// Copyright (c) 2008-2009 Marshall A. Greenblatt. 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 Google Inc. nor the name Chromium Embedded // Framework 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. // // --------------------------------------------------------------------------- // // The contents of this file must follow a specific format in order to // support the CEF translator tool. See the translator.README.txt file in the // tools directory for more information. // #ifndef _CEF_H #define _CEF_H #include #include #include #include "cef_ptr.h" #include "cef_types.h" class CefBrowser; class CefDownloadHandler; class CefFrame; class CefHandler; class CefPostData; class CefPostDataElement; class CefRequest; class CefSchemeHandler; class CefSchemeHandlerFactory; class CefStreamReader; class CefStreamWriter; class CefTask; class CefV8Handler; class CefV8Value; // This function should only be called once when the application is started. // Create the thread to host the UI message loop. A return value of true // indicates that it succeeded and false indicates that it failed. Set // |multi_threaded_message_loop| to true to have the message loop run in // a separate thread. If |multi_threaded_message_loop| is false than // the CefDoMessageLoopWork() function must be called from your message loop. // Set |cache_path| to the location where cache data will be stored on disk. // If |cache_path| is empty an in-memory cache will be used for cache data. /*--cef()--*/ bool CefInitialize(bool multi_threaded_message_loop, const std::wstring& cache_path); // This function should only be called once before the application exits. // Shut down the thread hosting the UI message loop and destroy any created // windows. /*--cef()--*/ void CefShutdown(); // Perform message loop processing. Has no affect if the browser UI loop is // running in a separate thread. /*--cef()--*/ void CefDoMessageLoopWork(); // Register a new V8 extension with the specified JavaScript extension code and // handler. Functions implemented by the handler are prototyped using the // keyword 'native'. The calling of a native function is restricted to the scope // in which the prototype of the native function is defined. // // Example JavaScript extension code: // // // create the 'example' global object if it doesn't already exist. // if (!example) // example = {}; // // create the 'example.test' global object if it doesn't already exist. // if (!example.test) // example.test = {}; // (function() { // // Define the function 'example.test.myfunction'. // example.test.myfunction = function() { // // Call CefV8Handler::Execute() with the function name 'MyFunction' // // and no arguments. // native function MyFunction(); // return MyFunction(); // }; // // Define the getter function for parameter 'example.test.myparam'. // example.test.__defineGetter__('myparam', function() { // // Call CefV8Handler::Execute() with the function name 'GetMyParam' // // and no arguments. // native function GetMyParam(); // return GetMyParam(); // }); // // Define the setter function for parameter 'example.test.myparam'. // example.test.__defineSetter__('myparam', function(b) { // // Call CefV8Handler::Execute() with the function name 'SetMyParam' // // and a single argument. // native function SetMyParam(); // if(b) SetMyParam(b); // }); // // // Extension definitions can also contain normal JavaScript variables // // and functions. // var myint = 0; // example.test.increment = function() { // myint += 1; // return myint; // }; // })(); // // Example usage in the page: // // // Call the function. // example.test.myfunction(); // // Set the parameter. // example.test.myparam = value; // // Get the parameter. // value = example.test.myparam; // // Call another function. // example.test.increment(); // /*--cef()--*/ bool CefRegisterExtension(const std::wstring& extension_name, const std::wstring& javascript_code, CefRefPtr handler); // Register a custom scheme handler factory for the specified |scheme_name| and // |host_name|. All URLs beginning with scheme_name://host_name/ can be handled // by CefSchemeHandler instances returned by the factory. Specify an empty // |host_name| value to match all host names. /*--cef()--*/ bool CefRegisterScheme(const std::wstring& scheme_name, const std::wstring& host_name, CefRefPtr factory); typedef cef_thread_id_t CefThreadId; // CEF maintains multiple internal threads that are used for handling different // types of tasks. The UI thread creates the browser window and is used for all // interaction with the WebKit rendering engine and V8 JavaScript engine (The // UI thread will be the same as the main application thread if CefInitialize() // was called with a |multi_threaded_message_loop| value of false.) The IO // thread is used for handling schema and network requests. The FILE thread is // used for the application cache and other miscellaneous activities. This // method will return true if called on the specified thread. /*--cef()--*/ bool CefCurrentlyOn(CefThreadId threadId); // Post a task for execution on the specified thread. /*--cef()--*/ bool CefPostTask(CefThreadId threadId, CefRefPtr task); // Post a task for delayed execution on the specified thread. /*--cef()--*/ bool CefPostDelayedTask(CefThreadId threadId, CefRefPtr task, long delay_ms); // Interface defining the the reference count implementation methods. All // framework classes must implement the CefBase class. class CefBase { public: // The AddRef method increments the reference count for the object. It should // be called for every new copy of a pointer to a given object. The resulting // reference count value is returned and should be used for