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/* GPRS Networks Service (NS) messages on the Gb interface
 * 3GPP TS 08.16 version 8.0.1 Release 1999 / ETSI TS 101 299 V8.0.1 (2002-05) */

/* (C) 2009-2012 by Harald Welte <laforge@gnumonks.org>
 *
 * All Rights Reserved
 *
 * This program is free software; you can redistribute it and/or modify
 * it under the terms of the GNU Affero General Public License as published by
 * the Free Software Foundation; either version 3 of the License, or
 * (at your option) any later version.
 *
 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU Affero General Public License for more details.
 *
 * You should have received a copy of the GNU Affero General Public License
 * along with this program.  If not, see <http://www.gnu.org/licenses/>.
 *
 */

/*! \addtogroup libgb
 *  @{
 */

/*! \file gprs_ns.c */

/*!
 * GPRS Networks Service (NS) messages on the Gb interface
 * 3GPP TS 08.16 version 8.0.1 Release 1999 / ETSI TS 101 299 V8.0.1 (2002-05) 
 *
 * Some introduction into NS:  NS is used typically on top of frame relay,
 * but in the ip.access world it is encapsulated in UDP packets.  It serves
 * as an intermediate shim betwen BSSGP and the underlying medium.  It doesn't
 * do much, apart from providing congestion notification and status indication.
 *
 * Terms:
 * 	NS		Network Service
 *	NSVC		NS Virtual Connection
 *	NSEI		NS Entity Identifier
 *	NSVL		NS Virtual Link
 *	NSVLI		NS Virtual Link Identifier
 *	BVC		BSSGP Virtual Connection
 *	BVCI		BSSGP Virtual Connection Identifier
 *	NSVCG		NS Virtual Connection Goup
 *	Blocked		NS-VC cannot be used for user traffic
 *	Alive		Ability of a NS-VC to provide communication
 *
 *  There can be multiple BSSGP virtual connections over one (group of) NSVC's.  BSSGP will
 * therefore identify the BSSGP virtual connection by a BVCI passed down to NS.
 * NS then has to firgure out which NSVC's are responsible for this BVCI.
 * Those mappings are administratively configured.
 */

/* This implementation has the following limitations:
 *  o Only one NS-VC for each NSE: No load-sharing function
 *  o NSVCI 65535 and 65534 are reserved for internal use
 *  o Only UDP is supported as of now, no frame relay support
 *  o The IP Sub-Network-Service (SNS) as specified in 48.016 is not implemented
 *  o There are no BLOCK and UNBLOCK timers (yet?)
 */

#include <stdlib.h>
#include <unistd.h>
#include <errno.h>
#include <stdint.h>

#include <arpa/inet.h>

#include <osmocom/core/msgb.h>
#include <osmocom/gsm/tlv.h>
#include <osmocom/core/talloc.h>
#include <osmocom/core/select.h>
#include <osmocom/core/rate_ctr.h>
#include <osmocom/core/socket.h>
#include <osmocom/core/signal.h>
#include <osmocom/gprs/gprs_ns.h>
#include <osmocom/gprs/gprs_bssgp.h>
#include <osmocom/gprs/gprs_ns_frgre.h>

#include "common_vty.h"

static const struct tlv_definition ns_att_tlvdef = {
	.def = {
		[NS_IE_CAUSE]	= { TLV_TYPE_TvLV, 0 },
		[NS_IE_VCI]	= { TLV_TYPE_TvLV, 0 },
		[NS_IE_PDU]	= { TLV_TYPE_TvLV, 0 },
		[NS_IE_BVCI]	= { TLV_TYPE_TvLV, 0 },
		[NS_IE_NSEI]	= { TLV_TYPE_TvLV, 0 },
	},
};

enum ns_ctr {
	NS_CTR_PKTS_IN,
	NS_CTR_PKTS_OUT,
	NS_CTR_BYTES_IN,
	NS_CTR_BYTES_OUT,
	NS_CTR_BLOCKED,
	NS_CTR_DEAD,
};

static const struct rate_ctr_desc nsvc_ctr_description[] = {
	{ "packets.in", "Packets at NS Level ( In)" },
	{ "packets.out","Packets at NS Level (Out)" },
	{ "bytes.in",	"Bytes at NS Level   ( In)" },
	{ "bytes.out",	"Bytes at NS Level   (Out)" },
	{ "blocked",	"NS-VC Block count        " },
	{ "dead",	"NS-VC gone dead count    " },
};

static const struct rate_ctr_group_desc nsvc_ctrg_desc = {
	.group_name_prefix = "ns.nsvc",
	.group_description = "NSVC Peer Statistics",
	.num_ctr = ARRAY_SIZE(nsvc_ctr_description),
	.ctr_desc = nsvc_ctr_description,
};

/*! \brief Lookup struct gprs_nsvc based on NSVCI
 *  \param[in] nsi NS instance in which to search
 *  \param[in] nsvci NSVCI to be searched
 *  \returns gprs_nsvc of respective NSVCI
 */
struct gprs_nsvc *gprs_nsvc_by_nsvci(struct gprs_ns_inst *nsi, uint16_t nsvci)
{
	struct gprs_nsvc *nsvc;
	llist_for_each_entry(nsvc, &nsi->gprs_nsvcs, list) {
		if (nsvc->nsvci == nsvci)
			return nsvc;
	}
	return NULL;
}

/*! \brief Lookup struct gprs_nsvc based on NSEI
 *  \param[in] nsi NS instance in which to search
 *  \param[in] nsei NSEI to be searched
 *  \returns gprs_nsvc of respective NSEI
 */
struct gprs_nsvc *gprs_nsvc_by_nsei(struct gprs_ns_inst *nsi, uint16_t nsei)
{
	struct gprs_nsvc *nsvc;
	llist_for_each_entry(nsvc, &nsi->gprs_nsvcs, list) {
		if (nsvc->nsei == nsei)
			return nsvc;
	}
	return NULL;
}

