void VJSGroup::_getParents( XBOX::VJSParms_callStaticFunction& ioParms, CUAGGroup* inGroup)
{
bool firstlevel = ioParms.GetBoolParam(1, "firstLevel", "allLevels");
CUAGGroupVector groups;
inGroup->RetainOwners(groups, firstlevel);
ioParms.ReturnValue(buildArrFromGroups(ioParms, groups, nil));
}
void VJSImage::_save(XBOX::VJSParms_callStaticFunction& ioParms, VJSPictureContainer* inPict)
{
VPictureCodecFactoryRef fact;
const VPictureCodec* encoder = nil;
bool ok = false;
VPicture* pic = inPict->GetPict();
if (pic != nil)
{
VFile* file = ioParms.RetainFileParam(1);
if (file != nil)
{
VString mimetype;
ioParms.GetStringParam(2, mimetype);
if (mimetype.IsEmpty())
{
VString extension;
file->GetExtension(extension);
if (extension.IsEmpty())
extension = L"pic";
encoder = fact->RetainEncoderForExtension(extension);
}
else
encoder = fact->RetainEncoderByIdentifier(mimetype);
if (encoder != nil)
{
VError err = VE_OK;
if (file->Exists())
err = file->Delete();
if (err == VE_OK)
{
VValueBag *pictureSettings = nil;
VValueBag *bagMetas = (VValueBag*)inPict->RetainMetaBag();
if (bagMetas != nil)
{
pictureSettings = new VValueBag();
ImageEncoding::stWriter settingsWriter(pictureSettings);
VValueBag *bagRetained = settingsWriter.CreateOrRetainMetadatas( bagMetas);
if (bagRetained)
bagRetained->Release();
}
err=encoder->Encode(*pic, pictureSettings, *file);
QuickReleaseRefCountable(bagMetas);
QuickReleaseRefCountable(pictureSettings);
if (err == VE_OK)
ok = true;
}
encoder->Release();
}
file->Release();
}
else
vThrowError(VE_JVSC_WRONG_PARAMETER_TYPE_FILE, "1");
}
ioParms.ReturnBool(ok);
}
void VJSGroup::_getUsers( XBOX::VJSParms_callStaticFunction& ioParms, CUAGGroup* inGroup)
{
bool firstlevel = ioParms.GetBoolParam(1, "firstLevel", "allLevels");
CUAGUserVector users;
inGroup->RetainUsers(users, firstlevel);
ioParms.ReturnValue(buildArrFromUsers(ioParms, users, nil));
}
void VJSGroup::_filterParents( XBOX::VJSParms_callStaticFunction& ioParms, CUAGGroup* inGroup)
{
VString s;
ioParms.GetStringParam(1,s);
s.AppendUniChar(ioParms.GetWildChar());
CUAGGroupVector groups;
bool firstlevel = ioParms.GetBoolParam(2, "firstLevel", "allLevels");
inGroup->RetainOwners(groups, firstlevel);
ioParms.ReturnValue(buildArrFromGroups(ioParms, groups, &s));
}
void VJSXMLHttpRequest::_Send(XBOX::VJSParms_callStaticFunction& ioParms, XMLHttpRequest* inXhr)
{
XBOX::VString pData;
bool resData;
resData=ioParms.GetStringParam(1, pData);
if(inXhr) //Data is optional, we don't care if it's not set
{
XBOX::VError impl_err=XBOX::VE_OK;
XBOX::VError res=inXhr->Send(pData, &impl_err);
if(res!=XBOX::VE_OK)
{
uLONG code=ERRCODE_FROM_VERROR(impl_err);
uLONG comp=COMPONENT_FROM_VERROR(impl_err);
//XBOX::VErrorBase* verrBase = new XBOX::VErrorBase ( impl_err, 0 );
//XBOX::VTask::GetCurrent ( )-> PushRetainedError ( verrBase );
//We may have an implementation error which might be documented
if(impl_err!=XBOX::VE_OK)
XBOX::vThrowError(impl_err);
//Now throw the more generic error
XBOX::vThrowError(res);
}
}
else
XBOX::vThrowError(VE_XHRQ_JS_BINDING_ERROR);
}
void VJSSharedWorkerClass::_IsRunning (XBOX::VJSParms_callStaticFunction &ioParms, void *)
{
XBOX::VString url, name;
if (!ioParms.GetStringParam(1, url))
XBOX::vThrowError(XBOX::VE_JVSC_WRONG_PARAMETER_TYPE_STRING, "1");
else if (!ioParms.GetStringParam(2, name))
XBOX::vThrowError(XBOX::VE_JVSC_WRONG_PARAMETER_TYPE_STRING, "2");
else
ioParms.ReturnBool(VJSWorker::IsSharedWorkerRunning(url, name));
}
void VJSRPCServiceCore::_setPublishGlobalNamespace( XBOX::VJSParms_callStaticFunction& ioParms, VRPCService *inService)
{
bool publishGlobalNamespace = false;
if (ioParms.GetBoolParam( 1, &publishGlobalNamespace))
{
inService->SetPublishInClientGlobalNamespace( publishGlobalNamespace);
}
}
