| blob | 6af86eba7463259522b8530dfbf361e4624d464b |
1 /*********************************************************************
2 *
3 * Filename: irlap_event.c
4 * Version: 0.9
5 * Description: IrLAP state machine implementation
6 * Status: Experimental.
7 * Author: Dag Brattli <dag@brattli.net>
8 * Created at: Sat Aug 16 00:59:29 1997
9 * Modified at: Sat Dec 25 21:07:57 1999
10 * Modified by: Dag Brattli <dag@brattli.net>
11 *
12 * Copyright (c) 1998-2000 Dag Brattli <dag@brattli.net>,
13 * Copyright (c) 1998 Thomas Davis <ratbert@radiks.net>
14 * All Rights Reserved.
15 * Copyright (c) 2000-2003 Jean Tourrilhes <jt@hpl.hp.com>
16 *
17 * This program is free software; you can redistribute it and/or
18 * modify it under the terms of the GNU General Public License as
19 * published by the Free Software Foundation; either version 2 of
20 * the License, or (at your option) any later version.
21 *
22 * Neither Dag Brattli nor University of Tromsø admit liability nor
23 * provide warranty for any of this software. This material is
24 * provided "AS-IS" and at no charge.
25 *
26 ********************************************************************/
28 #include <linux/string.h>
29 #include <linux/kernel.h>
30 #include <linux/delay.h>
31 #include <linux/skbuff.h>
33 #include <net/irda/irda.h>
34 #include <net/irda/irlap_event.h>
36 #include <net/irda/timer.h>
37 #include <net/irda/irlap.h>
38 #include <net/irda/irlap_frame.h>
39 #include <net/irda/qos.h>
40 #include <net/irda/parameters.h>
43 #include <net/irda/irda_device.h>
45 #ifdef CONFIG_IRDA_FAST_RR
47 #endif
80 #ifdef CONFIG_IRDA_DEBUG
120 };
139 };
143 {
144 irlap_state_ndm,
145 irlap_state_query,
146 irlap_state_reply,
147 irlap_state_conn,
148 irlap_state_setup,
149 irlap_state_offline,
150 irlap_state_xmit_p,
151 irlap_state_pclose,
152 irlap_state_nrm_p,
153 irlap_state_reset_wait,
154 irlap_state_reset,
155 irlap_state_nrm_s,
156 irlap_state_xmit_s,
157 irlap_state_sclose,
158 irlap_state_reset_check,
159 };
161 /*
162 * Function irda_poll_timer_expired (data)
163 *
164 * Poll timer has expired. Normally we must now send a RR frame to the
165 * remote device
166 */
168 {
175 }
177 /*
178 * Calculate and set time before we will have to send back the pf bit
179 * to the peer. Use in primary.
180 * Make sure that state is XMIT_P/XMIT_S when calling this function
181 * (and that nobody messed up with the state). - Jean II
182 */
184 {
188 #ifdef CONFIG_IRDA_FAST_RR
189 /*
190 * Send out the RR frames faster if our own transmit queue is empty, or
191 * if the peer is busy. The effect is a much faster conversation
192 */
195 /*
196 * Assert that the fast poll timer has not reached the
197 * normal poll timer yet
198 */
200 /*
201 * FIXME: this should be a more configurable
202 * function
203 */
207 /* Use this fast(er) timeout instead */
209 }
213 /* Start with just 0 ms */
216 }
225 else
227 irlap_poll_timer_expired);
228 }
230 /*
231 * Function irlap_do_event (event, skb, info)
232 *
233 * Rushes through the state machine without any delay. If state == XMIT
234 * then send queued data frames.
235 */
238 {
249 /*
250 * Check if there are any pending events that needs to be executed
251 */
255 /*
256 * We just received the pf bit and are at the beginning
257 * of a new LAP transmit window.
258 * Check if there are any queued data frames, and do not
259 * try to disconnect link if we send any data frames, since
260 * that will change the state away form XMIT
261 */
266 /* Prevent race conditions with irlap_data_request() */
269 /* Theory of operation.
270 * We send frames up to when we fill the window or
271 * reach line capacity. Those frames will queue up
272 * in the device queue, and the driver will slowly
273 * send them.
274 * After each frame that we send, we poll the higher
275 * layer for more data. It's the right time to do
276 * that because the link layer need to perform the mtt
277 * and then send the first frame, so we can afford
278 * to send a bit of time in kernel space.
