/*
 * Copyright (C) 2003-2008 Sippy Software, Inc., http://www.sippysoft.com
 * Copyright (C) 2014-2015 Sipwise GmbH, http://www.sipwise.com
 *
 * This file is part of Kamailio, a free SIP server.
 *
 * Kamailio 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
 *
 * Kamailio 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., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301  USA
 */

#include <sys/types.h>
#include <sys/socket.h>
#include <sys/time.h>
#include <netinet/in.h>
#include <netinet/in_systm.h>
#ifndef __USE_BSD
#define  __USE_BSD
#endif
#include <netinet/ip.h>
#ifndef __FAVOR_BSD
#define __FAVOR_BSD
#endif
#include <netinet/udp.h>
#include <arpa/inet.h>
#include <sys/uio.h>
#include <sys/un.h>
#include <ctype.h>
#include <errno.h>
#include <netdb.h>
#include <poll.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include <ifaddrs.h>
#include <netinet/in.h>
#include <arpa/inet.h>

#include "../../core/flags.h"
#include "../../core/sr_module.h"
#include "../../core/dprint.h"
#include "../../core/data_lump.h"
#include "../../core/data_lump_rpl.h"
#include "../../core/error.h"
#include "../../core/forward.h"
#include "../../core/mem/mem.h"
#include "../../core/parser/parse_from.h"
#include "../../core/parser/parse_to.h"
#include "../../core/parser/parse_uri.h"
#include "../../core/parser/parser_f.h"
#include "../../core/parser/sdp/sdp.h"
#include "../../core/resolve.h"
#include "../../core/timer.h"
#include "../../core/trim.h"
#include "../../core/ut.h"
#include "../../core/pt.h"
#include "../../core/timer_proc.h"
#include "../../core/pvar.h"
#include "../../core/lvalue.h"
#include "../../core/msg_translator.h"
#include "../../core/usr_avp.h"
#include "../../core/socket_info.h"
#include "../../core/mod_fix.h"
#include "../../core/dset.h"
#include "../../core/route.h"
#include "../../core/rpc.h"
#include "../../core/rpc_lookup.h"
#include "../../core/kemi.h"
#include "../../modules/tm/tm_load.h"
#include "rtpengine.h"
#include "rtpengine_funcs.h"
#include "rtpengine_hash.h"
#include "bencode.h"
#include "config.h"

MODULE_VERSION

#if !defined(AF_LOCAL)
#define	AF_LOCAL AF_UNIX
#endif
#if !defined(PF_LOCAL)
#define	PF_LOCAL PF_UNIX
#endif

/* NAT UAC test constants */
#define	NAT_UAC_TEST_C_1918			0x01
#define	NAT_UAC_TEST_RCVD			0x02
#define	NAT_UAC_TEST_V_1918			0x04
#define	NAT_UAC_TEST_S_1918			0x08
#define	NAT_UAC_TEST_RPORT			0x10

#define COOKIE_SIZE					128
#define HOSTNAME_SIZE				100

#define DEFAULT_RTPP_SET_ID			0

enum {
	RPC_FOUND_ALL = 2,
	RPC_FOUND_ONE = 1,
	RPC_FOUND_NONE = 0,
};

#define	CPORT					"22222"

struct ng_flags_parse {
	int via, to, packetize, transport;
	bencode_item_t *dict, *flags, *direction, *replace, *rtcp_mux;
	str call_id, from_tag, to_tag;
};

static const char *command_strings[] = {
	[OP_OFFER]		= "offer",
	[OP_ANSWER]		= "answer",
	[OP_DELETE]		= "delete",
	[OP_START_RECORDING]	= "start recording",
	[OP_QUERY]		= "query",
	[OP_PING]		= "ping",
};

struct minmax_mos_stats {
	str mos_param;
	str at_param;
	str packetloss_param;
	str jitter_param;
	str roundtrip_param;
	str samples_param;

	pv_elem_t *mos_pv;
	pv_elem_t *at_pv;
	pv_elem_t *packetloss_pv;
	pv_elem_t *jitter_pv;
	pv_elem_t *roundtrip_pv;
	pv_elem_t *samples_pv;
};
struct minmax_mos_label_stats {
	int got_any_pvs;

	str label_param;
	pv_elem_t *label_pv;

	struct minmax_mos_stats min,
				max,
				average;
};
struct minmax_stats_vals {
	long long mos;
	long long at;
	long long packetloss;
	long long jitter;
	long long roundtrip;
	long long samples;
	long long avg_samples; /* our own running count to average the averages */
};

static char *gencookie();
static int rtpp_test(struct rtpp_node*, int, int);
static int start_recording_f(struct sip_msg *, char *, char *);
static int rtpengine_answer1_f(struct sip_msg *, char *, char *);
static int rtpengine_offer1_f(struct sip_msg *, char *, char *);
static int rtpengine_delete1_f(struct sip_msg *, char *, char *);
static int rtpengine_manage1_f(struct sip_msg *, char *, char *);
static int rtpengine_query1_f(struct sip_msg *, char *, char *);

static int parse_flags(struct ng_flags_parse *, struct sip_msg *, enum rtpe_operation *, const char *);

static int rtpengine_offer_answer(struct sip_msg *msg, const char *flags, int op, int more);
static int fixup_set_id(void ** param, int param_no);
static int set_rtpengine_set_f(struct sip_msg * msg, char * str1, char * str2);
static struct rtpp_set * select_rtpp_set(unsigned int id_set);
static struct rtpp_node *select_rtpp_node_new(str, str, int, struct rtpp_node **, int);
static struct rtpp_node *select_rtpp_node_old(str, str, int, enum rtpe_operation);
static struct rtpp_node *select_rtpp_node(str, str, int, struct rtpp_node **, int, enum rtpe_operation);
static int is_queried_node(struct rtpp_node *, struct rtpp_node **, int);
static int build_rtpp_socks();
static char *send_rtpp_command(struct rtpp_node *, bencode_item_t *, int *);
static int get_extra_id(struct sip_msg* msg, str *id_str);

static int rtpengine_set_store(modparam_t type, void * val);
static int rtpengine_add_rtpengine_set(char * rtp_proxies, unsigned int weight, int disabled, unsigned int ticks);

static int mod_init(void);
static int child_init(int);
static void mod_destroy(void);

static int get_ip_type(char *str_addr);
static int get_ip_scope(char *str_addr); // useful for link-local ipv6
static int bind_force_send_ip(int sock_idx);

static int add_rtpp_node_info(void *ptrs, struct rtpp_node *crt_rtpp, struct rtpp_set *rtpp_list);
static int rtpp_test_ping(struct rtpp_node *node);

/* Pseudo-Variables */
static int pv_get_rtpstat_f(struct sip_msg *, pv_param_t *, pv_value_t *);
static int set_rtp_inst_pvar(struct sip_msg *msg, const str * const uri);
static int pv_parse_var(str *inp, pv_elem_t **outp, int *got_any);
static int mos_label_stats_parse(struct minmax_mos_label_stats *mmls);
static void parse_call_stats(bencode_item_t *, struct sip_msg *);

static int rtpengine_allow_op = 0;
static struct rtpp_node **queried_nodes_ptr = NULL;
static pid_t mypid;
static unsigned int myseqn = 0;
static str extra_id_pv_param = {NULL, 0};
static char *setid_avp_param = NULL;
static int hash_table_tout = 3600;
static int hash_table_size = 256;
static unsigned int setid_default = DEFAULT_RTPP_SET_ID;

static char ** rtpp_strings=0;
static int rtpp_sets=0; /*used in rtpengine_set_store()*/
static int rtpp_set_count = 0;
static unsigned int current_msg_id = (unsigned int)-1;
/* RTP proxy balancing list */
static struct rtpp_set_head * rtpp_set_list =0;
static struct rtpp_set * active_rtpp_set =0;
static struct rtpp_set * selected_rtpp_set_1 =0;
static struct rtpp_set * selected_rtpp_set_2 =0;
static struct rtpp_set * default_rtpp_set=0;

static str body_intermediate;

static str rtp_inst_pv_param = {NULL, 0};
static pv_spec_t *rtp_inst_pvar = NULL;

/* array with the sockets used by rtpporxy (per process)*/
static unsigned int *rtpp_no = 0;
static gen_lock_t *rtpp_no_lock = 0;
static int *rtpp_socks = 0;
static unsigned int rtpp_socks_size = 0;

static int setid_avp_type;
static int_str setid_avp;

static str write_sdp_pvar_str = {NULL, 0};
static pv_spec_t *write_sdp_pvar = NULL;

static str read_sdp_pvar_str = {NULL, 0};
static pv_spec_t *read_sdp_pvar = NULL;

#define RTPENGINE_SESS_LIMIT_MSG "Parallel session limit reached"
#define RTPENGINE_SESS_LIMIT_MSG_LEN (sizeof(RTPENGINE_SESS_LIMIT_MSG)-1)

char* force_send_ip_str="";
int force_send_ip_af = AF_UNSPEC;

typedef struct rtpp_set_link {
	struct rtpp_set *rset;
	pv_spec_t *rpv;
} rtpp_set_link_t;

/* tm */
static struct tm_binds tmb;

static pv_elem_t *extra_id_pv = NULL;


static struct minmax_mos_label_stats global_mos_stats,
				     side_A_mos_stats,
				     side_B_mos_stats;
int got_any_mos_pvs;



static cmd_export_t cmds[] = {
	{"set_rtpengine_set",	(cmd_function)set_rtpengine_set_f,	1,
		fixup_set_id, 0,
		ANY_ROUTE},
	{"set_rtpengine_set",	(cmd_function)set_rtpengine_set_f,	2,
		fixup_set_id, 0,
		ANY_ROUTE},
	{"start_recording",	(cmd_function)start_recording_f,	0,
		0, 0,
		ANY_ROUTE },
	{"rtpengine_offer",	(cmd_function)rtpengine_offer1_f,	0,
		0, 0,
		ANY_ROUTE},
	{"rtpengine_offer",	(cmd_function)rtpengine_offer1_f,	1,
		fixup_spve_null, 0,
		ANY_ROUTE},
	{"rtpengine_answer",	(cmd_function)rtpengine_answer1_f,	0,
		0, 0,
		ANY_ROUTE},
	{"rtpengine_answer",	(cmd_function)rtpengine_answer1_f,	1,
		fixup_spve_null, 0,
		ANY_ROUTE},
	{"rtpengine_manage",	(cmd_function)rtpengine_manage1_f,	0,
		0, 0,
		ANY_ROUTE},
	{"rtpengine_manage",	(cmd_function)rtpengine_manage1_f,	1,
		fixup_spve_null, 0,
		ANY_ROUTE},
	{"rtpengine_delete",	(cmd_function)rtpengine_delete1_f,	0,
		0, 0,
		ANY_ROUTE},
	{"rtpengine_delete",	(cmd_function)rtpengine_delete1_f,	1,
		fixup_spve_null, 0,
		ANY_ROUTE},
	{"rtpengine_query",	(cmd_function)rtpengine_query1_f,	0,
		0, 0,
		ANY_ROUTE},
	{"rtpengine_query",	(cmd_function)rtpengine_query1_f,	1,
		fixup_spve_null, 0,
		ANY_ROUTE},
	{0, 0, 0, 0, 0, 0}
};

static pv_export_t mod_pvs[] = {
	{{"rtpstat", (sizeof("rtpstat")-1)}, /* RTP-Statistics */
	PVT_OTHER, pv_get_rtpstat_f, 0, 0, 0, 0, 0},
	{{0, 0}, 0, 0, 0, 0, 0, 0, 0}
};

static param_export_t params[] = {
	{"rtpengine_sock",        PARAM_STRING|USE_FUNC_PARAM,
	                         (void*)rtpengine_set_store          },
	{"rtpengine_disable_tout",INT_PARAM, &default_rtpengine_cfg.rtpengine_disable_tout },
	{"rtpengine_retr",        INT_PARAM, &default_rtpengine_cfg.rtpengine_retr         },
	{"queried_nodes_limit",   INT_PARAM, &default_rtpengine_cfg.queried_nodes_limit    },
	{"rtpengine_tout_ms",     INT_PARAM, &default_rtpengine_cfg.rtpengine_tout_ms      },
	{"rtpengine_allow_op",    INT_PARAM, &rtpengine_allow_op     },
	{"db_url",                PARAM_STR, &rtpp_db_url            },
	{"table_name",            PARAM_STR, &rtpp_table_name        },
	{"setid_col",             PARAM_STR, &rtpp_setid_col         },
	{"url_col",               PARAM_STR, &rtpp_url_col           },
	{"weight_col",            PARAM_STR, &rtpp_weight_col        },
	{"disabled_col",          PARAM_STR, &rtpp_disabled_col      },
	{"extra_id_pv",           PARAM_STR, &extra_id_pv_param      },
	{"setid_avp",             PARAM_STRING, &setid_avp_param     },
	{"force_send_interface",  PARAM_STRING, &force_send_ip_str   },
	{"rtp_inst_pvar",         PARAM_STR, &rtp_inst_pv_param      },
	{"write_sdp_pv",          PARAM_STR, &write_sdp_pvar_str     },
	{"read_sdp_pv",           PARAM_STR, &read_sdp_pvar_str      },
	{"hash_table_tout",       INT_PARAM, &hash_table_tout        },
	{"hash_table_size",       INT_PARAM, &hash_table_size        },
	{"setid_default",         INT_PARAM, &setid_default          },

	/* MOS stats output */
	/* global averages */
	{"mos_min_pv",                PARAM_STR, &global_mos_stats.min.mos_param             },
	{"mos_min_at_pv",             PARAM_STR, &global_mos_stats.min.at_param              },
	{"mos_min_packetloss_pv",     PARAM_STR, &global_mos_stats.min.packetloss_param      },
	{"mos_min_jitter_pv",         PARAM_STR, &global_mos_stats.min.jitter_param          },
	{"mos_min_roundtrip_pv",      PARAM_STR, &global_mos_stats.min.roundtrip_param       },
	{"mos_max_pv",                PARAM_STR, &global_mos_stats.max.mos_param             },
	{"mos_max_at_pv",             PARAM_STR, &global_mos_stats.max.at_param              },
	{"mos_max_packetloss_pv",     PARAM_STR, &global_mos_stats.max.packetloss_param      },
	{"mos_max_jitter_pv",         PARAM_STR, &global_mos_stats.max.jitter_param          },
	{"mos_max_roundtrip_pv",      PARAM_STR, &global_mos_stats.max.roundtrip_param       },
	{"mos_average_pv",            PARAM_STR, &global_mos_stats.average.mos_param         },
	{"mos_average_packetloss_pv", PARAM_STR, &global_mos_stats.average.packetloss_param  },
	{"mos_average_jitter_pv",     PARAM_STR, &global_mos_stats.average.jitter_param      },
	{"mos_average_roundtrip_pv",  PARAM_STR, &global_mos_stats.average.roundtrip_param   },
	{"mos_average_samples_pv",    PARAM_STR, &global_mos_stats.average.samples_param     },

	/* designated side A */
	{"mos_A_label_pv",              PARAM_STR, &side_A_mos_stats.label_param               },
	{"mos_min_A_pv",                PARAM_STR, &side_A_mos_stats.min.mos_param             },
	{"mos_min_at_A_pv",             PARAM_STR, &side_A_mos_stats.min.at_param              },
	{"mos_min_packetloss_A_pv",     PARAM_STR, &side_A_mos_stats.min.packetloss_param      },
	{"mos_min_jitter_A_pv",         PARAM_STR, &side_A_mos_stats.min.jitter_param          },
	{"mos_min_roundtrip_A_pv",      PARAM_STR, &side_A_mos_stats.min.roundtrip_param       },
	{"mos_max_A_pv",                PARAM_STR, &side_A_mos_stats.max.mos_param             },
	{"mos_max_at_A_pv",             PARAM_STR, &side_A_mos_stats.max.at_param              },
	{"mos_max_packetloss_A_pv",     PARAM_STR, &side_A_mos_stats.max.packetloss_param      },
	{"mos_max_jitter_A_pv",         PARAM_STR, &side_A_mos_stats.max.jitter_param          },
	{"mos_max_roundtrip_A_pv",      PARAM_STR, &side_A_mos_stats.max.roundtrip_param       },
	{"mos_average_A_pv",            PARAM_STR, &side_A_mos_stats.average.mos_param         },
	{"mos_average_packetloss_A_pv", PARAM_STR, &side_A_mos_stats.average.packetloss_param  },
	{"mos_average_jitter_A_pv",     PARAM_STR, &side_A_mos_stats.average.jitter_param      },
	{"mos_average_roundtrip_A_pv",  PARAM_STR, &side_A_mos_stats.average.roundtrip_param   },
	{"mos_average_samples_A_pv",    PARAM_STR, &side_A_mos_stats.average.samples_param     },

