cef/include/cef_capi.h

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// Copyright (c) 2010 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);
// 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 cef_initialize()
// was called with a |multi_threaded_message_loop| value of false (0).) 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
// function will return true (1) if called on the specified thread.
CEF_EXPORT int cef_currently_on(cef_thread_id_t threadId);
// Post a task for execution on the specified thread.
CEF_EXPORT int cef_post_task(cef_thread_id_t threadId,
struct _cef_task_t* task);
// Post a task for delayed execution on the specified thread.
CEF_EXPORT int cef_post_delayed_task(cef_thread_id_t threadId,
struct _cef_task_t* task, long delay_ms);
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))
// Implement this structure for task execution.
typedef struct _cef_task_t
{
// Base structure.
cef_base_t base;
// Method that will be executed. |threadId| is the thread executing the call.
void (CEF_CALLBACK *execute)(struct _cef_task_t* self,
cef_thread_id_t threadId);
} cef_task_t;
// 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);
// Reload the current page ignoring any cached data.
void (CEF_CALLBACK *reload_ignore_cache)(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);
// 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.
void (CEF_CALLBACK *find)(struct _cef_browser_t* self, int identifier,
const wchar_t* searchText, int forward, int matchCase, int findNext);
// Cancel all searches that are currently going on.
void (CEF_CALLBACK *stop_finding)(struct _cef_browser_t* self,
int clearSelection);
} 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, in which case
// |popupFeatures| will contain information about the style of popup window
// requested. 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,
const struct _cef_popup_features_t* popupFeatures);
// 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. 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.
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);
// 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 cef_download_handler_t instance that will
// recieve the file contents. Return RV_CONTINUE to download the file or
// RV_HANDLED to cancel the file download.
enum cef_retval_t (CEF_CALLBACK *handle_download_response)(
struct _cef_handler_t* self, struct _cef_browser_t* browser,
const wchar_t* mimeType, const wchar_t* fileName, int64 contentLength,
struct _cef_download_handler_t** handler);
// 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 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|.
enum cef_retval_t (CEF_CALLBACK *handle_print_options)(
struct _cef_handler_t* self, struct _cef_browser_t* browser,
struct _cef_print_options_t* printOptions);
// 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);
// 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 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);
// 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);
// 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.
enum cef_retval_t (CEF_CALLBACK *handle_key_event)(
struct _cef_handler_t* self, struct _cef_browser_t* browser,
enum cef_handler_keyevent_type_t type, int code, int modifiers,
int isSystemKey);
// 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.
enum cef_retval_t (CEF_CALLBACK *handle_tooltip)(struct _cef_handler_t* self,
struct _cef_browser_t* browser, cef_string_t* text);
// Called to display a console message. Return RV_HANDLED to stop the message
// from being output to the console.
enum cef_retval_t (CEF_CALLBACK *handle_console_message)(
struct _cef_handler_t* self, struct _cef_browser_t* browser,
const wchar_t* message, const wchar_t* source, int line);
// Called to report find results returned by cef_browser_t::find().
// |identifer| is the identifier passed to cef_browser_t::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
// (1) if this is the last find notification. The return value is currently
// ignored.
enum cef_retval_t (CEF_CALLBACK *handle_find_result)(
struct _cef_handler_t* self, struct _cef_browser_t* browser,
int identifier, int count, const cef_rect_t* selectionRect,
int activeMatchOrdinal, int finalUpdate);
} 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;
// Structure used to handle file downloads.
typedef struct _cef_download_handler_t
{
// Base structure.
cef_base_t base;
// A portion of the file contents have been received. This function will be
// called multiple times until the download is complete. Return |true (1)| to
// continue receiving data and |false (0)| to cancel.
int (CEF_CALLBACK *received_data)(struct _cef_download_handler_t* self,
void* data, int data_size);
// The download is complete.
void (CEF_CALLBACK *complete)(struct _cef_download_handler_t* self);
} cef_download_handler_t;
// Structure that supports the reading of XML data via the libxml streaming API.
typedef struct _cef_xml_reader_t
{
// Base structure.
cef_base_t base;
// Moves the cursor to the next node in the document. This function must be
// called at least once to set the current cursor position. Returns true (1)
// if the cursor position was set successfully.
int (CEF_CALLBACK *move_to_next_node)(struct _cef_xml_reader_t* self);
// Close the document. This should be called directly to ensure that cleanup
// occurs on the correct thread.
int (CEF_CALLBACK *close)(struct _cef_xml_reader_t* self);
// Returns true (1) if an error has been reported by the XML parser.
int (CEF_CALLBACK *has_error)(struct _cef_xml_reader_t* self);
// Returns the error string.