diagnostic/testing // purposes only. virtual int AddRef() =0; // The Release method decrements the reference count for the object. If the // reference count on the object falls to 0, then the object should free // itself from memory. The resulting reference count value is returned and // should be used for diagnostic/testing purposes only. virtual int Release() =0; // Return the current number of references. virtual int GetRefCt() = 0; }; // Bring in platform-specific definitions. #if defined(_WIN32) #include "cef_win.h" #elif defined(__APPLE__) #include "cef_mac.h" #elif defined(__linux__) #include "cef_linux.h" #endif // Template that provides atomic implementations of AddRef() and Release() // along with Lock() and Unlock() methods to protect critical sections of // code from simultaneous access by multiple threads. // // The below example demonstrates how to use the CefThreadSafeBase template. // // class MyHandler : public CefThreadSafeBase // { // std::wstring m_title; // // virtual RetVal HandleTitleChange(const std::wstring& title) // { // Lock(); // Begin protecting code // m_title = title; // Unlock(); // Done protecting code // return RV_HANDLED; // } // ... // } // template class CefThreadSafeBase : public ClassName { public: CefThreadSafeBase() { m_dwRef = 0L; } virtual ~CefThreadSafeBase() { } // Atomic reference increment. virtual int AddRef() { return CefAtomicIncrement(&m_dwRef); } // Atomic reference decrement. Delete this object when no references remain. virtual int Release() { int retval = CefAtomicDecrement(&m_dwRef); if(retval == 0) delete this; return retval; } // Return the current number of references. virtual int GetRefCt() { return m_dwRef; } // Use the Lock() and Unlock() methods to protect a section of code from // simultaneous access by multiple threads. void Lock() { m_critsec.Lock(); } void Unlock() { m_critsec.Unlock(); } // A helper class that acquires the lock for the given CefThreadSafeBase while // the CefAutoLock is in scope. class AutoLock { public: AutoLock(CefThreadSafeBase* base) : base_(base) { base_->Lock(); } ~AutoLock() { base_->Unlock(); } private: CefThreadSafeBase* base_; }; protected: long m_dwRef; CefCriticalSection m_critsec; }; // Class representing a rectangle. class CefRect : public cef_rect_t { public: CefRect() { x = y = width = height = 0; } CefRect(int x, int y, int width, int height) { set(x, y, width, height); } CefRect(const cef_rect_t& r) { set(r.x, r.y, r.width, r.height); } CefRect& operator=(const cef_rect_t& r) { x = r.x; y = r.y; width = r.width; height = r.height; return *this; } bool isEmpty() const { return width <= 0 || height <= 0; } void set(int x, int y, int width, int height) { this->x = x, this->y = y, this->width = width, this->height = height; } }; inline bool operator==(const CefRect& a, const CefRect& b) { return a.x == b.x && a.y == b.y && a.width == b.width && a.height == b.height; } inline bool operator!=(const CefRect& a, const CefRect& b) { return !(a == b); } // Implement this interface for task execution. /*--cef(source=client)--*/ class CefTask : public CefBase { public: // Method that will be executed. |threadId| is the thread executing the call. /*--cef()--*/ virtual void Execute(CefThreadId threadId) =0; }; // Class used to represent a browser window. All methods exposed by this class // should be thread safe. /*--cef(source=library)--*/ class CefBrowser : public CefBase { public: // Create a new browser window using the window parameters specified // by |windowInfo|. All values will be copied internally and the actual // window will be created on the UI thread. The |popup| parameter should // be true if the new window is a popup window. This method call will not // block. /*--cef()--*/ static bool CreateBrowser(CefWindowInfo& windowInfo, bool popup, CefRefPtr handler, const std::wstring& url); // Create a new browser window using the window parameters specified // by |windowInfo|. The |popup| parameter should be true if the new window is // a popup window. This method call will block and can only be used if // the |multi_threaded_message_loop| parameter to CefInitialize() is false. /*--cef()--*/ static CefRefPtr CreateBrowserSync(CefWindowInfo& windowInfo, bool popup, CefRefPtr handler, const std::wstring& url); // Returns true if the browser can navigate backwards. /*--cef()--*/ virtual bool CanGoBack() =0; // Navigate backwards. /*--cef()--*/ virtual void GoBack() =0; // Returns true if the browser can navigate forwards. /*--cef()--*/ virtual bool CanGoForward() =0; // Navigate backwards. /*--cef()--*/ virtual void GoForward() =0; // Reload the current page. /*--cef()--*/ virtual void Reload() =0; // Reload the current page ignoring any cached data. /*--cef()--*/ virtual void ReloadIgnoreCache() =0; // Stop loading the page. /*--cef()--*/ virtual void StopLoad() =0; // Set focus for the browser window. If |enable| is true focus will be set // to the window. Otherwise, focus will be removed. /*--cef()--*/ virtual void SetFocus(bool enable) =0; // Retrieve the window handle for this browser. /*--cef()--*/ virtual CefWindowHandle GetWindowHandle() =0; // Returns true if the window is a popup window. /*--cef()--*/ virtual bool IsPopup() =0; // Returns the handler for this browser. /*--cef()--*/ virtual CefRefPtr GetHandler() =0; // Returns the main (top-level) frame for the browser window. /*--cef()--*/ virtual CefRefPtr GetMainFrame() =0; // Returns the focused frame for the browser window. /*--cef()--*/ virtual CefRefPtr GetFocusedFrame() =0; // Returns the frame with the specified name, or NULL if not found. /*--cef()--*/ virtual CefRefPtr GetFrame(const std::wstring& name) =0; // Returns the names of all existing