/* Lookup struct gprs_nsvc based on remote peer socket addr */
static struct gprs_nsvc *nsvc_by_rem_addr(struct gprs_ns_inst *nsi,
					  struct sockaddr_in *sin)
{
	struct gprs_nsvc *nsvc;
	llist_for_each_entry(nsvc, &nsi->gprs_nsvcs, list) {
		if (nsvc->ip.bts_addr.sin_addr.s_addr ==
					sin->sin_addr.s_addr &&
		    nsvc->ip.bts_addr.sin_port == sin->sin_port)
			return nsvc;
	}
	return NULL;
}

static void gprs_ns_timer_cb(void *data);

struct gprs_nsvc *gprs_nsvc_create(struct gprs_ns_inst *nsi, uint16_t nsvci)
{
	struct gprs_nsvc *nsvc;

	LOGP(DNS, LOGL_INFO, "NSVCI=%u Creating NS-VC\n", nsvci);

	nsvc = talloc_zero(nsi, struct gprs_nsvc);
	nsvc->nsvci = nsvci;
	/* before RESET procedure: BLOCKED and DEAD */
	nsvc->state = NSE_S_BLOCKED;
	nsvc->nsi = nsi;
	nsvc->timer.cb = gprs_ns_timer_cb;
	nsvc->timer.data = nsvc;
	nsvc->ctrg = rate_ctr_group_alloc(nsvc, &nsvc_ctrg_desc, nsvci);

	llist_add(&nsvc->list, &nsi->gprs_nsvcs);

	return nsvc;
}

/*! \brief Delete given NS-VC
 *  \param[in] nsvc gprs_nsvc to be deleted
 */
void gprs_nsvc_delete(struct gprs_nsvc *nsvc)
{
	if (osmo_timer_pending(&nsvc->timer))
		osmo_timer_del(&nsvc->timer);
	llist_del(&nsvc->list);
	talloc_free(nsvc);
}

static void ns_osmo_signal_dispatch(struct gprs_nsvc *nsvc, unsigned int signal,
			       uint8_t cause)
{
	struct ns_signal_data nssd;

	nssd.nsvc = nsvc;
	nssd.cause = cause;

	osmo_signal_dispatch(SS_L_NS, signal, &nssd);
}

/* Section 10.3.2, Table 13 */
static const struct value_string ns_cause_str[] = {
	{ NS_CAUSE_TRANSIT_FAIL,	"Transit network failure" },
	{ NS_CAUSE_OM_INTERVENTION, 	"O&M intervention" },
	{ NS_CAUSE_EQUIP_FAIL,		"Equipment failure" },
	{ NS_CAUSE_NSVC_BLOCKED,	"NS-VC blocked" },
	{ NS_CAUSE_NSVC_UNKNOWN,	"NS-VC unknown" },
	{ NS_CAUSE_BVCI_UNKNOWN,	"BVCI unknown" },
	{ NS_CAUSE_SEM_INCORR_PDU,	"Semantically incorrect PDU" },
	{ NS_CAUSE_PDU_INCOMP_PSTATE,	"PDU not compatible with protocol state" },
	{ NS_CAUSE_PROTO_ERR_UNSPEC,	"Protocol error, unspecified" },
	{ NS_CAUSE_INVAL_ESSENT_IE,	"Invalid essential IE" },
	{ NS_CAUSE_MISSING_ESSENT_IE,	"Missing essential IE" },
	{ 0, NULL }
};

/*! \brief Obtain a human-readable string for NS cause value */
const char *gprs_ns_cause_str(enum ns_cause cause)
{
	return get_value_string(ns_cause_str, cause);
}

static int nsip_sendmsg(struct gprs_nsvc *nsvc, struct msgb *msg);
extern int grps_ns_frgre_sendmsg(struct gprs_nsvc *nsvc, struct msgb *msg);

static int gprs_ns_tx(struct gprs_nsvc *nsvc, struct msgb *msg)
{
	int ret;

	log_set_context(GPRS_CTX_NSVC, nsvc);

	/* Increment number of Uplink bytes */
	rate_ctr_inc(&nsvc->ctrg->ctr[NS_CTR_PKTS_OUT]);
	rate_ctr_add(&nsvc->ctrg->ctr[NS_CTR_BYTES_OUT], msgb_l2len(msg));

	switch (nsvc->ll) {
	case GPRS_NS_LL_UDP:
		ret = nsip_sendmsg(nsvc, msg);
		break;
	case GPRS_NS_LL_FR_GRE:
		ret = gprs_ns_frgre_sendmsg(nsvc, msg);
		break;
	default:
		LOGP(DNS, LOGL_ERROR, "unsupported NS linklayer %u\n", nsvc->ll);
		msgb_free(msg);
		ret = -EIO;
		break;
	}
	return ret;
}

static int gprs_ns_tx_simple(struct gprs_nsvc *nsvc, uint8_t pdu_type)
{
	struct msgb *msg = gprs_ns_msgb_alloc();
	struct gprs_ns_hdr *nsh;

	log_set_context(GPRS_CTX_NSVC, nsvc);

	if (!msg)
		return -ENOMEM;

	msg->l2h = msgb_put(msg, sizeof(*nsh));
	nsh = (struct gprs_ns_hdr *) msg->l2h;

	nsh->pdu_type = pdu_type;

	return gprs_ns_tx(nsvc, msg);
}

/*! \brief Transmit a NS-RESET on a given NSVC
 *  \param[in] nsvc NS-VC used for transmission
 *  \paam[in] cause Numeric NS cause value
 */
int gprs_ns_tx_reset(struct gprs_nsvc *nsvc, uint8_t cause)
{
	struct msgb *msg = gprs_ns_msgb_alloc();
	struct gprs_ns_hdr *nsh;
	uint16_t nsvci = htons(nsvc->nsvci);
	uint16_t nsei = htons(nsvc->nsei);

	log_set_context(GPRS_CTX_NSVC, nsvc);

	if (!msg)
		return -ENOMEM;

