gecko-dev/dom/plugins/test/testplugin/nptest.cpp

3820 строки
109 KiB
C++

/* ***** BEGIN LICENSE BLOCK *****
*
* Copyright (c) 2008, Mozilla Corporation
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* * Redistributions of source code must retain the above copyright notice, this
* list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
* * Neither the name of the Mozilla Corporation nor the names of its
* contributors may be used to endorse or promote products derived from this
* software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR
* ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON
* ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
* Contributor(s):
* Dave Townsend <dtownsend@oxymoronical.com>
* Josh Aas <josh@mozilla.com>
*
* ***** END LICENSE BLOCK ***** */
#include "nptest.h"
#include "nptest_utils.h"
#include "nptest_platform.h"
#include "mozilla/IntentionalCrash.h"
#include <stdlib.h>
#include <string.h>
#include <stdio.h>
#include <iostream>
#include <string>
#include <sstream>
#include <list>
#include <ctime>
#ifdef XP_WIN
#include <process.h>
#include <float.h>
#include <windows.h>
#define getpid _getpid
#define strcasecmp _stricmp
#else
#include <unistd.h>
#include <pthread.h>
#endif
#include "mozilla/NullPtr.h"
using namespace std;
#define PLUGIN_VERSION "1.0.0.0"
#define ARRAY_LENGTH(a) (sizeof(a)/sizeof(a[0]))
#define STATIC_ASSERT(condition) \
extern void np_static_assert(int arg[(condition) ? 1 : -1])
extern const char *sPluginName;
extern const char *sPluginDescription;
static char sPluginVersion[] = PLUGIN_VERSION;
//
// Intentional crash
//
int gCrashCount = 0;
static void Crash()
{
int *pi = nullptr;
*pi = 55; // Crash dereferencing null pointer
++gCrashCount;
}
static void
IntentionalCrash()
{
mozilla::NoteIntentionalCrash("plugin");
Crash();
}
//
// static data
//
static NPNetscapeFuncs* sBrowserFuncs = nullptr;
static NPClass sNPClass;
void
asyncCallback(void* cookie);
//
// identifiers
//
typedef bool (* ScriptableFunction)
(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool npnEvaluateTest(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool npnInvokeTest(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool npnInvokeDefaultTest(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool setUndefinedValueTest(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool identifierToStringTest(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool timerTest(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool queryPrivateModeState(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool lastReportedPrivateModeState(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool hasWidget(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool getEdge(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool getClipRegionRectCount(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool getClipRegionRectEdge(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool startWatchingInstanceCount(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool getInstanceCount(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool stopWatchingInstanceCount(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool getLastMouseX(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool getLastMouseY(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool getPaintCount(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool getWidthAtLastPaint(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool setInvalidateDuringPaint(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool setSlowPaint(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool getError(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool doInternalConsistencyCheck(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool setColor(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool throwExceptionNextInvoke(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool convertPointX(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool convertPointY(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool streamTest(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool setPluginWantsAllStreams(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool crashPlugin(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool crashOnDestroy(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool getObjectValue(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool getJavaCodebase(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool checkObjectValue(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool enableFPExceptions(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool setCookie(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool getCookie(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool getAuthInfo(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool asyncCallbackTest(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool checkGCRace(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool hangPlugin(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool stallPlugin(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool getClipboardText(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool callOnDestroy(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool reinitWidget(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool crashPluginInNestedLoop(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool destroySharedGfxStuff(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool propertyAndMethod(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool getTopLevelWindowActivationState(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool getTopLevelWindowActivationEventCount(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool getFocusState(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool getFocusEventCount(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool getEventModel(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool getReflector(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool isVisible(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool getWindowPosition(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool constructObject(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool setSitesWithData(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool setSitesWithDataCapabilities(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool getLastKeyText(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool getNPNVdocumentOrigin(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool getMouseUpEventCount(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static bool queryContentsScaleFactor(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
static const NPUTF8* sPluginMethodIdentifierNames[] = {
"npnEvaluateTest",
"npnInvokeTest",
"npnInvokeDefaultTest",
"setUndefinedValueTest",
"identifierToStringTest",
"timerTest",
"queryPrivateModeState",
"lastReportedPrivateModeState",
"hasWidget",
"getEdge",
"getClipRegionRectCount",
"getClipRegionRectEdge",
"startWatchingInstanceCount",
"getInstanceCount",
"stopWatchingInstanceCount",
"getLastMouseX",
"getLastMouseY",
"getPaintCount",
"getWidthAtLastPaint",
"setInvalidateDuringPaint",
"setSlowPaint",
"getError",
"doInternalConsistencyCheck",
"setColor",
"throwExceptionNextInvoke",
"convertPointX",
"convertPointY",
"streamTest",
"setPluginWantsAllStreams",
"crash",
"crashOnDestroy",
"getObjectValue",
"getJavaCodebase",
"checkObjectValue",
"enableFPExceptions",
"setCookie",
"getCookie",
"getAuthInfo",
"asyncCallbackTest",
"checkGCRace",
"hang",
"stall",
"getClipboardText",
"callOnDestroy",
"reinitWidget",
"crashInNestedLoop",
"destroySharedGfxStuff",
"propertyAndMethod",
"getTopLevelWindowActivationState",
"getTopLevelWindowActivationEventCount",
"getFocusState",
"getFocusEventCount",
"getEventModel",
"getReflector",
"isVisible",
"getWindowPosition",
"constructObject",
"setSitesWithData",
"setSitesWithDataCapabilities",
"getLastKeyText",
"getNPNVdocumentOrigin",
"getMouseUpEventCount",
"queryContentsScaleFactor"
};
static NPIdentifier sPluginMethodIdentifiers[ARRAY_LENGTH(sPluginMethodIdentifierNames)];
static const ScriptableFunction sPluginMethodFunctions[] = {
npnEvaluateTest,
npnInvokeTest,
npnInvokeDefaultTest,
setUndefinedValueTest,
identifierToStringTest,
timerTest,
queryPrivateModeState,
lastReportedPrivateModeState,
hasWidget,
getEdge,
getClipRegionRectCount,
getClipRegionRectEdge,
startWatchingInstanceCount,
getInstanceCount,
stopWatchingInstanceCount,
getLastMouseX,
getLastMouseY,
getPaintCount,
getWidthAtLastPaint,
setInvalidateDuringPaint,
setSlowPaint,
getError,
doInternalConsistencyCheck,
setColor,
throwExceptionNextInvoke,
convertPointX,
convertPointY,
streamTest,
setPluginWantsAllStreams,
crashPlugin,
crashOnDestroy,
getObjectValue,
getJavaCodebase,
checkObjectValue,
enableFPExceptions,
setCookie,
getCookie,
getAuthInfo,
asyncCallbackTest,
checkGCRace,
hangPlugin,
stallPlugin,
getClipboardText,
callOnDestroy,
reinitWidget,
crashPluginInNestedLoop,
destroySharedGfxStuff,
propertyAndMethod,
getTopLevelWindowActivationState,
getTopLevelWindowActivationEventCount,
getFocusState,
getFocusEventCount,
getEventModel,
getReflector,
isVisible,
getWindowPosition,
constructObject,
setSitesWithData,
setSitesWithDataCapabilities,
getLastKeyText,
getNPNVdocumentOrigin,
getMouseUpEventCount,
queryContentsScaleFactor
};
STATIC_ASSERT(ARRAY_LENGTH(sPluginMethodIdentifierNames) ==
ARRAY_LENGTH(sPluginMethodFunctions));
static const NPUTF8* sPluginPropertyIdentifierNames[] = {
"propertyAndMethod"
};
static NPIdentifier sPluginPropertyIdentifiers[ARRAY_LENGTH(sPluginPropertyIdentifierNames)];
static NPVariant sPluginPropertyValues[ARRAY_LENGTH(sPluginPropertyIdentifierNames)];
struct URLNotifyData
{
const char* cookie;
NPObject* writeCallback;
NPObject* notifyCallback;
NPObject* redirectCallback;
bool allowRedirects;
uint32_t size;
char* data;
};
static URLNotifyData kNotifyData = {
"static-cookie",
nullptr,
nullptr,
nullptr,
false,
0,
nullptr
};
static const char* SUCCESS_STRING = "pass";
static bool sIdentifiersInitialized = false;
struct timerEvent {
int32_t timerIdReceive;
int32_t timerIdSchedule;
uint32_t timerInterval;
bool timerRepeat;
int32_t timerIdUnschedule;
};
static timerEvent timerEvents[] = {
{-1, 0, 200, false, -1},
{0, 0, 400, false, -1},
{0, 0, 200, true, -1},
{0, 1, 400, true, -1},
{0, -1, 0, false, 0},
{1, -1, 0, false, -1},
{1, -1, 0, false, 1},
};
static uint32_t currentTimerEventCount = 0;
static uint32_t totalTimerEvents = sizeof(timerEvents) / sizeof(timerEvent);
/**
* Incremented for every startWatchingInstanceCount.
*/
static int32_t sCurrentInstanceCountWatchGeneration = 0;
/**
* Tracks the number of instances created or destroyed since the last
* startWatchingInstanceCount.
*/
static int32_t sInstanceCount = 0;
/**
* True when we've had a startWatchingInstanceCount with no corresponding
* stopWatchingInstanceCount.
*/
static bool sWatchingInstanceCount = false;
/**
* A list representing sites for which the plugin has stored data. See
* NPP_ClearSiteData and NPP_GetSitesWithData.
*/
struct siteData {
string site;
uint64_t flags;
uint64_t age;
};
static list<siteData>* sSitesWithData;
static bool sClearByAgeSupported;
static void initializeIdentifiers()
{
if (!sIdentifiersInitialized) {
NPN_GetStringIdentifiers(sPluginMethodIdentifierNames,
ARRAY_LENGTH(sPluginMethodIdentifierNames), sPluginMethodIdentifiers);
NPN_GetStringIdentifiers(sPluginPropertyIdentifierNames,
ARRAY_LENGTH(sPluginPropertyIdentifierNames), sPluginPropertyIdentifiers);
sIdentifiersInitialized = true;
// Check whether nullptr is handled in NPN_GetStringIdentifiers
NPIdentifier IDList[2];
static char const *const kIDNames[2] = { nullptr, "setCookie" };
NPN_GetStringIdentifiers(const_cast<const NPUTF8**>(kIDNames), 2, IDList);
}
}
static void clearIdentifiers()
{
memset(sPluginMethodIdentifiers, 0,
ARRAY_LENGTH(sPluginMethodIdentifiers) * sizeof(NPIdentifier));
memset(sPluginPropertyIdentifiers, 0,
ARRAY_LENGTH(sPluginPropertyIdentifiers) * sizeof(NPIdentifier));
sIdentifiersInitialized = false;
}
static void addRange(InstanceData* instanceData, const char* range)
{
char rangestr[16];
strncpy(rangestr, range, sizeof(rangestr));
const char* str1 = strtok(rangestr, ",");
const char* str2 = str1 ? strtok(nullptr, ",") : nullptr;
if (str1 && str2) {
TestRange* byterange = new TestRange;
byterange->offset = atoi(str1);
byterange->length = atoi(str2);
byterange->waiting = true;
byterange->next = instanceData->testrange;
instanceData->testrange = byterange;
}
}
static void sendBufferToFrame(NPP instance)
{
InstanceData* instanceData = (InstanceData*)(instance->pdata);
string outbuf;
if (!instanceData->npnNewStream) outbuf = "data:text/html,";
const char* buf = reinterpret_cast<char *>(instanceData->streamBuf);
int32_t bufsize = instanceData->streamBufSize;
if (instanceData->streamMode == NP_ASFILE ||
instanceData->streamMode == NP_ASFILEONLY) {
buf = reinterpret_cast<char *>(instanceData->fileBuf);
bufsize = instanceData->fileBufSize;
}
if (instanceData->err.str().length() > 0) {
outbuf.append(instanceData->err.str());
}
else if (bufsize > 0) {
outbuf.append(buf);
}
else {
outbuf.append("Error: no data in buffer");
}
if (instanceData->npnNewStream &&
instanceData->err.str().length() == 0) {
char typeHTML[] = "text/html";
NPStream* stream;
printf("calling NPN_NewStream...");
NPError err = NPN_NewStream(instance, typeHTML,
instanceData->frame.c_str(), &stream);
printf("return value %d\n", err);
if (err != NPERR_NO_ERROR) {
instanceData->err << "NPN_NewStream returned " << err;
return;
}
int32_t bytesToWrite = outbuf.length();
int32_t bytesWritten = 0;
while ((bytesToWrite - bytesWritten) > 0) {
int32_t numBytes = (bytesToWrite - bytesWritten) <
instanceData->streamChunkSize ?
bytesToWrite - bytesWritten : instanceData->streamChunkSize;
int32_t written = NPN_Write(instance, stream,
numBytes, (void*)(outbuf.c_str() + bytesWritten));
if (written <= 0) {
instanceData->err << "NPN_Write returned " << written;
break;
}
bytesWritten += numBytes;
printf("%d bytes written, total %d\n", written, bytesWritten);
}
err = NPN_DestroyStream(instance, stream, NPRES_DONE);
if (err != NPERR_NO_ERROR) {
instanceData->err << "NPN_DestroyStream returned " << err;
}
}
else {
// Convert CRLF to LF, and escape most other non-alphanumeric chars.
