2 * First author: Michael Graff.
3 * Copyright (c) 1997-2000 Lan Media Corp. (www.lanmedia.com).
6 * Second author: Andrew Stanley-Jones.
7 * Copyright (c) 2000-2002 SBE Corp. (www.sbei.com).
10 * Third author: David Boggs.
11 * Copyright (c) 2002-2004 David Boggs. (boggs@boggs.palo-alto.ca.us).
12 * All rights reserved.
16 * Redistribution and use in source and binary forms, with or without
17 * modification, are permitted provided that the following conditions
19 * 1. Redistributions of source code must retain the above copyright
20 * notice, this list of conditions and the following disclaimer.
21 * 2. Redistributions in binary form must reproduce the above copyright
22 * notice, this list of conditions and the following disclaimer in the
23 * documentation and/or other materials provided with the distribution.
25 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
26 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
27 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
28 * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
29 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
30 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
31 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
32 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
33 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
34 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
37 * GNU General Public License:
39 * This program is free software; you can redistribute it and/or modify it
40 * under the terms of the GNU General Public License as published by the Free
41 * Software Foundation; either version 2 of the License, or (at your option)
44 * This program is distributed in the hope that it will be useful, but WITHOUT
45 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
46 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
49 * You should have received a copy of the GNU General Public License along with
50 * this program; if not, write to the Free Software Foundation, Inc., 59
51 * Temple Place - Suite 330, Boston, MA 02111-1307, USA.
55 * This program configures the Unix/Linux device driver for SBE Corp's
56 * wanADAPT and wanPMC series of Wide Area Network Interface Cards.
57 * There is a man page for this program; go find it.
59 * If Netgraph is present (FreeBSD only):
60 * cc -o lmcconfig -l netgraph -D NETGRAPH lmcconfig.c
61 * If Netgraph is NOT present:
62 * cc -o lmcconfig lmcconfig.c
63 * Install the executable program in /usr/local/sbin/lmcconfig.
68 #include <sys/param.h>
69 #include <sys/ioctl.h>
70 #include <sys/socket.h>
81 # include <netgraph.h>
85 #include <dev/lmc/if_lmc.h>
87 /* program global variables */
88 char * progname; /* name of this program */
89 char * ifname; /* interface name */
90 int fdcs; /* ifnet File Desc or ng Ctl Socket */
91 struct status status; /* card status (read only) */
92 struct config config; /* card configuration (read/write) */
93 int netgraph = 0; /* non-zero if netgraph present */
94 int summary = 0; /* print summary at end */
95 int update = 0; /* update driver config */
96 int verbose = 0; /* verbose output */
97 u_int8_t checksum; /* gate array ucode file checksum */
99 /* Functions currently unused. Keep compiler happy and provide prototypes. */
100 void ioctl_snmp_loop(u_int32_t);
106 fprintf(stderr, "Usage: %s interface [-abBcCdDeEfhiLmMpPsStTuUvVwWxXyYzZ?]\n", progname);
107 fprintf(stderr, "or\n");
108 fprintf(stderr, "Usage: %s interface -1 [-aABcdeEfFgiIlLpPstTuUvxX]\n", progname);
109 fprintf(stderr, "or\n");
110 fprintf(stderr, "Usage: %s interface -3 [-aABcdefFlLsSvV]\n\n", progname);
111 fprintf(stderr, "\tInterface is the interface name, e.g. '%s'\n", ifname);
112 #if defined(NETGRAPH)
113 fprintf(stderr, "\tIf interface name ends with ':' then use netgraph\n");
115 fprintf(stderr, "\t-1 following parameters apply to T1E1 cards\n");
116 fprintf(stderr, "\t-3 following parameters apply to T3 cards\n");
117 fprintf(stderr, "\t-a <number> Set Tx clock source, where:\n");
118 fprintf(stderr, "\t 1:modem Tx clk 2:int src 3:modem Rx Clk 4:ext conn\n");
119 fprintf(stderr, "\t-b Read and print bios rom addrs 0-255\n");
120 fprintf(stderr, "\t-B Write bios rom with address pattern\n");
121 fprintf(stderr, "\t-c Set 16-bit CRC (default)\n");
122 fprintf(stderr, "\t-C Set 32-bit CRC\n");
123 fprintf(stderr, "\t-d Clear driver DEBUG flag\n");
124 fprintf(stderr, "\t-D Set driver DEBUG flag (more log msgs)\n");
125 fprintf(stderr, "\t-e Set DTE mode (default)\n");
126 fprintf(stderr, "\t-E Set DCE mode\n");
127 fprintf(stderr, "\t-f <number> Set synth osc freq in bits/sec\n");
128 fprintf(stderr, "\t-F Set SPPP line protocol to Frame-Relay\n");
129 fprintf(stderr, "\t-h Help: this usage message\n");
130 fprintf(stderr, "\t-i Interface name (eg, lmc0)\n");
131 fprintf(stderr, "\t-L <number> Set loopback: 1:none 2:payload 3:line 4:other\n");
132 fprintf(stderr, "\t 5:inward 6:dual 16:Tulip 17:pins 18:LA/LL 19:LB/RL\n");
133 fprintf(stderr, "\t-m Read and print MII regs\n");
134 fprintf(stderr, "\t-M <addr> <data> Write MII reg\n");
135 fprintf(stderr, "\t-p Read and print PCI config regs\n");
136 fprintf(stderr, "\t-P <addr> <data> Write PCI config reg\n");
137 fprintf(stderr, "\t-s Read and print Tulip SROM\n");
138 fprintf(stderr, "\t-S <number> Initialize Tulip SROM\n");
139 fprintf(stderr, "\t-t Read and print Tulip Control/Status regs\n");
140 fprintf(stderr, "\t-T <addr> <data> Write Tulip Control/status reg\n");
141 fprintf(stderr, "\t-u Reset event counters\n");
142 fprintf(stderr, "\t-U Reset gate array\n");
143 fprintf(stderr, "\t-v Set verbose printout mode\n");
144 fprintf(stderr, "\t-V Print card configuration\n");
145 fprintf(stderr, "\t-w Load gate array from ROM\n");
146 fprintf(stderr, "\t-W <filename> Load gate array from file\n");
147 fprintf(stderr, "\t-x select RAWIP mode and bypass line protocols\n");
148 fprintf(stderr, "\t-X Select line protocols: SPPP, P2P or HDLC\n");
149 fprintf(stderr, "\t-y disable SPPP keep-alive packets\n");
150 fprintf(stderr, "\t-Y enable SPPP keep-alive packets\n");
151 fprintf(stderr, "\t-z Set SPPP line protocol to Cisco-HDLC\n");
152 fprintf(stderr, "\t-Z Set SPPP line protocol to PPP\n");
154 fprintf(stderr, "The -1 switch precedes T1/E1 commands.\n");
155 fprintf(stderr, "\t-a <y|b|a> Stop sending Yellow|Blue|AIS signal\n");
156 fprintf(stderr, "\t-A <y|b|a> Start sending Yellow|Blue|AIS signal\n");
157 fprintf(stderr, "\t-B <number> Send BOP msg 25 times\n");
158 fprintf(stderr, "\t-c <number> Set cable length in meters\n");
159 fprintf(stderr, "\t-d Print status of T1 DSU/CSU\n");
160 fprintf(stderr, "\t-e <number> Set framing format, where:\n");
161 fprintf(stderr, "\t 27:T1-ESF 9:T1-SF 0:E1-FAS 8:E1-FAS+CRC\n");
162 fprintf(stderr, "\t 16:E1-FAS+CAS 24:E1-FAS+CRC+CAS 32:E1-NO-FRAMING\n");
163 fprintf(stderr, "\t-E <32-bit hex number> 1 activates a channel and 0 deactivates it.\n");
164 fprintf(stderr, "\t Use this to config a link in fractional T1/E1 mode\n");
165 fprintf(stderr, "\t-f Read and print Framer/LIU registers\n");