// The resulting string must be freed by calling cef_string_free().
cef_string_t (CEF_CALLBACK *get_error)(struct _cef_xml_reader_t* self);
// The below functions retrieve data for the node at the current cursor
// position.
// Returns the node type.
enum cef_xml_node_type_t (CEF_CALLBACK *get_type)(
struct _cef_xml_reader_t* self);
// Returns the node depth. Depth starts at 0 for the root node.
int (CEF_CALLBACK *get_depth)(struct _cef_xml_reader_t* self);
// Returns the local name. See http://www.w3.org/TR/REC-xml-names/#NT-
// LocalPart for additional details.
// The resulting string must be freed by calling cef_string_free().
cef_string_t (CEF_CALLBACK *get_local_name)(struct _cef_xml_reader_t* self);
// Returns the namespace prefix. See http://www.w3.org/TR/REC-xml-names/ for
// additional details.
// The resulting string must be freed by calling cef_string_free().
cef_string_t (CEF_CALLBACK *get_prefix)(struct _cef_xml_reader_t* self);
// Returns the qualified name, equal to (Prefix:)LocalName. See
// http://www.w3.org/TR/REC-xml-names/#ns-qualnames for additional details.
// The resulting string must be freed by calling cef_string_free().
cef_string_t (CEF_CALLBACK *get_qualified_name)(
struct _cef_xml_reader_t* self);
// Returns the URI defining the namespace associated with the node. See
// http://www.w3.org/TR/REC-xml-names/ for additional details.
// The resulting string must be freed by calling cef_string_free().
cef_string_t (CEF_CALLBACK *get_namespace_uri)(
struct _cef_xml_reader_t* self);
// Returns the base URI of the node. See http://www.w3.org/TR/xmlbase/ for
// additional details.
// The resulting string must be freed by calling cef_string_free().
cef_string_t (CEF_CALLBACK *get_base_uri)(struct _cef_xml_reader_t* self);
// Returns the xml:lang scope within which the node resides. See
// http://www.w3.org/TR/REC-xml/#sec-lang-tag for additional details.
// The resulting string must be freed by calling cef_string_free().
cef_string_t (CEF_CALLBACK *get_xml_lang)(struct _cef_xml_reader_t* self);
// Returns true (1) if the node represents an NULL element. <a/> is considered
// NULL but <a></a> is not.
int (CEF_CALLBACK *is_empty_element)(struct _cef_xml_reader_t* self);
// Returns true (1) if the node has a text value.
int (CEF_CALLBACK *has_value)(struct _cef_xml_reader_t* self);
// Returns the text value.
// The resulting string must be freed by calling cef_string_free().
cef_string_t (CEF_CALLBACK *get_value)(struct _cef_xml_reader_t* self);
// Returns true (1) if the node has attributes.
int (CEF_CALLBACK *has_attributes)(struct _cef_xml_reader_t* self);
// Returns the number of attributes.
size_t (CEF_CALLBACK *get_attribute_count)(struct _cef_xml_reader_t* self);
// Returns the value of the attribute at the specified 0-based index.
// The resulting string must be freed by calling cef_string_free().
cef_string_t (CEF_CALLBACK *get_attribute_byindex)(
struct _cef_xml_reader_t* self, int index);
// Returns the value of the attribute with the specified qualified name.
// The resulting string must be freed by calling cef_string_free().
cef_string_t (CEF_CALLBACK *get_attribute_byqname)(
struct _cef_xml_reader_t* self, const wchar_t* qualifiedName);
// Returns the value of the attribute with the specified local name and
// namespace URI.
// The resulting string must be freed by calling cef_string_free().
cef_string_t (CEF_CALLBACK *get_attribute_bylname)(
struct _cef_xml_reader_t* self, const wchar_t* localName,
const wchar_t* namespaceURI);
// Returns an XML representation of the current node's children.
// The resulting string must be freed by calling cef_string_free().
cef_string_t (CEF_CALLBACK *get_inner_xml)(struct _cef_xml_reader_t* self);
// Returns an XML representation of the current node including its children.
