/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- * * The contents of this file are subject to the Netscape Public License * Version 1.0 (the "License"); you may not use this file except in * compliance with the License. You may obtain a copy of the License at * http://www.mozilla.org/NPL/ * * Software distributed under the License is distributed on an "AS IS" * basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See * the License for the specific language governing rights and limitations * under the License. * * The Original Code is Mozilla Communicator client code. * * The Initial Developer of the Original Code is Netscape Communications * Corporation. Portions created by Netscape are Copyright (C) 1998 * Netscape Communications Corporation. All Rights Reserved. */ #include "nsCOMPtr.h" #include "nsXMLContentSink.h" #include "nsIXMLElementFactory.h" #include "nsIParser.h" #include "nsIUnicharInputStream.h" #include "nsIUnicharStreamLoader.h" #include "nsIDocument.h" #include "nsIXMLDocument.h" #include "nsIXMLContent.h" #include "nsIScriptObjectOwner.h" #include "nsIURL.h" #ifdef NECKO #include "nsIURL.h" #include "nsNeckoUtil.h" #else #include "nsIURLGroup.h" #endif // NECKO #include "nsIWebShell.h" #include "nsIContent.h" #include "nsITextContent.h" #include "nsIPresContext.h" #include "nsIPresShell.h" #include "nsIViewManager.h" #include "nsIDOMComment.h" #include "nsIDOMCDATASection.h" #include "nsIHTMLContent.h" #include "nsHTMLEntities.h" #include "nsHTMLParts.h" #include "nsVoidArray.h" #include "nsCRT.h" #include "nsICSSLoader.h" #include "nsICSSStyleSheet.h" #include "nsIHTMLContentContainer.h" #include "nsHTMLAtoms.h" #include "nsLayoutAtoms.h" #include "nsIScriptContext.h" #include "nsIScriptContextOwner.h" #include "nsINameSpace.h" #include "nsINameSpaceManager.h" #include "nsIContentViewer.h" #include "prtime.h" #include "prlog.h" #include "prmem.h" #ifdef XSL #include "nsXSLContentSink.h" #include "nsIDOMDocument.h" #include "nsIDOMElement.h" #include #include "nsISupports.h" #include "nsParserCIID.h" #include "nsIIOService.h" #include "nsIServiceManager.h" #endif // XXX misnamed header file, but oh well #include "nsHTMLTokens.h" static char kNameSpaceSeparator = ':'; static char kNameSpaceDef[] = "xmlns"; static char kStyleSheetPI[] = "xml-stylesheet"; #ifdef XSL static char kXSLType[] = "text/xsl"; #endif static NS_DEFINE_IID(kIXMLContentSinkIID, NS_IXMLCONTENT_SINK_IID); static NS_DEFINE_IID(kIXMLContentIID, NS_IXMLCONTENT_IID); static NS_DEFINE_IID(kIHTMLContentContainerIID, NS_IHTMLCONTENTCONTAINER_IID); static NS_DEFINE_IID(kIXMLDocumentIID, NS_IXMLDOCUMENT_IID); static NS_DEFINE_IID(kIDOMCommentIID, NS_IDOMCOMMENT_IID); static NS_DEFINE_IID(kIScrollableViewIID, NS_ISCROLLABLEVIEW_IID); static NS_DEFINE_IID(kIDOMNodeIID, NS_IDOMNODE_IID); static NS_DEFINE_IID(kIDOMCDATASectionIID, NS_IDOMCDATASECTION_IID); #ifdef XSL static NS_DEFINE_IID(kIDOMDocumentIID, NS_IDOMDOCUMENT_IID); static NS_DEFINE_IID(kIDOMElementIID, NS_IDOMELEMENT_IID); static NS_DEFINE_IID(kIContentIID, NS_ICONTENT_IID); static NS_DEFINE_IID(kIObserverIID, NS_IOBSERVER_IID); static NS_DEFINE_IID(kISupportsIID, NS_ISUPPORTS_IID); static NS_DEFINE_CID(kIOServiceCID, NS_IOSERVICE_CID); static NS_DEFINE_IID(kIStreamListenerIID, NS_ISTREAMLISTENER_IID); #endif static void SetTextStringOnTextNode(const nsString& aTextString, nsIContent* aTextNode); // XXX Open Issues: // 1) html:style - Should we allow inline style? If so, the content // sink needs to process the tag and invoke the CSS parser. // 2) html:base - Should we allow a base tag? If so, the content // sink needs to maintain the base when resolving URLs for // loaded scripts and style sheets. Should it be allowed anywhere? // 3) what's not allowed - We need to figure out which HTML tags // (prefixed with a HTML namespace qualifier) are explicitly not // allowed (if any). // 4) factoring code with nsHTMLContentSink - There's some amount of // common code between this and the HTML content sink. This will // increase as we support more and more HTML elements. How can code // from the code be factored? nsresult NS_NewXMLContentSink(nsIXMLContentSink** aResult, nsIDocument* aDoc, nsIURI* aURL, nsIWebShell* aWebShell) { NS_PRECONDITION(nsnull != aResult, "null ptr"); if (nsnull == aResult) { return NS_ERROR_NULL_POINTER; } nsXMLContentSink* it; NS_NEWXPCOM(it, nsXMLContentSink); if (nsnull == it) { return NS_ERROR_OUT_OF_MEMORY; } nsresult rv = it->Init(aDoc, aURL, aWebShell); if (NS_OK != rv) { delete it; return rv; } return it->QueryInterface(kIXMLContentSinkIID, (void **)aResult); } nsXMLContentSink::nsXMLContentSink() { NS_INIT_REFCNT(); mDocument = nsnull; mDocumentURL = nsnull; mDocumentBaseURL = nsnull; mWebShell = nsnull; mParser = nsnull; mRootElement = nsnull; mDocElement = nsnull; mContentStack = nsnull; mNameSpaceStack = nsnull; mText = nsnull; mTextLength = 0; mTextSize = 0; mConstrainSize = PR_TRUE; mInScript = PR_FALSE; mStyleSheetCount = 0; mCSSLoader = nsnull; #ifdef XSL mXSLTransformMediator = nsnull; #endif } nsXMLContentSink::~nsXMLContentSink() { NS_IF_RELEASE(mDocument); NS_IF_RELEASE(mDocumentURL); NS_IF_RELEASE(mDocumentBaseURL); NS_IF_RELEASE(mWebShell); NS_IF_RELEASE(mParser); NS_IF_RELEASE(mRootElement); NS_IF_RELEASE(mDocElement); if (nsnull != mContentStack) { // there shouldn't be anything here except in an error condition PRInt32 index = mContentStack->Count(); while (0 < index--) { nsIContent* content = (nsIContent*)mContentStack->ElementAt(index); NS_RELEASE(content); } delete mContentStack; } if (nsnull != mNameSpaceStack) { // There shouldn't be any here except in an error condition PRInt32 index = mNameSpaceStack->Count(); while (0 < index--) { nsINameSpace* nameSpace = (nsINameSpace*)mNameSpaceStack->ElementAt(index); NS_RELEASE(nameSpace); } delete mNameSpaceStack; } if (nsnull != mText) { PR_FREEIF(mText); } NS_IF_RELEASE(mCSSLoader); #ifdef XSL NS_IF_RELEASE(mXSLTransformMediator); #endif } nsresult nsXMLContentSink::Init(nsIDocument* aDoc, nsIURI* aURL, nsIWebShell* aContainer) { NS_PRECONDITION(nsnull != aDoc, "null ptr"); NS_PRECONDITION(nsnull != aURL, "null ptr"); NS_PRECONDITION(nsnull != aContainer, "null ptr"); if ((nsnull == aDoc) || (nsnull == aURL) || (nsnull == aContainer)) { return NS_ERROR_NULL_POINTER; } mDocument = aDoc; NS_ADDREF(aDoc); mDocumentURL = aURL; NS_ADDREF(aURL); mDocumentBaseURL = aURL; NS_ADDREF(aURL); mWebShell = aContainer; NS_ADDREF(aContainer); mState = eXMLContentSinkState_InProlog; mDocElement = nsnull; mRootElement = nsnull; // XXX this presumes HTTP header info is alread set in document // XXX if it isn't we need to set it here... mDocument->GetHeaderData(nsHTMLAtoms::headerDefaultStyle, mPreferredStyle); nsIHTMLContentContainer* htmlContainer = nsnull; if (NS_SUCCEEDED(aDoc->QueryInterface(kIHTMLContentContainerIID, (void**)&htmlContainer))) { htmlContainer->GetCSSLoader(mCSSLoader); NS_RELEASE(htmlContainer); } return NS_OK; } #ifndef XSL // nsISupports NS_IMPL_ISUPPORTS(nsXMLContentSink, kIXMLContentSinkIID) #else NS_IMPL_THREADSAFE_ADDREF(nsXMLContentSink) NS_IMPL_THREADSAFE_RELEASE(nsXMLContentSink) nsresult nsXMLContentSink::QueryInterface(REFNSIID aIID, void** aInstancePtr) { nsresult rv = NS_NOINTERFACE; if (NULL == aInstancePtr) { return NS_ERROR_NULL_POINTER; } if (aIID.Equals(kIXMLContentSinkIID)) { *aInstancePtr = (void*)(nsIXMLContentSink*)this; NS_ADDREF_THIS(); return NS_OK; } if (aIID.Equals(kIObserverIID)) { *aInstancePtr = (void*)(nsIObserver*)this; NS_ADDREF_THIS(); return NS_OK; } if (aIID.Equals(kISupportsIID)) { *aInstancePtr = (void*)(nsISupports*)(nsIXMLContentSink*)this; NS_ADDREF_THIS(); return NS_OK; } return rv; } #endif // nsIContentSink NS_IMETHODIMP nsXMLContentSink::WillBuildModel(void) { // Notify document that the load is beginning mDocument->BeginLoad(); return NS_OK; } NS_IMETHODIMP nsXMLContentSink::DidBuildModel(PRInt32 aQualityLevel) { // XXX this is silly; who cares? PRInt32 i, ns = mDocument->GetNumberOfShells(); for (i = 0; i < ns; i++) { nsCOMPtr shell( dont_AddRef(mDocument->GetShellAt(i)) ); if (shell) { nsCOMPtr vm; shell->GetViewManager(getter_AddRefs(vm)); if(vm) { vm->SetQuality(nsContentQuality(aQualityLevel)); } } } #ifndef XSL StartLayoutProcess(); #else nsresult rv; if (mXSLTransformMediator) { rv = SetupTransformMediator(); } if (!mXSLTransformMediator || NS_FAILED(rv)) { mDocument->SetRootContent(mDocElement); StartLayoutProcess(); } #endif // Drop our reference to the parser to get rid of a circular // reference. NS_IF_RELEASE(mParser); return NS_OK; } void nsXMLContentSink::StartLayoutProcess() { StartLayout(); // XXX Should scroll to ref when that makes sense // ScrollToRef(); mDocument->EndLoad(); } #ifdef XSL // The observe method is called on completion of the transform. The nsISupports argument is an // nsIDOMElement interface to the root node of the output content model. NS_IMETHODIMP nsXMLContentSink::Observe(nsISupports *aSubject, const PRUnichar *aTopic, const PRUnichar *someData) { nsIContent* content; nsresult rv = NS_OK; // Set the output content model on the document rv = aSubject->QueryInterface(kIContentIID, (void **) &content); if (NS_SUCCEEDED(rv)) { mDocument->SetRootContent(content); NS_RELEASE(content); } else mDocument->SetRootContent(mDocElement); // Start the layout process StartLayoutProcess(); // Reset the observer on the transform mediator mXSLTransformMediator->SetTransformObserver(nsnull); return rv; } // Provide the transform mediator with the source document's content // model and the output document, and register the XML content sink // as the transform observer. The transform mediator will call // the nsIObserver::Observe() method on the transform observer once // the transform is completed. The nsISupports pointer to the Observe // method will be an nsIDOMElement pointer to the root node of the output // content model. nsresult nsXMLContentSink::SetupTransformMediator() { nsIDOMElement* source; nsIDOMDocument* currentDoc; nsresult rv = NS_OK; rv = mDocElement->QueryInterface(kIDOMElementIID, (void **) &source); if (NS_SUCCEEDED(rv)) { mXSLTransformMediator->SetSourceContentModel(source); rv = mDocument->QueryInterface(kIDOMDocumentIID, (void **) ¤tDoc); if (NS_SUCCEEDED(rv)) { mXSLTransformMediator->SetCurrentDocument(currentDoc); mXSLTransformMediator->SetTransformObserver(this); NS_RELEASE(currentDoc); } NS_RELEASE(source); } return rv; } #endif NS_IMETHODIMP nsXMLContentSink::WillInterrupt(void) { return NS_OK; } NS_IMETHODIMP nsXMLContentSink::WillResume(void) { return NS_OK; } NS_IMETHODIMP nsXMLContentSink::SetParser(nsIParser* aParser) { NS_IF_RELEASE(mParser); mParser = aParser; NS_IF_ADDREF(mParser); return NS_OK; } // XXX Code copied from nsHTMLContentSink. It should be shared. void nsXMLContentSink::GetAttributeValueAt(const nsIParserNode& aNode, PRInt32 aIndex, nsString& aResult) { // Copy value const nsString& value = aNode.GetValueAt(aIndex); aResult.Truncate(); aResult.Append(value); // Strip quotes if present PRUnichar first = aResult.First(); if ((first == '\"') || (first == '\'')) { if (aResult.Last() == first) { aResult.Cut(0, 1); PRInt32 pos = aResult.Length() - 1; if (pos >= 0) { aResult.Cut(pos, 1); } } else { // Mismatched quotes - leave them in } } if (mParser) { nsCOMPtr dtd; nsresult rv = mParser->GetDTD(getter_AddRefs(dtd)); if (NS_SUCCEEDED(rv)) { // Reduce any entities // XXX Note: as coded today, this will only convert well formed // entities. This