166 fprintf(stderr, "\t-F <addr> <data> Write Framer/LIU register\n");
167 fprintf(stderr, "\t-g <number> Set receiver gain, where:\n");
168 fprintf(stderr, "\t 0:short range 1:medium range\n");
169 fprintf(stderr, "\t 2:long range 3:extended range\n");
170 fprintf(stderr, "\t 4:auto-set based on cable length\n");
171 fprintf(stderr, "\t-i Send 'CSU Loop Down' inband msg\n");
172 fprintf(stderr, "\t-I Send 'CSU Loop Up' inband msg\n");
173 fprintf(stderr, "\t-l Send 'Line Loop Down' BOP msg\n");
174 fprintf(stderr, "\t-L Send 'Line Loop Up' BOP msg\n");
175 fprintf(stderr, "\t-p Send 'Payload Loop Down' BOP msg\n");
176 fprintf(stderr, "\t-P Send 'Payload Loop Up' BOP msg\n");
177 fprintf(stderr, "\t-s Print status of T1 DSU/CSU\n");
178 fprintf(stderr, "\t-t Stop sending test pattern\n");
179 fprintf(stderr, "\t-T <number> Start sending test pattern, where:\n");
180 fprintf(stderr, "\t 0:unframed 2^11 1:unframed 2^15\n");
181 fprintf(stderr, "\t 2:unframed 2^20 3:unframed 2^23\n");
182 fprintf(stderr, "\t 4:unframed 2^11 w/ZS 5:unframed 2^15 w/ZS\n");
183 fprintf(stderr, "\t 6:unframed QRSS 7:unframed 2^23 w/ZS\n");
184 fprintf(stderr, "\t 8: framed 2^11 9: framed 2^15\n");
185 fprintf(stderr, "\t 10: framed 2^20 11: framed 2^23\n");
186 fprintf(stderr, "\t 12: framed 2^11 w/ZS 13: framed 2^15 w/ZS\n");
187 fprintf(stderr, "\t 14: framed QRSS 15: framed 2^23 w/ZS\n");
188 fprintf(stderr, "\t-u <number> Set transmitter pulse shape, where:\n");
189 fprintf(stderr, "\t 0:T1-DSX 0-40m 1:T1-DSX 40-80m\n");
190 fprintf(stderr, "\t 2:T1-DSX 80-120m 3:T1-DSX 120-160m\n");
191 fprintf(stderr, "\t 4:T1-DSX 160-200m 5:E1-G.703 75ohm coax\n");
192 fprintf(stderr, "\t 6:E1-G.703 120ohm TP 7:T1-CSU Long range\n");
193 fprintf(stderr, "\t 8:auto-set based on cable length (T1 only)\n");
194 fprintf(stderr, "\t-U <number> Set line build out where:\n");
195 fprintf(stderr, "\t 0:0dB 1:7.5dB 2:15dB 3:22.5dB\n");
196 fprintf(stderr, "\t 4:auto-set based on cable length\n");
197 fprintf(stderr, "\t-v Set verbose printout mode\n");
198 fprintf(stderr, "\t-x disable Transmitter outputs\n");
199 fprintf(stderr, "\t-X enable Transmitter outputs\n");
201 fprintf(stderr, "The -3 switch precedes T3 commands.\n");
202 fprintf(stderr, "\t-a <y|b|a|i> Stop sending Yellow|Blue|AIS|Idle signal\n");
203 fprintf(stderr, "\t-A <y|b|a|i> Start sending Yellow|Blue|AIS|Idle signal\n");
204 fprintf(stderr, "\t-B <bopcode> Send BOP msg 10 times\n");
205 fprintf(stderr, "\t-c <number> Set cable length in meters\n");
206 fprintf(stderr, "\t-d Print status of T3 DSU/CSU\n");
207 fprintf(stderr, "\t-e <number> Set T3 frame format, where:\n");
208 fprintf(stderr, "\t 100:C-Bit Parity 101:M13\n");
209 fprintf(stderr, "\t-f Read and print Framer registers\n");
210 fprintf(stderr, "\t-F <addr> <data> Write Framer register\n");
211 fprintf(stderr, "\t-l Send 'Line Loop Down' BOP msg\n");
212 fprintf(stderr, "\t-L Send 'Line Loop Up' BOP msg\n");
213 fprintf(stderr, "\t-s Print status of T3 DSU/CSU\n");
214 fprintf(stderr, "\t-S <number> Set DS3 scrambler mode, where:\n");
215 fprintf(stderr, "\t 1:OFF 2:DigitalLink|Kentrox 3:Larse\n");
216 fprintf(stderr, "\t-v Set verbose printout mode\n");
217 fprintf(stderr, "\t-V <number> Write to T3 VCXO freq control DAC\n");
221 call_driver(unsigned long cmd, struct iohdr *iohdr)
225 strlcpy(iohdr->ifname, ifname, sizeof(iohdr->ifname));
226 iohdr->cookie = NGM_LMC_COOKIE;
227 iohdr->iohdr = iohdr;
229 /* Exchange data with a running device driver. */
230 #if defined(NETGRAPH)
233 NgSendMsg(fdcs, ifname, NGM_LMC_COOKIE, cmd, iohdr, IOCPARM_LEN(cmd));
236 int replen = sizeof(struct ng_mesg) + IOCPARM_LEN(cmd);
237 char rep[replen]; /* storage for the reply */
238 struct ng_mesg *reply = (struct ng_mesg *)rep;
239 int rl = NgRecvMsg(fdcs, reply, replen, NULL);
241 bcopy(&reply->data, iohdr, IOCPARM_LEN(cmd));
244 fprintf(stderr, "%s: NgRecvMsg returned %d bytes, expected %d\n",
245 progname, rl, replen);
253 if ((error = ioctl(fdcs, cmd, (caddr_t)iohdr)) < 0)
255 fprintf(stderr, "%s: ioctl() returned error code %d: %s\n",
256 progname, errno, strerror(errno));
257 if (errno == ENETDOWN)
258 printf("Type: 'ifconfig %s up' then try again.\n", ifname);
263 if (iohdr->cookie != NGM_LMC_COOKIE)
265 fprintf(stderr, "%s: cookie = 0x%08X, expected 0x%08X\n", progname, iohdr->cookie, NGM_LMC_COOKIE);
266 fprintf(stderr, "%s: This version of %s is incompatible with the device driver\n", progname, progname);
272 read_pci_config(u_int8_t addr)
276 ioctl.iohdr.direction = DIR_IOWR;
277 ioctl.iohdr.length = sizeof(struct ioctl);
278 ioctl.cmd = IOCTL_RW_PCI;
279 ioctl.address = addr;
281 call_driver(LMCIOCREAD, &ioctl.iohdr);
287 write_pci_config(u_int8_t addr, u_int32_t data)
291 ioctl.iohdr.direction = DIR_IOW;
292 ioctl.iohdr.length = sizeof(struct ioctl);
293 ioctl.cmd = IOCTL_RW_PCI;
294 ioctl.address = addr;
297 call_driver(LMCIOCWRITE, &ioctl.iohdr);
301 read_csr(u_int8_t addr)
305 ioctl.iohdr.direction = DIR_IOWR;
306 ioctl.iohdr.length = sizeof(struct ioctl);
307 ioctl.cmd = IOCTL_RW_CSR;
308 ioctl.address = addr;
310 call_driver(LMCIOCREAD, &ioctl.iohdr);
316 write_csr(u_int8_t addr, u_int32_t data)
320 ioctl.iohdr.direction = DIR_IOW;
321 ioctl.iohdr.length = sizeof(struct ioctl);
322 ioctl.cmd = IOCTL_RW_CSR;
323 ioctl.address = addr;
326 call_driver(LMCIOCWRITE, &ioctl.iohdr);
330 read_srom(u_int8_t addr)
334 ioctl.iohdr.direction = DIR_IOWR;
335 ioctl.iohdr.length = sizeof(struct ioctl);
336 ioctl.cmd = IOCTL_RW_SROM;
337 ioctl.address = addr;
339 call_driver(LMCIOCREAD, &ioctl.iohdr);
345 write_srom(u_int8_t addr, u_int16_t data)
349 ioctl.iohdr.direction = DIR_IOW;
350 ioctl.iohdr.length = sizeof(struct ioctl);
351 ioctl.cmd = IOCTL_RW_SROM;
352 ioctl.address = addr;
355 call_driver(LMCIOCWRITE, &ioctl.iohdr);
359 read_bios_rom(u_int32_t addr)
363 ioctl.iohdr.direction = DIR_IOWR;
364 ioctl.iohdr.length = sizeof(struct ioctl);
365 ioctl.cmd = IOCTL_RW_BIOS;
366 ioctl.address = addr;
368 call_driver(LMCIOCREAD, &ioctl.iohdr);
374 write_bios_rom(u_int32_t addr, u_int8_t data)
378 ioctl.iohdr.direction = DIR_IOW;
379 ioctl.iohdr.length = sizeof(struct ioctl);
380 ioctl.cmd = IOCTL_RW_BIOS;
381 ioctl.address = addr;
384 call_driver(LMCIOCWRITE, &ioctl.iohdr);
388 read_mii(u_int8_t addr)
392 ioctl.iohdr.direction = DIR_IOWR;
393 ioctl.iohdr.length = sizeof(struct ioctl);
394 ioctl.cmd = IOCTL_RW_MII;
395 ioctl.address = addr;
397 call_driver(LMCIOCREAD, &ioctl.iohdr);
403 write_mii(u_int8_t addr, u_int16_t data)
407 ioctl.iohdr.direction = DIR_IOW;
408 ioctl.iohdr.length = sizeof(struct ioctl);
409 ioctl.cmd = IOCTL_RW_MII;
410 ioctl.address = addr;
413 call_driver(LMCIOCWRITE, &ioctl.iohdr);
417 read_framer(u_int16_t addr)
421 ioctl.iohdr.direction = DIR_IOWR;
422 ioctl.iohdr.length = sizeof(struct ioctl);
423 ioctl.cmd = IOCTL_RW_FRAME;
424 ioctl.address = addr;
426 call_driver(LMCIOCREAD, &ioctl.iohdr);
432 write_framer(u_int16_t addr, u_int8_t data)
436 ioctl.iohdr.direction = DIR_IOW;
437 ioctl.iohdr.length = sizeof(struct ioctl);
