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asterisk/main/stream.c
George Joseph 86f1bce186 res_pjsip_session: Handle multi-stream re-invites better 
When both Asterisk and a UA send re-invites at the same time, both
send 491 "Transaction in progress" responses to each other and back
off a specified amount of time before retrying. When Asterisk
prepares to send its re-invite, it sets up the session's pending
media state with the new topology it wants, then sends the
re-invite.  Unfortunately, when it received the re-invite from the
UA, it partially processed the media in the re-invite and reset
the pending media state before sending the 491 losing the state it
set in its own re-invite.

Asterisk also was not tracking re-invites received while an existing
re-invite was queued resulting in sending stale SDP with missing
or duplicated streams, or no re-invite at all because we erroneously
determined that a re-invite wasn't needed.

There was also an issue in bridge_softmix where we were using a stream
from the wrong topology to determine if a stream was added.  This also
caused us to erroneously determine that a re-invite wasn't needed.

Regardless of how the delayed re-invite was triggered, we need to
reconcile the topology that was active at the time the delayed
request was queued, the pending topology of the queued request,
and the topology currently active on the session.  To do this we
need a topology resolver AND we need to make stream named unique
so we can accurately tell what a stream has been added or removed
and if we can re-use a slot in the topology.

Summary of changes:

 * bridge_softmix:
   * We no longer reset the stream name to "removed" in
     remove_all_original_streams().  That was causing  multiple streams
     to have the same name and wrecked the checks for duplicate streams.

   * softmix_bridge_stream_sources_update() was checking the old_stream
     to see if it had the softmix prefix and not considering the stream
     as "new" if it did.  If the stream in that slot has something in it
     because another re-invite happened, then that slot in old might
     have a softmix stream but the same stream in new might actually
     be a new one.  Now we check the new_stream's name instead of
     the old_stream's.

 * stream:
   * Instead of using plain media type name ("audio", "video", etc) as
     the default stream name, we now append the stream position to it
     to make it unique.  We need to do this so we can distinguish multiple
     streams of the same type from each other.

   * When we set a stream's state to REMOVED, we no longer reset its
     name to "removed" or destroy its metadata.  Again, we need to
     do this so we can distinguish multiple streams of the same
     type from each other.

 * res_pjsip_session:
   * Added resolve_refresh_media_states() that takes in 3 media states
     and creates an up-to-date pending media state that includes the changes
     that might have happened while a delayed session refresh was in the
     delayed queue.

   * Added is_media_state_valid() that checks the consistency of
     a media state and returns a true/false value. A valid state has:
     * The same number of stream entries as media session entries.
         Some media session entries can be NULL however.
     * No duplicate streams.
     * A valid stream for each non-NULL media session.
     * A stream that matches each media session's stream_num
       and media type.

   * Updated handle_incoming_sdp() to set the stream name to include the
     stream position number in the name to make it unique.

   * Updated the ast_sip_session_delayed_request structure to include both
     the pending and active media states and updated the associated delay
     functions to process them.

   * Updated sip_session_refresh() to accept both the pending and active
     media states that were in effect when the request was originally queued
     and to pass them on should the request need to be delayed again.

   * Updated sip_session_refresh() to call resolve_refresh_media_states()
     and substitute its results for the pending state passed in.

   * Updated sip_session_refresh() with additional debugging.

   * Updated session_reinvite_on_rx_request() to simply return PJ_FALSE
     to pjproject if a transaction is in progress.  This stops us from
     creating a partial pending media state that would be invalid later on.

   * Updated reschedule_reinvite() to clone both the current pending and
     active media states and pass them to delay_request() so the resolver
     can tell what the original intention of the re-invite was.

   * Added a large unit test for the resolver.

