xref: /freebsd/sys/dev/puc/pucdata.c (revision 3416500aef140042c64bc149cb1ec6620483bc44)
1 /*-
2  * Copyright (c) 2006 Marcel Moolenaar
3  * All rights reserved.
4  *
5  * Redistribution and use in source and binary forms, with or without
6  * modification, are permitted provided that the following conditions
7  * are met:
8  *
9  * 1. Redistributions of source code must retain the above copyright
10  *    notice, this list of conditions and the following disclaimer.
11  * 2. Redistributions in binary form must reproduce the above copyright
12  *    notice, this list of conditions and the following disclaimer in the
13  *    documentation and/or other materials provided with the distribution.
14  *
15  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
16  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
17  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
18  * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
19  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
20  * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
21  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
22  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
23  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
24  * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
25  */
26 
27 #include <sys/cdefs.h>
28 __FBSDID("$FreeBSD$");
29 
30 /*
31  * PCI "universal" communications card driver configuration data (used to
32  * match/attach the cards).
33  */
34 
35 #include <sys/param.h>
36 #include <sys/systm.h>
37 #include <sys/kernel.h>
38 #include <sys/bus.h>
39 #include <sys/sysctl.h>
40 
41 #include <machine/resource.h>
42 #include <machine/bus.h>
43 #include <sys/rman.h>
44 
45 #include <dev/ic/ns16550.h>
46 
47 #include <dev/pci/pcireg.h>
48 #include <dev/pci/pcivar.h>
49 
50 #include <dev/puc/puc_bus.h>
51 #include <dev/puc/puc_cfg.h>
52 #include <dev/puc/puc_bfe.h>
53 
54 static puc_config_f puc_config_advantech;
55 static puc_config_f puc_config_amc;
56 static puc_config_f puc_config_diva;
57 static puc_config_f puc_config_exar;
58 static puc_config_f puc_config_exar_pcie;
59 static puc_config_f puc_config_icbook;
60 static puc_config_f puc_config_moxa;
61 static puc_config_f puc_config_oxford_pci954;
62 static puc_config_f puc_config_oxford_pcie;
63 static puc_config_f puc_config_quatech;
64 static puc_config_f puc_config_syba;
65 static puc_config_f puc_config_siig;
66 static puc_config_f puc_config_sunix;
67 static puc_config_f puc_config_timedia;
68 static puc_config_f puc_config_titan;
69 
70 const struct puc_cfg puc_pci_devices[] = {
71 	{   0x0009, 0x7168, 0xffff, 0,
72 	    "Sunix SUN1889",
73 	    DEFAULT_RCLK * 8,
74 	    PUC_PORT_2S, 0x10, 0, 8,
75 	},
76 
77 	{   0x103c, 0x1048, 0x103c, 0x1049,
78 	    "HP Diva Serial [GSP] Multiport UART - Tosca Console",
79 	    DEFAULT_RCLK,
80 	    PUC_PORT_3S, 0x10, 0, -1,
81 	    .config_function = puc_config_diva
82 	},
83 
84 	{   0x103c, 0x1048, 0x103c, 0x104a,
85 	    "HP Diva Serial [GSP] Multiport UART - Tosca Secondary",
86 	    DEFAULT_RCLK,
87 	    PUC_PORT_2S, 0x10, 0, -1,
88 	    .config_function = puc_config_diva
89 	},
90 
91 	{   0x103c, 0x1048, 0x103c, 0x104b,
92 	    "HP Diva Serial [GSP] Multiport UART - Maestro SP2",
93 	    DEFAULT_RCLK,
94 	    PUC_PORT_4S, 0x10, 0, -1,
95 	    .config_function = puc_config_diva
96 	},
97 
98 	{   0x103c, 0x1048, 0x103c, 0x1223,
99 	    "HP Diva Serial [GSP] Multiport UART - Superdome Console",
100 	    DEFAULT_RCLK,
101 	    PUC_PORT_3S, 0x10, 0, -1,
102 	    .config_function = puc_config_diva
103 	},
104 
105 	{   0x103c, 0x1048, 0x103c, 0x1226,
106 	    "HP Diva Serial [GSP] Multiport UART - Keystone SP2",
107 	    DEFAULT_RCLK,
108 	    PUC_PORT_3S, 0x10, 0, -1,
109 	    .config_function = puc_config_diva
110 	},
111 
112 	{   0x103c, 0x1048, 0x103c, 0x1282,
113 	    "HP Diva Serial [GSP] Multiport UART - Everest SP2",
114 	    DEFAULT_RCLK,
115 	    PUC_PORT_3S, 0x10, 0, -1,
116 	    .config_function = puc_config_diva
117 	},
118 
119 	{   0x10b5, 0x1076, 0x10b5, 0x1076,
120 	    "VScom PCI-800",
121 	    DEFAULT_RCLK * 8,
122 	    PUC_PORT_8S, 0x18, 0, 8,
123 	},
124 
125 	{   0x10b5, 0x1077, 0x10b5, 0x1077,
126 	    "VScom PCI-400",
127 	    DEFAULT_RCLK * 8,
128 	    PUC_PORT_4S, 0x18, 0, 8,
129 	},
130 
131 	{   0x10b5, 0x1103, 0x10b5, 0x1103,
132 	    "VScom PCI-200",
133 	    DEFAULT_RCLK * 8,
134 	    PUC_PORT_2S, 0x18, 4, 0,
135 	},
136 
137 	/*
138 	 * Boca Research Turbo Serial 658 (8 serial port) card.
139 	 * Appears to be the same as Chase Research PLC PCI-FAST8
140 	 * and Perle PCI-FAST8 Multi-Port serial cards.