438 ioctl.cmd = IOCTL_RW_FRAME;
439 ioctl.address = addr;
442 call_driver(LMCIOCWRITE, &ioctl.iohdr);
446 write_synth(struct synth synth)
450 ioctl.iohdr.direction = DIR_IOW;
451 ioctl.iohdr.length = sizeof(struct ioctl);
452 ioctl.cmd = IOCTL_WO_SYNTH;
453 bcopy(&synth, &ioctl.data, sizeof(synth));
455 call_driver(LMCIOCWRITE, &ioctl.iohdr);
459 write_dac(u_int16_t data)
463 ioctl.iohdr.direction = DIR_IOW;
464 ioctl.iohdr.length = sizeof(struct ioctl);
465 ioctl.cmd = IOCTL_WO_DAC;
468 call_driver(LMCIOCWRITE, &ioctl.iohdr);
476 ioctl.iohdr.direction = DIR_IOWR;
477 ioctl.iohdr.length = sizeof(struct ioctl);
478 ioctl.cmd = IOCTL_XILINX_RESET;
480 call_driver(LMCIOCTL, &ioctl.iohdr);
484 load_xilinx_from_rom(void)
488 ioctl.iohdr.direction = DIR_IOWR;
489 ioctl.iohdr.length = sizeof(struct ioctl);
490 ioctl.cmd = IOCTL_XILINX_ROM;
492 call_driver(LMCIOCTL, &ioctl.iohdr);
496 load_xilinx_from_file(char *ucode, u_int32_t len)
500 ioctl.iohdr.direction = DIR_IOWR;
501 ioctl.iohdr.length = sizeof(struct ioctl);
502 ioctl.cmd = IOCTL_XILINX_FILE;
506 call_driver(LMCIOCTL, &ioctl.iohdr);
510 ioctl_snmp_send(u_int32_t send)
514 ioctl.iohdr.direction = DIR_IOWR;
515 ioctl.iohdr.length = sizeof(struct ioctl);
516 ioctl.cmd = IOCTL_SNMP_SEND;
519 call_driver(LMCIOCTL, &ioctl.iohdr);
523 ioctl_snmp_loop(u_int32_t loop)
527 ioctl.iohdr.direction = DIR_IOWR;
528 ioctl.iohdr.length = sizeof(struct ioctl);
529 ioctl.cmd = IOCTL_SNMP_LOOP;
532 call_driver(LMCIOCTL, &ioctl.iohdr);
536 ioctl_reset_cntrs(void)
540 ioctl.iohdr.direction = DIR_IOWR;
541 ioctl.iohdr.length = sizeof(struct ioctl);
542 ioctl.cmd = IOCTL_RESET_CNTRS;
544 call_driver(LMCIOCTL, &ioctl.iohdr);
548 ioctl_read_config(void)
550 config.iohdr.direction = DIR_IOWR;
551 config.iohdr.length = sizeof(struct config);
553 call_driver(LMCIOCGCFG, &config.iohdr);
557 ioctl_write_config(void)
559 config.iohdr.direction = DIR_IOW;
560 config.iohdr.length = sizeof(struct config);
562 call_driver(LMCIOCSCFG, &config.iohdr);
566 ioctl_read_status(void)
568 status.iohdr.direction = DIR_IOWR;
569 status.iohdr.length = sizeof(struct status);
571 call_driver(LMCIOCGSTAT, &status.iohdr);
575 print_card_name(void)
577 printf("Card name:\t\t%s\n", ifname);
581 print_card_type(void)
583 printf("Card type:\t\t");
584 switch(status.card_type)
587 printf("HSSI (lmc5200)\n");
590 printf("T3 (lmc5245)\n");
593 printf("SSI (lmc1000)\n");
596 printf("T1E1 (lmc1200)\n");
599 printf("HSSI (lmc5200C)\n");
602 printf("unknown card_type: %d\n", status.card_type);
612 if (status.oper_status == STATUS_UP)
613 status_string = "Up";
614 else if (status.oper_status == STATUS_DOWN)
615 status_string = "Down";
616 else if (status.oper_status == STATUS_TEST)
617 status_string = "Test";
619 status_string = "Unknown";
620 printf("Link status:\t\t%s\n", status_string);
626 printf("Tx Speed:\t\t%u\n", status.tx_speed);
632 if (config.debug != 0)
633 printf("Debug:\t\t\t%s\n", "On");
637 print_line_prot(void)
639 char *on = "On", *off = "Off";
641 printf("Line Prot/Pkg:\t\t");
642 switch (status.line_prot)
651 printf("Cisco-HDLC/");
654 printf("Frame-Relay/");
657 printf("IP-in-HDLC/");
660 printf("Ether-in-HDLC/");
666 printf("unknown line_prot: %d/", status.line_prot);
670 switch (status.line_pkg)
679 printf("Netgraph\n");
691 printf("unknown line_pkg: %d\n", status.line_pkg);
695 if (status.line_pkg == PKG_SPPP)
696 printf("SPPP Keep-alives:\t%s\n",
697 config.keep_alive ? on : off);
703 printf("CRC length:\t\t");
704 if (config.crc_len == CFG_CRC_0)
706 else if (config.crc_len == CFG_CRC_16)
708 else if (config.crc_len == CFG_CRC_32)
711 printf("bad crc_len: %d\n", config.crc_len);
715 print_loop_back(void)
717 printf("Loopback:\t\t");
718 switch (config.loop_back)
723 case CFG_LOOP_PAYLOAD:
724 printf("Outward thru framer (payload loop)\n");
727 printf("Outward thru line interface (line loop)\n");
730 printf("Inward thru line interface\n");
732 case CFG_LOOP_INWARD:
733 printf("Inward thru framer\n");
736 printf("Inward & outward (dual loop)\n");
739 printf("Inward thru Tulip chip\n");
742 printf("Inward thru drvrs/rcvrs\n");
745 printf("LA/LL asserted\n");
748 printf("LB/RL asserted\n");
751 printf("unknown loop_back: %d\n", config.loop_back);
757 print_tx_clk_src(void)
759 printf("Tx Clk src:\t\t");
760 switch (config.tx_clk_src)
763 printf("Tx Clk from modem\n");
766 printf("Internal source\n");
769 printf("Rx Clk from modem (loop timed)\n");
772 printf("External connector\n");
775 printf("unknown tx_clk_src: %d\n", config.tx_clk_src);
783 printf("Format-Frame/Code:\t");
784 switch (config.format)
786 case CFG_FORMAT_T1SF:
787 printf("T1-SF/AMI\n");
789 case CFG_FORMAT_T1ESF:
790 printf("T1-ESF/B8ZS\n");
792 case CFG_FORMAT_E1FAS:
793 printf("E1-FAS/HDB3\n");
795 case CFG_FORMAT_E1FASCRC:
796 printf("E1-FAS+CRC/HDB3\n");
798 case CFG_FORMAT_E1FASCAS:
799 printf("E1-FAS+CAS/HDB3\n");
801 case CFG_FORMAT_E1FASCRCCAS:
802 printf("E1-FAS+CRC+CAS/HDB3\n");
804 case CFG_FORMAT_E1NONE:
805 printf("E1-NOFRAMING/HDB3\n");
807 case CFG_FORMAT_T3CPAR:
808 printf("T3-CParity/B3ZS\n");
810 case CFG_FORMAT_T3M13:
811 printf("T3-M13/B3ZS\n");
814 printf("unknown format: %d\n", config.format);
822 printf("DTE or DCE:\t\t");
823 switch(config.dte_dce)
826 printf("DTE (receiving TxClk)\n");
829 printf("DCE (driving TxClk)\n");
832 printf("unknown dte_dce: %d\n", config.dte_dce);
838 print_synth_freq(void)
843 /* decode the synthesizer params */
844 Fvco = (Fref * (config.synth.n<<(3*config.synth.v)))/config.synth.m;
845 Fout = Fvco / (1<<(config.synth.x+config.synth.r+config.synth.prescale));
847 printf("Synth freq:\t\t%.0f\n", Fout);
851 synth_freq(unsigned long target)
853 unsigned int n, m, v, x, r;
854 double Fout, Fvco, Ftarg;
855 double newdiff, olddiff;
856 double bestF=0.0, bestV=0.0;
857 unsigned prescale = (target < 50000) ? 9:4;
859 Ftarg = target<<prescale;
860 for (n=3; n<=127; n++)
861 for (m=3; m<=127; m++)
866 Fvco = (SYNTH_FREF * (n<<(3*v)))/m;
867 if (Fvco < SYNTH_FMIN || Fvco > SYNTH_FMAX) continue;
868 Fout = Fvco / (1<<(x+r));
870 newdiff = Fout - Ftarg;
872 newdiff = Ftarg - Fout;
874 olddiff = bestF - Ftarg;
876 olddiff = Ftarg - bestF;
877 if ((newdiff < olddiff) ||
878 ((newdiff == olddiff) && (Fvco < bestV)))
885 config.synth.prescale = prescale;
891 printf("Fbest=%.0f, Ftarg=%u, Fout=%.0f\n", bestF>>prescale, target, bestF);
892 printf("N=%u, M=%u, V=%u, X=%u, R=%u\n", config.synth.n,
893 config.synth.m, config.synth.v, config.synth.x, config.synth.r);
898 print_cable_len(void)
900 printf("Cable length:\t\t%d meters\n", config.cable_len);
904 print_cable_type(void)
906 printf("Cable type:\t\t");
907 if (status.cable_type > 7)
908 printf("unknown cable_type: %d\n", status.cable_type);
910 printf("%s\n", ssi_cables[status.cable_type]);
914 print_time_slots(void)
916 printf("TimeSlot [31-0]:\t0x%08X\n", config.time_slots);
920 print_scrambler(void)
922 printf("Scrambler:\t\t");
923 if (config.scrambler == CFG_SCRAM_OFF)
925 else if (config.scrambler == CFG_SCRAM_DL_KEN)
926 printf("DigLink/Kentrox: X^43+1\n");