frames. /*--cef()--*/ virtual void GetFrameNames(std::vector& names) =0; // Search for |searchText|. |identifier| can be used to have multiple searches // running simultaniously. |forward| indicates whether to search forward or // backward within the page. |matchCase| indicates whether the search should // be case-sensitive. |findNext| indicates whether this is the first request // or a follow-up. /*--cef()--*/ virtual void Find(int identifier, const std::wstring& searchText, bool forward, bool matchCase, bool findNext) =0; // Cancel all searches that are currently going on. /*--cef()--*/ virtual void StopFinding(bool clearSelection) =0; }; // Class used to represent a frame in the browser window. All methods exposed // by this class should be thread safe. /*--cef(source=library)--*/ class CefFrame : public CefBase { public: // Execute undo in this frame. /*--cef()--*/ virtual void Undo() =0; // Execute redo in this frame. /*--cef()--*/ virtual void Redo() =0; // Execute cut in this frame. /*--cef()--*/ virtual void Cut() =0; // Execute copy in this frame. /*--cef()--*/ virtual void Copy() =0; // Execute paste in this frame. /*--cef()--*/ virtual void Paste() =0; // Execute delete in this frame. /*--cef(capi_name=del)--*/ virtual void Delete() =0; // Execute select all in this frame. /*--cef()--*/ virtual void SelectAll() =0; // Execute printing in the this frame. The user will be prompted with the // print dialog appropriate to the operating system. /*--cef()--*/ virtual void Print() =0; // Save this frame's HTML source to a temporary file and open it in the // default text viewing application. /*--cef()--*/ virtual void ViewSource() =0; // Returns this frame's HTML source as a string. /*--cef()--*/ virtual std::wstring GetSource() =0; // Returns this frame's display text as a string. /*--cef()--*/ virtual std::wstring GetText() =0; // Load the request represented by the |request| object. /*--cef()--*/ virtual void LoadRequest(CefRefPtr request) =0; // Load the specified |url|. /*--cef()--*/ virtual void LoadURL(const std::wstring& url) =0; // Load the contents of |string| with the optional dummy target |url|. /*--cef()--*/ virtual void LoadString(const std::wstring& string, const std::wstring& url) =0; // Load the contents of |stream| with the optional dummy target |url|. /*--cef()--*/ virtual void LoadStream(CefRefPtr stream, const std::wstring& url) =0; // Execute a string of JavaScript code in this frame. The |script_url| // parameter is the URL where the script in question can be found, if any. // The renderer may request this URL to show the developer the source of the // error. The |start_line| parameter is the base line number to use for error // reporting. /*--cef()--*/ virtual void ExecuteJavaScript(const std::wstring& jsCode, const std::wstring& scriptUrl, int startLine) =0; // Returns true if this is the main frame. /*--cef()--*/ virtual bool IsMain() =0; // Returns true if this is the focused frame. /*--cef()--*/ virtual bool IsFocused() =0; // Returns this frame's name. /*--cef()--*/ virtual std::wstring GetName() =0; // Return the URL currently loaded in this frame. /*--cef()--*/ virtual std::wstring GetURL() =0; }; // Interface that should be implemented to handle events generated by the // browser window. All methods exposed by this class should be thread safe. // Each method in the interface returns a RetVal value. /*--cef(source=client)--*/ class CefHandler : public CefBase { public: // Define handler return value types. Returning RV_HANDLED indicates // that the implementation completely handled the method and that no further // processing is required. Returning RV_CONTINUE indicates that the // implementation did not handle the method and that the default handler // should be called. typedef cef_retval_t RetVal; // Event called before a new window is created. The |parentBrowser| parameter // will point to the parent browser window, if any. The |popup| parameter // will be true if the new window is a popup window. If you create the window // yourself you should populate the window handle member of |createInfo| and // return RV_HANDLED. Otherwise, return RV_CONTINUE and the framework will // create the window. By default, a newly created window will recieve the // same handler as the parent window. To change the handler for the new // window modify the object that |handler| points to. /*--cef()--*/ virtual RetVal HandleBeforeCreated(CefRefPtr parentBrowser, CefWindowInfo& windowInfo, bool popup, CefRefPtr& handler, std::wstring& url) =0; // Event called after a new window is created. The return value is currently // ignored. /*--cef()--*/ virtual RetVal HandleAfterCreated(CefRefPtr browser) =0; // Event called when a frame's address has changed. The return value is // currently ignored. /*--cef()--*/ virtual RetVal HandleAddressChange(CefRefPtr browser, CefRefPtr frame, const std::wstring& url) =0; // Event called when the page title changes. The return value is currently // ignored. /*--cef()--*/ virtual RetVal HandleTitleChange(CefRefPtr browser, const std::wstring& title) =0; // Various browser navigation types supported by chrome. typedef cef_handler_navtype_t NavType; // Event called before browser navigation. The client has an opportunity to // modify the |request| object if desired. Return RV_HANDLED to cancel // navigation. /*--cef()--*/ virtual RetVal HandleBeforeBrowse(CefRefPtr browser, CefRefPtr frame, CefRefPtr request, NavType navType, bool isRedirect) =0; // Event called when the browser begins loading a page. The |frame| pointer // will be empty if the event represents the overall load status and not the // load status for a particular frame. The return value is