141 	 */
142 	{   0x10b5, 0x9050, 0x12e0, 0x0021,
143 	    "Boca Research Turbo Serial 658",
144 	    DEFAULT_RCLK * 4,
145 	    PUC_PORT_8S, 0x18, 0, 8,
146 	},
147 
148 	{   0x10b5, 0x9050, 0x12e0, 0x0031,
149 	    "Boca Research Turbo Serial 654",
150 	    DEFAULT_RCLK * 4,
151 	    PUC_PORT_4S, 0x18, 0, 8,
152 	},
153 
154 	/*
155 	 * Dolphin Peripherals 4035 (dual serial port) card.  PLX 9050, with
156 	 * a seemingly-lame EEPROM setup that puts the Dolphin IDs
157 	 * into the subsystem fields, and claims that it's a
158 	 * network/misc (0x02/0x80) device.
159 	 */
160 	{   0x10b5, 0x9050, 0xd84d, 0x6808,
161 	    "Dolphin Peripherals 4035",
162 	    DEFAULT_RCLK,
163 	    PUC_PORT_2S, 0x18, 4, 0,
164 	},
165 
166 	/*
167 	 * Dolphin Peripherals 4014 (dual parallel port) card.  PLX 9050, with
168 	 * a seemingly-lame EEPROM setup that puts the Dolphin IDs
169 	 * into the subsystem fields, and claims that it's a
170 	 * network/misc (0x02/0x80) device.
171 	 */
172 	{   0x10b5, 0x9050, 0xd84d, 0x6810,
173 	    "Dolphin Peripherals 4014",
174 	    0,
175 	    PUC_PORT_2P, 0x20, 4, 0,
176 	},
177 
178 	{   0x10e8, 0x818e, 0xffff, 0,
179 	    "Applied Micro Circuits 8 Port UART",
180 	    DEFAULT_RCLK,
181 	    PUC_PORT_8S, 0x14, -1, -1,
182 	    .config_function = puc_config_amc
183 	},
184 
185 	/*
186 	 * The following members of the Digi International Neo series are
187 	 * based on Exar PCI chips, f. e. the 8 port variants on XR17V258IV.
188 	 * Accordingly, the PCIe versions of these cards incorporate a PLX
189 	 * PCIe-PCI-bridge.
190 	 */
191 
192 	{   0x114f, 0x00b0, 0xffff, 0,
193 	    "Digi Neo PCI 4 Port",
194 	    DEFAULT_RCLK * 8,
195 	    PUC_PORT_4S, 0x10, 0, -1,
196 	    .config_function = puc_config_exar
197 	},
198 
199 	{   0x114f, 0x00b1, 0xffff, 0,
200 	    "Digi Neo PCI 8 Port",
201 	    DEFAULT_RCLK * 8,
202 	    PUC_PORT_8S, 0x10, 0, -1,
203 	    .config_function = puc_config_exar
204 	},
205 
206 	{   0x114f, 0x00f0, 0xffff, 0,
207 	    "Digi Neo PCIe 8 Port",
208 	    DEFAULT_RCLK * 8,
209 	    PUC_PORT_8S, 0x10, 0, -1,
210 	    .config_function = puc_config_exar
211 	},
212 
213 	{   0x114f, 0x00f1, 0xffff, 0,
214 	    "Digi Neo PCIe 4 Port",
215 	    DEFAULT_RCLK * 8,
216 	    PUC_PORT_4S, 0x10, 0, -1,
217 	    .config_function = puc_config_exar
218 	},
219 
220 	{   0x114f, 0x00f2, 0xffff, 0,
221 	    "Digi Neo PCIe 4 Port RJ45",
222 	    DEFAULT_RCLK * 8,
223 	    PUC_PORT_4S, 0x10, 0, -1,
224 	    .config_function = puc_config_exar
225 	},
226 
227 	{   0x114f, 0x00f3, 0xffff, 0,
228 	    "Digi Neo PCIe 8 Port RJ45",
229 	    DEFAULT_RCLK * 8,
230 	    PUC_PORT_8S, 0x10, 0, -1,
231 	    .config_function = puc_config_exar
232 	},
233 
234 	{   0x11fe, 0x8010, 0xffff, 0,
235 	    "Comtrol RocketPort 550/8 RJ11 part A",
236 	    DEFAULT_RCLK * 4,
237 	    PUC_PORT_4S, 0x10, 0, 8,
238 	},
239 
240 	{   0x11fe, 0x8011, 0xffff, 0,
241 	    "Comtrol RocketPort 550/8 RJ11 part B",
242 	    DEFAULT_RCLK * 4,
243 	    PUC_PORT_4S, 0x10, 0, 8,
244 	},
245 
246 	{   0x11fe, 0x8012, 0xffff, 0,
247 	    "Comtrol RocketPort 550/8 Octa part A",
248 	    DEFAULT_RCLK * 4,
249 	    PUC_PORT_4S, 0x10, 0, 8,
250 	},
251 
252 	{   0x11fe, 0x8013, 0xffff, 0,
253 	    "Comtrol RocketPort 550/8 Octa part B",
254 	    DEFAULT_RCLK * 4,
255 	    PUC_PORT_4S, 0x10, 0, 8,
256 	},
257 
258 	{   0x11fe, 0x8014, 0xffff, 0,
259 	    "Comtrol RocketPort 550/4 RJ45",
260 	    DEFAULT_RCLK * 4,
261 	    PUC_PORT_4S, 0x10, 0, 8,
262 	},
263 
264 	{   0x11fe, 0x8015, 0xffff, 0,
265 	    "Comtrol RocketPort 550/Quad",
266 	    DEFAULT_RCLK * 4,
267 	    PUC_PORT_4S, 0x10, 0, 8,
268 	},
269 
270 	{   0x11fe, 0x8016, 0xffff, 0,
271 	    "Comtrol RocketPort 550/16 part A",
272 	    DEFAULT_RCLK * 4,
273 	    PUC_PORT_4S, 0x10, 0, 8,
274 	},
275 
276 	{   0x11fe, 0x8017, 0xffff, 0,
277 	    "Comtrol RocketPort 550/16 part B",
278 	    DEFAULT_RCLK * 4,
279 	    PUC_PORT_12S, 0x10, 0, 8,
280 	},
281 
282 	{   0x11fe, 0x8018, 0xffff, 0,
283 	    "Comtrol RocketPort 550/8 part A",
284 	    DEFAULT_RCLK * 4,
285 	    PUC_PORT_4S, 0x10, 0, 8,
286 	},
287 
288 	{   0x11fe, 0x8019, 0xffff, 0,
289 	    "Comtrol RocketPort 550/8 part B",
290 	    DEFAULT_RCLK * 4,
291 	    PUC_PORT_4S, 0x10, 0, 8,
292 	},
293 
294 	/*
295 	 * IBM SurePOS 300 Series (481033H) serial ports
296 	 * Details can be found on the IBM RSS websites
297 	 */
298 
299 	{   0x1014, 0x0297, 0xffff, 0,
300 	    "IBM SurePOS 300 Series (481033H) serial ports",
301 	    DEFAULT_RCLK,
302 	    PUC_PORT_4S, 0x10, 4, 0
303 	},
304 
305 	/*
306 	 * SIIG Boards.
