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/* PipeWire */
/* SPDX-FileCopyrightText: Copyright © 2018 Wim Taymans */
/* SPDX-License-Identifier: MIT */
#ifndef PIPEWIRE_IMPL_CLIENT_H
#define PIPEWIRE_IMPL_CLIENT_H
#ifdef __cplusplus
extern "C" {
#endif
#include <spa/utils/hook.h>
/** \page page_client_impl Client Implementation
*
* \see \ref pw_impl_client
*
* \section sec_page_client_impl_overview Overview
*
* The \ref pw_impl_client object is created by a protocol implementation when
* a new client connects.
*
* The client is used to keep track of all resources belonging to one
* connection with the PipeWire server.
*
* \section sec_page_client_impl_credentials Credentials
*
* The client object will have its credentials filled in by the protocol.
* This information is used to check if a resource or action is available
* for this client.
*
* \section sec_page_client_impl_types Types
*
* The client and server maintain a mapping between the client and server
* types. All type ids that are in messages exchanged between the client
* and server will automatically be remapped.
*
* \section sec_page_client_impl_resources Resources
*
* When a client binds to context global object, a resource is made for this
* binding and a unique id is assigned to the resources. The client and
* server will use this id as the destination when exchanging messages.
* See also \ref pw_resource
*/
/** \defgroup pw_impl_client Client Impl
*
* \brief PipeWire client object class
*
* The client object represents a client connection with the PipeWire
* server.
*
* Each client has its own list of resources it is bound to along with
* a mapping between the client types and server types.
*
* \see \ref page_client_impl
*/
/**
* \addtogroup pw_impl_client
* \{
*/
struct pw_impl_client;
#include <pipewire/context.h>
#include <pipewire/global.h>
#include <pipewire/properties.h>
#include <pipewire/resource.h>
#include <pipewire/permission.h>
/** The events that a client can emit */
struct pw_impl_client_events {
#define PW_VERSION_IMPL_CLIENT_EVENTS 0
uint32_t version;
/** emitted when the client is destroyed */
void (*destroy) (void *data);
/** emitted right before the client is freed */
void (*free) (void *data);
/** the client is initialized */
void (*initialized) (void *data);
/** emitted when the client info changed */
void (*info_changed) (void *data, const struct pw_client_info *info);
/** emitted when a new resource is added for client */
void (*resource_added) (void *data, struct pw_resource *resource);
/** emitted when a resource is removed */
void (*resource_removed) (void *data, struct pw_resource *resource);
/** emitted when the client becomes busy processing an asynchronous
* message. In the busy state no messages should be processed.
* Processing should resume when the client becomes not busy */
void (*busy_changed) (void *data, bool busy);
};
/** Create a new client. This is mainly used by protocols. */
struct pw_impl_client *
pw_context_create_client(struct pw_impl_core *core, /**< the core object */
struct pw_protocol *protocol, /**< the client protocol */
struct pw_properties *properties, /**< client properties */
size_t user_data_size /**< extra user data size */);
/** Destroy a previously created client */
void pw_impl_client_destroy(struct pw_impl_client *client);
/** Finish configuration and register a client */
int pw_impl_client_register(struct pw_impl_client *client, /**< the client to register */
struct pw_properties *properties/**< extra properties */);
/** Get the client user data */
void *pw_impl_client_get_user_data(struct pw_impl_client *client);
/** Get the client information */
const struct pw_client_info *pw_impl_client_get_info(struct pw_impl_client *client);
/** Update the client properties */
int pw_impl_client_update_properties(struct pw_impl_client *client, const struct spa_dict *dict);
/** Update the client permissions */
int pw_impl_client_update_permissions(struct pw_impl_client *client, uint32_t n_permissions,
const struct pw_permission *permissions);
/** check if a client has permissions for global_id, Since 0.3.9 */
int pw_impl_client_check_permissions(struct pw_impl_client *client,
uint32_t global_id, uint32_t permissions);
/** Get the client properties */
const struct pw_properties *pw_impl_client_get_properties(struct pw_impl_client *client);
/** Get the context used to create this client */
struct pw_context *pw_impl_client_get_context(struct pw_impl_client *client);
/** Get the protocol used to create this client */
struct pw_protocol *pw_impl_client_get_protocol(struct pw_impl_client *client);
/** Get the client core resource */
struct pw_resource *pw_impl_client_get_core_resource(struct pw_impl_client *client);
/** Get a resource with the given id */
struct pw_resource *pw_impl_client_find_resource(struct pw_impl_client *client, uint32_t id);
/** Get the global associated with this client */
struct pw_global *pw_impl_client_get_global(struct pw_impl_client *client);
/** Get the mempool associated with this client, Since 0.3.74 */
struct pw_mempool *pw_impl_client_get_mempool(struct pw_impl_client *client);
/** listen to events from this client */
void pw_impl_client_add_listener(struct pw_impl_client *client,
struct spa_hook *listener,
const struct pw_impl_client_events *events,
void *data);
/** Mark the client busy. This can be used when an asynchronous operation is
* started and no further processing is allowed to happen for the client */
void pw_impl_client_set_busy(struct pw_impl_client *client, bool busy);
/**
* \}
*/
#ifdef __cplusplus
}
#endif
#endif /* PIPEWIRE_IMPL_CLIENT_H */