currently ignored. /*--cef()--*/ virtual RetVal HandleLoadStart(CefRefPtr browser, CefRefPtr frame) =0; // Event called when the browser is done loading a page. The |frame| pointer // will be empty if the event represents the overall load status and not the // load status for a particular frame. This event will be generated // irrespective of whether the request completes successfully. The return // value is currently ignored. /*--cef()--*/ virtual RetVal HandleLoadEnd(CefRefPtr browser, CefRefPtr frame) =0; // Supported error code values. See net\base\net_error_list.h for complete // descriptions of the error codes. typedef cef_handler_errorcode_t ErrorCode; // Called when the browser fails to load a resource. |errorCode| is the // error code number and |failedUrl| is the URL that failed to load. To // provide custom error text assign the text to |errorText| and return // RV_HANDLED. Otherwise, return RV_CONTINUE for the default error text. /*--cef()--*/ virtual RetVal HandleLoadError(CefRefPtr browser, CefRefPtr frame, ErrorCode errorCode, const std::wstring& failedUrl, std::wstring& errorText) =0; // Event called before a resource is loaded. To allow the resource to load // normally return RV_CONTINUE. To redirect the resource to a new url // populate the |redirectUrl| value and return RV_CONTINUE. To specify // data for the resource return a CefStream object in |resourceStream|, set // |mimeType| to the resource stream's mime type, and return RV_CONTINUE. // To cancel loading of the resource return RV_HANDLED. Any modifications // to |request| will be observed. If the URL in |request| is changed and // |redirectUrl| is also set, the URL in |request| will be used. /*--cef()--*/ virtual RetVal HandleBeforeResourceLoad(CefRefPtr browser, CefRefPtr request, std::wstring& redirectUrl, CefRefPtr& resourceStream, std::wstring& mimeType, int loadFlags) =0; // Called when a server indicates via the 'Content-Disposition' header that a // response represents a file to download. |mimeType| is the mime type for // the download, |fileName| is the suggested target file name and // |contentLength| is either the value of the 'Content-Size' header or -1 if // no size was provided. Set |handler| to the CefDownloadHandler instance that // will recieve the file contents. Return RV_CONTINUE to download the file // or RV_HANDLED to cancel the file download. /*--cef()--*/ virtual RetVal HandleDownloadResponse(CefRefPtr browser, const std::wstring& mimeType, const std::wstring& fileName, int64 contentLength, CefRefPtr& handler) =0; // Structure representing menu information. typedef cef_handler_menuinfo_t MenuInfo; // Event called before a context menu is displayed. To cancel display of the // default context menu return RV_HANDLED. /*--cef()--*/ virtual RetVal HandleBeforeMenu(CefRefPtr browser, const MenuInfo& menuInfo) =0; // Supported menu ID values. typedef cef_handler_menuid_t MenuId; // Event called to optionally override the default text for a context menu // item. |label| contains the default text and may be modified to substitute // alternate text. The return value is currently ignored. /*--cef()--*/ virtual RetVal HandleGetMenuLabel(CefRefPtr browser, MenuId menuId, std::wstring& label) =0; // Event called when an option is selected from the default context menu. // Return RV_HANDLED to cancel default handling of the action. /*--cef()--*/ virtual RetVal HandleMenuAction(CefRefPtr browser, MenuId menuId) =0; // Structure representing print options. typedef cef_print_options_t CefPrintOptions; // Event called to allow customization of standard print options before the // print dialog is displayed. |printOptions| allows specification of paper // size, orientation and margins. Note that the specified margins may be // adjusted if they are outside the range supported by the printer. All units // are in inches. Return RV_CONTINUE to display the default print options or // RV_HANDLED to display the modified |printOptions|. /*--cef()--*/ virtual RetVal HandlePrintOptions(CefRefPtr browser, CefPrintOptions& printOptions) = 0; // Event called to format print headers and footers. |printInfo| contains // platform-specific information about the printer context. |url| is the // URL if the currently printing page, |title| is the title of the currently // printing page, |currentPage| is the current page number and |maxPages| is // the total number of pages. Six default header locations are provided // by the implementation: top left, top center, top right, bottom left, // bottom center and bottom right. To use one of these default locations // just assign a string to the appropriate variable. To draw the header // and footer yourself return RV_HANDLED. Otherwise, populate the approprate // variables and return RV_CONTINUE. /*--cef()--*/ virtual RetVal HandlePrintHeaderFooter(CefRefPtr browser, CefRefPtr frame, CefPrintInfo& printInfo, const std::wstring& url, const std::wstring& title, int currentPage, int maxPages, std::wstring& topLeft, std::wstring& topCenter, std::wstring& topRight, std::wstring& bottomLeft, std::wstring& bottomCenter, std::wstring& bottomRight) =0; // Run a JS alert message. Return RV_CONTINUE to display the default alert // or RV_HANDLED if you displayed a custom alert. /*--cef()--*/ virtual RetVal HandleJSAlert(CefRefPtr browser, CefRefPtr frame, const std::wstring& message) =0; // Run a JS confirm request. Return RV_CONTINUE to display the default alert // or RV_HANDLED if you displayed a custom alert. If you handled the alert // set |retval| to true if the user accepted the confirmation. /*--cef()--*/ virtual RetVal HandleJSConfirm(CefRefPtr browser, CefRefPtr frame, const std::wstring& message, bool& retval) =0; // Run