for (size_t i = 0; i < outbuf.length(); i++) {
if (outbuf[i] == '\n') {
outbuf.replace(i, 1, "%0a");
i += 2;
}
else if (outbuf[i] == '\r') {
outbuf.replace(i, 1, "");
i -= 1;
}
else {
int ascii = outbuf[i];
if (!((ascii >= ',' && ascii <= ';') ||
(ascii >= 'A' && ascii <= 'Z') ||
(ascii >= 'a' && ascii <= 'z'))) {
char hex[8];
sprintf(hex, "%%%x", ascii);
outbuf.replace(i, 1, hex);
i += 2;
}
}
}
NPError err = NPN_GetURL(instance, outbuf.c_str(),
instanceData->frame.c_str());
if (err != NPERR_NO_ERROR) {
instanceData->err << "NPN_GetURL returned " << err;
}
}
}
static void XPSleep(unsigned int seconds)
{
#ifdef XP_WIN
Sleep(1000 * seconds);
#else
sleep(seconds);
#endif
}
TestFunction
getFuncFromString(const char* funcname)
{
FunctionTable funcTable[] =
{
{ FUNCTION_NPP_NEWSTREAM, "npp_newstream" },
{ FUNCTION_NPP_WRITEREADY, "npp_writeready" },
{ FUNCTION_NPP_WRITE, "npp_write" },
{ FUNCTION_NPP_DESTROYSTREAM, "npp_destroystream" },
{ FUNCTION_NPP_WRITE_RPC, "npp_write_rpc" },
{ FUNCTION_NONE, nullptr }
};
int32_t i = 0;
while(funcTable[i].funcName) {
if (!strcmp(funcname, funcTable[i].funcName)) return funcTable[i].funcId;
i++;
}
return FUNCTION_NONE;
}
static void
DuplicateNPVariant(NPVariant& aDest, const NPVariant& aSrc)
{
if (NPVARIANT_IS_STRING(aSrc)) {
NPString src = NPVARIANT_TO_STRING(aSrc);
char* buf = new char[src.UTF8Length];
strncpy(buf, src.UTF8Characters, src.UTF8Length);
STRINGN_TO_NPVARIANT(buf, src.UTF8Length, aDest);
}
else if (NPVARIANT_IS_OBJECT(aSrc)) {
NPObject* obj =
NPN_RetainObject(NPVARIANT_TO_OBJECT(aSrc));
OBJECT_TO_NPVARIANT(obj, aDest);
}
else {
aDest = aSrc;
}
}
void
drawAsyncBitmapColor(InstanceData* instanceData)
{
NPP npp = instanceData->npp;
uint32_t *pixelData = (uint32_t*)instanceData->backBuffer->bitmap.data;
uint32_t rgba = instanceData->scriptableObject->drawColor;
unsigned char subpixels[4];
subpixels[0] = rgba & 0xFF;
subpixels[1] = (rgba & 0xFF00) >> 8;
subpixels[2] = (rgba & 0xFF0000) >> 16;
subpixels[3] = (rgba & 0xFF000000) >> 24;
subpixels[0] = uint8_t(float(subpixels[3] * subpixels[0]) / 0xFF);
subpixels[1] = uint8_t(float(subpixels[3] * subpixels[1]) / 0xFF);
subpixels[2] = uint8_t(float(subpixels[3] * subpixels[2]) / 0xFF);
uint32_t premultiplied;
memcpy(&premultiplied, subpixels, sizeof(premultiplied));
for (uint32_t* lastPixel = pixelData + instanceData->backBuffer->size.width * instanceData->backBuffer->size.height;
pixelData < lastPixel;
++pixelData) {
*pixelData = premultiplied;
}
NPN_SetCurrentAsyncSurface(npp, instanceData->backBuffer, nullptr);
NPAsyncSurface *oldFront = instanceData->frontBuffer;
instanceData->frontBuffer = instanceData->backBuffer;
instanceData->backBuffer = oldFront;
}
static bool bug813906(NPP npp, const char* const function, const char* const url, const char* const frame)
{
NPObject *windowObj = nullptr;
NPError err = NPN_GetValue(npp, NPNVWindowNPObject, &windowObj);
if (err != NPERR_NO_ERROR) {
return false;
}
NPVariant result;
bool res = NPN_Invoke(npp, windowObj, NPN_GetStringIdentifier(function), nullptr, 0, &result);
NPN_ReleaseObject(windowObj);
if (!res) {
return false;
}
NPN_ReleaseVariantValue(&result);
err = NPN_GetURL(npp, url, frame);
if (err != NPERR_NO_ERROR) {
err = NPN_GetURL(npp, "about:blank", frame);
return false;
}
return true;
}
//
// function signatures
//
NPObject* scriptableAllocate(NPP npp, NPClass* aClass);
void scriptableDeallocate(NPObject* npobj);
void scriptableInvalidate(NPObject* npobj);
bool scriptableHasMethod(NPObject* npobj, NPIdentifier name);
bool scriptableInvoke(NPObject* npobj, NPIdentifier name, const NPVariant* args, uint32_t argCount, NPVariant* result);
bool scriptableInvokeDefault(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
bool scriptableHasProperty(NPObject* npobj, NPIdentifier name);
bool scriptableGetProperty(NPObject* npobj, NPIdentifier name, NPVariant* result);
bool scriptableSetProperty(NPObject* npobj, NPIdentifier name, const NPVariant* value);
bool scriptableRemoveProperty(NPObject* npobj, NPIdentifier name);
bool scriptableEnumerate(NPObject* npobj, NPIdentifier** identifier, uint32_t* count);
bool scriptableConstruct(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result);
//
// npapi plugin functions
//
#ifdef XP_UNIX
NP_EXPORT(char*)
NP_GetPluginVersion()
{
return sPluginVersion;
}
#endif
extern const char *sMimeDescription;
#if defined(XP_UNIX)
NP_EXPORT(const char*) NP_GetMIMEDescription()
#elif defined(XP_WIN)
const char* NP_GetMIMEDescription()
#endif
{
return sMimeDescription;
}
#ifdef XP_UNIX
NP_EXPORT(NPError)
NP_GetValue(void* future, NPPVariable aVariable, void* aValue) {
switch (aVariable) {
case NPPVpluginNameString:
*((const char**)aValue) = sPluginName;
break;
case NPPVpluginDescriptionString:
*((const char**)aValue) = sPluginDescription;
break;
default:
return NPERR_INVALID_PARAM;
break;
}
return NPERR_NO_ERROR;
}
#endif
static bool fillPluginFunctionTable(NPPluginFuncs* pFuncs)
{
// Check the size of the provided structure based on the offset of the
// last member we need.
if (pFuncs->size < (offsetof(NPPluginFuncs, getsiteswithdata) + sizeof(void*)))
return false;
pFuncs->newp = NPP_New;
pFuncs->destroy = NPP_Destroy;
pFuncs->setwindow = NPP_SetWindow;
pFuncs->newstream = NPP_NewStream;
pFuncs->destroystream = NPP_DestroyStream;
pFuncs->asfile = NPP_StreamAsFile;
pFuncs->writeready = NPP_WriteReady;
pFuncs->write = NPP_Write;
pFuncs->print = NPP_Print;
pFuncs->event = NPP_HandleEvent;
pFuncs->urlnotify = NPP_URLNotify;
pFuncs->getvalue = NPP_GetValue;
pFuncs->setvalue = NPP_SetValue;
pFuncs->urlredirectnotify = NPP_URLRedirectNotify;
pFuncs->clearsitedata = NPP_ClearSiteData;
pFuncs->getsiteswithdata = NPP_GetSitesWithData;
return true;
}
#if defined(XP_MACOSX)
NP_EXPORT(NPError) NP_Initialize(NPNetscapeFuncs* bFuncs)
#elif defined(XP_WIN)
NPError OSCALL NP_Initialize(NPNetscapeFuncs* bFuncs)
#elif defined(XP_UNIX)
NP_EXPORT(NPError) NP_Initialize(NPNetscapeFuncs* bFuncs, NPPluginFuncs* pFuncs)
#endif
{
sBrowserFuncs = bFuncs;
initializeIdentifiers();
for (unsigned int i = 0; i < ARRAY_LENGTH(sPluginPropertyValues); i++) {
VOID_TO_NPVARIANT(sPluginPropertyValues[i]);
}
memset(&sNPClass, 0, sizeof(NPClass));
sNPClass.structVersion = NP_CLASS_STRUCT_VERSION;
sNPClass.allocate = (NPAllocateFunctionPtr)scriptableAllocate;
sNPClass.deallocate = (NPDeallocateFunctionPtr)scriptableDeallocate;
sNPClass.invalidate = (NPInvalidateFunctionPtr)scriptableInvalidate;
sNPClass.hasMethod = (NPHasMethodFunctionPtr)scriptableHasMethod;
sNPClass.invoke = (NPInvokeFunctionPtr)scriptableInvoke;
sNPClass.invokeDefault = (NPInvokeDefaultFunctionPtr)scriptableInvokeDefault;
sNPClass.hasProperty = (NPHasPropertyFunctionPtr)scriptableHasProperty;
sNPClass.getProperty = (NPGetPropertyFunctionPtr)scriptableGetProperty;
sNPClass.setProperty = (NPSetPropertyFunctionPtr)scriptableSetProperty;
sNPClass.removeProperty = (NPRemovePropertyFunctionPtr)scriptableRemoveProperty;
sNPClass.enumerate = (NPEnumerationFunctionPtr)scriptableEnumerate;
sNPClass.construct = (NPConstructFunctionPtr)scriptableConstruct;
#if defined(XP_UNIX) && !defined(XP_MACOSX)
if (!fillPluginFunctionTable(pFuncs)) {
return NPERR_INVALID_FUNCTABLE_ERROR;
}
#endif
return NPERR_NO_ERROR;
}
#if defined(XP_MACOSX)
NP_EXPORT(NPError) NP_GetEntryPoints(NPPluginFuncs* pFuncs)
#elif defined(XP_WIN)
NPError OSCALL NP_GetEntryPoints(NPPluginFuncs* pFuncs)
#endif
#if defined(XP_MACOSX) || defined(XP_WIN)
{
if (!fillPluginFunctionTable(pFuncs)) {
return NPERR_INVALID_FUNCTABLE_ERROR;
}
return NPERR_NO_ERROR;
}
#endif
#if defined(XP_UNIX)
NP_EXPORT(NPError) NP_Shutdown()
#elif defined(XP_WIN)
NPError OSCALL NP_Shutdown()
#endif
{
clearIdentifiers();
for (unsigned int i = 0; i < ARRAY_LENGTH(sPluginPropertyValues); i++) {
NPN_ReleaseVariantValue(&sPluginPropertyValues[i]);
}
return NPERR_NO_ERROR;
}
NPError
NPP_New(NPMIMEType pluginType, NPP instance, uint16_t mode, int16_t argc, char* argn[], char* argv[], NPSavedData* saved)
{
// Make sure our pdata field is nullptr at this point. If it isn't, that
// probably means the browser gave us uninitialized memory.
if (instance->pdata) {
printf("NPP_New called with non-NULL NPP->pdata pointer!\n");
return NPERR_GENERIC_ERROR;
}
// Make sure we can render this plugin
NPBool browserSupportsWindowless = false;
NPN_GetValue(instance, NPNVSupportsWindowless, &browserSupportsWindowless);
if (!browserSupportsWindowless && !pluginSupportsWindowMode()) {
printf("Windowless mode not supported by the browser, windowed mode not supported by the plugin!\n");
return NPERR_GENERIC_ERROR;
}
// set up our our instance data
InstanceData* instanceData = new InstanceData;
if (!instanceData)
return NPERR_OUT_OF_MEMORY_ERROR;
instanceData->npp = instance;
instanceData->streamMode = NP_ASFILEONLY;
instanceData->testFunction = FUNCTION_NONE;
instanceData->functionToFail = FUNCTION_NONE;
instanceData->failureCode = 0;
instanceData->callOnDestroy = nullptr;
instanceData->streamChunkSize = 1024;
instanceData->streamBuf = nullptr;
instanceData->streamBufSize = 0;
instanceData->fileBuf = nullptr;
instanceData->fileBufSize = 0;
instanceData->throwOnNextInvoke = false;
instanceData->runScriptOnPaint = false;
instanceData->dontTouchElement = false;
instanceData->testrange = nullptr;
instanceData->hasWidget = false;
instanceData->npnNewStream = false;
instanceData->invalidateDuringPaint = false;
instanceData->slowPaint = false;
instanceData->writeCount = 0;
instanceData->writeReadyCount = 0;
memset(&instanceData->window, 0, sizeof(instanceData->window));
instanceData->crashOnDestroy = false;
instanceData->cleanupWidget = true; // only used by nptest_gtk
instanceData->topLevelWindowActivationState = ACTIVATION_STATE_UNKNOWN;
instanceData->topLevelWindowActivationEventCount = 0;
instanceData->focusState = ACTIVATION_STATE_UNKNOWN;
instanceData->focusEventCount = 0;
instanceData->eventModel = 0;
instanceData->closeStream = false;
instanceData->wantsAllStreams = false;
instanceData->asyncDrawing = AD_NONE;
instanceData->frontBuffer = nullptr;
instanceData->backBuffer = nullptr;
instanceData->mouseUpEventCount = 0;
instanceData->bugMode = -1;
instance->pdata = instanceData;
TestNPObject* scriptableObject = (TestNPObject*)NPN_CreateObject(instance, &sNPClass);
if (!scriptableObject) {
printf("NPN_CreateObject failed to create an object, can't create a plugin instance\n");
delete instanceData;
return NPERR_GENERIC_ERROR;
}
scriptableObject->npp = instance;
scriptableObject->drawMode = DM_DEFAULT;
scriptableObject->drawColor = 0;
instanceData->scriptableObject = scriptableObject;
instanceData->instanceCountWatchGeneration = sCurrentInstanceCountWatchGeneration;
if (NP_FULL == mode) {
instanceData->streamMode = NP_SEEK;
instanceData->frame = "testframe";
addRange(instanceData, "100,100");
}
bool requestWindow = false;
// handle extra params
for (int i = 0; i < argc; i++) {
if (strcmp(argn[i], "drawmode") == 0) {
if (strcmp(argv[i], "solid") == 0)
scriptableObject->drawMode = DM_SOLID_COLOR;
}
else if (strcmp(argn[i], "color") == 0) {
scriptableObject->drawColor = parseHexColor(argv[i], strlen(argv[i]));
}
else if (strcmp(argn[i], "wmode") == 0) {
if (strcmp(argv[i], "window") == 0) {
requestWindow = true;
}
}
else if (strcmp(argn[i], "asyncmodel") == 0) {
if (strcmp(argv[i], "bitmap") == 0) {
if (pluginSupportsAsyncBitmapDrawing()) {
instanceData->asyncDrawing = AD_BITMAP;
}
}
if (strcmp(argv[i], "dxgi") == 0) {
if (pluginSupportsAsyncDXGIDrawing()) {
instanceData->asyncDrawing = AD_DXGI;
}
}
}
if (strcmp(argn[i], "streammode") == 0) {
if (strcmp(argv[i], "normal") == 0) {
instanceData->streamMode = NP_NORMAL;
}
else if ((strcmp(argv[i], "asfile") == 0) &&
strlen(argv[i]) == strlen("asfile")) {
instanceData->streamMode = NP_ASFILE;
}
else if (strcmp(argv[i], "asfileonly") == 0) {
instanceData->streamMode = NP_ASFILEONLY;
}
else if (strcmp(argv[i], "seek") == 0) {
instanceData->streamMode = NP_SEEK;
}
}
if (strcmp(argn[i], "streamchunksize") == 0) {
instanceData->streamChunkSize = atoi(argv[i]);
}
if (strcmp(argn[i], "failurecode") == 0) {
instanceData->failureCode = atoi(argv[i]);
}
if (strcmp(argn[i], "functiontofail") == 0) {
instanceData->functionToFail = getFuncFromString(argv[i]);
}
if (strcmp(argn[i], "geturl") == 0) {
instanceData->testUrl = argv[i];
instanceData->testFunction = FUNCTION_NPP_GETURL;
}
if (strcmp(argn[i], "posturl") == 0) {
instanceData->testUrl = argv[i];
instanceData->testFunction = FUNCTION_NPP_POSTURL;
}
if (strcmp(argn[i], "geturlnotify") == 0) {
instanceData->testUrl = argv[i];
instanceData->testFunction = FUNCTION_NPP_GETURLNOTIFY;
}
if (strcmp(argn[i], "postmode") == 0) {
if (strcmp(argv[i], "frame") == 0) {
instanceData->postMode = POSTMODE_FRAME;
}
else if (strcmp(argv[i], "stream") == 0) {
instanceData->postMode = POSTMODE_STREAM;
}
}
if (strcmp(argn[i], "frame") == 0) {
instanceData->frame = argv[i];
}
if (strcmp(argn[i], "range") == 0) {
string range = argv[i];
size_t semicolon = range.find(';');
while (semicolon != string::npos) {
addRange(instanceData, range.substr(0, semicolon).c_str());
if (semicolon == range.length()) {
range = "";
break;
}
range = range.substr(semicolon + 1);
semicolon = range.find(';');
}
if (range.length()) addRange(instanceData, range.c_str());
}
if (strcmp(argn[i], "newstream") == 0 &&
strcmp(argv[i], "true") == 0) {
instanceData->npnNewStream = true;
}
if (strcmp(argn[i], "newcrash") == 0) {
IntentionalCrash();
}
if (strcmp(argn[i], "paintscript") == 0) {
instanceData->runScriptOnPaint = true;
}
if (strcmp(argn[i], "donttouchelement") == 0) {
instanceData->dontTouchElement = true;
}
// "cleanupwidget" is only used with nptest_gtk, defaulting to true. It
// indicates whether the plugin should destroy its window in response to
// NPP_Destroy (or let the platform destroy the widget when the parent
// window gets destroyed).