	/* designated side B */
	{"mos_B_label_pv",              PARAM_STR, &side_B_mos_stats.label_param               },
	{"mos_min_B_pv",                PARAM_STR, &side_B_mos_stats.min.mos_param             },
	{"mos_min_at_B_pv",             PARAM_STR, &side_B_mos_stats.min.at_param              },
	{"mos_min_packetloss_B_pv",     PARAM_STR, &side_B_mos_stats.min.packetloss_param      },
	{"mos_min_jitter_B_pv",         PARAM_STR, &side_B_mos_stats.min.jitter_param          },
	{"mos_min_roundtrip_B_pv",      PARAM_STR, &side_B_mos_stats.min.roundtrip_param       },
	{"mos_max_B_pv",                PARAM_STR, &side_B_mos_stats.max.mos_param             },
	{"mos_max_at_B_pv",             PARAM_STR, &side_B_mos_stats.max.at_param              },
	{"mos_max_packetloss_B_pv",     PARAM_STR, &side_B_mos_stats.max.packetloss_param      },
	{"mos_max_jitter_B_pv",         PARAM_STR, &side_B_mos_stats.max.jitter_param          },
	{"mos_max_roundtrip_B_pv",      PARAM_STR, &side_B_mos_stats.max.roundtrip_param       },
	{"mos_average_B_pv",            PARAM_STR, &side_B_mos_stats.average.mos_param         },
	{"mos_average_packetloss_B_pv", PARAM_STR, &side_B_mos_stats.average.packetloss_param  },
	{"mos_average_jitter_B_pv",     PARAM_STR, &side_B_mos_stats.average.jitter_param      },
	{"mos_average_roundtrip_B_pv",  PARAM_STR, &side_B_mos_stats.average.roundtrip_param   },
	{"mos_average_samples_B_pv",    PARAM_STR, &side_B_mos_stats.average.samples_param     },

	{0, 0, 0}
};

struct module_exports exports = {
	"rtpengine",
	DEFAULT_DLFLAGS, /* dlopen flags */
	cmds,
	params,
	0,           /* exported statistics */
	0,           /* exported MI functions */
	mod_pvs,     /* exported pseudo-variables */
	0,           /* extra processes */
	mod_init,
	0,           /* reply processing */
	mod_destroy, /* destroy function */
	child_init
};

/* check if the node is already queried */
static int is_queried_node(struct rtpp_node *node, struct rtpp_node **queried_nodes_ptr, int queried_nodes)
{
	int i;

	if (!queried_nodes_ptr) {
		return 0;
	}

	for (i = 0; i < queried_nodes; i++) {
		if (node == queried_nodes_ptr[i]) {
			return 1;
		}
	}

	return 0;
}

/* hide the node from display and disable it permanent */
int rtpengine_delete_node(struct rtpp_node *rtpp_node)
{
	rtpp_node->rn_displayed = 0;
	rtpp_node->rn_disabled = RTPENGINE_MAX_RECHECK_TICKS;

	return 1;
}


int rtpengine_delete_node_set(struct rtpp_set *rtpp_list)
{
	struct rtpp_node *rtpp_node;

	lock_get(rtpp_list->rset_lock);
	for(rtpp_node = rtpp_list->rn_first; rtpp_node != NULL;
			rtpp_node = rtpp_node->rn_next) {
		rtpengine_delete_node(rtpp_node);
	}
	lock_release(rtpp_list->rset_lock);

	return 1;
}


int rtpengine_delete_node_all()
{
	struct rtpp_set *rtpp_list;

	if (!rtpp_set_list) {
		return 1;
	}

	lock_get(rtpp_set_list->rset_head_lock);
	for(rtpp_list = rtpp_set_list->rset_first; rtpp_list != NULL;
			rtpp_list = rtpp_list->rset_next) {
		rtpengine_delete_node_set(rtpp_list);
	}
	lock_release(rtpp_set_list->rset_head_lock);

	return 1;
}


static int get_ip_type(char *str_addr)
{
	struct addrinfo hint, *info = NULL;
	int ret;

	memset(&hint, '\0', sizeof hint);
	hint.ai_family = PF_UNSPEC;
	hint.ai_flags = AI_NUMERICHOST;

	ret = getaddrinfo(str_addr, NULL, &hint, &info);
	if (ret) {
		/* Invalid ip addinfos */
		return -1;
	}

	if(info->ai_family == AF_INET) {
		LM_DBG("%s is an ipv4 addinfos\n", str_addr);
	} else if (info->ai_family == AF_INET6) {
		LM_DBG("%s is an ipv6 addinfos\n", str_addr);
	} else {
		LM_DBG("%s is an unknown addinfos format AF=%d\n",str_addr, info->ai_family);
		freeaddrinfo(info);
		return -1;
	}

	ret = info->ai_family;

	freeaddrinfo(info);

	return ret;
}


static int get_ip_scope(char *str_addr)
{
	struct ifaddrs *ifaddr, *ifa;
	struct sockaddr_in6 *in6;
	char str_if_ip[NI_MAXHOST];
	int ret = -1;

	if (getifaddrs(&ifaddr) == -1) {
		LM_ERR("getifaddrs() failed: %s\n", gai_strerror(ret));
		return -1;
	}

	for (ifa = ifaddr; ifa != NULL; ifa = ifa->ifa_next) {
		in6 = (struct sockaddr_in6 *)ifa->ifa_addr;

		if (ifa->ifa_addr == NULL)
			continue;

		if (ifa->ifa_addr->sa_family != AF_INET6)
			continue;

		ret = getnameinfo(ifa->ifa_addr, sizeof(struct sockaddr_in6),
		str_if_ip, NI_MAXHOST, NULL, 0, NI_NUMERICHOST);
		if (ret != 0) {
			LM_ERR("getnameinfo() failed: %s\n", gai_strerror(ret));
			return -1;
		}

		if (strstr(str_if_ip, str_addr)) {
			LM_INFO("dev: %-8s address: <%s> scope %d\n",
			ifa->ifa_name, str_if_ip, in6->sin6_scope_id);
			ret = in6->sin6_scope_id;
			break;
		}
	}

	freeifaddrs(ifaddr);

	return ret;
}


static int bind_force_send_ip(int sock_idx)
{
	struct sockaddr_in tmp, ip4addr;
	struct sockaddr_in6 tmp6, ip6addr;
	char str_addr[INET_ADDRSTRLEN];
	char str_addr6[INET6_ADDRSTRLEN];
	socklen_t sock_len = sizeof(struct sockaddr);
	int ret, scope;

	switch (force_send_ip_af) {
		case AF_INET:
			memset(&ip4addr, 0, sizeof(ip4addr));
			ip4addr.sin_family = AF_INET;
			ip4addr.sin_port = htons(0);
			if (inet_pton(AF_INET, force_send_ip_str, &ip4addr.sin_addr) != 1) {
				LM_ERR("failed to parse IPv4 address %s\n", force_send_ip_str);
				return -1;
			}

			if (bind(rtpp_socks[sock_idx], (struct sockaddr*)&ip4addr, sizeof(ip4addr)) < 0) {
				LM_ERR("can't bind socket to required ipv4 interface\n");
				return -1;
			}

			memset(&tmp, 0, sizeof(tmp));
			if (getsockname(rtpp_socks[sock_idx], (struct sockaddr *) &tmp, &sock_len))
				LM_ERR("could not determine local socket name\n");
			else {
				inet_ntop(AF_INET, &tmp.sin_addr, str_addr, INET_ADDRSTRLEN);
				LM_DBG("Binding on %s:%d\n", str_addr, ntohs(tmp.sin_port));
			}

			break;

		case AF_INET6:
			if ((scope = get_ip_scope(force_send_ip_str)) < 0) {
				LM_ERR("can't get the ipv6 interface scope\n");
				return -1;
			}
			memset(&ip6addr, 0, sizeof(ip6addr));
			ip6addr.sin6_family = AF_INET6;
			ip6addr.sin6_port = htons(0);
			ip6addr.sin6_scope_id = scope;
			if (inet_pton(AF_INET6, force_send_ip_str, &ip6addr.sin6_addr) != 1) {
				LM_ERR("failed to parse IPv6 address %s\n", force_send_ip_str);
				return -1;
			}

			if ((ret = bind(rtpp_socks[sock_idx], (struct sockaddr*)&ip6addr, sizeof(ip6addr))) < 0) {
				LM_ERR("can't bind socket to required ipv6 interface\n");
				LM_ERR("ret=%d errno=%d\n", ret, errno);
				return -1;
			}

			memset(&tmp6, 0, sizeof(tmp6));
			if (getsockname(rtpp_socks[sock_idx], (struct sockaddr *) &tmp6, &sock_len))
				LM_ERR("could not determine local socket name\n");
			else {
				inet_ntop(AF_INET6, &tmp6.sin6_addr, str_addr6, INET6_ADDRSTRLEN);
				LM_DBG("Binding on ipv6 %s:%d\n", str_addr6, ntohs(tmp6.sin6_port));
			}

			break;

		default:
			LM_DBG("force_send_ip_str not specified in .cfg file!\n");
			break;
	}

	return 0;
}

static inline int str_cmp(const str *a , const str *b) {
	return ! (a->len == b->len && ! strncmp(a->s, b->s, a->len));
}

static inline int str_eq(const str *p, const char *q) {
	int l = strlen(q);
	if (p->len != l)
		return 0;
	if (memcmp(p->s, q, l))
		return 0;
	return 1;
}

static inline str str_prefix(const str *p, const char *q) {
	str ret = STR_NULL;
	int l = strlen(q);
	if (p->len < l)
		return ret;
	if (memcmp(p->s, q, l))
		return ret;
	ret = *p;
	ret.s += l;
	ret.len -= l;
	return ret;
}


static int rtpengine_set_store(modparam_t type, void * val){

	char * p;
	int len;

	p = (char* )val;

	if(p==0 || *p=='\0'){
		return 0;
	}

	if(rtpp_sets==0){
		rtpp_strings = (char**)pkg_malloc(sizeof(char*));
		if(!rtpp_strings){
			LM_ERR("no pkg memory left\n");
			return -1;
		}
	} else {/*realloc to make room for the current set*/
		rtpp_strings = (char**)pkg_realloc(rtpp_strings, (rtpp_sets+1)* sizeof(char*));
		if(!rtpp_strings){
			LM_ERR("no pkg memory left\n");
			return -1;
		}
	}

	/*allocate for the current set of urls*/
	len = strlen(p);
	rtpp_strings[rtpp_sets] = (char*)pkg_malloc((len+1)*sizeof(char));

	if(!rtpp_strings[rtpp_sets]){
		LM_ERR("no pkg memory left\n");
		return -1;
	}

	memcpy(rtpp_strings[rtpp_sets], p, len);
	rtpp_strings[rtpp_sets][len] = '\0';
	rtpp_sets++;

	return 0;
}

struct rtpp_node *get_rtpp_node(struct rtpp_set *rtpp_list, str *url)
{
	struct rtpp_node *rtpp_node;

	if (rtpp_list == NULL) {
		return NULL;
	}

	lock_get(rtpp_list->rset_lock);
	rtpp_node = rtpp_list->rn_first;
	while (rtpp_node) {
		if (str_cmp(&rtpp_node->rn_url, url) == 0) {
			lock_release(rtpp_list->rset_lock);
			return rtpp_node;
		}
		rtpp_node = rtpp_node->rn_next;
	}
	lock_release(rtpp_list->rset_lock);

	return NULL;
}

struct rtpp_set *get_rtpp_set(unsigned int set_id)
{
	struct rtpp_set * rtpp_list;
	unsigned int my_current_id = 0;
	int new_list;

#if DEFAULT_RTPP_SET_ID > 0
	if (set_id < DEFAULT_RTPP_SET_ID )
	{
		LM_ERR(" invalid rtpproxy set value [%u]\n", set_id);
		return NULL;
	}
#endif

	my_current_id = set_id;
	/*search for the current_id*/
	lock_get(rtpp_set_list->rset_head_lock);
	rtpp_list = rtpp_set_list ? rtpp_set_list->rset_first : 0;
	while (rtpp_list != 0 && rtpp_list->id_set!=my_current_id)
		rtpp_list = rtpp_list->rset_next;

	if (rtpp_list==NULL)
	{	/*if a new id_set : add a new set of rtpp*/
		rtpp_list = shm_malloc(sizeof(struct rtpp_set));
		if(!rtpp_list)
		{
			lock_release(rtpp_set_list->rset_head_lock);
			LM_ERR("no shm memory left to create new rtpproxy set %u\n", my_current_id);
			return NULL;
		}
		memset(rtpp_list, 0, sizeof(struct rtpp_set));
		rtpp_list->id_set = my_current_id;
		rtpp_list->rset_lock = lock_alloc();
		if (!rtpp_list->rset_lock) {
			lock_release(rtpp_set_list->rset_head_lock);
			LM_ERR("no shm memory left to create rtpproxy set lock\n");
			shm_free(rtpp_list);
			rtpp_list = NULL;
			return NULL;
		}
		if (lock_init(rtpp_list->rset_lock) == 0) {
			lock_release(rtpp_set_list->rset_head_lock);
			LM_ERR("could not init rtpproxy set lock\n");
			lock_dealloc((void*)rtpp_list->rset_lock);
			rtpp_list->rset_lock = NULL;
			shm_free(rtpp_list);
			rtpp_list = NULL;
			return NULL;
		}
		new_list = 1;
	}
	else {
		new_list = 0;
	}

	if (new_list)
	{
		/*update the list of set info*/
		if (!rtpp_set_list->rset_first)
		{
			rtpp_set_list->rset_first = rtpp_list;
		}
		else
		{
			rtpp_set_list->rset_last->rset_next = rtpp_list;
		}

		rtpp_set_list->rset_last = rtpp_list;
		rtpp_set_count++;

		if(my_current_id == DEFAULT_RTPP_SET_ID){
			default_rtpp_set = rtpp_list;
		}
	}
	lock_release(rtpp_set_list->rset_head_lock);

	return rtpp_list;
}


int add_rtpengine_socks(struct rtpp_set * rtpp_list, char * rtpproxy,
			unsigned int weight, int disabled, unsigned int ticks, int isDB)
{
	/* Make rtp proxies list. */
	char *p, *p1, *p2, *plim;
	struct rtpp_node *pnode;
	struct rtpp_node *rtpp_node;
	unsigned int local_weight, port;
	str s1;

	p = rtpproxy;
	plim = p + strlen(p);

	for(;;) {
		local_weight = weight;
		while (*p && isspace((int)*p))
			++p;
		if (p >= plim)
			break;
		p1 = p;
		while (*p && !isspace((int)*p))
			++p;
		if (p <= p1)
			break; /* may happen??? */
		p2 = p;

