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/* Point-to-Point (PP) Short Message Service (SMS)
* Support on Mobile Radio Interface
* 3GPP TS 04.11 version 7.1.0 Release 1998 / ETSI TS 100 942 V7.1.0 */
/* (C) 2008 by Daniel Willmann <daniel@totalueberwachung.de>
* (C) 2009 by Harald Welte <laforge@gnumonks.org>
* (C) 2010 by Holger Hans Peter Freyther <zecke@selfish.org>
* (C) 2010 by On-Waves
* (C) 2011 by Andreas Eversberg <jolly@eversberg.eu>
*
* 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/>.
*
*/
/* Notes on msg:
*
* Messages from lower layer are freed by lower layer.
*
* Messages to upper layer are freed after upper layer call returns, so upper
* layer cannot use data after returning. Upper layer must not free the msg.
*
* This implies: Lower layer messages can be forwarded to upper layer.
*
* Upper layer messages are freed by lower layer, so they must not be freed
* after calling lower layer.
*
*
* Notes on release:
*
* Sending Abort/Release (MNSMS-ABORT-REQ or MNSMS-REL-REQ) may cause the
* lower layer to become IDLE. Then it is allowed to destroy this instance,
* so sending this MUST be the last thing that is done.
*
*/
#include <string.h>
#include <errno.h>
#include <inttypes.h>
#include <osmocom/core/msgb.h>
#include <osmocom/core/logging.h>
#include <osmocom/core/timer.h>
#include <osmocom/gsm/tlv.h>
#include <osmocom/gsm/gsm0411_utils.h>
#include <osmocom/gsm/gsm0411_smc.h>
#include <osmocom/gsm/gsm0411_smr.h>
#include <osmocom/gsm/protocol/gsm_04_08.h>
#define SMR_LOG_STR "SMR(%" PRIu64 ") "
static void rp_timer_expired(void *data);
/* init a new instance */
void gsm411_smr_init(struct gsm411_smr_inst *inst, uint64_t id, int network,
int (*rl_recv) (struct gsm411_smr_inst *inst, int msg_type,
struct msgb *msg),
int (*mn_send) (struct gsm411_smr_inst *inst, int msg_type,
struct msgb *msg))
{
memset(inst, 0, sizeof(*inst));
inst->id = id;
inst->network = network;
inst->rp_state = GSM411_RPS_IDLE;
inst->rl_recv = rl_recv;
inst->mn_send = mn_send;
inst->rp_timer.data = inst;
inst->rp_timer.cb = rp_timer_expired;
LOGP(DLSMS, LOGL_INFO,
SMR_LOG_STR "instance created for %s.\n",
inst->id, inst->network ? "network" : "mobile");
}
/* clear instance */
void gsm411_smr_clear(struct gsm411_smr_inst *inst)
{
LOGP(DLSMS, LOGL_INFO,
SMR_LOG_STR "clearing SMR instance\n", inst->id);
osmo_timer_del(&inst->rp_timer);
}
static const char *smr_state_names[] = {
"IDLE",
"WAIT_FOR_RP_ACK",
"illegal state 2",
"WAIT_TO_TX_RP_ACK",
"WAIT_FOR_RETRANS_T",
};
const struct value_string gsm411_rp_cause_strs[] = {
{ GSM411_RP_CAUSE_MO_NUM_UNASSIGNED, "(MO) Number not assigned" },
{ GSM411_RP_CAUSE_MO_OP_DET_BARR, "(MO) Operator determined barring" },
