source: trunk/Cosy/candrv/vmodican.cc@ 18221

Last change on this file since 18221 was 8852, checked in by tbretz, 17 years ago
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1/* ======================================================================== *\
2!
3! *
4! * This file is part of Stesy, the MAGIC Steering System
5! * Software. It is distributed to you in the hope that it can be a useful
6! * and timesaving tool in analysing Data of imaging Cerenkov telescopes.
7! * It is distributed WITHOUT ANY WARRANTY.
8! *
9! * Permission to use, copy, modify and distribute this software and its
10! * documentation for any purpose is hereby granted without fee,
11! * provided that the above copyright notice appear in all copies and
12! * that both that copyright notice and this permission notice appear
13! * in supporting documentation. It is provided "as is" without express
14! * or implied warranty.
15! *
16!
17!
18! Author(s): Thomas Bretz 2001 <mailto:tbretz@astro.uni-wuerzburg.de>
19!
20! Copyright: MAGIC Software Development, 2000-2008
21!
22!
23\* ======================================================================== */
24
25///////////////////////////////////////////////////////////////////////
26//
27// VmodIcan
28//
29// Class describing the interface to the Janz card in RawCan mode.
30//
31///////////////////////////////////////////////////////////////////////
32#include "vmodican.h"
33
34#include <fcntl.h> // O_RDONLY
35#include <errno.h> // errno
36#include <unistd.h> // read
37#include <sys/time.h> // gettimeofday
38#include <sys/ioctl.h> // ioctl
39
40#include "canopen.h"
41
42#include "MLog.h"
43#include "MLogManip.h"
44
45ClassImp(VmodIcan);
46
47using namespace std;
48
49// --------------------------------------------------------------------------
50//
51// Embedded ioctl-function from C-lib
52//
53int VmodIcan::Ioctl(int msg, void *arg)
54{
55 return fd<0 ? 1 : ioctl(fd, msg, arg) >= 0;
56}
57
58// --------------------------------------------------------------------------
59//
60// Enables/Disables the termination.
61//
62void VmodIcan::SetTermination(int state) /* 0 = off, 1 = on */
63{
64 /* -*-Func-*-
65 *
66 * SwitchCanTermination - Switch the CANbus termination resistor
67 *
68 * The VMOD-ICAN3 module allows the user to change the state of the CANbus
69 * termination via software. This is done with this service.
70 *
71 * SERVICE: HwConf
72 */
73
74 Message msg;
75
76 msg.cmd = M_HW_CONF;
77
78 msg.len = 2;
79 msg.data[0] = 0x00;
80 msg.data[1] = (BYTE_t)state;
81
82 while (!Send(&msg));
83
84 gLog << inf2 << "- CAN Bus Termination set to " << (state?"on":"off") << endl;
85}
86
87// --------------------------------------------------------------------------
88//
89// Receiver Thread. Listener. Listens for incomming messages and processes
90// these messages through the standard interface:
91// - therefor overload HandleCanMessge
92//
93Int_t VmodIcan::Thread()
94{
95 if (fd<0)
96 return 0;
97
98 gLog << inf2 << "- Starting Receiver Loop." << endl;
99
100 while (1)
101 {
102 //
103 // Sleeps until a message arrives
104 //
105 TThread::CancelPoint();
106
107 unsigned char c;
108 const int n = read(fd, &c, 1);
109
110 TThread::CancelPoint();
111
112 if (n<0)
113 {
114 cerr << "Vmodican: read(" << dec << (int)fd << "," << (void*)&c;
115 cerr << ",1) returned rc=" << n << " c=" << (int)c << " '";
116 cerr << strerror(errno) << "' (errno = " << errno << ")" << endl;
117 continue;
118 }
119
120 //
121 // if n==0 something strange happened. Stop receiver(?)