		/* if called for database, consider simple, single char *URL */
		/* if called for config, consider weight URL */
		if (!isDB) {
			/* Have weight specified? If yes, scan it */
			p2 = memchr(p1, '=', p - p1);
			if (p2 != NULL) {
				local_weight = strtoul(p2 + 1, NULL, 10);
			} else {
				p2 = p;
			}
		}

		pnode = shm_malloc(sizeof(struct rtpp_node));
		if (pnode == NULL) {
			LM_ERR("no shm memory left\n");
			return -1;
		}
		memset(pnode, 0, sizeof(*pnode));

		lock_get(rtpp_no_lock);
		pnode->idx = *rtpp_no;

		if (ticks == RTPENGINE_MAX_RECHECK_TICKS) {
			pnode->rn_recheck_ticks = ticks;
		} else {
			pnode->rn_recheck_ticks = ticks + get_ticks();
		}
		pnode->rn_weight = local_weight;
		pnode->rn_umode = 0;
		pnode->rn_disabled = disabled;
		pnode->rn_displayed = 1;
		pnode->rn_url.s = shm_malloc(p2 - p1 + 1);
		if (pnode->rn_url.s == NULL) {
			lock_release(rtpp_no_lock);
			shm_free(pnode);
			LM_ERR("no shm memory left\n");
			return -1;
		}
		memmove(pnode->rn_url.s, p1, p2 - p1);
		pnode->rn_url.s[p2 - p1] = 0;
		pnode->rn_url.len = p2-p1;

		/* Leave only address in rn_address */
		pnode->rn_address = pnode->rn_url.s;
		if (strncasecmp(pnode->rn_address, "udp:", 4) == 0) {
			pnode->rn_umode = 1;
			pnode->rn_address += 4;
		} else if (strncasecmp(pnode->rn_address, "udp6:", 5) == 0) {
			pnode->rn_umode = 6;
			pnode->rn_address += 5;
		} else if (strncasecmp(pnode->rn_address, "unix:", 5) == 0) {
			pnode->rn_umode = 0;
			pnode->rn_address += 5;
		} else {
			lock_release(rtpp_no_lock);
			LM_WARN("Node address must start with 'udp:' or 'udp6:' or 'unix:'. Ignore '%s'.\n", pnode->rn_address);
			shm_free(pnode->rn_url.s);
			shm_free(pnode);

			if (!isDB) {
				continue;
			} else {
				return 0;
			}
		}

		/* Check the rn_address is 'hostname:port' */
		/* Check the rn_address port is valid */
		p1 = strchr(pnode->rn_address, ':');
		if (p1 != NULL) {
			p1++;
		}

		if (p1 != NULL && p1 != '\0') {
			s1.s = p1;
			s1.len = strlen(p1);
			if (str2int(&s1, &port) < 0 || port > 0xFFFF) {
				lock_release(rtpp_no_lock);
				LM_WARN("Node address must end with a valid port number. Ignore '%s'.\n", pnode->rn_address);
				shm_free(pnode->rn_url.s);
				shm_free(pnode);

				if (!isDB) {
					continue;
				} else {
					return 0;
				}
			}
		}

		/* If node found in set, update it */
		rtpp_node = get_rtpp_node(rtpp_list, &pnode->rn_url);

		lock_get(rtpp_list->rset_lock);
		if (rtpp_node) {
			rtpp_node->rn_disabled = pnode->rn_disabled;
			rtpp_node->rn_displayed = pnode->rn_displayed;
			rtpp_node->rn_recheck_ticks = pnode->rn_recheck_ticks;
			rtpp_node->rn_weight = pnode->rn_weight;
			lock_release(rtpp_list->rset_lock);
			lock_release(rtpp_no_lock);

			shm_free(pnode->rn_url.s);
			shm_free(pnode);

			if (!isDB) {
				continue;
			} else {
				return 0;
			}
		}

		if (rtpp_list->rn_first == NULL) {
			rtpp_list->rn_first = pnode;
		} else {
			rtpp_list->rn_last->rn_next = pnode;
		}

		rtpp_list->rn_last = pnode;
		rtpp_list->rtpp_node_count++;
		lock_release(rtpp_list->rset_lock);

		*rtpp_no = *rtpp_no + 1;
		lock_release(rtpp_no_lock);

		if (!isDB) {
			continue;
		} else {
			return 0;
		}
	}
	return 0;
}


/* 0 - succes
 * -1 - erorr
 * */
static int rtpengine_add_rtpengine_set(char * rtp_proxies, unsigned int weight, int disabled, unsigned int ticks)
{
	char *p,*p2;
	struct rtpp_set * rtpp_list;
	unsigned int my_current_id;
	str id_set;

	/* empty definition? */
	p= rtp_proxies;
	if(!p || *p=='\0'){
		return 0;
	}

	for(;*p && isspace(*p);p++);
	if(*p=='\0'){
		return 0;
	}

	rtp_proxies = strstr(p, "==");
	if(rtp_proxies){
		if(*(rtp_proxies +2)=='\0'){
			LM_ERR("script error -invalid rtp proxy list!\n");
			return -1;
		}

		*rtp_proxies = '\0';
		p2 = rtp_proxies-1;
		for(;isspace(*p2); *p2 = '\0',p2--);
		id_set.s = p;	id_set.len = p2 - p+1;

		if(id_set.len <= 0 ||str2int(&id_set, &my_current_id)<0 ){
		LM_ERR("script error -invalid set_id value!\n");
			return -1;
		}

		rtp_proxies+=2;
	}else{
		rtp_proxies = p;
		my_current_id = DEFAULT_RTPP_SET_ID;
	}

	for(;*rtp_proxies && isspace(*rtp_proxies);rtp_proxies++);

	if(!(*rtp_proxies)){
		LM_ERR("script error -empty rtp_proxy list\n");
		return -1;;
	}

	/*search for the current_id*/
	rtpp_list = get_rtpp_set(my_current_id);

	if (rtpp_list != NULL)
	{

		if (add_rtpengine_socks(rtpp_list, rtp_proxies, weight, disabled, ticks, 0) != 0)
			goto error;
		else
			return 0;
	}

error:
	return -1;
}


static int fixup_set_id(void ** param, int param_no)
{
	int int_val;
	unsigned int set_id;
	struct rtpp_set* rtpp_list;
	rtpp_set_link_t *rtpl = NULL;
	str s;

	rtpl = (rtpp_set_link_t*)pkg_malloc(sizeof(rtpp_set_link_t));
	if(rtpl==NULL) {
		LM_ERR("no more pkg memory\n");
		return -1;
	}
	memset(rtpl, 0, sizeof(rtpp_set_link_t));
	s.s = (char*)*param;
	s.len = strlen(s.s);

	if(s.s[0] == PV_MARKER) {
		int_val = pv_locate_name(&s);
		if(int_val<0 || int_val!=s.len) {
			LM_ERR("invalid parameter %s\n", s.s);
			pkg_free(rtpl);
			return -1;
		}
		rtpl->rpv = pv_cache_get(&s);
		if(rtpl->rpv == NULL) {
			LM_ERR("invalid pv parameter %s\n", s.s);
			pkg_free(rtpl);
			return -1;
		}
	} else {
		int_val = str2int(&s, &set_id);
		if (int_val == 0) {
			pkg_free(*param);
			if((rtpp_list = select_rtpp_set(set_id)) ==0){
				LM_ERR("rtpp_proxy set %u not configured\n", set_id);
				pkg_free(rtpl);
				return E_CFG;
			}
			rtpl->rset = rtpp_list;
		} else {
			LM_ERR("bad number <%s>\n",	(char *)(*param));
			pkg_free(rtpl);
			return E_CFG;
		}
	}
	*param = (void*)rtpl;
	return 0;
}

static int rtpp_test_ping(struct rtpp_node *node)
{
	bencode_buffer_t bencbuf;
	bencode_item_t *dict;
	char *cp;
	int ret;

	if (bencode_buffer_init(&bencbuf)) {
		return -1;
	}
	dict = bencode_dictionary(&bencbuf);
	bencode_dictionary_add_string(dict, "command", command_strings[OP_PING]);

	if (bencbuf.error) {
		goto error;
	}

	cp = send_rtpp_command(node, dict, &ret);
	if (!cp) {
		goto error;
	}

	dict = bencode_decode_expect(&bencbuf, cp, ret, BENCODE_DICTIONARY);
	if (!dict || bencode_dictionary_get_strcmp(dict, "result", "pong")) {
		goto error;
	}

	bencode_buffer_free(&bencbuf);
	return 0;

error:
	bencode_buffer_free(&bencbuf);
	return -1;
}


static void rtpengine_rpc_reload(rpc_t* rpc, void* ctx)
{
	if (rtpp_db_url.s == NULL) {
		// no database
		rpc->fault(ctx, 500, "No Database URL");
		return;
	}

	if (init_rtpproxy_db() < 0) {
		// fail reloading from database
		rpc->fault(ctx, 500, "Failed reloading db");
		return;
	}

	if (build_rtpp_socks()) {
		rpc->fault(ctx, 500, "Out of memory");
		return;
	}
}

static int rtpengine_rpc_iterate(rpc_t* rpc, void* ctx, const str *rtpp_url,
		int (*cb)(struct rtpp_node *, struct rtpp_set *, void *), void *data)
{
	struct rtpp_set *rtpp_list;
	struct rtpp_node *crt_rtpp;
	int found = RPC_FOUND_NONE, err = 0;
	int ret;

	if (build_rtpp_socks()) {
		rpc->fault(ctx, 500, "Out of memory");
		return -1;
	}

	if (!rtpp_set_list) {
		rpc->fault(ctx, 404, "Instance not found (no sets loaded)");
		return -1;
	}

	/* found a matching all - show all rtpp */
	if (strncmp("all", rtpp_url->s, 3) == 0) {
		found = RPC_FOUND_ALL;
	}

	lock_get(rtpp_set_list->rset_head_lock);
	for (rtpp_list = rtpp_set_list->rset_first; rtpp_list != NULL;
			rtpp_list = rtpp_list->rset_next) {

		lock_get(rtpp_list->rset_lock);
		for (crt_rtpp = rtpp_list->rn_first; crt_rtpp != NULL;
				crt_rtpp = crt_rtpp->rn_next) {

			if (!crt_rtpp->rn_displayed) {
				continue;
			}

			/* found a matching rtpp - ping it */
			if (found == RPC_FOUND_ALL ||
			   (crt_rtpp->rn_url.len == rtpp_url->len &&
			   strncmp(crt_rtpp->rn_url.s, rtpp_url->s, rtpp_url->len) == 0)) {

				ret = cb(crt_rtpp, rtpp_list, data);
				if (ret) {
					err = 1;
					break;
				}

				if (found == RPC_FOUND_NONE) {
					found = RPC_FOUND_ONE;
				}
			}
		}
		lock_release(rtpp_list->rset_lock);

		if (err)
			break;
	}
	lock_release(rtpp_set_list->rset_head_lock);

	if (err)
		return -1;

	if (found == RPC_FOUND_NONE) {
		rpc->fault(ctx, 404, "Instance not found");
		return -1;
	}

	return found;
}

static int add_rtpp_node_info (void *ptrsp, struct rtpp_node *crt_rtpp, struct rtpp_set *rtpp_list)
{
	void *vh;
	void **ptrs = ptrsp;
	rpc_t *rpc;
	void *ctx;
	int rtpp_ticks;

	rpc = ptrs[0];
	ctx = ptrs[1];

	if (rpc->add(ctx, "{", &vh) < 0) {
		rpc->fault(ctx, 500, "Server error");
		return -1;
	}

	rpc->struct_add(vh, "Sddd",
			"url", &crt_rtpp->rn_url,
			"set", rtpp_list->id_set,
			"index", crt_rtpp->idx,
			"weight", crt_rtpp->rn_weight);

	if ((1 == crt_rtpp->rn_disabled ) && (crt_rtpp->rn_recheck_ticks == RTPENGINE_MAX_RECHECK_TICKS)) {
		rpc->struct_add(vh, "s", "disabled", "1(permanent)");
	} else {
		rpc->struct_add(vh, "d", "disabled", crt_rtpp->rn_disabled);
	}

	if (crt_rtpp->rn_recheck_ticks == RTPENGINE_MAX_RECHECK_TICKS) {
		rpc->struct_add(vh, "s", "recheck_ticks", "N/A");
	} else {
		rtpp_ticks = crt_rtpp->rn_recheck_ticks - get_ticks();
		rtpp_ticks = rtpp_ticks < 0 ? 0 : rtpp_ticks;
		rpc->struct_add(vh, "d", "recheck_ticks", rtpp_ticks);
	}

	return 0;
}

static int rtpengine_iter_cb_enable(struct rtpp_node *crt_rtpp, struct rtpp_set *rtpp_list, void *flagp)
{
	int *flag = flagp;

	/* do ping when try to enable the rtpp */
	if (*flag) {

		/* if ping success, enable the rtpp and reset ticks */
		if (rtpp_test_ping(crt_rtpp) == 0) {
			crt_rtpp->rn_disabled = 0;
			crt_rtpp->rn_recheck_ticks = RTPENGINE_MIN_RECHECK_TICKS;

		/* if ping fail, disable the rtpps but _not_ permanently*/
		} else {
			crt_rtpp->rn_recheck_ticks = get_ticks() + cfg_get(rtpengine,rtpengine_cfg,rtpengine_disable_tout);
			crt_rtpp->rn_disabled = 1;
			*flag = 2; /* return value to caller */
		}

	/* do not ping when disable the rtpp; disable it permanenty */
	} else {
		crt_rtpp->rn_disabled = 1;
		crt_rtpp->rn_recheck_ticks = RTPENGINE_MAX_RECHECK_TICKS;
	}

	return 0;
}

static void rtpengine_rpc_enable(rpc_t* rpc, void* ctx)
{
	void *vh;
	str rtpp_url;
	int flag, found;

	if (rpc->scan(ctx, "Sd", &rtpp_url, &flag) < 2) {
		rpc->fault(ctx, 500, "Not enough parameters");
		return;
	}

	flag = flag ? 1 : 0; /* also used as a return value */

	found = rtpengine_rpc_iterate(rpc, ctx, &rtpp_url, rtpengine_iter_cb_enable, &flag);
	if (found == -1)
		return;

	if (rpc->add(ctx, "{", &vh) < 0) {
		rpc->fault(ctx, 500, "Server error");
		return;
	}

	rpc->struct_add(vh, "S", "url", &rtpp_url);

	if (flag == 0)
		rpc->struct_add(vh, "s", "status", "disable");
	else if (flag == 1)
		rpc->struct_add(vh, "s", "status", "enable");
	else
		rpc->struct_add(vh, "s", "status", "fail");
}

static int rtpengine_iter_cb_show(struct rtpp_node *crt_rtpp, struct rtpp_set *rtpp_list, void *ptrsp)
{
	if (add_rtpp_node_info(ptrsp, crt_rtpp, rtpp_list) < 0)
		return -1;
	return 0;
}

static void rtpengine_rpc_show(rpc_t* rpc, void* ctx)
{
	str rtpp_url;
	void *ptrs[2] = {rpc, ctx};

	if (rpc->scan(ctx, "S", &rtpp_url) < 1) {
		rpc->fault(ctx, 500, "Not enough parameters");
		return;
	}

	rtpengine_rpc_iterate(rpc, ctx, &rtpp_url, rtpengine_iter_cb_show, ptrs);
}

static int rtpengine_iter_cb_ping(struct rtpp_node *crt_rtpp, struct rtpp_set *rtpp_list, void *data)
{
	int *found_rtpp_disabled = data;