927 else if (config.scrambler == CFG_SCRAM_LARS)
928 printf("Larse: X^20+X^17+1 w/28ZS\n");
930 printf("unknown scrambler: %d\n", config.scrambler);
934 vga_dbs(u_int8_t vga)
936 if (vga < 0x0F) return 0.0;
937 if ((vga >= 0x0F) && (vga <= 0x1B)) return 0.0 + 0.77 * (vga - 0x0F);
938 if ((vga >= 0x1C) && (vga <= 0x33)) return 10.0 + 1.25 * (vga - 0x1C);
939 if ((vga >= 0x34) && (vga <= 0x39)) return 40.0 + 1.67 * (vga - 0x34);
940 if ((vga >= 0x3A) && (vga < 0x3F)) return 50.0 + 2.80 * (vga - 0x3A);
947 printf("Rx gain max:\t\t");
949 if (config.rx_gain == CFG_GAIN_AUTO)
950 printf("auto-set to %02.1f dB\n",
951 vga_dbs(read_framer(Bt8370_VGA_MAX) & 0x3F));
953 printf("up to %02.1f dB\n", vga_dbs(config.rx_gain));
959 u_int8_t saved_lbo = config.tx_lbo;
962 if (config.tx_lbo == CFG_LBO_AUTO)
964 config.tx_lbo = read_framer(Bt8370_TLIU_CR) & 0x30;
965 printf("auto-set to ");
968 switch (config.tx_lbo)
983 printf("unknown tx_lbo: %d\n", config.tx_lbo);
987 if (saved_lbo == CFG_LBO_AUTO)
988 config.tx_lbo = saved_lbo;
994 u_int8_t saved_pulse = config.tx_pulse;
996 printf("Tx pulse shape:\t\t");
997 if (config.tx_pulse == CFG_PULSE_AUTO)
999 config.tx_pulse = read_framer(Bt8370_TLIU_CR) & 0x0E;
1000 printf("auto-set to ");
1003 switch (config.tx_pulse)
1005 case CFG_PULSE_T1DSX0:
1006 printf("T1-DSX: 0 to 40 meters\n");
1008 case CFG_PULSE_T1DSX1:
1009 printf("T1-DSX: 40 to 80 meters\n");
1011 case CFG_PULSE_T1DSX2:
1012 printf("T1-DSX: 80 to 120 meters\n");
1014 case CFG_PULSE_T1DSX3:
1015 printf("T1-DSX: 120 to 160 meters\n");
1017 case CFG_PULSE_T1DSX4:
1018 printf("T1-DSX: 160 to 200 meters\n");
1020 case CFG_PULSE_E1COAX:
1021 printf("E1: Twin Coax\n");
1023 case CFG_PULSE_E1TWIST:
1024 printf("E1: Twisted Pairs\n");
1026 case CFG_PULSE_T1CSU:
1031 printf("unknown tx_pulse: %d\n", config.tx_pulse);
1035 if (saved_pulse == CFG_PULSE_AUTO)
1036 config.tx_pulse = saved_pulse;
1040 print_ssi_sigs(void)
1042 u_int32_t mii16 = status.snmp.ssi.sigs;
1043 char *on = "On", *off = "Off";
1045 printf("Modem signals:\t\tDTR=%s DSR=%s RTS=%s CTS=%s\n",
1046 (mii16 & MII16_SSI_DTR) ? on : off,
1047 (mii16 & MII16_SSI_DSR) ? on : off,
1048 (mii16 & MII16_SSI_RTS) ? on : off,
1049 (mii16 & MII16_SSI_CTS) ? on : off);
1050 printf("Modem signals:\t\tDCD=%s RI=%s LL=%s RL=%s TM=%s\n",
1051 (mii16 & MII16_SSI_DCD) ? on : off,
1052 (mii16 & MII16_SSI_RI) ? on : off,
1053 (mii16 & MII16_SSI_LL) ? on : off,
1054 (mii16 & MII16_SSI_RL) ? on : off,
1055 (mii16 & MII16_SSI_TM) ? on : off);
1059 print_hssi_sigs(void)
1061 u_int32_t mii16 = status.snmp.hssi.sigs;
1062 char *on = "On", *off = "Off";
1064 printf("Modem signals:\t\tTA=%s CA=%s\n",
1065 (mii16 & MII16_HSSI_TA) ? on : off,
1066 (mii16 & MII16_HSSI_CA) ? on : off);
1067 printf("Modem signals:\t\tLA=%s LB=%s LC=%s TM=%s\n",
1068 (mii16 & MII16_HSSI_LA) ? on : off,
1069 (mii16 & MII16_HSSI_LB) ? on : off,
1070 (mii16 & MII16_HSSI_LC) ? on : off,
1071 (mii16 & MII16_HSSI_TM) ? on : off);
1077 const char *reset_time;
1081 printf("Current time:\t\t%s", ctime(&now));
1082 if (status.cntrs.reset_time.tv_sec < 1000)
1083 reset_time = "Never\n";
1085 reset_time = ctime(&status.cntrs.reset_time.tv_sec);
1086 printf("Cntrs reset:\t\t%s", reset_time);
1088 if (status.cntrs.ibytes) printf("Rx bytes:\t\t%ju\n", (uintmax_t)status.cntrs.ibytes);
1089 if (status.cntrs.obytes) printf("Tx bytes:\t\t%ju\n", (uintmax_t)status.cntrs.obytes);
1090 if (status.cntrs.ipackets) printf("Rx packets:\t\t%ju\n", (uintmax_t)status.cntrs.ipackets);
1091 if (status.cntrs.opackets) printf("Tx packets:\t\t%ju\n", (uintmax_t)status.cntrs.opackets);
1092 if (status.cntrs.ierrors) printf("Rx errors:\t\t%u\n", status.cntrs.ierrors);
1093 if (status.cntrs.oerrors) printf("Tx errors:\t\t%u\n", status.cntrs.oerrors);
1094 if (status.cntrs.idiscards) printf("Rx discards:\t\t%u\n", status.cntrs.idiscards);
1095 if (status.cntrs.odiscards) printf("Tx discards:\t\t%u\n", status.cntrs.odiscards);
1096 if (status.cntrs.fifo_over) printf("Rx fifo overruns:\t%u\n", status.cntrs.fifo_over);
1097 if (status.cntrs.fifo_under) printf("Tx fifo underruns:\t%u\n", status.cntrs.fifo_under);
1098 if (status.cntrs.missed) printf("Rx missed:\t\t%u\n", status.cntrs.missed);
1099 if (status.cntrs.overruns) printf("Rx overruns:\t\t%u\n", status.cntrs.overruns);
1100 if (status.cntrs.fdl_pkts) printf("Rx FDL pkts:\t\t%u\n", status.cntrs.fdl_pkts);
1101 if (status.cntrs.crc_errs) printf("Rx CRC:\t\t\t%u\n", status.cntrs.crc_errs);
1102 if (status.cntrs.lcv_errs) printf("Rx line code:\t\t%u\n", status.cntrs.lcv_errs);
1103 if (status.cntrs.frm_errs) printf("Rx F-bits:\t\t%u\n", status.cntrs.frm_errs);
1104 if (status.cntrs.febe_errs) printf("Rx FEBE:\t\t%u\n", status.cntrs.febe_errs);
1105 if (status.cntrs.par_errs) printf("Rx P-parity:\t\t%u\n", status.cntrs.par_errs);
1106 if (status.cntrs.cpar_errs) printf("Rx C-parity:\t\t%u\n", status.cntrs.cpar_errs);
1107 if (status.cntrs.mfrm_errs) printf("Rx M-bits:\t\t%u\n", status.cntrs.mfrm_errs);
1109 { /* These events are hard to explain and may worry users, */
1110 if (status.cntrs.rxdma) printf("Rx no buffs:\t\t%u\n", status.cntrs.rxdma);
1111 if (status.cntrs.txdma) printf("Tx no descs:\t\t%u\n", status.cntrs.txdma);
1112 if (status.cntrs.lck_watch) printf("Lck watch:\t\t%u\n", status.cntrs.lck_watch);
1113 if (status.cntrs.lck_ioctl) printf("Lck ioctl:\t\t%u\n", status.cntrs.lck_ioctl);
1114 if (status.cntrs.lck_intr) printf("Lck intr:\t\t%u\n", status.cntrs.lck_intr);
1121 switch(status.card_type)
1190 case TLP_CSID_HSSIc:
1209 printf("%s: Unknown card type: %d\n", ifname, status.card_type);
1216 print_t3_bop(int bop_code)
1221 return "far end LOF";
1223 return "far end LOS";
1225 return "far end AIS";
1227 return "far end IDL";
1229 return "Line Loopback activate";
1231 return "Line Loopback deactivate";
1233 return "Entire DS3 line";
1235 return "Unknown BOP code";
1242 printf("SNMP performance data:\n");
1243 printf(" LCV=%d", status.snmp.t3.lcv);
1244 printf(" LOS=%d", (status.snmp.t3.line & TLINE_LOS) ? 1 : 0);
1245 printf(" PCV=%d", status.snmp.t3.pcv);
1246 printf(" CCV=%d", status.snmp.t3.ccv);
1247 printf(" AIS=%d", (status.snmp.t3.line & TLINE_RX_AIS) ? 1 : 0);
1248 printf(" SEF=%d", (status.snmp.t3.line & T1LINE_SEF) ? 1 : 0);
1249 printf(" OOF=%d", (status.snmp.t3.line & TLINE_LOF) ? 1 : 0);
1250 printf(" FEBE=%d", status.snmp.t3.febe);
1251 printf(" RAI=%d", (status.snmp.t3.line & TLINE_RX_RAI) ? 1 : 0);
1258 char *no = "No", *yes = "Yes";
1259 u_int16_t mii16 = read_mii(16);
1260 u_int8_t ctl1 = read_framer(T3CSR_CTL1);
1261 u_int8_t ctl8 = read_framer(T3CSR_CTL8);
1262 u_int8_t stat9 = read_framer(T3CSR_STAT9);
1263 u_int8_t ctl12 = read_framer(T3CSR_CTL12);
1264 u_int8_t stat16 = read_framer(T3CSR_STAT16);
1266 printf("Framing: \t\t%s\n", ctl1 & CTL1_M13MODE ? "M13" : "CPAR");
1268 printf("Scrambler: \t\t%s\n", mii16 & MII16_DS3_SCRAM ? yes : no);
1269 printf("Scram poly: \t\t%s\n", mii16 & MII16_DS3_POLY ? "X^20" : "X^43");
1270 printf("Cable length \t\t%s\n", mii16 & MII16_DS3_ZERO ? "Short" : "Long");
