// Copyright (c) 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. // // --------------------------------------------------------------------------- // // This file was generated by the CEF translator tool and should not edited // by hand. See the translator.README.txt file in the tools directory for // more information. // #ifndef _CEF_CAPI_H #define _CEF_CAPI_H #ifdef __cplusplus extern "C" { #endif #include "cef_export.h" #include "cef_string.h" #include "cef_string_list.h" #include "cef_string_map.h" #include "cef_types.h" // 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 (1) // indicates that it succeeded and false (0) indicates that it failed. Set // |multi_threaded_message_loop| to true (1) to have the message loop run in a // separate thread. If |multi_threaded_message_loop| is false (0) than the // cef_do_message_loop_work() 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 NULL an in-memory cache will be used for cache data. CEF_EXPORT int cef_initialize(int multi_threaded_message_loop, const wchar_t* 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_EXPORT void cef_shutdown(); // Perform message loop processing. Has no affect if the browser UI loop is // running in a separate thread. CEF_EXPORT void cef_do_message_loop_work(); // 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_EXPORT int cef_register_extension(const wchar_t* extension_name, const wchar_t* javascript_code, struct _cef_v8handler_t* 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 cef_scheme_handler_t instances returned by the factory. Specify an NULL // |host_name| value to match all host names. CEF_EXPORT int cef_register_scheme(const wchar_t* scheme_name, const wchar_t* host_name, struct _cef_scheme_handler_factory_t* factory); typedef struct _cef_base_t { // Size of the data structure. size_t size; // Increment the reference count. int (CEF_CALLBACK *add_ref)(struct _cef_base_t* self); // Decrement the reference count. Delete this object when no references // remain. int (CEF_CALLBACK *release)(struct _cef_base_t* self); // Returns the current number of references. int (CEF_CALLBACK *get_refct)(struct _cef_base_t* self); } cef_base_t; // Check that the structure |s|, which is defined with a cef_base_t member named // |base|, is large enough to contain the specified member |f|. #define CEF_MEMBER_EXISTS(s, f) \ ((int)&((s)->f) - (int)(s) + sizeof((s)->f) <= (s)->base.size) #define CEF_MEMBER_MISSING(s, f) (!CEF_MEMBER_EXISTS(s, f) || !((s)->f)) // Structure used to represent a browser window. All functions exposed by this // structure should be thread safe. typedef struct _cef_browser_t { // Base structure. cef_base_t base; // Returns true (1) if the browser can navigate backwards. int (CEF_CALLBACK *can_go_back)(struct _cef_browser_t* self); // Navigate backwards. void (CEF_CALLBACK *go_back)(struct _cef_browser_t* self); // Returns true (1) if the browser can navigate forwards. int (CEF_CALLBACK *can_go_forward)(struct _cef_browser_t* self); // Navigate backwards. void (CEF_CALLBACK *go_forward)(struct _cef_browser_t* self); // Reload the current page. void (CEF_CALLBACK *reload)(struct _cef_browser_t* self); // Stop loading the page. void (CEF_CALLBACK *stop_load)(struct _cef_browser_t* self); // Set focus for the browser window. If |enable| is true (1) focus will be // set to the window. Otherwise, focus will be removed. void (CEF_CALLBACK *set_focus)(struct _cef_browser_t* self, int enable); // Retrieve the window handle for this browser. cef_window_handle_t (CEF_CALLBACK *get_window_handle)( struct _cef_browser_t* self); // Returns true (1) if the window is a popup window. int (CEF_CALLBACK *is_popup)(struct _cef_browser_t* self); // Returns the handler for this browser. struct _cef_handler_t* (CEF_CALLBACK *get_handler)( struct _cef_browser_t* self); // Returns the main (top-level) frame for the browser window. struct _cef_frame_t* (CEF_CALLBACK *get_main_frame)( struct _cef_browser_t* self); // Returns the focused frame for the browser window. struct _cef_frame_t* (CEF_CALLBACK *get_focused_frame)( struct _cef_browser_t* self); // Returns the frame with the specified name, or NULL if not found. struct _cef_frame_t* (CEF_CALLBACK *get_frame)(struct _cef_browser_t* self, const wchar_t* name); // Returns the names of all existing frames. void (CEF_CALLBACK *get_frame_names)(struct _cef_browser_t* self, cef_string_list_t names); } cef_browser_t; // 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 (1) if the // new window is a popup window. This function call will not block. CEF_EXPORT int cef_browser_create(cef_window_info_t* windowInfo, int popup, struct _cef_handler_t* handler, const wchar_t* url); // Create a new browser window using the window parameters specified by // |windowInfo|. The |popup| parameter should be true (1) if the new window is a // popup window. This function call will block and can only be used if the // |multi_threaded_message_loop| parameter to cef_initialize() is false (0). CEF_EXPORT cef_browser_t* cef_browser_create_sync(cef_window_info_t* windowInfo, int popup, struct _cef_handler_t* handler, const wchar_t* url); // Structure used to represent a frame in the browser window. All functions // exposed by this structure should be thread safe. typedef struct _cef_frame_t { // Base structure. cef_base_t base; // Execute undo in this frame. void (CEF_CALLBACK *undo)(struct _cef_frame_t* self); // Execute redo in this frame. void (CEF_CALLBACK *redo)(struct _cef_frame_t* self); // Execute cut in this frame. void (CEF_CALLBACK *cut)(struct _cef_frame_t* self); // Execute copy in this frame. void (CEF_CALLBACK *copy)(struct _cef_frame_t* self); // Execute paste in this frame. void (CEF_CALLBACK *paste)(struct _cef_frame_t* self); // Execute delete in this frame. void (CEF_CALLBACK *del)(struct _cef_frame_t* self); // Execute select all in this frame. void (CEF_CALLBACK *select_all)(struct _cef_frame_t* self); // Execute printing in the this frame. The user will be prompted with the // print dialog appropriate to the operating system. void (CEF_CALLBACK *print)(struct _cef_frame_t* self); // Save this frame's HTML source to a temporary file and open it in the // default text viewing application. void (CEF_CALLBACK *view_source)(struct _cef_frame_t* self); // Returns this frame's HTML source as a string. // The resulting string must be freed by calling cef_string_free(). cef_string_t (CEF_CALLBACK *get_source)(struct _cef_frame_t* self); // Returns this frame's display text as a string. // The resulting string must be freed by calling cef_string_free(). cef_string_t (CEF_CALLBACK *get_text)(struct _cef_frame_t* self); // Load the request represented by the |request| object. void (CEF_CALLBACK *load_request)(struct _cef_frame_t* self, struct _cef_request_t* request); // Load the specified |url|. void (CEF_CALLBACK *load_url)(struct _cef_frame_t* self, const wchar_t* url); // Load the contents of |string| with the optional dummy target |url|. void (CEF_CALLBACK *load_string)(struct _cef_frame_t* self, const wchar_t* string, const wchar_t* url); // Load the contents of |stream| with the optional dummy target |url|. void (CEF_CALLBACK *load_stream)(struct _cef_frame_t* self, struct _cef_stream_reader_t* stream, const wchar_t* url); // 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. void (CEF_CALLBACK *execute_java_script)(struct _cef_frame_t* self, const wchar_t* jsCode, const wchar_t* scriptUrl, int startLine); // Returns true (1) if this is the main frame. int (CEF_CALLBACK *is_main)(struct _cef_frame_t* self); // Returns true (1) if this is the focused frame. int (CEF_CALLBACK *is_focused)(struct _cef_frame_t* self); // Returns this frame's name. // The resulting string must be freed by calling cef_string_free(). cef_string_t (CEF_CALLBACK *get_name)(struct _cef_frame_t* self); // Return