ASTERISK-29014

Change-Id: Id3440972943c611a15f652c6c569fa0e4536bfcb
2020-09-14 09:27:14 -05:00

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/*
* Asterisk -- An open source telephony toolkit.
*
* Copyright (C) 2017, Digium, Inc.
*
* Joshua Colp <jcolp@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.
*/
/*! \file
*
* \brief Media Stream API
*
* \author Joshua Colp <jcolp@digium.com>
*/
/*** MODULEINFO
<support_level>core</support_level>
***/
#include "asterisk.h"
#include "asterisk/logger.h"
#include "asterisk/stream.h"
#include "asterisk/strings.h"
#include "asterisk/format.h"
#include "asterisk/format_cap.h"
#include "asterisk/vector.h"
#include "asterisk/config.h"
#include "asterisk/rtp_engine.h"
struct ast_stream_metadata_entry {
size_t length;
int value_start;
char name_value[0];
};
const char *ast_stream_codec_negotiation_params_map[] = {
[CODEC_NEGOTIATION_PARAM_UNSPECIFIED] = "unspecified",
[CODEC_NEGOTIATION_PARAM_PREFER] = "prefer",
[CODEC_NEGOTIATION_PARAM_OPERATION] = "operation",
[CODEC_NEGOTIATION_PARAM_KEEP] = "keep",
[CODEC_NEGOTIATION_PARAM_TRANSCODE] = "transcode",
};
const char *ast_stream_codec_negotiation_prefer_map[] = {
[CODEC_NEGOTIATION_PREFER_UNSPECIFIED] = "unspecified",
[CODEC_NEGOTIATION_PREFER_PENDING] = "pending",
[CODEC_NEGOTIATION_PREFER_CONFIGURED] = "configured",
};
const char *ast_stream_codec_negotiation_operation_map[] = {
[CODEC_NEGOTIATION_OPERATION_UNSPECIFIED] = "unspecified",
[CODEC_NEGOTIATION_OPERATION_INTERSECT] = "intersect",
[CODEC_NEGOTIATION_OPERATION_UNION] = "union",
[CODEC_NEGOTIATION_OPERATION_ONLY_PREFERRED] = "only_preferred",
[CODEC_NEGOTIATION_OPERATION_ONLY_NONPREFERRED] = "only_nonpreferred",
};
const char *ast_stream_codec_negotiation_keep_map[] = {
[CODEC_NEGOTIATION_KEEP_UNSPECIFIED] = "unspecified",
[CODEC_NEGOTIATION_KEEP_ALL] = "all",
[CODEC_NEGOTIATION_KEEP_FIRST] = "first",
};
const char *ast_stream_codec_negotiation_transcode_map[] = {
[CODEC_NEGOTIATION_TRANSCODE_UNSPECIFIED] = "unspecified",
[CODEC_NEGOTIATION_TRANSCODE_ALLOW] = "allow",
[CODEC_NEGOTIATION_TRANSCODE_PREVENT] = "prevent",
};
struct ast_stream {
/*!
* \brief The type of media the stream is handling
*/
enum ast_media_type type;
/*!
* \brief The position of the stream in the topology
*/
unsigned int position;
/*!
* \brief Current formats negotiated on the stream
*/
struct ast_format_cap *formats;
/*!
* \brief The current state of the stream
*/
enum ast_stream_state state;
/*!
* \brief Stream metadata vector
*/
struct ast_variable *metadata;
/*!
* \brief The group that the stream is part of
*/
int group;
/*!
* \brief The rtp_codecs used by the stream
*/
struct ast_rtp_codecs *rtp_codecs;
/*!
* \brief Name for the stream within the context of the channel it is on
*/
char name[0];
};
struct ast_stream_topology {
/*!
* \brief A vector of all the streams in this topology
*/
AST_VECTOR(, struct ast_stream *) streams;
/*! Indicates that this topology should not have further operations applied to it. */
int final;
};
const char *ast_stream_codec_prefs_to_str(const struct ast_stream_codec_negotiation_prefs *prefs, struct ast_str **buf)
{
if (!prefs || !buf || !*buf) {
return "";
}
ast_str_append(buf, 0, "%s:%s, %s:%s, %s:%s, %s:%s",
ast_stream_codec_param_to_str(CODEC_NEGOTIATION_PARAM_PREFER),
ast_stream_codec_prefer_to_str(prefs->prefer),
ast_stream_codec_param_to_str(CODEC_NEGOTIATION_PARAM_OPERATION),
ast_stream_codec_operation_to_str(prefs->operation),
ast_stream_codec_param_to_str(CODEC_NEGOTIATION_PARAM_KEEP),
ast_stream_codec_keep_to_str(prefs->keep),
ast_stream_codec_param_to_str(CODEC_NEGOTIATION_PARAM_TRANSCODE),
ast_stream_codec_transcode_to_str(prefs->transcode)
);
return ast_str_buffer(*buf);
}
/*!
* \internal
* \brief Sets a codec prefs member based on a the preference name and string value
*
* \warning This macro will cause the calling function to return if a preference name
* is matched but the value isn't valid for this preference.
*/
