/* LAPD core implementation */ /* (C) 2010-2011 by Harald Welte * (C) 2010-2011 by Andreas Eversberg * * 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. * */ /*! \addtogroup lapd * @{ */ /*! \file lapd_core.c */ /*! * Notes on Buffering: rcv_buffer, tx_queue, tx_hist, send_buffer, send_queue * * RX data is stored in the rcv_buffer (pointer). If the message is complete, it * is removed from rcv_buffer pointer and forwarded to L3. If the RX data is * received while there is an incomplete rcv_buffer, it is appended to it. * * TX data is stored in the send_queue first. When transmitting a frame, * the first message in the send_queue is moved to the send_buffer. There it * resides until all fragments are acknowledged. Fragments to be sent by I * frames are stored in the tx_hist buffer for resend, if required. Also the * current fragment is copied into the tx_queue. There it resides until it is * forwarded to layer 1. * * In case we have SAPI 0, we only have a window size of 1, so the unack- * nowledged message resides always in the send_buffer. In case of a suspend, * it can be written back to the first position of the send_queue. * * The layer 1 normally sends a PH-READY-TO-SEND. But because we use * asynchronous transfer between layer 1 and layer 2 (serial link), we must * send a frame before layer 1 reaches the right timeslot to send it. So we * move the tx_queue to layer 1 when there is not already a pending frame, and * wait until acknowledge after the frame has been sent. If we receive an * acknowledge, we can send the next frame from the buffer, if any. * * The moving of tx_queue to layer 1 may also trigger T200, if desired. Also it * will trigger next I frame, if possible. * * T203 is optional. It will be stated when entering MF EST state. It will also * be started when I or S frame is received in that state . It will be * restarted in the lapd_acknowledge() function, in case outstanding frames * will not trigger T200. It will be stoped, when T200 is started in MF EST * state. It will also be stoped when leaving MF EST state. * */ /* Enable this to test content resolution on network side: * - The first SABM is received, UA is dropped. * - The phone repeats SABM, but it's content is wrong, so it is ignored * - The phone repeats SABM again, content is right, so UA is sent. */ //#define TEST_CONTENT_RESOLUTION_NETWORK #include #include #include #include #include #include #include #include #include #include #include /* TS 04.06 Table 4 / Section 3.8.1 */ #define LAPD_U_SABM 0x7 #define LAPD_U_SABME 0xf #define LAPD_U_DM 0x3 #define LAPD_U_UI 0x0 #define LAPD_U_DISC 0x8 #define LAPD_U_UA 0xC #define LAPD_U_FRMR 0x11 #define LAPD_S_RR 0x0 #define LAPD_S_RNR 0x1 #define LAPD_S_REJ 0x2 #define CR_USER2NET_CMD 0 #define CR_USER2NET_RESP 1 #define CR_NET2USER_CMD 1 #define CR_NET2USER_RESP 0 #define LAPD_HEADROOM 56 #define SBIT(a) (1 << a) #define ALL_STATES 0xffffffff static void lapd_t200_cb(void *data); static void lapd_t203_cb(void *data); static int lapd_send_i(struct lapd_msg_ctx *lctx, int line); static int lapd_est_req(struct osmo_dlsap_prim *dp, struct lapd_msg_ctx *lctx); /* UTILITY FUNCTIONS */ struct msgb *lapd_msgb_alloc(int length, const char *name) { /* adding space for padding, FIXME: add as an option */ if (length < 21) length = 21; return msgb_alloc_headroom(length + LAPD_HEADROOM, LAPD_HEADROOM, name); } static inline uint8_t do_mod(uint8_t x, uint8_t m) { return x & (m - 1); } static inline uint8_t inc_mod(uint8_t x, uint8_t m) { return (x + 1) & (m - 1); } static inline uint8_t add_mod(uint8_t x, uint8_t y, uint8_t m) { return (x + y) & (m - 1); } static inline uint8_t sub_mod(uint8_t x, uint8_t y, uint8_t m) { return (x - y) & (m - 1); /* handle negative results correctly */ } static void lapd_dl_flush_send(struct lapd_datalink *dl) { struct msgb *msg; /* Flush send-queue */ while ((msg = msgb_dequeue(&dl->send_queue))) msgb_free(msg); /* Clear send-buffer */ msgb_free(dl->send_buffer); dl->send_buffer = NULL; } static void lapd_dl_flush_hist(struct lapd_datalink *dl) { unsigned int i; if (!dl->range_hist) return; for (i = 0; i < dl->range_hist; i++) { if (dl->tx_hist[i].msg) { msgb_free(dl->tx_hist[i].msg); dl->tx_hist[i].msg = NULL; } } } static void lapd_dl_flush_tx(struct lapd_datalink *dl) { struct msgb *msg; while ((msg = msgb_dequeue(&dl->tx_queue))) msgb_free(msg); lapd_dl_flush_hist(dl); } /* Figure B.2/Q.921 */ const char *lapd_state_names[] = { "LAPD_STATE_NULL", "LAPD_STATE_TEI_UNASS", "LAPD_STATE_ASS_TEI_WAIT", "LAPD_STATE_EST_TEI_WAIT", "LAPD_STATE_IDLE", "LAPD_STATE_SABM_SENT", "LAPD_STATE_DISC_SENT", "LAPD_STATE_MF_EST", "LAPD_STATE_TIMER_RECOV", }; static void lapd_start_t200(struct lapd_datalink *dl) { if (osmo_timer_pending(&dl->t200)) return; LOGP(DLLAPD, LOGL_INFO, "start T200\n"); osmo_timer_schedule(&dl->t200, dl->t200_sec, dl->t200_usec); } static void lapd_start_t203(struct lapd_datalink *dl) { if (osmo_timer_pending(&dl->t203)) return; LOGP(DLLAPD, LOGL_INFO, "start T203\n"); osmo_timer_schedule(&dl->t203, dl->t203_sec, dl->t203_usec); } static void lapd_stop_t200(struct lapd_datalink *dl) { if (!osmo_timer_pending(&dl->t200)) return; LOGP(DLLAPD, LOGL_INFO, "stop T200\n"); osmo_timer_del(&dl->t200); } static void lapd_stop_t203(struct lapd_datalink *dl) { if (!osmo_timer_pending(&dl->t203)) return; LOGP(DLLAPD, LOGL_INFO, "stop T203\n"); osmo_timer_del(&dl->t203); } static void lapd_dl_newstate(struct lapd_datalink *dl, uint32_t state) { LOGP(DLLAPD, LOGL_INFO, "new state %s -> %s\n", lapd_state_names[dl->state], lapd_state_names[state]); if (state != LAPD_STATE_MF_EST && dl->state == LAPD_STATE_MF_EST) { /* stop T203 on leaving MF EST state, if running */ lapd_stop_t203(dl); /* remove content res. (network side) on leaving MF EST state */ msgb_free(dl->cont_res); dl->cont_res = NULL; } /* start T203 on entering MF EST state, if enabled */ if ((dl->t203_sec || dl->t203_usec) && state == LAPD_STATE_MF_EST && dl->state != LAPD_STATE_MF_EST) lapd_start_t203(dl); dl->state = state; } static void *tall_lapd_ctx = NULL; /* init datalink instance and allocate history */ void lapd_dl_init(struct lapd_datalink *dl, uint8_t k, uint8_t v_range, int maxf) { int m; memset(dl, 0, sizeof(*dl)); INIT_LLIST_HEAD(&dl->send_queue); INIT_LLIST_HEAD(&dl->tx_queue); dl->reestablish = 1; dl->n200_est_rel = 3; dl->n200 = 3; dl->t200_sec = 1; dl->t200_usec = 0; dl->t200.data = dl; dl->t200.cb = &lapd_t200_cb; dl->t203_sec = 10; dl->t203_usec = 0; dl->t203.data = dl; dl->t203.cb = &lapd_t203_cb; dl->maxf = maxf; if (k > v_range - 1) k = v_range - 1; dl->k = k; dl->v_range = v_range; /* Calculate modulo for history array: * - The history range must be at least k+1. * - The history range must be 2^x, where x is as low as possible. */ k++; for (m = 0x80; m; m >>= 1) { if ((m & k)) { if (k > m) m <<= 1; dl->range_hist = m; break; } } LOGP(DLLAPD, LOGL_INFO, "Init DL layer: sequence range = %d, k = %d, " "history range = %d\n", dl->v_range, dl->k, dl->range_hist); lapd_dl_newstate(dl, LAPD_STATE_IDLE); if (!tall_lapd_ctx) tall_lapd_ctx = talloc_named_const(NULL, 1, "lapd context"); dl->tx_hist = talloc_zero_array(tall_lapd_ctx, struct lapd_history, dl->range_hist); } /* reset to IDLE state */ void lapd_dl_reset(struct lapd_datalink *dl) { if (dl->state == LAPD_STATE_IDLE) return; LOGP(DLLAPD, LOGL_INFO, "Resetting LAPDm instance\n"); /* enter idle state (and remove eventual cont_res) */ lapd_dl_newstate(dl, LAPD_STATE_IDLE); /* flush buffer */ lapd_dl_flush_tx(dl); lapd_dl_flush_send(dl); /* Discard partly received L3 message */ msgb_free(dl->rcv_buffer); dl->rcv_buffer = NULL; /* stop Timers */ lapd_stop_t200(dl); lapd_stop_t203(dl); } /* reset and de-allocate history buffer */ void lapd_dl_exit(struct lapd_datalink *dl) { /* free all ressources except history buffer */ lapd_dl_reset(dl); /* free history buffer list */ talloc_free(dl->tx_hist); dl->tx_hist = NULL; } /*! \brief Set the \ref lapdm_mode of a LAPDm entity */ int lapd_set_mode(struct lapd_datalink *dl, enum lapd_mode mode) { switch (mode) { case LAPD_MODE_USER: dl->cr.loc2rem.cmd = CR_USER2NET_CMD; dl->cr.loc2rem.resp = CR_USER2NET_RESP; dl->cr.rem2loc.cmd = CR_NET2USER_CMD; dl->cr.rem2loc.resp = CR_NET2USER_RESP; break; case LAPD_MODE_NETWORK: dl->cr.loc2rem.cmd = CR_NET2USER_CMD; dl->cr.loc2rem.resp = CR_NET2USER_RESP; dl->cr.rem2loc.cmd = CR_USER2NET_CMD; dl->cr.rem2loc.resp = CR_USER2NET_RESP; break; default: return -EINVAL; } dl->mode = mode; return 0; } /* send DL message with optional msgb */ static int send_dl_l3(uint8_t prim, uint8_t op, struct lapd_msg_ctx *lctx, struct msgb *msg) { struct lapd_datalink *dl = lctx->dl; struct osmo_dlsap_prim dp; osmo_prim_init(&dp.oph, 0, prim, op, msg); return dl->send_dlsap(&dp, lctx); } /* send simple DL message */ static inline int send_dl_simple(uint8_t prim, uint8_t op, struct lapd_msg_ctx *lctx) { struct msgb *msg = lapd_msgb_alloc(0, "DUMMY"); return send_dl_l3(prim, op, lctx, msg); } /* send MDL-ERROR INDICATION */ static int mdl_error(uint8_t cause, struct lapd_msg_ctx *lctx) { struct lapd_datalink *dl = lctx->dl; struct osmo_dlsap_prim dp; LOGP(DLLAPD, LOGL_NOTICE, "sending MDL-ERROR-IND cause %d\n", cause); osmo_prim_init(&dp.oph, 0, PRIM_MDL_ERROR, PRIM_OP_INDICATION, NULL); dp.u.error_ind.cause = cause; return dl->send_dlsap(&dp, lctx); } /* send UA response */ static int lapd_send_ua(struct lapd_msg_ctx *lctx, uint8_t len, uint8_t *data) { struct msgb *msg = lapd_msgb_alloc(len, "LAPD UA"); struct lapd_msg_ctx nctx; struct lapd_datalink *dl = lctx->dl; memcpy(&nctx, lctx, sizeof(nctx)); msg->l3h = msgb_put(msg, len); if (len) memcpy(msg->l3h, data, len); /* keep nctx.ldp */ /* keep nctx.sapi */ /* keep nctx.tei */ nctx.cr = dl->cr.loc2rem.resp; nctx.format = LAPD_FORM_U; nctx.s_u = LAPD_U_UA; /* keep nctx.p_f */ nctx.length = len; nctx.more = 0; return dl->send_ph_data_req(&nctx, msg); } /* send DM response */ static int lapd_send_dm(struct lapd_msg_ctx *lctx) { struct msgb *msg = lapd_msgb_alloc(0, "LAPD DM"); struct lapd_msg_ctx nctx; struct lapd_datalink *dl = lctx->dl; memcpy(&nctx, lctx, sizeof(nctx)); /* keep nctx.ldp */ /* keep nctx.sapi */ /* keep nctx.tei */ nctx.cr = dl->cr.loc2rem.resp; nctx.format = LAPD_FORM_U; nctx.s_u = LAPD_U_DM; /* keep nctx.p_f */ nctx.length = 0; nctx.more = 0; return dl->send_ph_data_req(&nctx, msg); } /* send RR response / command */ static int lapd_send_rr(struct lapd_msg_ctx *lctx, uint8_t f_bit, uint8_t cmd) { struct msgb *msg = lapd_msgb_alloc(0, "LAPD RR"); struct lapd_msg_ctx nctx; struct lapd_datalink *dl = lctx->dl; memcpy(&nctx, lctx, sizeof(nctx)); /* keep nctx.ldp */ /* keep nctx.sapi */ /* keep nctx.tei */ nctx.cr = (cmd) ? dl->cr.loc2rem.cmd : dl->cr.loc2rem.resp; nctx.format = LAPD_FORM_S; nctx.s_u = LAPD_S_RR; nctx.p_f = f_bit; nctx.n_recv = dl->v_recv; nctx.length = 0; nctx.more = 0; return dl->send_ph_data_req(&nctx, msg); } /* send RNR response / command */ static int lapd_send_rnr(struct lapd_msg_ctx *lctx, uint8_t f_bit, uint8_t cmd) { struct msgb *msg = lapd_msgb_alloc(0, "LAPD RNR"); struct lapd_msg_ctx nctx; struct lapd_datalink *dl = lctx->dl; memcpy(&nctx, lctx, sizeof(nctx)); /* keep nctx.ldp */ /* keep nctx.sapi */ /* keep nctx.tei */ nctx.cr = (cmd) ? dl->cr.loc2rem.cmd : dl->cr.loc2rem.resp; nctx.format = LAPD_FORM_S; nctx.s_u = LAPD_S_RNR; nctx.p_f = f_bit; nctx.n_recv = dl->v_recv; nctx.length = 0; nctx.more = 0; return dl->send_ph_data_req(&nctx, msg); } /* send REJ response */ static int lapd_send_rej(struct lapd_msg_ctx *lctx, uint8_t f_bit) { struct msgb *msg = lapd_msgb_alloc(0, "LAPD REJ"); struct lapd_msg_ctx nctx; struct lapd_datalink *dl = lctx->dl; memcpy(&nctx, lctx, sizeof(nctx)); /* keep nctx.ldp */ /* keep nctx.sapi */ /* keep nctx.tei */ nctx.cr = dl->cr.loc2rem.resp; nctx.format = LAPD_FORM_S; nctx.s_u = LAPD_S_REJ; nctx.p_f = f_bit; nctx.n_recv = dl->v_recv; nctx.length = 0; nctx.more = 0; return dl->send_ph_data_req(&nctx, msg); } /* resend SABM or DISC message */ static int lapd_send_resend(struct lapd_datalink *dl) { struct msgb *msg; uint8_t h = do_mod(dl->v_send, dl->range_hist); int length = dl->tx_hist[h].msg->len; struct lapd_msg_ctx nctx; /* assemble message */ memcpy(&nctx, &dl->lctx, sizeof(nctx)); /* keep nctx.ldp */ /* keep nctx.sapi */ /* keep nctx.tei */ nctx.cr = dl->cr.loc2rem.cmd; nctx.format = LAPD_FORM_U; if (dl->state == LAPD_STATE_SABM_SENT) nctx.s_u = (dl->use_sabme) ? LAPD_U_SABME : LAPD_U_SABM; else nctx.s_u = LAPD_U_DISC; nctx.p_f = 1; nctx.length = length; nctx.more = 0; /* Resend SABM/DISC from tx_hist */ msg = lapd_msgb_alloc(length, "LAPD resend"); msg->l3h = msgb_put(msg, length); if (length) memcpy(msg->l3h, dl->tx_hist[h].msg->data, length); return dl->send_ph_data_req(&nctx, msg); } /* reestablish link */ static int lapd_reestablish(struct lapd_datalink *dl) { struct osmo_dlsap_prim dp; struct msgb *msg; msg = lapd_msgb_alloc(0, "DUMMY"); osmo_prim_init(&dp.oph, 0, PRIM_DL_EST, PRIM_OP_REQUEST, msg); return lapd_est_req(&dp, &dl->lctx); } /* Timer callback on T200 expiry */ static void lapd_t200_cb(void *data) { struct lapd_datalink *dl = data; LOGP(DLLAPD, LOGL_INFO, "Timeout T200 (%p) state=%d\n", dl, (int) dl->state); switch (dl->state) { case LAPD_STATE_SABM_SENT: /* 5.4.1.3 */ if (dl->retrans_ctr + 1 >= dl->n200_est_rel + 1) { /* send RELEASE INDICATION to L3 */ send_dl_simple(PRIM_DL_REL, PRIM_OP_INDICATION, &dl->lctx); /* send MDL ERROR INIDCATION to L3 */ mdl_error(MDL_CAUSE_T200_EXPIRED, &dl->lctx); /* flush tx and send buffers */ lapd_dl_flush_tx(dl); lapd_dl_flush_send(dl); /* go back to idle state */ lapd_dl_newstate(dl, LAPD_STATE_IDLE); /* NOTE: we must not change any other states or buffers * and queues, since we may reconnect after handover * failure. the buffered messages is replaced there */ break; } /* retransmit SABM command */ lapd_send_resend(dl); /* increment re-transmission counter */ dl->retrans_ctr++; /* restart T200 (PH-READY-TO-SEND) */ lapd_start_t200(dl); break; case LAPD_STATE_DISC_SENT: /* 5.4.4.3 */ if (dl->retrans_ctr + 1 >= dl->n200_est_rel + 1) { /* send RELEASE INDICATION to L3 */ send_dl_simple(PRIM_DL_REL, PRIM_OP_CONFIRM, &dl->lctx); /* send MDL ERROR INIDCATION to L3 */ mdl_error(MDL_CAUSE_T200_EXPIRED, &dl->lctx); /* flush tx and send buffers */ lapd_dl_flush_tx(dl); lapd_dl_flush_send(dl); /* go back to idle state */ lapd_dl_newstate(dl, LAPD_STATE_IDLE); /* NOTE: we must not change any other states or buffers * and queues, since we may reconnect after handover * failure. the buffered messages is replaced there */ break; } /* retransmit DISC command */ lapd_send_resend(dl); /* increment re-transmission counter */ dl->retrans_ctr++; /* restart T200 (PH-READY-TO-SEND) */ lapd_start_t200(dl); break; case LAPD_STATE_MF_EST: /* 5.5.7 */ dl->retrans_ctr = 0; lapd_dl_newstate(dl, LAPD_STATE_TIMER_RECOV); /* fall through */ case LAPD_STATE_TIMER_RECOV: dl->retrans_ctr++; if (dl->retrans_ctr < dl->n200) { uint8_t vs = sub_mod(dl->v_send, 1, dl->v_range); uint8_t h = do_mod(vs, dl->range_hist); /* retransmit I frame (V_s-1) with P=1, if any */ if (dl->tx_hist[h].msg) { struct msgb *msg; int length = dl->tx_hist[h].msg->len; struct lapd_msg_ctx nctx; LOGP(DLLAPD, LOGL_INFO, "retransmit last frame" " V(S)=%d\n", vs); /* Create I frame (segment) from tx_hist */ memcpy(&nctx, &dl->lctx, sizeof(nctx)); /* keep nctx.ldp */ /* keep nctx.sapi */ /* keep nctx.tei */ nctx.cr = dl->cr.loc2rem.cmd; nctx.format = LAPD_FORM_I; nctx.p_f = 1; nctx.n_send = vs; nctx.n_recv = dl->v_recv; nctx.length = length; nctx.more = dl->tx_hist[h].more; msg = lapd_msgb_alloc(length, "LAPD I resend"); msg->l3h = msgb_put(msg, length); memcpy(msg->l3h, dl->tx_hist[h].msg->data, length); dl->send_ph_data_req(&nctx, msg); } else { /* OR send appropriate supervision frame with P=1 */ if (!dl->own_busy && !dl->seq_err_cond) { lapd_send_rr(&dl->lctx, 1, 1); /* NOTE: In case of sequence error * condition, the REJ frame has been * transmitted when entering the * condition, so it has not be done * here */ } else if (dl->own_busy) { lapd_send_rnr(&dl->lctx, 1, 1); } else { LOGP(DLLAPD, LOGL_INFO, "unhandled, " "pls. fix\n"); } } /* restart T200 (PH-READY-TO-SEND) */ lapd_start_t200(dl); } else { /* send MDL ERROR INIDCATION to L3 */ mdl_error(MDL_CAUSE_T200_EXPIRED, &dl->lctx); /* reestablish */ if (!dl->reestablish) break; LOGP(DLLAPD, LOGL_NOTICE, "N200 reached, performing " "reestablishment.\n"); lapd_reestablish(dl); } break; default: LOGP(DLLAPD, LOGL_INFO, "T200 expired in unexpected " "dl->state %d\n", (int) dl->state); } } /* Timer callback on T203 expiry */ static void lapd_t203_cb(void *data) { struct lapd_datalink *dl = data; LOGP(DLLAPD, LOGL_INFO, "Timeout T203 (%p) state=%d\n", dl, (int) dl->state); if (dl->state != LAPD_STATE_MF_EST) { LOGP(DLLAPD, LOGL_ERROR, "T203 fired outside MF EST state, " "please fix!\n"); return; } /* set retransmission counter to 0 */ dl->retrans_ctr = 0; /* enter timer recovery state */ lapd_dl_newstate(dl, LAPD_STATE_TIMER_RECOV); /* transmit a supervisory command with P bit set to 1 as follows: */ if (!dl->own_busy) { LOGP(DLLAPD, LOGL_INFO, "transmit an RR poll command\n"); /* Send RR with P=1 */ lapd_send_rr(&dl->lctx, 1, 1); } else { LOGP(DLLAPD, LOGL_INFO, "transmit an RNR poll command\n"); /* Send RNR with P=1 */ lapd_send_rnr(&dl->lctx, 1, 1); } /* start T200 */ lapd_start_t200(dl); } /* 5.5.3.1: Common function to acknowlege frames up to the given N(R) value */ static void lapd_acknowledge(struct lapd_msg_ctx *lctx) { struct lapd_datalink *dl = lctx->dl; uint8_t nr = lctx->n_recv; int s = 0, rej = 0, t200_reset = 0; int i, h; /* supervisory frame ? */ if (lctx->format == LAPD_FORM_S) s = 1; /* REJ frame ? */ if (s && lctx->s_u == LAPD_S_REJ) rej = 1; /* Flush all transmit buffers of acknowledged frames */ for (i = dl->v_ack; i != nr; i = inc_mod(i, dl->v_range)) { h = do_mod(i, dl->range_hist); if (dl->tx_hist[h].msg) { msgb_free(dl->tx_hist[h].msg); dl->tx_hist[h].msg = NULL; LOGP(DLLAPD, LOGL_INFO, "ack frame %d\n", i); } } if (dl->state != LAPD_STATE_TIMER_RECOV) { /* When not in the timer recovery condition, the data * link layer entity shall reset the timer T200 on * receipt of a valid I frame with N(R) higher than V(A), * or an REJ with an N(R) equal to V(A). */ if ((!rej && nr != dl->v_ack) || (rej && nr == dl->v_ack)) { t200_reset = 1; lapd_stop_t200(dl); /* 5.5.3.1 Note 1 + 2 imply timer recovery cond. */ } /* 5.7.4: N(R) sequence error * N(R) is called valid, if and only if * (N(R)-V(A)) mod 8 <= (V(S)-V(A)) mod 8. */ if (sub_mod(nr, dl->v_ack, dl->v_range) > sub_mod(dl->v_send, dl->v_ack, dl->v_range)) { LOGP(DLLAPD, LOGL_NOTICE, "N(R) sequence error\n"); mdl_error(MDL_CAUSE_SEQ_ERR, lctx); } } /* V(A) shall be set to the value of N(R) */ dl->v_ack = nr; /* If T200 has been stopped by the receipt of an I, RR or RNR frame, * and if there are outstanding I frames, restart T200 */ if (t200_reset && !rej) { if (dl->tx_hist[sub_mod(dl->v_send, 1, dl->range_hist)].msg) { LOGP(DLLAPD, LOGL_INFO, "start T200, due to unacked I " "frame(s)\n"); lapd_start_t200(dl); } } /* This also does a restart, when I or S frame is received */ /* Stop T203, if running */ lapd_stop_t203(dl); /* Start T203, if T200 is not running in MF EST state, if enabled */ if (!osmo_timer_pending(&dl->t200) && (dl->t203_sec || dl->t203_usec) && (dl->state == LAPD_STATE_MF_EST)) { lapd_start_t203(dl); } } /* L1 -> L2 */ /* Receive a LAPD U (Unnumbered) message from L1 */ static int lapd_rx_u(struct msgb *msg, struct lapd_msg_ctx *lctx) { struct lapd_datalink *dl = lctx->dl; int length = lctx->length; int rc = 0; uint8_t prim, op; switch (lctx->s_u) { case LAPD_U_SABM: case LAPD_U_SABME: prim = PRIM_DL_EST; op = PRIM_OP_INDICATION; LOGP(DLLAPD, LOGL_INFO, "SABM(E) received in state %s\n", lapd_state_names[dl->state]); /* 5.7.1 */ dl->seq_err_cond = 0; /* G.2.2 Wrong value of the C/R bit */ if (lctx->cr == dl->cr.rem2loc.resp) { LOGP(DLLAPD, LOGL_ERROR, "SABM response error\n"); msgb_free(msg); mdl_error(MDL_CAUSE_FRM_UNIMPL, lctx); return -EINVAL; } /* G.4.5 If SABM is received with L>N201 or with M bit * set, AN MDL-ERROR-INDICATION is sent to MM. */ if (lctx->more || length > lctx->n201) { LOGP(DLLAPD, LOGL_ERROR, "SABM too large error\n"); msgb_free(msg); mdl_error(MDL_CAUSE_UFRM_INC_PARAM, lctx); return -EIO; } switch (dl->state) { case LAPD_STATE_IDLE: break; case LAPD_STATE_MF_EST: LOGP(DLLAPD, LOGL_INFO, "SABM command, multiple " "frame established state\n"); /* If link is lost on the remote side, we start over * and send DL-ESTABLISH indication again. */ /* Additionally, continue in case of content resoltion * (GSM network). This happens, if the mobile has not * yet received UA or another mobile (collision) tries * to establish connection. The mobile must receive * UA again. */ /* 5.4.2.1 */ if (!length) { /* If no content resolution, this is a * re-establishment. */ LOGP(DLLAPD, LOGL_INFO, "Remote reestablish\n"); break; } if (!dl->cont_res) { LOGP(DLLAPD, LOGL_INFO, "SABM command not " "allowed in this state\n"); mdl_error(MDL_CAUSE_SABM_MF, lctx); msgb_free(msg); return 0; } /* Ignore SABM if content differs from first SABM. */ if (dl->mode == LAPD_MODE_NETWORK && length) { #ifdef TEST_CONTENT_RESOLUTION_NETWORK dl->cont_res->data[0] ^= 0x01; #endif if (memcmp(dl->cont_res->data, msg->data, length)) { LOGP(DLLAPD, LOGL_INFO, "Another SABM " "with diffrent content - " "ignoring!