1271 printf("Line loop: \t\t%s\n", mii16 & MII16_DS3_LNLBK ? yes : no);
1272 printf("Payload loop: \t\t%s\n", ctl12 & CTL12_RTPLOOP ? yes : no);
1273 printf("Frame loop: \t\t%s\n", ctl1 & CTL1_3LOOP ? yes : no);
1274 printf("Host loop: \t\t%s\n", mii16 & MII16_DS3_TRLBK ? yes : no);
1275 printf("Transmit RAI: \t\t%s\n", ctl1 & CTL1_XTX ? no : yes);
1276 printf("Receive RAI \t\t%s\n", stat16 & STAT16_XERR ? yes : no);
1277 printf("Transmit AIS: \t\t%s\n", ctl1 & CTL1_TXAIS ? yes : no);
1278 printf("Receive AIS: \t\t%s\n", stat16 & STAT16_RAIS ? yes : no);
1279 printf("Transmit IDLE: \t\t%s\n", ctl1 & CTL1_TXIDL ? yes : no);
1280 printf("Receive IDLE: \t\t%s\n", stat16 & STAT16_RIDL ? yes : no);
1281 printf("Transmit BLUE: \t\t%s\n", ctl8 & CTL8_TBLU ? yes : no);
1282 printf("Receive BLUE: \t\t%s\n", stat9 & STAT9_RBLU ? yes : no);
1283 printf("Loss of Signal:\t\t%s\n", stat16 & STAT16_RLOS ? yes : no);
1284 printf("Loss of Frame: \t\t%s\n", stat16 & STAT16_ROOF ? yes : no);
1285 printf("Sev Err Frms: \t\t%s\n", stat16 & STAT16_SEF ? yes : no);
1286 printf("Code errors: \t\t%d\n", read_framer(T3CSR_CVLO) + (read_framer(T3CSR_CVHI)<<8));
1287 printf("C-Par errors: \t\t%d\n", read_framer(T3CSR_CERR));
1288 printf("P-Par errors: \t\t%d\n", read_framer(T3CSR_PERR));
1289 printf("F-Bit errors: \t\t%d\n", read_framer(T3CSR_FERR));
1290 printf("M-Bit errors: \t\t%d\n", read_framer(T3CSR_MERR));
1291 printf("FarEndBitErrs: \t\t%d\n", read_framer(T3CSR_FEBE));
1292 printf("Last Tx FEAC msg:\t0x%02X (%s)\n",
1293 read_framer(T3CSR_TX_FEAC) & 0x3F,
1294 print_t3_bop(read_framer(T3CSR_TX_FEAC) & 0x3F));
1295 printf("Last dbl FEAC msg;\t0x%02X (%s)\n",
1296 read_framer(T3CSR_DBL_FEAC) & 0x3F,
1297 print_t3_bop(read_framer(T3CSR_DBL_FEAC) & 0x3F));
1298 printf("Last Rx FEAC msg:\t0x%02X (%s)\n",
1299 read_framer(T3CSR_RX_FEAC) & 0x3F,
1300 print_t3_bop(read_framer(T3CSR_RX_FEAC) & 0x3F));
1305 t3_cmd(int argc, char **argv)
1309 while ((ch = getopt(argc, argv, "a:A:B:c:de:fF:lLsS:vV:")) != -1)
1313 case 'a': /* stop alarms */
1317 case 'a': /* Stop sending AIS Signal */
1320 read_mii(16) & ~MII16_DS3_FRAME);
1321 write_framer(T3CSR_CTL1,
1322 read_framer(T3CSR_CTL1) & ~CTL1_TXAIS);
1323 if (verbose) printf("Stop sending Alarm Indication Signal (AIS)\n");
1326 case 'b': /* Stop sending Blue signal */
1329 read_mii(16) & ~MII16_DS3_FRAME);
1330 write_framer(T3CSR_CTL8,
1331 read_framer(T3CSR_CTL8) & ~CTL8_TBLU);
1332 if (verbose) printf("Stop sending Blue signal\n");
1335 case 'i': /* Stop sending IDLE signal */
1337 write_framer(T3CSR_CTL1,
1338 read_framer(T3CSR_CTL1) & ~CTL1_TXIDL);
1339 if (verbose) printf("Stop sending IDLE signal\n");
1342 case 'y': /* Stop sending Yellow alarm */
1344 write_framer(T3CSR_CTL1,
1345 read_framer(T3CSR_CTL1) | CTL1_XTX);
1346 if (verbose) printf("Stop sending Yellow alarm\n");
1350 printf("Unknown alarm: %c\n", optarg[0]);
1355 case 'A': /* start alarms */
1359 case 'a': /* Start sending AIS Signal */
1362 read_mii(16) | MII16_DS3_FRAME);
1363 write_framer(T3CSR_CTL1,
1364 read_framer(T3CSR_CTL1) | CTL1_TXAIS);
1365 if (verbose) printf("Sending AIS signal (framed 1010..)\n");
1368 case 'b': /* Start sending Blue signal */
1371 read_mii(16) | MII16_DS3_FRAME);
1372 write_framer(T3CSR_CTL8,
1373 read_framer(T3CSR_CTL8) | CTL8_TBLU);
1374 if (verbose) printf("Sending Blue signal (unframed all 1s)\n");
1377 case 'i': /* Start sending IDLE signal */
1379 write_framer(T3CSR_CTL1,
1380 read_framer(T3CSR_CTL1) | CTL1_TXIDL);
1381 if (verbose) printf("Sending IDLE signal (framed 1100..)\n");
1384 case 'y': /* Start sending Yellow alarm */
1386 write_framer(T3CSR_CTL1,
1387 read_framer(T3CSR_CTL1) & ~CTL1_XTX);
1388 if (verbose) printf("Sending Yellow alarm (X-bits=0)\n");
1392 printf("Unknown alarm: %c\n", optarg[0]);
1397 case 'B': /* send BOP msg */
1399 u_int8_t bop = strtoul(optarg, NULL, 0);
1400 write_framer(T3CSR_TX_FEAC, 0xC0 + bop);
1401 if (verbose) printf("Sent '0x%02X' BOP msg 10 times\n", bop);
1404 case 'c': /* set cable length */
1406 config.cable_len = strtoul(optarg, NULL, 0);
1407 if (verbose) print_cable_len();
1411 case 'd': /* DSU status */
1412 case 's': /* deprecated */
1417 case 'e': /* set framimg format */
1419 config.format = strtoul(optarg, NULL, 0);
1420 if (verbose) print_format();
1424 case 'f': /* read and print framer regs */
1427 printf("TXC03401 regs:\n");
1428 printf(" 0 1 2 3 4 5 6 7");
1429 for (i=0; i<21; i++)
1431 if (i%8 == 0) printf("\n%02X: ", i);
1432 printf("%02X ", read_framer(i));
1437 case 'F': /* write framer reg */
1439 u_int32_t addr = strtoul(optarg, NULL, 0);
1440 u_int32_t data = strtoul(argv[optind++], NULL, 0);
1441 write_framer(addr, data);
1444 data = read_framer(addr);
1445 printf("Write framer register: addr = 0x%02X data = 0x%02X\n", addr, data);
1449 case 'l': /* send DS3 line loopback deactivate BOP cmd */
1451 ioctl_snmp_send(TSEND_RESET);
1452 if (verbose) printf("Sent 'DS3 Line Loopback deactivate' BOP cmd\n");
1455 case 'L': /* send DS3 line loopback activate BOP cmd */
1457 ioctl_snmp_send(TSEND_LINE);
1458 if (verbose) printf("Sent 'DS3 Line Loopback activate' BOP cmd\n");
1461 case 'S': /* set scrambler */
1463 config.scrambler = strtoul(optarg, NULL, 0);
1464 if (verbose) print_scrambler();
1468 case 'v': /* set verbose mode */
1473 case 'V': /* set T3 freq control DAC */
1475 u_int32_t dac = strtoul(optarg, NULL, 0);
1477 if (verbose) printf("VCXO DAC value is %d\n", dac);
1482 printf("Unknown command char: %c\n", ch);
1490 print_test_pattern(int patt)
1492 printf("Test Pattern:\t\t");
1496 printf("unframed X^11+X^9+1\n");
1499 printf("unframed X^15+X^14+1\n");
1502 printf("unframed X^20+X^17+1\n");
1505 printf("unframed X^23+X^18+1\n");
1508 printf("unframed X^11+X^9+1 w/7ZS\n");
1511 printf("unframed X^15+X^14+1 w/7ZS\n");
1514 printf("unframed X^20+X^17+1 w/14ZS (QRSS)\n");
1517 printf("unframed X^23+X^18+1 w/14ZS\n");
1520 printf("framed X^11+X^9+1\n");
1523 printf("framed X^15+X^14+1\n");
1526 printf("framed X^20+X^17+1\n");
1529 printf("framed X^23+X^18+1\n");
1532 printf("framed X^11+X^9+1 w/7ZS\n");
1535 printf("framed X^15+X^14+1 w/7ZS\n");
1538 printf("framed X^20+X^17+1 w/14ZS (QRSS)\n");
1541 printf("framed X^23+X^18+1 w/14ZS\n");
1547 print_t1_bop(int bop_code)
1552 return "Yellow Alarm (far end LOF)";
1554 return "Line Loop up";
1556 return "Line Loop down";
1558 return "Payload Loop up";
1560 return "Payload Loop down";
1562 return "Network Loop up";
1564 return "Network Loop down";
1566 return "Unknown BOP code";
1571 print_far_report(int index)
1573 u_int16_t far = status.snmp.t1.prm[index];
1575 printf(" SEQ=%d ", (far & T1PRM_SEQ)>>8);
1576 if (far & T1PRM_G1) printf("CRC=1");
1577 else if (far & T1PRM_G2) printf("CRC=1 to 5");
1578 else if (far & T1PRM_G3) printf("CRC=5 to 10");
1579 else if (far & T1PRM_G4) printf("CRC=10 to 100");
1580 else if (far & T1PRM_G5) printf("CRC=100 to 319");
1581 else if (far & T1PRM_G6) printf("CRC>=320");
1582 else printf("CRC=0");
1583 printf(" SE=%d", (far & T1PRM_SE) ? 1 : 0);
1584 printf(" FE=%d", (far & T1PRM_FE) ? 1 : 0);
1585 printf(" LV=%d", (far & T1PRM_LV) ? 1 : 0);
1586 printf(" SL=%d", (far & T1PRM_SL) ? 1 : 0);
1587 printf(" LB=%d", (far & T1PRM_LB) ? 1 : 0);
1594 printf("SNMP Near-end performance data:\n");
1595 printf(" LCV=%d", status.snmp.t1.lcv);
1596 printf(" LOS=%d", (status.snmp.t1.line & TLINE_LOS) ? 1 : 0);
1597 printf(" FE=%d", status.snmp.t1.fe);
1598 printf(" CRC=%d", status.snmp.t1.crc);
1599 printf(" AIS=%d", (status.snmp.t1.line & TLINE_RX_AIS) ? 1 : 0);
1600 printf(" SEF=%d", (status.snmp.t1.line & T1LINE_SEF) ? 1 : 0);
1601 printf(" OOF=%d", (status.snmp.t1.line & TLINE_LOF) ? 1 : 0);
1602 printf(" RAI=%d",(status.snmp.t1.line & TLINE_RX_RAI) ? 1 : 0);
1604 if (config.format == CFG_FORMAT_T1ESF)
1606 printf("ANSI Far-end performance reports:\n");
1607 print_far_report(0);
1608 print_far_report(1);
1609 print_far_report(2);
1610 print_far_report(3);
1617 char *no = "No", *yes = "Yes";
1618 u_int16_t mii16 = read_mii(16);
1619 u_int8_t isr0 = read_framer(Bt8370_ISR0);
1620 u_int8_t loop = read_framer(Bt8370_LOOP);
1621 u_int8_t vga_max = read_framer(Bt8370_VGA_MAX) & 0x3F;
1622 u_int8_t alm1 = read_framer(Bt8370_ALM1);
1623 u_int8_t alm3 = read_framer(Bt8370_ALM3);
1624 u_int8_t talm = read_framer(Bt8370_TALM);
1625 u_int8_t tpatt = read_framer(Bt8370_TPATT);
1626 u_int8_t tpulse = read_framer(Bt8370_TLIU_CR);
1628 u_int8_t saved_pulse, saved_lbo;
1630 /* d/c write required before read */
1631 write_framer(Bt8370_VGA, 0);
1632 vga = read_framer(Bt8370_VGA) & 0x3F;
1639 saved_pulse = config.tx_pulse;
1640 config.tx_pulse = tpulse & 0x0E;
1641 saved_lbo = config.tx_lbo;
1642 config.tx_lbo = tpulse & 0x30;
1644 config.tx_pulse = saved_pulse;
1645 config.tx_lbo = saved_lbo;
1647 printf("Tx outputs: \t\t%sabled\n", (mii16 & MII16_T1_XOE) ? "En" : "Dis");
1648 printf("Line impedance:\t\t%s ohms\n", (mii16 & MII16_T1_Z) ? "120" : "100");
1649 printf("Max line loss: \t\t%4.1f dB\n", vga_dbs(vga_max));
1650 printf("Cur line loss: \t\t%4.1f dB\n", vga_dbs(vga));
1651 printf("Invert data: \t\t%s\n", (mii16 & MII16_T1_INVERT) ? yes : no);
1652 printf("Line loop: \t\t%s\n", (loop & LOOP_LINE) ? yes : no);
1653 printf("Payload loop: \t\t%s\n", (loop & LOOP_PAYLOAD) ? yes : no);
1654 printf("Framer loop: \t\t%s\n", (loop & LOOP_FRAMER) ? yes : no);
1655 printf("Analog loop: \t\t%s\n", (loop & LOOP_ANALOG) ? yes : no);
1656 printf("Tx AIS: \t\t%s\n", ((talm & TALM_TAIS) ||
1657 ((talm & TALM_AUTO_AIS) && (alm1 & ALM1_RLOS))) ? yes : no);
1658 printf("Rx AIS: \t\t%s\n", (alm1 & ALM1_RAIS) ? yes : no);
1659 if (((config.format & 1)==0) && (config.format != CFG_FORMAT_E1NONE))
1661 printf("Tx RAI: \t\t%s\n", ((talm & TALM_TYEL) ||
1662 ((talm & TALM_AUTO_YEL) && (alm3 & ALM3_FRED))) ? yes : no);
1663 printf("Rx RAI: \t\t%s\n", (alm1 & ALM1_RYEL) ? yes : no);
1665 if (config.format == CFG_FORMAT_T1ESF)
1667 printf("Tx BOP RAI: \t\t%s\n", (alm1 & ALM1_RLOF) ? yes : no);
1668 printf("Rx BOP RAI: \t\t%s\n", (alm1 & ALM1_RMYEL) ? yes : no);
1670 if ((config.format & 0x11) == 0x10) /* E1CAS */
1672 printf("Rx TS16 AIS: \t\t%s\n", (alm3 & ALM3_RMAIS) ? yes : no);
1673 printf("Tx TS16 RAI; \t\t%s\n",
1674 ((talm & TALM_AUTO_MYEL) && (alm3 & ALM3_SRED)) ? yes : no);
1676 printf("Rx LOS analog: \t\t%s\n", (alm1 & ALM1_RALOS) ? yes : no);
1677 printf("Rx LOS digital:\t\t%s\n", (alm1 & ALM1_RLOS) ? yes : no);
1678 printf("Rx LOF: \t\t%s\n", (alm1 & ALM1_RLOF) ? yes : no);
1679 printf("Tx QRS: \t\t%s\n", (tpatt & 0x10) ? yes : no);
1680 printf("Rx QRS: \t\t%s\n", (isr0 & 0x10) ? yes : no);
1681 printf("LCV errors: \t\t%d\n",
1682 read_framer(Bt8370_LCV_LO) + (read_framer(Bt8370_LCV_HI)<<8));
1683 if (config.format != CFG_FORMAT_E1NONE)
1685 if ((config.format & 1)==0) printf("Far End Block Errors:\t%d\n",
1686 read_framer(Bt8370_FEBE_LO) + (read_framer(Bt8370_FEBE_HI)<<8));
1687 printf("CRC errors: \t\t%d\n",
1688 read_framer(Bt8370_CRC_LO) + (read_framer(Bt8370_CRC_HI)<<8));
1689 printf("Frame errors: \t\t%d\n",
1690 read_framer(Bt8370_FERR_LO) + (read_framer(Bt8370_FERR_HI)<<8));
1691 printf("Sev Err Frms: \t\t%d\n", read_framer(Bt8370_AERR) & 0x03);
1692 printf("Change of Frm align:\t%d\n", (read_framer(Bt8370_AERR) & 0x0C)>>2);
1693 printf("Loss of Frame events:\t%d\n", (read_framer(Bt8370_AERR) & 0xF0)>>4);
1695 if (config.format == CFG_FORMAT_T1ESF)
1697 printf("Last Tx BOP msg:\t0x%02X (%s)\n",
1698 read_framer(Bt8370_TBOP), print_t1_bop(read_framer(Bt8370_TBOP)));
1699 printf("Last Rx BOP msg:\t0x%02X (%s)\n",
1700 read_framer(Bt8370_RBOP), print_t1_bop(read_framer(Bt8370_RBOP)&0x3F));
1706 t1_cmd(int argc, char **argv)
1710 while ((ch = getopt(argc, argv, "a:A:B:c:de:E:fF:g:iIlLpPstT:u:U:vxX")) != -1)
1714 case 'a': /* stop alarms */
1718 case 'y': /* Stop sending Yellow Alarm */
1720 if ((config.format == CFG_FORMAT_T1SF) ||
1721 (config.format == CFG_FORMAT_E1NONE))
1722 printf("No Yellow alarm for this frame format\n");
1723 else if (config.format == CFG_FORMAT_T1ESF)
1724 write_framer(Bt8370_BOP, 0xE0); /* rbop 25, tbop off */
1727 u_int8_t talm = read_framer(Bt8370_TALM);
1728 write_framer(Bt8370_TALM, talm & ~TALM_TYEL);
1730 if (verbose) printf("Stop sending Yellow alarm\n");
1733 case 'a': /* Stop sending AIS */
1734 case 'b': /* Stop sending Blue Alarm */
1736 u_int8_t talm = read_framer(Bt8370_TALM);
1737 write_framer(Bt8370_TALM, talm & ~TALM_TAIS);
1738 if (verbose) printf("Stop sending AIS/Blue signal\n");
1742 printf("Unknown alarm: %c\n", optarg[0]);
1746 case 'A': /* start alarms */
1750 case 'y': /* Start sending Yellow Alarm */
1752 if ((config.format == CFG_FORMAT_T1SF) ||
1753 (config.format == CFG_FORMAT_E1NONE))
1754 printf("No Yellow alarm for this frame format\n");
1755 else if (config.format == CFG_FORMAT_T1ESF)
1757 write_framer(Bt8370_BOP, 0x0F); /* rbop off, tbop cont */
1758 write_framer(Bt8370_TBOP, T1BOP_OOF);
1762 u_int8_t talm = read_framer(Bt8370_TALM);
1763 write_framer(Bt8370_TALM, talm | TALM_TYEL);
1765 if (verbose) printf("Sending Yellow alarm\n");
1768 case 'a': /* Start sending AIS */
1769 case 'b': /* Start sending Blue Alarm */
1771 u_int8_t talm = read_framer(Bt8370_TALM);
1772 write_framer(Bt8370_TALM, talm | TALM_TAIS);
1773 if (verbose) printf("Sending AIS/Blue signal\n");
1777 printf("Unknown alarm: %c\n", optarg[0]);
1781 case 'B': /* send BOP msg */
1783 u_int8_t bop = strtoul(optarg, NULL, 0);
1784 if (config.format == CFG_FORMAT_T1ESF)
1786 write_framer(Bt8370_BOP, 0x0B); /* rbop off, tbop 25 */
1787 write_framer(Bt8370_TBOP, bop); /* start sending BOP msg */
1788 sleep(1); /* sending 25 BOP msgs takes about 100 ms. */
1789 write_framer(Bt8370_BOP, 0xE0); /* rbop 25, tbop off */
1790 if (verbose) printf("Sent '0x%02X' BOP msg 25 times\n", bop);
1793 printf("BOP msgs only work in T1-ESF format\n");
1796 case 'c': /* set cable length */
1798 config.cable_len = strtoul(optarg, NULL, 0);
1799 if (verbose) print_cable_len();
1803 case 'd': /* DSU status */
1804 case 's': /* deprecated */
1809 case 'e': /* set framimg format */
1811 config.format = strtoul(optarg, NULL, 0);
1812 if (verbose) print_format();
