// Copyright (c) 2018 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. // // $hash=5f6d84d988bab3a600e6fbb6db0523acaeef88b3$ // #ifndef CEF_INCLUDE_CAPI_CEF_REQUEST_CONTEXT_CAPI_H_ #define CEF_INCLUDE_CAPI_CEF_REQUEST_CONTEXT_CAPI_H_ #pragma once #include "include/capi/cef_callback_capi.h" #include "include/capi/cef_cookie_capi.h" #include "include/capi/cef_extension_capi.h" #include "include/capi/cef_extension_handler_capi.h" #include "include/capi/cef_request_context_handler_capi.h" #include "include/capi/cef_values_capi.h" #ifdef __cplusplus extern "C" { #endif struct _cef_scheme_handler_factory_t; /// // Callback structure for cef_request_tContext::ResolveHost. /// typedef struct _cef_resolve_callback_t { /// // Base structure. /// cef_base_ref_counted_t base; /// // Called on the UI thread after the ResolveHost request has completed. // |result| will be the result code. |resolved_ips| will be the list of // resolved IP addresses or NULL if the resolution failed. /// void(CEF_CALLBACK* on_resolve_completed)(struct _cef_resolve_callback_t* self, cef_errorcode_t result, cef_string_list_t resolved_ips); } cef_resolve_callback_t; /// // A request context provides request handling for a set of related browser or // URL request objects. A request context can be specified when creating a new // browser via the cef_browser_host_t static factory functions or when creating // a new URL request via the cef_urlrequest_t static factory functions. Browser // objects with different request contexts will never be hosted in the same // render process. Browser objects with the same request context may or may not // be hosted in the same render process depending on the process model. Browser // objects created indirectly via the JavaScript window.open function or // targeted links will share the same render process and the same request // context as the source browser. When running in single-process mode there is // only a single render process (the main process) and so all browsers created // in single-process mode will share the same request context. This will be the // first request context passed into a cef_browser_host_t static factory // function and all other request context objects will be ignored. /// typedef struct _cef_request_context_t { /// // Base structure. /// cef_base_ref_counted_t base; /// // Returns true (1) if this object is pointing to the same context as |that| // object. /// int(CEF_CALLBACK* is_same)(struct _cef_request_context_t* self, struct _cef_request_context_t* other); /// // Returns true (1) if this object is sharing the same storage as |that| // object. /// int(CEF_CALLBACK* is_sharing_with)(struct _cef_request_context_t* self, struct _cef_request_context_t* other); /// // Returns true (1) if this object is the global context. The global context // is used by default when creating a browser or URL request with a NULL // context argument. /// int(CEF_CALLBACK* is_global)(struct _cef_request_context_t* self); /// // Returns the handler for this context if any. /// struct _cef_request_context_handler_t*(CEF_CALLBACK* get_handler)( struct _cef_request_context_t* self); /// // Returns the cache path for this object. If NULL an "incognito mode" in- // memory cache is being used. /// // The resulting string must be freed by calling cef_string_userfree_free(). cef_string_userfree_t(CEF_CALLBACK* get_cache_path)( struct _cef_request_context_t* self); /// // Returns the default cookie manager for this object. This will be the global // cookie manager if this object is the global request context. Otherwise, // this will be the default cookie manager used when this request context does // not receive a value via cef_request_tContextHandler::get_cookie_manager(). // If |callback| is non-NULL it will be executed asnychronously on the IO // thread after the manager's storage has been initialized. /// struct _cef_cookie_manager_t*(CEF_CALLBACK* get_default_cookie_manager)( struct _cef_request_context_t* self, struct _cef_completion_callback_t* callback); /// // Register a scheme handler factory for the specified |scheme_name| and // optional |domain_name|. An NULL |domain_name| value for a standard scheme // will cause the factory to match all domain names. The |domain_name| value // will be ignored for non-standard schemes. If |scheme_name| is a built-in // scheme and no handler is returned by |factory| then the built-in scheme // handler factory will be called. If |scheme_name| is a custom scheme then // you must also implement the cef_app_t::on_register_custom_schemes() // function in all processes. This function may be called multiple times to // change or remove the factory that matches the specified |scheme_name| and // optional |domain_name|. Returns false (0) if an error occurs. This