the URL currently loaded in this frame. // The resulting string must be freed by calling cef_string_free(). cef_string_t (CEF_CALLBACK *get_url)(struct _cef_frame_t* self); } cef_frame_t; // Structure that should be implemented to handle events generated by the // browser window. All functions exposed by this structure should be thread // safe. Each function in the structure returns a RetVal value. typedef struct _cef_handler_t { // Base structure. cef_base_t base; // 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 (1) 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. enum cef_retval_t (CEF_CALLBACK *handle_before_created)( struct _cef_handler_t* self, struct _cef_browser_t* parentBrowser, struct _cef_window_info_t* windowInfo, int popup, struct _cef_handler_t** handler, cef_string_t* url); // Event called after a new window is created. The return value is currently // ignored. enum cef_retval_t (CEF_CALLBACK *handle_after_created)( struct _cef_handler_t* self, struct _cef_browser_t* browser); // Event called when a frame's address has changed. The return value is // currently ignored. enum cef_retval_t (CEF_CALLBACK *handle_address_change)( struct _cef_handler_t* self, struct _cef_browser_t* browser, struct _cef_frame_t* frame, const wchar_t* url); // Event called when the page title changes. The return value is currently // ignored. enum cef_retval_t (CEF_CALLBACK *handle_title_change)( struct _cef_handler_t* self, struct _cef_browser_t* browser, const wchar_t* title); // Event called before browser navigation. The client has an opportunity to // modify the |request| object if desired. Return RV_HANDLED to cancel // navigation. enum cef_retval_t (CEF_CALLBACK *handle_before_browse)( struct _cef_handler_t* self, struct _cef_browser_t* browser, struct _cef_frame_t* frame, struct _cef_request_t* request, enum cef_handler_navtype_t navType, int isRedirect); // Event called when the browser begins loading a page. The |frame| pointer // will be NULL if the event represents the overall load status and not the // load status for a particular frame. The return value is currently ignored. enum cef_retval_t (CEF_CALLBACK *handle_load_start)( struct _cef_handler_t* self, struct _cef_browser_t* browser, struct _cef_frame_t* frame); // Event called when the browser is done loading a page. The |frame| pointer // will be NULL 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. enum cef_retval_t (CEF_CALLBACK *handle_load_end)(struct _cef_handler_t* self, struct _cef_browser_t* browser, struct _cef_frame_t* frame); // 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. enum cef_retval_t (CEF_CALLBACK *handle_load_error)( struct _cef_handler_t* self, struct _cef_browser_t* browser, struct _cef_frame_t* frame, enum cef_handler_errorcode_t errorCode, const wchar_t* failedUrl, cef_string_t* errorText); // 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. enum cef_retval_t (CEF_CALLBACK *handle_before_resource_load)( struct _cef_handler_t* self, struct _cef_browser_t* browser, struct _cef_request_t* request, cef_string_t* redirectUrl, struct _cef_stream_reader_t** resourceStream, cef_string_t* mimeType, int loadFlags); // Event called before a context menu is displayed. To cancel display of the // default context menu return RV_HANDLED. enum cef_retval_t (CEF_CALLBACK *handle_before_menu)( struct _cef_handler_t* self, struct _cef_browser_t* browser, const struct _cef_handler_menuinfo_t* menuInfo); // 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. enum cef_retval_t (CEF_CALLBACK *handle_get_menu_label)( struct _cef_handler_t* self, struct _cef_browser_t* browser, enum cef_handler_menuid_t menuId, cef_string_t* label); // Event called when an option is selected from the default context menu. // Return RV_HANDLED to cancel default handling of the action. enum cef_retval_t (CEF_CALLBACK *handle_menu_action)( struct _cef_handler_t* self, struct _cef_browser_t* browser, enum