// The resulting string must be freed by calling cef_string_free().
cef_string_t (CEF_CALLBACK *get_outer_xml)(struct _cef_xml_reader_t* self);
// Returns the line number for the current node.
int (CEF_CALLBACK *get_line_number)(struct _cef_xml_reader_t* self);
// Attribute nodes are not traversed by default. The below functions can be
// used to move the cursor to an attribute node. move_to_carrying_element()
// 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 (1) if the cursor position was set successfully.
int (CEF_CALLBACK *move_to_attribute_byindex)(struct _cef_xml_reader_t* self,
int index);
// Moves the cursor to the attribute with the specified qualified name.
// Returns true (1) if the cursor position was set successfully.
int (CEF_CALLBACK *move_to_attribute_byqname)(struct _cef_xml_reader_t* self,
const wchar_t* qualifiedName);
// Moves the cursor to the attribute with the specified local name and
// namespace URI. Returns true (1) if the cursor position was set
// successfully.
int (CEF_CALLBACK *move_to_attribute_bylname)(struct _cef_xml_reader_t* self,
const wchar_t* localName, const wchar_t* namespaceURI);
// Moves the cursor to the first attribute in the current element. Returns
// true (1) if the cursor position was set successfully.
int (CEF_CALLBACK *move_to_first_attribute)(struct _cef_xml_reader_t* self);
// Moves the cursor to the next attribute in the current element. Returns true
// (1) if the cursor position was set successfully.
int (CEF_CALLBACK *move_to_next_attribute)(struct _cef_xml_reader_t* self);
// Moves the cursor back to the carrying element. Returns true (1) if the
// cursor position was set successfully.
int (CEF_CALLBACK *move_to_carrying_element)(struct _cef_xml_reader_t* self);
} cef_xml_reader_t;
// Create a new cef_xml_reader_t object. The returned object's functions can
// only be called from the thread that created the object.
CEF_EXPORT cef_xml_reader_t* cef_xml_reader_create(cef_stream_reader_t* stream,
enum cef_xml_encoding_type_t encodingType, const wchar_t* URI);
// Structure that supports the reading of zip archives via the zlib unzip API.
typedef struct _cef_zip_reader_t
{
// Base structure.
cef_base_t base;
// Moves the cursor to the first file in the archive. Returns true (1) if the
// cursor position was set successfully.
int (CEF_CALLBACK *move_to_first_file)(struct _cef_zip_reader_t* self);
// Moves the cursor to the next file in the archive. Returns true (1) if the
// cursor position was set successfully.
int (CEF_CALLBACK *move_to_next_file)(struct _cef_zip_reader_t* self);
// Moves the cursor to the specified file in the archive. If |caseSensitive|
// is true (1) then the search will be case sensitive. Returns true (1) if the
// cursor position was set successfully.
int (CEF_CALLBACK *move_to_file)(struct _cef_zip_reader_t* self,
const wchar_t* fileName, int caseSensitive);
// Closes the archive. This should be called directly to ensure that cleanup
// occurs on the correct thread.
int (CEF_CALLBACK *close)(struct _cef_zip_reader_t* self);
// The below functions act on the file at the current cursor position.
// Returns the name of the file.
// The resulting string must be freed by calling cef_string_free().
cef_string_t (CEF_CALLBACK *get_file_name)(struct _cef_zip_reader_t* self);
// Returns the uncompressed size of the file.
long (CEF_CALLBACK *get_file_size)(struct _cef_zip_reader_t* self);
// Returns the last modified timestamp for the file.
time_t (CEF_CALLBACK *get_file_last_modified)(struct _cef_zip_reader_t* self);
// Opens the file for reading of uncompressed data. A read password may
// optionally be specified.
int (CEF_CALLBACK *open_file)(struct _cef_zip_reader_t* self,
const wchar_t* password);
// Closes the file.
int (CEF_CALLBACK *close_file)(struct _cef_zip_reader_t* self);
// 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.
int (CEF_CALLBACK *read_file)(struct _cef_zip_reader_t* self, void* buffer,
size_t bufferSize);
// Returns the current offset in the uncompressed file contents.
long (CEF_CALLBACK *tell)(struct _cef_zip_reader_t* self);
// Returns true (1) if at end of the file contents.
int (CEF_CALLBACK *eof)(struct _cef_zip_reader_t* self);
} cef_zip_reader_t;
// Create a new cef_zip_reader_t object. The returned object's functions can
// only be called from the thread that created the object.
CEF_EXPORT cef_zip_reader_t* cef_zip_reader_create(cef_stream_reader_t* stream);
#ifdef __cplusplus
}
#endif
#endif // _CEF_CAPI_H