function // may be called on any thread in the browser process. /// int(CEF_CALLBACK* register_scheme_handler_factory)( struct _cef_request_context_t* self, const cef_string_t* scheme_name, const cef_string_t* domain_name, struct _cef_scheme_handler_factory_t* factory); /// // Clear all registered scheme handler factories. Returns false (0) on error. // This function may be called on any thread in the browser process. /// int(CEF_CALLBACK* clear_scheme_handler_factories)( struct _cef_request_context_t* self); /// // Tells all renderer processes associated with this context to throw away // their plugin list cache. If |reload_pages| is true (1) they will also // reload all pages with plugins. // cef_request_tContextHandler::OnBeforePluginLoad may be called to rebuild // the plugin list cache. /// void(CEF_CALLBACK* purge_plugin_list_cache)( struct _cef_request_context_t* self, int reload_pages); /// // Returns true (1) if a preference with the specified |name| exists. This // function must be called on the browser process UI thread. /// int(CEF_CALLBACK* has_preference)(struct _cef_request_context_t* self, const cef_string_t* name); /// // Returns the value for the preference with the specified |name|. Returns // NULL if the preference does not exist. The returned object contains a copy // of the underlying preference value and modifications to the returned object // will not modify the underlying preference value. This function must be // called on the browser process UI thread. /// struct _cef_value_t*(CEF_CALLBACK* get_preference)( struct _cef_request_context_t* self, const cef_string_t* name); /// // Returns all preferences as a dictionary. If |include_defaults| is true (1) // then preferences currently at their default value will be included. The // returned object contains a copy of the underlying preference values and // modifications to the returned object will not modify the underlying // preference values. This function must be called on the browser process UI // thread. /// struct _cef_dictionary_value_t*(CEF_CALLBACK* get_all_preferences)( struct _cef_request_context_t* self, int include_defaults); /// // Returns true (1) if the preference with the specified |name| can be // modified using SetPreference. As one example preferences set via the // command-line usually cannot be modified. This function must be called on // the browser process UI thread. /// int(CEF_CALLBACK* can_set_preference)(struct _cef_request_context_t* self, const cef_string_t* name); /// // Set the |value| associated with preference |name|. Returns true (1) if the // value is set successfully and false (0) otherwise. If |value| is NULL the // preference will be restored to its default value. If setting the preference // fails then |error| will be populated with a detailed description of the // problem. This function must be called on the browser process UI thread. /// int(CEF_CALLBACK* set_preference)(struct _cef_request_context_t* self, const cef_string_t* name, struct _cef_value_t* value, cef_string_t* error); /// // Clears all certificate exceptions that were added as part of handling // cef_request_tHandler::on_certificate_error(). If you call this it is // recommended that you also call close_all_connections() or you risk not // being prompted again for server certificates if you reconnect quickly. If // |callback| is non-NULL it will be executed on the UI thread after // completion. /// void(CEF_CALLBACK* clear_certificate_exceptions)( struct _cef_request_context_t* self, struct _cef_completion_callback_t* callback); /// // Clears all active and idle connections that Chromium currently has. This is // only recommended if you have released all other CEF objects but don't yet // want to call Cefshutdown(). If |callback| is non-NULL it will be executed // on the UI thread after completion. /// void(CEF_CALLBACK* close_all_connections)( struct _cef_request_context_t* self, struct _cef_completion_callback_t* callback); /// // Attempts to resolve |origin| to a list of associated IP addresses. // |callback| will be executed on the UI thread after completion. /// void(CEF_CALLBACK* resolve_host)(struct _cef_request_context_t* self, const cef_string_t* origin, struct _cef_resolve_callback_t* callback); /// // Attempts to resolve |origin| to a list of associated IP addresses using // cached data. |resolved_ips| will be populated with the list of resolved IP // addresses or NULL if no cached data is available. Returns ERR_NONE on // success. This function must be called on the browser process IO thread. /// cef_errorcode_t(CEF_CALLBACK* resolve_host_cached)( struct _cef_request_context_t* self, const cef_string_t* origin, cef_string_list_t resolved_ips); /// // Load an extension. // // If extension resources will be read from disk