	LOGP(DNS, LOGL_INFO, "NSEI=%u Tx NS RESET (NSVCI=%u, cause=%s)\n",
		nsvc->nsei, nsvc->nsvci, gprs_ns_cause_str(cause));

	msg->l2h = msgb_put(msg, sizeof(*nsh));
	nsh = (struct gprs_ns_hdr *) msg->l2h;
	nsh->pdu_type = NS_PDUT_RESET;

	msgb_tvlv_put(msg, NS_IE_CAUSE, 1, &cause);
	msgb_tvlv_put(msg, NS_IE_VCI, 2, (uint8_t *) &nsvci);
	msgb_tvlv_put(msg, NS_IE_NSEI, 2, (uint8_t *) &nsei);

	return gprs_ns_tx(nsvc, msg);

}

/*! \brief Transmit a NS-STATUS on a given NSVC
 *  \param[in] nsvc NS-VC to be used for transmission
 *  \param[in] cause Numeric NS cause value
 *  \param[in] bvci BVCI to be reset within NSVC
 *  \param[in] orig_msg message causing the STATUS */
int gprs_ns_tx_status(struct gprs_nsvc *nsvc, uint8_t cause,
		      uint16_t bvci, struct msgb *orig_msg)
{
	struct msgb *msg = gprs_ns_msgb_alloc();
	struct gprs_ns_hdr *nsh;
	uint16_t nsvci = htons(nsvc->nsvci);

	log_set_context(GPRS_CTX_NSVC, nsvc);

	bvci = htons(bvci);

	if (!msg)
		return -ENOMEM;

	LOGP(DNS, LOGL_NOTICE, "NSEI=%u Tx NS STATUS (NSVCI=%u, cause=%s)\n",
		nsvc->nsei, nsvc->nsvci, gprs_ns_cause_str(cause));

	msg->l2h = msgb_put(msg, sizeof(*nsh));
	nsh = (struct gprs_ns_hdr *) msg->l2h;
	nsh->pdu_type = NS_PDUT_STATUS;

	msgb_tvlv_put(msg, NS_IE_CAUSE, 1, &cause);

	/* Section 9.2.7.1: Static conditions for NS-VCI */
	if (cause == NS_CAUSE_NSVC_BLOCKED ||
	    cause == NS_CAUSE_NSVC_UNKNOWN)
		msgb_tvlv_put(msg, NS_IE_VCI, 2, (uint8_t *)&nsvci);

	/* Section 9.2.7.2: Static conditions for NS PDU */
	switch (cause) {
	case NS_CAUSE_SEM_INCORR_PDU:
	case NS_CAUSE_PDU_INCOMP_PSTATE:
	case NS_CAUSE_PROTO_ERR_UNSPEC:
	case NS_CAUSE_INVAL_ESSENT_IE:
	case NS_CAUSE_MISSING_ESSENT_IE:
		msgb_tvlv_put(msg, NS_IE_PDU, msgb_l2len(orig_msg),
			      orig_msg->l2h);
		break;
	default:
		break;
	}

	/* Section 9.2.7.3: Static conditions for BVCI */
	if (cause == NS_CAUSE_BVCI_UNKNOWN)
		msgb_tvlv_put(msg, NS_IE_VCI, 2, (uint8_t *)&bvci);

	return gprs_ns_tx(nsvc, msg);
}

/*! \brief Transmit a NS-BLOCK on a tiven NS-VC
 *  \param[in] nsvc NS-VC on which the NS-BLOCK is to be transmitted
 *  \param[in] cause Numeric NS Cause value
 *  \returns 0 in case of success
 */
int gprs_ns_tx_block(struct gprs_nsvc *nsvc, uint8_t cause)
{
	struct msgb *msg = gprs_ns_msgb_alloc();
	struct gprs_ns_hdr *nsh;
	uint16_t nsvci = htons(nsvc->nsvci);

	log_set_context(GPRS_CTX_NSVC, nsvc);

	if (!msg)
		return -ENOMEM;

	LOGP(DNS, LOGL_INFO, "NSEI=%u Tx NS BLOCK (NSVCI=%u, cause=%s)\n",
		nsvc->nsei, nsvc->nsvci, gprs_ns_cause_str(cause));

	/* be conservative and mark it as blocked even now! */
	nsvc->state |= NSE_S_BLOCKED;
	rate_ctr_inc(&nsvc->ctrg->ctr[NS_CTR_BLOCKED]);

	msg->l2h = msgb_put(msg, sizeof(*nsh));
	nsh = (struct gprs_ns_hdr *) msg->l2h;
	nsh->pdu_type = NS_PDUT_BLOCK;

	msgb_tvlv_put(msg, NS_IE_CAUSE, 1, &cause);
	msgb_tvlv_put(msg, NS_IE_VCI, 2, (uint8_t *) &nsvci);

	return gprs_ns_tx(nsvc, msg);
}

/*! \brief Transmit a NS-UNBLOCK on a given NS-VC
 *  \param[in] nsvc NS-VC on which the NS-UNBLOCK is to be transmitted
 *  \returns 0 in case of success
 */
int gprs_ns_tx_unblock(struct gprs_nsvc *nsvc)
{
	log_set_context(GPRS_CTX_NSVC, nsvc);
	LOGP(DNS, LOGL_INFO, "NSEI=%u Tx NS UNBLOCK (NSVCI=%u)\n",
		nsvc->nsei, nsvc->nsvci);

	return gprs_ns_tx_simple(nsvc, NS_PDUT_UNBLOCK);
}

/*! \brief Transmit a NS-ALIVE on a given NS-VC
 *  \param[in] nsvc NS-VC on which the NS-ALIVE is to be transmitted
 *  \returns 0 in case of success
 */
int gprs_ns_tx_alive(struct gprs_nsvc *nsvc)
{
	log_set_context(GPRS_CTX_NSVC, nsvc);
	LOGP(DNS, LOGL_DEBUG, "NSEI=%u Tx NS ALIVE (NSVCI=%u)\n",
		nsvc->nsei, nsvc->nsvci);

	return gprs_ns_tx_simple(nsvc, NS_PDUT_ALIVE);
}

/*! \brief Transmit a NS-ALIVE-ACK on a given NS-VC
 *  \param[in] nsvc NS-VC on which the NS-ALIVE-ACK is to be transmitted
 *  \returns 0 in case of success
 */
int gprs_ns_tx_alive_ack(struct gprs_nsvc *nsvc)
{
	log_set_context(GPRS_CTX_NSVC, nsvc);
	LOGP(DNS, LOGL_DEBUG, "NSEI=%u Tx NS ALIVE_ACK (NSVCI=%u)\n",
		nsvc->nsei, nsvc->nsvci);