279 * The explicit flow indication allow to minimise
280 * buffers (== lower latency), to avoid higher layer
281 * polling via timers (== less context switches) and
282 * to implement a crude scheduler - Jean II */
284 /* Try to send away all queued data frames */
286 /* Send one frame */
289 /* Drop reference count.
290 * It will be increase as needed in
291 * irlap_send_data_xxx() */
294 /* Poll the higher layers for one more frame */
296 FLOW_START);
300 }
301 /* Finished transmitting */
308 }
310 /* case LAP_NDM: */
311 /* case LAP_CONN: */
312 /* case LAP_RESET_WAIT: */
313 /* case LAP_RESET_CHECK: */
316 }
317 }
319 /*
320 * Function irlap_state_ndm (event, skb, frame)
321 *
322 * NDM (Normal Disconnected Mode) state
323 *
324 */
327 {
339 /* Note : this will never happen, because we test
340 * media busy in irlap_connect_request() and
341 * postpone the event... - Jean II */
343 __FUNCTION__);
345 /* Always switch state before calling upper layers */
352 /* Start Final-bit timer */
357 }
360 /* Check if the frame contains and I field */
371 }
378 __FUNCTION__);
379 /* irlap->log.condition = MEDIA_BUSY; */
381 /* This will make IrLMP try again */
383 /* Note : the discovery log is not cleaned up here,
384 * it will be done in irlap_discovery_request()
385 * Jean II */
387 }
402 /* Assert that this is not the final slot */
412 FALSE,
413 discovery_rsp);
418 /*
419 * Go to reply state until end of discovery to
420 * inhibit our own transmissions. Set the timer
421 * to not stay forever there... Jean II
422 */
426 /* This is the final slot. How is it possible ?
427 * This would happen is both discoveries are just slightly
428 * offset (if they are in sync, all packets are lost).
429 * Most often, all the discovery requests will be received
430 * in QUERY state (see my comment there), except for the
431 * last frame that will come here.
432 * The big trouble when it happen is that active discovery
433 * doesn't happen, because nobody answer the discoveries
434 * frame of the other guy, so the log shows up empty.
435 * What should we do ?
436 * Not much. It's too late to answer those discovery frames,
437 * so we just pass the info to IrLMP who will put it in the
438 * log (and post an event).
439 * Another cause would be devices that do discovery much
440 * slower than us, however the latest fixes should minimise
441 * those cases...
442 * Jean II
443 */
444 IRDA_DEBUG(1, "%s(), Receiving final discovery request, missed the discovery slots :-(\n", __FUNCTION__);
446 /* Last discovery request -> in the log */
448 }
451 /* A bunch of events may be postponed because the media is
452 * busy (usually immediately after we close a connection),
453 * or while we are doing discovery (state query/reply).
454 * In all those cases, the media busy flag will be cleared
455 * when it's OK for us to process those postponed events.
456 * This event is not mentioned in the state machines in the
457 * IrLAP spec. It's because they didn't consider Ultra and
458 * postponing connection request is optional.
459 * Jean II */
460 #ifdef CONFIG_IRDA_ULTRA
461 /* Send any pending Ultra frames if any */
463 /* We don't send the frame, just post an event.
464 * Also, previously this code was in timer.c...
465 * Jean II */
468 }
470 /* Check if we should try to connect.
471 * This code was previously in irlap_do_event() */
475 /* This one *should* not pend in this state, except
476 * if a socket try to connect and immediately
477 * disconnect. - clear - Jean II */
480 else
482 CONNECT_REQUEST,
485 }
486 /* Note : one way to test if this code works well (including
487 * media busy and small busy) is to create a user space
488 * application generating an Ultra packet every 3.05 sec (or
489 * 2.95 sec) and to see how it interact with discovery.
490 * It's fairly easy to check that no packet is lost, that the
491 * packets are postponed during discovery and that after
492 * discovery indication you have a 100ms "gap".
493 * As connection request and Ultra are now processed the same
494 * way, this avoid the tedious job of trying IrLAP connection
495 * in all those cases...