if (strcmp(argn[i], "cleanupwidget") == 0 &&
strcmp(argv[i], "false") == 0) {
instanceData->cleanupWidget = false;
}
if (!strcmp(argn[i], "closestream")) {
instanceData->closeStream = true;
}
if (strcmp(argn[i], "bugmode") == 0) {
instanceData->bugMode = atoi(argv[i]);
}
// Try to emulate java's codebase handling: Use the last seen codebase
// value, regardless of whether it is in attributes or params.
if (strcasecmp(argn[i], "codebase") == 0) {
instanceData->javaCodebase = argv[i];
}
}
if (!browserSupportsWindowless || !pluginSupportsWindowlessMode()) {
requestWindow = true;
} else if (!pluginSupportsWindowMode()) {
requestWindow = false;
}
if (requestWindow) {
instanceData->hasWidget = true;
} else {
// NPPVpluginWindowBool should default to true, so we may as well
// test that by not setting it in the window case
NPN_SetValue(instance, NPPVpluginWindowBool, (void*)false);
}
if (scriptableObject->drawMode == DM_SOLID_COLOR &&
(scriptableObject->drawColor & 0xFF000000) != 0xFF000000) {
NPN_SetValue(instance, NPPVpluginTransparentBool, (void*)true);
}
if (instanceData->asyncDrawing == AD_BITMAP) {
NPBool supportsAsyncBitmap = false;
if ((NPN_GetValue(instance, NPNVsupportsAsyncBitmapSurfaceBool, &supportsAsyncBitmap) == NPERR_NO_ERROR) &&
supportsAsyncBitmap) {
NPN_SetValue(instance, NPPVpluginDrawingModel, (void*)NPDrawingModelAsyncBitmapSurface);
} else {
instanceData->asyncDrawing = AD_NONE;
}
}
#ifdef XP_WIN
else if (instanceData->asyncDrawing == AD_DXGI) {
NPBool supportsAsyncDXGI = false;
if ((NPN_GetValue(instance, NPNVsupportsAsyncWindowsDXGISurfaceBool, &supportsAsyncDXGI) == NPERR_NO_ERROR) &&
supportsAsyncDXGI) {
NPN_SetValue(instance, NPPVpluginDrawingModel, (void*)NPDrawingModelAsyncWindowsDXGISurface);
} else {
instanceData->asyncDrawing = AD_NONE;
}
}
#endif
instanceData->lastReportedPrivateModeState = false;
instanceData->lastMouseX = instanceData->lastMouseY = -1;
instanceData->widthAtLastPaint = -1;
instanceData->paintCount = 0;
// do platform-specific initialization
NPError err = pluginInstanceInit(instanceData);
if (err != NPERR_NO_ERROR) {
NPN_ReleaseObject(scriptableObject);
free(instanceData);
return err;
}
NPVariant variantTrue;
BOOLEAN_TO_NPVARIANT(true, variantTrue);
NPObject* o = nullptr;
// Set a property on NPNVPluginElementNPObject, unless the consumer explicitly
// opted out of this behavior.
if (!instanceData->dontTouchElement) {
err = NPN_GetValue(instance, NPNVPluginElementNPObject, &o);
if (err == NPERR_NO_ERROR) {
NPN_SetProperty(instance, o,
NPN_GetStringIdentifier("pluginFoundElement"), &variantTrue);
NPN_ReleaseObject(o);
o = nullptr;
}
}
// Set a property on NPNVWindowNPObject
err = NPN_GetValue(instance, NPNVWindowNPObject, &o);
if (err == NPERR_NO_ERROR) {
NPN_SetProperty(instance, o,
NPN_GetStringIdentifier("pluginFoundWindow"), &variantTrue);
NPN_ReleaseObject(o);
o = nullptr;
}
++sInstanceCount;
if (instanceData->testFunction == FUNCTION_NPP_GETURL) {
NPError err = NPN_GetURL(instance, instanceData->testUrl.c_str(), nullptr);
if (err != NPERR_NO_ERROR) {
instanceData->err << "NPN_GetURL returned " << err;
}
}
else if (instanceData->testFunction == FUNCTION_NPP_GETURLNOTIFY) {
NPError err = NPN_GetURLNotify(instance, instanceData->testUrl.c_str(),
nullptr, static_cast<void*>(&kNotifyData));
if (err != NPERR_NO_ERROR) {
instanceData->err << "NPN_GetURLNotify returned " << err;
}
}
if ((instanceData->bugMode == 813906) && instanceData->frame.length()) {
bug813906(instance, "f", "browser.xul", instanceData->frame.c_str());
}
return NPERR_NO_ERROR;
}
NPError
NPP_Destroy(NPP instance, NPSavedData** save)
{
InstanceData* instanceData = (InstanceData*)(instance->pdata);
if (instanceData->crashOnDestroy)
IntentionalCrash();
if (instanceData->callOnDestroy) {
NPVariant result;
NPN_InvokeDefault(instance, instanceData->callOnDestroy, nullptr, 0, &result);
NPN_ReleaseVariantValue(&result);
NPN_ReleaseObject(instanceData->callOnDestroy);
}
if (instanceData->streamBuf) {
free(instanceData->streamBuf);
}
if (instanceData->fileBuf) {
free(instanceData->fileBuf);
}
TestRange* currentrange = instanceData->testrange;
TestRange* nextrange;
while (currentrange != nullptr) {
nextrange = reinterpret_cast<TestRange*>(currentrange->next);
delete currentrange;
currentrange = nextrange;
}
if (instanceData->frontBuffer) {
NPN_SetCurrentAsyncSurface(instance, nullptr, nullptr);
NPN_FinalizeAsyncSurface(instance, instanceData->frontBuffer);
NPN_MemFree(instanceData->frontBuffer);
}
if (instanceData->backBuffer) {
NPN_FinalizeAsyncSurface(instance, instanceData->backBuffer);
NPN_MemFree(instanceData->backBuffer);
}
pluginInstanceShutdown(instanceData);
NPN_ReleaseObject(instanceData->scriptableObject);
if (sCurrentInstanceCountWatchGeneration == instanceData->instanceCountWatchGeneration) {
--sInstanceCount;
}
delete instanceData;
return NPERR_NO_ERROR;
}
NPError
NPP_SetWindow(NPP instance, NPWindow* window)
{
InstanceData* instanceData = (InstanceData*)(instance->pdata);
if (instanceData->scriptableObject->drawMode == DM_DEFAULT &&
(instanceData->window.width != window->width ||
instanceData->window.height != window->height)) {
NPRect r;
r.left = r.top = 0;
r.right = window->width;
r.bottom = window->height;
NPN_InvalidateRect(instance, &r);
}
void* oldWindow = instanceData->window.window;
pluginDoSetWindow(instanceData, window);
if (instanceData->hasWidget && oldWindow != instanceData->window.window) {
pluginWidgetInit(instanceData, oldWindow);
}
if (instanceData->asyncDrawing == AD_BITMAP) {
if (instanceData->frontBuffer &&
instanceData->frontBuffer->size.width >= 0 &&
(uint32_t)instanceData->frontBuffer->size.width == window->width &&
instanceData ->frontBuffer->size.height >= 0 &&
(uint32_t)instanceData->frontBuffer->size.height == window->height) {
return NPERR_NO_ERROR;
}
if (instanceData->frontBuffer) {
NPN_FinalizeAsyncSurface(instance, instanceData->frontBuffer);
NPN_MemFree(instanceData->frontBuffer);
}
if (instanceData->backBuffer) {
NPN_FinalizeAsyncSurface(instance, instanceData->backBuffer);
NPN_MemFree(instanceData->backBuffer);
}
instanceData->frontBuffer = (NPAsyncSurface*)NPN_MemAlloc(sizeof(NPAsyncSurface));
instanceData->backBuffer = (NPAsyncSurface*)NPN_MemAlloc(sizeof(NPAsyncSurface));
NPSize size;
size.width = window->width;
size.height = window->height;
memcpy(instanceData->backBuffer, instanceData->frontBuffer, sizeof(NPAsyncSurface));
NPN_InitAsyncSurface(instance, &size, NPImageFormatBGRA32, nullptr, instanceData->frontBuffer);
NPN_InitAsyncSurface(instance, &size, NPImageFormatBGRA32, nullptr, instanceData->backBuffer);
drawAsyncBitmapColor(instanceData);
}
return NPERR_NO_ERROR;
}
NPError
NPP_NewStream(NPP instance, NPMIMEType type, NPStream* stream, NPBool seekable, uint16_t* stype)
{
InstanceData* instanceData = (InstanceData*)(instance->pdata);
if (instanceData->functionToFail == FUNCTION_NPP_NEWSTREAM &&
instanceData->failureCode) {
instanceData->err << SUCCESS_STRING;
if (instanceData->frame.length() > 0) {
sendBufferToFrame(instance);
}
return instanceData->failureCode;
}
if (stream->notifyData &&
static_cast<URLNotifyData*>(stream->notifyData) != &kNotifyData) {
// stream from streamTest
*stype = NP_NORMAL;
}
else {
*stype = instanceData->streamMode;
if (instanceData->streamBufSize) {
free(instanceData->streamBuf);
instanceData->streamBufSize = 0;
if (instanceData->testFunction == FUNCTION_NPP_POSTURL &&
instanceData->postMode == POSTMODE_STREAM) {
instanceData->testFunction = FUNCTION_NPP_GETURL;
}
else {
// We already got a stream and didn't ask for another one.
instanceData->err << "Received unexpected multiple NPP_NewStream";
}
}
}
return NPERR_NO_ERROR;
}
NPError
NPP_DestroyStream(NPP instance, NPStream* stream, NPReason reason)
{
InstanceData* instanceData = (InstanceData*)(instance->pdata);
if (instanceData->functionToFail == FUNCTION_NPP_NEWSTREAM) {
instanceData->err << "NPP_DestroyStream called";
}
if (instanceData->functionToFail == FUNCTION_NPP_WRITE) {
if (instanceData->writeCount == 1)
instanceData->err << SUCCESS_STRING;
else
instanceData->err << "NPP_Write called after returning -1";
}
if (instanceData->functionToFail == FUNCTION_NPP_DESTROYSTREAM &&
instanceData->failureCode) {
instanceData->err << SUCCESS_STRING;
if (instanceData->frame.length() > 0) {
sendBufferToFrame(instance);
}
return instanceData->failureCode;
}
URLNotifyData* nd = static_cast<URLNotifyData*>(stream->notifyData);
if (nd && nd != &kNotifyData) {
return NPERR_NO_ERROR;
}
if (instanceData->streamMode == NP_ASFILE &&
instanceData->functionToFail == FUNCTION_NONE) {
if (!instanceData->streamBuf) {
instanceData->err <<
"Error: no data written with NPP_Write";
return NPERR_GENERIC_ERROR;
}
if (!instanceData->fileBuf) {
instanceData->err <<
"Error: no data written with NPP_StreamAsFile";
return NPERR_GENERIC_ERROR;
}
if (strcmp(reinterpret_cast<char *>(instanceData->fileBuf),
reinterpret_cast<char *>(instanceData->streamBuf))) {
instanceData->err <<
"Error: data passed to NPP_Write and NPP_StreamAsFile differed";
}
}
if (instanceData->frame.length() > 0 &&
instanceData->testFunction != FUNCTION_NPP_GETURLNOTIFY &&
instanceData->testFunction != FUNCTION_NPP_POSTURL) {
sendBufferToFrame(instance);
}
if (instanceData->testFunction == FUNCTION_NPP_POSTURL) {
NPError err = NPN_PostURL(instance, instanceData->testUrl.c_str(),
instanceData->postMode == POSTMODE_FRAME ? instanceData->frame.c_str() : nullptr,
instanceData->streamBufSize,
reinterpret_cast<char *>(instanceData->streamBuf), false);
if (err != NPERR_NO_ERROR)
instanceData->err << "Error: NPN_PostURL returned error value " << err;
}
return NPERR_NO_ERROR;
}
int32_t
NPP_WriteReady(NPP instance, NPStream* stream)
{
InstanceData* instanceData = (InstanceData*)(instance->pdata);
instanceData->writeReadyCount++;
if (instanceData->functionToFail == FUNCTION_NPP_NEWSTREAM) {
instanceData->err << "NPP_WriteReady called";
}
// temporarily disabled per bug 519870
//if (instanceData->writeReadyCount == 1) {
// return 0;
//}
return instanceData->streamChunkSize;
}
int32_t
NPP_Write(NPP instance, NPStream* stream, int32_t offset, int32_t len, void* buffer)
{
InstanceData* instanceData = (InstanceData*)(instance->pdata);
instanceData->writeCount++;
// temporarily disabled per bug 519870
//if (instanceData->writeReadyCount == 1) {
// instanceData->err << "NPP_Write called even though NPP_WriteReady " <<
// "returned 0";
//}
if (instanceData->functionToFail == FUNCTION_NPP_WRITE_RPC) {
// Make an RPC call and pretend to consume the data
NPObject* windowObject = nullptr;
NPN_GetValue(instance, NPNVWindowNPObject, &windowObject);
if (windowObject)
NPN_ReleaseObject(windowObject);
return len;
}
if (instanceData->functionToFail == FUNCTION_NPP_NEWSTREAM) {
instanceData->err << "NPP_Write called";
}
if (instanceData->functionToFail == FUNCTION_NPP_WRITE) {
return -1;
}
URLNotifyData* nd = static_cast<URLNotifyData*>(stream->notifyData);
if (nd && nd->writeCallback) {
NPVariant args[1];
STRINGN_TO_NPVARIANT(stream->url, strlen(stream->url), args[0]);
NPVariant result;
NPN_InvokeDefault(instance, nd->writeCallback, args, 1, &result);
NPN_ReleaseVariantValue(&result);
}
if (nd && nd != &kNotifyData) {
uint32_t newsize = nd->size + len;
nd->data = (char*) realloc(nd->data, newsize);
memcpy(nd->data + nd->size, buffer, len);
nd->size = newsize;
return len;
}
if (instanceData->closeStream) {
instanceData->closeStream = false;
if (instanceData->testrange != nullptr) {
NPN_RequestRead(stream, instanceData->testrange);
}
NPN_DestroyStream(instance, stream, NPRES_USER_BREAK);
}
else if (instanceData->streamMode == NP_SEEK &&
stream->end != 0 &&
stream->end == ((uint32_t)instanceData->streamBufSize + len)) {
// If the complete stream has been written, and we're doing a seek test,
// then call NPN_RequestRead.
