// // Copyright 2006 The Android Open Source Project // // Build resource files from raw assets. // #include "XMLNode.h" #include "ResourceTable.h" #include "pseudolocalize.h" #include #include #include #ifndef _WIN32 #define O_BINARY 0 #endif // SSIZE: mingw does not have signed size_t == ssize_t. // STATUST: mingw does seem to redefine UNKNOWN_ERROR from our enum value, so a cast is necessary. #if !defined(_WIN32) # define SSIZE(x) x # define STATUST(x) x #else # define SSIZE(x) (signed size_t)x # define STATUST(x) (status_t)x #endif // Set to true for noisy debug output. static const bool kIsDebug = false; // Set to true for noisy debug output of parsing. static const bool kIsDebugParse = false; #if PRINT_STRING_METRICS static const bool kPrintStringMetrics = true; #else static const bool kPrintStringMetrics = false; #endif const char* const RESOURCES_ROOT_NAMESPACE = "http://schemas.android.com/apk/res/"; const char* const RESOURCES_ANDROID_NAMESPACE = "http://schemas.android.com/apk/res/android"; const char* const RESOURCES_AUTO_PACKAGE_NAMESPACE = "http://schemas.android.com/apk/res-auto"; const char* const RESOURCES_ROOT_PRV_NAMESPACE = "http://schemas.android.com/apk/prv/res/"; const char* const XLIFF_XMLNS = "urn:oasis:names:tc:xliff:document:1.2"; const char* const ALLOWED_XLIFF_ELEMENTS[] = { "bpt", "ept", "it", "ph", "g", "bx", "ex", "x" }; bool isWhitespace(const char16_t* str) { while (*str != 0 && *str < 128 && isspace(*str)) { str++; } return *str == 0; } static const String16 RESOURCES_PREFIX(RESOURCES_ROOT_NAMESPACE); static const String16 RESOURCES_PREFIX_AUTO_PACKAGE(RESOURCES_AUTO_PACKAGE_NAMESPACE); static const String16 RESOURCES_PRV_PREFIX(RESOURCES_ROOT_PRV_NAMESPACE); static const String16 RESOURCES_TOOLS_NAMESPACE("http://schemas.android.com/tools"); String16 getNamespaceResourcePackage(String16 appPackage, String16 namespaceUri, bool* outIsPublic) { //printf("%s starts with %s?\n", String8(namespaceUri).string(), // String8(RESOURCES_PREFIX).string()); size_t prefixSize; bool isPublic = true; if(namespaceUri.startsWith(RESOURCES_PREFIX_AUTO_PACKAGE)) { if (kIsDebug) { printf("Using default application package: %s -> %s\n", String8(namespaceUri).string(), String8(appPackage).string()); } isPublic = true; return appPackage; } else if (namespaceUri.startsWith(RESOURCES_PREFIX)) { prefixSize = RESOURCES_PREFIX.size(); } else if (namespaceUri.startsWith(RESOURCES_PRV_PREFIX)) { isPublic = false; prefixSize = RESOURCES_PRV_PREFIX.size(); } else { if (outIsPublic) *outIsPublic = isPublic; // = true return String16(); } //printf("YES!\n"); //printf("namespace: %s\n", String8(String16(namespaceUri, namespaceUri.size()-prefixSize, prefixSize)).string()); if (outIsPublic) *outIsPublic = isPublic; return String16(namespaceUri, namespaceUri.size()-prefixSize, prefixSize); } status_t hasSubstitutionErrors(const char* fileName, ResXMLTree* inXml, String16 str16) { const char16_t* str = str16.string(); const char16_t* p = str; const char16_t* end = str + str16.size(); bool nonpositional = false; int argCount = 0; while (p < end) { /* * Look for the start of a Java-style substitution sequence. */ if (*p == '%' && p + 1 < end) { p++; // A literal percent sign represented by %% if (*p == '%') { p++; continue; } argCount++; if (*p >= '0' && *p <= '9') { do { p++; } while (*p >= '0' && *p <= '9'); if (*p != '$') { // This must be a size specification instead of position. nonpositional = true; } } else if (*p == '<') { // Reusing last argument; bad idea since it can be re-arranged. nonpositional = true; p++; // Optionally '$' can be specified at the end. if (p < end && *p == '$') { p++; } } else { nonpositional = true; } // Ignore flags and widths while (p < end && (*p == '-' || *p == '#' || *p == '+' || *p == ' ' || *p == ',' || *p == '(' || (*p >= '0' && *p <= '9'))) { p++; } /* * This is a shortcut to detect strings that are going to Time.format() * instead of String.format() * * Comparison of String.format() and Time.format() args: * * String: ABC E GH ST X abcdefgh nost x * Time: DEFGHKMS W Za d hkm s w yz * * Therefore we know it's definitely Time if we have: * DFKMWZkmwyz */ if (p < end) { switch (*p) { case 'D': case 'F': case 'K': case 'M': case 'W': case 'Z': case 'k': case 'm': case 'w': case 'y': case 'z': return NO_ERROR; } } } p++; } /* * If we have more than one substitution in this string and any of them * are not in positional form, give the user an error. */ if (argCount > 1 && nonpositional) { SourcePos(String8(fileName), inXml->getLineNumber()).error( "Multiple substitutions specified in non-positional format; " "did you mean to add the formatted=\"false\" attribute?