#define set_pref_value(_name, _value, _prefs, _UC, _lc, _error_message) \
({ \
int _res = 0; \
if (strcmp(_name, ast_stream_codec_negotiation_params_map[CODEC_NEGOTIATION_PARAM_ ## _UC]) == 0) { \
int i; \
for (i = CODEC_NEGOTIATION_ ## _UC ## _UNSPECIFIED + 1; i < CODEC_NEGOTIATION_ ## _UC ## _END; i++) { \
if (strcmp(value, ast_stream_codec_negotiation_ ## _lc ## _map[i]) == 0) { \
prefs->_lc = i; \
} \
} \
if ( prefs->_lc == CODEC_NEGOTIATION_ ## _UC ## _UNSPECIFIED) { \
_res = -1; \
if (_error_message) { \
ast_str_append(_error_message, 0, "Codec preference '%s' has invalid value '%s'", name, value); \
} \
} \
} \
if (_res < 0) { \
return _res; \
} \
})
int ast_stream_codec_prefs_parse(const char *pref_string, struct ast_stream_codec_negotiation_prefs *prefs,
struct ast_str **error_message)
{
char *initial_value = ast_strdupa(pref_string);
char *current_value;
char *pref;
char *saveptr1;
char *saveptr2;
char *name;
char *value;
if (!prefs) {
return -1;
}
prefs->prefer = CODEC_NEGOTIATION_PREFER_UNSPECIFIED;
prefs->operation = CODEC_NEGOTIATION_OPERATION_UNSPECIFIED;
prefs->keep = CODEC_NEGOTIATION_KEEP_UNSPECIFIED;
prefs->transcode = CODEC_NEGOTIATION_TRANSCODE_UNSPECIFIED;
for (current_value = initial_value; (pref = strtok_r(current_value, ",", &saveptr1)) != NULL; ) {
name = strtok_r(pref, ": ", &saveptr2);
value = strtok_r(NULL, ": ", &saveptr2);
if (!name || !value) {
if (error_message) {
ast_str_append(error_message, 0, "Codec preference '%s' is invalid", pref);
}
return -1;
}
set_pref_value(name, value, prefs, OPERATION, operation, error_message);
set_pref_value(name, value, prefs, PREFER, prefer, error_message);
set_pref_value(name, value, prefs, KEEP, keep, error_message);
set_pref_value(name, value, prefs, TRANSCODE, transcode, error_message);
current_value = NULL;
}
return 0;
}
const char *ast_stream_state_map[] = {
[AST_STREAM_STATE_REMOVED] = "removed",
[AST_STREAM_STATE_SENDRECV] = "sendrecv",
[AST_STREAM_STATE_SENDONLY] = "sendonly",
[AST_STREAM_STATE_RECVONLY] = "recvonly",
[AST_STREAM_STATE_INACTIVE] = "inactive",
};
#define MIN_STREAM_NAME_LEN 16
struct ast_stream *ast_stream_alloc(const char *name, enum ast_media_type type)
{
struct ast_stream *stream;
size_t name_len = MAX(strlen(S_OR(name, "")), MIN_STREAM_NAME_LEN); /* Ensure there is enough room for 'removed' or a type-position */
stream = ast_calloc(1, sizeof(*stream) + name_len + 1);
if (!stream) {
return NULL;
}
stream->type = type;
stream->state = AST_STREAM_STATE_INACTIVE;
stream->group = -1;
strcpy(stream->name, S_OR(name, "")); /* Safe */
stream->formats = ast_format_cap_alloc(AST_FORMAT_CAP_FLAG_DEFAULT);
if (!stream->formats) {
ast_free(stream);
return NULL;
}
return stream;
}
struct ast_stream *ast_stream_clone(const struct ast_stream *stream, const char *name)
{
struct ast_stream *new_stream;
const char *stream_name;
size_t name_len;
if (!stream) {
return NULL;
}
stream_name = name ?: stream->name;
name_len = MAX(strlen(S_OR(stream_name, "")), MIN_STREAM_NAME_LEN); /* Ensure there is enough room for 'removed' or a type-position */
new_stream = ast_calloc(1, sizeof(*stream) + name_len + 1);
if (!new_stream) {
return NULL;
}
memcpy(new_stream, stream, sizeof(*new_stream));
strcpy(new_stream->name, stream_name); /* Safe */
new_stream->group = -1;
new_stream->formats = ast_format_cap_alloc(AST_FORMAT_CAP_FLAG_DEFAULT);
if (!new_stream->formats) {
ast_free(new_stream);
return NULL;
}
ast_format_cap_append_from_cap(new_stream->formats, stream->formats, AST_MEDIA_TYPE_UNKNOWN);
new_stream->metadata = ast_stream_get_metadata_list(stream);
/* rtp_codecs aren't cloned */
return new_stream;
}
void ast_stream_free(struct ast_stream *stream)
{
if (!stream) {
return;
}
ast_variables_destroy(stream->metadata);
if (stream->rtp_codecs) {
ast_rtp_codecs_payloads_destroy(stream->rtp_codecs);
}
ao2_cleanup(stream->formats);
ast_free(stream);
}
const char *ast_stream_get_name(const struct ast_stream *stream)
{
ast_assert(stream != NULL);
return stream->name;