may not be compatible enough. // XXX there is a table in navigator that translates some numeric entities // should we be doing that? If so then it needs to live in two places (bad) // so we should add a translate numeric entity method from the parser... char cbuf[100]; PRInt32 index = 0; while (index < aResult.Length()) { // If we have the start of an entity (and it's not at the end of // our string) then translate the entity into it's unicode value. if ((aResult.CharAt(index++) == '&') && (index < aResult.Length())) { PRInt32 start = index - 1; PRUnichar e = aResult.CharAt(index); if (e == '#') { // Convert a numeric character reference index++; char* cp = cbuf; char* limit = cp + sizeof(cbuf) - 1; PRBool ok = PR_FALSE; PRInt32 slen = aResult.Length(); while ((index < slen) && (cp < limit)) { PRUnichar ch = aResult.CharAt(index); if (ch == ';') { index++; ok = PR_TRUE; break; } if ((ch >= '0') && (ch <= '9')) { *cp++ = char(ch); index++; continue; } break; } if (!ok || (cp == cbuf)) { continue; } *cp = '\0'; if (cp - cbuf > 5) { continue; } PRInt32 ch = PRInt32( ::atoi(cbuf) ); if (ch > 65535) { continue; } // Remove entity from string and replace it with the integer // value. aResult.Cut(start, index - start); aResult.Insert(PRUnichar(ch), start); index = start + 1; } else if (((e >= 'A') && (e <= 'Z')) || ((e >= 'a') && (e <= 'z'))) { // Convert a named entity index++; char* cp = cbuf; char* limit = cp + sizeof(cbuf) - 1; *cp++ = char(e); PRBool ok = PR_FALSE; PRInt32 slen = aResult.Length(); while ((index < slen) && (cp < limit)) { PRUnichar ch = aResult.CharAt(index); if (ch == ';') { index++; ok = PR_TRUE; break; } if (((ch >= '0') && (ch <= '9')) || ((ch >= 'A') && (ch <= 'Z')) || ((ch >= 'a') && (ch <= 'z'))) { *cp++ = char(ch); index++; continue; } break; } if (!ok || (cp == cbuf)) { continue; } *cp = '\0'; PRInt32 ch; nsAutoString str(cbuf); dtd->ConvertEntityToUnicode(str, &ch); if (ch < 0) { continue; } // Remove entity from string and replace it with the integer // value. aResult.Cut(start, index - start); aResult.Insert(PRUnichar(ch), start); index = start + 1; } else if (e == '{') { // Convert a script entity // XXX write me! } } } } } } // XXX Code copied from nsHTMLContentSink. It should be shared. nsresult nsXMLContentSink::AddAttributes(const nsIParserNode& aNode, nsIContent* aContent, PRBool aIsHTML) { // Add tag attributes to the content attributes nsAutoString name, v; PRInt32 ac = aNode.GetAttributeCount(); for (PRInt32 i = 0; i < ac; i++) { // Get upper-cased key const nsString& key = aNode.GetKeyAt(i); name.Truncate(); name.Append(key); nsIAtom* nameSpacePrefix = CutNameSpacePrefix(name); nsIAtom* nameAtom = NS_NewAtom(name); PRInt32 nameSpaceID = (nsnull == nameSpacePrefix) ? kNameSpaceID_None : GetNameSpaceId(nameSpacePrefix); if (kNameSpaceID_Unknown == nameSpaceID) { nameSpaceID = kNameSpaceID_None; // XXX is this correct? or is it a bad document? } if ((kNameSpaceID_XMLNS == nameSpaceID) && aIsHTML) { NS_RELEASE(nameAtom); name.Insert("xmlns:", 0); nameAtom = NS_NewAtom(name); nameSpaceID = kNameSpaceID_HTML; // XXX this is wrong, but necessary until HTML can store other namespaces for attrs } nsAutoString value; if (NS_CONTENT_ATTR_NOT_THERE == aContent->GetAttribute(nameSpaceID, nameAtom, value)) { // Get value and remove mandatory quotes GetAttributeValueAt(aNode, i, v); // Add attribute to content aContent->SetAttribute(nameSpaceID, nameAtom, v, PR_FALSE); } NS_RELEASE(nameAtom); NS_IF_RELEASE(nameSpacePrefix); } return NS_OK; } void nsXMLContentSink::PushNameSpacesFrom(const nsIParserNode& aNode) { nsAutoString k, uri, prefix; PRInt32 ac = aNode.GetAttributeCount(); PRInt32 offset; nsINameSpace* nameSpace = nsnull; if ((nsnull != mNameSpaceStack) && (0 < mNameSpaceStack->Count())) { nameSpace = (nsINameSpace*)mNameSpaceStack->ElementAt(mNameSpaceStack->Count() - 1); NS_ADDREF(nameSpace); } else { nsINameSpaceManager* manager = nsnull; mDocument->GetNameSpaceManager(manager); NS_ASSERTION(nsnull != manager, "no name space manager in document"); if (nsnull != manager) { manager->CreateRootNameSpace(nameSpace); NS_RELEASE(manager); } } if (nsnull != nameSpace) { for (PRInt32 i = 0; i < ac; i++) { const nsString& key = aNode.GetKeyAt(i); k.Truncate(); k.Append(key); // Look for "xmlns" at the start of the attribute name offset = k.Find(kNameSpaceDef); if (0 == offset) { if (k.Length() == (sizeof(kNameSpaceDef)-1)) { // If there's nothing left, this is a default namespace prefix.Truncate(); } else { PRUnichar next = k.CharAt(sizeof(kNameSpaceDef)-1); // If the next character is a :, there is a namespace prefix if (':' == next) { prefix.Truncate(); k.Right(prefix, k.Length()-sizeof(kNameSpaceDef)); } else { continue; } } // Get the attribute value (the URI for the namespace) GetAttributeValueAt(aNode, i, uri); // Open a local namespace nsIAtom* prefixAtom = ((0 < prefix.Length()) ? NS_NewAtom(prefix) : nsnull); nsINameSpace* child = nsnull; nameSpace->CreateChildNameSpace(prefixAtom, uri, child); if (nsnull != child) { NS_RELEASE(nameSpace); nameSpace = child; } NS_IF_RELEASE(prefixAtom); } } if (nsnull == mNameSpaceStack) { mNameSpaceStack = new nsVoidArray(); } mNameSpaceStack->AppendElement(nameSpace); } } nsIAtom* nsXMLContentSink::CutNameSpacePrefix(nsString& aString) { nsAutoString prefix; PRInt32 nsoffset = aString.FindChar(kNameSpaceSeparator); if (-1 != nsoffset) { aString.Left(prefix, nsoffset); aString.Cut(0, nsoffset+1); } if (0 < prefix.Length()) { return NS_NewAtom(prefix); } return nsnull; } NS_IMETHODIMP nsXMLContentSink::OpenContainer(const nsIParserNode& aNode) { nsresult result = NS_OK; nsAutoString tag; nsIAtom* nameSpacePrefix; PRInt32 nameSpaceID = kNameSpaceID_Unknown; PRBool isHTML = PR_FALSE; PRBool