	return gprs_ns_tx_simple(nsvc, NS_PDUT_ALIVE_ACK);
}

static const enum ns_timeout timer_mode_tout[_NSVC_TIMER_NR] = {
	[NSVC_TIMER_TNS_RESET]	= NS_TOUT_TNS_RESET,
	[NSVC_TIMER_TNS_ALIVE]	= NS_TOUT_TNS_ALIVE,
	[NSVC_TIMER_TNS_TEST]	= NS_TOUT_TNS_TEST,
};

static const struct value_string timer_mode_strs[] = {
	{ NSVC_TIMER_TNS_RESET, "tns-reset" },
	{ NSVC_TIMER_TNS_ALIVE, "tns-alive" },
	{ NSVC_TIMER_TNS_TEST, "tns-test" },
	{ 0, NULL }
};

static void nsvc_start_timer(struct gprs_nsvc *nsvc, enum nsvc_timer_mode mode)
{
	enum ns_timeout tout = timer_mode_tout[mode];
	unsigned int seconds = nsvc->nsi->timeout[tout];

	log_set_context(GPRS_CTX_NSVC, nsvc);
	DEBUGP(DNS, "NSEI=%u Starting timer in mode %s (%u seconds)\n",
		nsvc->nsei, get_value_string(timer_mode_strs, mode),
		seconds);
		
	if (osmo_timer_pending(&nsvc->timer))
		osmo_timer_del(&nsvc->timer);

	nsvc->timer_mode = mode;
	osmo_timer_schedule(&nsvc->timer, seconds, 0);
}

static void gprs_ns_timer_cb(void *data)
{
	struct gprs_nsvc *nsvc = data;
	enum ns_timeout tout = timer_mode_tout[nsvc->timer_mode];
	unsigned int seconds = nsvc->nsi->timeout[tout];

	log_set_context(GPRS_CTX_NSVC, nsvc);
	DEBUGP(DNS, "NSEI=%u Timer expired in mode %s (%u seconds)\n",
		nsvc->nsei, get_value_string(timer_mode_strs, nsvc->timer_mode),
		seconds);
		
	switch (nsvc->timer_mode) {
	case NSVC_TIMER_TNS_ALIVE:
		/* Tns-alive case: we expired without response ! */
		nsvc->alive_retries++;
		if (nsvc->alive_retries >
			nsvc->nsi->timeout[NS_TOUT_TNS_ALIVE_RETRIES]) {
			/* mark as dead and blocked */
			nsvc->state = NSE_S_BLOCKED;
			rate_ctr_inc(&nsvc->ctrg->ctr[NS_CTR_BLOCKED]);
			rate_ctr_inc(&nsvc->ctrg->ctr[NS_CTR_DEAD]);
			LOGP(DNS, LOGL_NOTICE,
				"NSEI=%u Tns-alive expired more then "
				"%u times, blocking NS-VC\n", nsvc->nsei,
				nsvc->nsi->timeout[NS_TOUT_TNS_ALIVE_RETRIES]);
			ns_osmo_signal_dispatch(nsvc, S_NS_ALIVE_EXP, 0);
			ns_osmo_signal_dispatch(nsvc, S_NS_BLOCK, NS_CAUSE_NSVC_BLOCKED);
			return;
		}
		/* Tns-test case: send NS-ALIVE PDU */
		gprs_ns_tx_alive(nsvc);
		/* start Tns-alive timer */
		nsvc_start_timer(nsvc, NSVC_TIMER_TNS_ALIVE);
		break;
	case NSVC_TIMER_TNS_TEST:
		/* Tns-test case: send NS-ALIVE PDU */
		gprs_ns_tx_alive(nsvc);
		/* start Tns-alive timer (transition into faster
		 * alive retransmissions) */
		nsvc->alive_retries = 0;
		nsvc_start_timer(nsvc, NSVC_TIMER_TNS_ALIVE);
		break;
	case NSVC_TIMER_TNS_RESET:
		/* Chapter 7.3: Re-send the RESET */
		gprs_ns_tx_reset(nsvc, NS_CAUSE_OM_INTERVENTION);
		/* Re-start Tns-reset timer */
		nsvc_start_timer(nsvc, NSVC_TIMER_TNS_RESET);
		break;
	case _NSVC_TIMER_NR:
		break;
	}
}

/* Section 9.2.6 */
static int gprs_ns_tx_reset_ack(struct gprs_nsvc *nsvc)
{
	struct msgb *msg = gprs_ns_msgb_alloc();
	struct gprs_ns_hdr *nsh;
	uint16_t nsvci, nsei;

	log_set_context(GPRS_CTX_NSVC, nsvc);
	if (!msg)
		return -ENOMEM;

	nsvci = htons(nsvc->nsvci);
	nsei = htons(nsvc->nsei);

	msg->l2h = msgb_put(msg, sizeof(*nsh));
	nsh = (struct gprs_ns_hdr *) msg->l2h;

	nsh->pdu_type = NS_PDUT_RESET_ACK;