void VJSRPCServiceCore::_setPatternForProxy( XBOX::VJSParms_callStaticFunction& ioParms, VRPCService *inService)
{
VString pattern;
if (ioParms.GetStringParam( 1, pattern))
{
inService->SetPatternForProxy( pattern);
}
}
void VJSImage::_thumbnail(XBOX::VJSParms_callStaticFunction& ioParms, VJSPictureContainer* inPict)
{
bool ok = true;
if (!ioParms.IsNumberParam(1))
{
ok = false;
vThrowError(VE_JVSC_WRONG_PARAMETER_TYPE_NUMBER, "1");
}
if (!ioParms.IsNumberParam(2))
{
ok = false;
vThrowError(VE_JVSC_WRONG_PARAMETER_TYPE_NUMBER, "2");
}
VPicture* pic = inPict->GetPict();
if (pic != nil && ok)
{
sLONG w = 0, h = 0, mode = 0;
ioParms.GetLongParam(1, &w);
ioParms.GetLongParam(2, &h);
ioParms.GetLongParam(3, &mode);
if (w == 0)
w = 300;
if (h == 0)
h = 300;
if (mode == 0)
mode = 4;
VPicture* thumb = pic->BuildThumbnail(w, h, (PictureMosaic)mode);
if (thumb != nil)
{
VPictureCodecFactoryRef fact;
VPicture* thumb2 = new VPicture();
VError err = fact->Encode(*thumb, L".jpg", *thumb2, nil);
if (err == VE_OK)
{
/*
VJSPictureContainer* pictContains = new VJSPictureContainer(thumb2, true, ioParms.GetContextRef());
ioParms.ReturnValue(VJSImage::CreateInstance(ioParms.GetContextRef(), pictContains));
pictContains->Release();
*/
ioParms.ReturnVValue(*thumb2);
delete thumb2;
}
else
{
delete thumb2;
ioParms.ReturnNullValue();
}
delete thumb;
}
else
ioParms.ReturnNullValue();
}
else
ioParms.ReturnNullValue();
}
void VJSXMLHttpRequest::_SetRequestHeader(XBOX::VJSParms_callStaticFunction& ioParms, XMLHttpRequest* inXhr)
{
XBOX::VString pHeader;
XBOX::VString pValue;
bool resHeader=ioParms.GetStringParam(1, pHeader);
bool resValue=ioParms.GetStringParam(2, pValue);
if(resHeader && resValue && inXhr)
{
XBOX::VError res=inXhr->SetRequestHeader(pHeader, pValue);
if(res!=XBOX::VE_OK)
XBOX::vThrowError(res);
}
else
XBOX::vThrowError(VE_XHRQ_JS_BINDING_ERROR);
}
void VJSNetServerObject::Address(XBOX::VJSParms_callStaticFunction &ioParms, VJSNetServerObject *inServer)
{
xbox_assert(inServer != NULL);
XBOX::VJSObject object(ioParms.GetContext());
object.MakeEmpty();
object.SetProperty("address", inServer->fAddress);
object.SetProperty("port", inServer->fPort);
}
void VJSImage::_getPath(XBOX::VJSParms_callStaticFunction& ioParms, VJSPictureContainer* inPict)
{
VPicture* pic = inPict->GetPict();
if (pic != nil)
{
VString path;
pic->GetOutsidePath(path);
ioParms.ReturnString(path);
}
}
void VJSDedicatedWorkerClass::_terminate (XBOX::VJSParms_callStaticFunction &ioParms, VJSWebWorkerObject *inDedicatedWorker)
{
xbox_assert(inDedicatedWorker != NULL);
VJSWorker *outsideWorker = VJSWorker::RetainWorker(ioParms.GetContext());
VJSWorker *insideWorker = inDedicatedWorker->fOnMessagePort->GetOther(outsideWorker);
insideWorker->Terminate();
XBOX::ReleaseRefCountable<VJSWorker>(&outsideWorker);
}
void VJSMessagePort::PostMessageMethod (XBOX::VJSParms_callStaticFunction &ioParms, VJSMessagePort *inMessagePort)
{
xbox_assert(inMessagePort != NULL);
if (ioParms.CountParams() < 1) {
XBOX::vThrowError(XBOX::VE_INVALID_PARAMETER);
return;
}
VJSWorker *worker = VJSWorker::RetainWorker(ioParms.GetContext());
XBOX::VJSValue value = ioParms.GetParamValue(1);
VJSStructuredClone *message = VJSStructuredClone::RetainClone(value);
inMessagePort->PostMessage(inMessagePort->GetOther(worker), message);
XBOX::ReleaseRefCountable<VJSStructuredClone>(&message);
XBOX::ReleaseRefCountable<VJSWorker>(&worker);
}
void VJSNetServerClass::_pause (XBOX::VJSParms_callStaticFunction &ioParms, VJSNetServerObject *inServer)
{
xbox_assert(inServer != NULL);
sLONG waitingTime; // In milliseconds.
if (!ioParms.CountParams())
waitingTime = 1;
else if (ioParms.CountParams() != 1 || !ioParms.IsNumberParam(1) || !ioParms.GetLongParam(1, &waitingTime)) {
XBOX::vThrowError(XBOX::VE_JVSC_WRONG_PARAMETER_TYPE_NUMBER, "1");
return;
}
// Need support from VTCPConnectionListener.
