/* -*- Mode: IDL; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*- * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ /* The core XPConnect public interfaces. */ #include "nsISupports.idl" #include "nsIClassInfo.idl" #include "xpccomponents.idl" #include "xpcjsid.idl" #include "xpcexception.idl" #include "nsIInterfaceInfo.idl" #include "nsIInterfaceInfoManager.idl" #include "nsIExceptionService.idl" #include "nsIVariant.idl" #include "nsIObjectOutputStream.idl" #include "nsIObjectInputStream.idl" %{ C++ #include "jspubtd.h" #include "xptinfo.h" #include "nsAXPCNativeCallContext.h" class nsWrapperCache; %} /***************************************************************************/ // NB: jsval and jsid are declared in nsIVariant.idl [ptr] native JSContextPtr(JSContext); [ptr] native JSClassPtr(JSClass); [ptr] native JSFreeOpPtr(JSFreeOp); [ptr] native JSObjectPtr(JSObject); [ptr] native JSValPtr(jsval); [ptr] native JSValConstPtr(const jsval); native JSPropertyOp(JSPropertyOp); native JSEqualityOp(JSEqualityOp); [ptr] native JSScriptPtr(JSScript); [ptr] native voidPtrPtr(void*); [ptr] native nsScriptObjectTracerPtr(nsScriptObjectTracer); [ref] native nsCCTraversalCallbackRef(nsCycleCollectionTraversalCallback); [ptr] native nsAXPCNativeCallContextPtr(nsAXPCNativeCallContext); [ptr] native nsWrapperCachePtr(nsWrapperCache); native ZoneSpecifier(uintptr_t); /***************************************************************************/ // forward declarations... interface nsIXPCScriptable; interface nsIXPConnect; interface nsIXPConnectWrappedNative; interface nsIInterfaceInfo; interface nsIXPCSecurityManager; interface nsIPrincipal; %{C++ class nsCycleCollectionTraversalCallback; class nsScriptObjectTracer; %} /***************************************************************************/ [uuid(8916a320-d118-11d3-8f3a-0010a4e73d9a)] interface nsIXPConnectJSObjectHolder : nsISupports { readonly attribute JSObjectPtr JSObject; }; [uuid(92e98688-0154-4b65-971b-0d4afe8fd7cb)] interface nsIXPConnectWrappedNative : nsIXPConnectJSObjectHolder { /* attribute 'JSObject' inherited from nsIXPConnectJSObjectHolder */ readonly attribute nsISupports Native; readonly attribute JSObjectPtr JSObjectPrototype; /** * These are here as an aid to nsIXPCScriptable implementors */ readonly attribute nsIXPConnect XPConnect; nsIInterfaceInfo FindInterfaceWithMember(in jsid nameID); nsIInterfaceInfo FindInterfaceWithName(in jsid nameID); [notxpcom] bool HasNativeMember(in jsid name); void debugDump(in short depth); /* * This finishes initializing a wrapped global, doing the parts that we * couldn't do while the global and window were being simultaneously * bootstrapped. This should be called exactly once, and only for wrapped * globals. */ void finishInitForWrappedGlobal(); /* * This returns a pointer into the instance and care should be taken * to make sure the pointer is not kept past the life time of the * object it points into. */ voidPtrPtr GetSecurityInfoAddress(); /* * NOTE: Add new IDL methods _before_ the C++ block below if you * add them. Otherwise the vtable won't be what xpidl thinks it * is, since GetObjectPrincipal() is virtual. */ %{C++ /** * Faster access to the native object from C++. Will never return null. */ nsISupports* Native() const { return mIdentity; } protected: nsISupports *mIdentity; public: %} }; %{C++ #include "nsCOMPtr.h" inline const nsQueryInterface do_QueryWrappedNative(nsIXPConnectWrappedNative *aWrappedNative) { return nsQueryInterface(aWrappedNative->Native()); } inline const nsQueryInterfaceWithError do_QueryWrappedNative(nsIXPConnectWrappedNative *aWrappedNative, nsresult *aError) { return nsQueryInterfaceWithError(aWrappedNative->Native(), aError); } %} [uuid(BED52030-BCA6-11d2-BA79-00805F8A5DD7)] interface nsIXPConnectWrappedJS : nsIXPConnectJSObjectHolder { /* attribute 'JSObject' inherited from nsIXPConnectJSObjectHolder */ readonly attribute nsIInterfaceInfo InterfaceInfo; readonly attribute nsIIDPtr InterfaceIID; void debugDump(in short depth); void aggregatedQueryInterface(in nsIIDRef uuid, [iid_is(uuid),retval] out nsQIResult result); }; /***************************************************************************/ /** * This is a sort of a placeholder interface. It is not intended to be * implemented. It exists to give the nsIXPCSecurityManager an iid on * which to gate a specific activity in XPConnect. * * That activity is... * * When JavaScript code