}
enum ast_media_type ast_stream_get_type(const struct ast_stream *stream)
{
ast_assert(stream != NULL);
return stream->type;
}
void ast_stream_set_type(struct ast_stream *stream, enum ast_media_type type)
{
ast_assert(stream != NULL);
stream->type = type;
}
const struct ast_format_cap *ast_stream_get_formats(const struct ast_stream *stream)
{
ast_assert(stream != NULL);
return stream->formats;
}
const char *ast_stream_to_str(const struct ast_stream *stream, struct ast_str **buf)
{
if (!buf || !*buf) {
return "";
}
if (!stream) {
ast_str_append(buf, 0, "(null stream)");
return ast_str_buffer(*buf);
}
ast_str_append(buf, 0, "%d:%s:%s:%s ",
stream->position,
S_OR(stream->name, "noname"),
ast_codec_media_type2str(stream->type),
ast_stream_state_map[stream->state]);
ast_format_cap_append_names(stream->formats, buf);
return ast_str_buffer(*buf);
}
int ast_stream_get_format_count(const struct ast_stream *stream)
{
ast_assert(stream != NULL);
return stream->formats ? ast_format_cap_count(stream->formats) : 0;
}
void ast_stream_set_formats(struct ast_stream *stream, struct ast_format_cap *caps)
{
ast_assert(stream != NULL);
ao2_cleanup(stream->formats);
stream->formats = ao2_bump(caps);
}
enum ast_stream_state ast_stream_get_state(const struct ast_stream *stream)
{
ast_assert(stream != NULL);
return stream->state;
}
void ast_stream_set_state(struct ast_stream *stream, enum ast_stream_state state)
{
ast_assert(stream != NULL);
stream->state = state;
}
const char *ast_stream_state2str(enum ast_stream_state state)
{
switch (state) {
case AST_STREAM_STATE_REMOVED:
return "removed";
case AST_STREAM_STATE_SENDRECV:
return "sendrecv";
case AST_STREAM_STATE_SENDONLY:
return "sendonly";
case AST_STREAM_STATE_RECVONLY:
return "recvonly";
case AST_STREAM_STATE_INACTIVE:
return "inactive";
default:
return "<unknown>";
}
}
enum ast_stream_state ast_stream_str2state(const char *str)
{
if (!strcmp("sendrecv", str)) {
return AST_STREAM_STATE_SENDRECV;
}
if (!strcmp("sendonly", str)) {
return AST_STREAM_STATE_SENDONLY;
}
if (!strcmp("recvonly", str)) {
return AST_STREAM_STATE_RECVONLY;
}
if (!strcmp("inactive", str)) {
return AST_STREAM_STATE_INACTIVE;
}
return AST_STREAM_STATE_REMOVED;
}
const char *ast_stream_get_metadata(const struct ast_stream *stream, const char *m_key)
{
struct ast_variable *v;
ast_assert_return(stream != NULL, NULL);
ast_assert_return(m_key != NULL, NULL);
for (v = stream->metadata; v; v = v->next) {
if (strcmp(v->name, m_key) == 0) {
return v->value;
}
}
return NULL;
}
struct ast_variable *ast_stream_get_metadata_list(const struct ast_stream *stream)
{
struct ast_variable *v;
struct ast_variable *vout = NULL;
ast_assert_return(stream != NULL, NULL);
for (v = stream->metadata; v; v = v->next) {
struct ast_variable *vt = ast_variable_new(v->name, v->value, "");
if (!vt) {
ast_variables_destroy(vout);
return NULL;
}
ast_variable_list_append(&vout, vt);
}
return vout;
}
int ast_stream_set_metadata(struct ast_stream *stream, const char *m_key, const char *value)
{
struct ast_variable *v;
struct ast_variable *prev;
ast_assert_return(stream != NULL, -1);
ast_assert_return(m_key != NULL, -1);
prev = NULL;
v = stream->metadata;
while(v) {
struct ast_variable *next = v->next;
if (strcmp(v->name, m_key) == 0) {
if (prev) {
prev->next = next;
} else {
stream->metadata = next;
}
ast_free(v);
break;
} else {
prev = v;
}
v = next;
}
if (!value) {
return 0;
}
v = ast_variable_new(m_key, value, "");
if (!v) {
return -1;
}
ast_variable_list_append(&stream->metadata, v);
return 0;
}
int ast_stream_get_position(const struct ast_stream *stream)
{
ast_assert(stream != NULL);
return stream->position;
}
struct ast_rtp_codecs *ast_stream_get_rtp_codecs(const struct ast_stream *stream)
{
ast_assert(stream != NULL);
return stream->rtp_codecs;
}
void ast_stream_set_rtp_codecs(struct ast_stream *stream, struct ast_rtp_codecs *rtp_codecs)
{
ast_assert(stream != NULL);
if (stream->rtp_codecs) {
ast_rtp_codecs_payloads_destroy(rtp_codecs);