a JS prompt request. Return RV_CONTINUE to display the default prompt // or RV_HANDLED if you displayed a custom prompt. If you handled the prompt // set |retval| to true if the user accepted the prompt and request and // |result| to the resulting value. /*--cef()--*/ virtual RetVal HandleJSPrompt(CefRefPtr browser, CefRefPtr frame, const std::wstring& message, const std::wstring& defaultValue, bool& retval, std::wstring& result) =0; // Event called for adding values to a frame's JavaScript 'window' object. The // return value is currently ignored. /*--cef()--*/ virtual RetVal HandleJSBinding(CefRefPtr browser, CefRefPtr frame, CefRefPtr object) =0; // Called just before a window is closed. The return value is currently // ignored. /*--cef()--*/ virtual RetVal HandleBeforeWindowClose(CefRefPtr browser) =0; // Called when the browser component is about to loose focus. For instance, // if focus was on the last HTML element and the user pressed the TAB key. // The return value is currently ignored. /*--cef()--*/ virtual RetVal HandleTakeFocus(CefRefPtr browser, bool reverse) =0; // Called when the browser component is requesting focus. |isWidget| will be // true if the focus is requested for a child widget of the browser window. // Return RV_CONTINUE to allow the focus to be set or RV_HANDLED to cancel // setting the focus. /*--cef()--*/ virtual RetVal HandleSetFocus(CefRefPtr browser, bool isWidget) =0; // Supported keyboard event types. typedef cef_handler_keyevent_type_t KeyEventType; // Called when the browser component receives a keyboard event. // |type| is the type of keyboard event (see |KeyEventType|). // |code| is the windows scan-code for the event. // |modifiers| is a set of bit-flags describing any pressed modifier keys. // |isSystemKey| is set if Windows considers this a 'system key' message; // (see http://msdn.microsoft.com/en-us/library/ms646286(VS.85).aspx) // Return RV_HANDLED if the keyboard event was handled or RV_CONTINUE // to allow the browser component to handle the event. /*--cef()--*/ virtual RetVal HandleKeyEvent(CefRefPtr browser, KeyEventType type, int code, int modifiers, bool isSystemKey) =0; // Event called when the browser is about to display a tooltip. |text| // contains the text that will be displayed in the tooltip. To handle // the display of the tooltip yourself return RV_HANDLED. Otherwise, // you can optionally modify |text| and then return RV_CONTINUE to allow // the browser to display the tooltip. /*--cef()--*/ virtual RetVal HandleTooltip(CefRefPtr browser, std::wstring& text) =0; // Called to display a console message. Return RV_HANDLED to stop the message // from being output to the console. /*--cef()--*/ virtual RetVal HandleConsoleMessage(CefRefPtr browser, const std::wstring& message, const std::wstring& source, int line) =0; // Called to report find results returned by CefBrowser::Find(). |identifer| // is the identifier passed to CefBrowser::Find(), |count| is the number of // matches currently identified, |selectionRect| is the location of where the // match was found (in window coordinates), |activeMatchOrdinal| is the // current position in the search results, and |finalUpdate| is true if this // is the last find notification. The return value is currently ignored. /*--cef()--*/ virtual RetVal HandleFindResult(CefRefPtr browser, int identifier, int count, const CefRect& selectionRect, int activeMatchOrdinal, bool finalUpdate) =0; }; // Class used to represent a web request. /*--cef(source=library)--*/ class CefRequest : public CefBase { public: typedef std::map HeaderMap; // Create a new CefRequest object. /*--cef()--*/ static CefRefPtr CreateRequest(); // Fully qualified URL to load. /*--cef()--*/ virtual std::wstring GetURL() =0; /*--cef()--*/ virtual void SetURL(const std::wstring& url) =0; // Optional request method type, defaulting to POST if post data is provided // and GET otherwise. /*--cef()--*/ virtual std::wstring GetMethod() =0; /*--cef()--*/ virtual void SetMethod(const std::wstring& method) =0; // Optional post data. /*--cef()--*/ virtual CefRefPtr GetPostData() =0; /*--cef()--*/ virtual void SetPostData(CefRefPtr postData) =0; // Optional header values. /*--cef()--*/ virtual void GetHeaderMap(HeaderMap& headerMap) =0; /*--cef()--*/ virtual void SetHeaderMap(const HeaderMap& headerMap) =0; // Set all values at one time. /*--cef()--*/ virtual void Set(const std::wstring& url, const std::wstring& method, CefRefPtr postData, const HeaderMap& headerMap) =0; }; // Class used to represent post data for a web request. /*--cef(source=library)--*/ class CefPostData : public CefBase { public: typedef std::vector > ElementVector; // Create a new CefPostData object. /*--cef()--*/ static CefRefPtr CreatePostData(); // Returns the number of existing post data elements. /*--cef()--*/ virtual size_t GetElementCount() =0; // Retrieve the post data elements. /*--cef()--*/ virtual void GetElements(ElementVector& elements) =0; // Remove the specified post data element. Returns true if the removal // succeeds. /*--cef()--*/ virtual bool RemoveElement(CefRefPtr element) =0; // Add the specified post data element. Returns true if the add succeeds. /*--cef()--*/ virtual bool AddElement(CefRefPtr element) =0; // Remove all existing post data elements. /*--cef()--*/ virtual void RemoveElements() =0; }; // Class used to represent a single element in the request post data. /*--cef(source=library)--*/ class CefPostDataElement : public CefBase { public: // Post data elements may represent either bytes or files. typedef cef_postdataelement_type_t Type; // Create a new CefPostDataElement object. /*--cef()--*/ static CefRefPtr CreatePostDataElement(); // Remove