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/*
mediastreamer2 library - modular sound and video processing and streaming
Copyright (C) 2006  Belledonne Communications

This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License
as published by the Free Software Foundation; either version 2
of the License, or (at your option) any later version.

This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
GNU General Public License for more details.

You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA  02111-1307, USA.
*/


#if !defined(WIN32) && !defined(_WIN32_WCE)
#ifdef __APPLE__
#include <sys/types.h>
#endif
#include <sys/socket.h>
#include <netdb.h>
#endif

#include "mediastreamer2/msticker.h"
#include "mediastreamer2/ice.h"
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#include "ortp/ortp.h"
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#define ICE_MAX_NB_CANDIDATES		10
#define ICE_MAX_NB_CANDIDATE_PAIRS	(ICE_MAX_NB_CANDIDATES*ICE_MAX_NB_CANDIDATES)

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#define ICE_MIN_COMPONENTID		1
#define ICE_MAX_COMPONENTID		256
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#define ICE_INVALID_COMPONENTID		0
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#define ICE_MAX_UFRAG_LEN		256
#define ICE_MAX_PWD_LEN			256
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#define ICE_DEFAULT_TA_DURATION		20	/* In milliseconds */
#define ICE_DEFAULT_RTO_DURATION	100	/* In milliseconds */
#define ICE_DEFAULT_KEEPALIVE_TIMEOUT   15	/* In seconds */
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#define ICE_GATHERING_CANDIDATES_TIMEOUT	2500	/* In milliseconds */
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#define ICE_MAX_RETRANSMISSIONS		7
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typedef struct _Type_ComponentID {
	IceCandidateType type;
	uint16_t componentID;
} Type_ComponentID;

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typedef struct _Foundation_Pair_Priority_ComponentID {
	const IcePairFoundation *foundation;
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	IceCandidatePair *pair;
	uint64_t priority;
	uint16_t componentID;
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} Foundation_Pair_Priority_ComponentID;
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typedef struct _CheckList_RtpSession {
	IceCheckList *cl;
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	const RtpSession *rtp_session;
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} CheckList_RtpSession;

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typedef struct _CheckList_RtpSession_Time {
	IceCheckList *cl;
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	const RtpSession *rtp_session;
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	uint64_t time;
} CheckList_RtpSession_Time;

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typedef struct _CheckList_Bool {
	IceCheckList *cl;
	bool_t result;
} CheckList_Bool;

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typedef struct _CheckList_MSListPtr {
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	const IceCheckList *cl;
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	MSList **list;
} CheckList_MSListPtr;

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typedef struct _LocalCandidate_RemoteCandidate {
	IceCandidate *local;
	IceCandidate *remote;
} LocalCandidate_RemoteCandidate;

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typedef struct _Addr_Ports {
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	char *rtp_addr;
	char *rtcp_addr;
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	int addr_len;
	int *rtp_port;
	int *rtcp_port;
} Addr_Ports;

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typedef struct _Time_Bool {
	uint64_t time;
	bool_t result;
} Time_Bool;

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typedef struct _Session_Index {
	IceSession *session;
	int index;
} Session_Index;

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// WARNING: We need this function to push events in the rtp event queue but it should not be made public in oRTP.
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extern void rtp_session_dispatch_event(RtpSession *session, OrtpEvent *ev);


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static void ice_send_stun_server_binding_request(ortp_socket_t sock, const struct sockaddr *server, socklen_t addrlen, int id);
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static int ice_compare_transport_addresses(const IceTransportAddress *ta1, const IceTransportAddress *ta2);
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static int ice_compare_pair_priorities(const IceCandidatePair *p1, const IceCandidatePair *p2);
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static int ice_compare_pairs(const IceCandidatePair *p1, const IceCandidatePair *p2);
static int ice_compare_candidates(const IceCandidate *c1, const IceCandidate *c2);
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static int ice_find_host_candidate(const IceCandidate *candidate, const uint16_t *componentID);
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static int ice_find_nominated_valid_pair_from_componentID(const IceValidCandidatePair* valid_pair, const uint16_t* componentID);
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static int ice_find_running_check_list(const IceCheckList *cl);
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static void ice_pair_set_state(IceCandidatePair *pair, IceCandidatePairState state);
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static void ice_compute_candidate_foundation(IceCandidate *candidate, IceCheckList *cl);
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static void ice_set_credentials(char **ufrag, char **pwd, const char *ufrag_str, const char *pwd_str);
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static void ice_conclude_processing(IceCheckList* cl, RtpSession* rtp_session);
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/******************************************************************************
 * CONSTANTS DEFINITIONS                                                      *
 *****************************************************************************/

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uint32_t stun_magic_cookie = 0x2112A442;

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static const char * const role_values[] = {
	"Controlling",	/* IR_Controlling */
	"Controlled",	/* IR_Controlled */
};

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static const char * const candidate_type_values[] = {
	"host",		/* ICT_HostCandidate */
	"srflx",	/* ICT_ServerReflexiveCandidate */
	"prflx",	/* ICT_PeerReflexiveCandidate */
	"relay"		/* ICT_RelayedCandidate */
};

/**
 * ICE candidate type preference values as recommended in 4.1.1.2.
 */
static const uint8_t type_preference_values[] = {
	126,	/* ICT_HostCandidate */
	100,	/* ICT_ServerReflexiveCandidate */
	110,	/* ICT_PeerReflexiveCandidate */
	0	/* ICT_RelayedCandidate */
};