	/* if ping fail */
	if (rtpp_test_ping(crt_rtpp) < 0) {
		crt_rtpp->rn_recheck_ticks = get_ticks() + cfg_get(rtpengine,rtpengine_cfg,rtpengine_disable_tout);
		*found_rtpp_disabled = 1;
		crt_rtpp->rn_disabled = 1;
	}

	return 0;
}

static void rtpengine_rpc_ping(rpc_t* rpc, void* ctx)
{
	void *vh;
	int found;
	int found_rtpp_disabled = 0;
	str rtpp_url;

	if (rpc->scan(ctx, "S", &rtpp_url) < 1) {
		rpc->fault(ctx, 500, "Not enough parameters");
		return;
	}

	found = rtpengine_rpc_iterate(rpc, ctx, &rtpp_url, rtpengine_iter_cb_ping, &found_rtpp_disabled);
	if (found == -1)
		return;

	if (rpc->add(ctx, "{", &vh) < 0) {
		rpc->fault(ctx, 500, "Server error");
		return;
	}

	rpc->struct_add(vh, "Ss",
			"url", &rtpp_url,
			"status", (found_rtpp_disabled ? "fail" : "success"));
}

static void rtpengine_rpc_get_hash_total(rpc_t* rpc, void* ctx)
{
	rpc->add(ctx, "u", rtpengine_hash_table_total());
}


static const char* rtpengine_rpc_reload_doc[2] = {
	"Reload rtpengine proxies from database", 0
};
static const char* rtpengine_rpc_ping_doc[2] = {
	"Ping an rtpengine instance", 0
};
static const char* rtpengine_rpc_show_doc[2] = {
	"Get details about an rtpengine instance", 0
};
static const char* rtpengine_rpc_enable_doc[2] = {
	"Enable or disable an rtpengine instance", 0
};
static const char* rtpengine_rpc_get_hash_total_doc[2] = {
	"Get total number of entries in hash table", 0
};

rpc_export_t rtpengine_rpc[] = {
	{"rtpengine.reload", rtpengine_rpc_reload, rtpengine_rpc_reload_doc, 0},
	{"rtpengine.ping", rtpengine_rpc_ping, rtpengine_rpc_ping_doc, 0},
	{"rtpengine.show", rtpengine_rpc_show, rtpengine_rpc_show_doc, RET_ARRAY},
	{"rtpengine.enable", rtpengine_rpc_enable, rtpengine_rpc_enable_doc, 0},
	{"rtpengine.get_hash_total", rtpengine_rpc_get_hash_total, rtpengine_rpc_get_hash_total_doc, 0},
	{0, 0, 0, 0}
};

static int rtpengine_rpc_init(void)
{
	if (rpc_register_array(rtpengine_rpc)!=0)
	{
		LM_ERR("failed to register RPC commands\n");
		return -1;
	}
	return 0;
}

static int
mod_init(void)
{
	int i;
	pv_spec_t *avp_spec;
	unsigned short avp_flags;
	str s;

	if(rtpengine_rpc_init()<0)
	{
		LM_ERR("failed to register RPC commands\n");
		return -1;
	}

	rtpp_no = (unsigned int*)shm_malloc(sizeof(unsigned int));
	if (!rtpp_no) {
		LM_ERR("no more shm memory for rtpp_no\n");
		return -1;
	}
	*rtpp_no = 0;

	rtpp_no_lock = lock_alloc();
	if (!rtpp_no_lock) {
		LM_ERR("no more shm memory for rtpp_no_lock\n");
		return -1;
	}

	if (lock_init(rtpp_no_lock) == 0) {
		LM_ERR("could not init rtpp_no_lock\n");
		return -1;
	}

	/* initialize the list of set; mod_destroy does shm_free() if fail */
	if (!rtpp_set_list) {
		rtpp_set_list = shm_malloc(sizeof(struct rtpp_set_head));
		if(!rtpp_set_list){
			LM_ERR("no shm memory left to create list of proxysets\n");
			return -1;
		}
		memset(rtpp_set_list, 0, sizeof(struct rtpp_set_head));

		rtpp_set_list->rset_head_lock = lock_alloc();
		if (!rtpp_set_list->rset_head_lock) {
			LM_ERR("no shm memory left to create list of proxysets lock\n");
			return -1;
		}

		if (lock_init(rtpp_set_list->rset_head_lock) == 0) {
			LM_ERR("could not init rtpproxy list of proxysets lock\n");
			return -1;
		}
	}

	if (rtpp_db_url.s == NULL)
	{
		/* storing the list of rtp proxy sets in shared memory*/
		for(i=0;i<rtpp_sets;i++){
			if(rtpengine_add_rtpengine_set(rtpp_strings[i], 1, 0, 0) !=0){
				for(;i<rtpp_sets;i++)
					if(rtpp_strings[i])
						pkg_free(rtpp_strings[i]);
				pkg_free(rtpp_strings);
				return -1;
			}
			if(rtpp_strings[i])
				pkg_free(rtpp_strings[i]);
		}
	}
	else
	{
		LM_INFO("Loading rtp proxy definitions from DB\n");
		if ( init_rtpproxy_db() < 0)
		{
			LM_ERR("error while loading rtp proxies from database\n");
			return -1;
		}
	}

	/* any rtpproxy configured? */
	if (rtpp_set_list)
		default_rtpp_set = select_rtpp_set(DEFAULT_RTPP_SET_ID);

	if (rtp_inst_pv_param.s) {
		rtp_inst_pv_param.len = strlen(rtp_inst_pv_param.s);
		rtp_inst_pvar = pv_cache_get(&rtp_inst_pv_param);
		if ((rtp_inst_pvar == NULL) ||
		   ((rtp_inst_pvar->type != PVT_AVP) &&
		   (rtp_inst_pvar->type != PVT_XAVP) &&
		   (rtp_inst_pvar->type != PVT_SCRIPTVAR))) {
			LM_ERR("Invalid pvar name <%.*s>\n", rtp_inst_pv_param.len, rtp_inst_pv_param.s);
			return -1;
		}
	}

	if (pv_parse_var(&extra_id_pv_param, &extra_id_pv, NULL))
		return -1;

	if (mos_label_stats_parse(&global_mos_stats))
		return -1;
	if (mos_label_stats_parse(&side_A_mos_stats))
		return -1;
	if (mos_label_stats_parse(&side_B_mos_stats))
		return -1;

	if (setid_avp_param) {
		s.s = setid_avp_param; s.len = strlen(s.s);
		avp_spec = pv_cache_get(&s);
		if (avp_spec==NULL || (avp_spec->type != PVT_AVP)) {
			LM_ERR("malformed or non AVP definition <%s>\n", setid_avp_param);
			return -1;
		}
		if (pv_get_avp_name(0, &(avp_spec->pvp), &setid_avp, &avp_flags) != 0) {
			LM_ERR("invalid AVP definition <%s>\n", setid_avp_param);
			return -1;
		}
		setid_avp_type = avp_flags;
	}

	if (write_sdp_pvar_str.len > 0) {
		write_sdp_pvar = pv_cache_get(&write_sdp_pvar_str);
		if (write_sdp_pvar == NULL
			|| (write_sdp_pvar->type != PVT_AVP &&  write_sdp_pvar->type != PVT_SCRIPTVAR) ) {
			LM_ERR("write_sdp_pv: not a valid AVP or VAR definition <%.*s>\n",
				write_sdp_pvar_str.len, write_sdp_pvar_str.s);
			return -1;
		}
	}

	if (read_sdp_pvar_str.len > 0) {
		read_sdp_pvar = pv_cache_get(&read_sdp_pvar_str);
		if (read_sdp_pvar == NULL
			|| (read_sdp_pvar->type != PVT_AVP &&  read_sdp_pvar->type != PVT_SCRIPTVAR) ) {
			LM_ERR("read_sdp_pv: not a valid AVP or VAR definition <%.*s>\n",
				read_sdp_pvar_str.len, read_sdp_pvar_str.s);
			return -1;
		}
	}

	if (rtpp_strings)
		pkg_free(rtpp_strings);

	if (load_tm_api( &tmb ) < 0)
	{
		LM_DBG("could not load the TM-functions - answer-offer model"
			" auto-detection is disabled\n");
		memset(&tmb, 0, sizeof(struct tm_binds));
	}

	/* Determine IP addr type (IPv4 or IPv6 allowed) */
	force_send_ip_af = get_ip_type(force_send_ip_str);
	if (force_send_ip_af != AF_INET && force_send_ip_af != AF_INET6 &&
	   strlen(force_send_ip_str) > 0) {
		LM_ERR("%s is an unknown address\n", force_send_ip_str);
		return -1;
	}

	/* init the hastable which keeps the call-id <-> selected_node relation */
	if (!rtpengine_hash_table_init(hash_table_size)) {
		LM_ERR("rtpengine_hash_table_init(%d) failed!\n", hash_table_size);
		return -1;
	} else {
		LM_DBG("rtpengine_hash_table_init(%d) success!\n", hash_table_size);
	}

	/* select the default set */
	default_rtpp_set = select_rtpp_set(setid_default);
	if (!default_rtpp_set) {
		LM_NOTICE("Default rtpp set %u NOT found\n", setid_default);
	} else {
		LM_DBG("Default rtpp set %u found\n", setid_default);
	}

    if(cfg_declare("rtpengine", rtpengine_cfg_def, &default_rtpengine_cfg, cfg_sizeof(rtpengine), &rtpengine_cfg)){
        LM_ERR("Failed to declare the configuration\n");
        return -1;
    }


	return 0;
}

static int build_rtpp_socks() {
	int n, i;
	char *cp;
	struct addrinfo hints, *res;
	struct rtpp_set  *rtpp_list;
	struct rtpp_node *pnode;
	unsigned int current_rtpp_no;
#ifdef IP_MTU_DISCOVER
	int ip_mtu_discover = IP_PMTUDISC_DONT;
#endif

	lock_get(rtpp_no_lock);
	current_rtpp_no = *rtpp_no;
	lock_release(rtpp_no_lock);

	if (current_rtpp_no == rtpp_socks_size)
		return 0;

	// close current sockets
	for (i = 0; i < rtpp_socks_size; i++) {
		if (rtpp_socks[i] >= 0) {
			close(rtpp_socks[i]);
			rtpp_socks[i] = -1;
		}
	}

	rtpp_socks_size = current_rtpp_no;
	rtpp_socks = (int*)pkg_realloc(rtpp_socks, sizeof(int)*(rtpp_socks_size));
	if (!rtpp_socks) {
		LM_ERR("no more pkg memory for rtpp_socks\n");
		return -1;
	}
	memset(rtpp_socks, -1, sizeof(int)*(rtpp_socks_size));

	lock_get(rtpp_set_list->rset_head_lock);
	for (rtpp_list = rtpp_set_list->rset_first; rtpp_list != 0;
		rtpp_list = rtpp_list->rset_next) {

		lock_get(rtpp_list->rset_lock);
		for (pnode=rtpp_list->rn_first; pnode!=0; pnode = pnode->rn_next) {
			char *hostname;

			if (pnode->rn_umode == 0) {
				rtpp_socks[pnode->idx] = -1;
				goto rptest;
			}

			/*
			 * This is UDP or UDP6. Detect host and port; lookup host;
			 * do connect() in order to specify peer address
			 */
			hostname = (char*)pkg_malloc(sizeof(char) * (strlen(pnode->rn_address) + 1));
			if (hostname==NULL) {
				LM_ERR("no more pkg memory\n");
				rtpp_socks[pnode->idx] = -1;
				continue;
			}
			strcpy(hostname, pnode->rn_address);

			cp = strrchr(hostname, ':');
			if (cp != NULL) {
				*cp = '\0';
				cp++;
			}
			if (cp == NULL || *cp == '\0')
				cp = CPORT;

			memset(&hints, 0, sizeof(hints));
			hints.ai_flags = 0;
			hints.ai_family = (pnode->rn_umode == 6) ? AF_INET6 : AF_INET;
			hints.ai_socktype = SOCK_DGRAM;
			if ((n = getaddrinfo(hostname, cp, &hints, &res)) != 0) {
				LM_ERR("%s\n", gai_strerror(n));
				pkg_free(hostname);
				rtpp_socks[pnode->idx] = -1;
				continue;
			}
			pkg_free(hostname);

			rtpp_socks[pnode->idx] = socket((pnode->rn_umode == 6)
				? AF_INET6 : AF_INET, SOCK_DGRAM, 0);
			if (rtpp_socks[pnode->idx] == -1) {
				LM_ERR("can't create socket\n");
				freeaddrinfo(res);
				continue;
			}

#ifdef IP_MTU_DISCOVER
			if (setsockopt(rtpp_socks[pnode->idx], IPPROTO_IP,
					IP_MTU_DISCOVER, &ip_mtu_discover,
					sizeof(ip_mtu_discover)))
				LM_WARN("Failed enable set MTU discovery socket option\n");
#endif

			if (bind_force_send_ip(pnode->idx) == -1) {
				LM_ERR("can't bind socket\n");
				close(rtpp_socks[pnode->idx]);
				rtpp_socks[pnode->idx] = -1;
				freeaddrinfo(res);
				continue;
			}

			if (connect(rtpp_socks[pnode->idx], res->ai_addr, res->ai_addrlen) == -1) {
				LM_ERR("can't connect to a RTP proxy\n");
				close(rtpp_socks[pnode->idx]);
				rtpp_socks[pnode->idx] = -1;
				freeaddrinfo(res);
				continue;
			}

			freeaddrinfo(res);
rptest:
			pnode->rn_disabled = rtpp_test(pnode, 0, 1);
		}
		lock_release(rtpp_list->rset_lock);
	}
	lock_release(rtpp_set_list->rset_head_lock);

	return 0;
}

static int pv_parse_var(str *inp, pv_elem_t **outp, int *got_any) {
	if (inp->s && *inp->s) {
		inp->len = strlen(inp->s);
		if(pv_parse_format(inp, outp) < 0) {
			LM_ERR("malformed PV string: %s\n", inp->s);
			return -1;
		}
		if (got_any)
			*got_any = 1;
	} else {
		*outp = NULL;
	}
	return 0;
}

static int minmax_pv_parse(struct minmax_mos_stats *s, int *got_any) {
	if (pv_parse_var(&s->mos_param, &s->mos_pv, got_any))
		return -1;
	if (pv_parse_var(&s->at_param, &s->at_pv, got_any))
		return -1;
	if (pv_parse_var(&s->packetloss_param, &s->packetloss_pv, got_any))
		return -1;
	if (pv_parse_var(&s->jitter_param, &s->jitter_pv, got_any))
		return -1;
	if (pv_parse_var(&s->roundtrip_param, &s->roundtrip_pv, got_any))
		return -1;
	if (pv_parse_var(&s->samples_param, &s->samples_pv, got_any))
		return -1;
	return 0;
}

static int mos_label_stats_parse(struct minmax_mos_label_stats *mmls) {
	if (pv_parse_var(&mmls->label_param, &mmls->label_pv, &mmls->got_any_pvs))
		return -1;

	if (minmax_pv_parse(&mmls->min, &mmls->got_any_pvs))
		return -1;
	if (minmax_pv_parse(&mmls->max, &mmls->got_any_pvs))
		return -1;
	if (minmax_pv_parse(&mmls->average, &mmls->got_any_pvs))
		return -1;

	if (mmls->got_any_pvs)
		got_any_mos_pvs = 1;

	return 0;
}


static int
child_init(int rank)
{
	if(!rtpp_set_list)
		return 0;

	/* do not init sockets for PROC_INIT and main process when fork=yes */
	if(rank==PROC_INIT || (rank==PROC_MAIN && dont_fork==0)) {
		return 0;
	}

	mypid = getpid();

	// vector of pointers to queried nodes
	queried_nodes_ptr = (struct rtpp_node**)pkg_malloc(MAX_RTPP_TRIED_NODES * sizeof(struct rtpp_node*));
	if (!queried_nodes_ptr) {
		LM_ERR("no more pkg memory for queried_nodes_ptr\n");
		return -1;
	}
	memset(queried_nodes_ptr, 0, MAX_RTPP_TRIED_NODES * sizeof(struct rtpp_node*));

	/* Iterate known RTP proxies - create sockets */
	if (build_rtpp_socks())
		return -1;

	return 0;
}


static void mod_destroy(void)
{
	struct rtpp_set * crt_list, * last_list;
	struct rtpp_node * crt_rtpp, *last_rtpp;