307 	 *
308 	 * SIIG provides documentation for their boards at:
309 	 * <URL:http://www.siig.com/downloads.asp>
310 	 */
311 
312 	{   0x131f, 0x1010, 0xffff, 0,
313 	    "SIIG Cyber I/O PCI 16C550 (10x family)",
314 	    DEFAULT_RCLK,
315 	    PUC_PORT_1S1P, 0x18, 4, 0,
316 	},
317 
318 	{   0x131f, 0x1011, 0xffff, 0,
319 	    "SIIG Cyber I/O PCI 16C650 (10x family)",
320 	    DEFAULT_RCLK,
321 	    PUC_PORT_1S1P, 0x18, 4, 0,
322 	},
323 
324 	{   0x131f, 0x1012, 0xffff, 0,
325 	    "SIIG Cyber I/O PCI 16C850 (10x family)",
326 	    DEFAULT_RCLK,
327 	    PUC_PORT_1S1P, 0x18, 4, 0,
328 	},
329 
330 	{   0x131f, 0x1021, 0xffff, 0,
331 	    "SIIG Cyber Parallel Dual PCI (10x family)",
332 	    0,
333 	    PUC_PORT_2P, 0x18, 8, 0,
334 	},
335 
336 	{   0x131f, 0x1030, 0xffff, 0,
337 	    "SIIG Cyber Serial Dual PCI 16C550 (10x family)",
338 	    DEFAULT_RCLK,
339 	    PUC_PORT_2S, 0x18, 4, 0,
340 	},
341 
342 	{   0x131f, 0x1031, 0xffff, 0,
343 	    "SIIG Cyber Serial Dual PCI 16C650 (10x family)",
344 	    DEFAULT_RCLK,
345 	    PUC_PORT_2S, 0x18, 4, 0,
346 	},
347 
348 	{   0x131f, 0x1032, 0xffff, 0,
349 	    "SIIG Cyber Serial Dual PCI 16C850 (10x family)",
350 	    DEFAULT_RCLK,
351 	    PUC_PORT_2S, 0x18, 4, 0,
352 	},
353 
354 	{   0x131f, 0x1034, 0xffff, 0,	/* XXX really? */
355 	    "SIIG Cyber 2S1P PCI 16C550 (10x family)",
356 	    DEFAULT_RCLK,
357 	    PUC_PORT_2S1P, 0x18, 4, 0,
358 	},
359 
360 	{   0x131f, 0x1035, 0xffff, 0,	/* XXX really? */
361 	    "SIIG Cyber 2S1P PCI 16C650 (10x family)",
362 	    DEFAULT_RCLK,
363 	    PUC_PORT_2S1P, 0x18, 4, 0,
364 	},
365 
366 	{   0x131f, 0x1036, 0xffff, 0,	/* XXX really? */
367 	    "SIIG Cyber 2S1P PCI 16C850 (10x family)",
368 	    DEFAULT_RCLK,
369 	    PUC_PORT_2S1P, 0x18, 4, 0,
370 	},
371 
372 	{   0x131f, 0x1050, 0xffff, 0,
373 	    "SIIG Cyber 4S PCI 16C550 (10x family)",
374 	    DEFAULT_RCLK,
375 	    PUC_PORT_4S, 0x18, 4, 0,
376 	},
377 
378 	{   0x131f, 0x1051, 0xffff, 0,
379 	    "SIIG Cyber 4S PCI 16C650 (10x family)",
380 	    DEFAULT_RCLK,
381 	    PUC_PORT_4S, 0x18, 4, 0,
382 	},
383 
384 	{   0x131f, 0x1052, 0xffff, 0,
385 	    "SIIG Cyber 4S PCI 16C850 (10x family)",
386 	    DEFAULT_RCLK,
387 	    PUC_PORT_4S, 0x18, 4, 0,
388 	},
389 
390 	{   0x131f, 0x2010, 0xffff, 0,
391 	    "SIIG Cyber I/O PCI 16C550 (20x family)",
392 	    DEFAULT_RCLK,
393 	    PUC_PORT_1S1P, 0x10, 4, 0,
394 	},
395 
396 	{   0x131f, 0x2011, 0xffff, 0,
397 	    "SIIG Cyber I/O PCI 16C650 (20x family)",
398 	    DEFAULT_RCLK,
399 	    PUC_PORT_1S1P, 0x10, 4, 0,
400 	},
401 
402 	{   0x131f, 0x2012, 0xffff, 0,
403 	    "SIIG Cyber I/O PCI 16C850 (20x family)",
404 	    DEFAULT_RCLK,
405 	    PUC_PORT_1S1P, 0x10, 4, 0,
406 	},
407 
408 	{   0x131f, 0x2021, 0xffff, 0,
409 	    "SIIG Cyber Parallel Dual PCI (20x family)",
410 	    0,
411 	    PUC_PORT_2P, 0x10, 8, 0,
412 	},
413 
414 	{   0x131f, 0x2030, 0xffff, 0,
415 	    "SIIG Cyber Serial Dual PCI 16C550 (20x family)",
416 	    DEFAULT_RCLK,
417 	    PUC_PORT_2S, 0x10, 4, 0,
418 	},
419 
420 	{   0x131f, 0x2031, 0xffff, 0,
421 	    "SIIG Cyber Serial Dual PCI 16C650 (20x family)",
422 	    DEFAULT_RCLK,
423 	    PUC_PORT_2S, 0x10, 4, 0,
424 	},
425 
426 	{   0x131f, 0x2032, 0xffff, 0,
427 	    "SIIG Cyber Serial Dual PCI 16C850 (20x family)",