{ GSM411_RP_CAUSE_MO_CALL_BARRED, "(MO) Call barred" },
{ GSM411_RP_CAUSE_MO_SMS_REJECTED, "(MO) SMS rejected" },
{ GSM411_RP_CAUSE_MO_DEST_OUT_OF_ORDER, "(MO) Destination out of order" },
{ GSM411_RP_CAUSE_MO_UNIDENTIFIED_SUBSCR, "(MO) Unidentified subscriber" },
{ GSM411_RP_CAUSE_MO_FACILITY_REJ, "(MO) Facility reject" },
{ GSM411_RP_CAUSE_MO_UNKNOWN_SUBSCR, "(MO) Unknown subscriber" },
{ GSM411_RP_CAUSE_MO_NET_OUT_OF_ORDER, "(MO) Network out of order" },
{ GSM411_RP_CAUSE_MO_TEMP_FAIL, "(MO) Temporary failure" },
{ GSM411_RP_CAUSE_MO_CONGESTION, "(MO) Congestion" },
{ GSM411_RP_CAUSE_MO_RES_UNAVAIL, "(MO) Resource unavailable" },
{ GSM411_RP_CAUSE_MO_REQ_FAC_NOTSUBSCR, "(MO) Requested facility not subscribed" },
{ GSM411_RP_CAUSE_MO_REQ_FAC_NOTIMPL, "(MO) Requested facility not implemented" },
{ GSM411_RP_CAUSE_MO_INTERWORKING, "(MO) Interworking" },
/* valid only for MT */
{ GSM411_RP_CAUSE_MT_MEM_EXCEEDED, "(MT) Memory Exceeded" },
/* valid for both directions */
{ GSM411_RP_CAUSE_INV_TRANS_REF, "Invalid Transaction Reference" },
{ GSM411_RP_CAUSE_SEMANT_INC_MSG, "Semantically Incorrect Message" },
{ GSM411_RP_CAUSE_INV_MAND_INF, "Invalid Mandatory Information" },
{ GSM411_RP_CAUSE_MSGTYPE_NOTEXIST, "Message Type non-existant" },
{ GSM411_RP_CAUSE_MSG_INCOMP_STATE, "Message incompatible with protocol state" },
{ GSM411_RP_CAUSE_IE_NOTEXIST, "Information Element not existing" },
{ GSM411_RP_CAUSE_PROTOCOL_ERR, "Protocol Error" },
{ 0, NULL }
};
static void new_rp_state(struct gsm411_smr_inst *inst,
enum gsm411_rp_state state)
{
LOGP(DLSMS, LOGL_INFO,
SMR_LOG_STR "new RP state %s -> %s\n", inst->id,
smr_state_names[inst->rp_state], smr_state_names[state]);
inst->rp_state = state;
/* stop timer when going idle */
if (state == GSM411_RPS_IDLE)
osmo_timer_del(&inst->rp_timer);
}
/* Prefix msg with a RP-DATA header and send as CP-DATA */
static int gsm411_rp_sendmsg(struct gsm411_smr_inst *inst, struct msgb *msg,
uint8_t rp_msg_type, uint8_t rp_msg_ref,
int mnsms_msg_type)
{
struct gsm411_rp_hdr *rp;
uint8_t len = msg->len;
/* GSM 04.11 RP-DATA header */
rp = (struct gsm411_rp_hdr *)msgb_push(msg, sizeof(*rp));
rp->len = len + 2;
rp->msg_type = rp_msg_type;
rp->msg_ref = rp_msg_ref;
return inst->mn_send(inst, mnsms_msg_type, msg);
}
static int gsm411_send_rp_error(struct gsm411_smr_inst *inst,
uint8_t msg_ref, uint8_t cause)
{
struct msgb *msg = gsm411_msgb_alloc();
msgb_tv_put(msg, 1, cause);
LOGP(DLSMS, LOGL_NOTICE,
SMR_LOG_STR "TX: SMS RP ERROR, cause %d (%s)\n", inst->id,
cause, get_value_string(gsm411_rp_cause_strs, cause));
return gsm411_rp_sendmsg(inst, msg,
(inst->network) ? GSM411_MT_RP_ERROR_MT : GSM411_MT_RP_ERROR_MO,