122 //
123 if (n == 0)
124 {
125 cerr << "Vmodican: Panic read '" << strerror(errno) << "' ";
126 cerr << "(errno=" << errno << ")" << endl;
127 return 1;
128 }
129
130 //
131 // Check for what we received
132 //
133 switch (c)
134 {
135 //
136 // Fast message (not used/working)
137 //
138 /*
139 case FAST_QUEUE:
140 cout << "--> Fast Queue: " << flush;
141
142 FastMessage fmsg;
143
144 if (ReceiveFast(&fmsg) < 0)
145 return (void *)1;
146
147 cout << "Fast msg ID " <<
148 (fmsg.data[0] << 3) + ((fmsg.data[1] >> 5) & 7) << ": " << flush;
149
150 for(int i=0; i<16; i++)
151 cout << (int)*(((unsigned char *)(&fmsg))+i) << " " << flush;
152
153 cout << endl;
154 continue;
155 */
156 //
157 // Plain Can Message to be processed
158 //
159 case PLAIN_QUEUE:
160
161 Message msg;
162
163 //
164 // Read the message from the card and process it
165 //
166 if (Receive(&msg) < 0)
167 return 1;
168
169 HandleMessage(msg);
170 continue;
171 }
172
173 cout << "Vmodican: read, Message c=" << (int)c << " unknown." << endl;
174 }
175 return 0;
176}
177
178// --------------------------------------------------------------------------
179//
180// This is can_recv from the Janz software.
181//
182// /* can_recv - receive a message from standard interface
183// *
184// * This function reads a whole message from the standard host interface of
185// * a VMOD-ICAN.
186// * The module is selected by the module number <fd>.
187// *
188// * The structure <pm> is filled with the received message.
189// *
190// * RETURNS:
191// * The function returns the number of message received, or -1 when the
192// * system call failed.
193// * The return value therefore 0 determines, that no message was available to
194// * be read: can_recv() does not block in such a case and therefore
195// * can be used to poll a module for incoming messages.
196// */
197//
198int VmodIcan::Receive(Message *pm) /* receive buffer */
199{
200 struct dpm_rw_can_desc arg;
201
202 arg.pm = pm;
203
204 if (!Ioctl(DPM_READ_MBOX, &arg))
205 return -1;
206
207 return arg.rval;
208}
209
210// --------------------------------------------------------------------------
211//
212// This is can_recv_fast from the Janz software
213//
214// /* can_recv_fast - receive a message from layer2 interface
215// *
216// * This function reads a FastMessage from the layer2 fast message
217// * interface of a VMOD-ICAN.
218// * The module is selected by the file descriptor <fd>.
219// *
220// * The structure <pm> is filled with the received message.
221// *
222// * RETURNS:
223// * The function returns -1 when the * system call failed.
224// * The return value therefore 0 determines, that no message was available to
225// * be read: can_recv_fast() does not block in such a case and therefore
226// * can be used to poll a module for incoming messages.
227// */
228/*
229int VmodIcan::ReceiveFast(FastMessage *pm)
230{
231 struct dpm_write_fast_can_desc arg;
232
233 arg.pm = pm;
234
235 if (!Ioctl(DPM_READ_FAST_MBOX, &arg))
236 return -1;
237
238 return arg.rval;
239}
240*/
241
242// --------------------------------------------------------------------------
243//
244// This is IcWriteBtrBCAN from the Janz software
245//
246// /* IcWriteBtrBCAN - Set bit timing parameters
247// *
248// * Set bit timing parameters in CAN controller. May only be used if
249// * CAN controller is in bus-off state. <btr> stores the bus-timing
250// * parameters as required by the 82C200 controller. See the description
251// * of the CBTRreq-service for possible values.