496 * Jean II */
498 #ifdef CONFIG_IRDA_ULTRA
500 {
502 /* Only allowed to repeat an operation twice */
507 CMD_FRAME);
508 else
510 /* irlap_send_ui_frame() won't increase skb reference
511 * count, so no dev_kfree_skb() - Jean II */
512 }
514 /* Force us to listen 500 ms again */
516 }
518 }
520 /* Only accept broadcast frames in NDM mode */
523 __FUNCTION__);
529 /* Remove test frame header */
532 /*
533 * Send response. This skb will not be sent out again, and
534 * will only be used to send out the same info as the cmd
535 */
547 }
549 }
551 /*
552 * Function irlap_state_query (event, skb, info)
553 *
554 * QUERY state
555 *
556 */
559 {
575 "maybe the discovery timeout has been set"
578 }
583 /* Keep state */
584 /* irlap_next_state(self, LAP_QUERY); */
588 /* Yes, it is possible to receive those frames in this mode.
589 * Note that most often the last discovery request won't
590 * occur here but in NDM state (see my comment there).
591 * What should we do ?
592 * Not much. We are currently performing our own discovery,
593 * therefore we can't answer those frames. We don't want
594 * to change state either. We just pass the info to
595 * IrLMP who will put it in the log (and post an event).
596 * Jean II
597 */
601 IRDA_DEBUG(1, "%s(), Receiving discovery request (s = %d) while performing discovery :-(\n", __FUNCTION__, info->s);
603 /* Last discovery request ? */
608 /*
609 * Wait a little longer if we detect an incoming frame. This
610 * is not mentioned in the spec, but is a good thing to do,
611 * since we want to work even with devices that violate the
612 * timing requirements.
613 */
620 }
630 /* Keep state */
633 /* This is the final slot! */
635 TRUE,
638 /* Always switch state before calling upper layers */
641 /*
642 * We are now finished with the discovery procedure,
643 * so now we must return the results
644 */
647 /* IrLMP should now have taken care of the log */
649 }
657 }
659 }
661 /*
662 * Function irlap_state_reply (self, event, skb, info)
663 *
664 * REPLY, we have received a XID discovery frame from a device and we
665 * are waiting for the right time slot to send a response XID frame
666 *
667 */
670 {
687 /* Last frame? */
691 /* info->log.condition = REMOTE; */
693 /* Always switch state before calling upper layers */
698 /* If it's our slot, send our reply */
705 FALSE,
706 discovery_rsp);
709 }
710 /* Readjust our timer to accomodate devices
711 * doing faster or slower discovery than us...
712 * Jean II */
715 /* Keep state */
716 //irlap_next_state(self, LAP_REPLY);
717 }
725 }
727 }
729 /*
730 * Function irlap_state_conn (event, skb, info)
731 *
732 * CONN, we have received a SNRM command and is waiting for the upper
733 * layer to accept or refuse connection
734 *
735 */
738 {
756 /*
757 * Applying the parameters now will make sure we change speed
758 * *after* we have sent the next frame
759 */
762 /*
763 * Sending this frame will force a speed change after it has
764 * been sent (i.e. the frame will be sent at 9600).
765 */
768 #if 0
769 /*
770 * We are allowed to send two frames, but this may increase
771 * the connect latency, so lets not do it for now.
772 */
773 /* This is full of good intentions, but doesn't work in
774 * practice.
775 * After sending the first UA response, we switch the
776 * dongle to the negotiated speed, which is usually
777 * different than 9600 kb/s.
778 * From there, there is two solutions :
779 * 1) The other end has received the first UA response :
780 * it will set up the connection, move to state LAP_NRM_P,
781 * and will ignore and drop the second UA response.
782 * Actually, it's even worse : the other side will almost
783 * immediately send a RR that will likely collide with the
784 * UA response (depending on negotiated turnaround).
785 * 2) The other end has not received the first UA response,
786 * will stay at 9600 and will never see the second UA response.
787 * Jean II */
789 #endif
791 /*
792 * The WD-timer could be set to the duration of the P-timer
793 * for this case, but it is recommended to use twice the
794 * value (note 3 IrLAP p. 60).
795 */
802 __FUNCTION__);
818 }
821 }
823 /*
824 * Function irlap_state_setup (event, skb, frame)
825 *
826 * SETUP state, The local layer has transmitted a SNRM command frame to
827 * a remote peer layer and is awaiting a reply .