// prevent recursion
instanceData->streamMode = NP_NORMAL;
if (instanceData->testrange != nullptr) {
NPError err = NPN_RequestRead(stream, instanceData->testrange);
if (err != NPERR_NO_ERROR) {
instanceData->err << "NPN_RequestRead returned error %d" << err;
}
printf("called NPN_RequestRead, return %d\n", err);
}
}
char* streamBuf = reinterpret_cast<char *>(instanceData->streamBuf);
if (offset + len <= instanceData->streamBufSize) {
if (memcmp(buffer, streamBuf + offset, len)) {
instanceData->err <<
"Error: data written from NPN_RequestRead doesn't match";
}
else {
printf("data matches!\n");
}
TestRange* range = instanceData->testrange;
bool stillwaiting = false;
while(range != nullptr) {
if (offset == range->offset &&
(uint32_t)len == range->length) {
range->waiting = false;
}
if (range->waiting) stillwaiting = true;
range = reinterpret_cast<TestRange*>(range->next);
}
if (!stillwaiting) {
NPError err = NPN_DestroyStream(instance, stream, NPRES_DONE);
if (err != NPERR_NO_ERROR) {
instanceData->err << "Error: NPN_DestroyStream returned " << err;
}
}
}
else {
if (instanceData->streamBufSize == 0) {
instanceData->streamBuf = malloc(len + 1);
streamBuf = reinterpret_cast<char *>(instanceData->streamBuf);
}
else {
instanceData->streamBuf =
realloc(reinterpret_cast<char *>(instanceData->streamBuf),
instanceData->streamBufSize + len + 1);
streamBuf = reinterpret_cast<char *>(instanceData->streamBuf);
}
memcpy(streamBuf + instanceData->streamBufSize, buffer, len);
instanceData->streamBufSize = instanceData->streamBufSize + len;
streamBuf[instanceData->streamBufSize] = '\0';
}
return len;
}
void
NPP_StreamAsFile(NPP instance, NPStream* stream, const char* fname)
{
size_t size;
InstanceData* instanceData = (InstanceData*)(instance->pdata);
if (instanceData->functionToFail == FUNCTION_NPP_NEWSTREAM ||
instanceData->functionToFail == FUNCTION_NPP_WRITE) {
instanceData->err << "NPP_StreamAsFile called";
}
if (!fname)
return;
FILE *file = fopen(fname, "rb");
if (file) {
fseek(file, 0, SEEK_END);
size = ftell(file);
instanceData->fileBuf = malloc((int32_t)size + 1);
char* buf = reinterpret_cast<char *>(instanceData->fileBuf);
fseek(file, 0, SEEK_SET);
size_t sizeRead = fread(instanceData->fileBuf, 1, size, file);
if (sizeRead != size) {
printf("Unable to read data from file\n");
instanceData->err << "Unable to read data from file " << fname;
}
fclose(file);
buf[size] = '\0';
instanceData->fileBufSize = (int32_t)size;
}
else {
printf("Unable to open file\n");
instanceData->err << "Unable to open file " << fname;
}
}
void
NPP_Print(NPP instance, NPPrint* platformPrint)
{
}
int16_t
NPP_HandleEvent(NPP instance, void* event)
{
InstanceData* instanceData = (InstanceData*)(instance->pdata);
return pluginHandleEvent(instanceData, event);
}
void
NPP_URLNotify(NPP instance, const char* url, NPReason reason, void* notifyData)
{
InstanceData* instanceData = (InstanceData*)(instance->pdata);
URLNotifyData* ndata = static_cast<URLNotifyData*>(notifyData);
if (&kNotifyData == ndata) {
if (instanceData->frame.length() > 0) {
sendBufferToFrame(instance);
}
}
else if (!strcmp(ndata->cookie, "dynamic-cookie")) {
if (ndata->notifyCallback) {
NPVariant args[2];
INT32_TO_NPVARIANT(reason, args[0]);
if (ndata->data) {
STRINGN_TO_NPVARIANT(ndata->data, ndata->size, args[1]);
}
else {
STRINGN_TO_NPVARIANT("", 0, args[1]);
}
NPVariant result;
NPN_InvokeDefault(instance, ndata->notifyCallback, args, 2, &result);
NPN_ReleaseVariantValue(&result);
}
// clean up the URLNotifyData
if (ndata->writeCallback) {
NPN_ReleaseObject(ndata->writeCallback);
}
if (ndata->notifyCallback) {
NPN_ReleaseObject(ndata->notifyCallback);
}
if (ndata->redirectCallback) {
NPN_ReleaseObject(ndata->redirectCallback);
}
free(ndata->data);
delete ndata;
}
else {
printf("ERROR! NPP_URLNotify called with wrong cookie\n");
instanceData->err << "Error: NPP_URLNotify called with wrong cookie";
}
}
NPError
NPP_GetValue(NPP instance, NPPVariable variable, void* value)
{
InstanceData* instanceData = (InstanceData*)instance->pdata;
if (variable == NPPVpluginScriptableNPObject) {
NPObject* object = instanceData->scriptableObject;
NPN_RetainObject(object);
*((NPObject**)value) = object;
return NPERR_NO_ERROR;
}
if (variable == NPPVpluginNeedsXEmbed) {
// Only relevant for X plugins
// use 4-byte writes like some plugins may do
*(uint32_t*)value = instanceData->hasWidget;
return NPERR_NO_ERROR;
}
if (variable == NPPVpluginWantsAllNetworkStreams) {
// use 4-byte writes like some plugins may do
*(uint32_t*)value = instanceData->wantsAllStreams;
return NPERR_NO_ERROR;
}
return NPERR_GENERIC_ERROR;
}
NPError
NPP_SetValue(NPP instance, NPNVariable variable, void* value)
{
if (variable == NPNVprivateModeBool) {
InstanceData* instanceData = (InstanceData*)(instance->pdata);
instanceData->lastReportedPrivateModeState = bool(*static_cast<NPBool*>(value));
return NPERR_NO_ERROR;
}
return NPERR_GENERIC_ERROR;
}
void
NPP_URLRedirectNotify(NPP instance, const char* url, int32_t status, void* notifyData)
{
if (notifyData) {
URLNotifyData* nd = static_cast<URLNotifyData*>(notifyData);
if (nd->redirectCallback) {
NPVariant args[2];
STRINGN_TO_NPVARIANT(url, strlen(url), args[0]);
INT32_TO_NPVARIANT(status, args[1]);
NPVariant result;
NPN_InvokeDefault(instance, nd->redirectCallback, args, 2, &result);
NPN_ReleaseVariantValue(&result);
}
NPN_URLRedirectResponse(instance, notifyData, nd->allowRedirects);
return;
}
NPN_URLRedirectResponse(instance, notifyData, true);
}
NPError
NPP_ClearSiteData(const char* site, uint64_t flags, uint64_t maxAge)
{
if (!sSitesWithData)
return NPERR_NO_ERROR;
// Error condition: no support for clear-by-age
if (!sClearByAgeSupported && maxAge != uint64_t(int64_t(-1)))
return NPERR_TIME_RANGE_NOT_SUPPORTED;
// Iterate over list and remove matches
list<siteData>::iterator iter = sSitesWithData->begin();
list<siteData>::iterator end = sSitesWithData->end();
while (iter != end) {
const siteData& data = *iter;
list<siteData>::iterator next = iter;
++next;
if ((!site || data.site.compare(site) == 0) &&
(flags == NP_CLEAR_ALL || data.flags & flags) &&
data.age <= maxAge) {
sSitesWithData->erase(iter);
}
iter = next;
}
return NPERR_NO_ERROR;
}
char**
NPP_GetSitesWithData()
{
int length = 0;
char** result;
if (sSitesWithData)
length = sSitesWithData->size();
// Allocate the maximum possible size the list could be.
result = static_cast<char**>(NPN_MemAlloc((length + 1) * sizeof(char*)));
result[length] = nullptr;
if (length == 0) {
// Represent the no site data case as an array of length 1 with a nullptr
// entry.
return result;
}
// Iterate the list of stored data, and build a list of strings.
list<string> sites;
{
list<siteData>::iterator iter = sSitesWithData->begin();
list<siteData>::iterator end = sSitesWithData->end();
for (; iter != end; ++iter) {
const siteData& data = *iter;
sites.push_back(data.site);
}
}
// Remove duplicate strings.
sites.sort();
sites.unique();
// Add strings to the result array, and null terminate.