cef_handler_menuid_t menuId); // 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. enum cef_retval_t (CEF_CALLBACK *handle_print_header_footer)( struct _cef_handler_t* self, struct _cef_browser_t* browser, struct _cef_frame_t* frame, struct _cef_print_info_t* printInfo, const wchar_t* url, const wchar_t* title, int currentPage, int maxPages, cef_string_t* topLeft, cef_string_t* topCenter, cef_string_t* topRight, cef_string_t* bottomLeft, cef_string_t* bottomCenter, cef_string_t* bottomRight); // Run a JS alert message. Return RV_CONTINUE to display the default alert or // RV_HANDLED if you displayed a custom alert. enum cef_retval_t (CEF_CALLBACK *handle_jsalert)(struct _cef_handler_t* self, struct _cef_browser_t* browser, struct _cef_frame_t* frame, const wchar_t* message); // 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 (1) if the user accepted the confirmation. enum cef_retval_t (CEF_CALLBACK *handle_jsconfirm)( struct _cef_handler_t* self, struct _cef_browser_t* browser, struct _cef_frame_t* frame, const wchar_t* message, int* retval); // 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 (1) if the user accepted the prompt and request and // |result| to the resulting value. enum cef_retval_t (CEF_CALLBACK *handle_jsprompt)(struct _cef_handler_t* self, struct _cef_browser_t* browser, struct _cef_frame_t* frame, const wchar_t* message, const wchar_t* defaultValue, int* retval, cef_string_t* result); // Called just before a window is closed. The return value is currently // ignored. enum cef_retval_t (CEF_CALLBACK *handle_before_window_close)( struct _cef_handler_t* self, struct _cef_browser_t* browser); // 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. enum cef_retval_t (CEF_CALLBACK *handle_take_focus)( struct _cef_handler_t* self, struct _cef_browser_t* browser, int reverse); // Event called for adding values to a frame's JavaScript 'window' object. The // return value is currently ignored. enum cef_retval_t (CEF_CALLBACK *handle_jsbinding)( struct _cef_handler_t* self, struct _cef_browser_t* browser, struct _cef_frame_t* frame, struct _cef_v8value_t* object); // Called when the browser component is requesting focus. |isWidget| will be // true (1) 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. enum cef_retval_t (CEF_CALLBACK *handle_set_focus)( struct _cef_handler_t* self, struct _cef_browser_t* browser, int isWidget); } cef_handler_t; // Structure used to represent a web request. typedef struct _cef_request_t { // Base structure. cef_base_t base; // Fully qualified URL to load. // The resulting string must be freed by calling cef_string_free(). cef_string_t (CEF_CALLBACK *get_url)(struct _cef_request_t* self); void (CEF_CALLBACK *set_url)(struct _cef_request_t* self, const wchar_t* url); // Optional request function type, defaulting to POST if post data is provided // and GET otherwise. // The resulting string must be freed by calling cef_string_free(). cef_string_t (CEF_CALLBACK *get_method)(struct _cef_request_t* self); void (CEF_CALLBACK *set_method)(struct _cef_request_t* self, const wchar_t* method); // Optional post data. struct _cef_post_data_t* (CEF_CALLBACK *get_post_data)( struct _cef_request_t* self); void (CEF_CALLBACK *set_post_data)(struct _cef_request_t* self, struct _cef_post_data_t* postData); // Optional header values. void (CEF_CALLBACK *get_header_map)(struct _cef_request_t* self, cef_string_map_t headerMap); void (CEF_CALLBACK *set_header_map)(struct _cef_request_t* self, cef_string_map_t headerMap); // Set all values at one time. void (CEF_CALLBACK *set)(struct _cef_request_t* self, const wchar_t* url, const wchar_t* method, struct _cef_post_data_t* postData, cef_string_map_t headerMap); } cef_request_t; // Create a new cef_request_t object. CEF_EXPORT cef_request_t* cef_request_create(); // Structure used to represent post data for a web request. typedef struct _cef_post_data_t { // Base