828 *
829 */
832 {
843 /*
844 * Perform random backoff, Wait a random number of time units, minimum
845 * duration half the time taken to transmitt a SNRM frame, maximum duration
846 * 1.5 times the time taken to transmit a SNRM frame. So this time should
847 * between 15 msecs and 45 msecs.
848 */
852 /* Always switch state before calling upper layers */
856 }
869 /*
870 * The device with the largest device address wins the battle
871 * (both have sent a SNRM command!)
872 */
883 /* Send UA frame and then change link settings */
890 /*
891 * The WD-timer could be set to the duration of the
892 * P-timer for this case, but it is recommended
893 * to use twice the value (note 3 IrLAP p. 60).
894 */
897 /* We just ignore the other device! */
899 }
902 /* Stop F-timer */
905 /* Initiate connection state */
908 /* Negotiate connection parameters */
917 /* Set the new link setting *now* (before the rr frame) */
921 /* Wait for turnaround time to give a chance to the other
922 * device to be ready to receive us.
923 * Note : the time to switch speed is typically larger
924 * than the turnaround time, but as we don't have the other
925 * side speed switch time, that's our best guess...
926 * Jean II */
929 /* This frame will actually be sent at the new speed */
932 /* The timer is set to half the normal timer to quickly
933 * detect a failure to negociate the new connection
934 * parameters. IrLAP 6.11.3.2, note 3.
935 * Note that currently we don't process this failure
936 * properly, as we should do a quick disconnect.
937 * Jean II */
956 }
958 }
960 /*
961 * Function irlap_state_offline (self, event, skb, info)
962 *
963 * OFFLINE state, not used for now!
964 *
965 */
968 {
972 }
974 /*
975 * Function irlap_state_xmit_p (self, event, skb, info)
976 *
977 * XMIT, Only the primary station has right to transmit, and we
978 * therefore do not expect to receive any transmissions from other
979 * stations.
980 *
981 */
984 {
989 /*
990 * Only send frame if send-window > 0.
991 */
994 #ifdef CONFIG_IRDA_DYNAMIC_WINDOW
997 /* With DYNAMIC_WINDOW, we keep the window size
998 * maximum, and adapt on the packets we are sending.
999 * At 115k, we can send only 2 packets of 2048 bytes
1000 * in a 500 ms turnaround. Without this option, we
1001 * would always limit the window to 2. With this
1002 * option, if we send smaller packets, we can send
1003 * up to 7 of them (always depending on QoS).
1004 * Jean II */
1006 /* Look at the next skb. This is safe, as we are
1007 * the only consumer of the Tx queue (if we are not,
1008 * we have other problems) - Jean II */
1011 /* Check if a subsequent skb exist and would fit in
1012 * the current window (with respect to turnaround
1013 * time).
1014 * This allow us to properly mark the current packet
1015 * with the pf bit, to avoid falling back on the
1016 * second test below, and avoid waiting the
1017 * end of the window and sending a extra RR.
1018 * Note : (skb_next != NULL) <=> (skb_queue_len() > 0)
1019 * Jean II */
1024 /*
1025 * The current packet may not fit ! Because of test
1026 * above, this should not happen any more !!!
1027 * Test if we have transmitted more bytes over the
1028 * link than its possible to do with the current
1029 * speed and turn-around-time.