XBOX::vThrowError(XBOX::VE_JVSC_UNSUPPORTED_FUNCTION, "net.Server.pause()");
}
void VJSXMLHttpRequest::_GetAllResponseHeaders(XBOX::VJSParms_callStaticFunction& ioParms, XMLHttpRequest* inXhr)
{
if(inXhr)
{
XBOX::VString value;
XBOX::VError res=inXhr->GetAllResponseHeaders(&value);
//returns an empty string on error
ioParms.ReturnString(value);
}
else
XBOX::vThrowError(VE_XHRQ_JS_BINDING_ERROR);
}
void VJSXMLHttpRequest::_GetResponseHeader(XBOX::VJSParms_callStaticFunction& ioParms, XMLHttpRequest* inXhr)
{
XBOX::VString pHeader;
bool resHeader;
resHeader=ioParms.GetStringParam(1, pHeader);
if(resHeader && inXhr)
{
XBOX::VString value;
XBOX::VError res;
res=inXhr->GetResponseHeader(pHeader, &value);
//Don't throw any error here, but returns null
if(res==XBOX::VE_OK)
ioParms.ReturnString(value);
else
ioParms.ReturnNullValue();
}
else
XBOX::vThrowError(VE_XHRQ_JS_BINDING_ERROR);
}
void VJSXMLHttpRequest::_Open(XBOX::VJSParms_callStaticFunction& ioParms, XMLHttpRequest* inXhr)
{
XBOX::VString pMethod;
bool resMethod;
resMethod=ioParms.GetStringParam(1, pMethod);
XBOX::VString pUrl;
bool resUrl; //jmo - todo : Verifier les longueurs max d'une chaine et d'une URL
resUrl=ioParms.GetStringParam(2, pUrl);
bool pAsync;
bool resAsync;
resAsync=ioParms.GetBoolParam(3, &pAsync);
if(resMethod && resUrl && inXhr)
{
XBOX::VError res=inXhr->Open(pMethod, pUrl, pAsync); //ASync is optional, we don't care if it's not set
if(res!=XBOX::VE_OK)
XBOX::vThrowError(res);
}
else
XBOX::vThrowError(VE_XHRQ_JS_BINDING_ERROR);
}
void VJSDedicatedWorkerClass::_terminate (XBOX::VJSParms_callStaticFunction &ioParms, VJSWebWorkerObject *inDedicatedWorker)
{
xbox_assert(inDedicatedWorker != NULL);
VJSWorker *outsideWorker = VJSWorker::RetainWorker(ioParms.GetContext());
VJSWorker *insideWorker = inDedicatedWorker->fOnMessagePort->GetOther(outsideWorker);
//**
// ACI0081079:
//
// Defensive programming, check pointer is not NULL. Pending definitive fix (and architecture overall in WAK5).
// insideWorker should never be NULL !
if (insideWorker != NULL)
insideWorker->Terminate();
//**
XBOX::ReleaseRefCountable<VJSWorker>(&outsideWorker);
}
void VJSLanguageSyntaxTester::_GetSyntaxColoring( XBOX::VJSParms_callStaticFunction &ioParams, void * )
{
// We expect two parameters -- the extension for the type of information we have (js, html, etc) and
// a line of text to be colored. We will perform the coloring, and return back to the user a list
// of objects that contain the style information.
if (ioParams.CountParams() < 2) return;
VString extension, data;
if (!ioParams.GetStringParam( 1, extension )) return;
if (!ioParams.GetStringParam( 2, data )) return;
CLanguageSyntaxComponent *languageSyntax = (CLanguageSyntaxComponent *)VComponentManager::RetainComponent( (CType)CLanguageSyntaxComponent::Component_Type );
if (!languageSyntax) return;
ISyntaxInterface *syntaxEngine = languageSyntax->GetSyntaxByExtension( extension );
if (syntaxEngine) {
// Now that we've got the syntax engine, we can ask it for the coloring information
std::vector< size_t > offsets;
std::vector< size_t > lengths;
std::vector< sLONG > styles;
syntaxEngine->GetColoringForTesting( data, offsets, lengths, styles );
// Loop over the returned results, turning them into a vector of VJSValue objects
std::vector< VJSValue > results;
std::vector< JSColorResult * > releaseList;
for (size_t i = 0; i < offsets.size(); i++) {
JSColorResult *result = new JSColorResult( offsets[ i ], lengths[ i ], styles[ i ] );
releaseList.push_back( result );