}
stream->rtp_codecs = rtp_codecs;
}
struct ast_stream *ast_stream_create_resolved(struct ast_stream *pending_stream,
struct ast_stream *validation_stream, struct ast_stream_codec_negotiation_prefs *prefs,
struct ast_str **error_message)
{
struct ast_format_cap *preferred_caps = NULL;
struct ast_format_cap *nonpreferred_caps = NULL;
struct ast_format_cap *joint_caps = ast_format_cap_alloc(AST_FORMAT_CAP_FLAG_DEFAULT);
struct ast_stream *joint_stream;
enum ast_media_type media_type = pending_stream ? pending_stream->type : AST_MEDIA_TYPE_UNKNOWN;
int res = 0;
SCOPE_ENTER(4, "Pending: %s Validation: %s Prefs: %s\n",
ast_str_tmp(128, ast_stream_to_str(pending_stream, &STR_TMP)),
ast_str_tmp(128, ast_stream_to_str(validation_stream, &STR_TMP)),
ast_str_tmp(128, ast_stream_codec_prefs_to_str(prefs, &STR_TMP)));
if (!pending_stream || !validation_stream || !prefs || !joint_caps
|| media_type == AST_MEDIA_TYPE_UNKNOWN) {
if (error_message) {
ast_str_append(error_message, 0, "Invalid arguments");
}
ao2_cleanup(joint_caps);
SCOPE_EXIT_RTN_VALUE(NULL, "Invalid arguments\n");
}
if (prefs->prefer == CODEC_NEGOTIATION_PREFER_PENDING) {
preferred_caps = pending_stream->formats;
nonpreferred_caps = validation_stream->formats;
} else {
preferred_caps = validation_stream->formats;
nonpreferred_caps = pending_stream->formats;
}
ast_format_cap_set_framing(joint_caps, ast_format_cap_get_framing(pending_stream->formats));
switch(prefs->operation) {
case CODEC_NEGOTIATION_OPERATION_ONLY_PREFERRED:
res = ast_format_cap_append_from_cap(joint_caps, preferred_caps, media_type);
break;
case CODEC_NEGOTIATION_OPERATION_ONLY_NONPREFERRED:
res = ast_format_cap_append_from_cap(joint_caps, nonpreferred_caps, media_type);
break;
case CODEC_NEGOTIATION_OPERATION_INTERSECT:
res = ast_format_cap_get_compatible(preferred_caps, nonpreferred_caps, joint_caps);
break;
case CODEC_NEGOTIATION_OPERATION_UNION:
res = ast_format_cap_append_from_cap(joint_caps, preferred_caps, media_type);
if (res == 0) {
res = ast_format_cap_append_from_cap(joint_caps, nonpreferred_caps, media_type);
}
break;
default:
break;
}
if (res) {
if (error_message) {
ast_str_append(error_message, 0, "No common formats available for media type '%s' ",
ast_codec_media_type2str(pending_stream->type));
ast_format_cap_append_names(preferred_caps, error_message);
ast_str_append(error_message, 0, "<>");
ast_format_cap_append_names(nonpreferred_caps, error_message);
ast_str_append(error_message, 0, " with prefs: ");
ast_stream_codec_prefs_to_str(prefs, error_message);
}
ao2_cleanup(joint_caps);
SCOPE_EXIT_RTN_VALUE(NULL, "No common formats available\n");
}
if (!ast_format_cap_empty(joint_caps)) {
if (prefs->keep == CODEC_NEGOTIATION_KEEP_FIRST) {
struct ast_format *single = ast_format_cap_get_format(joint_caps, 0);
ast_format_cap_remove_by_type(joint_caps, AST_MEDIA_TYPE_UNKNOWN);
ast_format_cap_append(joint_caps, single, 0);
ao2_ref(single, -1);
}
} else {
if (error_message) {
ast_str_append(error_message, 0, "No common formats available for media type '%s' ",
ast_codec_media_type2str(pending_stream->type));
ast_format_cap_append_names(preferred_caps, error_message);
ast_str_append(error_message, 0, "<>");
ast_format_cap_append_names(nonpreferred_caps, error_message);
ast_str_append(error_message, 0, " with prefs: ");
ast_stream_codec_prefs_to_str(prefs, error_message);
}
}
joint_stream = ast_stream_clone(pending_stream, NULL);
if (!joint_stream) {
ao2_cleanup(joint_caps);
return NULL;
}
/* ref to joint_caps will be transferred to the stream */
ast_stream_set_formats(joint_stream, joint_caps);
if (TRACE_ATLEAST(3)) {
struct ast_str *buf = ast_str_create((AST_FORMAT_CAP_NAMES_LEN * 3) + AST_STREAM_MAX_CODEC_PREFS_LENGTH);
if (buf) {
ast_str_set(&buf, 0, "Resolved '%s' stream ", ast_codec_media_type2str(pending_stream->type));
ast_format_cap_append_names(preferred_caps, &buf);
ast_str_append(&buf, 0, "<>");
ast_format_cap_append_names(nonpreferred_caps, &buf);