1030 */
1034 /* Requeue the skb */
1036 /*
1037 * We should switch state to LAP_NRM_P, but
1038 * that is not possible since we must be sure
1039 * that we poll the other side. Since we have
1040 * used up our time, the poll timer should
1041 * trigger anyway now, so we just wait for it
1042 * DB
1043 */
1044 /*
1045 * Sorry, but that's not totally true. If
1046 * we send 2000B packets, we may wait another
1047 * 1000B until our turnaround expire. That's
1048 * why we need to be proactive in avoiding
1049 * coming here. - Jean II
1050 */
1052 }
1054 /* Substract space used by this skb */
1057 /* Window has been adjusted for the max packet
1058 * size, so much simpler... - Jean II */
1061 /*
1062 * Send data with poll bit cleared only if window > 1
1063 * and there is more frames after this one to be sent
1064 */
1066 /* More packet to send in current window */
1070 /* Final packet of window */
1073 /*
1074 * Make sure state machine does not try to send
1075 * any more frames
1076 */
1078 }
1079 #ifdef CONFIG_IRDA_FAST_RR
1080 /* Peer may want to reply immediately */
1085 __FUNCTION__);
1088 /*
1089 * The next ret is important, because it tells
1090 * irlap_next_state _not_ to deliver more frames
1091 */
1093 }
1099 /* Return to NRM properly - Jean II */
1101 #ifdef CONFIG_IRDA_DYNAMIC_WINDOW
1102 /* Allowed to transmit a maximum number of bytes again. */
1118 /* Nothing to do, irlap_do_event() will send the packet
1119 * when we return... - Jean II */
1127 }
1129 }
1131 /*
1132 * Function irlap_state_pclose (event, skb, info)
1133 *
1134 * PCLOSE state
1135 */
1138 {
1151 /* Set new link parameters */
1154 /* Always switch state before calling upper layers */
1165 /* Keep state */
1169 /* Always switch state before calling upper layers */
1173 }
1180 }
1182 }
1184 /*
1185 * Function irlap_state_nrm_p (self, event, skb, info)
1186 *
1187 * NRM_P (Normal Response Mode as Primary), The primary station has given
1188 * permissions to a secondary station to transmit IrLAP resonse frames
1189 * (by sending a frame with the P bit set). The primary station will not
1190 * transmit any frames and is expecting to receive frames only from the
1191 * secondary to which transmission permissions has been given.
1192 */
1195 {
1203 /*
1204 * Input validation check: a stir4200/mcp2150
1205 * combination sometimes results in an empty i:rsp.
1206 * This makes no sense; we can just ignore the frame
1207 * and send an rr:cmd immediately. This happens before
1208 * changing nr or ns so triggers a retransmit
1209 */
1212 /* Keep state */
1214 }
1215 /* FIXME: must check for remote_busy below */
1216 #ifdef CONFIG_IRDA_FAST_RR
1217 /*
1218 * Reset the fast_RR so we can use the fast RR code with
1219 * full speed the next time since peer may have more frames
1220 * to transmitt
1221 */
1229 /*
1230 * Check for expected I(nformation) frame
1231 */
1234 /* Update Vr (next frame for us to receive) */
1237 /* Update Nr received, cleanup our retry queue */
1240 /*
1241 * Got expected NR, so reset the
1242 * retry_count. This is not done by IrLAP spec,
1243 * which is strange!
1244 */
1248 /* poll bit cleared? */
1250 /* Keep state, do not move this line */
1255 /* No longer waiting for pf */
1260 /* Call higher layer *before* changing state
1261 * to give them a chance to send data in the
1262 * next LAP frame.
1263 * Jean II */
1266 /* XMIT states are the most dangerous state
1267 * to be in, because user requests are
1268 * processed directly and may change state.
1269 * On the other hand, in NDM_P, those
1270 * requests are queued and we will process
1271 * them when we return to irlap_do_event().
1272 * Jean II
1273 */
1276 /* This is the last frame.
1277 * Make sure it's always called in XMIT state.
1278 * - Jean II */
1280 }
1283 }
1284 /* Unexpected next to send (Ns) */
1286 {
1290 /*
1291 * Wait until the last frame before doing
1292 * anything
1293 */
1295 /* Keep state */
1300 __FUNCTION__);
1302 /* Update Nr received */
1312 }
1314 }
1315 /*
1316 * Unexpected next to receive (Nr)
1317 */
1319 {
1323 /* Update Nr received */
1326 /* Resend rejected frames */
1331 /* Make sure we account for the time
1332 * to transmit our frames. See comemnts
1333 * in irlap_send_data_primary_poll().
1334 * Jean II */
1337 /* Keep state, do not move this line */
1342 /*
1343 * Do not resend frames until the last
1344 * frame has arrived from the other
1345 * device. This is not documented in
1346 * IrLAP!!
1347 */
1350 /* Update Nr received */
1355 /* Keep state, do not move this line!*/
1359 }
1361 }
1362 /*
1363 * Unexpected next to send (Ns) and next to receive (Nr)
1364 * Not documented by IrLAP!
1365 */
1368 {
1370 __FUNCTION__);
1372 /* Resend rejected frames */
1375 /* Give peer some time to retransmit!