	LOGP(DNS, LOGL_INFO, "NSEI=%u Tx NS RESET ACK (NSVCI=%u)\n",
		nsvc->nsei, nsvc->nsvci);

	msgb_tvlv_put(msg, NS_IE_VCI, 2, (uint8_t *)&nsvci);
	msgb_tvlv_put(msg, NS_IE_NSEI, 2, (uint8_t *)&nsei);

	return gprs_ns_tx(nsvc, msg);
}

/*! \brief High-level function for transmitting a NS-UNITDATA messsage
 *  \param[in] nsi NS-instance on which we shall transmit
 *  \param[in] msg struct msgb to be trasnmitted
 *
 * This function obtains the NS-VC by the msgb_nsei(msg) and then checks
 * if the NS-VC is ALIVEV and not BLOCKED.  After that, it adds a NS
 * header for the NS-UNITDATA message type and sends it off.
 *
 * Section 9.2.10: transmit side / NS-UNITDATA-REQUEST primitive 
 */
int gprs_ns_sendmsg(struct gprs_ns_inst *nsi, struct msgb *msg)
{
	struct gprs_nsvc *nsvc;
	struct gprs_ns_hdr *nsh;
	uint16_t bvci = msgb_bvci(msg);

	nsvc = gprs_nsvc_by_nsei(nsi, msgb_nsei(msg));
	if (!nsvc) {
		LOGP(DNS, LOGL_ERROR, "Unable to resolve NSEI %u "
			"to NS-VC!\n", msgb_nsei(msg));
		msgb_free(msg);
		return -EINVAL;
	}
	log_set_context(GPRS_CTX_NSVC, nsvc);

	if (!(nsvc->state & NSE_S_ALIVE)) {
		LOGP(DNS, LOGL_ERROR, "NSEI=%u is not alive, cannot send\n",
			nsvc->nsei);
		msgb_free(msg);
		return -EBUSY;
	}
	if (nsvc->state & NSE_S_BLOCKED) {
		LOGP(DNS, LOGL_ERROR, "NSEI=%u is blocked, cannot send\n",
			nsvc->nsei);
		msgb_free(msg);
		return -EBUSY;
	}

	msg->l2h = msgb_push(msg, sizeof(*nsh) + 3);
	nsh = (struct gprs_ns_hdr *) msg->l2h;
	if (!nsh) {
		LOGP(DNS, LOGL_ERROR, "Not enough headroom for NS header\n");
		msgb_free(msg);
		return -EIO;
	}

	nsh->pdu_type = NS_PDUT_UNITDATA;
	/* spare octet in data[0] */
	nsh->data[1] = bvci >> 8;
	nsh->data[2] = bvci & 0xff;

	return gprs_ns_tx(nsvc, msg);
}

/* Section 9.2.10: receive side */
static int gprs_ns_rx_unitdata(struct gprs_nsvc *nsvc, struct msgb *msg)
{
	struct gprs_ns_hdr *nsh = (struct gprs_ns_hdr *)msg->l2h;
	uint16_t bvci;

	if (nsvc->state & NSE_S_BLOCKED)
		return gprs_ns_tx_status(nsvc, NS_CAUSE_NSVC_BLOCKED,
					 0, msg);

	/* spare octet in data[0] */
	bvci = nsh->data[1] << 8 | nsh->data[2];
	msgb_bssgph(msg) = &nsh->data[3];
	msgb_bvci(msg) = bvci;

	/* call upper layer (BSSGP) */
	return nsvc->nsi->cb(GPRS_NS_EVT_UNIT_DATA, nsvc, msg, bvci);
}

/* Section 9.2.7 */
static int gprs_ns_rx_status(struct gprs_nsvc *nsvc, struct msgb *msg)
{
	struct gprs_ns_hdr *nsh = (struct gprs_ns_hdr *) msg->l2h;
	struct tlv_parsed tp;
	uint8_t cause;
	int rc;

	LOGP(DNS, LOGL_NOTICE, "NSEI=%u Rx NS STATUS ", nsvc->nsei);

	rc = tlv_parse(&tp, &ns_att_tlvdef, nsh->data,
			msgb_l2len(msg) - sizeof(*nsh), 0, 0);
	if (rc < 0) {
		LOGPC(DNS, LOGL_NOTICE, "Error during TLV Parse\n");
		LOGP(DNS, LOGL_ERROR, "NSEI=%u Rx NS STATUS: "
			"Error during TLV Parse\n", nsvc->nsei);
		return rc;
	}

	if (!TLVP_PRESENT(&tp, NS_IE_CAUSE)) {
		LOGPC(DNS, LOGL_INFO, "missing cause IE\n");
		return -EINVAL;
	}

	cause = *TLVP_VAL(&tp, NS_IE_CAUSE);
	LOGPC(DNS, LOGL_NOTICE, "cause=%s\n", gprs_ns_cause_str(cause));

	return 0;
}

/* Section 7.3 */
static int gprs_ns_rx_reset(struct gprs_nsvc *nsvc, struct msgb *msg)
{
	struct gprs_ns_hdr *nsh = (struct gprs_ns_hdr *) msg->l2h;
	struct tlv_parsed tp;
	uint8_t *cause;
	uint16_t *nsvci, *nsei;
	int rc;

	rc = tlv_parse(&tp, &ns_att_tlvdef, nsh->data,
			msgb_l2len(msg) - sizeof(*nsh), 0, 0);
	if (rc < 0) {
		LOGP(DNS, LOGL_ERROR, "NSEI=%u Rx NS RESET "
			"Error during TLV Parse\n", nsvc->nsei);
		return rc;
	}

	if (!TLVP_PRESENT(&tp, NS_IE_CAUSE) ||
	    !TLVP_PRESENT(&tp, NS_IE_VCI) ||
	    !TLVP_PRESENT(&tp, NS_IE_NSEI)) {
		LOGP(DNS, LOGL_ERROR, "NS RESET Missing mandatory IE\n");
		gprs_ns_tx_status(nsvc, NS_CAUSE_MISSING_ESSENT_IE, 0, msg);
		return -EINVAL;
	}

	cause = (uint8_t *) TLVP_VAL(&tp, NS_IE_CAUSE);
	nsvci = (uint16_t *) TLVP_VAL(&tp, NS_IE_VCI);
	nsei = (uint16_t *) TLVP_VAL(&tp, NS_IE_NSEI);

	LOGP(DNS, LOGL_INFO, "NSEI=%u Rx NS RESET (NSVCI=%u, cause=%s)\n",
		nsvc->nsvci, nsvc->nsei, gprs_ns_cause_str(*cause));

	/* Mark NS-VC as blocked and alive */
	nsvc->state = NSE_S_BLOCKED | NSE_S_ALIVE;

	nsvc->nsei = ntohs(*nsei);
	nsvc->nsvci = ntohs(*nsvci);