428 	    DEFAULT_RCLK,
429 	    PUC_PORT_2S, 0x10, 4, 0,
430 	},
431 
432 	{   0x131f, 0x2040, 0xffff, 0,
433 	    "SIIG Cyber 2P1S PCI 16C550 (20x family)",
434 	    DEFAULT_RCLK,
435 	    PUC_PORT_1S2P, 0x10, -1, 0,
436 	    .config_function = puc_config_siig
437 	},
438 
439 	{   0x131f, 0x2041, 0xffff, 0,
440 	    "SIIG Cyber 2P1S PCI 16C650 (20x family)",
441 	    DEFAULT_RCLK,
442 	    PUC_PORT_1S2P, 0x10, -1, 0,
443 	    .config_function = puc_config_siig
444 	},
445 
446 	{   0x131f, 0x2042, 0xffff, 0,
447 	    "SIIG Cyber 2P1S PCI 16C850 (20x family)",
448 	    DEFAULT_RCLK,
449 	    PUC_PORT_1S2P, 0x10, -1, 0,
450 	    .config_function = puc_config_siig
451 	},
452 
453 	{   0x131f, 0x2050, 0xffff, 0,
454 	    "SIIG Cyber 4S PCI 16C550 (20x family)",
455 	    DEFAULT_RCLK,
456 	    PUC_PORT_4S, 0x10, 4, 0,
457 	},
458 
459 	{   0x131f, 0x2051, 0xffff, 0,
460 	    "SIIG Cyber 4S PCI 16C650 (20x family)",
461 	    DEFAULT_RCLK,
462 	    PUC_PORT_4S, 0x10, 4, 0,
463 	},
464 
465 	{   0x131f, 0x2052, 0xffff, 0,
466 	    "SIIG Cyber 4S PCI 16C850 (20x family)",
467 	    DEFAULT_RCLK,
468 	    PUC_PORT_4S, 0x10, 4, 0,
469 	},
470 
471 	{   0x131f, 0x2060, 0xffff, 0,
472 	    "SIIG Cyber 2S1P PCI 16C550 (20x family)",
473 	    DEFAULT_RCLK,
474 	    PUC_PORT_2S1P, 0x10, 4, 0,
475 	},
476 
477 	{   0x131f, 0x2061, 0xffff, 0,
478 	    "SIIG Cyber 2S1P PCI 16C650 (20x family)",
479 	    DEFAULT_RCLK,
480 	    PUC_PORT_2S1P, 0x10, 4, 0,
481 	},
482 
483 	{   0x131f, 0x2062, 0xffff, 0,
484 	    "SIIG Cyber 2S1P PCI 16C850 (20x family)",
485 	    DEFAULT_RCLK,
486 	    PUC_PORT_2S1P, 0x10, 4, 0,
487 	},
488 
489 	{   0x131f, 0x2081, 0xffff, 0,
490 	    "SIIG PS8000 8S PCI 16C650 (20x family)",
491 	    DEFAULT_RCLK,
492 	    PUC_PORT_8S, 0x10, -1, -1,
493 	    .config_function = puc_config_siig
494 	},
495 
496 	{   0x135c, 0x0010, 0xffff, 0,
497 	    "Quatech QSC-100",
498 	    -3,	/* max 8x clock rate */
499 	    PUC_PORT_4S, 0x14, 0, 8,
500 	    .config_function = puc_config_quatech
501 	},
502 
503 	{   0x135c, 0x0020, 0xffff, 0,
504 	    "Quatech DSC-100",
505 	    -1, /* max 2x clock rate */
506 	    PUC_PORT_2S, 0x14, 0, 8,
507 	    .config_function = puc_config_quatech
508 	},
509 
510 	{   0x135c, 0x0030, 0xffff, 0,
511 	    "Quatech DSC-200/300",
512 	    -1, /* max 2x clock rate */
513 	    PUC_PORT_2S, 0x14, 0, 8,
514 	    .config_function = puc_config_quatech
515 	},
516 
517 	{   0x135c, 0x0040, 0xffff, 0,
518 	    "Quatech QSC-200/300",
519 	    -3, /* max 8x clock rate */
520 	    PUC_PORT_4S, 0x14, 0, 8,
521 	    .config_function = puc_config_quatech
522 	},
523 
524 	{   0x135c, 0x0050, 0xffff, 0,
525 	    "Quatech ESC-100D",
526 	    -3, /* max 8x clock rate */
527 	    PUC_PORT_8S, 0x14, 0, 8,
528 	    .config_function = puc_config_quatech
529 	},
530 
531 	{   0x135c, 0x0060, 0xffff, 0,
532 	    "Quatech ESC-100M",
533 	    -3, /* max 8x clock rate */
534 	    PUC_PORT_8S, 0x14, 0, 8,
535 	    .config_function = puc_config_quatech
536 	},
537 
538 	{   0x135c, 0x0170, 0xffff, 0,
539 	    "Quatech QSCLP-100",
540 	    -1, /* max 2x clock rate */
541 	    PUC_PORT_4S, 0x18, 0, 8,
542 	    .config_function = puc_config_quatech
543 	},
544 
545 	{   0x135c, 0x0180, 0xffff, 0,