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static const char * const candidate_pair_state_values[] = {
	"Waiting",	/* ICP_Waiting */
	"In-Progress",	/* ICP_InProgress */
	"Succeeded",	/* ICP_Succeeded */
	"Failed",	/* ICP_Failed */
	"Frozen"	/* ICP_Frozen */
};


/******************************************************************************
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 * SESSION INITIALISATION AND DEINITIALISATION                                *
 *****************************************************************************/

static void ice_session_init(IceSession *session)
{
	session->streams = NULL;
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	session->state = IS_Stopped;
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	session->role = IR_Controlling;
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	session->tie_breaker = (((uint64_t)random()) << 32) | (((uint64_t)random()) & 0xffffffff);
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	session->ta = ICE_DEFAULT_TA_DURATION;
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	session->keepalive_timeout = ICE_DEFAULT_KEEPALIVE_TIMEOUT;
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	session->max_connectivity_checks = ICE_MAX_NB_CANDIDATE_PAIRS;
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	session->local_ufrag = ms_malloc(9);
	sprintf(session->local_ufrag, "%08lx", random());
	session->local_ufrag[8] = '\0';
	session->local_pwd = ms_malloc(25);
	sprintf(session->local_pwd, "%08lx%08lx%08lx", random(), random(), random());
	session->local_pwd[24] = '\0';
	session->remote_ufrag = NULL;
	session->remote_pwd = NULL;
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	session->event_time = 0;
	session->send_event = FALSE;
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}

IceSession * ice_session_new(void)
{
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	MSTickerParams params;
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	IceSession *session = ms_new(IceSession, 1);
	if (session == NULL) {
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		ms_error("ice: Memory allocation of ICE session failed");
		return NULL;
	}
	params.name = "ICE Ticker";
	params.prio = MS_TICKER_PRIO_NORMAL;
	session->ticker = ms_ticker_new_with_params(&params);
	if (session->ticker == NULL) {
		ms_error("ice: Creation of ICE ticker failed");
		ice_session_destroy(session);
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		return NULL;
	}
	ice_session_init(session);
	return session;
}

void ice_session_destroy(IceSession *session)
{
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	if (session != NULL) {
		ms_list_for_each(session->streams, (void (*)(void*))ice_check_list_destroy);
		if (session->ticker) ms_ticker_destroy(session->ticker);
		if (session->local_ufrag) ms_free(session->local_ufrag);
		if (session->local_pwd) ms_free(session->local_pwd);
		if (session->remote_ufrag) ms_free(session->remote_ufrag);
		if (session->remote_pwd) ms_free(session->remote_pwd);
		ms_list_free(session->streams);
		ms_free(session);
	}
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}


/******************************************************************************
 * CHECK LIST INITIALISATION AND DEINITIALISATION                             *
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 *****************************************************************************/
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static void ice_check_list_init(IceCheckList *cl)
{
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	cl->session = NULL;
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	cl->rtp_session = NULL;
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	cl->remote_ufrag = cl->remote_pwd = NULL;
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	cl->stun_server_checks = NULL;
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	cl->local_candidates = cl->remote_candidates = cl->pairs = cl->triggered_checks_queue = cl->check_list = cl->valid_list = NULL;
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	cl->local_componentIDs = cl->remote_componentIDs = cl->foundations = NULL;
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	cl->state = ICL_Running;
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	cl->ta_time = 0;
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	cl->keepalive_time = 0;
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	cl->foundation_generator = 1;
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	cl->mismatch = FALSE;
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	cl->gathering_candidates = FALSE;
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}

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IceCheckList * ice_check_list_new(void)
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{
	IceCheckList *cl = ms_new(IceCheckList, 1);
	if (cl == NULL) {
		ms_error("ice_check_list_new: Memory allocation failed");
		return NULL;
	}
	ice_check_list_init(cl);
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	return cl;
}

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static void ice_compute_pair_priority(IceCandidatePair *pair, const IceRole *role)
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{
	/* Use formula defined in 5.7.2 to compute pair priority. */
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	uint64_t G = 0;
	uint64_t D = 0;
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	switch (*role) {
		case IR_Controlling:
			G = pair->local->priority;
			D = pair->remote->priority;
			break;
		case IR_Controlled:
			G = pair->remote->priority;
			D = pair->local->priority;
			break;
	}
	pair->priority = (MIN(G, D) << 32) | (MAX(G, D) << 1) | (G > D ? 1 : 0);
}

static IceCandidatePair *ice_pair_new(IceCheckList *cl, IceCandidate* local_candidate, IceCandidate *remote_candidate)
{
	IceCandidatePair *pair = ms_new(IceCandidatePair, 1);
	pair->local = local_candidate;
	pair->remote = remote_candidate;
	ice_pair_set_state(pair, ICP_Frozen);
	pair->is_default = FALSE;
	pair->is_nominated = FALSE;
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	pair->use_candidate = FALSE;
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	pair->wait_transaction_timeout = FALSE;
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	if ((pair->local->is_default == TRUE) && (pair->remote->is_default == TRUE)) pair->is_default = TRUE;
	else pair->is_default = FALSE;
	memset(&pair->transactionID, 0, sizeof(pair->transactionID));
	pair->rto = ICE_DEFAULT_RTO_DURATION;
	pair->retransmissions = 0;
	pair->role = cl->session->role;
	ice_compute_pair_priority(pair, &cl->session->role);
	return pair;
}

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static void ice_free_stun_server_check(IceStunServerCheck *check)
{
	ms_free(check);
}

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static void ice_free_pair_foundation(IcePairFoundation *foundation)
{
	ms_free(foundation);
}