252// *
253// * BTR1 is stored in the upper byte of <btr> and BTR0 in the lower. Examples
254// * are:
255// * .CS
256// * Baudrate btr Macro
257// * 1Mbit 0x2300 BTR_1MB
258// * 500kBit 0x1c00 BTR_500KB
259// * 250kBit 0x1c01 BTR_250KB
260// * 125kBit 0x1c03 BTR_125KB
261// * 100kBit 0x34c7 BTR_100KB
262// * 50kBit 0x34cf BTR_50KB
263// * 20kBit 0x7fcf BTR_20KB
264// * .CE
265// *
266// * SERVICE: CBTRreq
267// *
268// * NOTE:
269// * Raw ICANOS version of the firmware only.
270// */
271//
272void VmodIcan::SetBaudRate(int rate)
273{
274 Message msg; /* buffer for module messages */
275
276 int rateid;
277
278 switch (rate)
279 {
280 case 1000:
281 rateid=BTR_1MB;
282 break;
283 case 500:
284 rateid=BTR_500KB;
285 break;
286 case 250:
287 rateid=BTR_250KB;
288 break;
289 case 125:
290 rateid=BTR_125KB;
291 break;
292 case 100:
293 rateid=BTR_100KB;
294 break;
295 case 50:
296 rateid=BTR_50KB;
297 break;
298 case 20:
299 rateid=BTR_20KB;
300 break;
301
302 default:
303 cout << "Error: Wrong bit rate specified" << endl;
304 return;
305 }
306
307 msg.cmd = M_BCAN_SET_BTR_req;
308
309 msg.len = 4;
310
311 msg.data[2] = word_to_lsb(rateid);
312 msg.data[3] = word_to_msb(rateid);
313
314 while (!Send(&msg)); /* transmitt to module */
315
316 gLog << inf2 << "- Baudrate set to " << rate << "kbps" << endl;
317}
318
319// --------------------------------------------------------------------------
320//
321// This is IcBusOnBCAN from the Janz software
322//
323// /* IcBusOnBCAN - switch CANbus controller to bus-on state
324// *
325// * Switch CAN controller bus-on. You will need to use this
326// * function explicitly after you have connected yourself
327// * to the module with can_open() (or ican_open() under DOS/WINDOWS).
328// * This is because the module comes up in the bus-off state.
329// *
330// * SERVICE: CONreq
331// *
332// * NOTE:
333// * Raw ICANOS version of the firmware only.
334// */
335//
336void VmodIcan::EnableCanBusConnection()
337{
338 Message msg; /* buffer for module messages */
339
340 msg.cmd = M_BCAN_BUSON_req;
341 msg.len = 0;
342
343 while (!Send(&msg));
344
345 gLog << inf2 << "- Controller connected to bus" << endl;
346}
347
348// --------------------------------------------------------------------------
349//
350// This is ican2_init_fast_canfrom the Janz software
351//
352// /* ican2_init_fast_can - initialize fast can access for VMOD-ICAN
353// *
354// * By this function, the user may initialize and enable the fast
355// * host interface (layer2 access) for a VMOD-ICAN module.
356// *
357// * The calling application can request <rbuffers> buffer elements in the queue
358// * that sends data to the host and <wbuffers> buffer elements for the queue
359// * that transports data to the module.
360// *
361// * NOTE:
362// * Notice that the message filtering on the VMOD-ICAN has to be
363// * set correctly, so that messages can be received through the fast
364// * interface.
365// *
366// * CAVE AT:
367// * The <rbuffers> and wbuffers> have no special limit, but the general
368// * resources of the DPM must not be exceeded.
369// * For the calculation you need to assume, that 16 buffers in one of the fast
370// * interface queues take the same DPM space as 1 buffer in the standard
371// * host interface.
372// *
373// * The user must use only one of the functions, either
374// * ican2_init_fast_can or ican2_init_fast_can_prio
375// *
376// * RETURNS:
377// * Zero if the operation performed successfully, or less than zero on error.