all contents from the post data element. /*--cef()--*/ virtual void SetToEmpty() =0; // The post data element will represent a file. /*--cef()--*/ virtual void SetToFile(const std::wstring& fileName) =0; // The post data element will represent bytes. The bytes passed // in will be copied. /*--cef()--*/ virtual void SetToBytes(size_t size, const void* bytes) =0; // Return the type of this post data element. /*--cef()--*/ virtual Type GetType() =0; // Return the file name. /*--cef()--*/ virtual std::wstring GetFile() =0; // Return the number of bytes. /*--cef()--*/ virtual size_t GetBytesCount() =0; // Read up to |size| bytes into |bytes| and return the number of bytes // actually read. /*--cef()--*/ virtual size_t GetBytes(size_t size, void* bytes) =0; }; // Interface the client can implement to provide a custom stream reader. /*--cef(source=client)--*/ class CefReadHandler : public CefBase { public: // Read raw binary data. /*--cef()--*/ virtual size_t Read(void* ptr, size_t size, size_t n) =0; // Seek to the specified offset position. |whence| may be any one of // SEEK_CUR, SEEK_END or SEEK_SET. /*--cef()--*/ virtual int Seek(long offset, int whence) =0; // Return the current offset position. /*--cef()--*/ virtual long Tell() =0; // Return non-zero if at end of file. /*--cef()--*/ virtual int Eof() =0; }; // Class used to read data from a stream. /*--cef(source=library)--*/ class CefStreamReader : public CefBase { public: // Create a new CefStreamReader object. /*--cef()--*/ static CefRefPtr CreateForFile(const std::wstring& fileName); /*--cef()--*/ static CefRefPtr CreateForData(void* data, size_t size); /*--cef()--*/ static CefRefPtr CreateForHandler(CefRefPtr handler); // Read raw binary data. /*--cef()--*/ virtual size_t Read(void* ptr, size_t size, size_t n) =0; // Seek to the specified offset position. |whence| may be any one of // SEEK_CUR, SEEK_END or SEEK_SET. Returns zero on success and non-zero on // failure. /*--cef()--*/ virtual int Seek(long offset, int whence) =0; // Return the current offset position. /*--cef()--*/ virtual long Tell() =0; // Return non-zero if at end of file. /*--cef()--*/ virtual int Eof() =0; }; // Interface the client can implement to provide a custom stream writer. /*--cef(source=client)--*/ class CefWriteHandler : public CefBase { public: // Write raw binary data. /*--cef()--*/ virtual size_t Write(const void* ptr, size_t size, size_t n) =0; // Seek to the specified offset position. |whence| may be any one of // SEEK_CUR, SEEK_END or SEEK_SET. /*--cef()--*/ virtual int Seek(long offset, int whence) =0; // Return the current offset position. /*--cef()--*/ virtual long Tell() =0; // Flush the stream. /*--cef()--*/ virtual int Flush() =0; }; // Class used to write data to a stream. /*--cef(source=library)--*/ class CefStreamWriter : public CefBase { public: // Create a new CefStreamWriter object. /*--cef()--*/ static CefRefPtr CreateForFile(const std::wstring& fileName); /*--cef()--*/ static CefRefPtr CreateForHandler(CefRefPtr handler); // Write raw binary data. /*--cef()--*/ virtual size_t Write(const void* ptr, size_t size, size_t n) =0; // Seek to the specified offset position. |whence| may be any one of // SEEK_CUR, SEEK_END or SEEK_SET. /*--cef()--*/ virtual int Seek(long offset, int whence) =0; // Return the current offset position. /*--cef()--*/ virtual long Tell() =0; // Flush the stream. /*--cef()--*/ virtual int Flush() =0; }; typedef std::vector > CefV8ValueList; // Interface that should be implemented to handle V8 function calls. /*--cef(source=client)--*/ class CefV8Handler : public CefBase { public: // Execute with the specified argument list and return value. Return true if // the method was handled. /*--cef()--*/ virtual bool Execute(const std::wstring& name, CefRefPtr object, const CefV8ValueList& arguments, CefRefPtr& retval, std::wstring& exception) =0; }; // Class representing a V8 value. /*--cef(source=library)--*/ class CefV8Value : public CefBase { public: // Create a new CefV8Value object of the specified type. These methods // should only be called from within the JavaScript context -- either in a // CefV8Handler::Execute() callback or a CefHandler::HandleJSBinding() // callback. /*--cef()--*/ static CefRefPtr CreateUndefined(); /*--cef()--*/ static CefRefPtr CreateNull(); /*--cef()--*/ static CefRefPtr CreateBool(bool value); /*--cef()--*/ static CefRefPtr CreateInt(int value); /*--cef()--*/ static CefRefPtr CreateDouble(double value); /*--cef()--*/ static CefRefPtr CreateString(const std::wstring& value); /*--cef()--*/ static CefRefPtr CreateObject(CefRefPtr user_data); /*--cef()--*/ static CefRefPtr CreateArray(); /*--cef()--*/ static CefRefPtr CreateFunction(const std::wstring& name, CefRefPtr handler); // Check the value type. /*--cef()--*/ virtual bool IsUndefined() =0; /*--cef()--*/ virtual bool IsNull() =0; /*--cef()--*/ virtual bool IsBool() =0; /*--cef()--*/ virtual bool IsInt() =0; /*--cef()--*/ virtual bool IsDouble() =0; /*--cef()--*/ virtual bool IsString() =0; /*--cef()--*/ virtual bool IsObject() =0; /*--cef()--*/ virtual bool IsArray() =0; /*--cef()--*/ virtual bool IsFunction() =0; // Return a primitive value type. The underlying data will be converted to // the requested type if necessary. /*--cef()--*/ virtual bool GetBoolValue() =0; /*--cef()--*/ virtual int GetIntValue() =0; /*--cef()--*/ virtual double GetDoubleValue() =0; /*--cef()--*/ virtual std::wstring GetStringValue() =0; // OBJECT METHODS - These methods are only available on objects. Arrays and // functions are also objects. String- and integer-based keys can be used // interchangably with the framework converting between them as necessary. // Keys