msg_ref, GSM411_MNSMS_DATA_REQ);
}
static int gsm411_send_release(struct gsm411_smr_inst *inst)
{
struct msgb *msg = gsm411_msgb_alloc();
LOGP(DLSMS, LOGL_DEBUG,
SMR_LOG_STR "TX: MNSMS-REL-REQ\n", inst->id);
return inst->mn_send(inst, GSM411_MNSMS_REL_REQ, msg);
}
static int gsm411_send_abort(struct gsm411_smr_inst *inst)
{
struct msgb *msg = gsm411_msgb_alloc();
LOGP(DLSMS, LOGL_DEBUG,
SMR_LOG_STR "TX: MNSMS-ABORT-REQ\n", inst->id);
msgb_tv_put(msg, 1, 111); //FIXME: better idea ? */
return inst->mn_send(inst, GSM411_MNSMS_ABORT_REQ, msg);
}
static int gsm411_send_report(struct gsm411_smr_inst *inst)
{
struct msgb *msg = gsm411_msgb_alloc();
LOGP(DLSMS, LOGL_DEBUG,
SMR_LOG_STR "Sending empty SM_RL_REPORT_IND\n", inst->id);
return inst->rl_recv(inst, GSM411_SM_RL_REPORT_IND, msg);
}
static int gsm411_rl_data_req(struct gsm411_smr_inst *inst, struct msgb *msg)
{
LOGP(DLSMS, LOGL_DEBUG,
SMR_LOG_STR "TX SMS RP-DATA\n", inst->id);
/* start TR1N and enter 'wait for RP-ACK state' */
osmo_timer_schedule(&inst->rp_timer, GSM411_TMR_TR1M);
new_rp_state(inst, GSM411_RPS_WAIT_FOR_RP_ACK);
return inst->mn_send(inst, GSM411_MNSMS_EST_REQ, msg);
}
static int gsm411_rl_report_req(struct gsm411_smr_inst *inst, struct msgb *msg)
{
LOGP(DLSMS, LOGL_DEBUG,
SMR_LOG_STR "TX SMS REPORT\n", inst->id);
new_rp_state(inst, GSM411_RPS_IDLE);
inst->mn_send(inst, GSM411_MNSMS_DATA_REQ, msg);
gsm411_send_release(inst);
return 0;
}
static int gsm411_mnsms_est_ind(struct gsm411_smr_inst *inst, struct msgb *msg)
{
struct gsm48_hdr *gh = (struct gsm48_hdr*)msg->l3h;
struct gsm411_rp_hdr *rp_data = (struct gsm411_rp_hdr*)&gh->data;
uint8_t msg_type = rp_data->msg_type & 0x07;
int rc;
/* check direction */
if (inst->network == (msg_type & 1)) {
LOGP(DLSMS, LOGL_NOTICE,
SMR_LOG_STR "Invalid RP type 0x%02x\n",
inst->id, msg_type);
gsm411_send_rp_error(inst, rp_data->msg_ref,
GSM411_RP_CAUSE_MSG_INCOMP_STATE);
new_rp_state(inst, GSM411_RPS_IDLE);
gsm411_send_release(inst);
return -EINVAL;
}
switch (msg_type) {
case GSM411_MT_RP_DATA_MT:
case GSM411_MT_RP_DATA_MO:
LOGP(DLSMS, LOGL_DEBUG,
SMR_LOG_STR "RX SMS RP-DATA\n", inst->id);
/* start TR2N and enter 'wait to send RP-ACK state' */
osmo_timer_schedule(&inst->rp_timer, GSM411_TMR_TR2M);
new_rp_state(inst, GSM411_RPS_WAIT_TO_TX_RP_ACK);
rc = inst->rl_recv(inst, GSM411_SM_RL_DATA_IND, msg);
break;
case GSM411_MT_RP_SMMA_MO:
LOGP(DLSMS, LOGL_DEBUG,
SMR_LOG_STR "RX SMS RP-SMMA\n", inst->id);
/* start TR2N and enter 'wait to send RP-ACK state' */
osmo_timer_schedule(&inst->rp_timer, GSM411_TMR_TR2M);
new_rp_state(inst, GSM411_RPS_WAIT_TO_TX_RP_ACK);
rc = inst->rl_recv(inst, GSM411_SM_RL_DATA_IND, msg);
break;
default:
LOGP(DLSMS, LOGL_NOTICE,