results.push_back( VJSLanguageSyntaxTesterColorResults::CreateInstance( ioParams.GetContextRef(), result ) );
}
// Return an array of our results
VJSArray arr( ioParams.GetContextRef() );
arr.PushValues( results );
ioParams.ReturnValue( arr );
for (std::vector< JSColorResult * >::iterator iter = releaseList.begin(); iter != releaseList.end(); ++iter) {
(*iter)->Release();
}
}
languageSyntax->Release();
}
void VJSLanguageSyntaxTester::_Tokenize( XBOX::VJSParms_callStaticFunction &ioParams, void * )
{
// We are expecting 2 JavaScript parameters:
// - source code to tokenize
// - extension of the fake file
VString sourceCode, extension;
if (ioParams.CountParams() == 2)
{
if (!ioParams.GetStringParam( 1, sourceCode )) return;
if (!ioParams.GetStringParam( 2, extension )) return;
}
else
return;
CLanguageSyntaxComponent *languageSyntax = (CLanguageSyntaxComponent *)VComponentManager::RetainComponent( (CType)CLanguageSyntaxComponent::Component_Type );
if (languageSyntax)
{
ISyntaxInterface *syntaxEngine = languageSyntax->GetSyntaxByExtension( extension );
if (syntaxEngine)
{
VectorOfVString tokens;
syntaxEngine->GetTokensForTesting(sourceCode, tokens);
VJSArray result( ioParams.GetContextRef() );
VJSValue jsval(ioParams.GetContextRef());
for (VectorOfVString::const_iterator it = tokens.begin(); it != tokens.end(); ++it)
{
jsval.SetString(*it);
result.PushValue(jsval);
}
ioParams.ReturnValue(result);
}
languageSyntax->Release();
}
}
void VJSImage::_setPath(XBOX::VJSParms_callStaticFunction& ioParms, VJSPictureContainer* inPict)
{
VPicture* pic = inPict->GetPict();
VString path;
if (pic != nil)
{
if (ioParms.CountParams() == 0 || ioParms.IsNullParam(1))
{
pic->SetOutsidePath(""); // empty string means no outside
}
else if (ioParms.IsBooleanParam(1))
{
pic->SetOutsidePath("*");
}
else if (ioParms.IsStringParam(1))
{
ioParms.GetStringParam(1, path);
pic->SetOutsidePath(path);
if (!path.IsEmpty())
pic->ReloadFromOutsidePath();
}
else
{
VFile* file = ioParms.RetainFileParam(1);
if (file != nil)
{
file->GetPath(path, FPS_POSIX);
pic->SetOutsidePath(path);
if (file->Exists())
pic->ReloadFromOutsidePath();
}
else
pic->SetOutsidePath("");
QuickReleaseRefCountable(file);
}
//inPict->SetModif();
}
}
void VJSImage::_saveMeta(XBOX::VJSParms_callStaticFunction& ioParms, VJSPictureContainer* inPict)
{
VPicture* pic = inPict->GetPict();
if (pic != nil)
{
bool okmeta = false;
VString jsonString;
if (ioParms.IsObjectParam(1))
{
VJSObject metadata(ioParms.GetContextRef());
ioParms.GetParamObject(1, metadata);
okmeta = true;
VJSJSON json(ioParms.GetContextRef());
json.Stringify(metadata, jsonString);
}
else
{
if (inPict->MetaInfoInited())
{
okmeta = true;
VJSValue metadata(ioParms.GetContextRef(), inPict->GetMetaInfo());
VJSJSON json(ioParms.GetContextRef());
json.Stringify(metadata, jsonString);
}
}
if (okmeta)
{
VValueBag* bag = new VValueBag();
bag->FromJSONString(jsonString);
inPict->SetMetaBag(bag);
QuickReleaseRefCountable(bag);
}
//inPict->SetModif();
}
}
void VJSNetServerSyncClass::_accept (XBOX::VJSParms_callStaticFunction &ioParms, VJSNetServerObject *inServer)
{
xbox_assert(inServer != NULL);
sLONG timeOut;
if (ioParms.CountParams() >= 1) {
if (!ioParms.IsNumberParam(1) || !ioParms.GetLongParam(1, &timeOut)) {
XBOX::vThrowError(XBOX::VE_JVSC_WRONG_PARAMETER_TYPE_NUMBER, "1");
return;
}
if (timeOut < 0) {
XBOX::vThrowError(XBOX::VE_JVSC_WRONG_PARAMETER_TYPE_NUMBER, "1");
return;
}
} else
timeOut = 0;
XBOX::XTCPSock *socket;
// If socket returned is NULL, accept() has timed out or an error has occured.
// An exception is thrown by GetNewConnectedSocket() if erroneous.