1816 case 'E': /* set time slots */
1818 config.time_slots = strtoul(optarg, NULL, 16);
1819 if (verbose) print_time_slots();
1823 case 'f': /* read and print framer regs */
1826 printf("Bt8370 regs:\n");
1827 printf(" 0 1 2 3 4 5 6 7 8 9 A B C D E F");
1828 for (i=0; i<512; i++)
1830 if (i%16 == 0) printf("\n%03X: ", i);
1831 printf("%02X ", read_framer(i));
1836 case 'F': /* write framer reg */
1838 u_int32_t addr = strtoul(optarg, NULL, 0);
1839 u_int32_t data = strtoul(argv[optind++], NULL, 0);
1840 write_framer(addr, data);
1843 data = read_framer(addr);
1844 printf("Write framer register: addr = 0x%02X data = 0x%02X\n", addr, data);
1848 case 'g': /* set receiver gain */
1850 config.rx_gain = strtoul(optarg, NULL, 0);
1851 if (verbose) print_rx_gain();
1855 case 'i': /* send CSU loopback deactivate inband cmd */
1857 if (config.format == CFG_FORMAT_T1SF)
1859 if (verbose) printf("Sending 'CSU loop down' inband cmd for 10 secs...");
1860 ioctl_snmp_send(TSEND_RESET);
1862 ioctl_snmp_send(TSEND_NORMAL);
1863 if (verbose) printf("done\n");
1866 printf("Inband loopback cmds only work in T1-SF format");
1869 case 'I': /* send CSU loopback activate inband cmd */
1871 if (config.format == CFG_FORMAT_T1SF)
1873 if (verbose) printf("Sending 'CSU loop up' inband cmd for 10 secs...");
1874 ioctl_snmp_send(TSEND_LINE);
1876 ioctl_snmp_send(TSEND_NORMAL);
1877 if (verbose) printf("done\n");
1880 printf("Inband loopback cmds only work in T1-SF format");
1883 case 'l': /* send line loopback deactivate BOP msg */
1885 if (config.format == CFG_FORMAT_T1ESF)
1887 ioctl_snmp_send(TSEND_RESET);
1888 if (verbose) printf("Sent 'Line Loop Down' BOP cmd\n");
1891 printf("BOP msgs only work in T1-ESF format\n");
1894 case 'L': /* send line loopback activate BOP msg */
1896 if (config.format == CFG_FORMAT_T1ESF)
1898 ioctl_snmp_send(TSEND_LINE);
1899 if (verbose) printf("Sent 'Line Loop Up' BOP cmd\n");
1902 printf("BOP msgs only work in T1-ESF format\n");
1905 case 'p': /* send payload loopback deactivate BOP msg */
1907 if (config.format == CFG_FORMAT_T1ESF)
1909 ioctl_snmp_send(TSEND_RESET);
1910 if (verbose) printf("Sent 'Payload Loop Down' BOP cmd\n");
1913 printf("BOP msgs only work in T1-ESF format\n");
1916 case 'P': /* send payload loopback activate BOP msg */
1918 if (config.format == CFG_FORMAT_T1ESF)
1920 ioctl_snmp_send(TSEND_PAYLOAD);
1921 if (verbose) printf("Sent 'Payload Loop Up' BOP cmd\n");
1924 printf("BOP msgs only work in T1-ESF format\n");
1927 case 't': /* stop sending test pattern */
1929 ioctl_snmp_send(TSEND_NORMAL);
1930 if (verbose) printf("Stop sending test pattern\n");
1933 case 'T': /* start sending test pattern */
1935 u_int8_t patt = strtoul(optarg, NULL, 0);
1936 write_framer(Bt8370_TPATT, 0x10 + patt);
1937 write_framer(Bt8370_RPATT, 0x30 + patt);
1938 if (verbose) print_test_pattern(patt);
1941 case 'u': /* set transmit pulse shape */
1943 config.tx_pulse = strtoul(optarg, NULL, 0);
1944 if (verbose) print_tx_pulse();
1948 case 'U': /* set tx line build-out */
1950 if (config.tx_pulse == CFG_PULSE_T1CSU)
1952 config.tx_lbo = strtoul(optarg, NULL, 0);
1953 if (verbose) print_tx_pulse();
1957 printf("LBO only meaningful if Tx Pulse is T1CSU\n");
1960 case 'v': /* set verbose mode */
1965 case 'x': /* disable transmitter outputs */
1967 write_mii(16, read_mii(16) & ~MII16_T1_XOE);
1968 if (verbose) printf("Transmitter outputs disabled\n");
1971 case 'X': /* enable transmitter outputs */
1973 write_mii(16, read_mii(16) | MII16_T1_XOE);
1974 if (verbose) printf("Transmitter outputs enabled\n");
1979 printf("Unknown command char: %c\n", ch);
1986 /* used when reading Motorola S-Record format ROM files */
1987 static unsigned char
1990 unsigned char a, b, c;
1991 for (a=0, b=0; a<2; a++)
1996 b = (b<<4) | (c & 0xF);
2003 load_xilinx(char *name)
2010 if (verbose) printf("Load firmware from file %s...\n", name);
2011 if ((f = fopen(name, "r")) == 0)
2013 perror("Failed to open file");
2017 ucode = (char *)malloc(8192); bzero(ucode, 8192);
2021 { /* Xilinx raw bits file (foo.rbt) */
2022 /* skip seven lines of boiler plate */
2023 for (i=0; i<7;) if ((c=fgetc(f))=='\n') i++;
2024 /* build a dense bit array */
2026 while ((c=fgetc(f))!=EOF)
2028 if (c=='1') ucode[length] |= 1<<i++;
2030 if (i==8) { i=0; length++; }
2034 { /* Motarola S records (foo.exo) */
2038 while ((c = fgetc(f)) != EOF)
2042 printf("I'm confused; I expected an 'S'\n");
2046 if (c == '9') break;
2050 blklen = read_hex(f) -3;
2051 read_hex(f); /* hi blkaddr */
2052 read_hex(f); /* lo blkaddr */
2053 for (i=0; i<blklen; i++)
2054 ucode[length++] = read_hex(f);
2055 read_hex(f); /* process but ignore checksum */
2056 if (checksum != 0xFF)
2058 printf("File checksum error\n");
2061 c = fgetc(f); /* throw away eol */
2062 c = fgetc(f); /* throw away eol */
2066 printf("I'm confused; I expected a '1' or a '9'\n");
2070 } /* Motorola S-Record */
2073 printf("Unknown file type giving up\n");
2077 load_xilinx_from_file(ucode, length);
2080 /* 32-bit CRC calculated right-to-left over 8-bit bytes */
2082 crc32(char *bufp, int len)
2086 u_int32_t crc = 0xFFFFFFFFL;
2087 u_int32_t poly = 0xEDB88320L;
2089 for (i = 0; i < len; i++)
2090 for (data = *bufp++, bit = 0; bit < 8; bit++, data >>= 1)
2091 crc = (crc >> 1) ^ (((crc ^ data) & 1) ? poly : 0);
2096 /* 8-bit CRC calculated left-to-right over 16-bit words */
2098 crc8(u_int16_t *bufp, int len)
2102 u_int8_t crc = 0xFF;
2103 u_int8_t poly = 0x07;
2105 for (i = 0; i < len; i++)
2106 for (data = *bufp++, bit = 15; bit >= 0; bit--)
2108 if ((i==8) && (bit==7)) break;
2109 crc = (crc << 1) ^ ((((crc >> 7) ^ (data >> bit)) & 1) ? poly : 0);
2114 /* HSSI=3, DS3=4, SSI=5, T1E1=6, HSSIc=7, SDSL=8 */
2116 init_srom(int board)
2121 /* zero the entire rom */
2122 for (i=0; i<64; i++) srom[i] = 0;
2124 srom[0] = 0x1376; /* subsys vendor id */
2125 srom[1] = board ? board : (read_mii(3)>>4 & 0xF) +1;
2126 srom[8] = crc8(srom, 9);
2127 /* Tulip hardware checks this checksum */
2128 srom[10] = 0x6000; /* ethernet address */
2129 srom[11] = 0x0099; /* ethernet address */
2130 srom[12] = 0x0000; /* ethernet address */
2131 /* srom checksum is low 16 bits of Ethernet CRC-32 */
2132 srom[63] = crc32((char *)srom, 126) ^ 0xFFFFFFFFL;
2134 /* write the SROM */
2135 #if 1 /* really write it */
2136 for (i=0; i<64; i++) write_srom(i, srom[i]);
2137 #else /* print what would be written */
2138 printf(" 0 1 2 3 4 5 6 7 8 9 A B C D E F");
2139 for (i=0; i<64; i++)
2141 if (i%8 == 0) printf("\n%02X: ", i<<1);
2142 printf("%02X %02X ", srom[i] & 0xFF, srom[i]>>8);
2149 main(int argc, char **argv)
2152 char *optstring = "13a:bBcCdDeEf:Fhi:L:mM:pP:sS:tT:uUvVwW:xXyYzZ?";
2154 progname = (char *)argv[0];
2156 /* Here is the overall plan:
2157 * 1) Read the interface name from the command line.
2158 * 2) Open the device; decide if netgraph is being used.
2159 * 3) Read the current interface configuration from the driver.
2160 * 4) Read the command line args and carry out their actions.
2161 * 5) Write the modified interface configuration to the driver.