378// */
379//
380int VmodIcan::EnableFastCan(int rbuffers, int wbuffers)
381{
382 struct dpm_fast_can_desc hdp;
383
384 hdp.tohost_len = rbuffers;
385 hdp.fromhost_len = wbuffers;
386
387 if (!Ioctl(DPM_INIT_FAST_CAN, &hdp))
388 return -1;
389
390 gLog << inf2 << "- Fast Host Interface Enabled" << endl;
391
392 return 0;
393}
394
395// --------------------------------------------------------------------------
396//
397// This is IcWriteEwlBCAN from the Janz software
398//
399// /* IcWriteEwlBCAN - Set error warning limit
400// *
401// * Set error warning limit in CAN controller. If this limit is passed, the
402// * user will get a CEVTind message stating an error interrupt. This type
403// * of message will also occur if the both error counter again fall below
404// * this limit.
405// *
406// * RESTRICTIONS:
407// * Will only take effect if CAN controller is in bus-off state. Requires
408// * an SJA1000 CANbus controller, and will be no-op for 82C200.
409// *
410// * SERVICE: CBCONFreq
411// *
412// * NOTE:
413// * Raw ICANOS version of the firmware only.
414// */
415//
416void VmodIcan::DisableCanBusConnection()
417{
418 gLog << inf2 << "- Disconnect VmodIcan module from Bus!" << endl;
419
420 Message msg; /* buffer for module messages */
421
422 msg.cmd = M_BCAN_BUSOFF_req;
423 msg.len = 0;
424
425 while (!Send(&msg));
426
427 gLog << inf2 << "- VmodIcan disconnected." << endl;
428}
429
430// --------------------------------------------------------------------------
431//
432// This is can_close from the Janz software
433//
434// /* can_close - close connection to a VMOD-ICAN module
435// *
436// * The function can be used to close a connection to a VMOD-ICAN
437// * that has been established by a can_open() call.
438// * The module has to be selected by the file descriptor <fd> which was
439// * obtained when you did the can_open() call.
440// *
441// * When you call can_close, all the resources that were used by the driver
442// * for communication are freed.
443// *
444// * The VMOD-ICAN module under question will be reseted, to make sure that
445// * the communication with the host will stop. That means especially that
446// * no further interrupt will occur and that the module will not longer be
447// * active on the CANbus.
448// *
449// * RETURNS: N/A
450// */
451//
452void VmodIcan::Close()
453{
454 gLog << inf2 << "- Closing device VmodIcan #" << (int)fd << endl;
455
456 Message msg; /* disconnect message */
457
458 msg.cmd = M_DISCONNECT;
459 msg.len = 0;
460
461 while (!Send(&msg));
462
463 close(fd);
464
465 gLog << inf2 << "- Device closed." << endl;
466}
467
468// --------------------------------------------------------------------------
469//
470// Enable the fifo of the Janz card
471// Allow VMOD to send messages through the fifo
472//
473int VmodIcan::EnableFifo()
474{
475 Message msg; /* connect message */
476
477 msg.cmd = M_CONNECT_INTR;
478 msg.len = 0;
479
480 while (!Send(&msg));
481
482 gLog << inf2 << "- Fifo enabled" << endl;
483
484 return TRUE;
485}
486
487// --------------------------------------------------------------------------
488//
489// Reset the module
490//
491int VmodIcan::Reset()
492{
493 const int rc = Ioctl(DPM_RESET, 0);
494
495 gLog << inf2 << "- Reset done." << endl;
496
497 return rc;
498}
499
500// --------------------------------------------------------------------------
501//
502// This is can_open from the Janz software
503//
504// /* can_open - open VMOD-ICAN device
505// *
506// * With this function call you open a VMOD-ICAN plugged
507// * into a MODULbus carrier board for use. The module is
508// * reseted and then initialized for communication to the host.
509// *
510// * A specific module is selected by it's device name (e.g. "/dev/dpm_01").
