// Copyright (c) 2011 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #ifndef CHROME_BROWSER_EXTENSIONS_EXTENSION_FUNCTION_H_ #define CHROME_BROWSER_EXTENSIONS_EXTENSION_FUNCTION_H_ #pragma once #include #include #include "base/compiler_specific.h" #include "base/memory/ref_counted.h" #include "base/memory/scoped_ptr.h" #include "base/memory/weak_ptr.h" #include "base/process.h" #include "chrome/browser/extensions/extension_info_map.h" #include "chrome/common/extensions/extension.h" #include "content/browser/browser_thread.h" #include "content/public/browser/notification_observer.h" #include "content/public/browser/notification_registrar.h" #include "ipc/ipc_message.h" class Browser; class ChromeRenderMessageFilter; class ExtensionFunction; class ExtensionFunctionDispatcher; class UIThreadExtensionFunction; class IOThreadExtensionFunction; class Profile; class QuotaLimitHeuristic; class RenderViewHost; namespace base { class ListValue; class Value; } #define EXTENSION_FUNCTION_VALIDATE(test) do { \ if (!(test)) { \ bad_message_ = true; \ return false; \ } \ } while (0) #define EXTENSION_FUNCTION_ERROR(error) do { \ error_ = error; \ bad_message_ = true; \ return false; \ } while (0) #define DECLARE_EXTENSION_FUNCTION_NAME(name) \ public: static const char* function_name() { return name; } // Traits that describe how ExtensionFunction should be deleted. This just calls // the virtual "Destruct" method on ExtensionFunction, allowing derived classes // to override the behavior. struct ExtensionFunctionDeleteTraits { public: static void Destruct(const ExtensionFunction* x); }; // Abstract base class for extension functions the ExtensionFunctionDispatcher // knows how to dispatch to. class ExtensionFunction : public base::RefCountedThreadSafe { public: ExtensionFunction(); virtual UIThreadExtensionFunction* AsUIThreadExtensionFunction(); virtual IOThreadExtensionFunction* AsIOThreadExtensionFunction(); // Execute the API. Clients should initialize the ExtensionFunction using // SetArgs(), set_request_id(), and the other setters before calling this // method. Derived classes should be ready to return GetResult() and // GetError() before returning from this function. // Note that once Run() returns, dispatcher() can be NULL, so be sure to // NULL-check. virtual void Run(); // Returns a quota limit heuristic suitable for this function. // No quota limiting by default. virtual void GetQuotaLimitHeuristics( std::list* heuristics) const {} // Specifies the raw arguments to the function, as a JSON value. virtual void SetArgs(const base::ListValue* args); // Retrieves the results of the function as a JSON-encoded string (may // be empty). virtual const std::string GetResult(); // Retrieves the results of the function as a Value. base::Value* GetResultValue(); // Retrieves any error string from the function. virtual const std::string GetError(); // Specifies the name of the function. void set_name(const std::string& name) { name_ = name; } const std::string& name() const { return name_; } void set_profile_id(void* profile_id) { profile_id_ = profile_id; } void* profile_id() const { return profile_id_; } void set_extension(const Extension* extension) { extension_ = extension; } const Extension* GetExtension() const { return extension_.get(); } const std::string& extension_id() const { return extension_->id(); } void set_request_id(int request_id) { request_id_ = request_id; } int request_id() { return request_id_; } void set_source_url(const GURL& source_url) { source_url_ = source_url; } const GURL& source_url() { return source_url_; } void set_has_callback(bool has_callback) { has_callback_ = has_callback; } bool has_callback() { return has_callback_; } void set_include_incognito(bool include) { include_incognito_ = include; } bool include_incognito() { return include_incognito_; } void set_user_gesture(bool user_gesture) { user_gesture_ = user_gesture; } bool user_gesture() const { return user_gesture_; } protected: friend struct ExtensionFunctionDeleteTraits; virtual ~ExtensionFunction(); // Helper method for ExtensionFunctionDeleteTraits. Deletes this object. virtual void Destruct() const = 0; // Derived classes should implement this method to do their work and return // success/failure. virtual bool RunImpl() = 0; // Sends the result back to the extension. virtual void SendResponse(bool success) = 0; // Common implementation for SenderResponse. void SendResponseImpl(base::ProcessHandle process, IPC::Message::Sender* ipc_sender, int routing_id, bool success); // Called when we receive an extension api request that is invalid in a way // that JSON validation in the renderer should have caught. This should never // happen and could be an attacker trying to exploit the browser, so we crash // the renderer instead. void HandleBadMessage(base::ProcessHandle process); // Return true if the argument to this function at |index| was provided and // is non-null. bool HasOptionalArgument(size_t index); // Id of this request, used to map the response back to the caller. int request_id_; // The Profile of this function's extension. void* profile_id_; // The extension that called this function. scoped_refptr extension_; // The name of this function. std::string name_; // The URL of the frame which is making this request GURL source_url_; // True if the js caller provides a callback function to receive the response // of this call. bool has_callback_; // True if this callback should include information from incognito contexts // even if our profile_ is non-incognito. Note that in the case of a "split" // mode extension, this will always be false, and we will limit access to // data from within the same profile_ (either incognito or not). bool include_incognito_; // True if the call was made in response of user gesture. bool