\n"); msgb_free(msg); return 0; } } /* send UA again */ lapd_send_ua(lctx, length, msg->l3h); msgb_free(msg); return 0; case LAPD_STATE_DISC_SENT: /* 5.4.6.2 send DM with F=P */ lapd_send_dm(lctx); /* stop Timer T200 */ lapd_stop_t200(dl); msgb_free(msg); return send_dl_simple(prim, op, lctx); default: /* collision: Send UA, but still wait for rx UA, then * change to MF_EST state. */ /* check for contention resoultion */ if (dl->tx_hist[0].msg && dl->tx_hist[0].msg->len) { LOGP(DLLAPD, LOGL_NOTICE, "SABM not allowed " "during contention resolution\n"); mdl_error(MDL_CAUSE_SABM_INFO_NOTALL, lctx); } lapd_send_ua(lctx, length, msg->l3h); msgb_free(msg); return 0; } /* save message context for further use */ memcpy(&dl->lctx, lctx, sizeof(dl->lctx)); #ifndef TEST_CONTENT_RESOLUTION_NETWORK /* send UA response */ lapd_send_ua(lctx, length, msg->l3h); #endif /* set Vs, Vr and Va to 0 */ dl->v_send = dl->v_recv = dl->v_ack = 0; /* clear tx_hist */ lapd_dl_flush_hist(dl); /* enter multiple-frame-established state */ lapd_dl_newstate(dl, LAPD_STATE_MF_EST); /* store content resolution data on network side * Note: cont_res will be removed when changing state again, * so it must be allocated AFTER lapd_dl_newstate(). */ if (dl->mode == LAPD_MODE_NETWORK && length) { dl->cont_res = lapd_msgb_alloc(length, "CONT RES"); memcpy(msgb_put(dl->cont_res, length), msg->l3h, length); LOGP(DLLAPD, LOGL_NOTICE, "Store content res.\n"); } /* send notification to L3 */ if (length == 0) { /* 5.4.1.2 Normal establishment procedures */ rc = send_dl_simple(prim, op, lctx); msgb_free(msg); } else { /* 5.4.1.4 Contention resolution establishment */ msgb_trim(msg, length); rc = send_dl_l3(prim, op, lctx, msg); } break; case LAPD_U_DM: LOGP(DLLAPD, LOGL_INFO, "DM received in state %s\n", lapd_state_names[dl->state]); /* G.2.2 Wrong value of the C/R bit */ if (lctx->cr == dl->cr.rem2loc.cmd) { LOGP(DLLAPD, LOGL_ERROR, "DM command error\n"); msgb_free(msg); mdl_error(MDL_CAUSE_FRM_UNIMPL, lctx); return -EINVAL; } if (!lctx->p_f) { /* 5.4.1.2 DM responses with the F bit set to "0" * shall be ignored. */ msgb_free(msg); return 0; } switch (dl->state) { case LAPD_STATE_SABM_SENT: break; case LAPD_STATE_MF_EST: if (lctx->p_f) { LOGP(DLLAPD, LOGL_INFO, "unsolicited DM " "response\n"); mdl_error(MDL_CAUSE_UNSOL_DM_RESP, lctx); } else { LOGP(DLLAPD, LOGL_INFO, "unsolicited DM " "response, multiple frame established " "state\n"); mdl_error(MDL_CAUSE_UNSOL_DM_RESP_MF, lctx); /* reestablish */ if (!dl->reestablish) { msgb_free(msg); return 0; } LOGP(DLLAPD, LOGL_NOTICE, "Performing " "reestablishment.\n"); lapd_reestablish(dl); } msgb_free(msg); return 0; case LAPD_STATE_TIMER_RECOV: /* FP = 0 (DM is normal in case PF = 1) */ if (!lctx->p_f) { LOGP(DLLAPD, LOGL_INFO, "unsolicited DM " "response, multiple frame established " "state\n"); mdl_error(MDL_CAUSE_UNSOL_DM_RESP_MF, lctx); msgb_free(msg); /* reestablish */ if (!dl->reestablish) return 0; LOGP(DLLAPD, LOGL_NOTICE, "Performing " "reestablishment.\n"); return lapd_reestablish(dl); } break; case LAPD_STATE_DISC_SENT: /* stop Timer T200 */ lapd_stop_t200(dl); /* go to idle state */ lapd_dl_flush_tx(dl); lapd_dl_flush_send(dl); lapd_dl_newstate(dl, LAPD_STATE_IDLE); rc = send_dl_simple(PRIM_DL_REL, PRIM_OP_CONFIRM, lctx); msgb_free(msg); return 0; case LAPD_STATE_IDLE: /* 5.4.5 all other frame types shall be discarded */ default: LOGP(DLLAPD, LOGL_INFO, "unsolicited DM response! " "(discarding)\n"); msgb_free(msg); return 0; } /* stop timer T200 */ lapd_stop_t200(dl); /* go to idle state */ lapd_dl_newstate(dl, LAPD_STATE_IDLE); rc = send_dl_simple(PRIM_DL_REL, PRIM_OP_INDICATION, lctx); msgb_free(msg); break; case LAPD_U_UI: LOGP(DLLAPD, LOGL_INFO, "UI received\n"); /* G.2.2 Wrong value of the C/R bit */ if (lctx->cr == dl->cr.rem2loc.resp) { LOGP(DLLAPD, LOGL_ERROR, "UI indicates response " "error\n"); msgb_free(msg); mdl_error(MDL_CAUSE_FRM_UNIMPL, lctx); return -EINVAL; } /* G.4.5 If UI is received with L>N201 or with M bit * set, AN MDL-ERROR-INDICATION is sent to MM. */ if (length > lctx->n201 || lctx->more) { LOGP(DLLAPD, LOGL_ERROR, "UI too large error " "(%d > N201(%d) or M=%d)\n", length, lctx->n201, lctx->more); msgb_free(msg); mdl_error(MDL_CAUSE_UFRM_INC_PARAM, lctx); return -EIO; } /* do some length checks */ if (length == 0) { /* 5.3.3 UI frames received with the length indicator * set to "0" shall be ignored */ LOGP(DLLAPD, LOGL_INFO, "length=0 (discarding)\n"); msgb_free(msg); return 0; } msgb_trim(msg, length); rc = send_dl_l3(PRIM_DL_UNIT_DATA, PRIM_OP_INDICATION, lctx, msg); break; case LAPD_U_DISC: prim = PRIM_DL_REL; op = PRIM_OP_INDICATION; LOGP(DLLAPD, LOGL_INFO, "DISC received in state %s\n", lapd_state_names[dl->state]); /* flush tx and send buffers */ lapd_dl_flush_tx(dl); lapd_dl_flush_send(dl); /* 5.7.1 */ dl->seq_err_cond = 0; /* G.2.2 Wrong value of the C/R bit */ if (lctx->cr == dl->cr.rem2loc.resp) { LOGP(DLLAPD, LOGL_ERROR, "DISC response error\n"); msgb_free(msg); mdl_error(MDL_CAUSE_FRM_UNIMPL, lctx); return -EINVAL; } if (length > 0 || lctx->more) { /* G.4.4 If a DISC or DM frame is received with L>0 or * with the M bit set to "1", an MDL-ERROR-INDICATION * primitive with cause "U frame with incorrect * parameters" is sent to the mobile management entity. */ LOGP(DLLAPD, LOGL_ERROR, "U frame iwth incorrect parameters "); msgb_free(msg); mdl_error(MDL_CAUSE_UFRM_INC_PARAM, lctx); return -EIO; } switch (dl->state) { case LAPD_STATE_IDLE: LOGP(DLLAPD, LOGL_INFO, "DISC in idle state\n"); /* send DM with F=P */ msgb_free(msg); return lapd_send_dm(lctx); case LAPD_STATE_SABM_SENT: LOGP(DLLAPD, LOGL_INFO, "DISC in SABM state\n"); /* 5.4.6.2 send DM with F=P */ lapd_send_dm(lctx); /* stop Timer T200 */ lapd_stop_t200(dl); /* go to idle state */ lapd_dl_newstate(dl, LAPD_STATE_IDLE); msgb_free(msg); return send_dl_simple(PRIM_DL_REL, PRIM_OP_INDICATION, lctx); case LAPD_STATE_MF_EST: case LAPD_STATE_TIMER_RECOV: LOGP(DLLAPD, LOGL_INFO, "DISC in est state\n"); break; case LAPD_STATE_DISC_SENT: LOGP(DLLAPD, LOGL_INFO, "DISC in disc state\n"); prim = PRIM_DL_REL; op = PRIM_OP_CONFIRM; break; default: lapd_send_ua(lctx, length, msg->l3h); msgb_free(msg); return 0; } /* send UA response */ lapd_send_ua(lctx, length, msg->l3h); /* stop Timer T200 */ lapd_stop_t200(dl); /* enter idle state, keep tx-buffer with UA response */ lapd_dl_newstate(dl, LAPD_STATE_IDLE); /* send notification to L3 */ rc = send_dl_simple(prim, op, lctx); msgb_free(msg); break; case LAPD_U_UA: LOGP(DLLAPD, LOGL_INFO, "UA received in state %s\n", lapd_state_names[dl->state]); /* G.2.2 Wrong value of the C/R bit */ if (lctx->cr == dl->cr.rem2loc.cmd) { LOGP(DLLAPD, LOGL_ERROR, "UA indicates command " "error\n"); msgb_free(msg); mdl_error(MDL_CAUSE_FRM_UNIMPL, lctx); return -EINVAL; } /* G.4.5 If UA is received with L>N201 or with