511// */
512//
513int VmodIcan::Open(const char *devname) /* pathname of device */
514{
515 fd = open(devname, O_RDONLY, 0);
516
517 if (fd < 0)
518 {
519 gLog << err << "Error: Opening device '" << devname << "' (rc=" << fd << ")" << endl;
520 gLog << strerror(errno) << endl;
521 return FALSE;
522 }
523
524 gLog << inf << "- Device " << devname << " #" << fd << " open." << endl;
525
526 return TRUE;
527}
528
529// --------------------------------------------------------------------------
530//
531// This is ican2_select_hostif from the Janz software
532//
533// /* ican2_select_hostif - switch standard host interface to new style mode
534// *
535// * The routine ican2_select_hostif() can be used to switch a module from
536// * the standard host interface to the new style mode. The module is selected
537// * by the module number <fd>.
538// *
539// * The calling application can request <rbuffers> buffer for the communication
540// * queue that sends data to the host and <wbuffers> buffer for the reverse
541// * communication direction (normal priority queue). By this function the hi- and
542// * low-prioritized message-queues which sends data to the module are initialized
543// * to a length of 1.
544// *
545// * NOTE:
546// * To notify the module of the new situation, the driver sends
547// * a M_NEWHOSTIF message to the module. This is the last message to be
548// * transfered through the old style host interface. Immediately after
549// * sending this message, the library is switched to the new style mode.
550// * Any messages that are sent by the module in this time gap, may be lost.
551// * It is therefore not recommended to use this function when you wait
552// * for messages from the module.
553// *
554// * The selection of the new host interface is not reversible. It will stay
555// * until the next reset for the module occurs. This will probably occur
556// * when you use can_close().
557// *
558// * HINTS:
559// * When the new style mode is active, no more internal message buffering
560// * on the module exists. That is whenever the module tries to send something
561// * and cannot because the queue is full, this message will be dropped.
562// * Thereby, when enabling the new style host interface you should create
563// * enough buffers for the queue that sends to the host, to prevent the
564// * loss of messages. If you loose messages, however you will be indicated
565// * of that event by a MSGLOST messages (which will not be lost!).
566// *
567// * CAVE AT:
568// * The parameters <rbuffers>, <wbuffers>, <wbuffers_hi> and <wbuffers_low>
569// * must be greater than 0, less than 128, and the total sum must not
570// * exceed 236. These parameters aren't checked by the driver!
571// */
572//
573int VmodIcan::StdHost2NewStyle(int rbuffers, int wbuffers,
574 int wbuffers_hi, int wbuffers_low)
575{
576 struct dpm_new_hostif_desc_prio hdp;
577
578 hdp.tohost_len = rbuffers;
579 hdp.fromhost_len = wbuffers;
580 hdp.fromhost_hi_len = wbuffers_hi;
581 hdp.fromhost_low_len = wbuffers_low;
582
583 Ioctl(DPM_INIT_NEW_HOSTIF_PRIO, &hdp);
584
585 gLog << inf2 << "- New style host interface enabled" << endl;
586
587 return 0;
588}
589
590// --------------------------------------------------------------------------
591//
592// This is can_send_hi from the Janz software
593//
594// /* can_send_hi - send message to standard host interface (high priority)
595// *
596// * This function performs the same action as can_send(), except it will
597// * append message <pm> to the highest priority queue of the standard
598// * host interface.
599// *
600// * NOTE:
601// * Notice that the prioritized issue of the message take effect on the new style
602// * mode of the standard host interface only.
603// *
604// * RETURNS:
605// * The function returns the number of message send, or -1 when the system
606// * call failed.
607// * The return value 0 determines that no message could be send,
608// * probably because there was no space in the targeted queue. can_send_hi()
609// * does not block or retry in such a case, so you need to loop explicitly
610// * until the message is send.
611// */
612//
613/*
614int VmodIcan::SendHi(Message *pm)
615{
616 struct dpm_rw_can_desc arg;
617
618 arg.pm = pm;
619
620 if (!Ioctl(DPM_WRITE_MBOX_HI, &arg))
621 return FALSE;
622
623 return arg.rval;
624}
625*/
626
627// --------------------------------------------------------------------------
628//
629// This is can_send_low from the Janz software
630//
631// /* can_send_low - send message to standard host interface (low priority)
632// *
633// * This function performs the same action as can_send(), except it will
634// * append message <pm> to the lowest priority queue of the standard
635// * host interface.