SMR_LOG_STR "invalid RP type 0x%02x\n",
inst->id, msg_type);
gsm411_send_rp_error(inst, rp_data->msg_ref,
GSM411_RP_CAUSE_MSGTYPE_NOTEXIST);
new_rp_state(inst, GSM411_RPS_IDLE);
rc = -EINVAL;
break;
}
return rc;
}
static int gsm411_mnsms_data_ind_tx(struct gsm411_smr_inst *inst,
struct msgb *msg)
{
struct gsm48_hdr *gh = (struct gsm48_hdr*)msg->l3h;
struct gsm411_rp_hdr *rp_data = (struct gsm411_rp_hdr*)&gh->data;
uint8_t msg_type = rp_data->msg_type & 0x07;
int rc;
/* check direction */
if (inst->network == (msg_type & 1)) {
LOGP(DLSMS, LOGL_NOTICE,
SMR_LOG_STR "invalid RP type 0x%02x\n",
inst->id, msg_type);
gsm411_send_rp_error(inst, rp_data->msg_ref,
GSM411_RP_CAUSE_MSG_INCOMP_STATE);
new_rp_state(inst, GSM411_RPS_IDLE);
gsm411_send_release(inst);
return -EINVAL;
}
switch (msg_type) {
case GSM411_MT_RP_ACK_MO:
case GSM411_MT_RP_ACK_MT:
LOGP(DLSMS, LOGL_DEBUG,
SMR_LOG_STR "RX SMS RP-ACK\n", inst->id);
new_rp_state(inst, GSM411_RPS_IDLE);
inst->rl_recv(inst, GSM411_SM_RL_REPORT_IND, msg);
gsm411_send_release(inst);
return 0;
case GSM411_MT_RP_ERROR_MO:
case GSM411_MT_RP_ERROR_MT:
LOGP(DLSMS, LOGL_DEBUG,
SMR_LOG_STR "RX SMS RP-ERROR\n", inst->id);
new_rp_state(inst, GSM411_RPS_IDLE);
inst->rl_recv(inst, GSM411_SM_RL_REPORT_IND, msg);
gsm411_send_release(inst);
return 0;
default:
LOGP(DLSMS, LOGL_NOTICE,
SMR_LOG_STR "Invalid RP type 0x%02x\n",
inst->id, msg_type);
gsm411_send_rp_error(inst, rp_data->msg_ref,
GSM411_RP_CAUSE_MSGTYPE_NOTEXIST);
new_rp_state(inst, GSM411_RPS_IDLE);
gsm411_send_release(inst);
return -EINVAL;
}
return rc;
}
static int gsm411_mnsms_error_ind_tx(struct gsm411_smr_inst *inst,
struct msgb *msg)
{
LOGP(DLSMS, LOGL_DEBUG,
SMR_LOG_STR "TX SMS MNSMS-ERROR-IND\n", inst->id);
new_rp_state(inst, GSM411_RPS_IDLE);
inst->rl_recv(inst, GSM411_SM_RL_REPORT_IND, msg);
gsm411_send_release(inst);
return 0;
}
static int gsm411_mnsms_error_ind_rx(struct gsm411_smr_inst *inst,
struct msgb *msg)
{
LOGP(DLSMS, LOGL_DEBUG,
SMR_LOG_STR "RX SMS MNSMS-ERROR-IND\n", inst->id);
new_rp_state(inst, GSM411_RPS_IDLE);
return inst->rl_recv(inst, GSM411_SM_RL_REPORT_IND, msg);
}
/* SMR TR1* is expired */
static void rp_timer_expired(void *data)
{
struct gsm411_smr_inst *inst = data;
const char *str;
str = inst->rp_state == GSM411_RPS_WAIT_TO_TX_RP_ACK
? "TR2N" : "TR1N";
LOGP(DLSMS, LOGL_DEBUG,
SMR_LOG_STR "%s expired\n", inst->id, str);
gsm411_send_report(inst);
gsm411_send_abort(inst);
}
/* statefull handling for SM-RL SAP messages */
static const struct smrdownstate {
uint32_t states;
int type;
const char *name;
int (*rout) (struct gsm411_smr_inst *inst,
struct msgb *msg);
} smrdownstatelist[] = {
/* data request */
{SBIT(GSM411_RPS_IDLE),