ast_str_append(&buf, 0, " to ");
ast_format_cap_append_names(joint_caps, &buf);
ast_str_append(&buf, 0, " with prefs: ");
ast_stream_codec_prefs_to_str(prefs, &buf);
ast_trace(1, "%s\n", ast_str_buffer(buf));
ast_free(buf);
}
}
ao2_cleanup(joint_caps);
SCOPE_EXIT_RTN_VALUE(joint_stream, "Joint stream: %s\n", ast_str_tmp(128, ast_stream_to_str(joint_stream, &STR_TMP)));
}
static void stream_topology_destroy(void *data)
{
struct ast_stream_topology *topology = data;
AST_VECTOR_CALLBACK_VOID(&topology->streams, ast_stream_free);
AST_VECTOR_FREE(&topology->streams);
}
#define TOPOLOGY_INITIAL_STREAM_COUNT 2
struct ast_stream_topology *ast_stream_topology_alloc(void)
{
struct ast_stream_topology *topology;
topology = ao2_alloc_options(sizeof(*topology), stream_topology_destroy, AO2_ALLOC_OPT_LOCK_NOLOCK);
if (!topology) {
return NULL;
}
if (AST_VECTOR_INIT(&topology->streams, TOPOLOGY_INITIAL_STREAM_COUNT)) {
ao2_ref(topology, -1);
topology = NULL;
}
return topology;
}
struct ast_stream_topology *ast_stream_topology_clone(
const struct ast_stream_topology *topology)
{
struct ast_stream_topology *new_topology;
int i;
ast_assert(topology != NULL);
new_topology = ast_stream_topology_alloc();
if (!new_topology) {
return NULL;
}
for (i = 0; i < AST_VECTOR_SIZE(&topology->streams); i++) {
struct ast_stream *existing = AST_VECTOR_GET(&topology->streams, i);
struct ast_stream *stream = ast_stream_clone(existing, NULL);
if (!stream || AST_VECTOR_APPEND(&new_topology->streams, stream)) {
ast_stream_free(stream);
ast_stream_topology_free(new_topology);
return NULL;
}
ast_stream_set_group(stream, ast_stream_get_group(existing));
}
return new_topology;
}
int ast_stream_topology_equal(const struct ast_stream_topology *left,
const struct ast_stream_topology *right)
{
int index;
ast_assert(left != NULL);
ast_assert(right != NULL);
if (ast_stream_topology_get_count(left) != ast_stream_topology_get_count(right)) {
return 0;
}
for (index = 0; index < ast_stream_topology_get_count(left); ++index) {
const struct ast_stream *left_stream = ast_stream_topology_get_stream(left, index);
const struct ast_stream *right_stream = ast_stream_topology_get_stream(right, index);
if (ast_stream_get_type(left_stream) != ast_stream_get_type(right_stream)) {
return 0;
}
if (ast_stream_get_state(left_stream) != ast_stream_get_state(right_stream)) {
return 0;
}
if (!ast_stream_get_formats(left_stream) && ast_stream_get_formats(right_stream) &&
ast_format_cap_count(ast_stream_get_formats(right_stream))) {
/* A NULL format capabilities and an empty format capabilities are the same, as they have
* no formats inside. If one does though... they are not equal.
*/
return 0;
} else if (!ast_stream_get_formats(right_stream) && ast_stream_get_formats(left_stream) &&
ast_format_cap_count(ast_stream_get_formats(left_stream))) {
return 0;
} else if (ast_stream_get_formats(left_stream) && ast_stream_get_formats(right_stream) &&
!ast_format_cap_identical(ast_stream_get_formats(left_stream), ast_stream_get_formats(right_stream))) {
/* But if both are actually present we need to do an actual identical check. */
return 0;
}
if (strcmp(ast_stream_get_name(left_stream), ast_stream_get_name(right_stream))) {
return 0;
}
}
return 1;
}
void ast_stream_topology_free(struct ast_stream_topology *topology)
{
ao2_cleanup(topology);
}
int ast_stream_topology_append_stream(struct ast_stream_topology *topology, struct ast_stream *stream)
{
ast_assert(topology && stream);
if (AST_VECTOR_APPEND(&topology->streams, stream)) {
return -1;
}
stream->position = AST_VECTOR_SIZE(&topology->streams) - 1;
if (ast_strlen_zero(stream->name)) {
snprintf(stream->name, MIN_STREAM_NAME_LEN, "%s-%d", ast_codec_media_type2str(stream->type), stream->position);
}
return AST_VECTOR_SIZE(&topology->streams) - 1;
}
int ast_stream_topology_get_count(const struct ast_stream_topology *topology)
{
ast_assert(topology != NULL);
return AST_VECTOR_SIZE(&topology->streams);
}
int ast_stream_topology_get_active_count(const struct ast_stream_topology *topology)