636// *
637// * NOTE:
638// * Notice that the prioritized issue of the message take effect on the new
639// * style mode of the standard host interface only.
640// *
641// * RETURNS:
642// * The function returns the number of message send, or -1 when the system
643// * call failed.
644// * The return value 0 determines that no message could be send,
645// * probably because there was no space in the targeted queue. can_send_low()
646// * does not block or retry in such a case, so you need to loop explicitly
647// * until the message is send.
648// *
649// */
650/*
651int VmodIcan::SendLo(Message *pm)
652{
653 struct dpm_rw_can_desc arg;
654
655 arg.pm = pm;
656
657 if (!Ioctl(DPM_WRITE_MBOX_LOW, &arg))
658 return FALSE;
659
660 return arg.rval;
661}
662*/
663
664// --------------------------------------------------------------------------
665//
666// This is can_send from the Janz software
667//
668// /* can_send - send message to standard host interface (mid priority)
669// *
670// * This function sends a complete message to the standard host interface
671// * of a VMOD-ICAN.
672// *
673// * The message <pm> will be queued to the middle prioritized of the three
674// * queues.
675// *
676// * RETURNS:
677// * The function returns the number of message send, or -1 when the system
678// * call failed.
679// * The return value 0 determines that no message could be send,
680// * probably because there was no space in the targeted queue. can_send()
681// * does not block or retry in such a case, so you need to loop explicitly
682// * until the message is send.
683// */
684//
685int VmodIcan::Send(Message *pm) /* file descriptor, message to send */
686{
687 struct dpm_rw_can_desc arg;
688
689 arg.pm = pm;
690
691 return Ioctl(DPM_WRITE_MBOX, &arg) ? arg.rval : 0;
692}
693
694// --------------------------------------------------------------------------
695//
696// This is can_fast_send from the Janz software
697//
698// /* can_fast_send - send message to fast interface
699// *
700// * This function sends a message to the fast host interface (layer-2
701// * interface) of a VMOD-ICAN. The module is selected by the module number
702// * <fd>.
703// * The message to be send will be given in the structure <pm>.
704// *
705// * The fast host interface needs to be established before can_fast_send()
706// * can be used successfully.
707// *
708// * RETURNS:
709// * The function returns 1 if can_fast_send() completed successful.
710// * Otherwise the return value 0 determines that the message could not be send,
711// * probably because there was no space in the DPM. The function
712// * does not block or retry in such a case, so you need to loop explicitly
713// * until the message is send.
714// * The function returns -1 when the system-call itself failed.
715// */
716//
717/*
718int VmodIcan::Send(FastMessage *pm)
719{
720 struct dpm_write_fast_can_desc arg;
721
722 arg.pm = pm;
723
724 if (!Ioctl(DPM_WRITE_FAST_CAN, &arg))
725 return FALSE;
726
727 gLog << "done." << endl;
728
729 return arg.rval;
730}
731*/
732
733// --------------------------------------------------------------------------
734//
735// This is IcSetAfil from the Janz software
736//
737// /*
738// * IcSetAfil - Set software acceptance filter mask
739// *
740// * Set software acceptance filtering.
741// *
742// * SERVICE: SetAfilMask
743// */
744//
745void VmodIcan::DisableAllCobIds()
746{
747 Message msg;
748
749 msg.cmd = M_SET_AFIL;
750 msg.len = 5;
751
752 msg.data[0] = word_to_lsb(0);
753 msg.data[1] = word_to_msb(0);
754 msg.data[2] = word_to_lsb(0x7ff); // 11 bit Cob-Ids
755 msg.data[3] = word_to_msb(0x7ff); // 11 bit Cob-Ids
756 msg.data[4] = 0;
757
758 while (!Send(&msg));
759
760 gLog << inf2 << "- All CobIds disabled." << endl;
761}
762
763// --------------------------------------------------------------------------
764//
765// This is IcSetAfil from the Janz software
766//
767// /*
768// * IcSetAfil - Set software acceptance filter mask
769// *
770// * Set software acceptance filtering.
