/* GPRS SNDCP protocol implementation as per 3GPP TS 04.65 */ /* (C) 2010 by Harald Welte * * All Rights Reserved * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License along * with this program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. * */ #include #include #include #include #include #include #include #include #include #include #include /* Chapter 7.2: SN-PDU Formats */ struct sndcp_common_hdr { /* octet 1 */ uint8_t nsapi:4; uint8_t more:1; uint8_t type:1; uint8_t first:1; uint8_t spare:1; /* octet 2 */ uint8_t pcomp; uint8_t dcomp; } __attribute__((packed)); struct sndcp_udata_hdr { /* octet 3 */ uint8_t npdu_high:4; uint8_t seg_nr:4; /* octet 4 */ uint8_t npdu_low; } __attribute__((packed)); /* See 6.7.1.2 Reassembly */ enum sndcp_rx_state { SNDCP_RX_S_FIRST, SNDCP_RX_S_SUBSEQ, SNDCP_RX_S_DISCARD, }; static void *tall_sndcp_ctx; /* A fragment queue entry, containing one framgent of a N-PDU */ struct frag_queue_entry { struct llist_head list; uint8_t seg_nr; uint32_t data_len; uint8_t data[0]; }; /* A fragment queue header, maintaining list of fragments for one N-PDU */ struct frag_queue_head { uint16_t npdu; /* linked list of frag_queue_entry: one for each fragment */ struct llist_head frag_list; struct timer_list timer; }; struct sndcp_entity { struct llist_head list; struct gprs_llc_lle *lle; uint8_t nsapi; enum sndcp_rx_state rx_state; struct frag_queue_head fqueue; }; LLIST_HEAD(sndcp_entities); #if 0 static struct frag_queue_entry _find_fqe(struct freg_queue_head *fqh, uint8_t seg_nr) { } static struct frag_queue_head _find_fqh(struct sndcp_entity *sne, uint16_t npdu) { } static int ul_enqueue_fragment(struct sndcp_entity *sne, uint16_t npdu, uint8_t seg_nr, uint32_t data_len, uint8_t *data) { } #endif static struct sndcp_entity *sndcp_entity_by_lle(const struct gprs_llc_lle *lle, uint8_t nsapi) { struct sndcp_entity *sne; llist_for_each_entry(sne, &sndcp_entities, list) { if (sne->lle == lle && sne->nsapi == nsapi) return sne; } return NULL; } static struct sndcp_entity *sndcp_entity_alloc(struct gprs_llc_lle *lle, uint8_t nsapi) { struct sndcp_entity *sne; sne = talloc_zero(tall_sndcp_ctx, struct sndcp_entity); if (!sne) return NULL; sne->lle = lle; sne->nsapi = nsapi; sne->fqueue.timer.data = sne; //sne->fqueue.timer.cb = FIXME; sne->rx_state = SNDCP_RX_S_FIRST; return sne; } /* Entry point for the SNSM-ACTIVATE.indication */ int sndcp_sm_activate_ind(struct gprs_llc_lle *lle, uint8_t nsapi) { LOGP(DSNDCP, LOGL_INFO, "SNSM-ACTIVATE.ind (TLLI=%08x, NSAPI=%u)\n", lle->llme->tlli, nsapi); if (sndcp_entity_by_lle(lle, nsapi)) { LOGP(DSNDCP, LOGL_ERROR, "Trying to ACTIVATE " "already-existing entity (TLLI=%08x, NSAPI=%u)\n", lle->llme->tlli, nsapi); return -EEXIST; } if (!sndcp_entity_alloc(lle, nsapi)) { LOGP(DSNDCP, LOGL_ERROR, "Out of memory during ACTIVATE\n"); return -ENOMEM; } return 0; } /* Section 5.1.2.17 LL-UNITDATA.ind */ int sndcp_llunitdata_ind(struct msgb *msg, struct gprs_llc_lle *lle, uint8_t *hdr, uint8_t len) { struct sndcp_entity *sne; struct sndcp_common_hdr *sch = (struct sndcp_common_hdr *)hdr; struct sndcp_udata_hdr *suh; uint8_t *npdu; uint16_t npdu_num; int npdu_len; if (sch->type == 0) { LOGP(DGPRS, LOGL_ERROR, "SN-DATA PDU at unitdata_ind() function\n"); return -EINVAL; } if (len < sizeof(*sch) + sizeof(*suh)) { LOGP(DGPRS, LOGL_ERROR, "SN-UNITDATA PDU too short (%u)\n", len); return -EIO; } sne = sndcp_entity_by_lle(lle, sch->nsapi); if (!sne) { LOGP(DGPRS, LOGL_ERROR, "Message for non-existing SNDCP Entity " "(TLLI=%08x, NSAPI=%u)\n", lle->llme->tlli, sch->nsapi); return -EIO; } if (!sch->first || sch->more) { /* FIXME: implement fragment re-assembly */ LOGP(DGPRS, LOGL_ERROR, "We don't support reassembly yet\n"); return -EIO; } if (sch->pcomp || sch->dcomp) { LOGP(DGPRS, LOGL_ERROR, "We don't support compression yet\n"); return -EIO; } suh = (struct sndcp_udata_hdr *) (hdr + sizeof(struct sndcp_common_hdr)); npdu_num = (suh->npdu_high << 8) | suh->npdu_low; npdu = (uint8_t *)suh + sizeof(*suh); npdu_len = (msg->data + msg->len) - npdu; if (npdu_len) { LOGP(DGPRS, LOGL_ERROR, "Short SNDCP N-PDU: %d\n", npdu_len); return -EIO; } /* actually send the N-PDU to the SGSN core code, which then * hands it off to the correct GTP tunnel + GGSN via gtp_data_req() */ return sgsn_rx_sndcp_ud_ind(lle->llme->tlli, sne->nsapi, msg, npdu_len, npdu); } /* Section 5.1.2.1 LL-RESET.ind */ static int sndcp_ll_reset_ind(struct sndcp_entity *se) { /* treat all outstanding SNDCP-LLC request type primitives as not sent */ /* reset all SNDCP XID parameters to default values */ } static int sndcp_ll_status_ind() { /* inform the SM sub-layer by means of SNSM-STATUS.req */ } #if 0 static struct sndcp_state_list {{ uint32_t states; unsigned int type; int (*rout)(struct sndcp_entity *se, struct msgb *msg); } sndcp_state_list[] = { { ALL_STATES, LL_RESET_IND, sndcp_ll_reset_ind }, { ALL_STATES, LL_ESTABLISH_IND, sndcp_ll_est_ind }, { SBIT(SNDCP_S_EST_RQD), LL_ESTABLISH_RESP, sndcp_ll_est_ind }, { SBIT(SNDCP_S_EST_RQD), LL_ESTABLISH_CONF, sndcp_ll_est_conf }, { SBIT(SNDCP_S_ }; static int sndcp_rx_llc_prim() { case LL_ESTABLISH_REQ: case LL_RELEASE_REQ: case LL_XID_REQ: case LL_DATA_REQ: LL_UNITDATA_REQ, /* TLLI, SN-PDU, Ref, QoS, Radio Prio, Ciph */ switch (prim) { case LL_RESET_IND: case LL_ESTABLISH_IND: case LL_ESTABLISH_RESP: case LL_ESTABLISH_CONF: case LL_RELEASE_IND: case LL_RELEASE_CONF: case LL_XID_IND: case LL_XID_RESP: case LL_XID_CONF: case LL_DATA_IND: case LL_DATA_CONF: case LL_UNITDATA_IND: case LL_STATUS_IND: } #endif