\n"); return NOT_ENOUGH_DATA; } return NO_ERROR; } status_t parseStyledString(Bundle* /* bundle */, const char* fileName, ResXMLTree* inXml, const String16& endTag, String16* outString, Vector* outSpans, bool isFormatted, PseudolocalizationMethod pseudolocalize) { Vector spanStack; String16 curString; String16 rawString; Pseudolocalizer pseudo(pseudolocalize); const char* errorMsg; int xliffDepth = 0; bool firstTime = true; size_t len; ResXMLTree::event_code_t code; curString.append(pseudo.start()); while ((code=inXml->next()) != ResXMLTree::END_DOCUMENT && code != ResXMLTree::BAD_DOCUMENT) { if (code == ResXMLTree::TEXT) { String16 text(inXml->getText(&len)); if (firstTime && text.size() > 0) { firstTime = false; if (text.string()[0] == '@') { // If this is a resource reference, don't do the pseudoloc. pseudolocalize = NO_PSEUDOLOCALIZATION; pseudo.setMethod(pseudolocalize); curString = String16(); } } if (xliffDepth == 0 && pseudolocalize > 0) { curString.append(pseudo.text(text)); } else { if (isFormatted && hasSubstitutionErrors(fileName, inXml, text) != NO_ERROR) { return UNKNOWN_ERROR; } else { curString.append(text); } } } else if (code == ResXMLTree::START_TAG) { const String16 element16(inXml->getElementName(&len)); const String8 element8(element16); size_t nslen; const char16_t* ns = inXml->getElementNamespace(&nslen); if (ns == NULL) { ns = (const char16_t*)"\0\0"; nslen = 0; } const String8 nspace(String16(ns, nslen)); if (nspace == XLIFF_XMLNS) { const int N = sizeof(ALLOWED_XLIFF_ELEMENTS)/sizeof(ALLOWED_XLIFF_ELEMENTS[0]); for (int i=0; igetLineNumber()).error( "Found unsupported XLIFF tag <%s>\n", element8.string()); return UNKNOWN_ERROR; } moveon: continue; } if (outSpans == NULL) { SourcePos(String8(fileName), inXml->getLineNumber()).error( "Found style tag <%s> where styles are not allowed\n", element8.string()); return UNKNOWN_ERROR; } if (!ResTable::collectString(outString, curString.string(), curString.size(), false, &errorMsg, true)) { SourcePos(String8(fileName), inXml->getLineNumber()).error("%s (in %s)\n", errorMsg, String8(curString).string()); return UNKNOWN_ERROR; } rawString.append(curString); curString = String16(); StringPool::entry_style_span span; span.name = element16; for (size_t ai=0; aigetAttributeCount(); ai++) { span.name.append(String16(";")); const char16_t* str = inXml->getAttributeName(ai, &len); span.name.append(str, len); span.name.append(String16("=")); str = inXml->getAttributeStringValue(ai, &len); span.name.append(str, len); } //printf("Span: %s\n", String8(span.name).string()); span.span.firstChar = span.span.lastChar = outString->size(); spanStack.push(span); } else if (code == ResXMLTree::END_TAG) { size_t nslen; const char16_t* ns = inXml->getElementNamespace(&nslen); if (ns == NULL) { ns = (const char16_t*)"\0\0"; nslen = 0; } const String8 nspace(String16(ns, nslen)); if (nspace == XLIFF_XMLNS) { xliffDepth--; continue; } if (!ResTable::collectString(outString, curString.string(), curString.size(), false, &errorMsg, true)) { SourcePos(String8(fileName), inXml->getLineNumber()).error("%s (in %s)\n", errorMsg, String8(curString).string()); return UNKNOWN_ERROR; } rawString.append(curString); curString = String16(); if (spanStack.size() == 0) { if (strcmp16(inXml->getElementName(&len), endTag.string()) != 0) { SourcePos(String8(fileName), inXml->getLineNumber()).error( "Found tag %s where <%s> close is expected\n", String8(inXml->getElementName(&len)).string(), String8(endTag).string()); return UNKNOWN_ERROR; } break; } StringPool::entry_style_span span = spanStack.top(); String16 spanTag; ssize_t semi = span.name.findFirst(';'); if (semi >= 0) { spanTag.setTo(span.name.string(), semi); } else { spanTag.setTo(span.name); } if (strcmp16(inXml->getElementName(&len), spanTag.string()) != 0) { SourcePos(String8(fileName), inXml->getLineNumber()).error( "Found close tag %s where close tag %s is expected\n", String8(inXml->getElementName(&len)).string(), String8(spanTag).string()); return UNKNOWN_ERROR; } bool empty = true; if (outString->size() > 0) { span.span.lastChar = outString->size()-1; if (span.span.lastChar >= span.span.firstChar) { empty = false; outSpans->add(span); } } spanStack.pop(); /* * This warning seems to be just an irritation to most people, * since it is typically introduced by translators who then never * see the warning. */ if (0 && empty) { fprintf(stderr, "%s:%d: warning: empty '%s' span found in text '%s'\n", fileName, inXml->getLineNumber(), String8(spanTag).string(), String8(*outString).string()); } } else if (code == ResXMLTree::START_NAMESPACE) { // nothing } } curString.append(pseudo.end()); if (code == ResXMLTree::BAD_DOCUMENT) { SourcePos(String8(fileName), inXml->getLineNumber()).error( "Error