	/*free the shared memory*/
	if (rtpp_no) {
		shm_free(rtpp_no);
		rtpp_no = NULL;
	}

	if (rtpp_no_lock) {
		lock_destroy(rtpp_no_lock);
		lock_dealloc(rtpp_no_lock);
		rtpp_no_lock = NULL;
	}

	if (!rtpp_set_list) {
		return;
	}

	if (!rtpp_set_list->rset_head_lock) {
		shm_free(rtpp_set_list);
		rtpp_set_list = NULL;
		return;
	}

	lock_get(rtpp_set_list->rset_head_lock);
	for(crt_list = rtpp_set_list->rset_first; crt_list != NULL; ){
		last_list = crt_list;

		if (!crt_list->rset_lock) {
			crt_list = last_list->rset_next;
			shm_free(last_list);
			last_list = NULL;
			continue;
		}

		lock_get(last_list->rset_lock);
		for(crt_rtpp = crt_list->rn_first; crt_rtpp != NULL;  ){

			if(crt_rtpp->rn_url.s)
				shm_free(crt_rtpp->rn_url.s);

			last_rtpp = crt_rtpp;
			crt_rtpp = last_rtpp->rn_next;
			shm_free(last_rtpp);
		}
		crt_list = last_list->rset_next;
		lock_release(last_list->rset_lock);

		lock_destroy(last_list->rset_lock);
		lock_dealloc((void*)last_list->rset_lock);
		last_list->rset_lock = NULL;

		shm_free(last_list);
		last_list = NULL;
	}
	lock_release(rtpp_set_list->rset_head_lock);

	lock_destroy(rtpp_set_list->rset_head_lock);
	lock_dealloc((void*)rtpp_set_list->rset_head_lock);
	rtpp_set_list->rset_head_lock = NULL;

	shm_free(rtpp_set_list);
	rtpp_set_list = NULL;

	/* destroy the hastable which keeps the call-id <-> selected_node relation */
	if (!rtpengine_hash_table_destroy()) {
		LM_ERR("rtpengine_hash_table_destroy() failed!\n");
	} else {
		LM_DBG("rtpengine_hash_table_destroy() success!\n");
	}
}


static char * gencookie(void)
{
	static char cook[34];

	snprintf(cook, 34, "%d_%d_%u ", server_id, (int)mypid, myseqn);
	myseqn++;
	return cook;
}



static const char *transports[] = {
	[0x00]	= "RTP/AVP",
	[0x01]	= "RTP/SAVP",
	[0x02]	= "RTP/AVPF",
	[0x03]	= "RTP/SAVPF",
};

static int parse_flags(struct ng_flags_parse *ng_flags, struct sip_msg *msg, enum rtpe_operation *op,
		const char *flags_str)
{
	char *e;
	const char *err;
	str key, val, s;

	if (!flags_str)
		return 0;

	while (1) {
		while (*flags_str == ' ')
			flags_str++;

		key.s = (void *) flags_str;
		val.len = key.len = -1;
		val.s = NULL;

		e = strpbrk(key.s, " =");
		if (!e)
			e = key.s + strlen(key.s);
		else if (*e == '=') {
			key.len = e - key.s;
			val.s = e + 1;
			e = strchr(val.s, ' ');
			if (!e)
				e = val.s + strlen(val.s);
			val.len = e - val.s;
		}

		if (key.len == -1)
			key.len = e - key.s;
		if (!key.len)
			break;

		/* check for items which have their own sub-list */
		s = str_prefix(&key, "replace-");
		if (s.s) {
			bencode_list_add_str(ng_flags->replace, &s);
			goto next;
		}

		s = str_prefix(&key, "rtcp-mux-");
		if (s.s) {
			bencode_list_add_str(ng_flags->rtcp_mux, &s);
			goto next;
		}

		/* check for specially handled items */
		switch (key.len) {
			case 3:
				if (str_eq(&key, "RTP")) {
					ng_flags->transport |= 0x100;
					ng_flags->transport &= ~0x001;
				}
				else if (str_eq(&key, "AVP")) {
					ng_flags->transport |= 0x100;
					ng_flags->transport &= ~0x002;
				}
				else if (str_eq(&key, "TOS") && val.s)
					bencode_dictionary_add_integer(ng_flags->dict, "TOS", atoi(val.s));
				else if (str_eq(&key, "delete-delay") && val.s)
					bencode_dictionary_add_integer(ng_flags->dict, "delete delay", atoi(val.s));
				else
					goto generic;
				goto next;
				break;

			case 4:
				if (str_eq(&key, "SRTP"))
					ng_flags->transport |= 0x101;
				else if (str_eq(&key, "AVPF"))
					ng_flags->transport |= 0x102;
				else
					goto generic;
				goto next;
				break;

			case 6:
				if (str_eq(&key, "to-tag")) {
					if (val.s)
						ng_flags->to_tag = val;
					ng_flags->to = 1;
					goto next;
				}
				break;

			case 7:
				if (str_eq(&key, "RTP/AVP"))
					ng_flags->transport = 0x100;
				else if (str_eq(&key, "call-id")) {
					err = "missing value";
					if (!val.s)
						goto error;
					ng_flags->call_id = val;
				}
				else
					goto generic;
				goto next;
				break;

			case 8:
				if (str_eq(&key, "internal") || str_eq(&key, "external"))
					bencode_list_add_str(ng_flags->direction, &key);
				else if (str_eq(&key, "RTP/AVPF"))
					ng_flags->transport = 0x102;
				else if (str_eq(&key, "RTP/SAVP"))
					ng_flags->transport = 0x101;
				else if (str_eq(&key, "from-tag")) {
					err = "missing value";
					if (!val.s)
						goto error;
					ng_flags->from_tag = val;
				}
				else
					goto generic;
				goto next;
				break;

			case 9:
				if (str_eq(&key, "RTP/SAVPF"))
					ng_flags->transport = 0x103;
				else if (str_eq(&key, "direction"))
					bencode_list_add_str(ng_flags->direction, &val);
				else
					goto generic;
				goto next;
				break;

			case 10:
				if (str_eq(&key, "via-branch")) {
					err = "missing value";
					if (!val.s)
						goto error;
					err = "invalid value";
					if (*val.s == '1' || *val.s == '2')
						ng_flags->via = *val.s - '0';
					else if (str_eq(&val, "auto"))
						ng_flags->via = 3;
					else if (str_eq(&val, "extra"))
						ng_flags->via = -1;
					else
						goto error;
					goto next;
				}
				break;

			case 11:
				if (str_eq(&key, "repacketize")) {
					err = "missing value";
					if (!val.s)
						goto error;
					ng_flags->packetize = 0;
					while (isdigit(*val.s)) {
						ng_flags->packetize *= 10;
						ng_flags->packetize += *val.s - '0';
						val.s++;
					}
					err = "invalid value";
					if (!ng_flags->packetize)
						goto error;
					bencode_dictionary_add_integer(ng_flags->dict, "repacketize", ng_flags->packetize);
					goto next;
				}
				break;

			case 12:
				if (str_eq(&key, "force-answer")) {
					err = "cannot force answer in non-offer command";
					if (*op != OP_OFFER)
						goto error;
					*op = OP_ANSWER;
					goto next;
				}
				break;
		}

generic:
		if (!val.s)
			bencode_list_add_str(ng_flags->flags, &key);
		else
			bencode_dictionary_str_add_str(ng_flags->dict, &key, &val);
		goto next;

next:
		flags_str = e;
	}

	return 0;

error:
	if (val.s)
		LM_ERR("error processing flag `%.*s' (value '%.*s'): %s\n", key.len, key.s,
				val.len, val.s, err);
	else
		LM_ERR("error processing flag `%.*s': %s\n", key.len, key.s, err);
	return -1;
}

static bencode_item_t *rtpp_function_call(bencode_buffer_t *bencbuf, struct sip_msg *msg,
	enum rtpe_operation op, const char *flags_str, str *body_out)
{
	struct ng_flags_parse ng_flags;
	bencode_item_t *item, *resp;
	str viabranch = STR_NULL;
	str body = STR_NULL, error = STR_NULL;
	int ret, queried_nodes = 0;
	struct rtpp_node *node;
	char *cp;
	pv_value_t pv_val;

	/*** get & init basic stuff needed ***/

	memset(&ng_flags, 0, sizeof(ng_flags));

	if (get_callid(msg, &ng_flags.call_id) == -1 || ng_flags.call_id.len == 0) {
		LM_ERR("can't get Call-Id field\n");
		return NULL;
	}
	if (get_to_tag(msg, &ng_flags.to_tag) == -1) {
		LM_ERR("can't get To tag\n");
		return NULL;
	}
	if (get_from_tag(msg, &ng_flags.from_tag) == -1 || ng_flags.from_tag.len == 0) {
		LM_ERR("can't get From tag\n");
		return NULL;
	}
	if (bencode_buffer_init(bencbuf)) {
		LM_ERR("could not initialize bencode_buffer_t\n");
		return NULL;
	}
	ng_flags.dict = bencode_dictionary(bencbuf);

	body.s = NULL;
	if (op == OP_OFFER || op == OP_ANSWER) {
		ng_flags.flags = bencode_list(bencbuf);
		ng_flags.direction = bencode_list(bencbuf);
		ng_flags.replace = bencode_list(bencbuf);
		ng_flags.rtcp_mux = bencode_list(bencbuf);

		if (read_sdp_pvar!= NULL) {
			if (read_sdp_pvar->getf(msg,&read_sdp_pvar->pvp, &pv_val) < 0)
			{
				LM_ERR("error getting pvar value <%.*s>\n", read_sdp_pvar_str.len, read_sdp_pvar_str.s);
				goto error;
			} else {
				body = pv_val.rs;
			}

		} else if (extract_body(msg, &body) == -1) {
			LM_ERR("can't extract body from the message\n");
			goto error;
		}
		if (body_intermediate.s)
			bencode_dictionary_add_str(ng_flags.dict, "sdp", &body_intermediate);
		else
			bencode_dictionary_add_str(ng_flags.dict, "sdp", &body);
	}

	/*** parse flags & build dictionary ***/

	ng_flags.to = (op == OP_DELETE) ? 0 : 1;

	if (parse_flags(&ng_flags, msg, &op, flags_str))
		goto error;

	/* only add those if any flags were given at all */
	if (ng_flags.direction && ng_flags.direction->child)
		bencode_dictionary_add(ng_flags.dict, "direction", ng_flags.direction);
	if (ng_flags.flags && ng_flags.flags->child)
		bencode_dictionary_add(ng_flags.dict, "flags", ng_flags.flags);
	if (ng_flags.replace && ng_flags.replace->child)
		bencode_dictionary_add(ng_flags.dict, "replace", ng_flags.replace);
	if ((ng_flags.transport & 0x100))
		bencode_dictionary_add_string(ng_flags.dict, "transport-protocol",
				transports[ng_flags.transport & 0x003]);
	if (ng_flags.rtcp_mux && ng_flags.rtcp_mux->child)
		bencode_dictionary_add(ng_flags.dict, "rtcp-mux", ng_flags.rtcp_mux);

	bencode_dictionary_add_str(ng_flags.dict, "call-id", &ng_flags.call_id);

	if (ng_flags.via) {
		if (ng_flags.via == 1 || ng_flags.via == 2)
			ret = get_via_branch(msg, ng_flags.via, &viabranch);
		else if (ng_flags.via == -1 && extra_id_pv)
			ret = get_extra_id(msg, &viabranch);
		else
			ret = -1;
		if (ret == -1 || viabranch.len == 0) {
			LM_ERR("can't get Via branch/extra ID\n");
			goto error;
		}
		bencode_dictionary_add_str(ng_flags.dict, "via-branch", &viabranch);
	}

	item = bencode_list(bencbuf);
	bencode_dictionary_add(ng_flags.dict, "received-from", item);
	bencode_list_add_string(item, (msg->rcv.src_ip.af == AF_INET) ? "IP4" : (
		(msg->rcv.src_ip.af == AF_INET6) ? "IP6" :
		"?"
	) );
	bencode_list_add_string(item, ip_addr2a(&msg->rcv.src_ip));

	if ((msg->first_line.type == SIP_REQUEST && op != OP_ANSWER)
		|| (msg->first_line.type == SIP_REPLY && op == OP_DELETE)
		|| (msg->first_line.type == SIP_REPLY && op == OP_ANSWER))
	{
		bencode_dictionary_add_str(ng_flags.dict, "from-tag", &ng_flags.from_tag);
		if (ng_flags.to && ng_flags.to_tag.s && ng_flags.to_tag.len)
			bencode_dictionary_add_str(ng_flags.dict, "to-tag", &ng_flags.to_tag);
	}
	else {
		if (!ng_flags.to_tag.s || !ng_flags.to_tag.len) {
			LM_ERR("No to-tag present\n");
			goto error;
		}
		bencode_dictionary_add_str(ng_flags.dict, "from-tag", &ng_flags.to_tag);
		bencode_dictionary_add_str(ng_flags.dict, "to-tag", &ng_flags.from_tag);
	}

	bencode_dictionary_add_string(ng_flags.dict, "command", command_strings[op]);

	/*** send it out ***/

	if (bencbuf->error) {
		LM_ERR("out of memory - bencode failed\n");
		goto error;
	}

	if(msg->id != current_msg_id)
		active_rtpp_set = default_rtpp_set;

select_node:
	do {
		if (queried_nodes >= cfg_get(rtpengine,rtpengine_cfg,queried_nodes_limit)) {
			LM_ERR("queried nodes limit reached\n");
			goto error;
		}

		node = select_rtpp_node(ng_flags.call_id, viabranch, 1, queried_nodes_ptr, queried_nodes, op);
		if (!node) {
			LM_ERR("no available proxies\n");
			goto error;
		}

		cp = send_rtpp_command(node, ng_flags.dict, &ret);
		if (cp == NULL) {
			node->rn_disabled = 1;
			node->rn_recheck_ticks = get_ticks() + cfg_get(rtpengine,rtpengine_cfg,rtpengine_disable_tout);
		}

		queried_nodes_ptr[queried_nodes++] = node;
	} while (cp == NULL);

	LM_DBG("proxy reply: %.*s\n", ret, cp);

	set_rtp_inst_pvar(msg, &node->rn_url);
	/*** process reply ***/

	resp = bencode_decode_expect(bencbuf, cp, ret, BENCODE_DICTIONARY);
	if (!resp) {
		LM_ERR("failed to decode bencoded reply from proxy: %.*s\n", ret, cp);
		goto error;
	}

	if (!bencode_dictionary_get_strcmp(resp, "result", "error")) {
		if (!bencode_dictionary_get_str(resp, "error-reason", &error)) {
			LM_ERR("proxy return error but didn't give an error reason: %.*s\n", ret, cp);
		} else {
			if ((RTPENGINE_SESS_LIMIT_MSG_LEN == error.len) &&
				(strncmp(error.s, RTPENGINE_SESS_LIMIT_MSG, RTPENGINE_SESS_LIMIT_MSG_LEN) == 0))
			{
				LM_WARN("proxy %.*s: %.*s", node->rn_url.len, node->rn_url.s , error.len, error.s);
				goto select_node;
			}
			LM_ERR("proxy replied with error: %.*s\n", error.len, error.s);
		}
		goto error;
	}

	/* add hastable entry with the node => */
	if (!rtpengine_hash_table_lookup(ng_flags.call_id, viabranch, op)) {
		// build the entry
		struct rtpengine_hash_entry *entry = shm_malloc(sizeof(struct rtpengine_hash_entry));
		if (!entry) {
			LM_ERR("rtpengine hash table fail to create entry for calllen=%d callid=%.*s viabranch=%.*s\n",
				ng_flags.call_id.len, ng_flags.call_id.len, ng_flags.call_id.s,
				viabranch.len, viabranch.s);
			goto skip_hash_table_insert;
		}
		memset(entry, 0, sizeof(struct rtpengine_hash_entry));