546 	    "Quatech DSCLP-100",
547 	    -1, /* max 3x clock rate */
548 	    PUC_PORT_2S, 0x18, 0, 8,
549 	    .config_function = puc_config_quatech
550 	},
551 
552 	{   0x135c, 0x01b0, 0xffff, 0,
553 	    "Quatech DSCLP-200/300",
554 	    -1, /* max 2x clock rate */
555 	    PUC_PORT_2S, 0x18, 0, 8,
556 	    .config_function = puc_config_quatech
557 	},
558 
559 	{   0x135c, 0x01e0, 0xffff, 0,
560 	    "Quatech ESCLP-100",
561 	    -3, /* max 8x clock rate */
562 	    PUC_PORT_8S, 0x10, 0, 8,
563 	    .config_function = puc_config_quatech
564 	},
565 
566 	{   0x1393, 0x1024, 0xffff, 0,
567 	    "Moxa Technologies, Smartio CP-102E/PCIe",
568 	    DEFAULT_RCLK * 8,
569 	    PUC_PORT_2S, 0x14, 0, -1,
570 	    .config_function = puc_config_moxa
571 	},
572 
573 	{   0x1393, 0x1025, 0xffff, 0,
574 	    "Moxa Technologies, Smartio CP-102EL/PCIe",
575 	    DEFAULT_RCLK * 8,
576 	    PUC_PORT_2S, 0x14, 0, -1,
577 	    .config_function = puc_config_moxa
578 	},
579 
580 	{   0x1393, 0x1040, 0xffff, 0,
581 	    "Moxa Technologies, Smartio C104H/PCI",
582 	    DEFAULT_RCLK * 8,
583 	    PUC_PORT_4S, 0x18, 0, 8,
584 	},
585 
586 	{   0x1393, 0x1041, 0xffff, 0,
587 	    "Moxa Technologies, Smartio CP-104UL/PCI",
588 	    DEFAULT_RCLK * 8,
589 	    PUC_PORT_4S, 0x18, 0, 8,
590 	},
591 
592 	{   0x1393, 0x1042, 0xffff, 0,
593 	    "Moxa Technologies, Smartio CP-104JU/PCI",
594 	    DEFAULT_RCLK * 8,
595 	    PUC_PORT_4S, 0x18, 0, 8,
596 	},
597 
598 	{   0x1393, 0x1043, 0xffff, 0,
599 	    "Moxa Technologies, Smartio CP-104EL/PCIe",
600 	    DEFAULT_RCLK * 8,
601 	    PUC_PORT_4S, 0x18, 0, 8,
602 	},
603 
604 	{   0x1393, 0x1045, 0xffff, 0,
605 	    "Moxa Technologies, Smartio CP-104EL-A/PCIe",
606 	    DEFAULT_RCLK * 8,
607 	    PUC_PORT_4S, 0x14, 0, -1,
608 	    .config_function = puc_config_moxa
609 	},
610 
611 	{   0x1393, 0x1120, 0xffff, 0,
612 	    "Moxa Technologies, CP-112UL",
613 	    DEFAULT_RCLK * 8,
614 	    PUC_PORT_2S, 0x18, 0, 8,
615 	},
616 
617 	{   0x1393, 0x1141, 0xffff, 0,
618 	    "Moxa Technologies, Industio CP-114",
619 	    DEFAULT_RCLK * 8,
620 	    PUC_PORT_4S, 0x18, 0, 8,
621 	},
622 
623 	{   0x1393, 0x1144, 0xffff, 0,
624 	    "Moxa Technologies, Smartio CP-114EL/PCIe",
625 	    DEFAULT_RCLK * 8,
626 	    PUC_PORT_4S, 0x14, 0, -1,
627 	    .config_function = puc_config_moxa
628 	},
629 
630 	{   0x1393, 0x1182, 0xffff, 0,
631 	    "Moxa Technologies, Smartio CP-118EL-A/PCIe",
632 	    DEFAULT_RCLK * 8,
633 	    PUC_PORT_8S, 0x14, 0, -1,
634 	    .config_function = puc_config_moxa
635 	},
636 
637 	{   0x1393, 0x1680, 0xffff, 0,
638 	    "Moxa Technologies, C168H/PCI",
639 	    DEFAULT_RCLK * 8,
640 	    PUC_PORT_8S, 0x18, 0, 8,
641 	},
642 
643 	{   0x1393, 0x1681, 0xffff, 0,
644 	    "Moxa Technologies, C168U/PCI",
645 	    DEFAULT_RCLK * 8,
646 	    PUC_PORT_8S, 0x18, 0, 8,
647 	},
648 
649 	{   0x1393, 0x1682, 0xffff, 0,
650 	    "Moxa Technologies, CP-168EL/PCIe",
651 	    DEFAULT_RCLK * 8,
652 	    PUC_PORT_8S, 0x18, 0, 8,
653 	},
654 
655 	{   0x1393, 0x1683, 0xffff, 0,
656 	    "Moxa Technologies, Smartio CP-168EL-A/PCIe",
657 	    DEFAULT_RCLK * 8,
658 	    PUC_PORT_8S, 0x14, 0, -1,
659 	    .config_function = puc_config_moxa
660 	},
661 
662 	{   0x13a8, 0x0152, 0xffff, 0,
663 	    "Exar XR17C/D152",