if ((socket = inServer->fSockListener->GetNewConnectedSocket(timeOut)) == NULL)
ioParms.ReturnNullValue();
else {
XBOX::VTCPEndPoint *endPoint = NULL;
VJSNetSocketObject *socketObject = NULL;
if ((endPoint = new XBOX::VTCPEndPoint(socket)) == NULL
|| (socketObject = new VJSNetSocketObject(true, VJSNetSocketObject::eTYPE_TCP4, false)) == NULL) {
if (endPoint != NULL)
endPoint->Release();
if (socketObject != NULL)
socketObject->Release();
socket->Close();
delete socket;
XBOX::vThrowError(XBOX::VE_MEMORY_FULL);
} else {
socketObject->fEndPoint = endPoint;
socketObject->fEndPoint->SetNoDelay(false);
XBOX::VJSObject newSocketSync = VJSNetSocketSyncClass::CreateInstance(ioParms.GetContext(), socketObject);
XBOX::VString address;
socketObject->fObjectRef = newSocketSync.GetObjectRef();
socketObject->fWorker = VJSWorker::RetainWorker(ioParms.GetContext());
socketObject->fEndPoint->GetIP(address);
newSocketSync.SetProperty("remoteAddress", address);
newSocketSync.SetProperty("remotePort", (sLONG) socketObject->fEndPoint->GetPort() & 0xffff);
ioParms.ReturnValue(newSocketSync);
}
}
}
void VJSNetServerSyncClass::_listen (XBOX::VJSParms_callStaticFunction &ioParms, VJSNetServerObject *inServer)
{
xbox_assert(inServer != NULL);
sLONG port;
if (ioParms.CountParams() >= 1) {
if (!ioParms.IsNumberParam(1) || !ioParms.GetLongParam(1, &port)) {
XBOX::vThrowError(XBOX::VE_JVSC_WRONG_PARAMETER_TYPE_NUMBER, "1");
return;
}
} else
port = 0; // Will use a random port (useful?).
// Re-use code of async listen().
#if WITH_DEPRECATED_IPV4_API
uLONG address;
if (ioParms.CountParams() >= 2) {
XBOX::VString hostname;
if (!ioParms.IsStringParam(2) || !ioParms.GetStringParam(2, hostname)) {
XBOX::vThrowError(XBOX::VE_JVSC_WRONG_PARAMETER_TYPE_STRING, "2");
return;
}
address = XBOX::ServerNetTools::ResolveAddress(hostname);
} else
address = 0; // Same as "localhost".
#else
//jmo - je ne comprends pas bien la logique du resolve sur le hostname...
// On veut une IP 'publique' ? J'ai simplifié.
VString address=VNetAddress::GetAnyIP();
#endif
// We are already listening, stop previous listener.
if (inServer->fConnectionListener != NULL)
inServer->Close();
// Setup new listener.
if ((inServer->fSockListener = new XBOX::VSockListener()) == NULL) {
XBOX::vThrowError(XBOX::VE_MEMORY_FULL);
return;
}
XBOX::VError error;
error = XBOX::VE_OK;
if (inServer->fIsSSL)
error = inServer->fSockListener->SetKeyAndCertificate(inServer->fKey, inServer->fCertificate);
if (error != XBOX::VE_OK) {
inServer->Close();
XBOX::vThrowError(error);
}
else if (!inServer->fSockListener->SetBlocking(true)
|| !inServer->fSockListener->AddListeningPort(address, port, inServer->fIsSSL)
|| !inServer->fSockListener->StartListening()) {
inServer->Close();
XBOX::vThrowError(XBOX::VE_SRVR_FAILED_TO_CREATE_LISTENING_SOCKET);
}
else {
inServer->fAddress = address;
inServer->fPort = port;
}
}
void VJSLanguageSyntaxTester::_GetCompletions( XBOX::VJSParms_callStaticFunction &ioParams, void * )
{
// We are expecting 5 parameters for JavaScript. One for the path to the symbol table, one for the path to the test file (which
// must already be a part of the symbol table), one for the line number within the file, one for the string that
// we are going to be completing at that point and one for the completion mode. If we get only three parameters, then it's a CSS completion test, which is
// fine -- we just modify the parameters we pass into GetSuggestionsForTesting.
VString symTablePathStr, testFilePathStr, completionString, completionModeStr;
sLONG completionLocation;
if (ioParams.CountParams() == 5) {
if (!ioParams.GetStringParam( 1, symTablePathStr )) return;
if (!ioParams.GetStringParam( 2, completionString )) return;
if (!ioParams.GetStringParam( 3, testFilePathStr )) return;
if (!ioParams.GetLongParam( 4, &completionLocation )) return;
if (!ioParams.GetStringParam( 5, completionModeStr )) return;
} else if (ioParams.CountParams() == 3) {
bool curlyBraces;
if (!ioParams.GetStringParam( 1, completionString )) return;
if (!ioParams.GetBoolParam( 2, &curlyBraces )) return;
if (!ioParams.GetStringParam( 3, testFilePathStr )) return;
// We fudge the completion location information when working with CSS files so that it
// denotes whether we're inside of curly braces or not.
completionLocation = curlyBraces ? 1 : 0;
} else {
return;
}
VFilePath symbolTablePath( symTablePathStr, FPS_POSIX);
VFilePath testFilePath( testFilePathStr, FPS_POSIX);
if ( ! symbolTablePath.IsValid() || ! testFilePath.IsValid() )
return;
EJSCompletionTestingMode completionMode;
if (completionModeStr == "text")
completionMode = eText;
else if (completionModeStr == "displayText")
completionMode = eDisplayText;
else
return;
CLanguageSyntaxComponent *languageSyntax = (CLanguageSyntaxComponent *)VComponentManager::RetainComponent( (CType)CLanguageSyntaxComponent::Component_Type );
if (languageSyntax)
{
// First, load up the symbol table as an actual table instead of just a path string
ISymbolTable *symTable = NULL;
if (!symTablePathStr.IsEmpty())
{
symTable = languageSyntax->CreateSymbolTable();
if ( symTable )
{
VFile file(symbolTablePath);
if (symTable->OpenSymbolDatabase( file ))
{
// Now that we have all of the parameters grabbed, we can figure out which language syntax engine
// we want to load up (based on the test file), and ask it to give us completions. We can then take
// those completions and turn them into an array of values to pass back to the caller.