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static void ice_free_valid_pair(IceValidCandidatePair *valid_pair)
{
	ms_free(valid_pair);
}

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static void ice_free_candidate_pair(IceCandidatePair *pair)
{
	ms_free(pair);
}

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static void ice_free_candidate(IceCandidate *candidate)
{
	ms_free(candidate);
}

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void ice_check_list_destroy(IceCheckList *cl)
{
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	if (cl->remote_ufrag) ms_free(cl->remote_ufrag);
	if (cl->remote_pwd) ms_free(cl->remote_pwd);
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	ms_list_for_each(cl->stun_server_checks, (void (*)(void*))ice_free_stun_server_check);
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	ms_list_for_each(cl->foundations, (void (*)(void*))ice_free_pair_foundation);
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	ms_list_for_each(cl->valid_list, (void (*)(void*))ice_free_valid_pair);
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	ms_list_for_each(cl->pairs, (void (*)(void*))ice_free_candidate_pair);
	ms_list_for_each(cl->remote_candidates, (void (*)(void*))ice_free_candidate);
	ms_list_for_each(cl->local_candidates, (void (*)(void*))ice_free_candidate);
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	ms_list_free(cl->stun_server_checks);
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	ms_list_free(cl->foundations);
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	ms_list_free(cl->local_componentIDs);
	ms_list_free(cl->remote_componentIDs);
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	ms_list_free(cl->valid_list);
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	ms_list_free(cl->check_list);
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	ms_list_free(cl->triggered_checks_queue);
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	ms_list_free(cl->pairs);
	ms_list_free(cl->remote_candidates);
	ms_list_free(cl->local_candidates);
	ms_free(cl);
}


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/******************************************************************************
 * CANDIDATE ACCESSORS                                                        *
 *****************************************************************************/

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const char *ice_candidate_type(const IceCandidate *candidate)
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{
	return candidate_type_values[candidate->type];
}

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/******************************************************************************
 * CANDIDATE PAIR ACCESSORS                                                   *
 *****************************************************************************/

static void ice_pair_set_state(IceCandidatePair *pair, IceCandidatePairState state)
{
	if (pair->state != state) {
		pair->state = state;
		switch (state) {
			case ICP_Failed:
			case ICP_Waiting:
				memset(&pair->transactionID, 0, sizeof(pair->transactionID));
				break;
			case ICP_InProgress:
			case ICP_Succeeded:
			case ICP_Frozen:
				break;
		}
	}
}


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/******************************************************************************
 * CHECK LIST ACCESSORS                                                       *
 *****************************************************************************/

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IceCheckListState ice_check_list_state(const IceCheckList* cl)
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{
	return cl->state;
}

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static int ice_find_non_failed_check_list(const IceCheckList *cl)
{
	return (cl->state == ICL_Failed);
}

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void ice_check_list_set_state(IceCheckList *cl, IceCheckListState state)
{
	cl->state = state;
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	if (ms_list_find_custom(cl->session->streams, (MSCompareFunc)ice_find_non_failed_check_list, NULL) == NULL) {
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		/* Set the state of the session to Failed if all the check lists are in the Failed state. */
		cl->session->state = IS_Failed;
	}
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}

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void ice_check_list_set_rtp_session(IceCheckList *cl, RtpSession *rtp_session)
{
	cl->rtp_session = rtp_session;
}

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const char * ice_check_list_local_ufrag(const IceCheckList* cl)
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{
	/* Do not handle media specific ufrag for the moment, so use the session local ufrag. */
	return cl->session->local_ufrag;
}

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const char * ice_check_list_local_pwd(const IceCheckList* cl)
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{
	/* Do not handle media specific pwd for the moment, so use the session local pwd. */
	return cl->session->local_pwd;
}

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const char * ice_check_list_remote_ufrag(const IceCheckList* cl)
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{
	if (cl->remote_ufrag) return cl->remote_ufrag;
	else return cl->session->remote_ufrag;
}

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const char * ice_check_list_remote_pwd(const IceCheckList* cl)
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{
	if (cl->remote_pwd) return cl->remote_pwd;
	else return cl->session->remote_pwd;
}

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static int ice_find_default_local_candidate(const IceCandidate *candidate, const uint16_t *componentID)
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{
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	return !((candidate->componentID == *componentID) && (candidate->is_default == TRUE));
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}

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void ice_check_list_set_remote_credentials(IceCheckList *cl, const char *ufrag, const char *pwd)
{
	ice_set_credentials(&cl->remote_ufrag, &cl->remote_pwd, ufrag, pwd);
}

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bool_t ice_check_list_default_local_candidate(const IceCheckList *cl, const char **rtp_addr, int *rtp_port, const char **rtcp_addr, int *rtcp_port)
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{
	IceCandidate *candidate = NULL;
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	uint16_t componentID;
	MSList *rtp_elem;
	MSList *rtcp_elem;

	componentID = 1;
	rtp_elem = ms_list_find_custom(cl->local_candidates, (MSCompareFunc)ice_find_default_local_candidate, &componentID);
	if (rtp_elem == NULL) return FALSE;
	componentID = 2;
	rtcp_elem = ms_list_find_custom(cl->local_candidates, (MSCompareFunc)ice_find_default_local_candidate, &componentID);
	if ((rtcp_elem == NULL) && ((rtcp_addr != NULL) || (rtcp_port != NULL))) return FALSE;

	candidate = (IceCandidate *)rtp_elem->data;
	if (rtp_addr != NULL) *rtp_addr = candidate->taddr.ip;
	if (rtp_port != NULL) *rtp_port = candidate->taddr.port;
	candidate = (IceCandidate *)rtcp_elem->data;
	if (rtcp_addr != NULL) *rtcp_addr = candidate->taddr.ip;
	if (rtcp_port != NULL) *rtcp_port = candidate->taddr.port;
	return TRUE;
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}