2164 /* 1) Read the interface name from the command line. */
2166 ifname = (argc==1) ? "hdlc0" : (char *) argv[1];
2168 ifname = (argc==1) ? DEVICE_NAME"0" : (char *) argv[1];
2171 /* 2) Open the device; decide if netgraph is being used, */
2172 /* use netgraph if ifname ends with ":" */
2173 for (i=0; i<16; i++) if (ifname[i] == 0) break;
2175 /* Get a socket type file descriptor. */
2176 #if defined(NETGRAPH)
2177 if ((netgraph = (ifname[i-1] == ':')))
2178 error = NgMkSockNode(NULL, &fdcs, NULL);
2181 error = fdcs = socket(AF_INET, SOCK_DGRAM, 0);
2184 fprintf(stderr, "%s: %s() failed: %s\n", progname,
2185 netgraph? "NgMkSockNode" : "socket", strerror(errno));
2189 /* 3) Read the current interface configuration from the driver. */
2190 ioctl_read_config();
2191 ioctl_read_status();
2193 summary = (argc <= 2); /* print summary at end */
2194 update = 0; /* write to card at end */
2196 /* 4) Read the command line args and carry out their actions. */
2198 while (((ch = getopt(argc, argv, optstring)) != -1) && (argc > 2))
2202 case '1': /* T1 commands */
2204 if (verbose) printf("Doing T1 settings\n");
2205 if (status.card_type != TLP_CSID_T1E1)
2207 printf("T1 settings only apply to T1E1 cards\n");
2213 case '3': /* T3 commands */
2215 if (verbose) printf("Doing T3 settings\n");
2216 if (status.card_type != TLP_CSID_T3)
2218 printf("T3 settings only apply to T3 cards\n");
2224 case 'a': /* clock source */
2226 if ((status.card_type != TLP_CSID_T1E1) ||
2227 (status.card_type != TLP_CSID_HSSI) ||
2228 (status.card_type != TLP_CSID_HSSIc))
2230 if (verbose) print_tx_clk_src();
2231 config.tx_clk_src = strtoul(optarg, NULL, 0);
2235 printf("txclksrc only applies to T1E1 and HSSI card types\n");
2238 case 'b': /* read bios rom */
2241 printf("Bios ROM:\n");
2242 printf(" 0 1 2 3 4 5 6 7 8 9 A B C D E F");
2243 for (i=0; i<256; i++)
2245 if (i%16 == 0) printf("\n%02X: ", i);
2246 printf("%02X ", read_bios_rom(i));
2251 case 'B': /* write bios rom */
2254 for (i=0; i<256; i++) write_bios_rom(i, 255-i);
2255 if (verbose) printf("wrote (0..255) to bios rom addrs (0..255)\n");
2258 case 'c': /* set crc_len = 16 */
2260 config.crc_len = CFG_CRC_16;
2261 if (verbose) print_crc_len();
2265 case 'C': /* set crc_len = 32 */
2267 config.crc_len = CFG_CRC_32;
2268 if (verbose) print_crc_len();
2272 case 'd': /* clear DEBUG flag */
2275 if (verbose) printf("DEBUG flag cleared\n");
2279 case 'D': /* set DEBUG flag */
2282 if (verbose) printf("DEBUG flag set\n");
2286 case 'e': /* set DTE (default) */
2288 if ((status.card_type == TLP_CSID_SSI) ||
2289 (status.card_type == TLP_CSID_HSSIc))
2291 config.dte_dce = CFG_DTE;
2292 if (verbose) print_dte_dce();
2296 printf("DTE cmd only applies to SSI & HSSIc cards\n");
2299 case 'E': /* set DCE */
2301 if ((status.card_type == TLP_CSID_SSI) ||
2302 (status.card_type == TLP_CSID_HSSIc))
2304 config.dte_dce = CFG_DCE;
2305 if (verbose) print_dte_dce();
2309 printf("DCE cmd only applies to SSI & HSSIc cards\n");
2312 case 'f': /* set synth osc freq */
2314 if ((status.card_type == TLP_CSID_SSI) ||
2315 (status.card_type == TLP_CSID_HSSIc))
2317 synth_freq(strtoul(optarg, NULL, 0));
2318 write_synth(config.synth);
2319 if (verbose) print_synth_freq();
2322 printf("synth osc freq only applies to SSI & HSSIc cards\n");
2325 case 'F': /* set SPPP line protocol to Frame-Relay */
2327 config.line_prot = PROT_FRM_RLY;
2328 config.keep_alive = 1; /* required for LMI operation */
2329 if (verbose) printf("SPPP line protocol set to Frame-Relay\n");
2333 case 'h': /* help */
2339 case 'i': /* interface name */
2341 /* already scanned this */
2344 case 'L': /* set loopback modes */
2346 config.loop_back = strtoul(optarg, NULL, 0);
2347 if (verbose) print_loop_back();
2351 case 'm': /* read and print MII regs */
2353 printf("MII regs:\n");
2354 printf(" 0 1 2 3 4 5 6 7");
2355 for (i=0; i<32; i++)
2357 u_int16_t mii = read_mii(i);
2358 if (i%8 == 0) printf("\n%02X: ", i);
2359 printf("%04X ", mii);
2364 case 'M': /* write MII reg */
2366 u_int32_t addr = strtoul(optarg, NULL, 0);
2367 u_int32_t data = strtoul(argv[optind++], NULL, 0);
2368 write_mii(addr, data);
2371 data = read_mii(addr);
2372 printf("Write mii register: addr = 0x%02X data = 0x%04X\n", addr, data);
2376 case 'p': /* read and print PCI config regs */
2379 printf("21140A PCI Config regs:\n");
2381 for (i=0; i<16; i++)
2383 if (i%4 == 0) printf("\n%X: ", i);
2384 printf("%08X ", read_pci_config(i<<2));
2389 case 'P': /* write PCI config reg */
2391 u_int32_t addr = strtoul(optarg, NULL, 0);
2392 u_int32_t data = strtoul(argv[optind++], NULL, 0);
2393 write_pci_config(addr, data);
2396 data = read_pci_config(addr);
2397 printf("Write PCI config reg: addr = 0x%02X data = 0x%08X\n", addr, data);
2401 case 's': /* read and print Tulip SROM */
2404 printf("21140A SROM:\n");
2405 printf(" 0 1 2 3 4 5 6 7 8 9 A B C D E F");
2406 for (i=0; i<64; i++)
2408 u_int16_t srom = read_srom(i);
2409 if (i%8 == 0) printf("\n%02X: ", i<<1);
2410 printf("%02X %02X ", srom & 0xFF, srom>>8);
2415 case 'S': /* write Tulip SROM loc */
2417 #if 0 /* write a single location -- not too useful */
2418 u_int32_t addr = strtoul(optarg, NULL, 0);
2419 u_int32_t data = strtoul(argv[optind++], NULL, 0);
2420 write_mii(addr, data);
2421 data = read_mii(addr);
2422 printf("Write SROM: addr = 0x%02X data = 0x%04X\n", addr, data);
2424 #if 0 /* write the whole SROM -- very dangerous */
2425 init_srom(strtoul(optarg, NULL, 0));
2427 printf("Caution! Recompile %s to enable this.\n", progname);
2430 case 't': /* read and print Tulip CSRs */
2433 printf("21140A CSRs:\n");
2435 for (i=0; i<16; i++)
2437 if (i%4 == 0) printf("\n%X: ", i);
2438 printf("%08X ", read_csr(i));
2443 case 'T': /* write Tulip CSR */
2445 u_int32_t addr = strtoul(optarg, NULL, 0);
2446 u_int32_t data = strtoul(argv[optind++], NULL, 0);
2447 write_csr(addr, data);
2450 data = read_csr(addr);
2451 printf("Write 21140A CSR: addr = 0x%02X data = 0x%08X\n", addr, data);
2455 case 'u': /* reset event counters */
2457 ioctl_reset_cntrs();
2458 if (verbose) printf("Event counters reset\n");
2461 case 'U': /* reset gate array */
2464 if (verbose) printf("gate array reset\n");
2467 case 'v': /* set verbose mode */
2472 case 'V': /* print card configuration */
2477 case 'w': /* load gate array microcode from ROM */
2479 load_xilinx_from_rom();
2480 if (verbose) printf("gate array configured from on-board ROM\n");
2483 case 'W': /* load gate array microcode from file */
2485 load_xilinx(optarg);
2486 if (verbose) printf("gate array configured from file %s\n", optarg);
2489 case 'x': /* select RAWIP protocol */
2491 config.line_pkg = PKG_RAWIP;
2492 if (verbose) printf("RAWIP mode selected\n");
2496 case 'X': /* Select in-kernel line protocol packages */
2498 config.line_pkg = 0;
2499 if (verbose) printf("line protocol mode selected\n");
2503 case 'y': /* disable SPPP keep-alive packets */
2505 if ((config.line_pkg == PKG_SPPP) &&
2506 (config.line_prot == PROT_FRM_RLY))
2507 printf("keep-alives must be ON for Frame-Relay/SPPP\n");
2510 config.keep_alive = 0;
2511 if (verbose) printf("SPPP keep-alive packets disabled\n");
2516 case 'Y': /* enable SPPP keep-alive packets */
2518 config.keep_alive = 1;
2519 if (verbose) printf("SPPP keep-alive packets enabled\n");
2523 case 'z': /* set SPPP line protocol to Cisco HDLC */
2525 config.line_prot = PROT_C_HDLC;
2526 config.keep_alive = 1;
2527 if (verbose) printf("SPPP line protocol set to Cisco-HDLC\n");
2531 case 'Z': /* set SPPP line protocol to PPP */
2533 config.line_prot = PROT_PPP;
2534 config.keep_alive = 0;
2535 if (verbose) printf("SPPP line protocol set to PPP\n");
2541 printf("Unknown command char: %c\n", ch);
2547 if (summary) print_summary();
2549 /* 5) Write the modified interface configuration to the driver. */
2550 if (update) ioctl_write_config();