VString extension;
testFilePath.GetExtension( extension );
ISyntaxInterface *syntaxEngine = languageSyntax->GetSyntaxByExtension( extension );
if (syntaxEngine)
{
// Now that we've got the syntax engine, we can ask it for the completions we need
std::vector< VString > suggestions;
syntaxEngine->GetSuggestionsForTesting( completionString, symTable, testFilePath.GetPath() , completionLocation, completionMode, suggestions );
JSResult *results = new JSResult( suggestions );
ioParams.ReturnValue( VJSLanguageSyntaxTesterResults::CreateInstance( ioParams.GetContextRef(), results ) );
results->Release();
}
}
symTable->Release();
}
}
languageSyntax->Release();
}
}
void VJSNetServerClass::_listen (XBOX::VJSParms_callStaticFunction &ioParms, VJSNetServerObject *inServer)
{
xbox_assert(inServer != NULL);
XBOX::VString address;
sLONG port;
if (!ioParms.CountParams()) {
XBOX::vThrowError(XBOX::VE_JVSC_EXPECTING_PARAMETER, "net.Server.listen()");
return;
}
if (!ioParms.IsNumberParam(1) || !ioParms.GetLongParam(1, &port)) {
XBOX::vThrowError(XBOX::VE_JVSC_WRONG_PARAMETER_TYPE_NUMBER, "1");
return;
}
XBOX::VString hostname;
XBOX::VJSObject callback(ioParms.GetContext());
bool hasCallback;
hostname = "";
hasCallback = false;
if (ioParms.CountParams() >= 2) {
if (ioParms.IsStringParam(2)) {
if (!ioParms.GetStringParam(2, hostname)) {
XBOX::vThrowError(XBOX::VE_JVSC_WRONG_PARAMETER_TYPE_STRING, "2");
return;
}
} else if (ioParms.IsObjectParam(2) && ioParms.GetParamFunc(2, callback)) {
hasCallback = true;
} else {
XBOX::vThrowError(XBOX::VE_JVSC_WRONG_PARAMETER_TYPE_FUNCTION, "2");
return;
}
}
if (ioParms.CountParams() == 3 ) {
if ((hasCallback || !ioParms.IsObjectParam(3) || !ioParms.GetParamFunc(3, callback))) {
XBOX::vThrowError(XBOX::VE_JVSC_WRONG_PARAMETER_TYPE_FUNCTION, "3");
return;
} else
hasCallback = true;
}
// We are already listening, stop previous listener.
if (inServer->fConnectionListener != NULL)
inServer->Close();
// Set up listener.
if ((inServer->fConnectionListener = new XBOX::VTCPConnectionListener())== NULL) {
XBOX::vThrowError(XBOX::VE_MEMORY_FULL);
return;
}
if (inServer->fIsSSL)
inServer->fConnectionListener->SetSSLKeyAndCertificate(inServer->fCertificate, inServer->fKey);
VJSNetSocketObject::sMutex.Lock();
if (VJSNetSocketObject::sSelectIOPool == NULL)
VJSNetSocketObject::sSelectIOPool = new XBOX::VTCPSelectIOPool();
VJSNetSocketObject::sMutex.Unlock();
inServer->fConnectionListener->AddSelectIOPool(VJSNetSocketObject::sSelectIOPool);
VJSWorker *worker;
worker = VJSWorker::RetainWorker(ioParms.GetContext());
VJSConnectionHandlerFactory *connectionHandlerFactory;
if ((connectionHandlerFactory = new VJSConnectionHandlerFactory(worker, inServer, inServer->fIsSSL)) == NULL) {
XBOX::vThrowError(XBOX::VE_MEMORY_FULL);
XBOX::ReleaseRefCountable<VJSWorker>(&worker);
return;
}
#if WITH_DEPRECATED_IPV4_API
sLONG resolvedAddress;
if (hostname.GetLength()) {
address = hostname;
resolvedAddress = XBOX::ServerNetTools::ResolveAddress(hostname);
} else {
address = "0.0.0.0";
std::vector<IP4> localIPs;
if (XBOX::ServerNetTools::GetLocalIPv4Addresses(localIPs))
resolvedAddress = localIPs[0];
else
resolvedAddress = 0; // Should be same as above.
}
connectionHandlerFactory->SetIP(resolvedAddress);
#else
XBOX::VNetAddressList addrList;
bool isIPv6;
if (hostname.GetLength()) {
XBOX::VNetAddress addr(hostname, port);
isIPv6 = addr.IsV6();
addrList.FromDnsQuery(hostname, port);
} else {
addrList.FromLocalInterfaces();
isIPv6 = false;
}
// Always take first matching type address.