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bool_t ice_check_list_nominated_valid_local_candidate(const IceCheckList *cl, const char **rtp_addr, int *rtp_port, const char **rtcp_addr, int *rtcp_port)
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{
	IceCandidate *candidate = NULL;
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	IceValidCandidatePair *valid_pair = NULL;
	uint16_t componentID;
	MSList *rtp_elem;
	MSList *rtcp_elem;

	componentID = 1;
	rtp_elem = ms_list_find_custom(cl->valid_list, (MSCompareFunc)ice_find_nominated_valid_pair_from_componentID, &componentID);
	if (rtp_elem == NULL) return FALSE;
	componentID = 2;
	rtcp_elem = ms_list_find_custom(cl->valid_list, (MSCompareFunc)ice_find_nominated_valid_pair_from_componentID, &componentID);
	if ((rtcp_elem == NULL) && ((rtcp_addr != NULL) || (rtcp_port != NULL))) return FALSE;

	valid_pair = (IceValidCandidatePair *)rtp_elem->data;
	candidate = valid_pair->valid->local;
	if (rtp_addr != NULL) *rtp_addr = candidate->taddr.ip;
	if (rtp_port != NULL) *rtp_port = candidate->taddr.port;
	valid_pair = (IceValidCandidatePair *)rtcp_elem->data;
	candidate = valid_pair->valid->local;
	if (rtcp_addr != NULL) *rtcp_addr = candidate->taddr.ip;
	if (rtcp_port != NULL) *rtcp_port = candidate->taddr.port;
	return TRUE;
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}

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bool_t ice_check_list_nominated_valid_remote_candidate(const IceCheckList *cl, const char **rtp_addr, int *rtp_port, const char **rtcp_addr, int *rtcp_port)
{
	IceCandidate *candidate = NULL;
	IceValidCandidatePair *valid_pair = NULL;
	uint16_t componentID;
	MSList *rtp_elem;
	MSList *rtcp_elem;

	componentID = 1;
	rtp_elem = ms_list_find_custom(cl->valid_list, (MSCompareFunc)ice_find_nominated_valid_pair_from_componentID, &componentID);
	if (rtp_elem == NULL) return FALSE;
	componentID = 2;
	rtcp_elem = ms_list_find_custom(cl->valid_list, (MSCompareFunc)ice_find_nominated_valid_pair_from_componentID, &componentID);

	valid_pair = (IceValidCandidatePair *)rtp_elem->data;
	candidate = valid_pair->valid->remote;
	if (rtp_addr != NULL) *rtp_addr = candidate->taddr.ip;
	if (rtp_port != NULL) *rtp_port = candidate->taddr.port;
	if (rtcp_elem == NULL) return FALSE;
	valid_pair = (IceValidCandidatePair *)rtcp_elem->data;
	candidate = valid_pair->valid->remote;
	if (rtcp_addr != NULL) *rtcp_addr = candidate->taddr.ip;
	if (rtcp_port != NULL) *rtcp_port = candidate->taddr.port;
	return TRUE;
}

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static void ice_check_list_queue_triggered_check(IceCheckList *cl, IceCandidatePair *pair)
{
	MSList *elem = ms_list_find(cl->triggered_checks_queue, pair);
	if (elem != NULL) {
		/* The pair is already in the triggered checks queue, do not add it again. */
	} else {
		cl->triggered_checks_queue = ms_list_append(cl->triggered_checks_queue, pair);
	}
}

static IceCandidatePair * ice_check_list_pop_triggered_check(IceCheckList *cl)
{
	IceCandidatePair *pair;

	if (ms_list_size(cl->triggered_checks_queue) == 0) return NULL;
	pair = ms_list_nth_data(cl->triggered_checks_queue, 0);
	if (pair != NULL) {
		/* Remove the first element in the triggered checks queue. */
		cl->triggered_checks_queue = ms_list_remove_link(cl->triggered_checks_queue, cl->triggered_checks_queue);
	}
	return pair;
}

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static int ice_find_non_frozen_pair(const IceCandidatePair *pair, const void *dummy)
{
	return (pair->state == ICP_Frozen);
}

static bool_t ice_check_list_is_frozen(const IceCheckList *cl)
{
	MSList *elem = ms_list_find_custom(cl->check_list, (MSCompareFunc)ice_find_non_frozen_pair, NULL);
	return (elem == NULL);
}

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bool_t ice_check_list_is_mismatch(const IceCheckList *cl)
{
	return cl->mismatch;
}

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/******************************************************************************
 * SESSION ACCESSORS                                                          *
 *****************************************************************************/

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IceCheckList * ice_session_check_list(const IceSession *session, unsigned int n)
{
	return (IceCheckList *)ms_list_nth_data(session->streams, n);
}

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const char * ice_session_local_ufrag(const IceSession *session)
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{
	return session->local_ufrag;
}

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const char * ice_session_local_pwd(const IceSession *session)
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{
	return session->local_pwd;
}

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const char * ice_session_remote_ufrag(const IceSession *session)
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{
	return session->remote_ufrag;
}

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const char * ice_session_remote_pwd(const IceSession *session)
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{
	return session->remote_pwd;
}