771// *
772// * SERVICE: SetAfilMask
773// */
774//
775void VmodIcan::EnableCobId(WORD_t cobid, int flag)
776{
777 Message msg;
778
779 msg.cmd = M_SET_AFIL;
780 msg.len = 3;
781
782 msg.data[0] = word_to_lsb(cobid);
783 msg.data[1] = word_to_msb(cobid);
784 msg.data[2] = (BYTE_t)(flag?3:0);
785
786 while (!Send(&msg));
787#ifdef EXPERT
788 gLog << "- CobId 0x" << hex << setfill('0') << setw(3) << cobid << " enabled." << endl;
789#endif
790}
791
792// --------------------------------------------------------------------------
793//
794// This is IcSendReqBCAN from the Janz software
795//
796// /*
797// * IcSendReqBCAN - Send a CANbus message
798// *
799// * Issue request to send a CAN message. <Spec> controls whether to send with
800// * or without spec/confirmation.
801// * .CS
802// * spec action
803// * 0 send only
804// * 1 send with confirmation to the host.
805// * 2 send and echo message to the host.
806// * 3 send and generate both echo and confirmation.
807// * .CE
808// *
809// * SERVICE: CTXreq, CTXCreq, CTXEreq, CTXCEreq
810// *
811// * NOTE:
812// * Raw ICANOS version of the firmware only.
813// */
814//
815void VmodIcan::SendCanFrame(WORD_t cobid, BYTE_t m[8], BYTE_t rtr)
816{
817 const WORD_t desc = MsgDescr(cobid, 8, rtr);
818
819 Message msg;
820
821 msg.cmd = M_BCAN_TX_req;
822
823 msg.len = 12;
824 msg.data[0] = 0;
825 msg.data[1] = 0;
826 msg.data[2] = word_to_msb(desc);
827 msg.data[3] = word_to_lsb(desc);
828
829 memcpy(&msg.data[4], m, 8);
830
831 while (!Send(&msg));
832}
833
834// --------------------------------------------------------------------------
835//
836// Constructor. Sets logging.
837// Set the receiving thread to priority -10 and detached.
838//
839// Open the device.
840// reset the device
841// Enable the fifo buffers
842// Set the baud rate to the given rate
843// Disable passthrough of all cobids (all canbus messages)
844// and switch the can bus communication on
845//
846VmodIcan::VmodIcan(CanOpen *rx, const char *dev, const int baud) : Interface(rx)
847{
848 //
849 // Set priority of receiving thread and detach the receiving thread
850 //
851// Detach();
852
853 if (!Open(dev))
854 {
855 cout << "Cannot open device '" << dev << "'... exit." << endl;
856 cout << strerror(errno) << endl;
857 return;
858 }
859
860 Reset();
861 EnableFifo(); // connect to host (in interrupt mode)
862 SetBaudRate(baud); // set baud rate
863 DisableAllCobIds();
864 EnableCanBusConnection(); // connect to bus
865 /*
866 StdHost2NewStyle(50, 50, 50, 50); // set host style
867 EnableFastCan(50, 50);
868 SetTermination(0);
869 */
870
871 gLog << inf << "- VmodIcan initialized." << endl;
872
873}
874
875// --------------------------------------------------------------------------
876//
877// Destructor. Stopt the receiver, disables the bus connection and
878// close the device
879//
880VmodIcan::~VmodIcan()
881{
882 gLog << inf2 << "- Stopping VmodIcan module." << endl;
883 CancelThread();
884 DisableCanBusConnection();
885 Close();
886 gLog << inf << "- VmodIcan stopped." << endl;
887}
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