uses a component that is itself implemented in * JavaScript then XPConnect will build a wrapper rather than directly * expose the JSObject of the component. This allows components implemented * in JavaScript to 'look' just like any other xpcom component (from the * perspective of the JavaScript caller). This insulates the component from * the caller and hides any properties or methods that are not part of the * interface as declared in xpidl. Usually this is a good thing. * * However, in some cases it is useful to allow the JS caller access to the * JS component's underlying implementation. In order to facilitate this * XPConnect supports the 'wrappedJSObject' property. The caller code can do: * * // 'foo' is some xpcom component (that might be implemented in JS). * try { * var bar = foo.wrappedJSObject; * if(bar) { * // bar is the underlying JSObject. Do stuff with it here. * } * } catch(e) { * // security exception? * } * * Recall that 'foo' above is an XPConnect wrapper, not the underlying JS * object. The property get "foo.wrappedJSObject" will only succeed if three * conditions are met: * * 1) 'foo' really is an XPConnect wrapper around a JSObject. * 2) The underlying JSObject actually implements a "wrappedJSObject" * property that returns a JSObject. This is called by XPConnect. This * restriction allows wrapped objects to only allow access to the underlying * JSObject if they choose to do so. Ususally this just means that 'foo' * would have a property tht looks like: * this.wrappedJSObject = this. * 3) The implemementation of nsIXPCSecurityManager (if installed) allows * a property get on the interface below. Although the JSObject need not * implement 'nsIXPCWrappedJSObjectGetter', XPConnect will ask the * security manager if it is OK for the caller to access the only method * in nsIXPCWrappedJSObjectGetter before allowing the activity. This fits * in with the security manager paradigm and makes control over accessing * the property on this interface the control factor for getting the * underlying wrapped JSObject of a JS component from JS code. * * Notes: * * a) If 'foo' above were the underlying JSObject and not a wrapper at all, * then this all just works and XPConnect is not part of the picture at all. * b) One might ask why 'foo' should not just implement an interface through * which callers might get at the underlying object. There are three reasons: * i) XPConnect would still have to do magic since JSObject is not a * scriptable type. * ii) JS Components might use aggregation (like C++ objects) and have * different JSObjects for different interfaces 'within' an aggregate * object. But, using an additional interface only allows returning one * underlying JSObject. However, this allows for the possibility that * each of the aggregte JSObjects could return something different. * Note that one might do: this.wrappedJSObject = someOtherObject; * iii) Avoiding the explicit interface makes it easier for both the caller * and the component. * * Anyway, some future implementation of nsIXPCSecurityManager might want * do special processing on 'nsIXPCSecurityManager::CanGetProperty' when * the interface id is that of nsIXPCWrappedJSObjectGetter. */ [scriptable, uuid(254bb2e0-6439-11d4-8fe0-0010a4e73d9a)] interface nsIXPCWrappedJSObjectGetter : nsISupports { readonly attribute nsISupports neverCalled; }; /***************************************************************************/ /* * This interface is implemented by outside code and registered with xpconnect * via nsIXPConnect::setFunctionThisTranslator. * * The reason this exists is to support calls to JavaScript event callbacks * needed by the DOM via xpconnect from C++ code. * * We've added support for wrapping JS function objects as xpcom interfaces * by declaring the given interface as a [function] interface. However, to * support the requirements of JS event callbacks we need to call the JS * function with the 'this' set as the JSObject for which the event is being * fired; e.g. a form node. * * We've decided that for all cases we care about the appropriate 'this' object * can be derived from the first param in the call to the callback. In the * event handler case the first param is an event object. * * Though we can't change all the JS code so that it would setup its own 'this', * we can add plugin 'helper' support to xpconnect. And that is what we have * here. * * The idea is that at startup time some code that