beginning with "Cef::" and "v8::" are reserved by the system. // Returns true if the object has a value with the specified identifier. /*--cef(capi_name=has_value_bykey)--*/ virtual bool HasValue(const std::wstring& key) =0; /*--cef(capi_name=has_value_byindex)--*/ virtual bool HasValue(int index) =0; // Delete the value with the specified identifier. /*--cef(capi_name=delete_value_bykey)--*/ virtual bool DeleteValue(const std::wstring& key) =0; /*--cef(capi_name=delete_value_byindex)--*/ virtual bool DeleteValue(int index) =0; // Returns the value with the specified identifier. /*--cef(capi_name=get_value_bykey)--*/ virtual CefRefPtr GetValue(const std::wstring& key) =0; /*--cef(capi_name=get_value_byindex)--*/ virtual CefRefPtr GetValue(int index) =0; // Associate value with the specified identifier. /*--cef(capi_name=set_value_bykey)--*/ virtual bool SetValue(const std::wstring& key, CefRefPtr value) =0; /*--cef(capi_name=set_value_byindex)--*/ virtual bool SetValue(int index, CefRefPtr value) =0; // Read the keys for the object's values into the specified vector. Integer- // based keys will also be returned as strings. /*--cef()--*/ virtual bool GetKeys(std::vector& keys) =0; // Returns the user data, if any, specified when the object was created. /*--cef()--*/ virtual CefRefPtr GetUserData() =0; // ARRAY METHODS - These methods are only available on arrays. // Returns the number of elements in the array. /*--cef()--*/ virtual int GetArrayLength() =0; // FUNCTION METHODS - These methods are only available on functions. // Returns the function name. /*--cef()--*/ virtual std::wstring GetFunctionName() =0; // Returns the function handler or NULL if not a CEF-created function. /*--cef()--*/ virtual CefRefPtr GetFunctionHandler() =0; // Execute the function. /*--cef()--*/ virtual bool ExecuteFunction(CefRefPtr object, const CefV8ValueList& arguments, CefRefPtr& retval, std::wstring& exception) =0; }; // Class that creates CefSchemeHandler instances. /*--cef(source=client)--*/ class CefSchemeHandlerFactory : public CefBase { public: // Return a new scheme handler instance to handle the request. /*--cef()--*/ virtual CefRefPtr Create() =0; }; // Class used to represent a custom scheme handler interface. /*--cef(source=client)--*/ class CefSchemeHandler : public CefBase { public: // Process the request. All response generation should take place in this // method. If there is no response set |response_length| to zero and // ReadResponse() will not be called. If the response length is not known then // set |response_length| to -1 and ReadResponse() will be called until it // returns false or until the value of |bytes_read| is set to 0. Otherwise, // set |response_length| to a positive value and ReadResponse() will be called // until it returns false, the value of |bytes_read| is set to 0 or the // specified number of bytes have been read. If there is a response set // |mime_type| to the mime type for the response. /*--cef()--*/ virtual bool ProcessRequest(CefRefPtr request, std::wstring& mime_type, int* response_length) =0; // Cancel processing of the request. /*--cef()--*/ virtual void Cancel() =0; // Copy up to |bytes_to_read| bytes into |data_out|. If the copy succeeds // set |bytes_read| to the number of bytes copied and return true. If the // copy fails return false and ReadResponse() will not be called again. /*--cef()--*/ virtual bool ReadResponse(void* data_out, int bytes_to_read, int* bytes_read) =0; }; // Class used to handle file downloads. /*--cef(source=client)--*/ class CefDownloadHandler : public CefBase { public: // A portion of the file contents have been received. This method will be // called multiple times until the download is complete. Return |true| to // continue receiving data and |false| to cancel. /*--cef()--*/ virtual bool ReceivedData(void* data, int data_size) =0; // The download is complete. /*--cef()--*/ virtual void Complete() =0; }; // Class that supports the reading of XML data via the libxml streaming API. /*--cef(source=library)--*/ class CefXmlReader : public CefBase { public: typedef cef_xml_encoding_type_t EncodingType; typedef cef_xml_node_type_t NodeType; // Create a new CefXmlReader object. The returned object's methods can only // be called from the thread that created the object. /*--cef()--*/ static CefRefPtr Create(CefRefPtr stream, EncodingType encodingType, const std::wstring& URI); // Moves the cursor to the next node in the document. This method must be // called at least once to set the current cursor position. Returns true if // the cursor position was set successfully. /*--cef()--*/ virtual bool MoveToNextNode() =0; // Close the document. This should be called directly to ensure that cleanup // occurs on the correct thread. /*--cef()--*/ virtual bool Close() =0; // Returns true if an error has been reported by the XML parser. /*--cef()--*/ virtual bool HasError() =0; // Returns the error string. /*--cef()--*/ virtual std::wstring GetError() =0; // The below methods retrieve data for the node at the current cursor // position. // Returns the node type. /*--cef()--*/ virtual NodeType GetType() =0; // Returns the node depth. Depth starts at 0 for the root node. /*--cef()--*/ virtual int GetDepth() =0; // Returns the local name. See // http://www.w3.org/TR/REC-xml-names/#NT-LocalPart for additional details. /*--cef()--*/ virtual std::wstring GetLocalName() =0; // Returns the namespace prefix. See http://www.w3.org/TR/REC-xml-names/ for // additional details. /*--cef()--*/ virtual std::wstring GetPrefix() =0; // Returns the qualified name, equal to (Prefix:)LocalName. See // http://www.w3.org/TR/REC-xml-names/#ns-qualnames for additional details. /*--cef()--*/ virtual std::wstring GetQualifiedName() =0; // Returns the URI defining the namespace associated with the node. See // http://www.w3.org/TR/REC-xml-names/ for additional details. /*--cef()--*/ virtual std::wstring GetNamespaceURI() =0; // Returns the base URI of the node. See http://www.w3.org/TR/xmlbase/ for // additional details. /*--cef()--*/ virtual std::wstring GetBaseURI() =0; // Returns the xml:lang scope within which the node resides. See // http://www.w3.org/TR/REC-xml/#sec-lang-tag for additional details. /*--cef()--*/ virtual std::wstring GetXmlLang() =0; // Returns true if the node represents an empty element. is considered // empty but is not. /*--cef()--*/ virtual bool IsEmptyElement() =0; // Returns true if the node has a text value. /*--cef()--*/ virtual bool HasValue() =0; // Returns the text value. /*--cef()--*/ virtual std::wstring GetValue() =0; // Returns true if the node has attributes. /*--cef()--*/ virtual bool HasAttributes() =0; // Returns the number of attributes. /*--cef()--*/ virtual size_t GetAttributeCount() =0; // Returns the value of the attribute at the specified 0-based index. /*--cef(capi_name=get_attribute_byindex)--*/ virtual std::wstring GetAttribute(int index) =0; // Returns the value of the attribute with the specified qualified name. /*--cef(capi_name=get_attribute_byqname)--*/ virtual std::wstring GetAttribute(const std::wstring& qualifiedName) =0; // Returns the value of the attribute with the specified local name and // namespace URI. /*--cef(capi_name=get_attribute_bylname)--*/ virtual std::wstring GetAttribute(const std::wstring& localName, const std::wstring& namespaceURI) =0; // Returns an XML representation of the current node's children. /*--cef()--*/ virtual std::wstring GetInnerXml() =0; // Returns an XML representation of the current node including its children. /*--cef()--*/ virtual std::wstring GetOuterXml() =0; // Returns the line number for the current node. /*--cef()--*/ virtual int GetLineNumber() =0; // Attribute nodes are not traversed by default. The below methods can be // used to move the cursor to an attribute node. MoveToCarryingElement() can // be called afterwards to return the cursor to the carrying element. The // depth of an attribute node will be 1 + the depth of the carrying element. // Moves the cursor to the attribute at the specified 0-based index. Returns // true if the cursor position was set successfully. /*--cef(capi_name=move_to_attribute_byindex)--*/ virtual bool MoveToAttribute(int index) =0; // Moves the cursor to the attribute with the specified qualified name. // Returns true if the cursor position was set successfully. /*--cef(capi_name=move_to_attribute_byqname)--*/ virtual bool MoveToAttribute(const std::wstring& qualifiedName) =0; // Moves the cursor to the attribute with the specified local name and // namespace URI. Returns true if the cursor position was set successfully. /*--cef(capi_name=move_to_attribute_bylname)--*/ virtual bool MoveToAttribute(const std::wstring& localName, const std::wstring& namespaceURI) =0; // Moves the cursor to the first attribute in the current element. Returns // true if the cursor position was set successfully. /*--cef()--*/ virtual bool MoveToFirstAttribute() =0; // Moves the cursor to the next attribute in the current element. Returns // true if the cursor position was set successfully. /*--cef()--*/ virtual bool MoveToNextAttribute() =0; // Moves the cursor back to the carrying element. Returns true if the cursor // position was set successfully. /*--cef()--*/ virtual bool MoveToCarryingElement() =0; }; // Class that supports the reading of zip archives via the zlib unzip API. /*--cef(source=library)--*/ class CefZipReader : public CefBase { public: // Create a new CefZipReader object. The returned object's methods can only // be called from the thread that created the object. /*--cef()--*/ static CefRefPtr Create(CefRefPtr stream); // Moves the cursor to the first file in the archive. Returns true if the // cursor position was set successfully. /*--cef()--*/ virtual bool MoveToFirstFile() =0; // Moves the cursor to the next file in the archive. Returns true if the // cursor position was set successfully. /*--cef()--*/ virtual bool MoveToNextFile() =0; // Moves the cursor to the specified file in the archive. If |caseSensitive| // is true then the search will be case sensitive. Returns true if the cursor // position was set successfully. /*--cef()--*/ virtual bool MoveToFile(const std::wstring& fileName, bool caseSensitive) =0; // Closes the archive. This should be called directly to ensure that cleanup // occurs on the correct thread. /*--cef()--*/ virtual bool Close() =0; // The below methods act on the file at the current cursor position. // Returns the name of the file. /*--cef()--*/ virtual std::wstring GetFileName() =0; // Returns the uncompressed size of the file. /*--cef()--*/ virtual long GetFileSize() =0; // Returns the last modified timestamp for the file. /*--cef()--*/ virtual time_t GetFileLastModified() =0; // Opens the file for reading of uncompressed data. A read password may // optionally be specified. /*--cef()--*/ virtual bool OpenFile(const std::wstring& password) =0; // Closes the file. /*--cef()--*/ virtual bool CloseFile() =0; // Read uncompressed file contents into the specified buffer. Returns < 0 if // an error occurred, 0 if at the end of file, or the number of bytes read. /*--cef()--*/ virtual int ReadFile(void* buffer, size_t bufferSize) =0; // Returns the current offset in the uncompressed file contents. /*--cef()--*/ virtual long Tell() =0; // Returns true if at end of the file contents. /*--cef()--*/ virtual bool Eof() =0; }; #endif // _CEF_H