parsing XML\n"); } if (outSpans != NULL && outSpans->size() > 0) { if (curString.size() > 0) { if (!ResTable::collectString(outString, curString.string(), curString.size(), false, &errorMsg, true)) { SourcePos(String8(fileName), inXml->getLineNumber()).error( "%s (in %s)\n", errorMsg, String8(curString).string()); return UNKNOWN_ERROR; } } } else { // There is no style information, so string processing will happen // later as part of the overall type conversion. Return to the // client the raw unprocessed text. rawString.append(curString); outString->setTo(rawString); } return NO_ERROR; } struct namespace_entry { String8 prefix; String8 uri; }; static String8 make_prefix(int depth) { String8 prefix; int i; for (i=0; i& namespaces, const char16_t* ns) { String8 str; if (ns != NULL) { str = String8(ns); const size_t N = namespaces.size(); for (size_t i=0; irestart(); Vector namespaces; ResXMLTree::event_code_t code; int depth = 0; while ((code=block->next()) != ResXMLTree::END_DOCUMENT && code != ResXMLTree::BAD_DOCUMENT) { String8 prefix = make_prefix(depth); int i; if (code == ResXMLTree::START_TAG) { size_t len; const char16_t* ns16 = block->getElementNamespace(&len); String8 elemNs = build_namespace(namespaces, ns16); const char16_t* com16 = block->getComment(&len); if (com16) { printf("%s \n", prefix.string(), String8(com16).string()); } printf("%sE: %s%s (line=%d)\n", prefix.string(), elemNs.string(), String8(block->getElementName(&len)).string(), block->getLineNumber()); int N = block->getAttributeCount(); depth++; prefix = make_prefix(depth); for (i=0; igetAttributeNameResID(i); ns16 = block->getAttributeNamespace(i, &len); String8 ns = build_namespace(namespaces, ns16); String8 name(block->getAttributeName(i, &len)); printf("%sA: ", prefix.string()); if (res) { printf("%s%s(0x%08x)", ns.string(), name.string(), res); } else { printf("%s%s", ns.string(), name.string()); } Res_value value; block->getAttributeValue(i, &value); if (value.dataType == Res_value::TYPE_NULL) { printf("=(null)"); } else if (value.dataType == Res_value::TYPE_REFERENCE) { printf("=@0x%x", (int)value.data); } else if (value.dataType == Res_value::TYPE_ATTRIBUTE) { printf("=?0x%x", (int)value.data); } else if (value.dataType == Res_value::TYPE_STRING) { printf("=\"%s\"", ResTable::normalizeForOutput(String8(block->getAttributeStringValue(i, &len)).string()).string()); } else { printf("=(type 0x%x)0x%x", (int)value.dataType, (int)value.data); } const char16_t* val = block->getAttributeStringValue(i, &len); if (val != NULL) { printf(" (Raw: \"%s\")", ResTable::normalizeForOutput(String8(val).string()). string()); } printf("\n"); } } else if (code == ResXMLTree::END_TAG) { // Invalid tag nesting can be misused to break the parsing // code below. Break if detected. if (--depth < 0) { printf("***BAD DEPTH in XMLBlock: %d\n", depth); break; } } else if (code == ResXMLTree::START_NAMESPACE) { namespace_entry ns; size_t len; const char16_t* prefix16 = block->getNamespacePrefix(&len); if (prefix16) { ns.prefix = String8(prefix16); } else { ns.prefix = ""; } ns.uri = String8(block->getNamespaceUri(&len)); namespaces.push(ns); printf("%sN: %s=%s\n", prefix.string(), ns.prefix.string(), ns.uri.string()); depth++; } else if (code == ResXMLTree::END_NAMESPACE) { if (--depth < 0) { printf("***BAD DEPTH in XMLBlock: %d\n", depth); break; } const namespace_entry& ns = namespaces.top(); size_t len; const char16_t* prefix16 = block->getNamespacePrefix(&len); String8 pr; if (prefix16) { pr = String8(prefix16); } else { pr = ""; } if (ns.prefix != pr) { prefix = make_prefix(depth); printf("%s*** BAD END NS PREFIX: found=%s, expected=%s\n", prefix.string(), pr.string(), ns.prefix.string()); } String8 uri = String8(block->getNamespaceUri(&len)); if (ns.uri != uri) { prefix = make_prefix(depth); printf("%s *** BAD END NS URI: found=%s, expected=%s\n", prefix.string(), uri.string(), ns.uri.string()); } namespaces.pop(); } else if (code == ResXMLTree::TEXT) { size_t len; printf("%sC: \"%s\"\n", prefix.string(), ResTable::normalizeForOutput(String8(block->getText(&len)).string()).string()); } } block->restart(); } status_t parseXMLResource(const sp& file, ResXMLTree* outTree, bool stripAll, bool keepComments, const char** cDataTags) { sp root = XMLNode::parse(file); if (root == NULL) { return UNKNOWN_ERROR; } root->removeWhitespace(stripAll, cDataTags); if (kIsDebug) { printf("Input XML from %s:\n", (const char*)file->getPrintableSource()); root->print(); } sp rsc = new AaptFile(String8(), AaptGroupEntry(), String8()); status_t err = root->flatten(rsc, !keepComments, false); if (err != NO_ERROR) { return err; } err = outTree->setTo(rsc->getData(), rsc->getSize(), true); if (err != NO_ERROR) { return err; } if (kIsDebug) { printf("Output XML:\n"); printXMLBlock(outTree); } return NO_ERROR; } sp XMLNode::parse(const sp& file) { char buf[16384]; int fd = open(file->getSourceFile().string(), O_RDONLY | O_BINARY); if (fd < 0) { SourcePos(file->getSourceFile(), -1).error("Unable to open file for read: %s", strerror(errno)); return NULL; } XML_Parser parser = XML_ParserCreateNS(NULL, 1); ParseState state; state.filename = file->getPrintableSource(); state.parser = parser; XML_SetUserData(parser, &state); XML_SetElementHandler(parser, startElement, endElement); XML_SetNamespaceDeclHandler(parser, startNamespace, endNamespace); XML_SetCharacterDataHandler(parser, characterData); XML_SetCommentHandler(parser, commentData); ssize_t len; bool done; do { len = read(fd, buf, sizeof(buf)); done = len < (ssize_t)sizeof(buf); if (len < 0) { SourcePos(file->getSourceFile(), -1).error("Error reading file: %s\n", strerror(errno)); close(fd); return NULL; } if (XML_Parse(parser, buf, len, done) == XML_STATUS_ERROR) { SourcePos(file->getSourceFile(), (int)XML_GetCurrentLineNumber(parser)).error( "Error parsing XML: %s\n", XML_ErrorString(XML_GetErrorCode(parser))); close(fd); return NULL; } } while (!done); XML_ParserFree(parser); if (state.root == NULL) { SourcePos(file->getSourceFile(), -1).error("No XML data generated when parsing"); } close(fd); return state.root; } XMLNode::XMLNode() : mNextAttributeIndex(0x80000000) , mStartLineNumber(0) , mEndLineNumber(0) , mUTF8(false) {} XMLNode::XMLNode(const String8& filename, const String16& s1, const String16& s2, bool isNamespace) : mNextAttributeIndex(0x80000000) , mFilename(filename) , mStartLineNumber(0) , mEndLineNumber(0) , mUTF8(false) { if (isNamespace) { mNamespacePrefix = s1; mNamespaceUri = s2; } else { mNamespaceUri = s1; mElementName = s2; } } XMLNode::XMLNode(const String8& filename) : mFilename(filename) { memset(&mCharsValue, 0, sizeof(mCharsValue)); } XMLNode::type XMLNode::getType() const { if (mElementName.size() != 0) { return TYPE_ELEMENT; } if (mNamespaceUri.size() != 0) { return TYPE_NAMESPACE; } return TYPE_CDATA; } const String16& XMLNode::getNamespacePrefix() const { return mNamespacePrefix; } const String16& XMLNode::getNamespaceUri() const { return mNamespaceUri; } const String16& XMLNode::getElementNamespace() const { return mNamespaceUri; } const String16& XMLNode::getElementName() const { return mElementName; } const Vector >& XMLNode::getChildren() const { return mChildren; } Vector >& XMLNode::getChildren() { return mChildren; } const String8& XMLNode::getFilename() const { return mFilename; } const Vector& XMLNode::getAttributes() const { return mAttributes; } const XMLNode::attribute_entry* XMLNode::getAttribute(const String16& ns, const String16& name) const { for (size_t i=0; ins == ns && ae->name == name) { return ae; } } return NULL; } const String16& XMLNode::getCData() const { return mChars; } const String16& XMLNode::getComment() const { return mComment; } int32_t XMLNode::getStartLineNumber() const { return mStartLineNumber; } int32_t XMLNode::getEndLineNumber() const { return mEndLineNumber; } sp XMLNode::searchElement(const String16& tagNamespace, const String16& tagName) { if (getType() == XMLNode::TYPE_ELEMENT && mNamespaceUri == tagNamespace && mElementName == tagName) { return this; } for (size_t i=0; i found = mChildren.itemAt(i)->searchElement(tagNamespace, tagName); if (found != NULL) { return found; } } return NULL; } sp XMLNode::getChildElement(const String16& tagNamespace, const String16& tagName) { for (size_t i=0; i child = mChildren.itemAt(i); if (child->getType() == XMLNode::TYPE_ELEMENT && child->mNamespaceUri == tagNamespace && child->mElementName == tagName) { return child; } } return NULL; } status_t XMLNode::addChild(const sp& child) { if (getType() == TYPE_CDATA) { SourcePos(mFilename, child->getStartLineNumber()).error("Child to CDATA node."); return UNKNOWN_ERROR; } //printf("Adding child %p to parent %p\n", child.get(), this); mChildren.add(child); return NO_ERROR; } status_t XMLNode::insertChildAt(const sp& child, size_t index) { if (getType() == TYPE_CDATA) { SourcePos(mFilename, child->getStartLineNumber()).error("Child to CDATA node."); return UNKNOWN_ERROR; } //printf("Adding child %p to parent %p\n", child.get(), this); mChildren.insertAt(child, index); return NO_ERROR; } status_t XMLNode::addAttribute(const String16& ns, const String16& name, const String16& value) { if (getType() == TYPE_CDATA) { SourcePos(mFilename, getStartLineNumber()).error("Child to CDATA node."); return UNKNOWN_ERROR; } if (ns != RESOURCES_TOOLS_NAMESPACE) { attribute_entry e; e.index = mNextAttributeIndex++; e.ns = ns; e.name = name; e.string = value; mAttributes.add(e); mAttributeOrder.add(e.index, mAttributes.size()-1); } return NO_ERROR; } status_t XMLNode::removeAttribute(size_t index) { if (getType() == TYPE_CDATA) { return UNKNOWN_ERROR; } if (index >= mAttributes.size()) { return UNKNOWN_ERROR; } const attribute_entry& e = mAttributes[index]; const uint32_t key = e.nameResId ? e.nameResId : e.index; mAttributeOrder.removeItem(key); mAttributes.removeAt(index); // Shift all the indices. const size_t attrCount = mAttributeOrder.size(); for (size_t i = 0; i < attrCount; i++) { size_t attrIdx = mAttributeOrder[i]; if (attrIdx > index) { mAttributeOrder.replaceValueAt(i, attrIdx - 1); } } return NO_ERROR; } void XMLNode::setAttributeResID(size_t attrIdx, uint32_t resId) { attribute_entry& e = mAttributes.editItemAt(attrIdx); if (e.nameResId) { mAttributeOrder.removeItem(e.nameResId); } else { mAttributeOrder.removeItem(e.index); } if (kIsDebug) { printf("Elem %s %s=\"%s\": set res id = 0x%08x\n", String8(getElementName()).string(), String8(mAttributes.itemAt(attrIdx).name).string(), String8(mAttributes.itemAt(attrIdx).string).string(), resId); } mAttributes.editItemAt(attrIdx).nameResId = resId; mAttributeOrder.add(resId, attrIdx); } status_t XMLNode::appendChars(const String16& chars) { if (getType() != TYPE_CDATA) { SourcePos(mFilename, getStartLineNumber()).error("Adding characters to element node."); return UNKNOWN_ERROR; } mChars.append(chars); return NO_ERROR; } status_t XMLNode::appendComment(const String16& comment) { if (mComment.size() > 0) { mComment.append(String16("\n")); } mComment.append(comment); return NO_ERROR; } void XMLNode::setStartLineNumber(int32_t line) { mStartLineNumber = line; } void XMLNode::setEndLineNumber(int32_t line) { mEndLineNumber = line; } void XMLNode::removeWhitespace(bool stripAll, const char** cDataTags) { //printf("Removing whitespace in %s\n", String8(mElementName).string()); size_t N = mChildren.size(); if (cDataTags) { String8 tag(mElementName); const char** p = cDataTags; while (*p) { if (tag == *p) { stripAll = false; break; } } } for (size_t i=0; i node = mChildren.itemAt(i); if (node->getType() == TYPE_CDATA) { // This is a CDATA node... const char16_t* p = node->mChars.string(); while (*p != 0 && *p < 128 && isspace(*p)) { p++; } //printf("Space ends at %d in \"%s\"\n", // (int)(p-node->mChars.string()), // String8(node->mChars).string()); if (*p == 0) { if (stripAll) { // Remove this node! mChildren.removeAt(i); N--; i--; } else { node->mChars = String16(" "); } } else { // Compact leading/trailing whitespace. const char16_t* e = node->mChars.string()+node->mChars.size()-1; while (e > p && *e < 128 && isspace(*e)) { e--; } if (p > node->mChars.string()) { p--; } if (e < (node->mChars.string()+node->mChars.size()-1)) { e++; } if (p > node->mChars.string() || e < (node->mChars.string()+node->mChars.size()-1)) { String16 tmp(p, e-p+1); node->mChars = tmp; } } } else { node->removeWhitespace(stripAll, cDataTags); } } } status_t XMLNode::parseValues(const sp& assets, ResourceTable* table) { bool hasErrors = false; if (getType() == TYPE_ELEMENT) { const size_t N = mAttributes.size(); String16 defPackage(assets->getPackage()); for (size_t i=0; isetCurrentXmlPos(SourcePos(mFilename, getStartLineNumber())); if (!assets->getIncludedResources() .stringToValue(&e.value, &e.string, e.string.string(), e.string.size(), true, true, e.nameResId, NULL, &defPackage, table, &ac)) { hasErrors = true; } if (kIsDebug) { printf("Attr %s: type=0x%x, str=%s\n", String8(e.name).string(), e.value.dataType, String8(e.string).string()); } } } const size_t N = mChildren.size(); for (size_t i=0; iparseValues(assets, table); if (err != NO_ERROR) { hasErrors = true; } } return hasErrors ? STATUST(UNKNOWN_ERROR) : NO_ERROR; } status_t XMLNode::assignResourceIds(const sp& assets, const ResourceTable* table) { bool hasErrors = false; if (getType() == TYPE_ELEMENT) { String16 attr("attr"); const char* errorMsg; const size_t N = mAttributes.size(); for (size_t i=0; igetPackage()), e.ns, &nsIsPublic)); if (kIsDebug) { printf("Elem %s %s=\"%s\": namespace(%s) %s ===> %s\n", String8(getElementName()).string(), String8(e.name).string(), String8(e.string).string(), String8(e.ns).string(), (nsIsPublic) ? "public" : "private", String8(pkg).string()); } if (pkg.size() <= 0) continue; uint32_t res = table != NULL ? table->getResId(e.name, &attr, &pkg, &errorMsg, nsIsPublic) : assets->getIncludedResources(). identifierForName(e.name.string(), e.name.size(), attr.string(), attr.size(), pkg.string(), pkg.size()); if (res != 0) { if (kIsDebug) { printf("XML attribute name %s: resid=0x%08x\n", String8(e.name).string(), res); } setAttributeResID(i, res); } else { SourcePos(mFilename, getStartLineNumber()).error( "No resource identifier found for attribute '%s' in package '%s'\n", String8(e.name).string(), String8(pkg).string()); hasErrors = true; } } } const size_t N = mChildren.size(); for (size_t i=0; iassignResourceIds(assets, table); if (err < NO_ERROR) { hasErrors = true; } } return hasErrors ? STATUST(UNKNOWN_ERROR) : NO_ERROR; } sp XMLNode::clone() const { sp copy = new XMLNode(); copy->mNamespacePrefix = mNamespacePrefix; copy->mNamespaceUri = mNamespaceUri; copy->mElementName = mElementName; const size_t childCount = mChildren.size(); for (size_t i = 0; i < childCount; i++) { copy->mChildren.add(mChildren[i]->clone()); } copy->mAttributes = mAttributes; copy->mAttributeOrder = mAttributeOrder; copy->mNextAttributeIndex = mNextAttributeIndex; copy->mChars = mChars; memcpy(©->mCharsValue, &mCharsValue, sizeof(mCharsValue)); copy->mComment = mComment; copy->mFilename = mFilename; copy->mStartLineNumber = mStartLineNumber; copy->mEndLineNumber = mEndLineNumber; copy->mUTF8 = mUTF8; return copy; } status_t XMLNode::flatten(const sp& dest, bool stripComments, bool stripRawValues) const { StringPool strings(mUTF8); Vector resids; // First collect just the strings for attribute names that have a // resource ID assigned to them. This ensures that the resource ID // array is compact, and makes it easier to deal with attribute names // in different namespaces (and thus with different resource IDs). collect_resid_strings(&strings, &resids); // Next collect all remainibng strings. collect_strings(&strings, &resids, stripComments, stripRawValues); sp stringPool = strings.createStringBlock(); ResXMLTree_header header; memset(&header, 0, sizeof(header)); header.header.type = htods(RES_XML_TYPE); header.header.headerSize = htods(sizeof(header)); const size_t basePos = dest->getSize(); dest->writeData(&header, sizeof(header)); dest->writeData(stringPool->getData(), stringPool->getSize()); // If we have resource IDs, write them. if (resids.size() > 0) { const size_t resIdsPos = dest->getSize(); const size_t resIdsSize = sizeof(ResChunk_header)+(sizeof(uint32_t)*resids.size()); ResChunk_header* idsHeader = (ResChunk_header*) (((const uint8_t*)dest->editData(resIdsPos+resIdsSize))+resIdsPos); idsHeader->type = htods(RES_XML_RESOURCE_MAP_TYPE); idsHeader->headerSize = htods(sizeof(*idsHeader)); idsHeader->size = htodl(resIdsSize); uint32_t* ids = (uint32_t*)(idsHeader+1); for (size_t i=0; ieditData(); ResXMLTree_header* hd = (ResXMLTree_header*)(((uint8_t*)data)+basePos); hd->header.size = htodl(dest->getSize()-basePos); if (kPrintStringMetrics) { fprintf(stderr, "**** total xml size: %zu / %zu%% strings (in %s)\n", dest->getSize(), (stringPool->getSize()*100)/dest->getSize(), dest->getPath().string()); } return NO_ERROR; } void XMLNode::print(int indent) { String8 prefix; int i; for (i=0; i 0) { elemNs.append(":"); } printf("%s E: %s%s", prefix.string(), elemNs.string(), String8(getElementName()).string()); int N = mAttributes.size(); for (i=0; i 0) { attrNs.append(":"); } if (attr.nameResId) { printf("%s%s(0x%08x)", attrNs.string(), String8(attr.name).string(), attr.nameResId); } else { printf("%s%s", attrNs.string(), String8(attr.name).string()); } printf("=%s", String8(attr.string).string()); } printf("\n"); } else if (getType() == TYPE_NAMESPACE) { printf("%s N: %s=%s\n", prefix.string(), getNamespacePrefix().size() > 0 ? String8(getNamespacePrefix()).string() : "", String8(getNamespaceUri()).string()); } else { printf("%s C: \"%s\"\n", prefix.string(), String8(getCData()).string()); } int N = mChildren.size(); for (i=0; iprint(indent+1); } } static void splitName(const char* name, String16* outNs, String16* outName) { const char* p = name; while (*p != 0 && *p != 1) { p++; } if (*p == 0) { *outNs = String16(); *outName = String16(name); } else { *outNs = String16(name, (p-name)); *outName = String16(p+1); } } void XMLCALL XMLNode::startNamespace(void *userData, const char *prefix, const char *uri) { if (kIsDebugParse) { printf("Start Namespace: %s %s\n", prefix, uri); } ParseState* st = (ParseState*)userData; sp node = XMLNode::newNamespace(st->filename, String16(prefix != NULL ? prefix : ""), String16(uri)); node->setStartLineNumber(XML_GetCurrentLineNumber(st->parser)); if (st->stack.size() > 0) { st->stack.itemAt(st->stack.size()-1)->addChild(node); } else { st->root = node; } st->stack.push(node); } void XMLCALL XMLNode::startElement(void *userData, const char *name, const char **atts) { if (kIsDebugParse) { printf("Start Element: %s\n", name); } ParseState* st = (ParseState*)userData; String16 ns16, name16; splitName(name, &ns16, &name16); sp