M bit * set, AN MDL-ERROR-INDICATION is sent to MM. */ if (lctx->more || length > lctx->n201) { LOGP(DLLAPD, LOGL_ERROR, "UA too large error\n"); msgb_free(msg); mdl_error(MDL_CAUSE_UFRM_INC_PARAM, lctx); return -EIO; } if (!lctx->p_f) { /* 5.4.1.2 A UA response with the F bit set to "0" * shall be ignored. */ LOGP(DLLAPD, LOGL_INFO, "F=0 (discarding)\n"); msgb_free(msg); return 0; } switch (dl->state) { case LAPD_STATE_SABM_SENT: break; case LAPD_STATE_MF_EST: case LAPD_STATE_TIMER_RECOV: LOGP(DLLAPD, LOGL_INFO, "unsolicited UA response! " "(discarding)\n"); mdl_error(MDL_CAUSE_UNSOL_UA_RESP, lctx); msgb_free(msg); return 0; case LAPD_STATE_DISC_SENT: LOGP(DLLAPD, LOGL_INFO, "UA in disconnect state\n"); /* stop Timer T200 */ lapd_stop_t200(dl); /* go to idle state */ lapd_dl_flush_tx(dl); lapd_dl_flush_send(dl); lapd_dl_newstate(dl, LAPD_STATE_IDLE); rc = send_dl_simple(PRIM_DL_REL, PRIM_OP_CONFIRM, lctx); msgb_free(msg); return 0; case LAPD_STATE_IDLE: /* 5.4.5 all other frame types shall be discarded */ default: LOGP(DLLAPD, LOGL_INFO, "unsolicited UA response! " "(discarding)\n"); msgb_free(msg); return 0; } LOGP(DLLAPD, LOGL_INFO, "UA in SABM state\n"); /* stop Timer T200 */ lapd_stop_t200(dl); /* compare UA with SABME if contention resolution is applied */ if (dl->tx_hist[0].msg->len) { if (length != (dl->tx_hist[0].msg->len) || !!memcmp(dl->tx_hist[0].msg->data, msg->l3h, length)) { LOGP(DLLAPD, LOGL_INFO, "**** UA response " "mismatches ****\n"); rc = send_dl_simple(PRIM_DL_REL, PRIM_OP_INDICATION, lctx); msgb_free(msg); /* go to idle state */ lapd_dl_flush_tx(dl); lapd_dl_flush_send(dl); lapd_dl_newstate(dl, LAPD_STATE_IDLE); return 0; } } /* set Vs, Vr and Va to 0 */ dl->v_send = dl->v_recv = dl->v_ack = 0; /* clear tx_hist */ lapd_dl_flush_hist(dl); /* enter multiple-frame-established state */ lapd_dl_newstate(dl, LAPD_STATE_MF_EST); /* send outstanding frames, if any (resume / reconnect) */ lapd_send_i(lctx, __LINE__); /* send notification to L3 */ rc = send_dl_simple(PRIM_DL_EST, PRIM_OP_CONFIRM, lctx); msgb_free(msg); break; case LAPD_U_FRMR: LOGP(DLLAPD, LOGL_NOTICE, "Frame reject received\n"); /* send MDL ERROR INIDCATION to L3 */ mdl_error(MDL_CAUSE_FRMR, lctx); msgb_free(msg); /* reestablish */ if (!dl->reestablish) break; LOGP(DLLAPD, LOGL_NOTICE, "Performing reestablishment.\n"); rc = lapd_reestablish(dl); break; default: /* G.3.1 */ LOGP(DLLAPD, LOGL_NOTICE, "Unnumbered frame not allowed.\n"); msgb_free(msg); mdl_error(MDL_CAUSE_FRM_UNIMPL, lctx); return -EINVAL; } return rc; } /* Receive a LAPD S (Supervisory) message from L1 */ static int lapd_rx_s(struct msgb *msg, struct lapd_msg_ctx *lctx) { struct lapd_datalink *dl = lctx->dl; int length = lctx->length; if (length > 0 || lctx->more) { /* G.4.3 If a supervisory frame is received with L>0 or * with the M bit set to "1", an MDL-ERROR-INDICATION * primitive with cause "S frame with incorrect * parameters" is sent to the mobile management entity. */ LOGP(DLLAPD, LOGL_ERROR, "S frame with incorrect parameters\n"); msgb_free(msg); mdl_error(MDL_CAUSE_SFRM_INC_PARAM, lctx); return -EIO; } if (lctx->cr == dl->cr.rem2loc.resp && lctx->p_f && dl->state != LAPD_STATE_TIMER_RECOV) { /* 5.4.2.2: Inidcate error on supervisory reponse F=1 */ LOGP(DLLAPD, LOGL_NOTICE, "S frame response with F=1 error\n"); mdl_error(MDL_CAUSE_UNSOL_SPRV_RESP, lctx); } switch (dl->state) { case LAPD_STATE_IDLE: /* if P=1, respond DM with F=1 (5.2.2) */ /* 5.4.5 all other frame types shall be discarded */ if (lctx->p_f) lapd_send_dm(lctx); /* F=P */ /* fall though */ case LAPD_STATE_SABM_SENT: case LAPD_STATE_DISC_SENT: LOGP(DLLAPD, LOGL_NOTICE, "S frame ignored in this state\n"); msgb_free(msg); return 0; } switch (lctx->s_u) { case LAPD_S_RR: LOGP(DLLAPD, LOGL_INFO, "RR received in state %s\n", lapd_state_names[dl->state]); /* 5.5.3.1: Acknowlege all tx frames up the the N(R)-1 */ lapd_acknowledge(lctx); /* 5.5.3.2 */ if (lctx->cr == dl->cr.rem2loc.cmd && lctx->p_f) { if (!dl->own_busy && !dl->seq_err_cond) { LOGP(DLLAPD, LOGL_INFO, "RR frame command " "with polling bit set and we are not " "busy, so we reply with RR frame " "response\n"); lapd_send_rr(lctx, 1, 0); /* NOTE: In case of sequence error condition, * the REJ frame has been transmitted when * entering the condition, so it has not be * done here */ } else if (dl->own_busy) { LOGP(DLLAPD, LOGL_INFO, "RR frame command " "with polling bit set and we are busy, " "so we reply with RR frame response\n"); lapd_send_rnr(lctx, 1, 0); } } else if (lctx->cr == dl->cr.rem2loc.resp && lctx->p_f && dl->state == LAPD_STATE_TIMER_RECOV) { LOGP(DLLAPD, LOGL_INFO, "RR response with F==1, " "and we are in timer recovery state, so " "we leave that state\n"); /* V(S) to the N(R) in the RR frame */ dl->v_send = lctx->n_recv; /* stop Timer T200 */ lapd_stop_t200(dl); /* 5.5.7 Clear timer recovery condition */ lapd_dl_newstate(dl, LAPD_STATE_MF_EST); } /* Send message, if possible due to acknowledged data */ lapd_send_i(lctx, __LINE__); break; case LAPD_S_RNR: LOGP(DLLAPD, LOGL_INFO, "RNR received in state %s\n", lapd_state_names[dl->state]); /* 5.5.3.1: Acknowlege all tx frames up the the N(R)-1 */ lapd_acknowledge(lctx); /* 5.5.5 */ /* Set peer receiver busy condition */ dl->peer_busy = 1; if (lctx->p_f) { if (lctx->cr == dl->cr.rem2loc.cmd) { if (!dl->own_busy) { LOGP(DLLAPD, LOGL_INFO, "RNR poll " "command and we are not busy, " "so we reply with RR final " "response\n"); /* Send RR with F=1 */ lapd_send_rr(lctx, 1, 0); } else { LOGP(DLLAPD, LOGL_INFO, "RNR poll " "command and we are busy, so " "we reply with RNR final " "response\n"); /* Send RNR with F=1 */ lapd_send_rnr(lctx, 1, 0); } } else if (dl->state == LAPD_STATE_TIMER_RECOV) { LOGP(DLLAPD, LOGL_INFO, "RNR poll response " "and we in timer recovery state, so " "we leave that state\n"); /* 5.5.7 Clear timer recovery condition */ lapd_dl_newstate(dl, LAPD_STATE_MF_EST); /* V(S) to the N(R) in the RNR frame */ dl->v_send = lctx->n_recv; } } else LOGP(DLLAPD, LOGL_INFO, "RNR not polling/final state " "received\n"); /* Send message, if possible due to acknowledged data */ lapd_send_i(lctx, __LINE__); break; case LAPD_S_REJ: LOGP(DLLAPD, LOGL_INFO, "REJ received in state %s\n", lapd_state_names[dl->state]); /* 5.5.3.1: Acknowlege all tx frames up the the N(R)-1 */ lapd_acknowledge(lctx); /* 5.5.4.1 */ if (dl->state != LAPD_STATE_TIMER_RECOV) { /* Clear an existing peer receiver busy condition */ dl->peer_busy = 0; /* V(S) and V(A) to the N(R) in the REJ frame */ dl->v_send = dl->v_ack = lctx->n_recv; /* stop Timer T200 */ lapd_stop_t200(dl); /* 5.5.3.2 */ if (lctx->cr == dl->cr.rem2loc.cmd && lctx->p_f) { if (!dl->own_busy && !dl->seq_err_cond) { LOGP(DLLAPD, LOGL_INFO, "REJ poll " "command not in timer recovery " "state and not in own busy " "condition received, so we " "respond with RR final " "response\n"); lapd_send_rr(lctx, 1, 0); /* NOTE: In case of sequence error * condition, the REJ frame has been * transmitted when entering the * condition, so it has not be done * here */ } else if (dl->own_busy) { LOGP(DLLAPD, LOGL_INFO, "REJ poll " "command not in timer recovery " "state and in own busy " "condition received, so we " "respond with RNR final " "response\n"); lapd_send_rnr(lctx, 1, 0); } } else LOGP(DLLAPD, LOGL_INFO, "REJ response or not " "polling command not in timer recovery " "state received\n"); /* send MDL ERROR INIDCATION to L3 */ if (lctx->cr == dl->cr.rem2loc.resp && lctx->p_f) { mdl_error(MDL_CAUSE_UNSOL_SPRV_RESP, lctx); } } else if (lctx->cr == dl->cr.rem2loc.resp && lctx->p_f) { LOGP(DLLAPD, LOGL_INFO, "REJ poll response in timer " "recovery state received\n"); /* Clear an existing peer receiver busy condition */ dl->peer_busy = 0; /* V(S) and V(A) to the N(R) in the REJ frame */ dl->v_send = dl->v_ack = lctx->n_recv; /* stop Timer T200 */ lapd_stop_t200(dl); /* 5.5.7 Clear timer recovery condition */ lapd_dl_newstate(dl, LAPD_STATE_MF_EST); } else { /* Clear an existing peer receiver busy condition */ dl->peer_busy = 0; /* V(S) and V(A) to the N(R) in the REJ frame */ dl->v_send = dl->v_ack = lctx->n_recv; /* 5.5.3.2 */ if (lctx->cr == dl->cr.rem2loc.cmd && lctx->p_f) { if (!dl->own_busy && !dl->seq_err_cond) { LOGP(DLLAPD, LOGL_INFO, "REJ poll " "command in timer recovery " "state and not in own busy " "condition received, so we " "respond with RR final " "response\n"); lapd_send_rr(lctx, 1, 0); /* NOTE: In case of sequence error * condition, the REJ frame has been * transmitted when entering the * condition, so it has not be done * here */ } else if (dl->own_busy) { LOGP(DLLAPD, LOGL_INFO, "REJ poll " "command in timer recovery " "state and in own busy " "condition received, so we " "respond with RNR final " "response\n"); lapd_send_rnr(lctx, 1, 0); } } else LOGP(DLLAPD, LOGL_INFO, "REJ response or not " "polling command in timer recovery " "state received\n"); } /* FIXME: 5.5.4.2 2) */ /* Send message, if possible due to acknowledged data */ lapd_send_i(lctx, __LINE__); break; default: /* G.3.1 */ LOGP(DLLAPD, LOGL_ERROR, "Supervisory frame not allowed.\n"); msgb_free(msg); mdl_error(MDL_CAUSE_FRM_UNIMPL, lctx); return -EINVAL; } msgb_free(msg); return 0; } /* Receive a LAPD I (Information) message from L1 */ static int lapd_rx_i(struct msgb *msg, struct lapd_msg_ctx *lctx) { struct lapd_datalink *dl = lctx->dl; //uint8_t nr = lctx->n_recv; uint8_t ns = lctx->n_send; int length = lctx->length; int rc; LOGP(DLLAPD, LOGL_INFO, "I received in state %s on SAPI(%u)\n", lapd_state_names[dl->state], lctx->sapi); /* G.2.2 Wrong value of the C/R bit */ if (lctx->cr == dl->cr.rem2loc.resp) { LOGP(DLLAPD, LOGL_ERROR, "I frame response not allowed\n"); msgb_free(msg); mdl_error(MDL_CAUSE_FRM_UNIMPL, lctx); return -EINVAL; } if (length == 0 || length > lctx->n201) { /* G.4.2 If the length indicator of an I frame is set * to a numerical value L>N201 or L=0, an MDL-ERROR-INDICATION * primitive with cause "I frame with incorrect length" * is sent to the mobile management entity. */ LOGP(DLLAPD, LOGL_ERROR, "I frame length not allowed\n"); msgb_free(msg); mdl_error(MDL_CAUSE_IFRM_INC_LEN, lctx); return -EIO; } /* G.4.2 If the numerical value of L is Lmore && length < lctx->n201) { LOGP(DLLAPD, LOGL_ERROR, "I frame with M bit too short\n"); msgb_free(msg); mdl_error(MDL_CAUSE_IFRM_INC_MBITS, lctx); return -EIO; } switch (dl->state) { case LAPD_STATE_IDLE: /* if P=1, respond DM with F=1 (5.2.2) */ /* 5.4.5 all other frame types shall be discarded */ if (lctx->p_f) lapd_send_dm(lctx); /* F=P */ /* fall though */ case LAPD_STATE_SABM_SENT: case LAPD_STATE_DISC_SENT: LOGP(DLLAPD, LOGL_NOTICE, "I frame ignored in this state\n"); msgb_free(msg); return 0; } /* 5.7.1: N(s) sequence error */ if (ns != dl->v_recv) { LOGP(DLLAPD, LOGL_NOTICE, "N(S) sequence error: N(S)=%u, " "V(R)=%u\n", ns, dl->v_recv); /* discard data */ msgb_free(msg); if (dl->seq_err_cond != 1) { /* FIXME: help me understand what exactly todo here */ dl->seq_err_cond = 1; lapd_send_rej(lctx, lctx->p_f); } else { /* If there are two subsequent sequence errors received, * ignore it. (Ignore every second subsequent error.) * This happens if our reply with the REJ is too slow, * so the remote gets a T200 timeout and sends another * frame with a sequence error. * Test showed that replying with two subsequent REJ * messages could the remote L2 process to abort. * Replying too slow shouldn't happen, but may happen * over serial link between BB and LAPD. */ dl->seq_err_cond = 2; } /* Even if N(s) sequence error, acknowledge to N(R)-1 */ /* 5.5.3.1: Acknowlege all transmitted frames up the N(R)-1 */ lapd_acknowledge(lctx); /* V(A) is also set here */ /* Send message, if possible due to acknowledged data */ lapd_send_i(lctx, __LINE__); return 0; } dl->seq_err_cond = 0; /* Increment receiver state */ dl->v_recv = inc_mod(dl->v_recv, dl->v_range); LOGP(DLLAPD, LOGL_INFO, "incrementing V(R) to %u\n", dl->v_recv); /* 5.5.3.1: Acknowlege all transmitted frames up the the N(R)-1 */ lapd_acknowledge(lctx); /* V(A) is also set here */ /* Only if we are not in own receiver busy condition */ if (!dl->own_busy) { /* if the frame carries a complete segment */ if (!lctx->more && !dl->rcv_buffer) { LOGP(DLLAPD, LOGL_INFO, "message in single I frame\n"); /* send a DATA INDICATION to L3 */ msgb_trim(msg, length); rc = send_dl_l3(PRIM_DL_DATA, PRIM_OP_INDICATION, lctx, msg); } else { /* create rcv_buffer */ if (!dl->rcv_buffer) { LOGP(DLLAPD, LOGL_INFO, "message in multiple " "I frames (first message)\n"); dl->rcv_buffer = lapd_msgb_alloc(dl->maxf, "LAPD RX"); dl->rcv_buffer->l3h = dl->rcv_buffer->data; } /* concat. rcv_buffer */ if (msgb_l3len(dl->rcv_buffer) + length > dl->maxf) { LOGP(DLLAPD, LOGL_NOTICE, "Received frame " "overflow!\n"); } else { memcpy(msgb_put(dl->rcv_buffer, length), msg->l3h, length); } /* if the last segment was received */ if (!lctx->more) { LOGP(DLLAPD, LOGL_INFO, "message in multiple " "I frames (last message)\n"); rc = send_dl_l3(PRIM_DL_DATA, PRIM_OP_INDICATION, lctx, dl->rcv_buffer); dl->rcv_buffer = NULL; } else LOGP(DLLAPD, LOGL_INFO, "message in multiple " "I frames (next message)\n"); msgb_free(msg); } } else LOGP(DLLAPD, LOGL_INFO, "I frame ignored during own receiver " "busy condition\n"); /* Check for P bit */ if (lctx->p_f) { /* 5.5.2.1 */ /* check if we are not in own receiver busy */ if (!dl->own_busy) { LOGP(DLLAPD, LOGL_INFO, "we are not busy, send RR\n"); /* Send RR with F=1 */ rc = lapd_send_rr(lctx, 1, 0); } else { LOGP(DLLAPD, LOGL_INFO, "we are busy, send RNR\n"); /* Send RNR with F=1 */ rc = lapd_send_rnr(lctx, 1, 0); } } else { /* 5.5.2.2 */ /* check if we are not in own receiver busy */ if (!dl->own_busy) { /* NOTE: V(R) is already set above */ rc = lapd_send_i(lctx, __LINE__); /* if update_pending_iframe returns 0 it updated * the lapd header of an iframe in the tx queue */ if (rc && dl->update_pending_frames) rc = dl->update_pending_frames(lctx); if (rc) { LOGP(DLLAPD, LOGL_INFO, "we are not busy and " "have no pending data, send RR\n"); /* Send RR with F=0 */ return lapd_send_rr(lctx, 0, 0); } /* all I or one RR is sent, we are done */ return 0; } else { LOGP(DLLAPD, LOGL_INFO, "we are busy, send RNR\n"); /* Send RNR with F=0 */ rc = lapd_send_rnr(lctx, 0, 0); } } /* Send message, if possible due to acknowledged data */ lapd_send_i(lctx, __LINE__); return rc; } /* Receive a LAPD message from L1 */ int lapd_ph_data_ind(struct msgb *msg, struct lapd_msg_ctx *lctx) { int rc; switch (lctx->format) { case LAPD_FORM_U: rc = lapd_rx_u(msg, lctx); break; case LAPD_FORM_S: rc = lapd_rx_s(msg, lctx); break; case LAPD_FORM_I: rc = lapd_rx_i(msg, lctx); break; default: LOGP(DLLAPD, LOGL_NOTICE, "unknown LAPD format\n"); msgb_free(msg); rc = -EINVAL; } return rc; } /* L3 -> L2 */ /* send unit data */ static int lapd_udata_req(struct osmo_dlsap_prim *dp, struct lapd_msg_ctx *lctx) { struct lapd_datalink *dl = lctx->dl; struct msgb *msg = dp->oph.msg; struct lapd_msg_ctx nctx; memcpy(&nctx, lctx, sizeof(nctx)); /* keep nctx.ldp */ /* keep nctx.sapi */ /* keep nctx.tei */ nctx.cr = dl->cr.loc2rem.cmd; nctx.format = LAPD_FORM_U; nctx.s_u = LAPD_U_UI; /* keep nctx.p_f */ nctx.length = msg->len; nctx.more = 0; return dl->send_ph_data_req(&nctx, msg); } /* request link establishment */ static int lapd_est_req(struct osmo_dlsap_prim *dp, struct lapd_msg_ctx *lctx) { struct lapd_datalink *dl = lctx->dl; struct msgb *msg = dp->oph.msg; struct lapd_msg_ctx nctx; if (msg->len) LOGP(DLLAPD, LOGL_INFO, "perform establishment with content " "(SABM)\n"); else LOGP(DLLAPD, LOGL_INFO, "perform normal establishm. (SABM)\n"); /* Flush send-queue */ /* Clear send-buffer */ lapd_dl_flush_send(dl); /* be sure that history is empty */ lapd_dl_flush_hist(dl); /* save message context for further use */ memcpy(&dl->lctx, lctx, sizeof(dl->lctx)); /* Discard partly received L3 message */ msgb_free(dl->rcv_buffer); dl->rcv_buffer = NULL; /* assemble message */ memcpy(&nctx, &dl->lctx, sizeof(nctx)); /* keep nctx.ldp */ /* keep nctx.sapi */ /* keep nctx.tei */ nctx.cr = dl->cr.loc2rem.cmd; nctx.format = LAPD_FORM_U; nctx.s_u = (dl->use_sabme) ? LAPD_U_SABME : LAPD_U_SABM; nctx.p_f = 1; nctx.length = msg->len; nctx.more = 0; /* Transmit-buffer carries exactly one segment */ dl->tx_hist[0].msg = lapd_msgb_alloc(msg->len, "HIST"); msgb_put(dl->tx_hist[0].msg, msg->len); if (msg->len) memcpy(dl->tx_hist[0].msg->data, msg->l3h, msg->len); dl->tx_hist[0].more = 0; /* set Vs to 0, because it is used as index when resending SABM */ dl->v_send = 0; /* Set states */ dl->own_busy = dl->peer_busy = 0; dl->retrans_ctr = 0; lapd_dl_newstate(dl, LAPD_STATE_SABM_SENT); /* Tramsmit and start T200 */ dl->send_ph_data_req(&nctx, msg); lapd_start_t200(dl); return 0; } /* send data */ static int lapd_data_req(struct osmo_dlsap_prim *dp, struct lapd_msg_ctx *lctx) { struct lapd_datalink *dl = lctx->dl; struct msgb *msg = dp->oph.msg; if (msgb_l3len(msg) == 0) { LOGP(DLLAPD, LOGL_ERROR, "writing an empty message is not possible.\n"); msgb_free(msg); return -1; } LOGP(DLLAPD, LOGL_INFO, "writing message to send-queue: l3len: %d\n", msgb_l3len(msg)); /* Write data into the send queue */ msgb_enqueue(&dl->send_queue, msg); /* Send message, if possible */ lapd_send_i(&dl->lctx, __LINE__); return 0; } /* Send next I frame from queued/buffered data */ static int lapd_send_i(struct lapd_msg_ctx *lctx, int line) { struct lapd_datalink *dl = lctx->dl; uint8_t k = dl->k; uint8_t h; struct msgb *msg; int length, left; int rc = - 1; /* we sent nothing */ struct lapd_msg_ctx nctx; LOGP(DLLAPD, LOGL_INFO, "%s() called from line %d\n", __func__, line); next_frame: if (dl->peer_busy) { LOGP(DLLAPD, LOGL_INFO, "peer busy, not sending\n"); return rc; } if (dl->state == LAPD_STATE_TIMER_RECOV) { LOGP(DLLAPD, LOGL_INFO, "timer recovery, not sending\n"); return rc; } /* If the send state variable V(S) is equal to V(A) plus k * (where k is the maximum number of outstanding I frames - see * subclause 5.8.4), the data link layer entity shall not transmit any * new I frames, but shall retransmit an I frame as a result * of the error recovery procedures as described in subclauses 5.5.4 and * 5.5.7. */ if (dl->v_send == add_mod(dl->v_ack, k, dl->v_range)) { LOGP(DLLAPD, LOGL_INFO, "k frames outstanding, not sending " "more (k=%u V(S)=%u V(A)=%u)\n", k, dl->v_send, dl->v_ack); return rc; } h = do_mod(dl->v_send, dl->range_hist); /* if we have no tx_hist yet, we create it */ if (!dl->tx_hist[h].msg) { /* Get next message into send-buffer, if any */ if (!dl->send_buffer) { next_message: dl->send_out = 0; dl->send_buffer = msgb_dequeue(&dl->send_queue); /* No more data to be sent */ if (!dl->send_buffer) return rc; LOGP(DLLAPD, LOGL_INFO, "get message from " "send-queue\n"); } /* How much is left in the send-buffer? */ left = msgb_l3len(dl->send_buffer) - dl->send_out; /* Segment, if data exceeds N201 */ length = left; if (length > lctx->n201) length = lctx->n201; LOGP(DLLAPD, LOGL_INFO, "msg-len %d sent %d left %d N201 %d " "length %d first byte %02x\n", msgb_l3len(dl->send_buffer), dl->send_out, left, lctx->n201, length, dl->send_buffer->l3h[0]); /* If message in send-buffer is completely sent */ if (left == 0) { msgb_free(dl->send_buffer); dl->send_buffer = NULL; goto next_message; } LOGP(DLLAPD, LOGL_INFO, "send I frame %sV(S)=%d\n", (left > length) ? "segment " : "", dl->v_send); /* Create I frame (segment) and transmit-buffer content */ msg = lapd_msgb_alloc(length, "LAPD I"); msg->l3h = msgb_put(msg, length); /* assemble message */ memcpy(&nctx, &dl->lctx, sizeof(nctx)); /* keep nctx.ldp */ /* keep nctx.sapi */ /* keep nctx.tei */ nctx.cr = dl->cr.loc2rem.cmd; nctx.format = LAPD_FORM_I; nctx.p_f = 0; nctx.n_send = dl->v_send; nctx.n_recv = dl->v_recv; nctx.length = length; if (left > length) nctx.more = 1; else nctx.more = 0; if (length) memcpy(msg->l3h, dl->send_buffer->l3h + dl->send_out, length); /* store in tx_hist */ dl->tx_hist[h].msg = lapd_msgb_alloc(msg->len, "HIST"); msgb_put(dl->tx_hist[h].msg, msg->len); if (length) memcpy(dl->tx_hist[h].msg->data, msg->l3h, msg->len); dl->tx_hist[h].more = nctx.more; /* Add length to track how much is already in the tx buffer */ dl->send_out += length; } else { LOGP(DLLAPD, LOGL_INFO, "resend I frame from tx buffer " "V(S)=%d\n", dl->v_send); /* Create I frame (segment) from tx_hist */ length = dl->tx_hist[h].msg->len; msg = lapd_msgb_alloc(length, "LAPD I resend"); msg->l3h = msgb_put(msg, length); /* assemble message */ memcpy(&nctx, &dl->lctx, sizeof(nctx)); /* keep nctx.ldp */ /* keep nctx.sapi */ /* keep nctx.tei */ nctx.cr = dl->cr.loc2rem.cmd; nctx.format = LAPD_FORM_I; nctx.p_f = 0; nctx.n_send = dl->v_send; nctx.n_recv = dl->v_recv; nctx.length = length; nctx.more = dl->tx_hist[h].more; if (length) memcpy(msg->l3h, dl->tx_hist[h].msg->data, length); } /* The value of the send state variable V(S) shall be incremented by 1 * at the end of the transmission of the I frame */ dl->v_send = inc_mod(dl->v_send, dl->v_range); /* If timer T200 is not running at the time right before transmitting a * frame, when the PH-READY-TO-SEND primitive is received from the * physical layer., it shall be set. */ if (!osmo_timer_pending(&dl->t200)) { /* stop Timer