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I writting a NPAPI plugin which contains two plugin types:

  • x-capture used to capture some video from a camera
  • x-display used to display images captured by x-capture objects

and I have the following HTML/JavaScript code which uses the plugin:

  <embed id="display" type="application/x-display" width=640 height=480 /></td>
  <embed id="capture" type="application/x-capture" width=0 height=0 /><br> <!-- windowless plugin -->

    var capture = document.getElementById('capture');
    var display = document.getElementById('display');

My problem is that the call of addDisplay in my library receive a different NPObject pointer as call argument then the one associated with the instance of the provided x-display. Also the _class member of the received NPObject structure is different then the one I provided when I've created the x-display scriptable object.

After trying to enumerate the methods of the received objects (from handleAddDisplay function) to find out more about the type of received argument I've get a call stack which includes nsJSObjWrapper (I'm testing it on Firefox/Windows). My library is npCaptureDemoPlugin.dll. In the end the wrapper is calling the enumerate of the display object.

npCaptureDemoPlugin.dll!RendererPlugin::hasMethod(void * name=0x06311d00)  Line 84    C++
npCaptureDemoPlugin.dll!ScriptableObject<RendererPlugin>::Class::hasMethod(NPObject* object=0x191fd0b4, void * name=0x06311d00)  Line 382 + 0x43 bytes    C++
xul.dll!NPObjWrapper_NewResolve(JSContext * cx=0x13bf8f60, JSObject * obj=0x0650c4c0, int id=0x06311d00, unsigned int flags=0x00000001, JSObject * * objp=0x003cb838)  Line 1659    C++
mozjs.dll!CallResolveOp(JSContext * cx=0x13bf8f60, JSObject * start=0x0650c4a0, JS::Handle<JSObject *> obj={...}, JS::Handle<int> id={...}, unsigned int flags=0x00000000, JSObject * * objp=0x003cb8dc, JSProperty * * propp=0x003cb8d4, bool * recursedp=0x003cb883)  Line 4637 + 0x1b bytes    C++
mozjs.dll!js_LookupProperty(JSContext * cx=0x13bf8f60, JSObject * obj=0x0650c4a0, int id=0x06311d00, JSObject * * objp=0x003cb8dc, JSProperty * * propp=0x003cb8d4)  Line 4745 + 0x7a bytes    C++
mozjs.dll!JS_LookupPropertyById(JSContext * cx=0x00000000, JSObject * obj=0x0650c4a0, int id=0x06311d00, JS::Value * vp=0x003cb8e4) Line 3502 + 0x49 bytes    C++
xul.dll!xpc_ForcePropertyResolve(JSContext * cx=0x13bf8f60, JSObject * obj=0x0650c4a0, int id=0x06311d00)  Line 652 + 0x13 bytes    C++
xul.dll!XPC_WN_Shared_Enumerate(JSContext * cx=0x13bf8f60, JSObject * obj=0x0650c4a0)  Line 605 + 0xe bytes    C++
xul.dll!XPC_WN_JSOp_Enumerate(JSContext * cx=0x13bf8f60, JSObject * obj=0x0650c4a0, JSIterateOp enum_op=JSENUMERATE_INIT, JS::Value * statep=0x003cbaf4, int * idp=0x00000000)  Line 1275 + 0x1b bytes  C++
mozjs.dll!Snapshot(JSContext * cx=0x00000000, JSObject * obj=0x00000000, unsigned int flags=0x00000008, JS::AutoIdVector * props=0x003cbb78)  Line 364 + 0x25 bytes    C++
mozjs.dll!js::GetPropertyNames(JSContext * cx=0x13bf8f60, JSObject * obj=0x0650c4a0, unsigned int flags=0x00000008, JS::AutoIdVector * props=0x003cbb78)  Line 440 + 0x1a bytes    C++
mozjs.dll!JS_Enumerate(JSContext * cx=0x13bf8f60, JSObject * obj=0x0650c4a0)  Line 4241 + 0x34 bytes    C++
xul.dll!nsJSObjWrapper::NP_Enumerate(NPObject * npobj=0x089cbd90, void * * * idarray=0x003cbf74, unsigned int * count=0x003cbf68) Line 968 + 0xe bytes    C++
xul.dll!mozilla::plugins::parent::_enumerate(_NPP * npp=0x10eff7c8, NPObject * npobj=0x089cbd90, void * * * identifier=0x003cbf74, unsigned int * count=0x003cbf68)  Line 1900 + 0xc bytes    C++
npCaptureDemoPlugin.dll!NPN_Enumerate(_NPP * npp=0x10eff7c8, NPObject * obj=0x089cbd90, void * * * identifier=0x003cbf74, unsigned int * count=0x003cbf68)  Line 254 + 0x18 bytes    C++
npCaptureDemoPlugin.dll!CapturePlugin::handleAddDisplay(NPObject * object=0x089cbd90)  Line 382 + 0x18 bytes    C++
npCaptureDemoPlugin.dll!CapturePlugin::invoke(void * name=0x13855280, const _NPVariant * args=0x003cc270, unsigned int argCount=0x00000001, _NPVariant * result=0x003cc248)  Line 142 + 0xf bytes    C++
npCaptureDemoPlugin.dll!ScriptableObject<CapturePlugin>::Class::invoke(NPObject * object=0x191feb04, void * name=0x13855280, const _NPVariant * args=0x003cc270, unsigned int argCount=0x00000001, _NPVariant * result=0x003cc248)  Line 414 + 0x4f bytes    C++
xul.dll!CallNPMethodInternal(JSContext * cx=0x13bf8f60, JSObject *  obj=0x0650c3a0, unsigned int argc=0x00000001, JS::Value * argv=0x05cd0070, JS::Value * rval=0x05cd0060, bool ctorCall=false) Line 1482 + 0x11 bytes    C++