{
int i = 0;
list<string>::iterator iter = sites.begin();
list<string>::iterator end = sites.end();
for (; iter != end; ++iter, ++i) {
const string& site = *iter;
result[i] = static_cast<char*>(NPN_MemAlloc(site.length() + 1));
memcpy(result[i], site.c_str(), site.length() + 1);
}
}
result[sites.size()] = nullptr;
return result;
}
//
// npapi browser functions
//
bool
NPN_SetProperty(NPP instance, NPObject* obj, NPIdentifier propertyName, const NPVariant* value)
{
return sBrowserFuncs->setproperty(instance, obj, propertyName, value);
}
NPIdentifier
NPN_GetIntIdentifier(int32_t intid)
{
return sBrowserFuncs->getintidentifier(intid);
}
NPIdentifier
NPN_GetStringIdentifier(const NPUTF8* name)
{
return sBrowserFuncs->getstringidentifier(name);
}
void
NPN_GetStringIdentifiers(const NPUTF8 **names, int32_t nameCount, NPIdentifier *identifiers)
{
return sBrowserFuncs->getstringidentifiers(names, nameCount, identifiers);
}
bool
NPN_IdentifierIsString(NPIdentifier identifier)
{
return sBrowserFuncs->identifierisstring(identifier);
}
NPUTF8*
NPN_UTF8FromIdentifier(NPIdentifier identifier)
{
return sBrowserFuncs->utf8fromidentifier(identifier);
}
int32_t
NPN_IntFromIdentifier(NPIdentifier identifier)
{
return sBrowserFuncs->intfromidentifier(identifier);
}
NPError
NPN_GetValue(NPP instance, NPNVariable variable, void* value)
{
return sBrowserFuncs->getvalue(instance, variable, value);
}
NPError
NPN_SetValue(NPP instance, NPPVariable variable, void* value)
{
return sBrowserFuncs->setvalue(instance, variable, value);
}
void
NPN_InvalidateRect(NPP instance, NPRect* rect)
{
sBrowserFuncs->invalidaterect(instance, rect);
}
bool
NPN_HasProperty(NPP instance, NPObject* obj, NPIdentifier propertyName)
{
return sBrowserFuncs->hasproperty(instance, obj, propertyName);
}
NPObject*
NPN_CreateObject(NPP instance, NPClass* aClass)
{
return sBrowserFuncs->createobject(instance, aClass);
}
bool
NPN_Invoke(NPP npp, NPObject* obj, NPIdentifier methodName, const NPVariant *args, uint32_t argCount, NPVariant *result)
{
return sBrowserFuncs->invoke(npp, obj, methodName, args, argCount, result);
}
bool
NPN_InvokeDefault(NPP npp, NPObject* obj, const NPVariant *args, uint32_t argCount, NPVariant *result)
{
return sBrowserFuncs->invokeDefault(npp, obj, args, argCount, result);
}
bool
NPN_Construct(NPP npp, NPObject* npobj, const NPVariant* args,
uint32_t argCount, NPVariant* result)
{
return sBrowserFuncs->construct(npp, npobj, args, argCount, result);
}
const char*
NPN_UserAgent(NPP instance)
{
return sBrowserFuncs->uagent(instance);
}
NPObject*
NPN_RetainObject(NPObject* obj)
{
return sBrowserFuncs->retainobject(obj);
}
void
NPN_ReleaseObject(NPObject* obj)
{
return sBrowserFuncs->releaseobject(obj);
}
void*
NPN_MemAlloc(uint32_t size)
{
return sBrowserFuncs->memalloc(size);
}
char*
NPN_StrDup(const char* str)
{
return strcpy((char*)sBrowserFuncs->memalloc(strlen(str) + 1), str);
}
void
NPN_MemFree(void* ptr)
{
return sBrowserFuncs->memfree(ptr);
}
uint32_t
NPN_ScheduleTimer(NPP instance, uint32_t interval, NPBool repeat, void (*timerFunc)(NPP npp, uint32_t timerID))
{
return sBrowserFuncs->scheduletimer(instance, interval, repeat, timerFunc);
}
void
NPN_UnscheduleTimer(NPP instance, uint32_t timerID)
{
return sBrowserFuncs->unscheduletimer(instance, timerID);
}
void
NPN_ReleaseVariantValue(NPVariant *variant)
{
return sBrowserFuncs->releasevariantvalue(variant);
}
NPError
NPN_GetURLNotify(NPP instance, const char* url, const char* target, void* notifyData)
{
return sBrowserFuncs->geturlnotify(instance, url, target, notifyData);
}
NPError
NPN_GetURL(NPP instance, const char* url, const char* target)
{
return sBrowserFuncs->geturl(instance, url, target);
}
NPError
NPN_RequestRead(NPStream* stream, NPByteRange* rangeList)
{
return sBrowserFuncs->requestread(stream, rangeList);
}
NPError
NPN_PostURLNotify(NPP instance, const char* url,
const char* target, uint32_t len,
const char* buf, NPBool file, void* notifyData)
{
return sBrowserFuncs->posturlnotify(instance, url, target, len, buf, file, notifyData);
}
NPError
NPN_PostURL(NPP instance, const char *url,
const char *target, uint32_t len,
const char *buf, NPBool file)
{
return sBrowserFuncs->posturl(instance, url, target, len, buf, file);
}
NPError
NPN_DestroyStream(NPP instance, NPStream* stream, NPError reason)
{
return sBrowserFuncs->destroystream(instance, stream, reason);
}
NPError
NPN_NewStream(NPP instance,
NPMIMEType type,
const char* target,
NPStream** stream)
{
return sBrowserFuncs->newstream(instance, type, target, stream);
}
int32_t
NPN_Write(NPP instance,
NPStream* stream,
int32_t len,
void* buf)
{
return sBrowserFuncs->write(instance, stream, len, buf);
}
bool
NPN_Enumerate(NPP instance,
NPObject *npobj,
NPIdentifier **identifiers,
uint32_t *identifierCount)
{
return sBrowserFuncs->enumerate(instance, npobj, identifiers,
identifierCount);
}
bool
NPN_GetProperty(NPP instance,
NPObject *npobj,
NPIdentifier propertyName,
NPVariant *result)
{
return sBrowserFuncs->getproperty(instance, npobj, propertyName, result);
}
bool
NPN_Evaluate(NPP instance, NPObject *npobj, NPString *script, NPVariant *result)
{
return sBrowserFuncs->evaluate(instance, npobj, script, result);
}
void
NPN_SetException(NPObject *npobj, const NPUTF8 *message)
{
return sBrowserFuncs->setexception(npobj, message);
}
NPBool
NPN_ConvertPoint(NPP instance, double sourceX, double sourceY, NPCoordinateSpace sourceSpace, double *destX, double *destY, NPCoordinateSpace destSpace)
{
return sBrowserFuncs->convertpoint(instance, sourceX, sourceY, sourceSpace, destX, destY, destSpace);
}
NPError
NPN_SetValueForURL(NPP instance, NPNURLVariable variable, const char *url, const char *value, uint32_t len)
{
return sBrowserFuncs->setvalueforurl(instance, variable, url, value, len);
}
NPError
NPN_GetValueForURL(NPP instance, NPNURLVariable variable, const char *url, char **value, uint32_t *len)
{
return sBrowserFuncs->getvalueforurl(instance, variable, url, value, len);
}
NPError
NPN_GetAuthenticationInfo(NPP instance,
const char *protocol,
const char *host, int32_t port,
const char *scheme,
const char *realm,
char **username, uint32_t *ulen,
char **password,
uint32_t *plen)
{
return sBrowserFuncs->getauthenticationinfo(instance, protocol, host, port, scheme, realm,
username, ulen, password, plen);
}
void
NPN_PluginThreadAsyncCall(NPP plugin, void (*func)(void*), void* userdata)
{
return sBrowserFuncs->pluginthreadasynccall(plugin, func, userdata);
}
void
NPN_URLRedirectResponse(NPP instance, void* notifyData, NPBool allow)
{
return sBrowserFuncs->urlredirectresponse(instance, notifyData, allow);
}
NPError
NPN_InitAsyncSurface(NPP instance, NPSize *size, NPImageFormat format,
void *initData, NPAsyncSurface *surface)
{
return sBrowserFuncs->initasyncsurface(instance, size, format, initData, surface);
}
NPError
NPN_FinalizeAsyncSurface(NPP instance, NPAsyncSurface *surface)
{
return sBrowserFuncs->finalizeasyncsurface(instance, surface);
}
void
NPN_SetCurrentAsyncSurface(NPP instance, NPAsyncSurface *surface, NPRect *changed)
{
sBrowserFuncs->setcurrentasyncsurface(instance, surface, changed);
}
//
// npruntime object functions
//
NPObject*
scriptableAllocate(NPP npp, NPClass* aClass)
{
TestNPObject* object = (TestNPObject*)NPN_MemAlloc(sizeof(TestNPObject));
if (!object)
return nullptr;
memset(object, 0, sizeof(TestNPObject));
return object;
}
void
scriptableDeallocate(NPObject* npobj)
{
NPN_MemFree(npobj);
}
void
scriptableInvalidate(NPObject* npobj)
{
}
bool
scriptableHasMethod(NPObject* npobj, NPIdentifier name)
{
for (int i = 0; i < int(ARRAY_LENGTH(sPluginMethodIdentifiers)); i++) {
if (name == sPluginMethodIdentifiers[i])
return true;
}
return false;
}
bool
scriptableInvoke(NPObject* npobj, NPIdentifier name, const NPVariant* args, uint32_t argCount, NPVariant* result)
{
NPP npp = static_cast<TestNPObject*>(npobj)->npp;
InstanceData* id = static_cast<InstanceData*>(npp->pdata);
if (id->throwOnNextInvoke) {
id->throwOnNextInvoke = false;
if (argCount == 0) {
NPN_SetException(npobj, nullptr);
}
else {
for (uint32_t i = 0; i < argCount; i++) {
const NPString* argstr = &NPVARIANT_TO_STRING(args[i]);
NPN_SetException(npobj, argstr->UTF8Characters);
}
}
return false;
}
for (int i = 0; i < int(ARRAY_LENGTH(sPluginMethodIdentifiers)); i++) {
if (name == sPluginMethodIdentifiers[i])
return sPluginMethodFunctions[i](npobj, args, argCount, result);
}
return false;
}
bool
scriptableInvokeDefault(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result)
{
NPP npp = static_cast<TestNPObject*>(npobj)->npp;
InstanceData* id = static_cast<InstanceData*>(npp->pdata);
if (id->throwOnNextInvoke) {
id->throwOnNextInvoke = false;
if (argCount == 0) {
NPN_SetException(npobj, nullptr);
}
else {
for (uint32_t i = 0; i < argCount; i++) {
const NPString* argstr = &NPVARIANT_TO_STRING(args[i]);
NPN_SetException(npobj, argstr->UTF8Characters);
}
}
return false;
}
ostringstream value;
value << sPluginName;
for (uint32_t i = 0; i < argCount; i++) {
switch(args[i].type) {
case NPVariantType_Int32:
value << ";" << NPVARIANT_TO_INT32(args[i]);
break;
case NPVariantType_String: {
const NPString* argstr = &NPVARIANT_TO_STRING(args[i]);
value << ";" << argstr->UTF8Characters;
break;
}
case NPVariantType_Void:
value << ";undefined";
break;
case NPVariantType_Null:
value << ";null";
break;
default:
value << ";other";
}
}
char *outval = NPN_StrDup(value.str().c_str());
STRINGZ_TO_NPVARIANT(outval, *result);
return true;
}
bool
scriptableHasProperty(NPObject* npobj, NPIdentifier name)
{
if (NPN_IdentifierIsString(name)) {
NPUTF8 *asUTF8 = NPN_UTF8FromIdentifier(name);
if (NPN_GetStringIdentifier(asUTF8) != name) {
Crash();
}
NPN_MemFree(asUTF8);
}
else {
if (NPN_GetIntIdentifier(NPN_IntFromIdentifier(name)) != name) {
Crash();
}
}
for (int i = 0; i < int(ARRAY_LENGTH(sPluginPropertyIdentifiers)); i++) {
if (name == sPluginPropertyIdentifiers[i]) {
return true;
}
}
return false;
}
bool
scriptableGetProperty(NPObject* npobj, NPIdentifier name, NPVariant* result)
{
for (int i = 0; i < int(ARRAY_LENGTH(sPluginPropertyIdentifiers)); i++) {
if (name == sPluginPropertyIdentifiers[i]) {
DuplicateNPVariant(*result, sPluginPropertyValues[i]);
return true;
}
}
return false;
}
bool
scriptableSetProperty(NPObject* npobj, NPIdentifier name, const NPVariant* value)
{
for (int i = 0; i < int(ARRAY_LENGTH(sPluginPropertyIdentifiers)); i++) {
if (name == sPluginPropertyIdentifiers[i]) {
NPN_ReleaseVariantValue(&sPluginPropertyValues[i]);
DuplicateNPVariant(sPluginPropertyValues[i], *value);
return true;
}
}
return false;
}
bool
scriptableRemoveProperty(NPObject* npobj, NPIdentifier name)
{
for (int i = 0; i < int(ARRAY_LENGTH(sPluginPropertyIdentifiers)); i++) {
if (name == sPluginPropertyIdentifiers[i]) {
NPN_ReleaseVariantValue(&sPluginPropertyValues[i]);
return true;
}
}
return false;
}
bool
scriptableEnumerate(NPObject* npobj, NPIdentifier** identifier, uint32_t* count)
{
const int bufsize = sizeof(NPIdentifier) * ARRAY_LENGTH(sPluginMethodIdentifierNames);
NPIdentifier* ids = (NPIdentifier*) NPN_MemAlloc(bufsize);
if (!ids)
return false;
memcpy(ids, sPluginMethodIdentifiers, bufsize);
*identifier = ids;
*count = ARRAY_LENGTH(sPluginMethodIdentifierNames);
return true;
}
bool
scriptableConstruct(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result)
{
return false;
}
//
// test functions
//
static bool
compareVariants(NPP instance, const NPVariant* var1, const NPVariant* var2)
{
bool success = true;
InstanceData* id = static_cast<InstanceData*>(instance->pdata);
if (var1->type != var2->type) {
id->err << "Variant types don't match; got " << var1->type <<
" expected " << var2->type;
return false;
}
switch (var1->type) {
case NPVariantType_Int32: {
int32_t result = NPVARIANT_TO_INT32(*var1);
int32_t expected = NPVARIANT_TO_INT32(*var2);
if (result != expected) {
id->err << "Variant values don't match; got " << result <<
" expected " << expected;
success = false;
}
break;
}
case NPVariantType_Double: {
double result = NPVARIANT_TO_DOUBLE(*var1);
double expected = NPVARIANT_TO_DOUBLE(*var2);
if (result != expected) {
id->err << "Variant values don't match (double)";
success = false;
}
break;
}
case NPVariantType_Void: {
// void values are always equivalent
break;
}
case NPVariantType_Null: {
// null values are always equivalent
break;
}
case NPVariantType_Bool: {
bool result = NPVARIANT_TO_BOOLEAN(*var1);
bool expected = NPVARIANT_TO_BOOLEAN(*var2);
if (result != expected) {
id->err << "Variant values don't match (bool)";
success = false;
}
break;
}
case NPVariantType_String: {
const NPString* result = &NPVARIANT_TO_STRING(*var1);
const NPString* expected = &NPVARIANT_TO_STRING(*var2);
if (strcmp(result->UTF8Characters, expected->UTF8Characters) ||
strlen(result->UTF8Characters) != strlen(expected->UTF8Characters)) {
id->err << "Variant values don't match; got " <<
result->UTF8Characters << " expected " <<
expected->UTF8Characters;
success = false;
}
break;
}
case NPVariantType_Object: {
uint32_t i, identifierCount = 0;
NPIdentifier* identifiers;
NPObject* result = NPVARIANT_TO_OBJECT(*var1);
NPObject* expected = NPVARIANT_TO_OBJECT(*var2);
bool enumerate_result = NPN_Enumerate(instance, expected,
&identifiers, &identifierCount);
if (!enumerate_result) {
id->err << "NPN_Enumerate failed";
success = false;
}
for (i = 0; i < identifierCount; i++) {
NPVariant resultVariant, expectedVariant;