pushContent = PR_TRUE; nsIContent *content; // XXX Hopefully the parser will flag this before we get // here. If we're in the epilog, there should be no // new elements PR_ASSERT(eXMLContentSinkState_InEpilog != mState); FlushText(); mState = eXMLContentSinkState_InDocumentElement; tag = aNode.GetText(); nameSpacePrefix = CutNameSpacePrefix(tag); // We must register namespace declarations found in the attribute list // of an element before creating the element. This is because the // namespace prefix for an element might be declared within the attribute // list. PushNameSpacesFrom(aNode); nameSpaceID = GetNameSpaceId(nameSpacePrefix); isHTML = IsHTMLNameSpace(nameSpaceID); if (isHTML) { nsIAtom* tagAtom = NS_NewAtom(tag); if (nsHTMLAtoms::script == tagAtom) { result = ProcessStartSCRIPTTag(aNode); } NS_RELEASE(tagAtom); nsIHTMLContent *htmlContent = nsnull; result = NS_CreateHTMLElement(&htmlContent, tag); content = (nsIContent *)htmlContent; } else { nsIAtom *tagAtom = NS_NewAtom(tag); nsIXMLContent *xmlContent; result = NS_NewXMLElement(&xmlContent, tagAtom); NS_RELEASE(tagAtom); // For XML elements, set the namespace if (NS_OK == result) { xmlContent->SetNameSpacePrefix(nameSpacePrefix); xmlContent->SetNameSpaceID(nameSpaceID); } content = (nsIContent *)xmlContent; } NS_IF_RELEASE(nameSpacePrefix); if (NS_OK == result) { content->SetDocument(mDocument, PR_FALSE); // Set the attributes on the new content element result = AddAttributes(aNode, content, isHTML); if (NS_OK == result) { // If this is the document element if (nsnull == mDocElement) { mDocElement = content; NS_ADDREF(mDocElement); // For XSL, we need to wait till after the transform // to set the root content object. Hence, the following // ifndef. #ifndef XSL mDocument->SetRootContent(mDocElement); #endif } else { nsIContent *parent = GetCurrentContent(); parent->AppendChildTo(content, PR_FALSE); } if (pushContent) { PushContent(content); } } } return result; } NS_IMETHODIMP nsXMLContentSink::CloseContainer(const nsIParserNode& aNode) { nsresult result = NS_OK; nsAutoString tag; nsIAtom* nameSpacePrefix; PRInt32 nameSpaceID = kNameSpaceID_Unknown; PRBool isHTML = PR_FALSE; PRBool popContent = PR_TRUE; // XXX Hopefully the parser will flag this before we get // here. If we're in the prolog or epilog, there should be // no close tags for elements. PR_ASSERT(eXMLContentSinkState_InDocumentElement == mState); tag = aNode.GetText(); nameSpacePrefix = CutNameSpacePrefix(tag); nameSpaceID = GetNameSpaceId(nameSpacePrefix); isHTML = IsHTMLNameSpace(nameSpaceID); if (!mInScript) { FlushText(); } if (isHTML) { nsIAtom* tagAtom = NS_NewAtom(tag); if (nsHTMLAtoms::script == tagAtom) { result = ProcessEndSCRIPTTag(aNode); } NS_RELEASE(tagAtom); } nsIContent* content = nsnull; if (popContent) { content = PopContent(); if (nsnull != content) { if (mDocElement == content) { mState = eXMLContentSinkState_InEpilog; } NS_RELEASE(content); } else { // XXX Again, the parser should catch unmatched tags and // we should never get here. PR_ASSERT(0); } } nsINameSpace* nameSpace = PopNameSpaces(); if (nsnull != content) { nsIXMLContent* xmlContent; if (NS_OK == content->QueryInterface(kIXMLContentIID, (void **)&xmlContent)) { xmlContent->SetContainingNameSpace(nameSpace); NS_RELEASE(xmlContent); } } NS_IF_RELEASE(nameSpace); return result; } NS_IMETHODIMP nsXMLContentSink::AddLeaf(const nsIParserNode& aNode) { // XXX For now, all leaf content is character data // XXX make sure to push/pop name spaces here too (for attributes) switch (aNode.GetTokenType()) { case eToken_text: case eToken_whitespace: case eToken_newline: AddText(aNode.GetText()); break; case eToken_cdatasection: AddCDATASection(aNode); break; case eToken_entity: { nsAutoString tmp; PRInt32 unicode = aNode.TranslateToUnicodeStr(tmp); if (unicode < 0) { return AddText(aNode.GetText()); } return AddText(tmp); } } return NS_OK; } nsresult nsXMLContentSink::CreateErrorText(const nsParserError* aError, nsString& aErrorString) { nsString errorText("XML Parsing Error: "); if (aError) { errorText.Append(aError->description); errorText.Append("\nLine Number "); errorText.Append(aError->lineNumber, 10); errorText.Append(", Column "); errorText.Append(aError->colNumber, 10); errorText.Append(":"); } aErrorString = errorText; return NS_OK; } nsresult nsXMLContentSink::CreateSourceText(const nsParserError* aError, nsString& aSourceString) { nsString sourceText; PRInt32 errorPosition = aError->colNumber; sourceText.Append(aError->sourceLine); sourceText.Append("\n"); for (int i = 0; i < errorPosition; i++) sourceText.Append("-"); sourceText.Append("^"); aSourceString = sourceText; return NS_OK; } static void SetTextStringOnTextNode(const nsString& aTextString, nsIContent* aTextNode) { nsITextContent* text = nsnull; PRUnichar *tempUnicode = aTextString.ToNewUnicode(); static NS_DEFINE_IID(kITextContentIID, NS_ITEXT_CONTENT_IID); aTextNode->QueryInterface(kITextContentIID, (void**) &text); text->SetText(tempUnicode, aTextString.Length(), PR_FALSE); delete [] tempUnicode; NS_RELEASE(text); } /* * We create the following XML snippet programmatically and * insert it into the content model: * * * XML Error: "contents of aError->description" * Line Number: "contents of aError->lineNumber" * * "Contents of aError->sourceLine" * "^ pointing at the error location" * * * */ NS_IMETHODIMP nsXMLContentSink::NotifyError(const nsParserError* aError) { nsresult result = NS_OK; nsAutoString parserErrorTag = "parsererror"; nsAutoString sourceTextTag = "sourcetext"; nsString errorText; nsString sourceText; nsIHTMLContent* errorContainerNode = nsnull; nsIHTMLContent* sourceContainerNode = nsnull; nsIContent* errorTextNode = nsnull; nsIContent* sourceTextNode = nsnull; /* Create