	/* start the test procedure */
	gprs_ns_tx_simple(nsvc, NS_PDUT_ALIVE);
	nsvc_start_timer(nsvc, NSVC_TIMER_TNS_TEST);

	/* inform interested parties about the fact that this NSVC
	 * has received RESET */
	ns_osmo_signal_dispatch(nsvc, S_NS_RESET, *cause);

	return gprs_ns_tx_reset_ack(nsvc);
}

static int gprs_ns_rx_block(struct gprs_nsvc *nsvc, struct msgb *msg)
{
	struct gprs_ns_hdr *nsh = (struct gprs_ns_hdr *) msg->l2h;
	struct tlv_parsed tp;
	uint8_t *cause;
	int rc;

	LOGP(DNS, LOGL_INFO, "NSEI=%u Rx NS BLOCK\n", nsvc->nsei);

	nsvc->state |= NSE_S_BLOCKED;

	rc = tlv_parse(&tp, &ns_att_tlvdef, nsh->data,
			msgb_l2len(msg) - sizeof(*nsh), 0, 0);
	if (rc < 0) {
		LOGP(DNS, LOGL_ERROR, "NSEI=%u Rx NS BLOCK "
			"Error during TLV Parse\n", nsvc->nsei);
		return rc;
	}

	if (!TLVP_PRESENT(&tp, NS_IE_CAUSE) ||
	    !TLVP_PRESENT(&tp, NS_IE_VCI)) {
		LOGP(DNS, LOGL_ERROR, "NS RESET Missing mandatory IE\n");
		gprs_ns_tx_status(nsvc, NS_CAUSE_MISSING_ESSENT_IE, 0, msg);
		return -EINVAL;
	}

	cause = (uint8_t *) TLVP_VAL(&tp, NS_IE_CAUSE);
	//nsvci = (uint16_t *) TLVP_VAL(&tp, NS_IE_VCI);

	ns_osmo_signal_dispatch(nsvc, S_NS_BLOCK, *cause);
	rate_ctr_inc(&nsvc->ctrg->ctr[NS_CTR_BLOCKED]);

	return gprs_ns_tx_simple(nsvc, NS_PDUT_BLOCK_ACK);
}

/*! \brief Receive incoming NS message from underlying transport layer
 *  \param nsi NS instance to which the data belongs
 *  \param[in] msg message buffer containing newly-received data
 *  \param[in] saddr socketaddr from which data was received
 *  \param[in] ll link-layer type in which data was received
 *  \returns 0 in case of success, < 0 in case of error
 *
 * This is the main entry point int othe NS imlementation where frames
 * from the underlying transport (normally UDP) enter.
 */
int gprs_ns_rcvmsg(struct gprs_ns_inst *nsi, struct msgb *msg,
		   struct sockaddr_in *saddr, enum gprs_ns_ll ll)
{
	struct gprs_ns_hdr *nsh = (struct gprs_ns_hdr *) msg->l2h;
	struct gprs_nsvc *nsvc;
	int rc = 0;

	/* look up the NSVC based on source address */
	nsvc = nsvc_by_rem_addr(nsi, saddr);
	if (!nsvc) {
		struct tlv_parsed tp;
		uint16_t nsei;
		if (nsh->pdu_type == NS_PDUT_STATUS) {
			LOGP(DNS, LOGL_INFO, "Ignoring NS STATUS from %s:%u "
			     "for non-existing NS-VC\n",
			     inet_ntoa(saddr->sin_addr), ntohs(saddr->sin_port));
			return 0;
		}
		/* Only the RESET procedure creates a new NSVC */
		if (nsh->pdu_type != NS_PDUT_RESET) {
			/* Since we have no NSVC, we have to use a fake */
			nsvc = nsi->unknown_nsvc;
			log_set_context(GPRS_CTX_NSVC, nsvc);
			LOGP(DNS, LOGL_INFO, "Rejecting NS PDU type 0x%0x "
				"from %s:%u for non-existing NS-VC\n",
				nsh->pdu_type, inet_ntoa(saddr->sin_addr),
				ntohs(saddr->sin_port));
			nsvc->nsvci = nsvc->nsei = 0xfffe;
			nsvc->ip.bts_addr = *saddr;
			nsvc->state = NSE_S_ALIVE;
			nsvc->ll = ll;
#if 0
			return gprs_ns_tx_reset(nsvc, NS_CAUSE_PDU_INCOMP_PSTATE);
#else
			return gprs_ns_tx_status(nsvc,
						NS_CAUSE_PDU_INCOMP_PSTATE, 0,
						msg);
#endif
		}
		rc = tlv_parse(&tp, &ns_att_tlvdef, nsh->data,
				msgb_l2len(msg) - sizeof(*nsh), 0, 0);
		if (rc < 0) {
			LOGP(DNS, LOGL_ERROR, "Rx NS RESET Error %d during "
				"TLV Parse\n", rc);
			return rc;
		}
		if (!TLVP_PRESENT(&tp, NS_IE_CAUSE) ||
		    !TLVP_PRESENT(&tp, NS_IE_VCI) ||
		    !TLVP_PRESENT(&tp, NS_IE_NSEI)) {
			LOGP(DNS, LOGL_ERROR, "NS RESET Missing mandatory IE\n");
			gprs_ns_tx_status(nsvc, NS_CAUSE_MISSING_ESSENT_IE, 0,
					  msg);
			return -EINVAL;
		}
		nsei = ntohs(*(uint16_t *)TLVP_VAL(&tp, NS_IE_NSEI));
		/* Check if we already know this NSEI, the remote end might
		 * simply have changed addresses, or it is a SGSN */
		nsvc = gprs_nsvc_by_nsei(nsi, nsei);
		if (!nsvc) {
			nsvc = gprs_nsvc_create(nsi, 0xffff);
			nsvc->ll = ll;
			log_set_context(GPRS_CTX_NSVC, nsvc);
			LOGP(DNS, LOGL_INFO, "Creating NS-VC for BSS at %s:%u\n",
				inet_ntoa(saddr->sin_addr), ntohs(saddr->sin_port));
		}
		/* Update the remote peer IP address/port */
		nsvc->ip.bts_addr = *saddr;
	} else
		msgb_nsei(msg) = nsvc->nsei;

	log_set_context(GPRS_CTX_NSVC, nsvc);