XBOX::VNetAddressList::const_iterator it;
for (it = addrList.begin(); it != addrList.end(); it++)
if ((*it).IsV6() == isIPv6)
break;
address = (*it).GetIP();
connectionHandlerFactory->SetIP(address);
#endif
connectionHandlerFactory->AddNewPort(port);
XBOX::VError error;
error = inServer->fConnectionListener->AddConnectionHandlerFactory(connectionHandlerFactory);
connectionHandlerFactory->Release(); // AddConnectionHandlerFactory() has done a retain().
if (error != XBOX::VE_OK
|| (error = inServer->fConnectionListener->StartListening()) != XBOX::VE_OK)
XBOX::vThrowError(error);
else {
inServer->fAddress = address;
inServer->fPort = port;
if (hasCallback)
inServer->AddListener("listening", callback, false);
worker->QueueEvent(VJSNetEvent::Create(inServer, "listening"));
}
XBOX::ReleaseRefCountable<VJSWorker>(&worker);
}
void VJSLanguageSyntaxTester::_GetSymbol( XBOX::VJSParms_callStaticFunction &ioParams, void * )
{
// We are expecting 4 JavaScript parameters:
// - path to the symbol table
// - symbol name
// - symbol definition file
// - symbol definition line number
VString symTablePathStr, symbolName, symbolDefPath;
sLONG symbolDefLineNumber;
if (ioParams.CountParams() == 4) {
if (!ioParams.GetStringParam( 1, symTablePathStr )) return;
if (!ioParams.GetStringParam( 2, symbolName )) return;
if (!ioParams.GetStringParam( 3, symbolDefPath )) return;
if (!ioParams.GetLongParam( 4, &symbolDefLineNumber )) return;
}
else
return;
VFilePath symbolTablePath( symTablePathStr, FPS_POSIX);
VFilePath symbolDefFilePath( symbolDefPath, FPS_POSIX);
if ( ! symbolTablePath.IsValid() || ! symbolDefFilePath.IsValid() )
return;
CLanguageSyntaxComponent *languageSyntax = (CLanguageSyntaxComponent *)VComponentManager::RetainComponent( (CType)CLanguageSyntaxComponent::Component_Type );
if (languageSyntax)
{
// First, load up the symbol table as an actual table instead of just a path string
ISymbolTable *symTable = NULL;
if (!symTablePathStr.IsEmpty())
{
symTable = languageSyntax->CreateSymbolTable();
if (symTable)
{
VFile file(symbolTablePath);
if (symTable->OpenSymbolDatabase( file ))
{
// Get symbol file
std::vector< Symbols::IFile * > files = symTable->GetFilesByPathAndBaseFolder( symbolDefFilePath, eSymbolFileBaseFolderProject );
if ( ! files.empty() )
{
Symbols::IFile *file = files.front();
file->Retain();
for (std::vector< Symbols::IFile * >::iterator iter = files.begin(); iter != files.end(); ++iter)
(*iter)->Release();
// Gets symbol corresponding to given parameters
Symbols::ISymbol* owner = symTable->GetSymbolOwnerByLine(file, symbolDefLineNumber);
Symbols::ISymbol* sym = NULL;
if (NULL != owner && owner->GetName() == symbolName)
{
sym = owner;
sym->Retain();
}
if (NULL == sym)
{
std::vector< Symbols::ISymbol * > syms = symTable->GetSymbolsByName(owner, symbolName,file);
for (std::vector< Symbols::ISymbol * >::iterator iter = syms.begin(); iter != syms.end(); ++iter)
{
if ( ( (*iter)->GetLineNumber() + 1 ) == symbolDefLineNumber )
{
sym = *iter;
(*iter)->Retain();
}
(*iter)->Release();
}
}
if (NULL != sym)
{
VJSObject result(ioParams.GetContextRef());
VJSValue jsval(ioParams.GetContextRef());
VString signature;
symTable->GetSymbolSignature( sym, signature );
result.MakeEmpty();
jsval.SetString( sym->GetName() );
result.SetProperty(L"name", jsval, JS4D::PropertyAttributeNone);
jsval.SetString( sym->GetTypeName() );
result.SetProperty(L"type", jsval, JS4D::PropertyAttributeNone);
jsval.SetNumber( sym->GetLineNumber() + 1 );
result.SetProperty(L"line", jsval, JS4D::PropertyAttributeNone);
jsval.SetString( signature );
result.SetProperty(L"signature", jsval, JS4D::PropertyAttributeNone);
jsval.SetString( sym->GetKindString() );
result.SetProperty(L"kind", jsval, JS4D::PropertyAttributeNone);
ioParams.ReturnValue(result);
sym->Release();
}
if (NULL != owner)
owner->Release();
file->Release();
}
}
symTable->Release();
}
}
languageSyntax->Release();
}
}
void VJSLanguageSyntaxTester::_ParseFile( XBOX::VJSParms_callStaticFunction &ioParams, void * )
{
// The caller has passed us the path to the symbol table and the path to the file to be
// parsed. We want to parse that file and then return back to the caller once the
// parsing is complete.