if (!NPN_GetProperty(instance, expected, identifiers[i],
&expectedVariant)) {
id->err << "NPN_GetProperty returned false";
success = false;
}
else {
if (!NPN_HasProperty(instance, result, identifiers[i])) {
id->err << "NPN_HasProperty returned false";
success = false;
}
else {
if (!NPN_GetProperty(instance, result, identifiers[i],
&resultVariant)) {
id->err << "NPN_GetProperty 2 returned false";
success = false;
}
else {
success = compareVariants(instance, &resultVariant,
&expectedVariant);
NPN_ReleaseVariantValue(&expectedVariant);
}
}
NPN_ReleaseVariantValue(&resultVariant);
}
}
NPN_MemFree(identifiers);
break;
}
default:
id->err << "Unknown variant type";
success = false;
}
return success;
}
static bool
throwExceptionNextInvoke(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result)
{
NPP npp = static_cast<TestNPObject*>(npobj)->npp;
InstanceData* id = static_cast<InstanceData*>(npp->pdata);
id->throwOnNextInvoke = true;
BOOLEAN_TO_NPVARIANT(true, *result);
return true;
}
static bool
npnInvokeDefaultTest(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result)
{
bool success = false;
NPP npp = static_cast<TestNPObject*>(npobj)->npp;
NPObject* windowObject;
NPN_GetValue(npp, NPNVWindowNPObject, &windowObject);
if (!windowObject)
return false;
NPIdentifier objectIdentifier = variantToIdentifier(args[0]);
if (!objectIdentifier)
return false;
NPVariant objectVariant;
if (NPN_GetProperty(npp, windowObject, objectIdentifier,
&objectVariant)) {
if (NPVARIANT_IS_OBJECT(objectVariant)) {
NPObject* selfObject = NPVARIANT_TO_OBJECT(objectVariant);
if (selfObject != nullptr) {
NPVariant resultVariant;
if (NPN_InvokeDefault(npp, selfObject, argCount > 1 ? &args[1] : nullptr,
argCount - 1, &resultVariant)) {
*result = resultVariant;
success = true;
}
}
}
NPN_ReleaseVariantValue(&objectVariant);
}
NPN_ReleaseObject(windowObject);
return success;
}
static bool
npnInvokeTest(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result)
{
NPP npp = static_cast<TestNPObject*>(npobj)->npp;
InstanceData* id = static_cast<InstanceData*>(npp->pdata);
id->err.str("");
if (argCount < 2)
return false;
NPIdentifier function = variantToIdentifier(args[0]);
if (!function)
return false;
NPObject* windowObject;
NPN_GetValue(npp, NPNVWindowNPObject, &windowObject);
if (!windowObject)
return false;
NPVariant invokeResult;
bool invokeReturn = NPN_Invoke(npp, windowObject, function,
argCount > 2 ? &args[2] : nullptr, argCount - 2, &invokeResult);
bool compareResult = compareVariants(npp, &invokeResult, &args[1]);
NPN_ReleaseObject(windowObject);
NPN_ReleaseVariantValue(&invokeResult);
BOOLEAN_TO_NPVARIANT(invokeReturn && compareResult, *result);
return true;
}
static bool
npnEvaluateTest(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result)
{
bool success = false;
NPP npp = static_cast<TestNPObject*>(npobj)->npp;
if (argCount != 1)
return false;
if (!NPVARIANT_IS_STRING(args[0]))
return false;
NPObject* windowObject;
NPN_GetValue(npp, NPNVWindowNPObject, &windowObject);
if (!windowObject)
return false;
success = NPN_Evaluate(npp, windowObject, (NPString*)&NPVARIANT_TO_STRING(args[0]), result);
NPN_ReleaseObject(windowObject);
return success;
}
static bool
setUndefinedValueTest(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result)
{
NPP npp = static_cast<TestNPObject*>(npobj)->npp;
NPError err = NPN_SetValue(npp, (NPPVariable)0x0, 0x0);
BOOLEAN_TO_NPVARIANT((err == NPERR_NO_ERROR), *result);
return true;
}
static bool
identifierToStringTest(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result)
{
if (argCount != 1)
return false;
NPIdentifier identifier = variantToIdentifier(args[0]);
if (!identifier)
return false;
NPUTF8* utf8String = NPN_UTF8FromIdentifier(identifier);
if (!utf8String)
return false;
STRINGZ_TO_NPVARIANT(utf8String, *result);
return true;
}
static bool
queryPrivateModeState(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result)
{
if (argCount != 0)
return false;
NPBool pms = false;
NPN_GetValue(static_cast<TestNPObject*>(npobj)->npp, NPNVprivateModeBool, &pms);
BOOLEAN_TO_NPVARIANT(pms, *result);
return true;
}
static bool
lastReportedPrivateModeState(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result)
{
if (argCount != 0)
return false;
InstanceData* id = static_cast<InstanceData*>(static_cast<TestNPObject*>(npobj)->npp->pdata);
BOOLEAN_TO_NPVARIANT(id->lastReportedPrivateModeState, *result);
return true;
}
static bool
hasWidget(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result)
{
if (argCount != 0)
return false;
InstanceData* id = static_cast<InstanceData*>(static_cast<TestNPObject*>(npobj)->npp->pdata);
BOOLEAN_TO_NPVARIANT(id->hasWidget, *result);
return true;
}
static bool
getEdge(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result)
{
if (argCount != 1)
return false;
if (!NPVARIANT_IS_INT32(args[0]))
return false;
int32_t edge = NPVARIANT_TO_INT32(args[0]);
if (edge < EDGE_LEFT || edge > EDGE_BOTTOM)
return false;
InstanceData* id = static_cast<InstanceData*>(static_cast<TestNPObject*>(npobj)->npp->pdata);
int32_t r = pluginGetEdge(id, RectEdge(edge));
if (r == NPTEST_INT32_ERROR)
return false;
INT32_TO_NPVARIANT(r, *result);
return true;
}
static bool
getClipRegionRectCount(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result)
{
if (argCount != 0)
return false;
InstanceData* id = static_cast<InstanceData*>(static_cast<TestNPObject*>(npobj)->npp->pdata);
int32_t r = pluginGetClipRegionRectCount(id);
if (r == NPTEST_INT32_ERROR)
return false;
INT32_TO_NPVARIANT(r, *result);
return true;
}
static bool
getClipRegionRectEdge(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result)
{
if (argCount != 2)
return false;
if (!NPVARIANT_IS_INT32(args[0]))
return false;
int32_t rectIndex = NPVARIANT_TO_INT32(args[0]);
if (rectIndex < 0)
return false;
if (!NPVARIANT_IS_INT32(args[1]))
return false;
int32_t edge = NPVARIANT_TO_INT32(args[1]);
if (edge < EDGE_LEFT || edge > EDGE_BOTTOM)
return false;
InstanceData* id = static_cast<InstanceData*>(static_cast<TestNPObject*>(npobj)->npp->pdata);
int32_t r = pluginGetClipRegionRectEdge(id, rectIndex, RectEdge(edge));
if (r == NPTEST_INT32_ERROR)
return false;
INT32_TO_NPVARIANT(r, *result);
return true;
}
static bool
startWatchingInstanceCount(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result)
{
if (argCount != 0)
return false;
if (sWatchingInstanceCount)
return false;
sWatchingInstanceCount = true;
sInstanceCount = 0;
++sCurrentInstanceCountWatchGeneration;
return true;
}
static bool
getInstanceCount(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result)
{
if (argCount != 0)
return false;
if (!sWatchingInstanceCount)
return false;
INT32_TO_NPVARIANT(sInstanceCount, *result);
return true;
}
static bool
stopWatchingInstanceCount(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result)
{
if (argCount != 0)
return false;
if (!sWatchingInstanceCount)
return false;
sWatchingInstanceCount = false;
return true;
}
static bool
getLastMouseX(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result)
{
if (argCount != 0)
return false;
NPP npp = static_cast<TestNPObject*>(npobj)->npp;
InstanceData* id = static_cast<InstanceData*>(npp->pdata);
INT32_TO_NPVARIANT(id->lastMouseX, *result);
return true;
}
static bool
getLastMouseY(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result)
{
if (argCount != 0)
return false;
NPP npp = static_cast<TestNPObject*>(npobj)->npp;
InstanceData* id = static_cast<InstanceData*>(npp->pdata);
INT32_TO_NPVARIANT(id->lastMouseY, *result);
return true;
}
static bool
getPaintCount(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result)
{
if (argCount != 0)
return false;
NPP npp = static_cast<TestNPObject*>(npobj)->npp;
InstanceData* id = static_cast<InstanceData*>(npp->pdata);
INT32_TO_NPVARIANT(id->paintCount, *result);
return true;
}
static bool
getWidthAtLastPaint(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result)
{
if (argCount != 0)
return false;
NPP npp = static_cast<TestNPObject*>(npobj)->npp;
InstanceData* id = static_cast<InstanceData*>(npp->pdata);
INT32_TO_NPVARIANT(id->widthAtLastPaint, *result);
return true;
}
static bool
setInvalidateDuringPaint(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result)
{
if (argCount != 1)
return false;
if (!NPVARIANT_IS_BOOLEAN(args[0]))
return false;
bool doInvalidate = NPVARIANT_TO_BOOLEAN(args[0]);
NPP npp = static_cast<TestNPObject*>(npobj)->npp;
InstanceData* id = static_cast<InstanceData*>(npp->pdata);
id->invalidateDuringPaint = doInvalidate;
return true;
}
static bool
setSlowPaint(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result)
{
if (argCount != 1)
return false;
if (!NPVARIANT_IS_BOOLEAN(args[0]))
return false;
bool slow = NPVARIANT_TO_BOOLEAN(args[0]);
NPP npp = static_cast<TestNPObject*>(npobj)->npp;
InstanceData* id = static_cast<InstanceData*>(npp->pdata);
id->slowPaint = slow;
return true;
}
static bool
getError(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result)
{
if (argCount != 0)
return false;
NPP npp = static_cast<TestNPObject*>(npobj)->npp;
InstanceData* id = static_cast<InstanceData*>(npp->pdata);
if (id->err.str().length() == 0) {
char *outval = NPN_StrDup(SUCCESS_STRING);
STRINGZ_TO_NPVARIANT(outval, *result);
} else {
char *outval = NPN_StrDup(id->err.str().c_str());
STRINGZ_TO_NPVARIANT(outval, *result);
}
return true;
}
static bool
doInternalConsistencyCheck(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result)
{
if (argCount != 0)
return false;
NPP npp = static_cast<TestNPObject*>(npobj)->npp;
InstanceData* id = static_cast<InstanceData*>(npp->pdata);
string error;
pluginDoInternalConsistencyCheck(id, error);
NPUTF8* utf8String = (NPUTF8*)NPN_MemAlloc(error.length() + 1);
if (!utf8String) {
return false;
}
memcpy(utf8String, error.c_str(), error.length() + 1);
STRINGZ_TO_NPVARIANT(utf8String, *result);
return true;
}
static bool
convertPointX(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result)
{
if (argCount != 4)
return false;
NPP npp = static_cast<TestNPObject*>(npobj)->npp;
if (!NPVARIANT_IS_INT32(args[0]))
return false;
int32_t sourceSpace = NPVARIANT_TO_INT32(args[0]);
if (!NPVARIANT_IS_INT32(args[1]))
return false;
double sourceX = static_cast<double>(NPVARIANT_TO_INT32(args[1]));
if (!NPVARIANT_IS_INT32(args[2]))
return false;
double sourceY = static_cast<double>(NPVARIANT_TO_INT32(args[2]));
if (!NPVARIANT_IS_INT32(args[3]))
return false;
int32_t destSpace = NPVARIANT_TO_INT32(args[3]);
double resultX, resultY;
NPN_ConvertPoint(npp, sourceX, sourceY, (NPCoordinateSpace)sourceSpace, &resultX, &resultY, (NPCoordinateSpace)destSpace);
DOUBLE_TO_NPVARIANT(resultX, *result);
return true;
}
static bool
convertPointY(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result)
{
if (argCount != 4)
return false;
NPP npp = static_cast<TestNPObject*>(npobj)->npp;
if (!NPVARIANT_IS_INT32(args[0]))
return false;
int32_t sourceSpace = NPVARIANT_TO_INT32(args[0]);
if (!NPVARIANT_IS_INT32(args[1]))
return false;
double sourceX = static_cast<double>(NPVARIANT_TO_INT32(args[1]));
if (!NPVARIANT_IS_INT32(args[2]))
return false;
double sourceY = static_cast<double>(NPVARIANT_TO_INT32(args[2]));
if (!NPVARIANT_IS_INT32(args[3]))
return false;
int32_t destSpace = NPVARIANT_TO_INT32(args[3]);
double resultX, resultY;
NPN_ConvertPoint(npp, sourceX, sourceY, (NPCoordinateSpace)sourceSpace, &resultX, &resultY, (NPCoordinateSpace)destSpace);
DOUBLE_TO_NPVARIANT(resultY, *result);
return true;
}
static bool
streamTest(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result)
{
// .streamTest(url, doPost, doNull, writeCallback, notifyCallback, redirectCallback, allowRedirects)
if (7 != argCount)
return false;
NPP npp = static_cast<TestNPObject*>(npobj)->npp;
if (!NPVARIANT_IS_STRING(args[0]))
return false;
NPString url = NPVARIANT_TO_STRING(args[0]);
if (!NPVARIANT_IS_BOOLEAN(args[1]))
return false;
bool doPost = NPVARIANT_TO_BOOLEAN(args[1]);
NPString postData = { nullptr, 0 };
if (NPVARIANT_IS_STRING(args[2])) {
postData = NPVARIANT_TO_STRING(args[2]);
}
else {
if (!NPVARIANT_IS_NULL(args[2])) {
return false;
}
}
NPObject* writeCallback = nullptr;
if (NPVARIANT_IS_OBJECT(args[3])) {
writeCallback = NPVARIANT_TO_OBJECT(args[3]);
}
else {
if (!NPVARIANT_IS_NULL(args[3])) {
return false;
}
}
NPObject* notifyCallback = nullptr;
if (NPVARIANT_IS_OBJECT(args[4])) {
notifyCallback = NPVARIANT_TO_OBJECT(args[4]);
}
else {
if (!NPVARIANT_IS_NULL(args[4])) {
return false;
}
}
NPObject* redirectCallback = nullptr;
if (NPVARIANT_IS_OBJECT(args[5])) {
redirectCallback = NPVARIANT_TO_OBJECT(args[5]);
}
else {
if (!NPVARIANT_IS_NULL(args[5])) {
return false;
}
}
if (!NPVARIANT_IS_BOOLEAN(args[6]))
return false;
bool allowRedirects = NPVARIANT_TO_BOOLEAN(args[6]);
URLNotifyData* ndata = new URLNotifyData;
ndata->cookie = "dynamic-cookie";
ndata->writeCallback = writeCallback;
ndata->notifyCallback = notifyCallback;
ndata->redirectCallback = redirectCallback;
ndata->size = 0;
ndata->data = nullptr;
ndata->allowRedirects = allowRedirects;
/* null-terminate "url" */
char* urlstr = (char*) malloc(url.UTF8Length + 1);
strncpy(urlstr, url.UTF8Characters, url.UTF8Length);
urlstr[url.UTF8Length] = '\0';
NPError err;
if (doPost) {
err = NPN_PostURLNotify(npp, urlstr, nullptr,
postData.UTF8Length, postData.UTF8Characters,
false, ndata);
}
else {
err = NPN_GetURLNotify(npp, urlstr, nullptr, ndata);
}
free(urlstr);