So its look like Firefox wrap my NPObject into another NPObject whose type I cannot handle and this NPObject is used as a proxy to call my object.

My question: is there a way of passing the same NPObject to a function call as the same one which I've associated with a plugin instance? Or is there another way to check for the received object as argument to an Invoke call that it is the expected type which I previously created? Or the only way is to use some kind of native id passed to JS and back to native code so I can make the associations between my objects?

share|improve this question
After some more investigation its look like the received NPObject is a wrapper which also includes the DOM functionality (like with/height property, etc.). A solution might be to add a function which return my scriptable object and to be called in addDisplay function if the type is not the expected one (a wrapper). –  Andrei Bica Sep 4 '12 at 9:15
Note that there is a big difference between a windowless plugin and a plugin that does not draw. Before you mark it as windowless, make sure you understand that difference =] –  taxilian Sep 4 '12 at 20:48
My mistake. I was thinking at hidden vs visible plugin. –  Andrei Bica Sep 5 '12 at 11:53

1 Answer 1

up vote 1 down vote accepted

The browsers often will wrap the NPObject from one plugin before giving it to another; I assume this is a security precaution and it effectively means you can't do what you want to do. What you can do, however, is you can give each NPObject some form of unique ID and have a getID method on the object. Then you just need a map or something similar internally that you can use to get the actual object that you need after you query getID through the NPObject interface.

share|improve this answer
Its look like the wrapping occurs when a NPObject belonging to a plugin instance is given to another plugin instance. This is done because destroying a plugin instance will also generate destroying of all NPObject belonging to the destroyed plugin instance even if the referenceCount doesn't reach 0. Its look like the wrapper, among other things, guards against accessing destroyed NPObject by implementing no-op if the wrapped object is destroyed. At least this seems to happen on Firefox/Windows. –  Andrei Bica Sep 6 '12 at 14:38
That would make sense –  taxilian Sep 6 '12 at 15:38

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