node = XMLNode::newElement(st->filename, ns16, name16); node->setStartLineNumber(XML_GetCurrentLineNumber(st->parser)); if (st->pendingComment.size() > 0) { node->appendComment(st->pendingComment); st->pendingComment = String16(); } if (st->stack.size() > 0) { st->stack.itemAt(st->stack.size()-1)->addChild(node); } else { st->root = node; } st->stack.push(node); for (int i = 0; atts[i]; i += 2) { splitName(atts[i], &ns16, &name16); node->addAttribute(ns16, name16, String16(atts[i+1])); } } void XMLCALL XMLNode::characterData(void *userData, const XML_Char *s, int len) { if (kIsDebugParse) { printf("CDATA: \"%s\"\n", String8(s, len).string()); } ParseState* st = (ParseState*)userData; sp node = NULL; if (st->stack.size() == 0) { return; } sp parent = st->stack.itemAt(st->stack.size()-1); if (parent != NULL && parent->getChildren().size() > 0) { node = parent->getChildren()[parent->getChildren().size()-1]; if (node->getType() != TYPE_CDATA) { // Last node is not CDATA, need to make a new node. node = NULL; } } if (node == NULL) { node = XMLNode::newCData(st->filename); node->setStartLineNumber(XML_GetCurrentLineNumber(st->parser)); parent->addChild(node); } node->appendChars(String16(s, len)); } void XMLCALL XMLNode::endElement(void *userData, const char *name) { if (kIsDebugParse) { printf("End Element: %s\n", name); } ParseState* st = (ParseState*)userData; sp node = st->stack.itemAt(st->stack.size()-1); node->setEndLineNumber(XML_GetCurrentLineNumber(st->parser)); if (st->pendingComment.size() > 0) { node->appendComment(st->pendingComment); st->pendingComment = String16(); } String16 ns16, name16; splitName(name, &ns16, &name16); LOG_ALWAYS_FATAL_IF(node->getElementNamespace() != ns16 || node->getElementName() != name16, "Bad end element %s", name); st->stack.pop(); } void XMLCALL XMLNode::endNamespace(void *userData, const char *prefix) { const char* nonNullPrefix = prefix != NULL ? prefix : ""; if (kIsDebugParse) { printf("End Namespace: %s\n", prefix); } ParseState* st = (ParseState*)userData; sp node = st->stack.itemAt(st->stack.size()-1); node->setEndLineNumber(XML_GetCurrentLineNumber(st->parser)); LOG_ALWAYS_FATAL_IF(node->getNamespacePrefix() != String16(nonNullPrefix), "Bad end namespace %s", prefix); st->stack.pop(); } void XMLCALL XMLNode::commentData(void *userData, const char *comment) { if (kIsDebugParse) { printf("Comment: %s\n", comment); } ParseState* st = (ParseState*)userData; if (st->pendingComment.size() > 0) { st->pendingComment.append(String16("\n")); } st->pendingComment.append(String16(comment)); } status_t XMLNode::collect_strings(StringPool* dest, Vector* outResIds, bool stripComments, bool stripRawValues) const { collect_attr_strings(dest, outResIds, true); int i; if (RESOURCES_TOOLS_NAMESPACE != mNamespaceUri) { if (mNamespacePrefix.size() > 0) { dest->add(mNamespacePrefix, true); } if (mNamespaceUri.size() > 0) { dest->add(mNamespaceUri, true); } } if (mElementName.size() > 0) { dest->add(mElementName, true); } if (!stripComments && mComment.size() > 0) { dest->add(mComment, true); } const int NA = mAttributes.size(); for (i=0; i 0) { dest->add(ae.ns, true); } if (!stripRawValues || ae.needStringValue()) { dest->add(ae.string, true); } /* if (ae.value.dataType == Res_value::TYPE_NULL || ae.value.dataType == Res_value::TYPE_STRING) { dest->add(ae.string, true); } */ } if (mElementName.size() == 0) { // If not an element, include the CDATA, even if it is empty. dest->add(mChars, true); } const int NC = mChildren.size(); for (i=0; icollect_strings(dest, outResIds, stripComments, stripRawValues); } return NO_ERROR; } status_t XMLNode::collect_attr_strings(StringPool* outPool, Vector* outResIds, bool allAttrs) const { const int NA = mAttributes.size(); for (int i=0; i* indices = outPool->offsetsForString(attr.name); ssize_t idx = -1; if (indices != NULL) { const int NJ = indices->size(); const size_t NR = outResIds->size(); for (int j=0; jitemAt(j); if (strIdx >= NR) { if (id == 0) { // We don't need to assign a resource ID for this one. idx = strIdx; break; } // Just ignore strings that are out of range of // the currently assigned resource IDs... we add // strings as we assign the first ID. } else if (outResIds->itemAt(strIdx) == id) { idx = strIdx; break; } } } if (idx < 0) { idx = outPool->add(attr.name); if (kIsDebug) { printf("Adding attr %s (resid 0x%08x) to pool: idx=%zd\n", String8(attr.name).string(), id, SSIZE(idx)); } if (id != 0) { while ((ssize_t)outResIds->size() <= idx) { outResIds->add(0); } outResIds->replaceAt(id, idx); } } attr.namePoolIdx = idx; if (kIsDebug) { printf("String %s offset=0x%08zd\n", String8(attr.name).string(), SSIZE(idx)); } } } return NO_ERROR; } status_t