GSM411_SM_RL_DATA_REQ,
"SM-RL-DATA_REQ", gsm411_rl_data_req},
/* report request */
{SBIT(GSM411_RPS_WAIT_TO_TX_RP_ACK),
GSM411_SM_RL_REPORT_REQ,
"SM-RL-REPORT_REQ", gsm411_rl_report_req},
};
#define SMRDOWNSLLEN \
(sizeof(smrdownstatelist) / sizeof(struct smrdownstate))
/* message from upper layer */
int gsm411_smr_send(struct gsm411_smr_inst *inst, int msg_type,
struct msgb *msg)
{
int i, rc;
/* find function for current state and message */
for (i = 0; i < SMRDOWNSLLEN; i++) {
if ((msg_type == smrdownstatelist[i].type)
&& (SBIT(inst->rp_state) & smrdownstatelist[i].states))
break;
}
if (i == SMRDOWNSLLEN) {
LOGP(DLSMS, LOGL_NOTICE,
SMR_LOG_STR "message %u unhandled at this state "
"%s.\n", inst->id, msg_type,
smr_state_names[inst->rp_state]);
msgb_free(msg);
return 0;
}
LOGP(DLSMS, LOGL_INFO,
SMR_LOG_STR "message %s received in state %s\n", inst->id,
smrdownstatelist[i].name, smr_state_names[inst->rp_state]);
rc = smrdownstatelist[i].rout(inst, msg);
return rc;
}
/* statefull handling for MMSMS SAP messages */
static const struct smrdatastate {
uint32_t states;
int type;
const char *name;
int (*rout) (struct gsm411_smr_inst *inst,
struct msgb *msg);
} smrdatastatelist[] = {
/* establish indication */
{SBIT(GSM411_RPS_IDLE),
GSM411_MNSMS_EST_IND,
"MNSMS-EST-IND", gsm411_mnsms_est_ind},
/* data indication */
{SBIT(GSM411_RPS_WAIT_FOR_RP_ACK),
GSM411_MNSMS_DATA_IND,
"MNSMS-DATA-IND", gsm411_mnsms_data_ind_tx},
/* error indication */
{SBIT(GSM411_RPS_WAIT_FOR_RP_ACK),
GSM411_MNSMS_ERROR_IND,
"MNSMS-ERROR-IND", gsm411_mnsms_error_ind_tx},
/* error indication */
{SBIT(GSM411_RPS_WAIT_TO_TX_RP_ACK),
GSM411_MNSMS_ERROR_IND,
"MNSMS-ERROR-IND", gsm411_mnsms_error_ind_rx},
};
#define SMRDATASLLEN \
(sizeof(smrdatastatelist) / sizeof(struct smrdatastate))
/* message from lower layer
* WARNING: We must not free msg, since it will be performed by the
* lower layer. */
int gsm411_smr_recv(struct gsm411_smr_inst *inst, int msg_type,
struct msgb *msg)
{
int i, rc;
/* find function for current state and message */
for (i = 0; i < SMRDATASLLEN; i++) {
/* state must match, MM message must match
* CP msg must match only in case of MMSMS_DATA_IND
*/
if ((msg_type == smrdatastatelist[i].type)
&& (SBIT(inst->rp_state) & smrdatastatelist[i].states))
break;
}
if (i == SMRDATASLLEN) {
LOGP(DLSMS, LOGL_NOTICE,
SMR_LOG_STR "message %u unhandled at this state "
"%s.\n", inst->id, msg_type,
smr_state_names[inst->rp_state]);
return 0;
}
LOGP(DLSMS, LOGL_INFO,
SMR_LOG_STR "message %s received in state %s\n", inst->id,
smrdatastatelist[i].name, smr_state_names[inst->rp_state]);
rc = smrdatastatelist[i].rout(inst, msg);
return rc;
}
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