1376 * But account for our own Tx. */
1379 /* Keep state, do not move this line */
1382 /* Update Nr received */
1383 /* irlap_update_nr_received( info->nr); */
1386 }
1388 }
1390 /*
1391 * Invalid NR or NS
1392 */
1407 }
1409 }
1415 /* Poll bit cleared? */
1425 }
1428 /*
1429 * If you get a RR, the remote isn't busy anymore,
1430 * no matter what the NR
1431 */
1434 /* Stop final timer */
1437 /*
1438 * Nr as expected?
1439 */
1442 /* Update Nr received */
1445 /*
1446 * Got expected NR, so reset the retry_count. This
1447 * is not done by the IrLAP standard , which is
1448 * strange! DB.
1449 */
1455 /* Start poll timer */
1459 /*
1460 * Unexpected nr!
1461 */
1463 /* Update Nr received */
1471 /* Resend rejected frames */
1484 }
1489 /* Stop final timer */
1493 /* Update Nr received */
1497 /* Start poll timer */
1507 /*
1508 * We are allowed to wait for additional 300 ms if
1509 * final timer expires when we are in the middle
1510 * of receiving a frame (page 45, IrLAP). Check that
1511 * we only do this once for each frame.
1512 */
1518 /*
1519 * Don't allow this to happen one more time in a row,
1520 * or else we can get a pretty tight loop here if
1521 * if we only receive half a frame. DB.
1522 */
1525 }
1528 /* N2 is the disconnect timer. Until we reach it, we retry */
1531 /* Retry sending the pf bit to the secondary */
1538 }
1545 /* Early warning event. I'm using a pretty liberal
1546 * interpretation of the spec and generate an event
1547 * every time the timer is multiple of N1 (and not
1548 * only the first time). This allow application
1549 * to know precisely if connectivity restart...
1550 * Jean II */
1553 STATUS_NO_ACTIVITY);
1555 /* Keep state */
1559 /* Always switch state before calling upper layers */
1562 }
1587 /* Call back the LAP state machine to do a proper disconnect */
1596 }
1598 }
1600 /*
1601 * Function irlap_state_reset_wait (event, skb, info)
1602 *
1603 * We have informed the service user of a reset condition, and is
1604 * awaiting reset of disconnect request.
1605 *
1606 */
1609 {
1627 }
1643 }
1645 }
1647 /*
1648 * Function irlap_state_reset (self, event, skb, info)
1649 *
1650 * We have sent a SNRM reset command to the peer layer, and is awaiting
1651 * reply.
1652 *
1653 */
1656 {
1670 /* Always switch state before calling upper layers */
1679 /* Initiate connection state */
1705 /* Always switch state before calling upper layers */
1709 }
1712 /*
1713 * SNRM frame is not allowed to contain an I-field in this
1714 * state
1715 */
1727 __FUNCTION__);
1728 }
1736 }
1738 }
1740 /*
1741 * Function irlap_state_xmit_s (event, skb, info)
1742 *
1743 * XMIT_S, The secondary station has been given the right to transmit,
1744 * and we therefor do not expect to receive any transmissions from other
1745 * stations.
1746 */
1749 {
1759 /*
1760 * Send frame only if send window > 0
1761 */
1764 #ifdef CONFIG_IRDA_DYNAMIC_WINDOW
1767 /*
1768 * Same deal as in irlap_state_xmit_p(), so see
1769 * the comments at that point.
1770 * We are the secondary, so there are only subtle
1771 * differences. - Jean II
1772 */
1774 /* Check if a subsequent skb exist and would fit in
1775 * the current window (with respect to turnaround
1776 * time). - Jean II */
1782 /*
1783 * Test if we have transmitted more bytes over the
1784 * link than its possible to do with the current
1785 * speed and turn-around-time.
1786 */
1790 /* Requeue the skb */
1793 /*
1794 * Switch to NRM_S, this is only possible
1795 * when we are in secondary mode, since we
1796 * must be sure that we don't miss any RR
1797 * frames
1798 */
1804 /* Slight difference with primary :
1805 * here we would wait for the other side to
1806 * expire the turnaround. - Jean II */
1809 }
1810 /* Substract space used by this skb */
1813 /* Window has been adjusted for the max packet
1814 * size, so much simpler... - Jean II */
1817 /*
1818 * Send data with final bit cleared only if window > 1
1819 * and there is more frames to be sent
1820 */
1828 /*
1829 * Make sure state machine does not try to send
1830 * any more frames
1831 */
1833 }
1838 }
1847 /* Nothing to do, irlap_do_event() will send the packet
1848 * when we return... - Jean II */
1856 }
1858 }
1860 /*
1861 * Function irlap_state_nrm_s (event, skb, info)
1862 *
1863 * NRM_S (Normal Response Mode as Secondary) state, in this state we are
1864 * expecting to receive frames from the primary station
1865 *
1866 */
1869 {
1881 /* FIXME: must check for remote_busy below */
1891 /*
1892 * Check for expected I(nformation) frame
1893 */
1896 /* Update Vr (next frame for us to receive) */
1899 /* Update Nr received */
1902 /*
1903 * poll bit cleared?