{
int i;
int count = 0;
ast_assert(topology != NULL);
for (i = 0; i < AST_VECTOR_SIZE(&topology->streams); i++) {
struct ast_stream *stream = AST_VECTOR_GET(&topology->streams, i);
if (stream->state != AST_STREAM_STATE_REMOVED) {
count++;
}
}
return count;
}
struct ast_stream *ast_stream_topology_get_stream(
const struct ast_stream_topology *topology, unsigned int stream_num)
{
ast_assert(topology != NULL);
return AST_VECTOR_GET(&topology->streams, stream_num);
}
int ast_stream_topology_set_stream(struct ast_stream_topology *topology,
unsigned int position, struct ast_stream *stream)
{
struct ast_stream *existing_stream;
ast_assert(topology && stream);
if (position > AST_VECTOR_SIZE(&topology->streams)) {
return -1;
}
if (position < AST_VECTOR_SIZE(&topology->streams)) {
existing_stream = AST_VECTOR_GET(&topology->streams, position);
ast_stream_free(existing_stream);
}
stream->position = position;
if (position == AST_VECTOR_SIZE(&topology->streams)) {
return AST_VECTOR_APPEND(&topology->streams, stream);
}
if (ast_strlen_zero(stream->name)) {
snprintf(stream->name, MIN_STREAM_NAME_LEN, "%s-%d", ast_codec_media_type2str(stream->type), stream->position);
}
return AST_VECTOR_REPLACE(&topology->streams, position, stream);
}
int ast_stream_topology_del_stream(struct ast_stream_topology *topology,
unsigned int position)
{
struct ast_stream *stream;
ast_assert(topology != NULL);
if (AST_VECTOR_SIZE(&topology->streams) <= position) {
return -1;
}
stream = AST_VECTOR_REMOVE_ORDERED(&topology->streams, position);
ast_stream_free(stream);
/* Fix up higher stream position indices */
for (; position < AST_VECTOR_SIZE(&topology->streams); ++position) {
stream = AST_VECTOR_GET(&topology->streams, position);
stream->position = position;
}
return 0;
}
struct ast_stream_topology *ast_stream_topology_create_from_format_cap(
struct ast_format_cap *cap)
{
struct ast_stream_topology *topology;
enum ast_media_type type;
topology = ast_stream_topology_alloc();
if (!topology || !cap || !ast_format_cap_count(cap)) {
return topology;
}
for (type = AST_MEDIA_TYPE_UNKNOWN + 1; type < AST_MEDIA_TYPE_END; type++) {
struct ast_format_cap *new_cap;
struct ast_stream *stream;
if (!ast_format_cap_has_type(cap, type)) {
continue;
}
new_cap = ast_format_cap_alloc(AST_FORMAT_CAP_FLAG_DEFAULT);
if (!new_cap) {
ast_stream_topology_free(topology);
return NULL;
}
ast_format_cap_set_framing(new_cap, ast_format_cap_get_framing(cap));
if (ast_format_cap_append_from_cap(new_cap, cap, type)) {
ao2_cleanup(new_cap);
ast_stream_topology_free(topology);
return NULL;
}
stream = ast_stream_alloc(NULL, type);
if (!stream) {
ao2_cleanup(new_cap);
ast_stream_topology_free(topology);
return NULL;
}
ast_stream_set_formats(stream, new_cap);
ao2_ref(new_cap, -1);
stream->state = AST_STREAM_STATE_SENDRECV;
if (ast_stream_topology_append_stream(topology, stream) == -1) {
ast_stream_free(stream);
ast_stream_topology_free(topology);
return NULL;
}
snprintf(stream->name, MIN_STREAM_NAME_LEN, "%s-%d", ast_codec_media_type2str(stream->type), stream->position);
}
return topology;
}
struct ast_format_cap *ast_stream_topology_get_formats_by_type(
struct ast_stream_topology *topology, enum ast_media_type type)
{
struct ast_format_cap *caps;
int i;
ast_assert(topology != NULL);
caps = ast_format_cap_alloc(AST_FORMAT_CAP_FLAG_DEFAULT);
if (!caps) {
return NULL;
}
for (i = 0; i < AST_VECTOR_SIZE(&topology->streams); i++) {
struct ast_stream *stream;
stream = AST_VECTOR_GET(&topology->streams, i);
if (!stream->formats || stream->state == AST_STREAM_STATE_REMOVED) {
continue;
}
if (type == AST_MEDIA_TYPE_UNKNOWN || type == stream->type) {
ast_format_cap_append_from_cap(caps, stream->formats, AST_MEDIA_TYPE_UNKNOWN);
}
}
return caps;
}
struct ast_format_cap *ast_stream_topology_get_formats(
struct ast_stream_topology *topology)
{
return ast_stream_topology_get_formats_by_type(topology, AST_MEDIA_TYPE_UNKNOWN);
}
