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/*
* Asterisk -- An open source telephony toolkit.
*
* Copyright (C) 2017, Digium, Inc.
*
* Mark Michelson <mmichelson@digium.com>
*
* See http://www.asterisk.org for more information about
* the Asterisk project. Please do not directly contact
* any of the maintainers of this project for assistance;
* the project provides a web site, mailing lists and IRC
* channels for your use.
*
* This program is free software, distributed under the terms of
* the GNU General Public License Version 2. See the LICENSE file
* at the top of the source tree.
*/
#include "asterisk.h"
#include "asterisk/sdp_state.h"
#include "asterisk/sdp_options.h"
#include "asterisk/sdp_translator.h"
#include "asterisk/vector.h"
#include "asterisk/utils.h"
#include "../include/asterisk/sdp.h"
#include "asterisk/stream.h"
enum ast_sdp_state_machine {
/*! \brief The initial state.
*
* The state machine starts here. It also goes back to this
* state whenever ast_sdp_state_reset() is called.
*/
SDP_STATE_INITIAL,
/*! \brief We are the SDP offerer.
*
* The state machine enters this state if in the initial state
* and ast_sdp_state_get_local() is called. When this state is
* entered, a local SDP is created and then returned.
*/
SDP_STATE_OFFERER,
/*! \brief We are the SDP answerer.
*
* The state machine enters this state if in the initial state
* and ast_sdp_state_set_remote() is called.
*/
SDP_STATE_ANSWERER,
/*! \brief The SDP has been negotiated.
*
* This state can be entered from either the offerer or answerer
* state. When this state is entered, a joint SDP is created.
*/
SDP_STATE_NEGOTIATED,
/*! \brief Not an actual state.
*
* This is just here to mark the end of the enumeration.
*/
SDP_STATE_END,
};
typedef int (*state_fn)(struct ast_sdp_state *state);
struct ast_sdp_state {
/*! Local capabilities, learned through configuration */
struct ast_stream_topology *local_capabilities;
/*! Remote capabilities, learned through remote SDP */
struct ast_stream_topology *remote_capabilities;
/*! Joint capabilities. The combined local and remote capabilities. */
struct ast_stream_topology *joint_capabilities;
/*! Local SDP. Generated via the options and local capabilities. */
struct ast_sdp *local_sdp;
/*! Remote SDP. Received directly from a peer. */
struct ast_sdp *remote_sdp;
/*! Joint SDP. The merged local and remote SDPs. */
struct ast_sdp *joint_sdp;
/*! SDP options. Configured options beyond media capabilities. */
struct ast_sdp_options *options;
/*! Translator that puts SDPs into the expected representation */
struct ast_sdp_translator *translator;
/*! The current state machine state that we are in */
enum ast_sdp_state_machine state;
};
struct ast_sdp_state *ast_sdp_state_alloc(struct ast_stream_topology *streams,
struct ast_sdp_options *options)
{
struct ast_sdp_state *sdp_state;
sdp_state = ast_calloc(1, sizeof(*sdp_state));
if (!sdp_state) {
return NULL;
}
sdp_state->options = options;
sdp_state->translator = ast_sdp_translator_new(ast_sdp_options_get_impl(sdp_state->options));
if (!sdp_state->translator) {
ast_sdp_state_free(sdp_state);
return NULL;
}
sdp_state->local_capabilities = ast_stream_topology_clone(streams);
if (!sdp_state->local_capabilities) {
ast_sdp_state_free(sdp_state);
return NULL;
}
sdp_state->state = SDP_STATE_INITIAL;
return sdp_state;
}
void ast_sdp_state_free(struct ast_sdp_state *sdp_state)
{
if (!sdp_state) {
return;
}
ast_stream_topology_free(sdp_state->local_capabilities);
ast_stream_topology_free(sdp_state->remote_capabilities);
ast_stream_topology_free(sdp_state->joint_capabilities);
