptAssets::applyJavaSymbols() { size_t N = mJavaSymbols.size(); for (size_t i=0; i& symbols = mJavaSymbols.valueAt(i); ssize_t pos = mSymbols.indexOfKey(name); if (pos < 0) { SourcePos pos; pos.error("Java symbol dir %s not defined\n", name.string()); return UNKNOWN_ERROR; } //printf("**** applying java symbols in dir %s\n", name.string()); status_t err = mSymbols.valueAt(pos)->applyJavaSymbols(symbols); if (err != NO_ERROR) { return err; } } return NO_ERROR; } bool AaptAssets::isJavaSymbol(const AaptSymbolEntry& sym, bool includePrivate) const { //printf("isJavaSymbol %s: public=%d, includePrivate=%d, isJavaSymbol=%d\n", // sym.name.string(), sym.isPublic ? 1 : 0, includePrivate ? 1 : 0, // sym.isJavaSymbol ? 1 : 0); if (!mHavePrivateSymbols) return true; if (sym.isPublic) return true; if (includePrivate && sym.isJavaSymbol) return true; return false; } status_t AaptAssets::buildIncludedResources(Bundle* bundle) { if (mHaveIncludedAssets) { return NO_ERROR; } // Add in all includes. const Vector& includes = bundle->getPackageIncludes(); const size_t packageIncludeCount = includes.size(); for (size_t i = 0; i < packageIncludeCount; i++) { if (bundle->getVerbose()) { printf("Including resources from package: %s\n", includes[i].string()); } if (!mIncludedAssets.addAssetPath(includes[i], NULL)) { fprintf(stderr, "ERROR: Asset package include '%s' not found.\n", includes[i].string()); return UNKNOWN_ERROR; } } const String8& featureOfBase = bundle->getFeatureOfPackage(); if (!featureOfBase.isEmpty()) { if (bundle->getVerbose()) { printf("Including base feature resources from package: %s\n", featureOfBase.string()); } if (!mIncludedAssets.addAssetPath(featureOfBase, NULL)) { fprintf(stderr, "ERROR: base feature package '%s' not found.\n", featureOfBase.string()); return UNKNOWN_ERROR; } } mHaveIncludedAssets = true; return NO_ERROR; } status_t AaptAssets::addIncludedResources(const sp& file) { const ResTable& res = getIncludedResources(); // XXX dirty! return const_cast(res).add(file->getData(), file->getSize()); } const ResTable& AaptAssets::getIncludedResources() const { return mIncludedAssets.getResources(false); } AssetManager& AaptAssets::getAssetManager() { return mIncludedAssets; } void AaptAssets::print(const String8& prefix) const { String8 innerPrefix(prefix); innerPrefix.append(" "); String8 innerInnerPrefix(innerPrefix); innerInnerPrefix.append(" "); printf("%sConfigurations:\n", prefix.string()); const size_t N=mGroupEntries.size(); for (size_t i=0; i >& resdirs = mResDirs; const size_t NR = resdirs.size(); for (size_t i=0; i& d = resdirs.itemAt(i); printf("%s Type %s\n", prefix.string(), d->getLeaf().string()); d->print(innerInnerPrefix); } } sp AaptAssets::resDir(const String8& name) const { const Vector >& resdirs = mResDirs; const size_t N = resdirs.size(); for (size_t i=0; i& d = resdirs.itemAt(i); if (d->getLeaf() == name) { return d; } } return NULL; } bool valid_symbol_name(const String8& symbol) { static char const * const KEYWORDS[] = { "abstract", "assert", "boolean", "break", "byte", "case", "catch", "char", "class", "const", "continue", "default", "do", "double", "else", "enum", "extends", "final", "finally", "float", "for", "goto", "if", "implements", "import", "instanceof", "int", "interface", "long", "native", "new", "package", "private", "protected", "public", "return", "short", "static", "strictfp", "super", "switch", "synchronized", "this", "throw", "throws", "transient", "try", "void", "volatile", "while", "true", "false", "null", NULL }; const char*const* k = KEYWORDS; const char*const s = symbol.string(); while (*k) { if (0 == strcmp(s, *k)) { return false; } k++; } return true; }