		// fill the entry
		if (ng_flags.call_id.s && ng_flags.call_id.len > 0) {
			if (shm_str_dup(&entry->callid, &ng_flags.call_id) < 0) {
				LM_ERR("rtpengine hash table fail to duplicate calllen=%d callid=%.*s\n",
					ng_flags.call_id.len, ng_flags.call_id.len, ng_flags.call_id.s);
				rtpengine_hash_table_free_entry(entry);
				goto skip_hash_table_insert;
			}
		}
		if (viabranch.s && viabranch.len > 0) {
			if (shm_str_dup(&entry->viabranch, &viabranch) < 0) {
				LM_ERR("rtpengine hash table fail to duplicate calllen=%d viabranch=%.*s\n",
					ng_flags.call_id.len, viabranch.len, viabranch.s);
				rtpengine_hash_table_free_entry(entry);
				goto skip_hash_table_insert;
			}
		}
		entry->node = node;
		entry->next = NULL;
		entry->tout = get_ticks() + hash_table_tout;

		// insert the key<->entry from the hashtable
		if (!rtpengine_hash_table_insert(ng_flags.call_id, viabranch, entry)) {
			LM_ERR("rtpengine hash table fail to insert node=%.*s for calllen=%d callid=%.*s viabranch=%.*s\n",
				node->rn_url.len, node->rn_url.s, ng_flags.call_id.len,
				ng_flags.call_id.len, ng_flags.call_id.s, viabranch.len, viabranch.s);
			rtpengine_hash_table_free_entry(entry);
			goto skip_hash_table_insert;
		} else {
			LM_DBG("rtpengine hash table insert node=%.*s for calllen=%d callid=%.*s viabranch=%.*s\n",
				node->rn_url.len, node->rn_url.s, ng_flags.call_id.len,
				ng_flags.call_id.len, ng_flags.call_id.s, viabranch.len, viabranch.s);
		}
	}

skip_hash_table_insert:
	if (body_out)
		*body_out = body;

	if (op == OP_DELETE) {
		/* Delete the key<->value from the hashtable */
		if (!rtpengine_hash_table_remove(ng_flags.call_id, viabranch, op)) {
			LM_ERR("rtpengine hash table failed to remove entry for callen=%d callid=%.*s viabranch=%.*s\n",
				ng_flags.call_id.len, ng_flags.call_id.len, ng_flags.call_id.s,
				viabranch.len, viabranch.s);
		} else {
			LM_DBG("rtpengine hash table remove entry for callen=%d callid=%.*s viabranch=%.*s\n",
				ng_flags.call_id.len, ng_flags.call_id.len, ng_flags.call_id.s,
				viabranch.len, viabranch.s);
		}
	}

	return resp;

error:
	bencode_buffer_free(bencbuf);
	return NULL;
}

static int rtpp_function_call_simple(struct sip_msg *msg, enum rtpe_operation op, const char *flags_str)
{
	bencode_buffer_t bencbuf;

	if (!rtpp_function_call(&bencbuf, msg, op, flags_str, NULL))
		return -1;

	bencode_buffer_free(&bencbuf);
	return 1;
}

static bencode_item_t *rtpp_function_call_ok(bencode_buffer_t *bencbuf, struct sip_msg *msg,
		enum rtpe_operation op, const char *flags_str, str *body)
{
	bencode_item_t *ret;

	ret = rtpp_function_call(bencbuf, msg, op, flags_str, body);
	if (!ret)
		return NULL;

	if (bencode_dictionary_get_strcmp(ret, "result", "ok")) {
		LM_ERR("proxy didn't return \"ok\" result\n");
		bencode_buffer_free(bencbuf);
		return NULL;
	}

	return ret;
}



static int
rtpp_test(struct rtpp_node *node, int isdisabled, int force)
{
	bencode_buffer_t bencbuf;
	bencode_item_t *dict;
	char *cp;
	int ret;

	if(node->rn_recheck_ticks == RTPENGINE_MAX_RECHECK_TICKS){
		LM_DBG("rtpp %s disabled for ever\n", node->rn_url.s);
		return 1;
	}
	if (force == 0) {
		if (isdisabled == 0)
			return 0;
		if (node->rn_recheck_ticks > get_ticks())
			return 1;
	}

	if (bencode_buffer_init(&bencbuf)) {
		LM_ERR("could not initialized bencode_buffer_t\n");
		return 1;
	}
	dict = bencode_dictionary(&bencbuf);
	bencode_dictionary_add_string(dict, "command", "ping");
	if (bencbuf.error)
		goto benc_error;

	cp = send_rtpp_command(node, dict, &ret);
	if (!cp) {
		node->rn_disabled = 1;
		node->rn_recheck_ticks = get_ticks() + cfg_get(rtpengine,rtpengine_cfg,rtpengine_disable_tout);
		LM_ERR("proxy did not respond to ping\n");
		goto error;
	}

	dict = bencode_decode_expect(&bencbuf, cp, ret, BENCODE_DICTIONARY);
	if (!dict || bencode_dictionary_get_strcmp(dict, "result", "pong")) {
		LM_ERR("proxy responded with invalid response\n");
		goto error;
	}

	LM_INFO("rtp proxy <%s> found, support for it %senabled\n",
		node->rn_url.s, force == 0 ? "re-" : "");

	bencode_buffer_free(&bencbuf);
	return 0;

benc_error:
	LM_ERR("out of memory - bencode failed\n");
error:
	bencode_buffer_free(&bencbuf);
	return 1;
}

static char *
send_rtpp_command(struct rtpp_node *node, bencode_item_t *dict, int *outlen)
{
	struct sockaddr_un addr;
	int fd, len, i, vcnt;
	int rtpengine_retr, rtpengine_tout_ms = 1000;
	char *cp;
	static char buf[0x10000];
	struct pollfd fds[1];
	struct iovec *v;
	str out = STR_NULL;

	v = bencode_iovec(dict, &vcnt, 1, 0);
	if (!v) {
		LM_ERR("error converting bencode to iovec\n");
		return NULL;
	}

	len = 0;
	cp = buf;
	if (node->rn_umode == 0) {
		memset(&addr, 0, sizeof(addr));
		addr.sun_family = AF_LOCAL;
		strncpy(addr.sun_path, node->rn_address,
			sizeof(addr.sun_path) - 1);
#ifdef HAVE_SOCKADDR_SA_LEN
		addr.sun_len = strlen(addr.sun_path);
#endif

		fd = socket(AF_LOCAL, SOCK_STREAM, 0);
		if (fd < 0) {
			LM_ERR("can't create socket\n");
			goto badproxy;
		}
		if (connect(fd, (struct sockaddr *) &addr, sizeof(addr)) < 0) {
			close(fd);
			LM_ERR("can't connect to RTP proxy <%s>\n", node->rn_url.s);
			goto badproxy;
		}

		do {
			len = writev(fd, v + 1, vcnt);
		} while (len == -1 && errno == EINTR);
		if (len <= 0) {
			close(fd);
			LM_ERR("can't send command to RTP proxy <%s>\n", node->rn_url.s);
			goto badproxy;
		}
		do {
			len = read(fd, buf, sizeof(buf) - 1);
		} while (len == -1 && errno == EINTR);
		close(fd);
		if (len <= 0) {
			LM_ERR("can't read reply from RTP proxy <%s>\n", node->rn_url.s);
			goto badproxy;
		}
	} else {
		fds[0].fd = rtpp_socks[node->idx];
		fds[0].events = POLLIN;
		fds[0].revents = 0;
		/* Drain input buffer */
		while ((poll(fds, 1, 0) == 1) &&
			((fds[0].revents & POLLIN) != 0)) {
			/* coverity[check_return : FALSE] */
			recv(rtpp_socks[node->idx], buf, sizeof(buf) - 1, 0);
			fds[0].revents = 0;
		}
		v[0].iov_base = gencookie();
		v[0].iov_len = strlen(v[0].iov_base);
        rtpengine_retr = cfg_get(rtpengine,rtpengine_cfg,rtpengine_retr);
		for (i = 0; i < rtpengine_retr; i++) {
			do {
				len = writev(rtpp_socks[node->idx], v, vcnt + 1);
			} while (len == -1 && (errno == EINTR || errno == ENOBUFS));
			if (len <= 0) {
				bencode_get_str(bencode_dictionary_get(dict, "command"), &out);
				LM_ERR("can't send command \"%.*s\" to RTP proxy <%s>\n", out.len, out.s, node->rn_url.s);
				goto badproxy;
			}
            rtpengine_tout_ms = cfg_get(rtpengine,rtpengine_cfg,rtpengine_tout_ms);
			while ((poll(fds, 1, rtpengine_tout_ms) == 1) &&
				(fds[0].revents & POLLIN) != 0) {
				do {
					len = recv(rtpp_socks[node->idx], buf, sizeof(buf)-1, 0);
				} while (len == -1 && errno == EINTR);
				if (len <= 0) {
					LM_ERR("can't read reply from RTP proxy <%s>\n", node->rn_url.s);
					goto badproxy;
				}
				if (len >= (v[0].iov_len - 1) &&
					memcmp(buf, v[0].iov_base, (v[0].iov_len - 1)) == 0) {
					len -= (v[0].iov_len - 1);
					cp += (v[0].iov_len - 1);
					if (len != 0) {
						len--;
						cp++;
					}
					goto out;
				}
				fds[0].revents = 0;
			}
		}
		if (i == rtpengine_retr) {
			LM_ERR("timeout waiting reply from RTP proxy <%s>\n", node->rn_url.s);
			goto badproxy;
		}
	}

out:
	cp[len] = '\0';
	*outlen = len;
	return cp;

badproxy:
	return NULL;
}

/*
 * select the set with the id_set id
 */

static struct rtpp_set * select_rtpp_set(unsigned int id_set ){

	struct rtpp_set * rtpp_list;
	/*is it a valid set_id?*/

	if (!rtpp_set_list) {
		LM_ERR("no rtpp_set_list\n");
		return 0;
	}

	lock_get(rtpp_set_list->rset_head_lock);
	if (!rtpp_set_list->rset_first) {
		LM_ERR("no rtpp_set_list->rset_first\n");
		lock_release(rtpp_set_list->rset_head_lock);
		return 0;
	}

	for (rtpp_list=rtpp_set_list->rset_first; rtpp_list!=0 &&
			rtpp_list->id_set!=id_set; rtpp_list=rtpp_list->rset_next);
	if (!rtpp_list) {
		LM_ERR(" script error-invalid id_set to be selected\n");
	}
	lock_release(rtpp_set_list->rset_head_lock);

	return rtpp_list;
}

/*
 * run the selection algorithm and return the new selected node
 */
static struct rtpp_node *
select_rtpp_node_new(str callid, str viabranch, int do_test, struct rtpp_node **queried_nodes_ptr, int queried_nodes)
{
	struct rtpp_node* node;
	unsigned i, sum, sumcut, weight_sum;
	int was_forced = 0;

	/* XXX Use quick-and-dirty hashing algo */
	sum = 0;
	for(i = 0; i < callid.len; i++)
		sum += callid.s[i];
	sum &= 0xff;

retry:
	weight_sum = 0;

	lock_get(active_rtpp_set->rset_lock);
	for (node=active_rtpp_set->rn_first; node!=NULL; node=node->rn_next) {
		/* Select only between displayed machines */
		if (!node->rn_displayed) {
			continue;
		}

		/* Try to enable if it's time to try. */
		if (node->rn_disabled && node->rn_recheck_ticks <= get_ticks()){
			node->rn_disabled = rtpp_test(node, 1, 0);
		}

		/* Select only between enabled machines */
		if (!node->rn_disabled && !is_queried_node(node, queried_nodes_ptr, queried_nodes)) {
			weight_sum += node->rn_weight;
		}
	}
	lock_release(active_rtpp_set->rset_lock);

	/* No proxies? Force all to be redetected, if not yet */
	if (weight_sum == 0) {
		if (was_forced) {
			return NULL;
		}

		was_forced = 1;

		lock_get(active_rtpp_set->rset_lock);
		for(node=active_rtpp_set->rn_first; node!=NULL; node=node->rn_next) {
			/* Select only between displayed machines */
			if (!node->rn_displayed) {
				continue;
			}

			node->rn_disabled = rtpp_test(node, 1, 1);
		}
		lock_release(active_rtpp_set->rset_lock);

		goto retry;
	}

	/* sumcut here lays from 0 to weight_sum-1 */
	sumcut = sum % weight_sum;

	/*
	 * Scan proxy list and decrease until appropriate proxy is found.
	 */
	lock_get(active_rtpp_set->rset_lock);
	for (node=active_rtpp_set->rn_first; node!=NULL; node=node->rn_next) {
		/* Select only between displayed machines */
		if (!node->rn_displayed) {
			continue;
		}

		/* Select only between enabled machines */
		if (node->rn_disabled)
			continue;

		/* Select only between not already queried machines */
		if (is_queried_node(node, queried_nodes_ptr, queried_nodes))
			continue;

		/* Found machine */
		if (sumcut < node->rn_weight) {
			lock_release(active_rtpp_set->rset_lock);
			goto found;
		}

		/* Update sumcut if enabled machine */
		sumcut -= node->rn_weight;
	}
	lock_release(active_rtpp_set->rset_lock);

	/* No node list */
	return NULL;

found:
	if (do_test) {
		lock_get(active_rtpp_set->rset_lock);
		node->rn_disabled = rtpp_test(node, node->rn_disabled, 0);
		if (node->rn_disabled) {
			lock_release(active_rtpp_set->rset_lock);
			goto retry;
		}
		lock_release(active_rtpp_set->rset_lock);
	}

	/* return selected node */
	return node;
}

/*
 * lookup the hastable (key=callid value=node) and get the old node (e.g. for answer/delete)
 */
static struct rtpp_node *
select_rtpp_node_old(str callid, str viabranch, int do_test, enum rtpe_operation op)
{
	struct rtpp_node *node = NULL;

	node = rtpengine_hash_table_lookup(callid, viabranch, op);

	if (!node) {
		LM_DBG("rtpengine hash table lookup failed to find node for calllen=%d callid=%.*s viabranch=%.*s\n",
			callid.len, callid.len, callid.s, viabranch.len, viabranch.s);
		return NULL;
	} else {
		LM_DBG("rtpengine hash table lookup find node=%.*s for calllen=%d callid=%.*s viabranch=%.*s\n",
			node->rn_url.len, node->rn_url.s, callid.len, callid.len, callid.s, viabranch.len, viabranch.s);
	}

	return node;
}

/*
 * Main balancing routine. This DO try to keep the same proxy for
 * the call if some proxies were disabled or enabled (e.g. kamctl command)
 */
static struct rtpp_node *
select_rtpp_node(str callid, str viabranch, int do_test, struct rtpp_node **queried_nodes_ptr, int queried_nodes, enum rtpe_operation op)
{
	struct rtpp_node *node = NULL;

	if (build_rtpp_socks()) {
		LM_ERR("out of memory\n");
		return NULL;
	}

	if (!active_rtpp_set) {
		default_rtpp_set = select_rtpp_set(setid_default);
		active_rtpp_set = default_rtpp_set;
	}

	if (!active_rtpp_set) {
		LM_ERR("script error - no valid set selected\n");
		return NULL;
	}

	// lookup node
	node = select_rtpp_node_old(callid, viabranch, do_test, op);

	// check node
	if (!node) {
		// run the selection algorithm
		node = select_rtpp_node_new(callid, viabranch, do_test, queried_nodes_ptr, queried_nodes);

		// check node
		if (!node) {
			LM_ERR("rtpengine failed to select new for calllen=%d callid=%.*s\n",
				callid.len, callid.len, callid.s);
			return NULL;
		}
	}

	// if node enabled, return it
	if (!node->rn_disabled) {
		return node;
	}

	// if proper configuration and node manually or timeout disabled, return it
	if (rtpengine_allow_op) {
		if (node->rn_recheck_ticks == RTPENGINE_MAX_RECHECK_TICKS) {
			LM_DBG("node=%.*s for calllen=%d callid=%.*s is disabled(permanent) (probably still UP)! Return it\n",
				node->rn_url.len, node->rn_url.s, callid.len, callid.len, callid.s);
		} else {
			LM_DBG("node=%.*s for calllen=%d callid=%.*s is disabled, either broke or timeout disabled! Return it\n",
				node->rn_url.len, node->rn_url.s, callid.len, callid.len, callid.s);
		}
		return node;
	}

	return NULL;
}

static int
get_extra_id(struct sip_msg* msg, str *id_str) {
	if (msg == NULL || extra_id_pv == NULL || id_str == NULL) {
		LM_ERR("bad parameters\n");
		return -1;
	}
	if (pv_printf_s(msg, extra_id_pv, id_str) < 0) {
		LM_ERR("cannot print the additional id\n");
		return -1;
	}

	return 1;