1904 */
1909 /*
1910 * Starting WD-timer here is optional, but
1911 * not recommended. Note 6 IrLAP p. 83
1912 */
1913 #if 0
1915 #endif
1916 /* Keep state, do not move this line */
1922 /*
1923 * We should wait before sending RR, and
1924 * also before changing to XMIT_S
1925 * state. (note 1, IrLAP p. 82)
1926 */
1929 /*
1930 * Give higher layers a chance to
1931 * immediately reply with some data before
1932 * we decide if we should send a RR frame
1933 * or not
1934 */
1937 /* Any pending data requests? */
1940 {
1951 /* Keep the state */
1953 }
1955 }
1956 }
1957 /*
1958 * Check for Unexpected next to send (Ns)
1959 */
1961 {
1962 /* Unexpected next to send, with final bit cleared */
1968 /* Update Nr received */
1975 }
1977 }
1979 /*
1980 * Unexpected Next to Receive(NR) ?
1981 */
1983 {
1989 /* Update Nr received */
1992 /* Resend rejected frames */
1995 /* Keep state, do not move this line */
2001 }
2002 /*
2003 * This is not documented in IrLAP!! Unexpected NR
2004 * with poll bit cleared
2005 */
2009 /* Update Nr received */
2012 /* Keep state, do not move this line */
2017 }
2019 }
2023 }
2026 }
2029 /*
2030 * poll bit cleared?
2031 */
2036 /*
2037 * Any pending data requests?
2038 */
2041 {
2057 /* Keep the state */
2059 }
2060 }
2065 /*
2066 * Nr as expected?
2067 */
2074 /* Update Nr received */
2082 /* Update Nr received */
2087 /* Note : if the link is idle (this case),
2088 * we never go in XMIT_S, so we never get a
2089 * chance to process any DISCONNECT_REQUEST.
2090 * Do it now ! - Jean II */
2092 /* Disconnect */
2098 /* Just send back pf bit */
2102 }
2103 }
2111 /* Keep state */
2115 __FUNCTION__);
2116 }
2119 /* SNRM frame is not allowed to contain an I-field */
2129 __FUNCTION__);
2131 }
2152 /*
2153 * Wait until retry_count * n matches negotiated threshold/
2154 * disconnect time (note 2 in IrLAP p. 82)
2155 *
2156 * Similar to irlap_state_nrm_p() -> FINAL_TIMER_EXPIRED
2157 * Note : self->wd_timeout = (self->final_timeout * 2),
2158 * which explain why we use (self->N2 / 2) here !!!
2159 * Jean II
2160 */
2165 /* No retry, just wait for primary */
2171 STATUS_NO_ACTIVITY);
2175 /* Always switch state before calling upper layers */
2178 }
2181 /* Always switch state before calling upper layers */
2184 /* Send disconnect response */
2190 /* Set default link parameters */
2204 /* Remove test frame header (only LAP header in NRM) */
2210 /* Send response (info will be copied) */
2219 }
2221 }
2223 /*
2224 * Function irlap_state_sclose (self, event, skb, info)
2225 */
2228 {
2238 /* Always switch state before calling upper layers */
2241 /* Send disconnect response */
2246 /* Set default link parameters */
2252 /* IrLAP-1.1 p.82: in SCLOSE, S and I type RSP frames
2253 * shall take us down into default NDM state, like DM_RSP
2254 */
2260 /* Always switch state before calling upper layers */
2269 /* Always switch state before calling upper layers */
2277 /* IrLAP-1.1 p.82: in SCLOSE, basically any received frame
2278 * with pf=1 shall restart the wd-timer and resend the rd:rsp
2279 */
2286 }
2293 }
2296 }
2301 {
2330 }
2332 }