container and text content nodes */ result = NS_CreateHTMLElement(&errorContainerNode, parserErrorTag); // XXX these should NOT be in the HTML namespace if (NS_OK == result) { result = NS_NewTextNode(&errorTextNode); if (NS_OK == result) { result = NS_CreateHTMLElement(&sourceContainerNode, sourceTextTag); if (NS_OK == result) { result = NS_NewTextNode(&sourceTextNode); } } } /* Create the error text string and source text string and set the text strings into the text nodes. */ result = CreateErrorText(aError, errorText); if (NS_OK == result) { SetTextStringOnTextNode(errorText, errorTextNode); } result = CreateSourceText(aError, sourceText); if (NS_OK == result) { SetTextStringOnTextNode(sourceText, sourceTextNode); } /* Hook the content nodes up to the document and to each other */ if (NS_OK == result) { errorContainerNode->SetDocument(mDocument, PR_FALSE); errorTextNode->SetDocument(mDocument, PR_FALSE); sourceContainerNode->SetDocument(mDocument, PR_FALSE); sourceTextNode->SetDocument(mDocument, PR_FALSE); if (nsnull == mDocElement) { mDocElement = errorContainerNode; NS_ADDREF(mDocElement); mDocument->SetRootContent(mDocElement); } else { mDocElement->AppendChildTo(errorContainerNode, PR_FALSE); } errorContainerNode->AppendChildTo(errorTextNode, PR_FALSE); errorContainerNode->AppendChildTo(sourceContainerNode, PR_FALSE); sourceContainerNode->AppendChildTo(sourceTextNode, PR_FALSE); } return result; } // nsIXMLContentSink NS_IMETHODIMP nsXMLContentSink::AddXMLDecl(const nsIParserNode& aNode) { // XXX We'll ignore it for now printf("nsXMLContentSink::AddXMLDecl\n"); return NS_OK; } nsresult nsXMLContentSink::AddContentAsLeaf(nsIContent *aContent) { nsresult result = NS_OK; if (eXMLContentSinkState_InProlog == mState) { result = mDocument->AppendToProlog(aContent); } else if (eXMLContentSinkState_InEpilog == mState) { result = mDocument->AppendToEpilog(aContent); } else { nsIContent *parent = GetCurrentContent(); if (nsnull != parent) { result = parent->AppendChildTo(aContent, PR_FALSE); } } return result; } NS_IMETHODIMP nsXMLContentSink::AddComment(const nsIParserNode& aNode) { FlushText(); nsAutoString text; nsIContent *comment; nsIDOMComment *domComment; nsresult result = NS_OK; text = aNode.GetText(); result = NS_NewCommentNode(&comment); if (NS_OK == result) { result = comment->QueryInterface(kIDOMCommentIID, (void **)&domComment); if (NS_OK == result) { domComment->AppendData(text); NS_RELEASE(domComment); comment->SetDocument(mDocument, PR_FALSE); result = AddContentAsLeaf(comment); } NS_RELEASE(comment); } return result; } NS_IMETHODIMP nsXMLContentSink::AddCDATASection(const nsIParserNode& aNode) { FlushText(); nsAutoString text; nsIContent *cdata; nsIDOMCDATASection *domCDATA; nsresult result = NS_OK; text = aNode.GetText(); result = NS_NewXMLCDATASection(&cdata); if (NS_OK == result) { result = cdata->QueryInterface(kIDOMCDATASectionIID, (void **)&domCDATA); if (NS_OK == result) { domCDATA->AppendData(text); NS_RELEASE(domCDATA); cdata->SetDocument(mDocument, PR_FALSE); result = AddContentAsLeaf(cdata); } NS_RELEASE(cdata); } return result; } static nsresult GetQuotedAttributeValue(nsString& aSource, const nsString& aAttribute, nsString& aValue) { PRInt32 offset; PRInt32 endOffset = -1; nsresult result = NS_OK; offset = aSource.Find(aAttribute); if (-1 != offset) { offset = aSource.FindChar('=', PR_FALSE,offset); PRUnichar next = aSource.CharAt(++offset); if (kQuote == next) { endOffset = aSource.FindChar(kQuote,PR_FALSE, ++offset); } else if (kApostrophe == next) { endOffset = aSource.FindChar(kApostrophe, PR_FALSE,++offset); } if (-1 != endOffset) { aSource.Mid(aValue, offset, endOffset-offset); } else { // Mismatched quotes - return an error result = NS_ERROR_FAILURE; } } else { aValue.Truncate(); } return result; } static void ParseProcessingInstruction(const nsString& aText, nsString& aTarget, nsString& aData) { PRInt32 offset; aTarget.Truncate(); aData.Truncate(); offset = aText.FindCharInSet(" \n\r\t"); if (-1 != offset) { aText.Mid(aTarget, 2, offset-2); aText.Mid(aData, offset+1, aText.Length()-offset-3); } } static void SplitMimeType(const nsString& aValue, nsString& aType, nsString& aParams) { aType.Truncate(); aParams.Truncate(); PRInt32 semiIndex = aValue.FindChar(PRUnichar(';')); if (-1 != semiIndex) { aValue.Left(aType, semiIndex); aValue.Right(aParams, (aValue.Length() - semiIndex) - 1); } else { aType = aValue; } } #ifdef XSL nsresult nsXMLContentSink::CreateStyleSheetURL(nsIURI** aUrl, const nsAutoString& aHref) { nsresult result = NS_OK; #ifdef NECKO result = NS_NewURI(aUrl, aHref, mDocumentBaseURL); #else nsAutoString absURL; nsIURI* docURL = mDocument->GetDocumentURL(); nsILoadGroup* LoadGroup; result = docURL->GetLoadGroup(&LoadGroup); if ((NS_SUCCEEDED(result)) && LoadGroup) { result = LoadGroup->CreateURL(aUrl, docURL, aHref, nsnull); NS_RELEASE(LoadGroup); } else { result = NS_MakeAbsoluteURL(docURL, nsnull, aHref, absURL); if (NS_SUCCEEDED(result)) { result = NS_NewURL(aUrl, absURL); } } NS_RELEASE(docURL); #endif return result; } // Create an XML parser and an XSL content sink and start parsing // the XSL stylesheet located at the given URL. nsresult nsXMLContentSink::LoadXSLStyleSheet(nsIURI* aUrl, const nsString& aType) { nsresult rv = NS_OK; nsCOMPtr parser; static NS_DEFINE_IID(kCParserIID, NS_IPARSER_IID); static NS_DEFINE_IID(kCParserCID, NS_PARSER_IID); // Create the XML parser rv = nsComponentManager::CreateInstance(kCParserCID, nsnull, kCParserIID, getter_AddRefs(parser)); if (NS_FAILED(rv)) return rv; // Create a transform mediator rv = NS_NewTransformMediator(&mXSLTransformMediator, aType); if (NS_FAILED(rv)) return rv; // Enable the transform mediator. It will start the transform // as