XMLNode::collect_resid_strings(StringPool* outPool, Vector* outResIds) const { collect_attr_strings(outPool, outResIds, false); const int NC = mChildren.size(); for (int i=0; icollect_resid_strings(outPool, outResIds); } return NO_ERROR; } status_t XMLNode::flatten_node(const StringPool& strings, const sp& dest, bool stripComments, bool stripRawValues) const { ResXMLTree_node node; ResXMLTree_cdataExt cdataExt; ResXMLTree_namespaceExt namespaceExt; ResXMLTree_attrExt attrExt; const void* extData = NULL; size_t extSize = 0; ResXMLTree_attribute attr; bool writeCurrentNode = true; const size_t NA = mAttributes.size(); const size_t NC = mChildren.size(); size_t i; LOG_ALWAYS_FATAL_IF(NA != mAttributeOrder.size(), "Attributes messed up!"); const String16 id16("id"); const String16 class16("class"); const String16 style16("style"); const type type = getType(); memset(&node, 0, sizeof(node)); memset(&attr, 0, sizeof(attr)); node.header.headerSize = htods(sizeof(node)); node.lineNumber = htodl(getStartLineNumber()); if (!stripComments) { node.comment.index = htodl( mComment.size() > 0 ? strings.offsetForString(mComment) : -1); //if (mComment.size() > 0) { // printf("Flattening comment: %s\n", String8(mComment).string()); //} } else { node.comment.index = htodl((uint32_t)-1); } if (type == TYPE_ELEMENT) { node.header.type = htods(RES_XML_START_ELEMENT_TYPE); extData = &attrExt; extSize = sizeof(attrExt); memset(&attrExt, 0, sizeof(attrExt)); if (mNamespaceUri.size() > 0) { attrExt.ns.index = htodl(strings.offsetForString(mNamespaceUri)); } else { attrExt.ns.index = htodl((uint32_t)-1); } attrExt.name.index = htodl(strings.offsetForString(mElementName)); attrExt.attributeStart = htods(sizeof(attrExt)); attrExt.attributeSize = htods(sizeof(attr)); attrExt.attributeCount = htods(NA); attrExt.idIndex = htods(0); attrExt.classIndex = htods(0); attrExt.styleIndex = htods(0); for (i=0; i 0) { namespaceExt.prefix.index = htodl(strings.offsetForString(mNamespacePrefix)); } else { namespaceExt.prefix.index = htodl((uint32_t)-1); } namespaceExt.prefix.index = htodl(strings.offsetForString(mNamespacePrefix)); namespaceExt.uri.index = htodl(strings.offsetForString(mNamespaceUri)); } LOG_ALWAYS_FATAL_IF(NA != 0, "Namespace nodes can't have attributes!"); } else if (type == TYPE_CDATA) { node.header.type = htods(RES_XML_CDATA_TYPE); extData = &cdataExt; extSize = sizeof(cdataExt); memset(&cdataExt, 0, sizeof(cdataExt)); cdataExt.data.index = htodl(strings.offsetForString(mChars)); cdataExt.typedData.size = htods(sizeof(cdataExt.typedData)); cdataExt.typedData.res0 = 0; cdataExt.typedData.dataType = mCharsValue.dataType; cdataExt.typedData.data = htodl(mCharsValue.data); LOG_ALWAYS_FATAL_IF(NA != 0, "CDATA nodes can't have attributes!"); } node.header.size = htodl(sizeof(node) + extSize + (sizeof(attr)*NA)); if (writeCurrentNode) { dest->writeData(&node, sizeof(node)); if (extSize > 0) { dest->writeData(extData, extSize); } } for (i=0; i 0) { attr.ns.index = htodl(strings.offsetForString(ae.ns)); } else { attr.ns.index = htodl((uint32_t)-1); } attr.name.index = htodl(ae.namePoolIdx); if (!stripRawValues || ae.needStringValue()) { attr.rawValue.index = htodl(strings.offsetForString(ae.string)); } else { attr.rawValue.index = htodl((uint32_t)-1); } attr.typedValue.size = htods(sizeof(attr.typedValue)); if (ae.value.dataType == Res_value::TYPE_NULL || ae.value.dataType == Res_value::TYPE_STRING) { attr.typedValue.res0 = 0; attr.typedValue.dataType = Res_value::TYPE_STRING; attr.typedValue.data = htodl(strings.offsetForString(ae.string)); } else { attr.typedValue.res0 = 0; attr.typedValue.dataType = ae.value.dataType; attr.typedValue.data = htodl(ae.value.data); } dest->writeData(&attr, sizeof(attr)); } for (i=0; iflatten_node(strings, dest, stripComments, stripRawValues); if (err != NO_ERROR) { return err; } } if (type == TYPE_ELEMENT) { ResXMLTree_endElementExt endElementExt; memset(&endElementExt, 0, sizeof(endElementExt)); node.header.type = htods(RES_XML_END_ELEMENT_TYPE); node.header.size = htodl(sizeof(node)+sizeof(endElementExt)); node.lineNumber = htodl(getEndLineNumber()); node.comment.index = htodl((uint32_t)-1); endElementExt.ns.index = attrExt.ns.index; endElementExt.name.index = attrExt.name.index; dest->writeData(&node, sizeof(node)); dest->writeData(&endElementExt, sizeof(endElementExt)); } else if (type == TYPE_NAMESPACE) { if (writeCurrentNode) { node.header.type = htods(RES_XML_END_NAMESPACE_TYPE); node.lineNumber = htodl(getEndLineNumber()); node.comment.index = htodl((uint32_t)-1); node.header.size = htodl(sizeof(node)+extSize); dest->writeData(&node, sizeof(node)); dest->writeData(extData, extSize); } } return NO_ERROR; }