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static void ice_check_list_compute_pair_priorities(IceCheckList *cl)
{
	ms_list_for_each2(cl->pairs, (void (*)(void*,void*))ice_compute_pair_priority, &cl->session->role);
}

static void ice_session_compute_pair_priorities(IceSession *session)
{
	ms_list_for_each(session->streams, (void (*)(void*))ice_check_list_compute_pair_priorities);
}

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IceSessionState ice_session_state(const IceSession *session)
{
	return session->state;
}

IceRole ice_session_role(const IceSession *session)
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{
	return session->role;
}

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void ice_session_set_role(IceSession *session, IceRole role)
{
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	if (session->role != role) {
		/* Compute new candidate pair priorities if the role changes. */
		session->role = role;
		ice_session_compute_pair_priorities(session);
	}
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}

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void ice_session_set_local_credentials(IceSession *session, const char *ufrag, const char *pwd)
{
	ice_set_credentials(&session->local_ufrag, &session->local_pwd, ufrag, pwd);
}

void ice_session_set_remote_credentials(IceSession *session, const char *ufrag, const char *pwd)
{
	ice_set_credentials(&session->remote_ufrag, &session->remote_pwd, ufrag, pwd);
}

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void ice_session_set_max_connectivity_checks(IceSession *session, uint8_t max_connectivity_checks)
{
	session->max_connectivity_checks = max_connectivity_checks;
}

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void ice_session_set_keepalive_timeout(IceSession *session, uint8_t timeout)
{
	if (timeout < ICE_DEFAULT_KEEPALIVE_TIMEOUT) timeout = ICE_DEFAULT_KEEPALIVE_TIMEOUT;
	session->keepalive_timeout = timeout;
}

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/******************************************************************************
 * SESSION HANDLING                                                           *
 *****************************************************************************/

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int ice_session_nb_check_lists(IceSession *session)
{
	return ms_list_size(session->streams);
}

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void ice_session_add_check_list(IceSession *session, IceCheckList *cl)
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{
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	session->streams = ms_list_append(session->streams, cl);
	cl->session = session;
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	if (cl->state == ICL_Running) {
		session->state = IS_Running;
	}
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}

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void ice_session_remove_check_list(IceSession *session, IceCheckList *cl)
{
	session->streams = ms_list_remove(session->streams, cl);
	ice_check_list_destroy(cl);
}

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static int ice_find_default_candidate_from_componentID(const IceCandidate *candidate, const uint16_t *componentID)
{
	return !((candidate->is_default == TRUE) && (candidate->componentID == *componentID));
}

static void ice_find_default_remote_candidate_for_componentID(const uint16_t *componentID, IceCheckList *cl)
{
	MSList *elem = ms_list_find_custom(cl->remote_candidates, (MSCompareFunc)ice_find_default_candidate_from_componentID, componentID);
	if (elem == NULL) {
		cl->mismatch = TRUE;
		cl->state = ICL_Failed;
	}
}

static void ice_check_list_check_mismatch(IceCheckList *cl)
{
	ms_list_for_each2(cl->remote_componentIDs, (void (*)(void*,void*))ice_find_default_remote_candidate_for_componentID, cl);
}

void ice_session_check_mismatch(IceSession *session)
{
	ms_list_for_each(session->streams, (void (*)(void*))ice_check_list_check_mismatch);
}

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/******************************************************************************
 * CANDIDATES GATHERING                                                       *
 *****************************************************************************/

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static void ice_check_list_gather_candidates(IceCheckList *cl, Session_Index *si)
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{
	IceStunServerCheck *check;
	ortp_socket_t sock = -1;
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	uint64_t curtime = si->session->ticker->time;
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	if ((cl->rtp_session != NULL) && (cl->gathering_candidates == FALSE) && (cl->state != ICL_Completed)) {
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		cl->gathering_candidates = TRUE;
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		cl->gathering_start_time = curtime;
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		sock = rtp_session_get_rtp_socket(cl->rtp_session);
		if (sock > 0) {
			check = (IceStunServerCheck *)ms_new0(IceStunServerCheck, 1);
			check->sock = sock;
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			if (si->index == 0) {
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				check->transmission_time = curtime + ICE_DEFAULT_RTO_DURATION;
				check->nb_transmissions = 1;
				ice_send_stun_server_binding_request(sock, (struct sockaddr *)&cl->session->ss, cl->session->ss_len, check->sock);
			} else {
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				check->transmission_time = curtime + 2 * si->index * ICE_DEFAULT_TA_DURATION;
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			}
			cl->stun_server_checks = ms_list_append(cl->stun_server_checks, check);
		}
		sock = rtp_session_get_rtcp_socket(cl->rtp_session);
		if (sock > 0) {
			check = (IceStunServerCheck *)ms_new0(IceStunServerCheck, 1);
			check->sock = sock;
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			check->transmission_time = curtime + 2 * si->index * ICE_DEFAULT_TA_DURATION + ICE_DEFAULT_TA_DURATION;
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			cl->stun_server_checks = ms_list_append(cl->stun_server_checks, check);
		}
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		si->index++;
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	}
}

void ice_session_gather_candidates(IceSession *session, struct sockaddr_storage ss, socklen_t ss_len)
{
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	Session_Index si;
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	session->ss = ss;
	session->ss_len = ss_len;
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	si.session = session;
	si.index = 0;
	ms_list_for_each2(session->streams, (void (*)(void*,void*))ice_check_list_gather_candidates, &si);
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}


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/******************************************************************************
 * STUN PACKETS HANDLING                                                      *
 *****************************************************************************/