// We are expecting 4 parameters. One for the path to the symbol table,
// one for the path to the test file
if (ioParams.CountParams() < 4) return;
VString symTablePathStr, testFilePathStr, testFileBaseFolderStr, testFileExecContextStr;
if (!ioParams.GetStringParam( 1, symTablePathStr )) return;
if (!ioParams.GetStringParam( 2, testFilePathStr )) return;
if (!ioParams.GetStringParam( 3, testFileBaseFolderStr )) return;
if (!ioParams.GetStringParam( 4, testFileExecContextStr )) return;
VFilePath testFilePath( testFilePathStr, FPS_POSIX);
if ( ! testFilePath.IsValid() )
return;
ESymbolFileBaseFolder baseFolder;
ESymbolFileExecContext execContext;
// Get file base folder
if (testFileBaseFolderStr == CVSTR("project"))
baseFolder = eSymbolFileBaseFolderProject;
else if (testFileBaseFolderStr == CVSTR("jsf"))
baseFolder = eSymbolFileBaseFolderStudio;
else
return;
// Get file execution context
if (testFileExecContextStr == CVSTR("client"))
execContext = eSymbolFileExecContextClient;
else if (testFileExecContextStr == CVSTR("server"))
execContext = eSymbolFileExecContextServer;
else if (testFileExecContextStr == CVSTR("both"))
execContext = eSymbolFileExecContextClientServer;
else
return;
VFilePath symbolTablePath( symTablePathStr, FPS_POSIX);
if ( ! symbolTablePath.IsValid() )
return;
CLanguageSyntaxComponent *languageSyntax = (CLanguageSyntaxComponent *)VComponentManager::RetainComponent( (CType)CLanguageSyntaxComponent::Component_Type );
if (languageSyntax)
{
// First, load up the symbol table as an actual table instead of just a path string
ISymbolTable *symTable = languageSyntax->CreateSymbolTable();
if (symTable)
{
VFile file(symbolTablePath);
if (symTable->OpenSymbolDatabase( file))
{
IDocumentParserManager *parserManager = languageSyntax->CreateDocumentParserManager();
// Limit parser waiter scope as destructor will disconnect parsing signal
{
ParsingWaiter waiter( parserManager);
VString extension;
testFilePath.GetExtension(extension);
if ( extension == CVSTR("waModel") )
{
VLanguageSyntaxTesterCatalog* catalog = new VLanguageSyntaxTesterCatalog( testFilePath );
parserManager->ScheduleTask( (const void *)0xFEEDFACE, catalog, waiter.GetCookie(), symTable, IDocumentParserManager::kPriorityAboveNormal);
catalog->Release();
}
else
{
VSymbolFileInfos fileInfos(testFilePath, baseFolder, execContext);
parserManager->ScheduleTask( (const void *)0xFEEDFACE, /* Just needs to be unique per scheduler, but since this is a static method, there is no this pointer*/
fileInfos, waiter.GetCookie(), symTable, IDocumentParserManager::kPriorityAboveNormal );
}
waiter.Wait();
}
parserManager->Release();
}
symTable->Release();
}
languageSyntax->Release();
}
}
void VJSLanguageSyntaxTester::_GotoDefinition( XBOX::VJSParms_callStaticFunction &ioParams, void * )
{
VString filePathStr, symTablePathStr, selectionStr;
sLONG line = 0;
if (ioParams.CountParams() == 4)
{
if (!ioParams.GetStringParam( 1, symTablePathStr )) return;
if (!ioParams.GetStringParam( 2, filePathStr )) return;
if (!ioParams.GetLongParam( 3, &line )) return;
if (!ioParams.GetStringParam( 4, selectionStr )) return;
}
else
return;
VFilePath symbolTablePath( symTablePathStr, FPS_POSIX);
VFilePath filePath( filePathStr, FPS_POSIX);
if ( ! symbolTablePath.IsValid() || ! filePath.IsValid() )
return;
if ( line < 1 )
return;
CLanguageSyntaxComponent *languageSyntax = (CLanguageSyntaxComponent *)VComponentManager::RetainComponent( (CType)CLanguageSyntaxComponent::Component_Type );
if (languageSyntax)
{
// First, load up the symbol table as an actual table instead of just a path string
ISymbolTable *symTable = NULL;
if (!symTablePathStr.IsEmpty())
{
symTable = languageSyntax->CreateSymbolTable();
if (symTable)
{
VFile file(symbolTablePath);
if (symTable->OpenSymbolDatabase( file ))
{
// Now that we have all of the parameters grabbed, we can figure out which language syntax engine
// we want to load up (based on the test file), and ask it to give us completions. We can then take
// those completions and turn them into an array of values to pass back to the caller.
VString extension;
filePath.GetExtension( extension );
ISyntaxInterface *syntaxEngine = languageSyntax->GetSyntaxByExtension( extension );
if (syntaxEngine)
{
// Now that we've got the syntax engine, we can ask it for the completions we need
std::vector< IDefinition > definitions;
syntaxEngine->GetDefinitionsForTesting( selectionStr, symTable, filePath.GetPath(), line, definitions );
JSDefinitionResult *results = new JSDefinitionResult( definitions );
ioParams.ReturnValue( VJSLanguageSyntaxTesterDefinitionResults::CreateInstance( ioParams.GetContextRef(), results ) );
results->Release();
}
}
symTable->Release();
}
}
languageSyntax->Release();
}
}