user_gesture_; // The arguments to the API. Only non-null if argument were specified. scoped_ptr args_; // The result of the API. This should be populated by the derived class before // SendResponse() is called. scoped_ptr result_; // Any detailed error from the API. This should be populated by the derived // class before Run() returns. std::string error_; // Any class that gets a malformed message should set this to true before // returning. The calling renderer process will be killed. bool bad_message_; DISALLOW_COPY_AND_ASSIGN(ExtensionFunction); }; // Extension functions that run on the UI thread. Most functions fall into // this category. class UIThreadExtensionFunction : public ExtensionFunction { public: UIThreadExtensionFunction(); virtual UIThreadExtensionFunction* AsUIThreadExtensionFunction() OVERRIDE; // Set the profile which contains the extension that has originated this // function call. void set_profile(Profile* profile) { profile_ = profile; } Profile* profile() const { return profile_; } void SetRenderViewHost(RenderViewHost* render_view_host); RenderViewHost* render_view_host() const { return render_view_host_; } void set_dispatcher( const base::WeakPtr& dispatcher) { dispatcher_ = dispatcher; } ExtensionFunctionDispatcher* dispatcher() const { return dispatcher_.get(); } protected: friend struct BrowserThread::DeleteOnThread; friend class DeleteTask; virtual ~UIThreadExtensionFunction(); virtual void SendResponse(bool success); // Gets the "current" browser, if any. // // Many extension APIs operate relative to the current browser, which is the // browser the calling code is running inside of. For example, popups, tabs, // and infobars all have a containing browser, but background pages and // notification bubbles do not. // // If there is no containing window, the current browser defaults to the // foremost one. // // Incognito browsers are not considered unless the calling extension has // incognito access enabled. // // This method can return NULL if there is no matching browser, which can // happen if only incognito windows are open, or early in startup or shutdown // shutdown when there are no active windows. Browser* GetCurrentBrowser(); // The dispatcher that will service this extension function call. base::WeakPtr dispatcher_; // The RenderViewHost we will send responses too. RenderViewHost* render_view_host_; // The Profile of this function's extension. Profile* profile_; private: // Helper class to track the lifetime of ExtensionFunction's RenderViewHost // pointer and NULL it out when it dies. We use this separate class (instead // of implementing NotificationObserver on ExtensionFunction) because it is // common for subclasses of ExtensionFunction to be NotificationObservers, and // it would be an easy error to forget to call the base class's Observe() // method. class RenderViewHostTracker : public content::NotificationObserver { public: explicit RenderViewHostTracker(UIThreadExtensionFunction* function); private: virtual void Observe(int type, const content::NotificationSource& source, const content::NotificationDetails& details) OVERRIDE; UIThreadExtensionFunction* function_; content::NotificationRegistrar registrar_; }; virtual void Destruct() const; scoped_ptr tracker_; }; // Extension functions that run on the IO thread. This type of function avoids // a roundtrip to and from the UI thread (because communication with the // extension process happens on the IO thread). It's intended to be used when // performance is critical (e.g. the webRequest API which can block network // requests). Generally, UIThreadExtensionFunction is more appropriate and will // be easier to use and interface with the rest of the browser. class IOThreadExtensionFunction : public ExtensionFunction { public: IOThreadExtensionFunction(); virtual IOThreadExtensionFunction* AsIOThreadExtensionFunction() OVERRIDE; void set_ipc_sender(base::WeakPtr ipc_sender, int routing_id) { ipc_sender_ = ipc_sender; routing_id_ = routing_id; } ChromeRenderMessageFilter* ipc_sender() const { return ipc_sender_.get(); } int routing_id() const { return routing_id_; } base::WeakPtr ipc_sender_weak() const { return ipc_sender_; } void set_extension_info_map(const ExtensionInfoMap* extension_info_map) { extension_info_map_ = extension_info_map; } const ExtensionInfoMap* extension_info_map() const { return extension_info_map_.get(); } protected: friend struct BrowserThread::DeleteOnThread; friend class DeleteTask; virtual ~IOThreadExtensionFunction(); virtual void Destruct() const; virtual void SendResponse(bool success); private: base::WeakPtr ipc_sender_; int routing_id_; scoped_refptr extension_info_map_; }; // Base class for an extension function that runs asynchronously *relative to // the browser's UI thread*. class AsyncExtensionFunction : public UIThreadExtensionFunction { public: AsyncExtensionFunction(); protected: virtual ~AsyncExtensionFunction(); }; // A SyncExtensionFunction is an ExtensionFunction that runs synchronously // *relative to the browser's UI thread*. Note that this has nothing to do with // running synchronously relative to the extension process. From the extension // process's point of view, the function is still asynchronous. // // This kind of function is convenient for implementing simple APIs that just // need to interact with things on the browser UI thread. class SyncExtensionFunction : public UIThreadExtensionFunction { public: SyncExtensionFunction(); virtual void Run() OVERRIDE; protected: virtual ~SyncExtensionFunction(); }; class SyncIOThreadExtensionFunction : public IOThreadExtensionFunction { public: SyncIOThreadExtensionFunction(); virtual void Run() OVERRIDE; protected: virtual ~SyncIOThreadExtensionFunction(); }; #endif // CHROME_BROWSER_EXTENSIONS_EXTENSION_FUNCTION_H_