664 	    DEFAULT_RCLK * 8,
665 	    PUC_PORT_2S, 0x10, 0, -1,
666 	    .config_function = puc_config_exar
667 	},
668 
669 	{   0x13a8, 0x0154, 0xffff, 0,
670 	    "Exar XR17C154",
671 	    DEFAULT_RCLK * 8,
672 	    PUC_PORT_4S, 0x10, 0, -1,
673 	    .config_function = puc_config_exar
674 	},
675 
676 	{   0x13a8, 0x0158, 0xffff, 0,
677 	    "Exar XR17C158",
678 	    DEFAULT_RCLK * 8,
679 	    PUC_PORT_8S, 0x10, 0, -1,
680 	    .config_function = puc_config_exar
681 	},
682 
683 	{   0x13a8, 0x0258, 0xffff, 0,
684 	    "Exar XR17V258IV",
685 	    DEFAULT_RCLK * 8,
686 	    PUC_PORT_8S, 0x10, 0, -1,
687 	    .config_function = puc_config_exar
688 	},
689 
690 	/* The XR17V358 uses the 125MHz PCIe clock as its reference clock. */
691 	{   0x13a8, 0x0358, 0xffff, 0,
692 	    "Exar XR17V358",
693 	    125000000,
694 	    PUC_PORT_8S, 0x10, 0, -1,
695 	    .config_function = puc_config_exar_pcie
696 	},
697 
698 	/*
699 	 * The Advantech PCI-1602 Rev. A use the first two ports of an Oxford
700 	 * Semiconductor OXuPCI954.  Note these boards have a hardware bug in
701 	 * that they drive the RS-422/485 transmitters after power-on until a
702 	 * driver initalizes the UARTs.
703 	 */
704 	{   0x13fe, 0x1600, 0x1602, 0x0002,
705 	    "Advantech PCI-1602 Rev. A",
706 	    DEFAULT_RCLK * 8,
707 	    PUC_PORT_2S, 0x10, 0, 8,
708 	    .config_function = puc_config_advantech
709 	},
710 
711 	/* Advantech PCI-1602 Rev. B1/PCI-1603 are also based on OXuPCI952. */
712 	{   0x13fe, 0xa102, 0x13fe, 0xa102,
713 	    "Advantech 2-port PCI (PCI-1602 Rev. B1/PCI-1603)",
714 	    DEFAULT_RCLK * 8,
715 	    PUC_PORT_2S, 0x10, 4, 0,
716 	    .config_function = puc_config_advantech
717 	},
718 
719 	{   0x1407, 0x0100, 0xffff, 0,
720 	    "Lava Computers Dual Serial",
721 	    DEFAULT_RCLK,
722 	    PUC_PORT_2S, 0x10, 4, 0,
723 	},
724 
725 	{   0x1407, 0x0101, 0xffff, 0,
726 	    "Lava Computers Quatro A",
727 	    DEFAULT_RCLK,
728 	    PUC_PORT_2S, 0x10, 4, 0,
729 	},
730 
731 	{   0x1407, 0x0102, 0xffff, 0,
732 	    "Lava Computers Quatro B",
733 	    DEFAULT_RCLK,
734 	    PUC_PORT_2S, 0x10, 4, 0,
735 	},
736 
737 	{   0x1407, 0x0120, 0xffff, 0,
738 	    "Lava Computers Quattro-PCI A",
739 	    DEFAULT_RCLK,
740 	    PUC_PORT_2S, 0x10, 4, 0,
741 	},
742 
743 	{   0x1407, 0x0121, 0xffff, 0,
744 	    "Lava Computers Quattro-PCI B",
745 	    DEFAULT_RCLK,
746 	    PUC_PORT_2S, 0x10, 4, 0,
747 	},
748 
749 	{   0x1407, 0x0180, 0xffff, 0,
750 	    "Lava Computers Octo A",
751 	    DEFAULT_RCLK,
752 	    PUC_PORT_4S, 0x10, 4, 0,
753 	},
754 
755 	{   0x1407, 0x0181, 0xffff, 0,
756 	    "Lava Computers Octo B",
757 	    DEFAULT_RCLK,
758 	    PUC_PORT_4S, 0x10, 4, 0,
759 	},
760 
761 	{   0x1409, 0x7268, 0xffff, 0,
762 	    "Sunix SUN1888",
763 	    0,
764 	    PUC_PORT_2P, 0x10, 0, 8,
765 	},
766 
767 	{   0x1409, 0x7168, 0xffff, 0,
768 	    NULL,
769 	    DEFAULT_RCLK * 8,
770 	    PUC_PORT_NONSTANDARD, 0x10, -1, -1,
771 	    .config_function = puc_config_timedia
772 	},
773 
774 	/*
775 	 * Boards with an Oxford Semiconductor chip.
776 	 *
777 	 * Oxford Semiconductor provides documentation for their chip at:
778 	 * <URL:http://www.plxtech.com/products/uart/>
779 	 *
780 	 * As sold by Kouwell <URL:http://www.kouwell.com/>.