const char *ast_stream_topology_to_str(const struct ast_stream_topology *topology,
struct ast_str **buf)
{
int i;
if (!buf ||!*buf) {
return "";
}
if (!topology) {
ast_str_append(buf, 0, "(null topology)");
return ast_str_buffer(*buf);
}
ast_str_append(buf, 0, "%s", S_COR(topology->final, "final", ""));
for (i = 0; i < AST_VECTOR_SIZE(&topology->streams); i++) {
struct ast_stream *stream;
stream = AST_VECTOR_GET(&topology->streams, i);
ast_str_append(buf, 0, " <");
ast_stream_to_str(stream, buf);
ast_str_append(buf, 0, ">");
}
return ast_str_buffer(*buf);
}
struct ast_stream *ast_stream_topology_get_first_stream_by_type(
const struct ast_stream_topology *topology,
enum ast_media_type type)
{
int i;
ast_assert(topology != NULL);
for (i = 0; i < AST_VECTOR_SIZE(&topology->streams); i++) {
struct ast_stream *stream;
stream = AST_VECTOR_GET(&topology->streams, i);
if (stream->type == type
&& stream->state != AST_STREAM_STATE_REMOVED) {
return stream;
}
}
return NULL;
}
void ast_stream_topology_map(const struct ast_stream_topology *topology,
struct ast_vector_int *types, struct ast_vector_int *v0, struct ast_vector_int *v1)
{
int i;
int nths[AST_MEDIA_TYPE_END] = {0};
int size = ast_stream_topology_get_count(topology);
/*
* Clear out any old mappings and initialize the new ones
*/
AST_VECTOR_FREE(v0);
AST_VECTOR_FREE(v1);
/*
* Both vectors are sized to the topology. The media types vector is always
* guaranteed to be the size of the given topology or greater.
*/
AST_VECTOR_INIT(v0, size);
AST_VECTOR_INIT(v1, size);
for (i = 0; i < size; ++i) {
struct ast_stream *stream = ast_stream_topology_get_stream(topology, i);
enum ast_media_type type = ast_stream_get_type(stream);
int index = AST_VECTOR_GET_INDEX_NTH(types, ++nths[type],
type, AST_VECTOR_ELEM_DEFAULT_CMP);
if (index == -1) {
/*
* If a given type is not found for an index level then update the
* media types vector with that type. This keeps the media types
* vector always at the max topology size.
*/
AST_VECTOR_APPEND(types, type);
index = AST_VECTOR_SIZE(types) - 1;
}
/*
* The mapping is reflexive in the sense that if it maps in one direction
* then the reverse direction maps back to the other's index.
*/
AST_VECTOR_REPLACE(v0, i, index);
AST_VECTOR_REPLACE(v1, index, i);
}
}
struct ast_stream_topology *ast_stream_topology_create_resolved(
struct ast_stream_topology *pending_topology, struct ast_stream_topology *configured_topology,
struct ast_stream_codec_negotiation_prefs *prefs, struct ast_str**error_message)
{
struct ast_stream_topology *joint_topology = ast_stream_topology_alloc();
int res = 0;
int i;
if (!pending_topology || !configured_topology || !joint_topology) {
ao2_cleanup(joint_topology);
return NULL;
}
for (i = 0; i < AST_VECTOR_SIZE(&pending_topology->streams); i++) {
struct ast_stream *pending_stream = AST_VECTOR_GET(&pending_topology->streams, i);
struct ast_stream *configured_stream =
ast_stream_topology_get_first_stream_by_type(configured_topology, pending_stream->type);
struct ast_stream *joint_stream;
if (!configured_stream) {
joint_stream = ast_stream_clone(pending_stream, NULL);
if (!joint_stream) {
ao2_cleanup(joint_topology);
return NULL;
}
ast_stream_set_state(joint_stream, AST_STREAM_STATE_REMOVED);
} else {
joint_stream = ast_stream_create_resolved(pending_stream, configured_stream, prefs, error_message);
if (!joint_stream) {
ao2_cleanup(joint_topology);
return NULL;
} else if (ast_stream_get_format_count(joint_stream) == 0) {
ast_stream_set_state(joint_stream, AST_STREAM_STATE_REMOVED);
}
}
res = ast_stream_topology_append_stream(joint_topology, joint_stream);
if (res < 0) {
ast_stream_free(joint_stream);
ao2_cleanup(joint_topology);
return NULL;
}
}
return joint_topology;
}
int ast_stream_get_group(const struct ast_stream *stream)
{
ast_assert(stream != NULL);
return stream->group;
}
void ast_stream_set_group(struct ast_stream *stream, int group)
{
ast_assert(stream != NULL);
stream->group = group;
}
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