}

static int
set_rtpengine_set_from_avp(struct sip_msg *msg, int direction)
{
	struct usr_avp *avp;
	int_str setid_val;

	if ((setid_avp_param == NULL) ||
	   (avp = search_first_avp(setid_avp_type, setid_avp, &setid_val, 0)) == NULL) {
		if (direction == 1 || !selected_rtpp_set_2)
			active_rtpp_set = selected_rtpp_set_1;
		else
			active_rtpp_set = selected_rtpp_set_2;
		return 1;
	}

	if (avp->flags&AVP_VAL_STR) {
		LM_ERR("setid_avp must hold an integer value\n");
		return -1;
	}

	active_rtpp_set = select_rtpp_set(setid_val.n);
	if(active_rtpp_set == NULL) {
		LM_ERR("could not locate rtpproxy set %u\n", setid_val.n);
		return -1;
	}

	LM_DBG("using rtpengine set %u\n", setid_val.n);

	current_msg_id = msg->id;

	return 1;
}

static void avp_print_s(pv_elem_t *pv, char *str, int len, struct sip_msg *msg) {
	pv_value_t val;

	if (!pv)
		return;

	memset(&val, 0, sizeof(val));
	val.flags = PV_VAL_STR;
	val.rs.s = str;
	val.rs.len = len;
	pv->spec->setf(msg, &pv->spec->pvp, EQ_T, &val);
}

static void avp_print_decimal(pv_elem_t *pv, int num, struct sip_msg *msg) {
	int len;
	char buf[8];

	len = snprintf(buf, sizeof(buf), "%i.%i", num / 10, abs(num % 10));
	avp_print_s(pv, buf, len, msg);
}
static void avp_print_int(pv_elem_t *pv, int num, struct sip_msg *msg) {
	int len;
	char buf[8];

	len = snprintf(buf, sizeof(buf), "%i", num);
	avp_print_s(pv, buf, len, msg);
}
static void avp_print_time(pv_elem_t *pv, int num, struct sip_msg *msg) {
	int len;
	char buf[8];

	len = snprintf(buf, sizeof(buf), "%i:%02i", num / 60, abs(num % 60));
	avp_print_s(pv, buf, len, msg);
}

static void avp_print_mos(struct minmax_mos_stats *s, struct minmax_stats_vals *vals, long long created,
		struct sip_msg *msg)
{
	if (!vals->avg_samples)
		return;

	avp_print_decimal(s->mos_pv, vals->mos / vals->avg_samples, msg);
	avp_print_time(s->at_pv, vals->at - created, msg);
	avp_print_int(s->packetloss_pv, vals->packetloss / vals->avg_samples, msg);
	avp_print_int(s->jitter_pv, vals->jitter / vals->avg_samples, msg);
	avp_print_int(s->roundtrip_pv, vals->roundtrip / vals->avg_samples, msg);
	avp_print_int(s->samples_pv, vals->samples / vals->avg_samples, msg);
}

static int decode_mos_vals_dict(struct minmax_stats_vals *vals, bencode_item_t *dict, const char *key) {
	bencode_item_t *mos_ent;

	mos_ent = bencode_dictionary_get_expect(dict, key, BENCODE_DICTIONARY);
	if (!mos_ent)
		return 0;

	vals->mos = bencode_dictionary_get_integer(mos_ent, "MOS", -1);
	vals->at = bencode_dictionary_get_integer(mos_ent, "reported at", -1);
	vals->packetloss = bencode_dictionary_get_integer(mos_ent, "packet loss", -1);
	vals->jitter = bencode_dictionary_get_integer(mos_ent, "jitter", -1);
	vals->roundtrip = bencode_dictionary_get_integer(mos_ent, "round-trip time", -1);
	vals->samples = bencode_dictionary_get_integer(mos_ent, "samples", -1);
	vals->avg_samples = 1;

	return 1;
}

static void parse_call_stats_1(struct minmax_mos_label_stats *mmls, bencode_item_t *dict,
		struct sip_msg *msg)
{
	long long created;
	str label, check;
	long long ssrcs[4];
	unsigned int num_ssrcs = 0, i;
	long long ssrc;
	char *endp;
	bencode_item_t *ssrc_list,
		       *ssrc_key,
		       *ssrc_dict,
		       *tags,
		       *tag_key,
		       *tag_dict,
		       *medias,
		       *media,
		       *streams,
		       *stream;
	struct minmax_stats_vals min_vals = { .mos = 100 },
				 max_vals = { .mos = -1  },
				 average_vals = { .avg_samples = 0 },
				 vals_decoded;

	if (!mmls->got_any_pvs)
		return;

	/* check if only a subset of info is requested */
	if (!mmls->label_pv)
		goto ssrcs_done;

	if (pv_printf_s(msg, mmls->label_pv, &label)) {
		LM_ERR("error printing label PV\n");
		return;
	}
	LM_DBG("rtpengine: looking for label '%.*s'\n", label.len, label.s);

	/* walk through tags to find the label we're looking for */
	tags = bencode_dictionary_get_expect(dict, "tags", BENCODE_DICTIONARY);
	if (!tags)
		return; /* label wanted but no tags found - return nothing */
	LM_DBG("rtpengine: XXX got tags\n");

	for (tag_key = tags->child; tag_key; tag_key = tag_key->sibling->sibling) {
		LM_DBG("rtpengine: XXX got tag\n");
		tag_dict = tag_key->sibling;
		/* compare label */
		if (!bencode_dictionary_get_str(tag_dict, "label", &check))
			continue;
		LM_DBG("rtpengine: XXX got label %.*s\n", check.len, check.s);
		if (str_cmp(&check, &label))
			continue;
		LM_DBG("rtpengine: XXX label match\n");
		medias = bencode_dictionary_get_expect(tag_dict, "medias", BENCODE_LIST);
		if (!medias)
			continue;
		LM_DBG("rtpengine: XXX got medias\n");
		for (media = medias->child; media; media = media->sibling) {
			LM_DBG("rtpengine: XXX got media\n");
			streams = bencode_dictionary_get_expect(media, "streams", BENCODE_LIST);
			if (!streams)
				continue;
			LM_DBG("rtpengine: XXX got streams\n");
			/* only check the first stream (RTP) */
			stream = streams->child;
			if (!stream)
				continue;
			LM_DBG("rtpengine: XXX got stream type %i\n", stream->type);
			LM_DBG("rtpengine: XXX stream child '%.*s'\n", (int) stream->child->iov[1].iov_len, (char *) stream->child->iov[1].iov_base);
			LM_DBG("rtpengine: XXX stream child val type %i\n", stream->child->sibling->type);
			if ((ssrc = bencode_dictionary_get_integer(stream, "SSRC", -1)) == -1)
				continue;
			/* got a valid SSRC to watch for */
			ssrcs[num_ssrcs] = ssrc;
			LM_DBG("rtpengine: found SSRC '%lli' for label '%.*s'\n",
					ssrc,
					label.len, label.s);
			num_ssrcs++;
			/* see if we can do more */
			if (num_ssrcs >= (sizeof(ssrcs) / sizeof(*ssrcs)))
				goto ssrcs_done;
		}
	}
	/* if we get here, we were looking for label. see if we found one. if not, return nothing */
	if (num_ssrcs == 0)
		return;

ssrcs_done:
	/* now look for the stats values */
	created = bencode_dictionary_get_integer(dict, "created", 0);
	ssrc_list = bencode_dictionary_get_expect(dict, "SSRC", BENCODE_DICTIONARY);
	if (!ssrc_list)
		return;

	for (ssrc_key = ssrc_list->child; ssrc_key; ssrc_key = ssrc_key->sibling->sibling) {
		/* see if this is a SSRC we're interested in */
		if (num_ssrcs == 0)
			goto ssrc_ok;
		if (!bencode_get_str(ssrc_key, &check))
			continue;
		ssrc = strtoll(check.s, &endp, 10);
		for (i = 0; i < num_ssrcs; i++) {
			if (ssrcs[i] != ssrc)
				continue;
			/* it's a match */
			LM_DBG("rtpengine: considering SSRC '%.*s'\n",
					check.len, check.s);
			goto ssrc_ok;
		}
		/* no match */
		continue;

ssrc_ok:
		ssrc_dict = ssrc_key->sibling;
		if (!ssrc_dict)
			continue;

		if (decode_mos_vals_dict(&vals_decoded, ssrc_dict, "average MOS")) {
			average_vals.avg_samples++;
			average_vals.mos += vals_decoded.mos;
			average_vals.packetloss += vals_decoded.packetloss;
			average_vals.jitter += vals_decoded.jitter;
			average_vals.roundtrip += vals_decoded.roundtrip;
			average_vals.samples += vals_decoded.samples;
		}

		if (decode_mos_vals_dict(&vals_decoded, ssrc_dict, "highest MOS")) {
			if (vals_decoded.mos > max_vals.mos)
				max_vals = vals_decoded;
		}
		if (decode_mos_vals_dict(&vals_decoded, ssrc_dict, "lowest MOS")) {
			if (vals_decoded.mos < min_vals.mos)
				min_vals = vals_decoded;
		}
	}

	avp_print_mos(&mmls->max, &max_vals, created, msg);
	avp_print_mos(&mmls->min, &min_vals, created, msg);
	avp_print_mos(&mmls->average, &average_vals, created, msg);
}

static void parse_call_stats(bencode_item_t *dict, struct sip_msg *msg) {
	if (!got_any_mos_pvs)
		return;

	parse_call_stats_1(&global_mos_stats, dict, msg);
	parse_call_stats_1(&side_A_mos_stats, dict, msg);
	parse_call_stats_1(&side_B_mos_stats, dict, msg);
}

static int rtpengine_delete(struct sip_msg *msg, const char *flags) {
	bencode_buffer_t bencbuf;
	bencode_item_t *ret = rtpp_function_call_ok(&bencbuf, msg, OP_DELETE, flags, NULL);
	if (!ret)
		return -1;
	parse_call_stats(ret, msg);
	bencode_buffer_free(&bencbuf);
	return 1;
}

static int rtpengine_query(struct sip_msg *msg, const char *flags) {
	bencode_buffer_t bencbuf;
	bencode_item_t *ret = rtpp_function_call_ok(&bencbuf, msg, OP_QUERY, flags, NULL);
	if (!ret)
		return -1;
	parse_call_stats(ret, msg);
	bencode_buffer_free(&bencbuf);
	return 1;
}

static int rtpengine_rtpp_set_wrap(struct sip_msg *msg, int (*func)(struct sip_msg *msg, void *, int),
		void *data, int direction)
{
	int ret, more;

	body_intermediate.s = NULL;

	if (set_rtpengine_set_from_avp(msg, direction) == -1)
		return -1;

	more = 1;
	if (!selected_rtpp_set_2 || selected_rtpp_set_2 == selected_rtpp_set_1)
		more = 0;

	ret = func(msg, data, more);
	if (ret < 0)
		return ret;

	if (!more)
		return ret;

	direction = (direction == 1) ? 2 : 1;
	if (set_rtpengine_set_from_avp(msg, direction) == -1)
		return -1;

	ret = func(msg, data, 0);
	body_intermediate.s = NULL;
	return ret;
}

static int rtpengine_delete_wrap(struct sip_msg *msg, void *d, int more) {
	return rtpengine_delete(msg, d);
}

static int
rtpengine_delete1_f(struct sip_msg* msg, char* str1, char* str2)
{
	str flags;

	flags.s = NULL;
	if (str1) {
		if (get_str_fparam(&flags, msg, (fparam_t *) str1)) {
			LM_ERR("Error getting string parameter\n");
			return -1;
		}
	}

	return rtpengine_rtpp_set_wrap(msg, rtpengine_delete_wrap, flags.s, 1);
}

static int rtpengine_query_wrap(struct sip_msg *msg, void *d, int more) {
	return rtpengine_query(msg, d);
}

static int
rtpengine_query1_f(struct sip_msg* msg, char* str1, char* str2)
{
	str flags;

	flags.s = NULL;
	if (str1) {
		if (get_str_fparam(&flags, msg, (fparam_t *) str1)) {
			LM_ERR("Error getting string parameter\n");
			return -1;
		}
	}

	return rtpengine_rtpp_set_wrap(msg, rtpengine_query_wrap, flags.s, 1);
}


/* This function assumes p points to a line of requested type. */

static int
set_rtpengine_set_n(struct sip_msg *msg, rtpp_set_link_t *rtpl, struct rtpp_set **out)
{
	pv_value_t val;
	struct rtpp_node *node;
	int nb_active_nodes = 0;

	if(rtpl->rset != NULL) {
		current_msg_id = msg->id;
		*out = rtpl->rset;
		return 1;
	}

	if(pv_get_spec_value(msg, rtpl->rpv, &val)<0) {
		LM_ERR("cannot evaluate pv param\n");
		return -1;
	}
	if(!(val.flags & PV_VAL_INT)) {
		LM_ERR("pv param must hold an integer value\n");
		return -1;
	}
	*out = select_rtpp_set(val.ri);
	if(*out==NULL) {
		LM_ERR("could not locate rtpengine set %u\n", val.ri);
		return -1;
	}
	current_msg_id = msg->id;

	lock_get((*out)->rset_lock);
	node = (*out)->rn_first;
	while (node != NULL)
	{
		if (node->rn_disabled == 0) nb_active_nodes++;
		node = node->rn_next;
	}
	lock_release((*out)->rset_lock);

	if ( nb_active_nodes > 0 )
	{
		LM_DBG("rtpp: selected proxy set ID %d with %d active nodes.\n",
			current_msg_id, nb_active_nodes);
		return nb_active_nodes;
	}
	else
	{
		LM_WARN("rtpp: selected proxy set ID %d but it has no active node.\n",
			current_msg_id);
		return -2;
	}
}

static int
set_rtpengine_set_f(struct sip_msg * msg, char * str1, char * str2)
{
	rtpp_set_link_t *rtpl1, *rtpl2;
	int ret;

	rtpl1 = (rtpp_set_link_t*)str1;
	rtpl2 = (rtpp_set_link_t*)str2;

	current_msg_id = 0;
	active_rtpp_set = 0;
	selected_rtpp_set_1 = 0;
	selected_rtpp_set_2 = 0;

	ret = set_rtpengine_set_n(msg, rtpl1, &selected_rtpp_set_1);
	if (ret < 0)
		return ret;

	if (rtpl2) {
		ret = set_rtpengine_set_n(msg, rtpl2, &selected_rtpp_set_2);
		if (ret < 0)
			return ret;
	}

	return 1;
}

static int
rtpengine_manage(struct sip_msg *msg, const char *flags)
{
	int method;
	int nosdp;

	if (msg->cseq==NULL && ((parse_headers(msg, HDR_CSEQ_F, 0)==-1) ||
	   (msg->cseq==NULL)))
	{
		LM_ERR("no CSEQ header\n");
		return -1;
	}

	method = get_cseq(msg)->method_id;

	if (!(method==METHOD_INVITE || method==METHOD_ACK || method==METHOD_CANCEL
	   || method==METHOD_BYE || method==METHOD_UPDATE))
		return -1;

	if (method==METHOD_CANCEL || method==METHOD_BYE)
		return rtpengine_delete(msg, flags);

	if (msg->msg_flags & FL_SDP_BODY)
		nosdp = 0;
	else
		nosdp = parse_sdp(msg);