structure. cef_base_t base; // Returns the number of existing post data elements. size_t (CEF_CALLBACK *get_element_count)(struct _cef_post_data_t* self); // Retrieve the post data elements. struct _cef_post_data_element_t* (CEF_CALLBACK *get_elements)( struct _cef_post_data_t* self, int elementIndex); // Remove the specified post data element. Returns true (1) if the removal // succeeds. int (CEF_CALLBACK *remove_element)(struct _cef_post_data_t* self, struct _cef_post_data_element_t* element); // Add the specified post data element. Returns true (1) if the add succeeds. int (CEF_CALLBACK *add_element)(struct _cef_post_data_t* self, struct _cef_post_data_element_t* element); // Remove all existing post data elements. void (CEF_CALLBACK *remove_elements)(struct _cef_post_data_t* self); } cef_post_data_t; // Create a new cef_post_data_t object. CEF_EXPORT cef_post_data_t* cef_post_data_create(); // Structure used to represent a single element in the request post data. typedef struct _cef_post_data_element_t { // Base structure. cef_base_t base; // Remove all contents from the post data element. void (CEF_CALLBACK *set_to_empty)(struct _cef_post_data_element_t* self); // The post data element will represent a file. void (CEF_CALLBACK *set_to_file)(struct _cef_post_data_element_t* self, const wchar_t* fileName); // The post data element will represent bytes. The bytes passed in will be // copied. void (CEF_CALLBACK *set_to_bytes)(struct _cef_post_data_element_t* self, size_t size, const void* bytes); // Return the type of this post data element. enum cef_postdataelement_type_t (CEF_CALLBACK *get_type)( struct _cef_post_data_element_t* self); // Return the file name. // The resulting string must be freed by calling cef_string_free(). cef_string_t (CEF_CALLBACK *get_file)(struct _cef_post_data_element_t* self); // Return the number of bytes. size_t (CEF_CALLBACK *get_bytes_count)(struct _cef_post_data_element_t* self); // Read up to |size| bytes into |bytes| and return the number of bytes // actually read. size_t (CEF_CALLBACK *get_bytes)(struct _cef_post_data_element_t* self, size_t size, void* bytes); } cef_post_data_element_t; // Create a new cef_post_data_tElement object. CEF_EXPORT cef_post_data_element_t* cef_post_data_element_create(); // Structure the client can implement to provide a custom stream reader. typedef struct _cef_read_handler_t { // Base structure. cef_base_t base; // Read raw binary data. size_t (CEF_CALLBACK *read)(struct _cef_read_handler_t* self, void* ptr, size_t size, size_t n); // Seek to the specified offset position. |whence| may be any one of SEEK_CUR, // SEEK_END or SEEK_SET. int (CEF_CALLBACK *seek)(struct _cef_read_handler_t* self, long offset, int whence); // Return the current offset position. long (CEF_CALLBACK *tell)(struct _cef_read_handler_t* self); // Return non-zero if at end of file. int (CEF_CALLBACK *eof)(struct _cef_read_handler_t* self); } cef_read_handler_t; // Structure used to read data from a stream. typedef struct _cef_stream_reader_t { // Base structure. cef_base_t base; // Read raw binary data. size_t (CEF_CALLBACK *read)(struct _cef_stream_reader_t* self, void* ptr, size_t size, size_t n); // 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. int (CEF_CALLBACK *seek)(struct _cef_stream_reader_t* self, long offset, int whence); // Return the current offset position. long (CEF_CALLBACK *tell)(struct _cef_stream_reader_t* self); // Return non-zero if at end of file. int (CEF_CALLBACK *eof)(struct _cef_stream_reader_t* self); } cef_stream_reader_t; // Create a new cef_stream_reader_t object. CEF_EXPORT cef_stream_reader_t* cef_stream_reader_create_for_file( const wchar_t* fileName); CEF_EXPORT cef_stream_reader_t* cef_stream_reader_create_for_data(void* data, size_t size); CEF_EXPORT cef_stream_reader_t* cef_stream_reader_create_for_handler( cef_read_handler_t* handler); // Structure the client can implement to provide a