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static void ice_send_stun_server_binding_request(ortp_socket_t sock, const struct sockaddr *server, socklen_t addrlen, int id)
{
	StunMessage msg;
	StunAtrString username;
	StunAtrString password;
	char buf[STUN_MAX_MESSAGE_SIZE];
	int len = STUN_MAX_MESSAGE_SIZE;
	const struct sockaddr_in *servaddr = (const struct sockaddr_in *)server;

	memset(&msg, 0, sizeof(StunMessage));
	memset(&username,0,sizeof(username));
	memset(&password,0,sizeof(password));
	stunBuildReqSimple(&msg, &username, FALSE, FALSE, id);
	len = stunEncodeMessage(&msg, buf, len, &password);
	if (len > 0) {
		sendMessage(sock, buf, len, htonl(servaddr->sin_addr.s_addr), htons(servaddr->sin_port));
	}
}

static int ice_parse_stun_server_binding_response(const StunMessage *msg, char *addr, int addr_len, int *port)
{
	struct in_addr ia;

	if (msg->hasXorMappedAddress) {
		*port = msg->xorMappedAddress.ipv4.port;
		ia.s_addr = htonl(msg->xorMappedAddress.ipv4.addr);
	} else if (msg->hasMappedAddress) {
		*port = msg->mappedAddress.ipv4.port;
		ia.s_addr = htonl(msg->mappedAddress.ipv4.addr);
	} else return -1;

	strncpy(addr, inet_ntoa(ia), addr_len);
	return 0;
}

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/* Send a STUN binding request for ICE connectivity checks according to 7.1.2. */
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static void ice_send_binding_request(IceCheckList *cl, IceCandidatePair *pair, const RtpSession *rtp_session)
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{
	StunMessage msg;
	StunAddress4 dest;
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	StunAtrString username;
	StunAtrString password;
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	char buf[STUN_MAX_MESSAGE_SIZE];
	int len = STUN_MAX_MESSAGE_SIZE;
	int socket = 0;

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	if (pair->state == ICP_InProgress) {
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		if (pair->wait_transaction_timeout == TRUE) {
			/* Special case where a binding response triggers a binding request for an InProgress pair. */
			/* In this case we wait for the transmission timeout before creating a new binding request for the pair. */
			pair->wait_transaction_timeout = FALSE;
			ice_pair_set_state(pair, ICP_Waiting);
			ice_check_list_queue_triggered_check(cl, pair);
			return;
		}
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		/* This is a retransmission: update the number of retransmissions, the retransmission timer value, and the transmission time. */
		pair->retransmissions++;
		if (pair->retransmissions > ICE_MAX_RETRANSMISSIONS) {
			/* Too much retransmissions, stop sending connectivity checks for this pair. */
			ice_pair_set_state(pair, ICP_Failed);
			return;
		}
		pair->rto = pair->rto << 1;
	}
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	pair->transmission_time = cl->session->ticker->time;
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	if (pair->local->componentID == 1) {
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		socket = rtp_session_get_rtp_socket(rtp_session);
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	} else if (pair->local->componentID == 2) {
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		socket = rtp_session_get_rtcp_socket(rtp_session);
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	} else return;

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	// TODO: Check size of username.value because "RFRAG:LFRAG" can be up to 513 bytes!
	snprintf(username.value, sizeof(username.value) - 1, "%s:%s", ice_check_list_remote_ufrag(cl), ice_check_list_local_ufrag(cl));
	username.sizeValue = strlen(username.value);
	snprintf(password.value, sizeof(password.value) - 1, "%s", ice_check_list_remote_pwd(cl));
	password.sizeValue = strlen(password.value);

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	stunParseHostName(pair->remote->taddr.ip, &dest.addr, &dest.port, pair->remote->taddr.port);
	memset(&msg, 0, sizeof(msg));
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	stunBuildReqSimple(&msg, &username, FALSE, FALSE, 1);	// TODO: Should the id always be 1???
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	msg.hasMessageIntegrity = TRUE;
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	msg.hasFingerprint = TRUE;
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	/* Set the PRIORITY attribute as defined in 7.1.2.1. */
	msg.hasPriority = TRUE;
	msg.priority.priority = (pair->local->priority & 0x00ffffff) | (type_preference_values[ICT_PeerReflexiveCandidate] << 24);

	/* Include the USE-CANDIDATE attribute if the pair is nominated and the agent has the controlling role, as defined in 7.1.2.1. */
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	if ((cl->session->role == IR_Controlling) && (pair->use_candidate == TRUE)) {
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		msg.hasUseCandidate = TRUE;
	}

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	/* Include the ICE-CONTROLLING or ICE-CONTROLLED attribute depending on the role of the agent, as defined in 7.1.2.2. */
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	switch (cl->session->role) {
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		case IR_Controlling:
			msg.hasIceControlling = TRUE;
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			msg.iceControlling.value = cl->session->tie_breaker;
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			break;
		case IR_Controlled:
			msg.hasIceControlled = TRUE;
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			msg.iceControlled.value = cl->session->tie_breaker;
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			break;
	}
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	/* Keep the same transaction ID for retransmission. */
	if (pair->state == ICP_InProgress) {
		memcpy(&msg.msgHdr.tr_id, &pair->transactionID, sizeof(msg.msgHdr.tr_id));
	}