781 	 * I/O Flex PCI I/O Card Model-223 with 4 serial and 1 parallel ports.
782 	 */
783 	{
784 	    0x1415, 0x9501, 0x10fc, 0xc070,
785 	    "I-O DATA RSA-PCI2/R",
786 	    DEFAULT_RCLK * 8,
787 	    PUC_PORT_2S, 0x10, 0, 8,
788 	},
789 
790 	{   0x1415, 0x9501, 0x131f, 0x2050,
791 	    "SIIG Cyber 4 PCI 16550",
792 	    DEFAULT_RCLK * 10,
793 	    PUC_PORT_4S, 0x10, 0, 8,
794 	},
795 
796 	{   0x1415, 0x9501, 0x131f, 0x2051,
797 	    "SIIG Cyber 4S PCI 16C650 (20x family)",
798 	    DEFAULT_RCLK * 10,
799 	    PUC_PORT_4S, 0x10, 0, 8,
800 	},
801 
802 	{   0x1415, 0x9501, 0x131f, 0x2052,
803 	    "SIIG Quartet Serial 850",
804 	    DEFAULT_RCLK * 10,
805 	    PUC_PORT_4S, 0x10, 0, 8,
806 	},
807 
808 	{   0x1415, 0x9501, 0x14db, 0x2150,
809 	    "Kuroutoshikou SERIAL4P-LPPCI2",
810 	    DEFAULT_RCLK * 10,
811 	    PUC_PORT_4S, 0x10, 0, 8,
812 	},
813 
814 	{   0x1415, 0x9501, 0xffff, 0,
815 	    "Oxford Semiconductor OX16PCI954 UARTs",
816 	    0,
817 	    PUC_PORT_4S, 0x10, 0, 8,
818 	    .config_function = puc_config_oxford_pci954
819 	},
820 
821 	{   0x1415, 0x950a, 0x131f, 0x2030,
822 	    "SIIG Cyber 2S PCIe",
823 	    DEFAULT_RCLK * 10,
824 	    PUC_PORT_2S, 0x10, 0, 8,
825 	},
826 
827 	{   0x1415, 0x950a, 0x131f, 0x2032,
828 	    "SIIG Cyber Serial Dual PCI 16C850",
829 	    DEFAULT_RCLK * 10,
830 	    PUC_PORT_4S, 0x10, 0, 8,
831 	},
832 
833 	{   0x1415, 0x950a, 0x131f, 0x2061,
834 	    "SIIG Cyber 2SP1 PCIe",
835 	    DEFAULT_RCLK * 10,
836 	    PUC_PORT_2S, 0x10, 0, 8,
837 	},
838 
839 	{   0x1415, 0x950a, 0xffff, 0,
840 	    "Oxford Semiconductor OX16PCI954 UARTs",
841 	    DEFAULT_RCLK,
842 	    PUC_PORT_4S, 0x10, 0, 8,
843 	},
844 
845 	{   0x1415, 0x9511, 0xffff, 0,
846 	    "Oxford Semiconductor OX9160/OX16PCI954 UARTs (function 1)",
847 	    DEFAULT_RCLK,
848 	    PUC_PORT_4S, 0x10, 0, 8,
849 	},
850 
851 	{   0x1415, 0x9521, 0xffff, 0,
852 	    "Oxford Semiconductor OX16PCI952 UARTs",
853 	    DEFAULT_RCLK,
854 	    PUC_PORT_2S, 0x10, 4, 0,
855 	},
856 
857 	{   0x1415, 0x9538, 0xffff, 0,
858 	    "Oxford Semiconductor OX16PCI958 UARTs",
859 	    DEFAULT_RCLK,
860 	    PUC_PORT_8S, 0x18, 0, 8,
861 	},
862 
863 	/*
864 	 * Perle boards use Oxford Semiconductor chips, but they store the
865 	 * Oxford Semiconductor device ID as a subvendor device ID and use
866 	 * their own device IDs.