custom stream writer. typedef struct _cef_write_handler_t { // Base structure. cef_base_t base; // Write raw binary data. size_t (CEF_CALLBACK *write)(struct _cef_write_handler_t* self, const void* ptr, size_t size, size_t n); // Seek to the specified offset position. |whence| may be any one of SEEK_CUR, // SEEK_END or SEEK_SET. int (CEF_CALLBACK *seek)(struct _cef_write_handler_t* self, long offset, int whence); // Return the current offset position. long (CEF_CALLBACK *tell)(struct _cef_write_handler_t* self); // Flush the stream. int (CEF_CALLBACK *flush)(struct _cef_write_handler_t* self); } cef_write_handler_t; // Structure used to write data to a stream. typedef struct _cef_stream_writer_t { // Base structure. cef_base_t base; // Write raw binary data. size_t (CEF_CALLBACK *write)(struct _cef_stream_writer_t* self, const void* ptr, size_t size, size_t n); // Seek to the specified offset position. |whence| may be any one of SEEK_CUR, // SEEK_END or SEEK_SET. int (CEF_CALLBACK *seek)(struct _cef_stream_writer_t* self, long offset, int whence); // Return the current offset position. long (CEF_CALLBACK *tell)(struct _cef_stream_writer_t* self); // Flush the stream. int (CEF_CALLBACK *flush)(struct _cef_stream_writer_t* self); } cef_stream_writer_t; // Create a new cef_stream_writer_t object. CEF_EXPORT cef_stream_writer_t* cef_stream_writer_create_for_file( const wchar_t* fileName); CEF_EXPORT cef_stream_writer_t* cef_stream_writer_create_for_handler( cef_write_handler_t* handler); // Structure that should be implemented to handle V8 function calls. typedef struct _cef_v8handler_t { // Base structure. cef_base_t base; // Execute with the specified argument list and return value. Return true (1) // if the function was handled. int (CEF_CALLBACK *execute)(struct _cef_v8handler_t* self, const wchar_t* name, struct _cef_v8value_t* object, size_t argumentCount, struct _cef_v8value_t* const* arguments, struct _cef_v8value_t** retval, cef_string_t* exception); } cef_v8handler_t; // Structure representing a V8 value. typedef struct _cef_v8value_t { // Base structure. cef_base_t base; // Check the value type. int (CEF_CALLBACK *is_undefined)(struct _cef_v8value_t* self); int (CEF_CALLBACK *is_null)(struct _cef_v8value_t* self); int (CEF_CALLBACK *is_bool)(struct _cef_v8value_t* self); int (CEF_CALLBACK *is_int)(struct _cef_v8value_t* self); int (CEF_CALLBACK *is_double)(struct _cef_v8value_t* self); int (CEF_CALLBACK *is_string)(struct _cef_v8value_t* self); int (CEF_CALLBACK *is_object)(struct _cef_v8value_t* self); int (CEF_CALLBACK *is_array)(struct _cef_v8value_t* self); int (CEF_CALLBACK *is_function)(struct _cef_v8value_t* self); // Return a primitive value type. The underlying data will be converted to // the requested type if necessary. int (CEF_CALLBACK *get_bool_value)(struct _cef_v8value_t* self); int (CEF_CALLBACK *get_int_value)(struct _cef_v8value_t* self); double (CEF_CALLBACK *get_double_value)(struct _cef_v8value_t* self); // The resulting string must be freed by calling cef_string_free(). cef_string_t (CEF_CALLBACK *get_string_value)(struct _cef_v8value_t* self); // OBJECT METHODS - These functions 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 (1) if the object has a value with the specified identifier. int (CEF_CALLBACK *has_value_bykey)(struct _cef_v8value_t* self, const wchar_t* key); int (CEF_CALLBACK *has_value_byindex)(struct _cef_v8value_t* self, int index); // Delete the value with the specified identifier. int (CEF_CALLBACK *delete_value_bykey)(struct _cef_v8value_t* self, const wchar_t* key); int (CEF_CALLBACK *delete_value_byindex)(struct _cef_v8value_t* self, int index); // Returns the value with the specified identifier. struct _cef_v8value_t* (CEF_CALLBACK *get_value_bykey)( struct _cef_v8value_t* self, const wchar_t* key); struct _cef_v8value_t* (CEF_CALLBACK *get_value_byindex)( struct _cef_v8value_t* self, int index); // Associate