if (NPERR_NO_ERROR == err) {
if (ndata->writeCallback) {
NPN_RetainObject(ndata->writeCallback);
}
if (ndata->notifyCallback) {
NPN_RetainObject(ndata->notifyCallback);
}
if (ndata->redirectCallback) {
NPN_RetainObject(ndata->redirectCallback);
}
BOOLEAN_TO_NPVARIANT(true, *result);
}
else {
delete ndata;
BOOLEAN_TO_NPVARIANT(false, *result);
}
return true;
}
static bool
setPluginWantsAllStreams(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result)
{
if (1 != argCount)
return false;
if (!NPVARIANT_IS_BOOLEAN(args[0]))
return false;
bool wantsAllStreams = NPVARIANT_TO_BOOLEAN(args[0]);
NPP npp = static_cast<TestNPObject*>(npobj)->npp;
InstanceData* id = static_cast<InstanceData*>(npp->pdata);
id->wantsAllStreams = wantsAllStreams;
return true;
}
static bool
crashPlugin(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result)
{
IntentionalCrash();
VOID_TO_NPVARIANT(*result);
return true;
}
static bool
crashOnDestroy(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result)
{
NPP npp = static_cast<TestNPObject*>(npobj)->npp;
InstanceData* id = static_cast<InstanceData*>(npp->pdata);
id->crashOnDestroy = true;
VOID_TO_NPVARIANT(*result);
return true;
}
static bool
setColor(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result)
{
if (argCount != 1)
return false;
if (!NPVARIANT_IS_STRING(args[0]))
return false;
const NPString* str = &NPVARIANT_TO_STRING(args[0]);
NPP npp = static_cast<TestNPObject*>(npobj)->npp;
InstanceData* id = static_cast<InstanceData*>(npp->pdata);
id->scriptableObject->drawColor =
parseHexColor(str->UTF8Characters, str->UTF8Length);
NPRect r;
r.left = 0;
r.top = 0;
r.right = id->window.width;
r.bottom = id->window.height;
if (id->asyncDrawing == AD_NONE) {
NPN_InvalidateRect(npp, &r);
} else if (id->asyncDrawing == AD_BITMAP) {
drawAsyncBitmapColor(id);
}
#ifdef XP_WIN
else if (id->asyncDrawing == AD_DXGI) {
pluginDrawAsyncDxgiColor(id);
}
#endif
VOID_TO_NPVARIANT(*result);
return true;
}
void notifyDidPaint(InstanceData* instanceData)
{
++instanceData->paintCount;
instanceData->widthAtLastPaint = instanceData->window.width;
if (instanceData->invalidateDuringPaint) {
NPRect r;
r.left = 0;
r.top = 0;
r.right = instanceData->window.width;
r.bottom = instanceData->window.height;
NPN_InvalidateRect(instanceData->npp, &r);
}
if (instanceData->slowPaint) {
XPSleep(1);
}
if (instanceData->runScriptOnPaint) {
NPObject* o = nullptr;
NPN_GetValue(instanceData->npp, NPNVPluginElementNPObject, &o);
if (o) {
NPVariant param;
STRINGZ_TO_NPVARIANT("paintscript", param);
NPVariant result;
NPN_Invoke(instanceData->npp, o, NPN_GetStringIdentifier("getAttribute"),
&param, 1, &result);
if (NPVARIANT_IS_STRING(result)) {
NPObject* windowObject;
NPN_GetValue(instanceData->npp, NPNVWindowNPObject, &windowObject);
if (windowObject) {
NPVariant evalResult;
NPN_Evaluate(instanceData->npp, windowObject,
(NPString*)&NPVARIANT_TO_STRING(result), &evalResult);
NPN_ReleaseVariantValue(&evalResult);
NPN_ReleaseObject(windowObject);
}
}
NPN_ReleaseVariantValue(&result);
NPN_ReleaseObject(o);
}
}
}
static const NPClass kTestSharedNPClass = {
NP_CLASS_STRUCT_VERSION,
// Everything else is nullptr
};
static bool getJavaCodebase(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result)
{
if (argCount != 0) {
return false;
}
NPP npp = static_cast<TestNPObject*>(npobj)->npp;
InstanceData* id = static_cast<InstanceData*>(npp->pdata);
char *outval = NPN_StrDup(id->javaCodebase.c_str());
STRINGZ_TO_NPVARIANT(outval, *result);
return true;
}
static bool getObjectValue(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result)
{
NPP npp = static_cast<TestNPObject*>(npobj)->npp;
NPObject* o = NPN_CreateObject(npp,
const_cast<NPClass*>(&kTestSharedNPClass));
if (!o)
return false;
OBJECT_TO_NPVARIANT(o, *result);
return true;
}
static bool checkObjectValue(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result)
{
VOID_TO_NPVARIANT(*result);
if (1 != argCount)
return false;
if (!NPVARIANT_IS_OBJECT(args[0]))
return false;
NPObject* o = NPVARIANT_TO_OBJECT(args[0]);
BOOLEAN_TO_NPVARIANT(o->_class == &kTestSharedNPClass, *result);
return true;
}
static bool enableFPExceptions(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result)
{
VOID_TO_NPVARIANT(*result);
#if defined(XP_WIN) && defined(_M_IX86)
_control87(0, _MCW_EM);
return true;
#else
return false;
#endif
}
// caller is responsible for freeing return buffer
static char* URLForInstanceWindow(NPP instance) {
char *outString = nullptr;
NPObject* windowObject = nullptr;
NPError err = NPN_GetValue(instance, NPNVWindowNPObject, &windowObject);
if (err != NPERR_NO_ERROR || !windowObject)
return nullptr;
NPIdentifier locationIdentifier = NPN_GetStringIdentifier("location");
NPVariant locationVariant;
if (NPN_GetProperty(instance, windowObject, locationIdentifier, &locationVariant)) {
NPObject *locationObject = locationVariant.value.objectValue;
if (locationObject) {
NPIdentifier hrefIdentifier = NPN_GetStringIdentifier("href");
NPVariant hrefVariant;
if (NPN_GetProperty(instance, locationObject, hrefIdentifier, &hrefVariant)) {
const NPString* hrefString = &NPVARIANT_TO_STRING(hrefVariant);
if (hrefString) {
outString = (char *)malloc(hrefString->UTF8Length + 1);
if (outString) {
strcpy(outString, hrefString->UTF8Characters);
outString[hrefString->UTF8Length] = '\0';
}
}
NPN_ReleaseVariantValue(&hrefVariant);
}
}
NPN_ReleaseVariantValue(&locationVariant);
}
NPN_ReleaseObject(windowObject);
return outString;
}
static bool
setCookie(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result)
{
if (argCount != 1)
return false;
if (!NPVARIANT_IS_STRING(args[0]))
return false;
const NPString* cookie = &NPVARIANT_TO_STRING(args[0]);
NPP npp = static_cast<TestNPObject*>(npobj)->npp;
char* url = URLForInstanceWindow(npp);
if (!url)
return false;
NPError err = NPN_SetValueForURL(npp, NPNURLVCookie, url, cookie->UTF8Characters, cookie->UTF8Length);
free(url);
return (err == NPERR_NO_ERROR);
}
static bool
getCookie(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result)
{
if (argCount != 0)
return false;
NPP npp = static_cast<TestNPObject*>(npobj)->npp;
char* url = URLForInstanceWindow(npp);
if (!url)
return false;
char* cookie = nullptr;
unsigned int length = 0;
NPError err = NPN_GetValueForURL(npp, NPNURLVCookie, url, &cookie, &length);
free(url);
if (err != NPERR_NO_ERROR || !cookie)
return false;
STRINGZ_TO_NPVARIANT(cookie, *result);
return true;
}
static bool
getAuthInfo(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result)
{
if (argCount != 5)
return false;
NPP npp = static_cast<TestNPObject*>(npobj)->npp;
if (!NPVARIANT_IS_STRING(args[0]) || !NPVARIANT_IS_STRING(args[1]) ||
!NPVARIANT_IS_INT32(args[2]) || !NPVARIANT_IS_STRING(args[3]) ||
!NPVARIANT_IS_STRING(args[4]))
return false;
const NPString* protocol = &NPVARIANT_TO_STRING(args[0]);
const NPString* host = &NPVARIANT_TO_STRING(args[1]);
uint32_t port = NPVARIANT_TO_INT32(args[2]);
const NPString* scheme = &NPVARIANT_TO_STRING(args[3]);
const NPString* realm = &NPVARIANT_TO_STRING(args[4]);
char* username = nullptr;
char* password = nullptr;
uint32_t ulen = 0, plen = 0;
NPError err = NPN_GetAuthenticationInfo(npp,
protocol->UTF8Characters,
host->UTF8Characters,
port,
scheme->UTF8Characters,
realm->UTF8Characters,
&username,
&ulen,
&password,
&plen);
if (err != NPERR_NO_ERROR) {
return false;
}
char* outstring = (char*)NPN_MemAlloc(ulen + plen + 2);
memset(outstring, 0, ulen + plen + 2);
strncpy(outstring, username, ulen);
strcat(outstring, "|");
strncat(outstring, password, plen);
STRINGZ_TO_NPVARIANT(outstring, *result);
NPN_MemFree(username);
NPN_MemFree(password);
return true;
}
static void timerCallback(NPP npp, uint32_t timerID)
{
InstanceData* id = static_cast<InstanceData*>(npp->pdata);
currentTimerEventCount++;
timerEvent event = timerEvents[currentTimerEventCount];
NPObject* windowObject;
NPN_GetValue(npp, NPNVWindowNPObject, &windowObject);
if (!windowObject)
return;
NPVariant rval;
if (timerID != id->timerID[event.timerIdReceive]) {
id->timerTestResult = false;
}
if (currentTimerEventCount == totalTimerEvents - 1) {
NPVariant arg;
BOOLEAN_TO_NPVARIANT(id->timerTestResult, arg);
NPN_Invoke(npp, windowObject, NPN_GetStringIdentifier(id->timerTestScriptCallback.c_str()), &arg, 1, &rval);
NPN_ReleaseVariantValue(&arg);
}
NPN_ReleaseObject(windowObject);
if (event.timerIdSchedule > -1) {
id->timerID[event.timerIdSchedule] = NPN_ScheduleTimer(npp, event.timerInterval, event.timerRepeat, timerCallback);
}
if (event.timerIdUnschedule > -1) {
NPN_UnscheduleTimer(npp, id->timerID[event.timerIdUnschedule]);
}
}
static bool
timerTest(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result)
{
NPP npp = static_cast<TestNPObject*>(npobj)->npp;
InstanceData* id = static_cast<InstanceData*>(npp->pdata);
currentTimerEventCount = 0;
if (argCount < 1 || !NPVARIANT_IS_STRING(args[0]))
return false;
const NPString* argstr = &NPVARIANT_TO_STRING(args[0]);
id->timerTestScriptCallback = argstr->UTF8Characters;
id->timerTestResult = true;
timerEvent event = timerEvents[currentTimerEventCount];
id->timerID[event.timerIdSchedule] = NPN_ScheduleTimer(npp, event.timerInterval, event.timerRepeat, timerCallback);
return id->timerID[event.timerIdSchedule] != 0;
}
#ifdef XP_WIN
void
ThreadProc(void* cookie)
#else
void*
ThreadProc(void* cookie)
#endif
{
NPObject* npobj = (NPObject*)cookie;
NPP npp = static_cast<TestNPObject*>(npobj)->npp;
InstanceData* id = static_cast<InstanceData*>(npp->pdata);
id->asyncTestPhase = 1;
NPN_PluginThreadAsyncCall(npp, asyncCallback, (void*)npobj);
#ifndef XP_WIN
return nullptr;
#endif
}
void
asyncCallback(void* cookie)
{
NPObject* npobj = (NPObject*)cookie;
NPP npp = static_cast<TestNPObject*>(npobj)->npp;
InstanceData* id = static_cast<InstanceData*>(npp->pdata);
switch (id->asyncTestPhase) {
// async callback triggered from same thread
case 0:
#ifdef XP_WIN
if (_beginthread(ThreadProc, 0, (void*)npobj) == -1)
id->asyncCallbackResult = false;
#else
pthread_t tid;
if (pthread_create(&tid, 0, ThreadProc, (void*)npobj))
id->asyncCallbackResult = false;
#endif
break;
// async callback triggered from different thread
default:
NPObject* windowObject;
NPN_GetValue(npp, NPNVWindowNPObject, &windowObject);
if (!windowObject)
return;
NPVariant arg, rval;
BOOLEAN_TO_NPVARIANT(id->asyncCallbackResult, arg);
NPN_Invoke(npp, windowObject, NPN_GetStringIdentifier(id->asyncTestScriptCallback.c_str()), &arg, 1, &rval);
NPN_ReleaseVariantValue(&arg);
NPN_ReleaseObject(windowObject);
break;
}
}
static bool
asyncCallbackTest(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result)
{
NPP npp = static_cast<TestNPObject*>(npobj)->npp;
InstanceData* id = static_cast<InstanceData*>(npp->pdata);
if (argCount < 1 || !NPVARIANT_IS_STRING(args[0]))
return false;
const NPString* argstr = &NPVARIANT_TO_STRING(args[0]);
id->asyncTestScriptCallback = argstr->UTF8Characters;
id->asyncTestPhase = 0;
id->asyncCallbackResult = true;
NPN_PluginThreadAsyncCall(npp, asyncCallback, (void*)npobj);
return true;
}
static bool
GCRaceInvoke(NPObject*, NPIdentifier, const NPVariant*, uint32_t, NPVariant*)
{
return false;
}
static bool
GCRaceInvokeDefault(NPObject* o, const NPVariant* args, uint32_t argCount,
NPVariant* result)
{
if (1 != argCount || !NPVARIANT_IS_INT32(args[0]) ||
35 != NPVARIANT_TO_INT32(args[0]))
return false;
return true;
}
static const NPClass kGCRaceClass = {
NP_CLASS_STRUCT_VERSION,
nullptr,
nullptr,
nullptr,
nullptr,
GCRaceInvoke,
GCRaceInvokeDefault,
nullptr,
nullptr,
nullptr,
nullptr,
nullptr,
nullptr
};
struct GCRaceData
{
GCRaceData(NPP npp, NPObject* callback, NPObject* localFunc)
: npp_(npp)
, callback_(callback)
, localFunc_(localFunc)
{
NPN_RetainObject(callback_);
NPN_RetainObject(localFunc_);
}
~GCRaceData()
{
NPN_ReleaseObject(callback_);
NPN_ReleaseObject(localFunc_);
}
NPP npp_;
NPObject* callback_;
NPObject* localFunc_;
};
static void
FinishGCRace(void* closure)
{
GCRaceData* rd = static_cast<GCRaceData*>(closure);
XPSleep(5);
NPVariant arg;
OBJECT_TO_NPVARIANT(rd->localFunc_, arg);
NPVariant result;
bool ok = NPN_InvokeDefault(rd->npp_, rd->callback_, &arg, 1, &result);
if (!ok)
return;
NPN_ReleaseVariantValue(&result);
delete rd;
}
bool
checkGCRace(NPObject* npobj, const NPVariant* args, uint32_t argCount,
NPVariant* result)
{
if (1 != argCount || !NPVARIANT_IS_OBJECT(args[0]))
return false;
NPP npp = static_cast<TestNPObject*>(npobj)->npp;
NPObject* localFunc =
NPN_CreateObject(npp, const_cast<NPClass*>(&kGCRaceClass));
GCRaceData* rd =
new GCRaceData(npp, NPVARIANT_TO_OBJECT(args[0]), localFunc);
NPN_PluginThreadAsyncCall(npp, FinishGCRace, rd);
OBJECT_TO_NPVARIANT(localFunc, *result);
return true;
}
bool
hangPlugin(NPObject* npobj, const NPVariant* args, uint32_t argCount,
NPVariant* result)
{
mozilla::NoteIntentionalCrash("plugin");
bool busyHang = false;
if ((argCount == 1) && NPVARIANT_IS_BOOLEAN(args[0])) {
busyHang = NPVARIANT_TO_BOOLEAN(args[0]);
}
if (busyHang) {
const time_t start = std::time(nullptr);
while ((std::time(nullptr) - start) < 100000) {
volatile int dummy = 0;
for (int i=0; i<1000; ++i) {
dummy++;
}
}
} else {
#ifdef XP_WIN
Sleep(100000000);
Sleep(100000000);
#else
pause();
pause();
#endif
}
// NB: returning true here means that we weren't terminated, and
// thus the hang detection/handling didn't work correctly. The
// test harness will succeed in calling this function, and the
// test will fail.