cares about this issue * (e.g. the DOM helper code) can register a nsIXPCFunctionThisTranslator * object with xpconnect to handle calls to [function] interfaces of a given * iid. When xpconnect goes to invoke a method on a wrapped JSObject for * an interface marked as [function], xpconnect will check if the first param * of the method is an xpcom object pointer and if so it will check to see if a * nsIXPCFunctionThisTranslator has been registered for the given iid of the * interface being called. If so it will call the translator and get an * interface pointer to use as the 'this' for the call. If the translator * returns a non-null interface pointer (which it should then have addref'd * since it is being returned as an out param), xpconnect will attempt to build * a wrapper around the pointer and get a JSObject from that wrapper to use * as the 'this' for the call. * * If a null interface pointer is returned then xpconnect will use the default * 'this' - the same JSObject as the function object it is calling. */ [uuid(f5f84b70-92eb-41f1-a1dd-2eaac0ed564c)] interface nsIXPCFunctionThisTranslator : nsISupports { nsISupports TranslateThis(in nsISupports aInitialThis); }; /***************************************************************************/ %{ C++ // For use with the service manager // {CB6593E0-F9B2-11d2-BDD6-000064657374} #define NS_XPCONNECT_CID \ { 0xcb6593e0, 0xf9b2, 0x11d2, \ { 0xbd, 0xd6, 0x0, 0x0, 0x64, 0x65, 0x73, 0x74 } } %} [uuid(7dc3a740-7ba9-11e2-b92a-0800200c9a66)] interface nsIXPConnect : nsISupports { %{ C++ NS_DEFINE_STATIC_CID_ACCESSOR(NS_XPCONNECT_CID) %} /** * Initializes classes on a global object that has already been created. */ void initClasses(in JSContextPtr aJSContext, in JSObjectPtr aGlobalJSObj); /** * Creates a new global object using the given aCOMObj as the global * object. The object will be set up according to the flags (defined * below). If you do not pass INIT_JS_STANDARD_CLASSES, then aCOMObj * must implement nsIXPCScriptable so it can resolve the standard * classes when asked by the JS engine. * * @param aJSContext the context to use while creating the global object. * @param aCOMObj the native object that represents the global object. * @param aPrincipal the principal of the code that will run in this * compartment. Can be null if not on the main thread. * @param aFlags one of the flags below specifying what options this * global object wants. */ nsIXPConnectJSObjectHolder initClassesWithNewWrappedGlobal( in JSContextPtr aJSContext, in nsISupports aCOMObj, in nsIPrincipal aPrincipal, in uint32_t aFlags, in ZoneSpecifier aZoneSpec); const uint32_t INIT_JS_STANDARD_CLASSES = 1 << 0; // Free bit here! const uint32_t OMIT_COMPONENTS_OBJECT = 1 << 2; /** * wrapNative will create a new JSObject or return an existing one. * * The JSObject is returned inside a refcounted nsIXPConnectJSObjectHolder. * As long as this holder is held the JSObject will be protected from * collection by JavaScript's garbage collector. It is a good idea to * transfer the JSObject to some equally protected place before releasing * the holder (i.e. use JS_SetProperty to make this object a property of * some other JSObject). * * This method now correctly deals with cases where the passed in xpcom * object already has an associated JSObject for the cases: * 1) The xpcom object has already been wrapped for use in the same scope * as an nsIXPConnectWrappedNative. * 2) The xpcom object is in fact a nsIXPConnectWrappedJS and thus already * has an underlying JSObject. * * It *might* be possible to QueryInterface the nsIXPConnectJSObjectHolder * returned by the method into a nsIXPConnectWrappedNative or a * nsIXPConnectWrappedJS. * * This method will never wrap the JSObject involved in an * XPCNativeWrapper before returning. * * Returns: * success: * NS_OK * failure: * NS_ERROR_XPC_BAD_CONVERT_NATIVE * NS_ERROR_XPC_CANT_GET_JSOBJECT_OF_DOM_OBJECT * NS_ERROR_FAILURE */ nsIXPConnectJSObjectHolder wrapNative(in JSContextPtr aJSContext, in JSObjectPtr aScope, in nsISupports aCOMObj, in nsIIDRef aIID); /** * Same as wrapNative, but also returns the JSObject in aVal. C++ callers * can pass in null for the aHolder argument, but in that case they must * ensure that aVal is rooted. * aIID may be null, it means the same as passing in * &NS_GET_IID(nsISupports) but when passing in null certain shortcuts * can be taken because we know without comparing IIDs that the caller is * asking