soon as it has enough state to do so. The state needed is // the source content model, the style content model, the current // document, and an observer. The XML and XSL content sinks provide // this state by calling the various setters on nsITransformMediator. mXSLTransformMediator->SetEnabled(PR_TRUE); // The XML document owns the transform mediator. Give the mediator to // the XML document. nsCOMPtr xmlDoc; rv = mDocument->QueryInterface(kIXMLDocumentIID, (void**) getter_AddRefs(xmlDoc)); if (NS_FAILED(rv)) return rv; xmlDoc->SetTransformMediator(mXSLTransformMediator); // Create the XSL content sink nsCOMPtr sink; rv = NS_NewXSLContentSink(getter_AddRefs(sink), mXSLTransformMediator, mDocument, aUrl, mWebShell); if (NS_FAILED(rv)) return rv; // Hook up the content sink to the parser's output and ask the parser // to start parsing the URL specified by aURL. parser->SetContentSink(sink); nsAutoString utf8("UTF-8"); mDocument->SetDocumentCharacterSet(utf8); parser->SetDocumentCharset(utf8, kCharsetFromDocTypeDefault); parser->Parse(aUrl); // Set the parser as the stream listener and start the URL load nsCOMPtr sl; rv = mParser->QueryInterface(kIStreamListenerIID, (void**)getter_AddRefs(sl)); if (NS_FAILED(rv)) return rv; rv = NS_OpenURI(sl, nsnull, aUrl); return rv; } nsresult nsXMLContentSink::ProcessStyleLink(nsIContent* aElement, const nsString& aHref, PRBool aAlternate, const nsString& aTitle, const nsString& aType, const nsString& aMedia) { nsresult rv = NS_OK; if (aType.EqualsIgnoreCase(kXSLType)) rv = ProcessXSLStyleLink(aElement, aHref, aAlternate, aTitle, aType, aMedia); else rv = ProcessCSSStyleLink(aElement, aHref, aAlternate, aTitle, aType, aMedia); return rv; } nsresult nsXMLContentSink::ProcessXSLStyleLink(nsIContent* aElement, const nsString& aHref, PRBool aAlternate, const nsString& aTitle, const nsString& aType, const nsString& aMedia) { nsresult rv = NS_OK; nsIURI* url; rv = CreateStyleSheetURL(&url, aHref); if (NS_SUCCEEDED(rv)) { rv = LoadXSLStyleSheet(url, aType); NS_RELEASE(url); } return rv; } #endif nsresult nsXMLContentSink::ProcessCSSStyleLink(nsIContent* aElement, const nsString& aHref, PRBool aAlternate, const nsString& aTitle, const nsString& aType, const nsString& aMedia) { nsresult result = NS_OK; if (aAlternate) { // if alternate, does it have title? if (0 == aTitle.Length()) { // alternates must have title return NS_OK; //return without error, for now } } nsAutoString mimeType; nsAutoString params; SplitMimeType(aType, mimeType, params); if ((0 == mimeType.Length()) || mimeType.EqualsIgnoreCase("text/css")) { nsIURI* url = nsnull; #ifdef NECKO // XXX we need to get passed in the nsILoadGroup here! // nsILoadGroup* group = mDocument->GetDocumentLoadGroup(); result = NS_NewURI(&url, aHref, mDocumentBaseURL/*, group*/); #else nsILoadGroup* LoadGroup = nsnull; mDocumentBaseURL->GetLoadGroup(&LoadGroup); if (LoadGroup) { result = LoadGroup->CreateURL(&url, mDocumentBaseURL, aHref, nsnull); NS_RELEASE(LoadGroup); } else { result = NS_NewURL(&url, aHref, mDocumentBaseURL); } #endif if (NS_OK != result) { return NS_OK; // The URL is bad, move along, don't propogate the error (for now) } PRBool blockParser = PR_FALSE; if (! aAlternate) { if (0 < aTitle.Length()) { // possibly preferred sheet if (0 == mPreferredStyle.Length()) { mPreferredStyle = aTitle; mCSSLoader->SetPreferredSheet(aTitle); mDocument->SetHeaderData(nsHTMLAtoms::headerDefaultStyle, aTitle); } } else { // persistent sheet, block blockParser = PR_TRUE; } } PRBool doneLoading; result = mCSSLoader->LoadStyleLink(aElement, url, aTitle, aMedia, kNameSpaceID_Unknown, mStyleSheetCount++, ((blockParser) ? mParser : nsnull), doneLoading); NS_RELEASE(url); if (NS_SUCCEEDED(result) && blockParser && (! doneLoading)) { result = NS_ERROR_HTMLPARSER_BLOCK; } } return result; } NS_IMETHODIMP nsXMLContentSink::AddProcessingInstruction(const nsIParserNode& aNode) { nsresult result = NS_OK; nsAutoString text, target, data; nsIContent* node; FlushText(); text = aNode.GetText(); ParseProcessingInstruction(text, target, data); result = NS_NewXMLProcessingInstruction(&node, target, data); if (NS_OK == result) { node->SetDocument(mDocument, PR_FALSE); result = AddContentAsLeaf(node); } if (NS_OK == result) { nsAutoString type, href, title, media, alternate; // If it's a stylesheet PI... if (target.EqualsIgnoreCase(kStyleSheetPI)) { result = GetQuotedAttributeValue(text, "href", href); // If there was an error or there's no href, we can't do // anything with this PI if ((NS_OK != result) || (0 == href.Length())) { return result; } result = GetQuotedAttributeValue(text, "type", type); if (NS_OK != result) { return result; } result = GetQuotedAttributeValue(text, "title", title); if (NS_OK != result) { return result; } title.CompressWhitespace(); result = GetQuotedAttributeValue(text, "media", media); if (NS_OK != result) { return result; } media.ToLowerCase(); result = GetQuotedAttributeValue(text, "alternate", alternate); if (NS_OK != result) { return result; } #ifndef XSL result = ProcessCSSStyleLink(node, href, alternate.Equals("yes"), title, type, media); #else result = ProcessStyleLink(node, href, alternate.Equals("yes"), title, type, media); #endif } } return result; } NS_IMETHODIMP nsXMLContentSink::AddDocTypeDecl(const nsIParserNode& aNode, PRInt32 aMode) { printf("nsXMLContentSink::AddDocTypeDecl\n"); return NS_OK; } nsresult nsXMLContentSink::FlushText(PRBool aCreateTextNode, PRBool* aDidFlush) { nsresult rv = NS_OK; PRBool didFlush = PR_FALSE; if (0 != mTextLength) { if (aCreateTextNode) { nsIContent* content; rv = NS_NewTextNode(&content); if (NS_OK == rv) { // Set the content's document content->SetDocument(mDocument, PR_FALSE); // Set the text in the text node