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	len = stunEncodeMessage(&msg, buf, len, &password);
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	if (len > 0) {
		/* Save the generated transaction ID to match the response to the request, and send the request. */
		memcpy(&pair->transactionID, &msg.msgHdr.tr_id, sizeof(pair->transactionID));
		sendMessage(socket, buf, len, dest.addr, dest.port);
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		if (pair->state != ICP_InProgress) {
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			/* First transmission of the request, initialize the retransmission timer. */
			pair->rto = ICE_DEFAULT_RTO_DURATION;
			pair->retransmissions = 0;
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			/* Save the role of the agent. */
			pair->role = cl->session->role;
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			/* Change the state of the pair. */
			ice_pair_set_state(pair, ICP_InProgress);
		}
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	}
}

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static int ice_get_componentID_from_rtp_session(const OrtpEventData *evt_data)
{
	if (evt_data->info.socket_type == OrtpRTPSocket) {
		return 1;
	} else if (evt_data->info.socket_type == OrtpRTCPSocket) {
		return 2;
	}
	return -1;
}


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static int ice_get_socket_from_rtp_session(const RtpSession *rtp_session, const OrtpEventData *evt_data)
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{
	if (evt_data->info.socket_type == OrtpRTPSocket) {
		return rtp_session_get_rtp_socket(rtp_session);
	} else if (evt_data->info.socket_type == OrtpRTCPSocket) {
		return rtp_session_get_rtcp_socket(rtp_session);
	}
	return -1;
}

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static int ice_get_recv_port_from_rtp_session(const RtpSession *rtp_session, const OrtpEventData *evt_data)
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{
	if (evt_data->info.socket_type == OrtpRTPSocket) {
		return rtp_session->rtp.loc_port;
	} else if (evt_data->info.socket_type == OrtpRTCPSocket) {
		return rtp_session->rtp.loc_port + 1;
	} else return -1;
}

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static void ice_send_binding_response(const RtpSession *rtp_session, const OrtpEventData *evt_data, const StunMessage *msg, const StunAddress4 *dest)
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{
	StunMessage response;
	StunAtrString password;
	char buf[STUN_MAX_MESSAGE_SIZE];
	int len = STUN_MAX_MESSAGE_SIZE;
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	int socket = ice_get_socket_from_rtp_session(rtp_session, evt_data);
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	if (socket < 0) return;
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	memset(&response, 0, sizeof(response));

	/* Copy magic cookie and transaction ID from the request. */
	response.msgHdr.magic_cookie = ntohl(msg->msgHdr.magic_cookie);
	memcpy(&response.msgHdr.tr_id, &msg->msgHdr.tr_id, sizeof(response.msgHdr.tr_id));

	/* Create the binding response. */
	response.msgHdr.msgType = (STUN_METHOD_BINDING | STUN_SUCCESS_RESP);
	response.hasMessageIntegrity = TRUE;
	response.hasFingerprint = TRUE;
	response.hasUsername = TRUE;
	memcpy(response.username.value, msg->username.value, msg->username.sizeValue);
	response.username.sizeValue = msg->username.sizeValue;

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	/* Add the mapped address to the response. */
	response.hasXorMappedAddress = TRUE;
	response.xorMappedAddress.ipv4.port = dest->port ^ (stun_magic_cookie >> 16);
	response.xorMappedAddress.ipv4.addr = dest->addr ^ stun_magic_cookie;

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	len = stunEncodeMessage(&response, buf, len, &password);
	if (len > 0) {
		sendMessage(socket, buf, len, dest->addr, dest->port);
	}
}

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static void ice_send_error_response(const RtpSession *rtp_session, const OrtpEventData *evt_data, const StunMessage *msg, uint8_t err_class, uint8_t err_num, const StunAddress4 *dest, const char *error)
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{
	StunMessage response;
	StunAtrString password;
	char buf[STUN_MAX_MESSAGE_SIZE];
	int len = STUN_MAX_MESSAGE_SIZE;
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	int socket = ice_get_socket_from_rtp_session(rtp_session, evt_data);
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	int recvport = ice_get_recv_port_from_rtp_session(rtp_session, evt_data);
	struct in_addr dest_addr;
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	if (socket < 0) return;
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	memset(&response, 0, sizeof(response));

	/* Copy magic cookie and transaction ID from the request. */
	response.msgHdr.magic_cookie = ntohl(msg->msgHdr.magic_cookie);
	memcpy(&response.msgHdr.tr_id, &msg->msgHdr.tr_id, sizeof(response.msgHdr.tr_id));

	/* Create the error response. */
	response.msgHdr.msgType = (STUN_METHOD_BINDING | STUN_ERR_RESP);
	response.hasErrorCode = TRUE;
	response.errorCode.errorClass = err_class;
	response.errorCode.number = err_num;
	strcpy(response.errorCode.reason, error);
	response.errorCode.sizeReason = strlen(error);
	response.hasFingerprint = TRUE;

	len = stunEncodeMessage(&response, buf, len, &password);
	if (len > 0) {
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		dest_addr.s_addr = htonl(dest->addr);
		ms_message("ice: Sending error response to %s:%u from %s:%u", inet_ntoa(dest_addr), dest->port, inet_ntoa(evt_data->packet->ipi_addr), recvport);
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		sendMessage(socket, buf, len, dest->addr, dest->port);
	}
}