	/* Increment number of Incoming bytes */
	rate_ctr_inc(&nsvc->ctrg->ctr[NS_CTR_PKTS_IN]);
	rate_ctr_add(&nsvc->ctrg->ctr[NS_CTR_BYTES_IN], msgb_l2len(msg));

	switch (nsh->pdu_type) {
	case NS_PDUT_ALIVE:
		/* If we're dead and blocked and suddenly receive a
		 * NS-ALIVE out of the blue, we might have been re-started
		 * and should send a NS-RESET to make sure everything recovers
		 * fine. */
		if (nsvc->state == NSE_S_BLOCKED)
			rc = gprs_ns_tx_reset(nsvc, NS_CAUSE_PDU_INCOMP_PSTATE);
		else
			rc = gprs_ns_tx_alive_ack(nsvc);
		break;
	case NS_PDUT_ALIVE_ACK:
		/* stop Tns-alive and start Tns-test */
		nsvc_start_timer(nsvc, NSVC_TIMER_TNS_TEST);
		if (nsvc->remote_end_is_sgsn) {
			/* FIXME: this should be one level higher */
			if (nsvc->state & NSE_S_BLOCKED)
				rc = gprs_ns_tx_unblock(nsvc);
		}
		break;
	case NS_PDUT_UNITDATA:
		/* actual user data */
		rc = gprs_ns_rx_unitdata(nsvc, msg);
		break;
	case NS_PDUT_STATUS:
		rc = gprs_ns_rx_status(nsvc, msg);
		break;
	case NS_PDUT_RESET:
		rc = gprs_ns_rx_reset(nsvc, msg);
		break;
	case NS_PDUT_RESET_ACK:
		LOGP(DNS, LOGL_INFO, "NSEI=%u Rx NS RESET ACK\n", nsvc->nsei);
		/* mark NS-VC as blocked + active */
		nsvc->state = NSE_S_BLOCKED | NSE_S_ALIVE;
		nsvc->remote_state = NSE_S_BLOCKED | NSE_S_ALIVE;
		rate_ctr_inc(&nsvc->ctrg->ctr[NS_CTR_BLOCKED]);
		if (nsvc->persistent || nsvc->remote_end_is_sgsn) {
			/* stop RESET timer */
			osmo_timer_del(&nsvc->timer);
		}
		/* Initiate TEST proc.: Send ALIVE and start timer */
		rc = gprs_ns_tx_simple(nsvc, NS_PDUT_ALIVE);
		nsvc_start_timer(nsvc, NSVC_TIMER_TNS_TEST);
		break;
	case NS_PDUT_UNBLOCK:
		/* Section 7.2: unblocking procedure */
		LOGP(DNS, LOGL_INFO, "NSEI=%u Rx NS UNBLOCK\n", nsvc->nsei);
		nsvc->state &= ~NSE_S_BLOCKED;
		ns_osmo_signal_dispatch(nsvc, S_NS_UNBLOCK, 0);
		rc = gprs_ns_tx_simple(nsvc, NS_PDUT_UNBLOCK_ACK);
		break;
	case NS_PDUT_UNBLOCK_ACK:
		LOGP(DNS, LOGL_INFO, "NSEI=%u Rx NS UNBLOCK ACK\n", nsvc->nsei);
		/* mark NS-VC as unblocked + active */
		nsvc->state = NSE_S_ALIVE;
		nsvc->remote_state = NSE_S_ALIVE;
		ns_osmo_signal_dispatch(nsvc, S_NS_UNBLOCK, 0);
		break;
	case NS_PDUT_BLOCK:
		rc = gprs_ns_rx_block(nsvc, msg);
		break;
	case NS_PDUT_BLOCK_ACK:
		LOGP(DNS, LOGL_INFO, "NSEI=%u Rx NS BLOCK ACK\n", nsvc->nsei);
		/* mark remote NS-VC as blocked + active */
		nsvc->remote_state = NSE_S_BLOCKED | NSE_S_ALIVE;
		break;
	default:
		LOGP(DNS, LOGL_NOTICE, "NSEI=%u Rx Unknown NS PDU type 0x%02x\n",
			nsvc->nsei, nsh->pdu_type);
		rc = -EINVAL;
		break;
	}
	return rc;
}

/*! \brief Create a new GPRS NS instance
 *  \param[in] cb Call-back function for incoming BSSGP data
 *  \returns dynamically allocated gprs_ns_inst
 */
struct gprs_ns_inst *gprs_ns_instantiate(gprs_ns_cb_t *cb, void *ctx)
{
	struct gprs_ns_inst *nsi = talloc_zero(ctx, struct gprs_ns_inst);

	nsi->cb = cb;
	INIT_LLIST_HEAD(&nsi->gprs_nsvcs);
	nsi->timeout[NS_TOUT_TNS_BLOCK] = 3;
	nsi->timeout[NS_TOUT_TNS_BLOCK_RETRIES] = 3;
	nsi->timeout[NS_TOUT_TNS_RESET] = 3;
	nsi->timeout[NS_TOUT_TNS_RESET_RETRIES] = 3;
	nsi->timeout[NS_TOUT_TNS_TEST] = 30;
	nsi->timeout[NS_TOUT_TNS_ALIVE] = 3;
	nsi->timeout[NS_TOUT_TNS_ALIVE_RETRIES] = 10;

	/* Create the dummy NSVC that we use for sending
	 * messages to non-existant/unknown NS-VC's */
	nsi->unknown_nsvc = gprs_nsvc_create(nsi, 0xfffe);
	llist_del(&nsi->unknown_nsvc->list);

	return nsi;
}

/*! \brief Destroy an entire NS instance
 *  \param nsi gprs_ns_inst that is to be destroyed
 *
 *  This function SHOULD release all resources associated with the
 *  NS-instance but is actually not completely implemented!
 */
void gprs_ns_destroy(struct gprs_ns_inst *nsi)
{
	/* FIXME: clear all timers */