T203, if running */ lapd_stop_t203(dl); /* start Timer T200 */ lapd_start_t200(dl); } dl->send_ph_data_req(&nctx, msg); rc = 0; /* we sent something */ goto next_frame; } /* request link suspension */ static int lapd_susp_req(struct osmo_dlsap_prim *dp, struct lapd_msg_ctx *lctx) { struct lapd_datalink *dl = lctx->dl; struct msgb *msg = dp->oph.msg; LOGP(DLLAPD, LOGL_INFO, "perform suspension\n"); /* put back the send-buffer to the send-queue (first position) */ if (dl->send_buffer) { LOGP(DLLAPD, LOGL_INFO, "put frame in sendbuffer back to " "queue\n"); llist_add(&dl->send_buffer->list, &dl->send_queue); dl->send_buffer = NULL; } else LOGP(DLLAPD, LOGL_INFO, "no frame in sendbuffer\n"); /* Clear transmit buffer, but keep send buffer */ lapd_dl_flush_tx(dl); /* Stop timers (there is no state change, so we must stop all timers */ lapd_stop_t200(dl); lapd_stop_t203(dl); msgb_free(msg); return send_dl_simple(PRIM_DL_SUSP, PRIM_OP_CONFIRM, &dl->lctx); } /* request, resume or reconnect of link */ static int lapd_res_req(struct osmo_dlsap_prim *dp, struct lapd_msg_ctx *lctx) { struct lapd_datalink *dl = lctx->dl; struct msgb *msg = dp->oph.msg; struct lapd_msg_ctx nctx; LOGP(DLLAPD, LOGL_INFO, "perform re-establishment (SABM) length=%d\n", msg->len); /* be sure that history is empty */ lapd_dl_flush_hist(dl); /* save message context for further use */ memcpy(&dl->lctx, lctx, sizeof(dl->lctx)); /* Replace message in the send-buffer (reconnect) */ msgb_free(dl->send_buffer); dl->send_buffer = NULL; dl->send_out = 0; if (msg->len) { /* Write data into the send buffer, to be sent first */ dl->send_buffer = msg; } else { msgb_free(msg); msg = NULL; dl->send_buffer = NULL; } /* Discard partly received L3 message */ msgb_free(dl->rcv_buffer); dl->rcv_buffer = NULL; /* Create new msgb (old one is now free) */ msg = lapd_msgb_alloc(0, "LAPD SABM"); msg->l3h = msg->data; /* assemble message */ memcpy(&nctx, &dl->lctx, sizeof(nctx)); /* keep nctx.ldp */ /* keep nctx.sapi */ /* keep nctx.tei */ nctx.cr = dl->cr.loc2rem.cmd; nctx.format = LAPD_FORM_U; nctx.s_u = (dl->use_sabme) ? LAPD_U_SABME : LAPD_U_SABM; nctx.p_f = 1; nctx.length = 0; nctx.more = 0; dl->tx_hist[0].msg = lapd_msgb_alloc(msg->len, "HIST"); msgb_put(dl->tx_hist[0].msg, msg->len); if (msg->len) memcpy(dl->tx_hist[0].msg->data, msg->l3h, msg->len); dl->tx_hist[0].more = 0; /* set Vs to 0, because it is used as index when resending SABM */ dl->v_send = 0; /* Set states */ dl->own_busy = dl->peer_busy = 0; dl->retrans_ctr = 0; lapd_dl_newstate(dl, LAPD_STATE_SABM_SENT); /* Tramsmit and start T200 */ dl->send_ph_data_req(&nctx, msg); lapd_start_t200(dl); return 0; } /* requesst release of link */ static int lapd_rel_req(struct osmo_dlsap_prim *dp, struct lapd_msg_ctx *lctx) { struct lapd_datalink *dl = lctx->dl; struct msgb *msg = dp->oph.msg; struct lapd_msg_ctx nctx; /* local release */ if (dp->u.rel_req.mode) { LOGP(DLLAPD, LOGL_INFO, "perform local release\n"); msgb_free(msg); /* stop Timer T200 */ lapd_stop_t200(dl); /* enter idle state, T203 is stopped here, if running */ lapd_dl_newstate(dl, LAPD_STATE_IDLE); /* flush buffers */ lapd_dl_flush_tx(dl); lapd_dl_flush_send(dl); /* send notification to L3 */ return send_dl_simple(PRIM_DL_REL, PRIM_OP_CONFIRM, &dl->lctx); } /* in case we are already disconnecting */ if (dl->state == LAPD_STATE_DISC_SENT) return -EBUSY; /* flush tx_hist */ lapd_dl_flush_hist(dl); LOGP(DLLAPD, LOGL_INFO, "perform normal release (DISC)\n"); /* Push LAPD header on msgb */ /* assemble message */ memcpy(&nctx, &dl->lctx, sizeof(nctx)); /* keep nctx.ldp */ /* keep nctx.sapi */ /* keep nctx.tei */ nctx.cr = dl->cr.loc2rem.cmd; nctx.format = LAPD_FORM_U; nctx.s_u = LAPD_U_DISC; nctx.p_f = 1; nctx.length = 0; nctx.more = 0; dl->tx_hist[0].msg = lapd_msgb_alloc(msg->len, "HIST"); msgb_put(dl->tx_hist[0].msg, msg->len); if (msg->len) memcpy(dl->tx_hist[0].msg->data, msg->l3h, msg->len); dl->tx_hist[0].more = 0; /* set Vs to 0, because it is used as index when resending DISC */ dl->v_send = 0; /* Set states */ dl->own_busy = dl->peer_busy = 0; dl->retrans_ctr = 0; lapd_dl_newstate(dl, LAPD_STATE_DISC_SENT); /* Tramsmit and start T200 */ dl->send_ph_data_req(&nctx, msg); lapd_start_t200(dl); return 0; } /* request release of link in idle state */ static int lapd_rel_req_idle(struct osmo_dlsap_prim *dp, struct lapd_msg_ctx *lctx) { struct lapd_datalink *dl = lctx->dl; struct msgb *msg = dp->oph.msg; msgb_free(msg); /* send notification to L3 */ return send_dl_simple(PRIM_DL_REL, PRIM_OP_CONFIRM, &dl->lctx); } /* statefull handling for DL SAP messages from L3 */ static const struct l2downstate { uint32_t states; int prim, op; const char *name; int (*rout) (struct osmo_dlsap_prim *dp, struct lapd_msg_ctx *lctx); } l2downstatelist[] = { /* create and send UI command */ {ALL_STATES, PRIM_DL_UNIT_DATA, PRIM_OP_REQUEST, "DL-UNIT-DATA-REQUEST", lapd_udata_req}, /* create and send SABM command */ {SBIT(LAPD_STATE_IDLE), PRIM_DL_EST, PRIM_OP_REQUEST, "DL-ESTABLISH-REQUEST", lapd_est_req}, /* create and send I command */ {SBIT(LAPD_STATE_MF_EST) | SBIT(LAPD_STATE_TIMER_RECOV), PRIM_DL_DATA, PRIM_OP_REQUEST, "DL-DATA-REQUEST", lapd_data_req}, /* suspend datalink */ {SBIT(LAPD_STATE_MF_EST) | SBIT(LAPD_STATE_TIMER_RECOV), PRIM_DL_SUSP, PRIM_OP_REQUEST, "DL-SUSPEND-REQUEST", lapd_susp_req}, /* create and send SABM command (resume) */ {SBIT(LAPD_STATE_MF_EST) | SBIT(LAPD_STATE_TIMER_RECOV), PRIM_DL_RES, PRIM_OP_REQUEST, "DL-RESUME-REQUEST", lapd_res_req}, /* create and send SABM command (reconnect) */ {SBIT(LAPD_STATE_IDLE) | SBIT(LAPD_STATE_MF_EST) | SBIT(LAPD_STATE_TIMER_RECOV), PRIM_DL_RECON, PRIM_OP_REQUEST, "DL-RECONNECT-REQUEST", lapd_res_req}, /* create and send DISC command */ {SBIT(LAPD_STATE_SABM_SENT) | SBIT(LAPD_STATE_MF_EST) | SBIT(LAPD_STATE_TIMER_RECOV) | SBIT(LAPD_STATE_DISC_SENT), PRIM_DL_REL, PRIM_OP_REQUEST, "DL-RELEASE-REQUEST", lapd_rel_req}, /* release in idle state */ {SBIT(LAPD_STATE_IDLE), PRIM_DL_REL, PRIM_OP_REQUEST, "DL-RELEASE-REQUEST", lapd_rel_req_idle}, }; #define L2DOWNSLLEN \ (sizeof(l2downstatelist) / sizeof(struct l2downstate)) int lapd_recv_dlsap(struct osmo_dlsap_prim *dp, struct lapd_msg_ctx *lctx) { struct lapd_datalink *dl = lctx->dl; int i, supported = 0; struct msgb *msg = dp->oph.msg; int rc; /* find function for current state and message */ for (i = 0; i < L2DOWNSLLEN; i++) { if (dp->oph.primitive == l2downstatelist[i].prim && dp->oph.operation == l2downstatelist[i].op) { supported = 1; if ((SBIT(dl->state) & l2downstatelist[i].states)) break; } } if (!supported) { LOGP(DLLAPD, LOGL_NOTICE, "Message %u/%u unsupported.\n", dp->oph.primitive, dp->oph.operation); msgb_free(msg); return 0; } if (i == L2DOWNSLLEN) { LOGP(DLLAPD, LOGL_NOTICE, "Message %u/%u unhandled at this " "state %s.\n", dp->oph.primitive, dp->oph.operation, lapd_state_names[dl->state]); msgb_free(msg); return 0; } LOGP(DLLAPD, LOGL_INFO, "Message %s received in state %s\n", l2downstatelist[i].name, lapd_state_names[dl->state]); rc = l2downstatelist[i].rout(dp, lctx); return rc; } /*! @} */