static NS_DEFINE_IID(kITextContentIID, NS_ITEXT_CONTENT_IID); nsITextContent* text = nsnull; content->QueryInterface(kITextContentIID, (void**) &text); text->SetText(mText, mTextLength, PR_FALSE); NS_RELEASE(text); // Add text to its parent AddContentAsLeaf(content); NS_RELEASE(content); } } mTextLength = 0; didFlush = PR_TRUE; } if (nsnull != aDidFlush) { *aDidFlush = didFlush; } return rv; } #define NS_ACCUMULATION_BUFFER_SIZE 4096 NS_IMETHODIMP nsXMLContentSink::AddCharacterData(const nsIParserNode& aNode) { return AddText(aNode.GetText()); } nsresult nsXMLContentSink::AddText(const nsString& aString) { PRInt32 addLen = aString.Length(); if (0 == addLen) { return NS_OK; } // Create buffer when we first need it if (0 == mTextSize) { mText = (PRUnichar *) PR_MALLOC(sizeof(PRUnichar) * NS_ACCUMULATION_BUFFER_SIZE); if (nsnull == mText) { return NS_ERROR_OUT_OF_MEMORY; } mTextSize = NS_ACCUMULATION_BUFFER_SIZE; } // Copy data from string into our buffer; flush buffer when it fills up PRInt32 offset = 0; while (0 != addLen) { PRInt32 amount = mTextSize - mTextLength; if (amount > addLen) { amount = addLen; } if (0 == amount) { if (mConstrainSize) { nsresult rv = FlushText(); if (NS_OK != rv) { return rv; } } else { mTextSize += addLen; mText = (PRUnichar *) PR_REALLOC(mText, sizeof(PRUnichar) * mTextSize); if (nsnull == mText) { return NS_ERROR_OUT_OF_MEMORY; } } } memcpy(&mText[mTextLength], aString.GetUnicode() + offset, sizeof(PRUnichar) * amount); mTextLength += amount; offset += amount; addLen -= amount; } return NS_OK; } NS_IMETHODIMP nsXMLContentSink::AddUnparsedEntity(const nsIParserNode& aNode) { printf("nsXMLContentSink::AddUnparsedEntity\n"); return NS_OK; } NS_IMETHODIMP nsXMLContentSink::AddNotation(const nsIParserNode& aNode) { printf("nsXMLContentSink::AddNotation\n"); return NS_OK; } NS_IMETHODIMP nsXMLContentSink::AddEntityReference(const nsIParserNode& aNode) { printf("nsXMLContentSink::AddEntityReference\n"); return NS_OK; } PRInt32 nsXMLContentSink::GetNameSpaceId(nsIAtom* aPrefix) { PRInt32 id = (nsnull == aPrefix) ? kNameSpaceID_None : kNameSpaceID_Unknown; if ((nsnull != mNameSpaceStack) && (0 < mNameSpaceStack->Count())) { PRInt32 index = mNameSpaceStack->Count() - 1; nsINameSpace* nameSpace = (nsINameSpace*)mNameSpaceStack->ElementAt(index); nameSpace->FindNameSpaceID(aPrefix, id); } return id; } nsINameSpace* nsXMLContentSink::PopNameSpaces() { if ((nsnull != mNameSpaceStack) && (0 < mNameSpaceStack->Count())) { PRInt32 index = mNameSpaceStack->Count() - 1; nsINameSpace* nameSpace = (nsINameSpace*)mNameSpaceStack->ElementAt(index); mNameSpaceStack->RemoveElementAt(index); return nameSpace; } return nsnull; } PRBool nsXMLContentSink::IsHTMLNameSpace(PRInt32 aID) { return PRBool(kNameSpaceID_HTML == aID); } nsIContent* nsXMLContentSink::GetCurrentContent() { if (nsnull != mContentStack) { PRInt32 index = mContentStack->Count() - 1; return (nsIContent *)mContentStack->ElementAt(index); } return nsnull; } PRInt32 nsXMLContentSink::PushContent(nsIContent *aContent) { if (nsnull == mContentStack) { mContentStack = new nsVoidArray(); } mContentStack->AppendElement((void *)aContent); return mContentStack->Count(); } nsIContent* nsXMLContentSink::PopContent() { nsIContent* content = nsnull; if (nsnull != mContentStack) { PRInt32 index = mContentStack->Count() - 1; content = (nsIContent *)mContentStack->ElementAt(index); mContentStack->RemoveElementAt(index); } return content; } void nsXMLContentSink::StartLayout() { PRInt32 i, ns = mDocument->GetNumberOfShells(); for (i = 0; i < ns; i++) { nsIPresShell* shell = mDocument->GetShellAt(i); if (nsnull != shell) { // Make shell an observer for next time shell->BeginObservingDocument(); // Resize-reflow this time nsCOMPtr cx; shell->GetPresContext(getter_AddRefs(cx)); nsRect r; cx->GetVisibleArea(r); shell->InitialReflow(r.width, r.height); // Now trigger a refresh nsCOMPtr vm; shell->GetViewManager(getter_AddRefs(vm)); if (vm) { RefreshIfEnabled(vm); } NS_RELEASE(shell); } } // If the document we are loading has a reference or it is a top level // frameset document, disable the scroll bars on the views. #ifdef NECKO char* ref = nsnull; nsIURL* url; nsresult rv = mDocumentURL->QueryInterface(nsIURL::GetIID(), (void**)&url); if (NS_SUCCEEDED(rv)) { rv = url->GetRef(&ref); NS_RELEASE(url); } #else const char* ref; (void)mDocumentURL->GetRef(&ref); #endif PRBool topLevelFrameset = PR_FALSE; if (mWebShell) { nsIWebShell* rootWebShell; mWebShell->GetRootWebShell(rootWebShell); if (mWebShell == rootWebShell) { topLevelFrameset = PR_TRUE; } NS_IF_RELEASE(rootWebShell); } if ((nsnull != ref) || topLevelFrameset) { // XXX support more than one presentation-shell here // Get initial scroll preference and save it away; disable the // scroll bars. ns = mDocument->GetNumberOfShells(); for (i = 0; i < ns; i++) { nsIPresShell* shell = mDocument->GetShellAt(i); if (nsnull != shell) { nsCOMPtrvm; shell->GetViewManager(getter_AddRefs(vm)); if (vm) { nsIView* rootView = nsnull; vm->GetRootView(rootView); if (nsnull != rootView) { nsIScrollableView* sview = nsnull; rootView->QueryInterface(kIScrollableViewIID, (void**) &sview); if (nsnull != sview) { if (topLevelFrameset) mOriginalScrollPreference = nsScrollPreference_kNeverScroll; else sview->GetScrollPreference(mOriginalScrollPreference); sview->SetScrollPreference(nsScrollPreference_kNeverScroll); } } } NS_RELEASE(shell); } } #ifdef NECKO // XXX who actually uses ref here anyway? nsCRT::free(ref); #endif } } NS_IMETHODIMP nsXMLContentSink::ResumeParsing() { if (nsnull != mParser) { mParser->EnableParser(PR_TRUE); } return NS_OK; } NS_IMETHODIMP nsXMLContentSink::EvaluateScript(nsString& aScript, PRUint32 aLineNo) { nsresult rv = NS_OK; if (0 < aScript.Length()) { nsIScriptContextOwner *owner; nsIScriptContext *context; owner = mDocument->GetScriptContextOwner(); if (nsnull != owner) { rv = owner->GetScriptContext(&context); if (rv != NS_OK) { NS_RELEASE(owner); return rv; } nsIURI* docURL = mDocument->GetDocumentURL(); #ifdef NECKO char* url; #else const char* url; #endif if (docURL) { rv = docURL->GetSpec(&url); } if (NS_SUCCEEDED(rv)) { nsAutoString val; PRBool isUndefined; (void) context->EvaluateString(aScript, url, aLineNo, val, &isUndefined); NS_IF_RELEASE(docURL); NS_RELEASE(context); NS_RELEASE(owner); #ifdef NECKO nsCRT::free(url); #endif } } } return rv; } nsresult nsXMLContentSink::ProcessEndSCRIPTTag(const nsIParserNode& aNode) { nsresult result = NS_OK; if (mInScript) { nsAutoString script; script.SetString(mText, mTextLength); result = EvaluateScript(script, mScriptLineNo); FlushText(PR_FALSE); mInScript = PR_FALSE; } return result; } #define SCRIPT_BUF_SIZE 1024 // XXX Stolen from nsHTMLContentSink. Needs to be shared. // Returns PR_TRUE if the language name is a version of JavaScript and // PR_FALSE otherwise static PRBool IsJavaScriptLanguage(const nsString& aName) { if (aName.EqualsIgnoreCase("JavaScript") || aName.EqualsIgnoreCase("LiveScript") || aName.EqualsIgnoreCase("Mocha")) { return PR_TRUE; } else if (aName.EqualsIgnoreCase("JavaScript1.1")) { return PR_TRUE; } else if (aName.EqualsIgnoreCase("JavaScript1.2")) { return PR_TRUE; } else if (aName.EqualsIgnoreCase("JavaScript1.3")) { return PR_TRUE; } else if (aName.EqualsIgnoreCase("JavaScript1.4")) { return PR_TRUE; } else { return PR_FALSE; } } static void nsDoneLoadingScript(nsIUnicharStreamLoader* aLoader, nsString& aData, void* aRef, nsresult aStatus) { nsXMLContentSink* sink = (nsXMLContentSink*)aRef; if (NS_OK == aStatus) { // XXX We have no way of indicating failure. Silently fail? sink->EvaluateScript(aData, 0); } sink->ResumeParsing(); // The url loader held a reference to the sink NS_RELEASE(sink); // We added a reference when the loader was created. This // release should destroy it. NS_RELEASE(aLoader); } nsresult nsXMLContentSink::ProcessStartSCRIPTTag(const nsIParserNode& aNode) { nsresult rv = NS_OK; PRBool isJavaScript = PR_TRUE; PRInt32 i, ac = aNode.GetAttributeCount(); // Look for SRC attribute and look for a LANGUAGE attribute nsAutoString src; for (i = 0; i < ac; i++) { const nsString& key = aNode.GetKeyAt(i); if (key.EqualsIgnoreCase("src")) { GetAttributeValueAt(aNode, i, src); } else if (key.EqualsIgnoreCase("type")) { nsAutoString type; GetAttributeValueAt(aNode, i, type); nsAutoString mimeType; nsAutoString params; SplitMimeType(type, mimeType, params); isJavaScript = mimeType.EqualsIgnoreCase("text/javascript"); } else if (key.EqualsIgnoreCase("language")) { nsAutoString lang; GetAttributeValueAt(aNode, i, lang); isJavaScript = IsJavaScriptLanguage(lang); } } // Don't process scripts that aren't JavaScript if (isJavaScript) { nsAutoString script; // If there is a SRC attribute... if (src.Length() > 0) { // Use the SRC attribute value to load the URL nsIURI* url = nsnull; nsAutoString absURL; #ifdef NECKO // XXX we need to get passed in the nsILoadGroup here! // nsILoadGroup* group = mDocument->GetDocumentLoadGroup(); rv = NS_NewURI(&url, src, mDocumentBaseURL); #else nsIURI* docURL = mDocument->GetDocumentURL(); nsILoadGroup* group = nsnull; rv = docURL->GetLoadGroup(&group); if ((NS_OK == rv) && group) { rv = group->CreateURL(&url, docURL, src, nsnull); NS_RELEASE(group); } else { rv = NS_NewURL(&url, absURL); } NS_RELEASE(docURL); #endif if (NS_OK != rv) { return rv; } // Add a reference to this since the url loader is holding // onto it as opaque data. NS_ADDREF(this); nsIUnicharStreamLoader* loader; nsCOMPtr loadGroup; mDocument->GetDocumentLoadGroup(getter_AddRefs(loadGroup)); rv = NS_NewUnicharStreamLoader(&loader, url, loadGroup, (nsStreamCompleteFunc)nsDoneLoadingScript, (void *)this); NS_RELEASE(url); if (NS_OK == rv) { rv = NS_ERROR_HTMLPARSER_BLOCK; } } else { // Wait until we get the script content mInScript = PR_TRUE; mConstrainSize = PR_FALSE; mScriptLineNo = (PRUint32)aNode.GetSourceLineNumber(); } } return rv; } nsresult nsXMLContentSink::RefreshIfEnabled(nsIViewManager* vm) { if (vm) { nsIContentViewer* contentViewer = nsnull; nsresult rv = mWebShell->GetContentViewer(&contentViewer); if (NS_SUCCEEDED(rv) && (contentViewer != nsnull)) { PRBool enabled; contentViewer->GetEnableRendering(&enabled); if (enabled) { vm->EnableRefresh(); } NS_RELEASE(contentViewer); } } return NS_OK; } //////////////////////////////////////////////////////////////////////// // // XML Element Factory // class XMLElementFactoryImpl : public nsIXMLElementFactory { protected: XMLElementFactoryImpl(); virtual ~XMLElementFactoryImpl(); public: friend nsresult NS_NewXMLElementFactory(nsIXMLElementFactory** aResult); // nsISupports interface NS_DECL_ISUPPORTS // nsIXMLElementFactory interface NS_IMETHOD CreateInstanceByTag(const nsString& aTag, nsIXMLContent** aResult); }; XMLElementFactoryImpl::XMLElementFactoryImpl() { NS_INIT_REFCNT(); } XMLElementFactoryImpl::~XMLElementFactoryImpl() { } NS_IMPL_ISUPPORTS(XMLElementFactoryImpl, NS_GET_IID(nsIXMLElementFactory)); nsresult NS_NewXMLElementFactory(nsIXMLElementFactory** aResult) { NS_PRECONDITION(aResult != nsnull, "null ptr"); if (! aResult) return NS_ERROR_NULL_POINTER; XMLElementFactoryImpl* result = new XMLElementFactoryImpl(); if (! result) return NS_ERROR_OUT_OF_MEMORY; NS_ADDREF(result); *aResult = result; return NS_OK; } NS_IMETHODIMP XMLElementFactoryImpl::CreateInstanceByTag(const nsString& aTag, nsIXMLContent** aResult) { nsCOMPtr tag = dont_AddRef(NS_NewAtom(aTag)); if (! tag) return NS_ERROR_OUT_OF_MEMORY; return NS_NewXMLElement(aResult, tag); }