ast_sdp_free(sdp_state->local_sdp);
ast_sdp_free(sdp_state->remote_sdp);
ast_sdp_free(sdp_state->joint_sdp);
ast_sdp_options_free(sdp_state->options);
ast_sdp_translator_free(sdp_state->translator);
}
struct ast_rtp_instance *ast_sdp_state_get_rtp_instance(
const struct ast_sdp_state *sdp_state, int stream_index)
{
struct ast_stream *stream;
ast_assert(sdp_state != NULL);
stream = ast_stream_topology_get_stream(sdp_state->local_capabilities, stream_index);
if (!stream) {
return NULL;
}
return (struct ast_rtp_instance *)ast_stream_get_data(stream, AST_STREAM_DATA_RTP_INSTANCE);
}
const struct ast_stream_topology *ast_sdp_state_get_joint_topology(
const struct ast_sdp_state *sdp_state)
{
ast_assert(sdp_state != NULL);
if (sdp_state->state == SDP_STATE_NEGOTIATED) {
return sdp_state->joint_capabilities;
} else {
return sdp_state->local_capabilities;
}
}
const struct ast_stream_topology *ast_sdp_state_get_local_topology(
const struct ast_sdp_state *sdp_state)
{
ast_assert(sdp_state != NULL);
return sdp_state->local_capabilities;
}
const struct ast_sdp_options *ast_sdp_state_get_options(
const struct ast_sdp_state *sdp_state)
{
ast_assert(sdp_state != NULL);
return sdp_state->options;
}
#if 0
static int merge_sdps(struct ast_sdp_state *sdp_state)
{
ast_assert(sdp_state->local_sdp != NULL);
ast_assert(sdp_state->remote_sdp != NULL);
/* XXX STUB */
/* The goal of this function is to take
* sdp_state->local_sdp and sdp_state->remote_sdp
* and negotiate those into a joint SDP. This joint
* SDP should be stored in sdp_state->joint_sdp. After
* the joint SDP is created, the joint SDP should be
* used to create the joint topology. Finally, if necessary,
* the RTP session may need to be adjusted in some ways. For
* instance, if we previously opened three ports for three
* streams, but we negotiate down to two streams, then we
* can shut down the port for the third stream. Similarly,
* if we end up negotiating something like BUNDLE, then we may
* need to tell the RTP layer to close ports and to multiplex
* streams.
*/
return 0;
}
#endif
const struct ast_sdp *ast_sdp_state_get_local_sdp(struct ast_sdp_state *sdp_state)
{
ast_assert(sdp_state != NULL);
if (!sdp_state->local_sdp) {
sdp_state->local_sdp = ast_sdp_create_from_state(sdp_state);
}
return sdp_state->local_sdp;
}
const void *ast_sdp_state_get_local_sdp_impl(struct ast_sdp_state *sdp_state)
{
const struct ast_sdp *sdp = ast_sdp_state_get_local_sdp(sdp_state);
if (!sdp) {
return NULL;
}
return ast_sdp_translator_from_sdp(sdp_state->translator, sdp);
}
void ast_sdp_state_set_remote_sdp(struct ast_sdp_state *sdp_state, struct ast_sdp *sdp)
{
ast_assert(sdp_state != NULL);
sdp_state->remote_sdp = sdp;
}
int ast_sdp_state_set_remote_sdp_from_impl(struct ast_sdp_state *sdp_state, void *remote)
{
struct ast_sdp *sdp;
ast_assert(sdp_state != NULL);
sdp = ast_sdp_translator_to_sdp(sdp_state->translator, remote);
if (!sdp) {
return -1;
}
sdp_state->remote_sdp = sdp;
return 0;
}
int ast_sdp_state_reset(struct ast_sdp_state *sdp_state)
{
ast_assert(sdp_state != NULL);
ast_sdp_free(sdp_state->local_sdp);
sdp_state->local_sdp = NULL;
ast_sdp_free(sdp_state->remote_sdp);
sdp_state->remote_sdp = NULL;
ast_sdp_free(sdp_state->joint_sdp);
sdp_state->joint_sdp = NULL;
ast_stream_topology_free(sdp_state->remote_capabilities);
sdp_state->remote_capabilities = NULL;
ast_stream_topology_free(sdp_state->joint_capabilities);
sdp_state->joint_capabilities = NULL;
sdp_state->state = SDP_STATE_INITIAL;
return 0;
}
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