using the default load // implementation then |root_directory| should be the absolute path to the // extension resources directory and |manifest| should be NULL. If extension // resources will be provided by the client (e.g. via cef_request_tHandler // and/or cef_extension_tHandler) then |root_directory| should be a path // component unique to the extension (if not absolute this will be internally // prefixed with the PK_DIR_RESOURCES path) and |manifest| should contain the // contents that would otherwise be read from the "manifest.json" file on // disk. // // The loaded extension will be accessible in all contexts sharing the same // storage (HasExtension returns true (1)). However, only the context on which // this function was called is considered the loader (DidLoadExtension returns // true (1)) and only the loader will receive cef_request_tContextHandler // callbacks for the extension. // // cef_extension_tHandler::OnExtensionLoaded will be called on load success or // cef_extension_tHandler::OnExtensionLoadFailed will be called on load // failure. // // If the extension specifies a background script via the "background" // manifest key then cef_extension_tHandler::OnBeforeBackgroundBrowser will be // called to create the background browser. See that function for additional // information about background scripts. // // For visible extension views the client application should evaluate the // manifest to determine the correct extension URL to load and then pass that // URL to the cef_browser_host_t::CreateBrowser* function after the extension // has loaded. For example, the client can look for the "browser_action" // manifest key as documented at // https://developer.chrome.com/extensions/browserAction. Extension URLs take // the form "chrome-extension:///". // // Browsers that host extensions differ from normal browsers as follows: // - Can access chrome.* JavaScript APIs if allowed by the manifest. Visit // chrome://extensions-support for the list of extension APIs currently // supported by CEF. // - Main frame navigation to non-extension content is blocked. // - Pinch-zooming is disabled. // - CefBrowserHost::GetExtension returns the hosted extension. // - CefBrowserHost::IsBackgroundHost returns true for background hosts. // // See https://developer.chrome.com/extensions for extension implementation // and usage documentation. /// void(CEF_CALLBACK* load_extension)(struct _cef_request_context_t* self, const cef_string_t* root_directory, struct _cef_dictionary_value_t* manifest, struct _cef_extension_handler_t* handler); /// // Returns true (1) if this context was used to load the extension identified // by |extension_id|. Other contexts sharing the same storage will also have // access to the extension (see HasExtension). This function must be called on // the browser process UI thread. /// int(CEF_CALLBACK* did_load_extension)(struct _cef_request_context_t* self, const cef_string_t* extension_id); /// // Returns true (1) if this context has access to the extension identified by // |extension_id|. This may not be the context that was used to load the // extension (see DidLoadExtension). This function must be called on the // browser process UI thread. /// int(CEF_CALLBACK* has_extension)(struct _cef_request_context_t* self, const cef_string_t* extension_id); /// // Retrieve the list of all extensions that this context has access to (see // HasExtension). |extension_ids| will be populated with the list of extension // ID values. Returns true (1) on success. This function must be called on the // browser process UI thread. /// int(CEF_CALLBACK* get_extensions)(struct _cef_request_context_t* self, cef_string_list_t extension_ids); /// // Returns the extension matching |extension_id| or NULL if no matching // extension is accessible in this context (see HasExtension). This function // must be called on the browser process UI thread. /// struct _cef_extension_t*(CEF_CALLBACK* get_extension)( struct _cef_request_context_t* self, const cef_string_t* extension_id); } cef_request_context_t; /// // Returns the global context object. /// CEF_EXPORT cef_request_context_t* cef_request_context_get_global_context(); /// // Creates a new context object with the specified |settings| and optional // |handler|. /// CEF_EXPORT cef_request_context_t* cef_request_context_create_context( const struct _cef_request_context_settings_t* settings, struct _cef_request_context_handler_t* handler); /// // Creates a new context object that shares storage with |other| and uses an // optional |handler|. /// CEF_EXPORT cef_request_context_t* cef_create_context_shared( cef_request_context_t* other, struct _cef_request_context_handler_t* handler); #ifdef __cplusplus } #endif #endif // CEF_INCLUDE_CAPI_CEF_REQUEST_CONTEXT_CAPI_H_