return true;
}
bool
stallPlugin(NPObject* npobj, const NPVariant* args, uint32_t argCount,
NPVariant* result)
{
uint32_t stallTimeSeconds = 0;
if ((argCount == 1) && NPVARIANT_IS_INT32(args[0])) {
stallTimeSeconds = (uint32_t) NPVARIANT_TO_INT32(args[0]);
}
#ifdef XP_WIN
Sleep(stallTimeSeconds * 1000U);
#else
sleep(stallTimeSeconds);
#endif
return true;
}
#if defined(MOZ_WIDGET_GTK)
bool
getClipboardText(NPObject* npobj, const NPVariant* args, uint32_t argCount,
NPVariant* result)
{
NPP npp = static_cast<TestNPObject*>(npobj)->npp;
InstanceData* id = static_cast<InstanceData*>(npp->pdata);
string sel = pluginGetClipboardText(id);
uint32_t len = sel.size();
char* selCopy = static_cast<char*>(NPN_MemAlloc(1 + len));
if (!selCopy)
return false;
memcpy(selCopy, sel.c_str(), len);
selCopy[len] = '\0';
STRINGN_TO_NPVARIANT(selCopy, len, *result);
// *result owns str now
return true;
}
bool
crashPluginInNestedLoop(NPObject* npobj, const NPVariant* args,
uint32_t argCount, NPVariant* result)
{
NPP npp = static_cast<TestNPObject*>(npobj)->npp;
InstanceData* id = static_cast<InstanceData*>(npp->pdata);
return pluginCrashInNestedLoop(id);
}
bool
destroySharedGfxStuff(NPObject* npobj, const NPVariant* args,
uint32_t argCount, NPVariant* result)
{
NPP npp = static_cast<TestNPObject*>(npobj)->npp;
InstanceData* id = static_cast<InstanceData*>(npp->pdata);
return pluginDestroySharedGfxStuff(id);
}
#else
bool
getClipboardText(NPObject* npobj, const NPVariant* args, uint32_t argCount,
NPVariant* result)
{
// XXX Not implemented!
return false;
}
bool
crashPluginInNestedLoop(NPObject* npobj, const NPVariant* args,
uint32_t argCount, NPVariant* result)
{
// XXX Not implemented!
return false;
}
bool
destroySharedGfxStuff(NPObject* npobj, const NPVariant* args,
uint32_t argCount, NPVariant* result)
{
// XXX Not implemented!
return false;
}
#endif
bool
callOnDestroy(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result)
{
NPP npp = static_cast<TestNPObject*>(npobj)->npp;
InstanceData* id = static_cast<InstanceData*>(npp->pdata);
if (id->callOnDestroy)
return false;
if (1 != argCount || !NPVARIANT_IS_OBJECT(args[0]))
return false;
id->callOnDestroy = NPVARIANT_TO_OBJECT(args[0]);
NPN_RetainObject(id->callOnDestroy);
return true;
}
// On Linux at least, a windowed plugin resize causes Flash Player to
// reconnect to the browser window. This method simulates that.
bool
reinitWidget(NPObject* npobj, const NPVariant* args, uint32_t argCount,
NPVariant* result)
{
if (argCount != 0)
return false;
NPP npp = static_cast<TestNPObject*>(npobj)->npp;
InstanceData* id = static_cast<InstanceData*>(npp->pdata);
if (!id->hasWidget)
return false;
pluginWidgetInit(id, id->window.window);
return true;
}
bool
propertyAndMethod(NPObject* npobj, const NPVariant* args, uint32_t argCount,
NPVariant* result)
{
INT32_TO_NPVARIANT(5, *result);
return true;
}
// Returns top-level window activation state as indicated by Cocoa NPAPI's
// NPCocoaEventWindowFocusChanged events - 'true' if active, 'false' if not.
// Throws an exception if no events have been received and thus this state
// is unknown.
bool
getTopLevelWindowActivationState(NPObject* npobj, const NPVariant* args, uint32_t argCount,
NPVariant* result)
{
if (argCount != 0)
return false;
NPP npp = static_cast<TestNPObject*>(npobj)->npp;
InstanceData* id = static_cast<InstanceData*>(npp->pdata);
// Throw an exception for unknown state.
if (id->topLevelWindowActivationState == ACTIVATION_STATE_UNKNOWN) {
return false;
}
if (id->topLevelWindowActivationState == ACTIVATION_STATE_ACTIVATED) {
BOOLEAN_TO_NPVARIANT(true, *result);
} else if (id->topLevelWindowActivationState == ACTIVATION_STATE_DEACTIVATED) {
BOOLEAN_TO_NPVARIANT(false, *result);
}
return true;
}
bool
getTopLevelWindowActivationEventCount(NPObject* npobj, const NPVariant* args, uint32_t argCount,
NPVariant* result)
{
if (argCount != 0)
return false;
NPP npp = static_cast<TestNPObject*>(npobj)->npp;
InstanceData* id = static_cast<InstanceData*>(npp->pdata);
INT32_TO_NPVARIANT(id->topLevelWindowActivationEventCount, *result);
return true;
}
// Returns top-level window activation state as indicated by Cocoa NPAPI's
// NPCocoaEventWindowFocusChanged events - 'true' if active, 'false' if not.
// Throws an exception if no events have been received and thus this state
// is unknown.
bool
getFocusState(NPObject* npobj, const NPVariant* args, uint32_t argCount,
NPVariant* result)
{
if (argCount != 0)
return false;
NPP npp = static_cast<TestNPObject*>(npobj)->npp;
InstanceData* id = static_cast<InstanceData*>(npp->pdata);
// Throw an exception for unknown state.
if (id->focusState == ACTIVATION_STATE_UNKNOWN) {
return false;
}
if (id->focusState == ACTIVATION_STATE_ACTIVATED) {
BOOLEAN_TO_NPVARIANT(true, *result);
} else if (id->focusState == ACTIVATION_STATE_DEACTIVATED) {
BOOLEAN_TO_NPVARIANT(false, *result);
}
return true;
}
bool
getFocusEventCount(NPObject* npobj, const NPVariant* args, uint32_t argCount,
NPVariant* result)
{
if (argCount != 0)
return false;
NPP npp = static_cast<TestNPObject*>(npobj)->npp;
InstanceData* id = static_cast<InstanceData*>(npp->pdata);
INT32_TO_NPVARIANT(id->focusEventCount, *result);
return true;
}
bool
getEventModel(NPObject* npobj, const NPVariant* args, uint32_t argCount,
NPVariant* result)
{
if (argCount != 0)
return false;
NPP npp = static_cast<TestNPObject*>(npobj)->npp;
InstanceData* id = static_cast<InstanceData*>(npp->pdata);
INT32_TO_NPVARIANT(id->eventModel, *result);
return true;
}
static bool
ReflectorHasMethod(NPObject* npobj, NPIdentifier name)
{
return false;
}
static bool
ReflectorHasProperty(NPObject* npobj, NPIdentifier name)
{
return true;
}
static bool
ReflectorGetProperty(NPObject* npobj, NPIdentifier name, NPVariant* result)
{
if (NPN_IdentifierIsString(name)) {
char* s = NPN_UTF8FromIdentifier(name);
STRINGZ_TO_NPVARIANT(s, *result);
return true;
}
INT32_TO_NPVARIANT(NPN_IntFromIdentifier(name), *result);
return true;
}
static const NPClass kReflectorNPClass = {
NP_CLASS_STRUCT_VERSION,
nullptr,
nullptr,
nullptr,
ReflectorHasMethod,
nullptr,
nullptr,
ReflectorHasProperty,
ReflectorGetProperty,
nullptr,
nullptr,
nullptr,
nullptr
};
bool
getReflector(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result)
{
if (0 != argCount)
return false;
NPP npp = static_cast<TestNPObject*>(npobj)->npp;
NPObject* reflector =
NPN_CreateObject(npp,
const_cast<NPClass*>(&kReflectorNPClass)); // retains
OBJECT_TO_NPVARIANT(reflector, *result);
return true;
}
bool isVisible(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result)
{
NPP npp = static_cast<TestNPObject*>(npobj)->npp;
InstanceData* id = static_cast<InstanceData*>(npp->pdata);
BOOLEAN_TO_NPVARIANT(id->window.clipRect.top != 0 ||
id->window.clipRect.left != 0 ||
id->window.clipRect.bottom != 0 ||
id->window.clipRect.right != 0, *result);
return true;
}
bool getWindowPosition(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result)
{
NPP npp = static_cast<TestNPObject*>(npobj)->npp;
InstanceData* id = static_cast<InstanceData*>(npp->pdata);
NPObject* window = nullptr;
NPError err = NPN_GetValue(npp, NPNVWindowNPObject, &window);
if (NPERR_NO_ERROR != err || !window)
return false;
NPIdentifier arrayID = NPN_GetStringIdentifier("Array");
NPVariant arrayFunctionV;
bool ok = NPN_GetProperty(npp, window, arrayID, &arrayFunctionV);
NPN_ReleaseObject(window);
if (!ok)
return false;
if (!NPVARIANT_IS_OBJECT(arrayFunctionV)) {
NPN_ReleaseVariantValue(&arrayFunctionV);
return false;
}
NPObject* arrayFunction = NPVARIANT_TO_OBJECT(arrayFunctionV);
NPVariant elements[4];
INT32_TO_NPVARIANT(id->window.x, elements[0]);
INT32_TO_NPVARIANT(id->window.y, elements[1]);
INT32_TO_NPVARIANT(id->window.width, elements[2]);
INT32_TO_NPVARIANT(id->window.height, elements[3]);
ok = NPN_InvokeDefault(npp, arrayFunction, elements, 4, result);
NPN_ReleaseObject(arrayFunction);
return ok;
}
bool constructObject(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result)
{
if (argCount == 0 || !NPVARIANT_IS_OBJECT(args[0]))
return false;
NPObject* ctor = NPVARIANT_TO_OBJECT(args[0]);
NPP npp = static_cast<TestNPObject*>(npobj)->npp;
return NPN_Construct(npp, ctor, args + 1, argCount - 1, result);
}
bool setSitesWithData(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result)
{
if (argCount != 1 || !NPVARIANT_IS_STRING(args[0]))
return false;
// Clear existing data.
delete sSitesWithData;
const NPString* str = &NPVARIANT_TO_STRING(args[0]);
if (str->UTF8Length == 0)
return true;
// Parse the comma-delimited string into a vector.
sSitesWithData = new list<siteData>;
const char* iterator = str->UTF8Characters;
const char* end = iterator + str->UTF8Length;
while (1) {
const char* next = strchr(iterator, ',');
if (!next)
next = end;
// Parse out the three tokens into a siteData struct.
const char* siteEnd = strchr(iterator, ':');
*((char*) siteEnd) = '\0';
const char* flagsEnd = strchr(siteEnd + 1, ':');
*((char*) flagsEnd) = '\0';
*((char*) next) = '\0';
siteData data;
data.site = string(iterator);
data.flags = atoi(siteEnd + 1);
data.age = atoi(flagsEnd + 1);
sSitesWithData->push_back(data);
if (next == end)
break;
iterator = next + 1;
}
return true;
}
bool setSitesWithDataCapabilities(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result)
{
if (argCount != 1 || !NPVARIANT_IS_BOOLEAN(args[0]))
return false;
sClearByAgeSupported = NPVARIANT_TO_BOOLEAN(args[0]);
return true;
}
bool getLastKeyText(NPObject* npobj, const NPVariant* args, uint32_t argCount,
NPVariant* result)
{
if (argCount != 0) {
return false;
}
NPP npp = static_cast<TestNPObject*>(npobj)->npp;
InstanceData* id = static_cast<InstanceData*>(npp->pdata);
char *outval = NPN_StrDup(id->lastKeyText.c_str());
STRINGZ_TO_NPVARIANT(outval, *result);
return true;
}
bool getNPNVdocumentOrigin(NPObject* npobj, const NPVariant* args, uint32_t argCount,
NPVariant* result)
{
if (argCount != 0) {
return false;
}
NPP npp = static_cast<TestNPObject*>(npobj)->npp;
char *origin = nullptr;
NPError err = NPN_GetValue(npp, NPNVdocumentOrigin, &origin);
if (err != NPERR_NO_ERROR) {
return false;
}
STRINGZ_TO_NPVARIANT(origin, *result);
return true;
}
bool getMouseUpEventCount(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result)
{
if (argCount != 0) {
return false;
}
NPP npp = static_cast<TestNPObject*>(npobj)->npp;
InstanceData* id = static_cast<InstanceData*>(npp->pdata);
INT32_TO_NPVARIANT(id->mouseUpEventCount, *result);
return true;
}
bool queryContentsScaleFactor(NPObject* npobj, const NPVariant* args, uint32_t argCount, NPVariant* result)
{
if (argCount != 0)
return false;
double scaleFactor = 1.0;
#if defined(XP_MACOSX)
NPError err = NPN_GetValue(static_cast<TestNPObject*>(npobj)->npp,
NPNVcontentsScaleFactor, &scaleFactor);
if (err != NPERR_NO_ERROR) {
return false;
}
#endif
DOUBLE_TO_NPVARIANT(scaleFactor, *result);
return true;
}