	/* recursively free the NSI and all its NSVCs */
	talloc_free(nsi);
}


/* NS-over-IP code, according to 3GPP TS 48.016 Chapter 6.2
 * We don't support Size Procedure, Configuration Procedure, ChangeWeight Procedure */

/* Read a single NS-over-IP message */
static struct msgb *read_nsip_msg(struct osmo_fd *bfd, int *error,
				  struct sockaddr_in *saddr)
{
	struct msgb *msg = gprs_ns_msgb_alloc();
	int ret = 0;
	socklen_t saddr_len = sizeof(*saddr);

	if (!msg) {
		*error = -ENOMEM;
		return NULL;
	}

	ret = recvfrom(bfd->fd, msg->data, NS_ALLOC_SIZE - NS_ALLOC_HEADROOM, 0,
			(struct sockaddr *)saddr, &saddr_len);
	if (ret < 0) {
		LOGP(DNS, LOGL_ERROR, "recv error %s during NSIP recv\n",
			strerror(errno));
		msgb_free(msg);
		*error = ret;
		return NULL;
	} else if (ret == 0) {
		msgb_free(msg);
		*error = ret;
		return NULL;
	}

	msg->l2h = msg->data;
	msgb_put(msg, ret);

	return msg;
}

static int handle_nsip_read(struct osmo_fd *bfd)
{
	int error;
	struct sockaddr_in saddr;
	struct gprs_ns_inst *nsi = bfd->data;
	struct msgb *msg = read_nsip_msg(bfd, &error, &saddr);

	if (!msg)
		return error;

	error = gprs_ns_rcvmsg(nsi, msg, &saddr, GPRS_NS_LL_UDP);

	msgb_free(msg);

	return error;
}

static int handle_nsip_write(struct osmo_fd *bfd)
{
	/* FIXME: actually send the data here instead of nsip_sendmsg() */
	return -EIO;
}

static int nsip_sendmsg(struct gprs_nsvc *nsvc, struct msgb *msg)
{
	int rc;
	struct gprs_ns_inst *nsi = nsvc->nsi;
	struct sockaddr_in *daddr = &nsvc->ip.bts_addr;

	rc = sendto(nsi->nsip.fd.fd, msg->data, msg->len, 0,
		  (struct sockaddr *)daddr, sizeof(*daddr));

	msgb_free(msg);

	return rc;
}

/* UDP Port 23000 carries the LLC-in-BSSGP-in-NS protocol stack */
static int nsip_fd_cb(struct osmo_fd *bfd, unsigned int what)
{
	int rc = 0;

	if (what & BSC_FD_READ)
		rc = handle_nsip_read(bfd);
	if (what & BSC_FD_WRITE)
		rc = handle_nsip_write(bfd);

	return rc;
}

/*! \brief Create a listening socket for GPRS NS/UDP/IP
 *  \param[in] nsi NS protocol instance to listen
 *  \returns >=0 (fd) in case of success, negative in case of error
 *
 *  A call to this function will create a UDP socket bound to the port
 *  number and IP address specified in the NS protocol instance. The
 *  file descriptor of the socket will be stored in nsi->nsip.fd.
 */
int gprs_ns_nsip_listen(struct gprs_ns_inst *nsi)
{
	struct in_addr in;
	int ret;

	in.s_addr = htonl(nsi->nsip.local_ip);

	nsi->nsip.fd.cb = nsip_fd_cb;
	nsi->nsip.fd.data = nsi;
	ret = osmo_sock_init_ofd(&nsi->nsip.fd, AF_INET, SOCK_DGRAM,
				 IPPROTO_UDP, inet_ntoa(in),
				 nsi->nsip.local_port, OSMO_SOCK_F_BIND);
	if (ret < 0)
		return ret;


	return ret;
}

/*! \brief Initiate a RESET procedure
 *  \param[in] nsvc NS-VC in which to start the procedure
 *  \param[in] cause Numeric NS cause value
 *
 * This is a high-level function initiating a NS-RESET procedure. It
 * will not only send a NS-RESET, but also set the state to BLOCKED and
 * start the Tns-reset timer.
 */
void gprs_nsvc_reset(struct gprs_nsvc *nsvc, uint8_t cause)
{
	LOGP(DNS, LOGL_INFO, "NSEI=%u RESET procedure based on API request\n",
		nsvc->nsei);

	/* Mark NS-VC locally as blocked and dead */
	nsvc->state = NSE_S_BLOCKED;
	/* Send NS-RESET PDU */
	if (gprs_ns_tx_reset(nsvc, cause) < 0) {
		LOGP(DNS, LOGL_ERROR, "NSEI=%u, error resetting NS-VC\n",
			nsvc->nsei);
	}
	/* Start Tns-reset */
	nsvc_start_timer(nsvc, NSVC_TIMER_TNS_RESET);
}

/*! \brief Establish a NS connection (from the BSS) to the SGSN
 *  \param nsi NS-instance
 *  \param[in] dest Destination IP/Port
 *  \param[in] nsei NSEI of the to-be-established NS-VC
 *  \param[in] nsvci NSVCI of the to-be-established NS-VC
 *  \returns struct gprs_nsvc representing the new NS-VC
 *
 * This function will establish a single NS/UDP/IP connection in uplink
 * (BSS to SGSN) direction.
 */
struct gprs_nsvc *gprs_ns_nsip_connect(struct gprs_ns_inst *nsi,
				struct sockaddr_in *dest, uint16_t nsei,
				uint16_t nsvci)
{
	struct gprs_nsvc *nsvc;

	nsvc = nsvc_by_rem_addr(nsi, dest);
	if (!nsvc)
		nsvc = gprs_nsvc_create(nsi, nsvci);
	nsvc->ip.bts_addr = *dest;
	nsvc->nsei = nsei;
	nsvc->nsvci = nsvci;
	nsvc->remote_end_is_sgsn = 1;

	gprs_nsvc_reset(nsvc, NS_CAUSE_OM_INTERVENTION);
	return nsvc;
}

void gprs_ns_set_log_ss(int ss)
{
	DNS = ss;
}

/*! }@ */