for an nsISupports wrapper. * If aAllowWrapper, then the returned value will be wrapped in the proper * type of security wrapper on top of the XPCWrappedNative (if needed). * This method doesn't push aJSContext on the context stack, so the caller * is required to push it if the top of the context stack is not equal to * aJSContext. */ void wrapNativeToJSVal(in JSContextPtr aJSContext, in JSObjectPtr aScope, in nsISupports aCOMObj, in nsWrapperCachePtr aCache, in nsIIDPtr aIID, in boolean aAllowWrapper, out jsval aVal, out nsIXPConnectJSObjectHolder aHolder); /** * wrapJS will yield a new or previously existing xpcom interface pointer * to represent the JSObject passed in. * * This method now correctly deals with cases where the passed in JSObject * already has an associated xpcom interface for the cases: * 1) The JSObject has already been wrapped as a nsIXPConnectWrappedJS. * 2) The JSObject is in fact a nsIXPConnectWrappedNative and thus already * has an underlying xpcom object. * 3) The JSObject is of a jsclass which supports getting the nsISupports * from the JSObject directly. This is used for idlc style objects * (e.g. DOM objects). * * It *might* be possible to QueryInterface the resulting interface pointer * to nsIXPConnectWrappedJS. * * Returns: * success: * NS_OK * failure: * NS_ERROR_XPC_BAD_CONVERT_JS * NS_ERROR_FAILURE */ void wrapJS(in JSContextPtr aJSContext, in JSObjectPtr aJSObj, in nsIIDRef aIID, [iid_is(aIID),retval] out nsQIResult result); /** * Wraps the given jsval in a nsIVariant and returns the new variant. */ nsIVariant jSValToVariant(in JSContextPtr cx, in JSValPtr aJSVal); /** * This only succeeds if the JSObject is a nsIXPConnectWrappedNative. * A new wrapper is *never* constructed. */ nsIXPConnectWrappedNative getWrappedNativeOfJSObject(in JSContextPtr aJSContext, in JSObjectPtr aJSObj); [noscript, notxpcom] nsISupports getNativeOfWrapper(in JSContextPtr aJSContext, in JSObjectPtr aJSObj); void setSecurityManagerForJSContext(in JSContextPtr aJSContext, in nsIXPCSecurityManager aManager, in uint16_t flags); void getSecurityManagerForJSContext(in JSContextPtr aJSContext, out nsIXPCSecurityManager aManager, out uint16_t flags); /** * The security manager to use when the current JSContext has no security * manager. */ void setDefaultSecurityManager(in nsIXPCSecurityManager aManager, in uint16_t flags); void getDefaultSecurityManager(out nsIXPCSecurityManager aManager, out uint16_t flags); nsIStackFrame createStackFrameLocation(in uint32_t aLanguage, in string aFilename, in string aFunctionName, in int32_t aLineNumber, in nsIStackFrame aCaller); /** * @deprecated do-nothing function. */ [deprecated] void syncJSContexts(); readonly attribute nsIStackFrame CurrentJSStack; readonly attribute nsAXPCNativeCallContextPtr CurrentNativeCallContext; void debugDump(in short depth); void debugDumpObject(in nsISupports aCOMObj, in short depth); void debugDumpJSStack(in boolean showArgs, in boolean showLocals, in boolean showThisProps); void debugDumpEvalInJSStackFrame(in uint32_t aFrameNumber, in string aSourceText); /** * wrapJSAggregatedToNative is just like wrapJS except it is used in cases * where the JSObject is also aggregated to some native xpcom Object. * At present XBL is the only system that might want to do this. * * XXX write more! * * Returns: * success: * NS_OK * failure: * NS_ERROR_XPC_BAD_CONVERT_JS * NS_ERROR_FAILURE */ void wrapJSAggregatedToNative(in nsISupports aOuter, in JSContextPtr aJSContext, in JSObjectPtr aJSObj, in nsIIDRef aIID, [iid_is(aIID),retval] out nsQIResult result); // Methods added since mozilla 0.6.... /** * This only succeeds if the native object is already wrapped by xpconnect. * A new wrapper is *never* constructed. */ nsIXPConnectWrappedNative getWrappedNativeOfNativeObject(in JSContextPtr aJSContext, in JSObjectPtr aScope, in nsISupports aCOMObj, in nsIIDRef aIID); void setFunctionThisTranslator(in nsIIDRef aIID, in nsIXPCFunctionThisTranslator aTranslator); void reparentWrappedNativeIfFound(in JSContextPtr aJSContext, in JSObjectPtr aScope, in JSObjectPtr aNewParent, in nsISupports aCOMObj); void rescueOrphansInScope(in JSContextPtr aJSContext, in JSObjectPtr aScope); void clearAllWrappedNativeSecurityPolicies(); nsIXPConnectJSObjectHolder getWrappedNativePrototype(in JSContextPtr aJSContext, in JSObjectPtr aScope, in nsIClassInfo aClassInfo); void releaseJSContext(in JSContextPtr aJSContext, in boolean noGC); jsval