value with the specified identifier. int (CEF_CALLBACK *set_value_bykey)(struct _cef_v8value_t* self, const wchar_t* key, struct _cef_v8value_t* value); int (CEF_CALLBACK *set_value_byindex)(struct _cef_v8value_t* self, int index, struct _cef_v8value_t* value); // Read the keys for the object's values into the specified vector. Integer- // based keys will also be returned as strings. int (CEF_CALLBACK *get_keys)(struct _cef_v8value_t* self, cef_string_list_t keys); // Returns the user data, if any, specified when the object was created. struct _cef_base_t* (CEF_CALLBACK *get_user_data)( struct _cef_v8value_t* self); // ARRAY METHODS - These functions are only available on arrays. // Returns the number of elements in the array. int (CEF_CALLBACK *get_array_length)(struct _cef_v8value_t* self); // FUNCTION METHODS - These functions are only available on functions. // Returns the function name. // The resulting string must be freed by calling cef_string_free(). cef_string_t (CEF_CALLBACK *get_function_name)(struct _cef_v8value_t* self); // Returns the function handler or NULL if not a CEF-created function. struct _cef_v8handler_t* (CEF_CALLBACK *get_function_handler)( struct _cef_v8value_t* self); // Execute the function. int (CEF_CALLBACK *execute_function)(struct _cef_v8value_t* self, struct _cef_v8value_t* object, size_t argumentCount, struct _cef_v8value_t* const* arguments, struct _cef_v8value_t** retval, cef_string_t* exception); } cef_v8value_t; // Create a new cef_v8value_t object of the specified type. These functions // should only be called from within the JavaScript context -- either in a // cef_v8handler_t::execute() callback or a cef_handler_t::handle_jsbinding() // callback. CEF_EXPORT cef_v8value_t* cef_v8value_create_undefined(); CEF_EXPORT cef_v8value_t* cef_v8value_create_null(); CEF_EXPORT cef_v8value_t* cef_v8value_create_bool(int value); CEF_EXPORT cef_v8value_t* cef_v8value_create_int(int value); CEF_EXPORT cef_v8value_t* cef_v8value_create_double(double value); CEF_EXPORT cef_v8value_t* cef_v8value_create_string(const wchar_t* value); CEF_EXPORT cef_v8value_t* cef_v8value_create_object(cef_base_t* user_data); CEF_EXPORT cef_v8value_t* cef_v8value_create_array(); CEF_EXPORT cef_v8value_t* cef_v8value_create_function(const wchar_t* name, cef_v8handler_t* handler); // Structure that creates cef_scheme_handler_t instances. typedef struct _cef_scheme_handler_factory_t { // Base structure. cef_base_t base; // Return a new scheme handler instance to handle the request. struct _cef_scheme_handler_t* (CEF_CALLBACK *create)( struct _cef_scheme_handler_factory_t* self); } cef_scheme_handler_factory_t; // Structure used to represent a custom scheme handler structure. typedef struct _cef_scheme_handler_t { // Base structure. cef_base_t base; // Process the request. All response generation should take place in this // function. If there is no response set |response_length| to zero and // read_response() will not be called. If the response length is not known // then set |response_length| to -1 and read_response() will be called until // it returns false (0) or until the value of |bytes_read| is set to 0. // Otherwise, set |response_length| to a positive value and read_response() // will be called until it returns false (0), 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. int (CEF_CALLBACK *process_request)(struct _cef_scheme_handler_t* self, struct _cef_request_t* request, cef_string_t* mime_type, int* response_length); // Cancel processing of the request. void (CEF_CALLBACK *cancel)(struct _cef_scheme_handler_t* self); // 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 (1). If the copy // fails return false (0) and read_response() will not be called again. int (CEF_CALLBACK *read_response)(struct _cef_scheme_handler_t* self, void* data_out, int bytes_to_read, int* bytes_read); } cef_scheme_handler_t; #ifdef __cplusplus } #endif #endif // _CEF_CAPI_H