	if (msg->first_line.type == SIP_REQUEST) {
		if(method==METHOD_ACK && nosdp==0)
			return rtpengine_offer_answer(msg, flags, OP_ANSWER, 0);
		if(method==METHOD_UPDATE && nosdp==0)
			return rtpengine_offer_answer(msg, flags, OP_OFFER, 0);
		if(method==METHOD_INVITE && nosdp==0) {
			msg->msg_flags |= FL_SDP_BODY;
			if(tmb.t_gett!=NULL && tmb.t_gett()!=NULL
					&& tmb.t_gett()!=T_UNDEFINED)
				tmb.t_gett()->uas.request->msg_flags |= FL_SDP_BODY;
			if(route_type==FAILURE_ROUTE)
				return rtpengine_delete(msg, flags);
			return rtpengine_offer_answer(msg, flags, OP_OFFER, 0);
		}
	} else if (msg->first_line.type == SIP_REPLY) {
		if (msg->first_line.u.reply.statuscode>=300)
			return rtpengine_delete(msg, flags);
		if (nosdp==0) {
			if (method==METHOD_UPDATE)
				return rtpengine_offer_answer(msg, flags, OP_ANSWER, 0);
			if (tmb.t_gett==NULL || tmb.t_gett()==NULL
					|| tmb.t_gett()==T_UNDEFINED)
				return rtpengine_offer_answer(msg, flags, OP_ANSWER, 0);
			if (tmb.t_gett()->uas.request->msg_flags & FL_SDP_BODY)
				return rtpengine_offer_answer(msg, flags, OP_ANSWER, 0);
			return rtpengine_offer_answer(msg, flags, OP_OFFER, 0);
		}
	}
	return -1;
}

static int rtpengine_manage_wrap(struct sip_msg *msg, void *d, int more) {
	return rtpengine_manage(msg, d);
}

static int
rtpengine_manage1_f(struct sip_msg *msg, char *str1, char *str2)
{
	str flags;

	flags.s = NULL;
	if (str1) {
		if (get_str_fparam(&flags, msg, (fparam_t *) str1)) {
			LM_ERR("Error getting string parameter\n");
			return -1;
		}
	}

	return rtpengine_rtpp_set_wrap(msg, rtpengine_manage_wrap, flags.s, 1);
}

static int rtpengine_offer_wrap(struct sip_msg *msg, void *d, int more) {
	return rtpengine_offer_answer(msg, d, OP_OFFER, more);
}

static int
rtpengine_offer1_f(struct sip_msg *msg, char *str1, char *str2)
{
	str flags;

	flags.s = NULL;
	if (str1) {
		if (get_str_fparam(&flags, msg, (fparam_t *) str1)) {
			LM_ERR("Error getting string parameter\n");
			return -1;
		}
	}

	return rtpengine_rtpp_set_wrap(msg, rtpengine_offer_wrap, flags.s, 1);
}

static int rtpengine_answer_wrap(struct sip_msg *msg, void *d, int more) {
	return rtpengine_offer_answer(msg, d, OP_ANSWER, more);
}

static int
rtpengine_answer1_f(struct sip_msg *msg, char *str1, char *str2)
{
	str flags;

	if (msg->first_line.type == SIP_REQUEST)
		if (msg->first_line.u.request.method_value != METHOD_ACK)
			return -1;

	flags.s = NULL;
	if (str1) {
		if (get_str_fparam(&flags, msg, (fparam_t *) str1)) {
			LM_ERR("Error getting string parameter\n");
			return -1;
		}
	}

	return rtpengine_rtpp_set_wrap(msg, rtpengine_answer_wrap, flags.s, 2);
}

static int
rtpengine_offer_answer(struct sip_msg *msg, const char *flags, int op, int more)
{
	bencode_buffer_t bencbuf;
	bencode_item_t *dict;
	str body, newbody;
	struct lump *anchor;
	pv_value_t pv_val;

	dict = rtpp_function_call_ok(&bencbuf, msg, op, flags, &body);
	if (!dict)
		return -1;

	if (!bencode_dictionary_get_str_dup(dict, "sdp", &newbody)) {
		LM_ERR("failed to extract sdp body from proxy reply\n");
		goto error;
	}

	if (body_intermediate.s)
		pkg_free(body_intermediate.s);

	if (more)
		body_intermediate = newbody;
	else {
		if (write_sdp_pvar!= NULL) {
			pv_val.rs = newbody;
			pv_val.flags = PV_VAL_STR;

			if (write_sdp_pvar->setf(msg,&write_sdp_pvar->pvp, (int)EQ_T, &pv_val) < 0)
			{
				LM_ERR("error setting pvar <%.*s>\n", write_sdp_pvar_str.len, write_sdp_pvar_str.s);
				goto error_free;
			}

			pkg_free(newbody.s);

		} else {
			anchor = del_lump(msg, body.s - msg->buf, body.len, 0);
			if (!anchor) {
				LM_ERR("del_lump failed\n");
				goto error_free;
			}
			if (!insert_new_lump_after(anchor, newbody.s, newbody.len, 0)) {
				LM_ERR("insert_new_lump_after failed\n");
				goto error_free;
			}
		}
	}

	bencode_buffer_free(&bencbuf);
	return 1;

error_free:
	pkg_free(newbody.s);
error:
	bencode_buffer_free(&bencbuf);
	return -1;
}


static int rtpengine_start_recording_wrap(struct sip_msg *msg, void *d, int more) {
	return rtpp_function_call_simple(msg, OP_START_RECORDING, NULL);
}

static int
start_recording_f(struct sip_msg* msg, char *foo, char *bar)
{
	return rtpengine_rtpp_set_wrap(msg, rtpengine_start_recording_wrap, NULL, 1);
}

static int rtpengine_rtpstat_wrap(struct sip_msg *msg, void *d, int more) {
	void **parms;
	pv_param_t *param;
	pv_value_t *res;
	bencode_buffer_t bencbuf;
	bencode_item_t *dict, *tot, *rtp, *rtcp;
	static char buf[256];
	str ret;

	parms = d;
	param = parms[0];
	res = parms[1];

	dict = rtpp_function_call_ok(&bencbuf, msg, OP_QUERY, NULL, NULL);
	if (!dict)
		return -1;

	tot = bencode_dictionary_get_expect(dict, "totals", BENCODE_DICTIONARY);
	rtp = bencode_dictionary_get_expect(tot, "RTP", BENCODE_DICTIONARY);
	rtcp = bencode_dictionary_get_expect(tot, "RTCP", BENCODE_DICTIONARY);

	if (!rtp || !rtcp)
		goto error;

	ret.s = buf;
	ret.len = snprintf(buf, sizeof(buf),
			"RTP: %lli bytes, %lli packets, %lli errors; "
			"RTCP: %lli bytes, %lli packets, %lli errors",
			bencode_dictionary_get_integer(rtp, "bytes", -1),
			bencode_dictionary_get_integer(rtp, "packets", -1),
			bencode_dictionary_get_integer(rtp, "errors", -1),
			bencode_dictionary_get_integer(rtcp, "bytes", -1),
			bencode_dictionary_get_integer(rtcp, "packets", -1),
			bencode_dictionary_get_integer(rtcp, "errors", -1));

	bencode_buffer_free(&bencbuf);
	return pv_get_strval(msg, param, res, &ret);

error:
	bencode_buffer_free(&bencbuf);
	return -1;
}

/*
 * Returns the current RTP-Statistics from the RTP-Proxy
 */
static int
pv_get_rtpstat_f(struct sip_msg *msg, pv_param_t *param, pv_value_t *res)
{
	void *parms[2];

	parms[0] = param;
	parms[1] = res;

	return rtpengine_rtpp_set_wrap(msg, rtpengine_rtpstat_wrap, parms, 1);
}

static int
set_rtp_inst_pvar(struct sip_msg *msg, const str * const uri) {
	pv_value_t val;

	if (rtp_inst_pvar == NULL)
		return 0;

	memset(&val, 0, sizeof(pv_value_t));
	val.flags = PV_VAL_STR;
	val.rs = *uri;

	if (rtp_inst_pvar->setf(msg, &rtp_inst_pvar->pvp, (int)EQ_T, &val) < 0) {
		LM_ERR("Failed to add RTP Engine URI to pvar\n");
		return -1;
	}
	return 0;
}

/**
 *
 */
static int ki_rtpengine_manage0(sip_msg_t *msg) {
    return rtpengine_rtpp_set_wrap(msg, rtpengine_manage_wrap, NULL, 1);
}

/**
 *
 */
static int ki_rtpengine_manage(sip_msg_t *msg, str *flags) {
    return rtpengine_rtpp_set_wrap(msg, rtpengine_manage_wrap, ((flags && flags->len > 0) ? flags->s : NULL), 1);
}

static int ki_rtpengine_offer0(sip_msg_t *msg)
{
	return rtpengine_rtpp_set_wrap(msg, rtpengine_offer_wrap, 0, 1);
}

static int ki_rtpengine_offer(sip_msg_t *msg, str *flags)
{
	return rtpengine_rtpp_set_wrap(msg, rtpengine_offer_wrap, flags->s, 1);
}

static int ki_rtpengine_answer0(sip_msg_t *msg)
{
	return rtpengine_rtpp_set_wrap(msg, rtpengine_answer_wrap, NULL, 2);
}

static int ki_rtpengine_answer(sip_msg_t *msg, str *flags)
{
	return rtpengine_rtpp_set_wrap(msg, rtpengine_answer_wrap, flags->s, 2);
}

static int ki_rtpengine_delete0(sip_msg_t *msg)
{
	return rtpengine_rtpp_set_wrap(msg, rtpengine_delete_wrap, NULL, 1);
}

static int ki_rtpengine_delete(sip_msg_t *msg, str *flags)
{
	return rtpengine_rtpp_set_wrap(msg, rtpengine_delete_wrap, flags->s, 1);
}

static int ki_start_recording(sip_msg_t *msg)
{
	return rtpengine_rtpp_set_wrap(msg, rtpengine_start_recording_wrap, NULL, 1);
}

static int ki_set_rtpengine_set(sip_msg_t *msg, int r1)
{
	rtpp_set_link_t rtpl1;
	rtpp_set_link_t rtpl2;
	int ret;

	memset(&rtpl1, 0, sizeof(rtpp_set_link_t));
	memset(&rtpl2, 0, sizeof(rtpp_set_link_t));

	if((rtpl1.rset = select_rtpp_set((unsigned int)r1)) ==0){
		LM_ERR("rtpp_proxy set %d not configured\n", r1);
		return -1;
	}

	current_msg_id = 0;
	active_rtpp_set = 0;
	selected_rtpp_set_1 = 0;
	selected_rtpp_set_2 = 0;

	ret = set_rtpengine_set_n(msg, &rtpl1, &selected_rtpp_set_1);
	if (ret < 0)
		return ret;

	return 1;
}

static int ki_set_rtpengine_set2(sip_msg_t *msg, int r1, int r2)
{
	rtpp_set_link_t rtpl1;
	rtpp_set_link_t rtpl2;
	int ret;

	memset(&rtpl1, 0, sizeof(rtpp_set_link_t));
	memset(&rtpl2, 0, sizeof(rtpp_set_link_t));

	if((rtpl1.rset = select_rtpp_set((unsigned int)r1)) ==0){
		LM_ERR("rtpp_proxy set %d not configured\n", r1);
		return -1;
	}
	if((rtpl2.rset = select_rtpp_set((unsigned int)r2)) ==0){
		LM_ERR("rtpp_proxy set %d not configured\n", r2);
		return -1;
	}

	current_msg_id = 0;
	active_rtpp_set = 0;
	selected_rtpp_set_1 = 0;
	selected_rtpp_set_2 = 0;

	ret = set_rtpengine_set_n(msg, &rtpl1, &selected_rtpp_set_1);
	if (ret < 0)
		return ret;

	ret = set_rtpengine_set_n(msg, &rtpl2, &selected_rtpp_set_2);
	if (ret < 0)
		return ret;

	return 1;
}

/**
 *
 */
static sr_kemi_t sr_kemi_rtpengine_exports[] = {
    { str_init("rtpengine"), str_init("rtpengine_manage0"),
        SR_KEMIP_INT, ki_rtpengine_manage0,
        { SR_KEMIP_NONE, SR_KEMIP_NONE, SR_KEMIP_NONE,
            SR_KEMIP_NONE, SR_KEMIP_NONE, SR_KEMIP_NONE }
    },
    { str_init("rtpengine"), str_init("rtpengine_manage"),
        SR_KEMIP_INT, ki_rtpengine_manage,
        { SR_KEMIP_STR, SR_KEMIP_NONE, SR_KEMIP_NONE,
            SR_KEMIP_NONE, SR_KEMIP_NONE, SR_KEMIP_NONE }
    },
    { str_init("rtpengine"), str_init("rtpengine_offer0"),
        SR_KEMIP_INT, ki_rtpengine_offer0,
        { SR_KEMIP_NONE, SR_KEMIP_NONE, SR_KEMIP_NONE,
            SR_KEMIP_NONE, SR_KEMIP_NONE, SR_KEMIP_NONE }
    },
    { str_init("rtpengine"), str_init("rtpengine_offer"),
        SR_KEMIP_INT, ki_rtpengine_offer,
        { SR_KEMIP_STR, SR_KEMIP_NONE, SR_KEMIP_NONE,
            SR_KEMIP_NONE, SR_KEMIP_NONE, SR_KEMIP_NONE }
    },
    { str_init("rtpengine"), str_init("rtpengine_answer0"),
        SR_KEMIP_INT, ki_rtpengine_answer0,
        { SR_KEMIP_NONE, SR_KEMIP_NONE, SR_KEMIP_NONE,
            SR_KEMIP_NONE, SR_KEMIP_NONE, SR_KEMIP_NONE }
    },
    { str_init("rtpengine"), str_init("rtpengine_answer"),
        SR_KEMIP_INT, ki_rtpengine_answer,
        { SR_KEMIP_STR, SR_KEMIP_NONE, SR_KEMIP_NONE,
            SR_KEMIP_NONE, SR_KEMIP_NONE, SR_KEMIP_NONE }
    },
    { str_init("rtpengine"), str_init("rtpengine_delete0"),
        SR_KEMIP_INT, ki_rtpengine_delete0,
        { SR_KEMIP_NONE, SR_KEMIP_NONE, SR_KEMIP_NONE,
            SR_KEMIP_NONE, SR_KEMIP_NONE, SR_KEMIP_NONE }
    },
    { str_init("rtpengine"), str_init("rtpengine_delete"),
        SR_KEMIP_INT, ki_rtpengine_delete,
        { SR_KEMIP_STR, SR_KEMIP_NONE, SR_KEMIP_NONE,
            SR_KEMIP_NONE, SR_KEMIP_NONE, SR_KEMIP_NONE }
    },
    { str_init("rtpengine"), str_init("start_recording"),
        SR_KEMIP_INT, ki_start_recording,
        { SR_KEMIP_NONE, SR_KEMIP_NONE, SR_KEMIP_NONE,
            SR_KEMIP_NONE, SR_KEMIP_NONE, SR_KEMIP_NONE }
    },
    { str_init("rtpengine"), str_init("set_rtpengine_set"),
        SR_KEMIP_INT, ki_set_rtpengine_set,
        { SR_KEMIP_INT, SR_KEMIP_NONE, SR_KEMIP_NONE,
            SR_KEMIP_NONE, SR_KEMIP_NONE, SR_KEMIP_NONE }
    },
    { str_init("rtpengine"), str_init("set_rtpengine_set2"),
        SR_KEMIP_INT, ki_set_rtpengine_set2,
        { SR_KEMIP_INT, SR_KEMIP_NONE, SR_KEMIP_NONE,
            SR_KEMIP_NONE, SR_KEMIP_NONE, SR_KEMIP_NONE }
    },

    { {0, 0}, {0, 0}, 0, NULL, { 0, 0, 0, 0, 0, 0 } }
};

int mod_register(char *path, int *dlflags, void *p1, void *p2) {
    sr_kemi_modules_add(sr_kemi_rtpengine_exports);
    return 0;
}