variantToJS(in JSContextPtr ctx, in JSObjectPtr scope, in nsIVariant value); nsIVariant JSToVariant(in JSContextPtr ctx, in jsval value); /** * Create a sandbox for evaluating code in isolation using * evalInSandboxObject(). * * @param cx A context to use when creating the sandbox object. * @param principal The principal (or NULL to use the null principal) * to use when evaluating code in this sandbox. */ [noscript] nsIXPConnectJSObjectHolder createSandbox(in JSContextPtr cx, in nsIPrincipal principal); /** * Evaluate script in a sandbox, completely isolated from all * other running scripts. * * @param source The source of the script to evaluate. * @param cx The context to use when setting up the evaluation of * the script. The actual evaluation will happen on a new * temporary context. * @param sandbox The sandbox object to evaluate the script in. * @param returnStringOnly The only results to come out of the * computation (including exceptions) will * be coerced into strings created in the * sandbox. * @return The result of the evaluation as a jsval. If the caller * intends to use the return value from this call the caller * is responsible for rooting the jsval before making a call * to this method. */ [noscript] jsval evalInSandboxObject(in AString source, in JSContextPtr cx, in nsIXPConnectJSObjectHolder sandbox, in boolean returnStringOnly); /** * Root JS objects held by aHolder. * @param aHolder The object that hold the JS objects that should be rooted. * @param aTrace The tracer for aHolder. */ [noscript,notxpcom] void addJSHolder(in voidPtr aHolder, in nsScriptObjectTracerPtr aTracer); /** * Stop rooting the JS objects held by aHolder. * @param aHolder The object that hold the rooted JS objects. */ [noscript,notxpcom] void removeJSHolder(in voidPtr aHolder); /** * Test to see if a JS holder is in our hashtable. * Only available in debug builds. * @param aHolder The object to test for. */ [noscript,notxpcom] bool testJSHolder(in voidPtr aHolder); /** * Note aJSContext as a child to the cycle collector. * @param aJSContext The JSContext to note. * @param aCb The cycle collection traversal callback. */ [noscript,notxpcom] void noteJSContext(in JSContextPtr aJSContext, in nsCCTraversalCallbackRef aCb); /** * Whether or not XPConnect should report all JS exceptions when returning * from JS into C++. False by default, although any value set in the * MOZ_REPORT_ALL_JS_EXCEPTIONS environment variable will override the value * passed here. */ void setReportAllJSExceptions(in boolean reportAllJSExceptions); /** * Trigger a JS garbage collection. * Use a js::gcreason::Reason from jsfriendapi.h for the kind. */ void GarbageCollect(in uint32_t reason); /** * Signals a good place to do an incremental GC slice, because the * browser is drawing a frame. */ void NotifyDidPaint(); %{C++ /** * Get the object principal for this wrapper. Note that this may well end * up being null; in that case one should seek principals elsewhere. Null * here does NOT indicate system principal or no principals at all, just * that this wrapper doesn't have an intrinsic one. */ virtual nsIPrincipal* GetPrincipal(JSObject* obj, bool allowShortCircuit) const = 0; virtual char* DebugPrintJSStack(bool showArgs, bool showLocals, bool showThisProps) = 0; %} /** * Creates a JS object holder around aObject that will hold the object * alive for as long as the holder stays alive. */ nsIXPConnectJSObjectHolder holdObject(in JSContextPtr aJSContext, in JSObjectPtr aObject); /** * Return the caller object of the current call from JS. */ [noscript,notxpcom] void getCaller(out JSContextPtr aJSContext, out JSObjectPtr aObject); /** * When we place the browser in JS debug mode, there can't be any * JS on the stack. This is because we currently activate debugMode * on all scripts in the JSRuntime when the debugger is activated. * This method will turn debug mode on or off when the context * stack reaches zero length. */ [noscript] void setDebugModeWhenPossible(in boolean mode, in boolean allowSyncDisable); [noscript] void writeScript(in nsIObjectOutputStream aStream, in JSContextPtr aJSContext, in JSScriptPtr aJSScript); [noscript] JSScriptPtr readScript(in nsIObjectInputStream aStream, in JSContextPtr aJSContext); [noscript] void writeFunction(in nsIObjectOutputStream aStream, in JSContextPtr aJSContext, in JSObjectPtr aJSObject); [noscript] JSObjectPtr readFunction(in nsIObjectInputStream aStream, in JSContextPtr aJSContext); };