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static void ice_send_indication(const IceCandidatePair *pair, const RtpSession *rtp_session)
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{
	StunMessage indication;
	StunAddress4 dest;
	char buf[STUN_MAX_MESSAGE_SIZE];
	int len = STUN_MAX_MESSAGE_SIZE;
	int socket;

	if (pair->local->componentID == 1) {
		socket = rtp_session_get_rtp_socket(rtp_session);
	} else if (pair->local->componentID == 2) {
		socket = rtp_session_get_rtcp_socket(rtp_session);
	} else return;

	stunParseHostName(pair->remote->taddr.ip, &dest.addr, &dest.port, pair->remote->taddr.port);
	memset(&indication, 0, sizeof(indication));
	stunBuildReqSimple(&indication, NULL, FALSE, FALSE, 1);
	indication.msgHdr.msgType = (STUN_METHOD_BINDING|STUN_INDICATION);
	indication.hasFingerprint = TRUE;

	len = stunEncodeMessage(&indication, buf, len, NULL);
	if (len > 0) {
		sendMessage(socket, buf, len, dest.addr, dest.port);
	}
}

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static void ice_send_keepalive_packet_for_componentID(const uint16_t *componentID, const CheckList_RtpSession *cr)
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{
	MSList *elem = ms_list_find_custom(cr->cl->valid_list, (MSCompareFunc)ice_find_nominated_valid_pair_from_componentID, componentID);
	if (elem != NULL) {
		IceValidCandidatePair *valid_pair = (IceValidCandidatePair *)elem->data;
		ice_send_indication(valid_pair->valid, cr->rtp_session);
	}
}

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static void ice_send_keepalive_packets(IceCheckList *cl, const RtpSession *rtp_session)
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{
	CheckList_RtpSession cr;
	cr.cl = cl;
	cr.rtp_session = rtp_session;
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	ms_list_for_each2(cl->local_componentIDs, (void (*)(void*,void*))ice_send_keepalive_packet_for_componentID, &cr);
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}

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static int ice_find_candidate_from_transport_address(const IceCandidate *candidate, const IceTransportAddress *taddr)
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{
	return ice_compare_transport_addresses(&candidate->taddr, taddr);
}

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/* Check that the mandatory attributes of a connectivity check binding request are present. */
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static int ice_check_received_binding_request_attributes(const RtpSession *rtp_session, const OrtpEventData *evt_data, const StunMessage *msg, const StunAddress4 *remote_addr)
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{
	if (!msg->hasMessageIntegrity) {
		ms_warning("ice: Received binding request missing MESSAGE-INTEGRITY attribute");
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		ice_send_error_response(rtp_session, evt_data, msg, 4, 0, remote_addr, "Missing MESSAGE-INTEGRITY attribute");
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		return -1;
	}
	if (!msg->hasUsername) {
		ms_warning("ice: Received binding request missing USERNAME attribute");
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		ice_send_error_response(rtp_session, evt_data, msg, 4, 0, remote_addr, "Missing USERNAME attribute");
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		return -1;
	}
	if (!msg->hasFingerprint) {
		ms_warning("ice: Received binding request missing FINGERPRINT attribute");
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		ice_send_error_response(rtp_session, evt_data, msg, 4, 0, remote_addr, "Missing FINGERPRINT attribute");
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		return -1;
	}
	if (!msg->hasPriority) {
		ms_warning("ice: Received binding request missing PRIORITY attribute");
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		ice_send_error_response(rtp_session, evt_data, msg, 4, 0, remote_addr, "Missing PRIORITY attribute");
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		return -1;
	}
	if (!msg->hasIceControlling && !msg->hasIceControlled) {
		ms_warning("ice: Received binding request missing ICE-CONTROLLING or ICE-CONTROLLED attribute");
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		ice_send_error_response(rtp_session, evt_data ,msg, 4, 0, remote_addr, "Missing ICE-CONTROLLING or ICE-CONTROLLED attribute");
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		return -1;
	}
	return 0;
}

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static int ice_check_received_binding_request_integrity(const IceCheckList *cl, const RtpSession *rtp_session, const OrtpEventData *evt_data, const StunMessage *msg, const StunAddress4 *remote_addr)
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{
	char hmac[20];
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	mblk_t *mp = evt_data->packet;
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	/* Check the message integrity: first remove length of fingerprint... */
	char *lenpos = (char *)mp->b_rptr + sizeof(uint16_t);
	uint16_t newlen = htons(msg->msgHdr.msgLength - 8);
	memcpy(lenpos, &newlen, sizeof(uint16_t));
	stunCalculateIntegrity_shortterm(hmac, (char *)mp->b_rptr, mp->b_wptr - mp->b_rptr - 24 - 8, ice_check_list_local_pwd(cl));
	/* ... and then restore the length with fingerprint. */
	newlen = htons(msg->msgHdr.msgLength);
	memcpy(lenpos, &newlen, sizeof(uint16_t));
	if (memcmp(msg->messageIntegrity.hash, hmac, sizeof(hmac)) != 0) {
		ms_error("ice: Wrong MESSAGE-INTEGRITY in received binding request");
1049
		ice_send_error_response(rtp_session, evt_data, msg, 4, 1, remote_addr, "Wrong MESSAGE-INTEGRITY attribute");
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		return -1;
	}
	return 0;
}

1055
static int ice_check_received_binding_request_username(const IceCheckList *cl, const RtpSession *rtp_session, const OrtpEventData *evt_data, const StunMessage *msg, const StunAddress4 *remote_addr)
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{
	char username[256];
	char *colon;

	/* Check if the username is valid. */
	memset(username, '\0', sizeof(username));
	memcpy(username, msg->username.value, msg->username.sizeValue);
	colon = strchr(username, ':');
	if ((colon == NULL) || (strncmp(username, ice_check_list_local_ufrag(cl), colon - username) != 0)) {
		ms_error("ice: Wrong USERNAME attribute");
1066
		ice_send_error_response(rtp_session, evt_data, msg, 4, 1, remote_addr, "Wrong USERNAME attribute");
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		return -1;
	}
	return 0;
}