867 	 */
868 
869 	{   0x155f, 0x0331, 0xffff, 0,
870 	    "Perle Ultraport4 Express",
871 	    DEFAULT_RCLK * 8,
872 	    PUC_PORT_4S, 0x10, 0, 8,
873 	},
874 
875 	{   0x155f, 0xB012, 0xffff, 0,
876 	    "Perle Speed2 LE",
877 	    DEFAULT_RCLK * 8,
878 	    PUC_PORT_2S, 0x10, 0, 8,
879 	},
880 
881 	{   0x155f, 0xB022, 0xffff, 0,
882 	    "Perle Speed2 LE",
883 	    DEFAULT_RCLK * 8,
884 	    PUC_PORT_2S, 0x10, 0, 8,
885 	},
886 
887 	{   0x155f, 0xB004, 0xffff, 0,
888 	    "Perle Speed4 LE",
889 	    DEFAULT_RCLK * 8,
890 	    PUC_PORT_4S, 0x10, 0, 8,
891 	},
892 
893 	{   0x155f, 0xB008, 0xffff, 0,
894 	    "Perle Speed8 LE",
895 	    DEFAULT_RCLK * 8,
896 	    PUC_PORT_8S, 0x10, 0, 8,
897 	},
898 
899 
900 	/*
901 	 * Oxford Semiconductor PCI Express Expresso family
902 	 *
903 	 * Found in many 'native' PCI Express serial boards such as:
904 	 *
905 	 * eMegatech MP954ER4 (4 port) and MP958ER8 (8 port)
906 	 * <URL:http://www.emegatech.com.tw/pdrs232pcie.html>
907 	 *
908 	 * Lindy 51189 (4 port)
909 	 * <URL:http://www.lindy.com> <URL:http://tinyurl.com/lindy-51189>
910 	 *
911 	 * StarTech.com PEX4S952 (4 port) and PEX8S952 (8 port)
912 	 * <URL:http://www.startech.com>
913 	 */
914 
915 	{   0x1415, 0xc11b, 0xffff, 0,
916 	    "Oxford Semiconductor OXPCIe952 1S1P",
917 	    DEFAULT_RCLK * 0x22,
918 	    PUC_PORT_NONSTANDARD, 0x10, 0, -1,
919 	    .config_function = puc_config_oxford_pcie
920 	},
921 
922 	{   0x1415, 0xc138, 0xffff, 0,
923 	    "Oxford Semiconductor OXPCIe952 UARTs",
924 	    DEFAULT_RCLK * 0x22,
925 	    PUC_PORT_NONSTANDARD, 0x10, 0, -1,
926 	    .config_function = puc_config_oxford_pcie
927 	},
928 
929 	{   0x1415, 0xc158, 0xffff, 0,
930 	    "Oxford Semiconductor OXPCIe952 UARTs",
931 	    DEFAULT_RCLK * 0x22,
932 	    PUC_PORT_NONSTANDARD, 0x10, 0, -1,
933 	    .config_function = puc_config_oxford_pcie
934 	},
935 
936 	{   0x1415, 0xc15d, 0xffff, 0,
937 	    "Oxford Semiconductor OXPCIe952 UARTs (function 1)",
938 	    DEFAULT_RCLK * 0x22,
939 	    PUC_PORT_NONSTANDARD, 0x10, 0, -1,
940 	    .config_function = puc_config_oxford_pcie
941 	},
942 
943 	{   0x1415, 0xc208, 0xffff, 0,
944 	    "Oxford Semiconductor OXPCIe954 UARTs",
945 	    DEFAULT_RCLK * 0x22,
946 	    PUC_PORT_NONSTANDARD, 0x10, 0, -1,
947 	    .config_function = puc_config_oxford_pcie
948 	},
949 
950 	{   0x1415, 0xc20d, 0xffff, 0,
951 	    "Oxford Semiconductor OXPCIe954 UARTs (function 1)",
952 	    DEFAULT_RCLK * 0x22,
953 	    PUC_PORT_NONSTANDARD, 0x10, 0, -1,
954 	    .config_function = puc_config_oxford_pcie
955 	},
956 
957 	{   0x1415, 0xc308, 0xffff, 0,
958 	    "Oxford Semiconductor OXPCIe958 UARTs",
959 	    DEFAULT_RCLK * 0x22,
960 	    PUC_PORT_NONSTANDARD, 0x10, 0, -1,
961 	    .config_function = puc_config_oxford_pcie
962 	},
963 
964 	{   0x1415, 0xc30d, 0xffff, 0,
965 	    "Oxford Semiconductor OXPCIe958 UARTs (function 1)",
966 	    DEFAULT_RCLK * 0x22,
967 	    PUC_PORT_NONSTANDARD, 0x10, 0, -1,
968 	    .config_function = puc_config_oxford_pcie
969 	},
970 
971 	{   0x14d2, 0x8010, 0xffff, 0,
972 	    "VScom PCI-100L",
973 	    DEFAULT_RCLK * 8,
974 	    PUC_PORT_1S, 0x14, 0, 0,
975 	},
976 
977 	{   0x14d2, 0x8020, 0xffff, 0,
978 	    "VScom PCI-200L",
979 	    DEFAULT_RCLK * 8,
980 	    PUC_PORT_2S, 0x14, 4, 0,
981 	},
982 
983 	{   0x14d2, 0x8028, 0xffff, 0,
984 	    "VScom 200Li",
985 	    DEFAULT_RCLK,
986 	    PUC_PORT_2S, 0x20, 0, 8,
987 	},
988 
989 	/*
990 	 * VScom (Titan?) PCI-800L.  More modern variant of the
991 	 * PCI-800.  Uses 6 discrete 16550 UARTs, plus another
992 	 * two of them obviously implemented as macro cells in
993 	 * the ASIC.  This causes the weird port access pattern
994 	 * below, where two of the IO port ranges each access
995 	 * one of the ASIC UARTs, and a block of IO addresses
996 	 * access the external UARTs.
997 	 */
998 	{   0x14d2, 0x8080, 0xffff, 0,
999 	    "Titan VScom PCI-800L",
1000 	    DEFAULT_RCLK * 8,
1001 	    PUC_PORT_8S, 0x14, -1, -1,
1002 	    .config_function = puc_config_titan
1003 	},
1004 
1005 	/*
1006 	 * VScom PCI-800H. Uses 8 16950 UART, behind a PCI chips that offers
1007 	 * 4 com port on PCI device 0 and 4 on PCI device 1. PCI device 0 has
1008 	 * device ID 3 and PCI device 1 device ID 4.
1009 	 */
1010 	{   0x14d2, 0xa003, 0xffff, 0,
1011 	    "Titan PCI-800H",
1012 	    DEFAULT_RCLK * 8,
1013 	    PUC_PORT_4S, 0x10, 0, 8,
1014 	},
1015 
1016 	{   0x14d2, 0xa004, 0xffff, 0,
1017 	    "Titan PCI-800H",
1018 	    DEFAULT_RCLK * 8,
1019 	    PUC_PORT_4S, 0x10, 0, 8,
1020 	},
1021 
1022 	{   0x14d2, 0xa005, 0xffff, 0,
1023 	    "Titan PCI-200H",
1024 	    DEFAULT_RCLK * 8,
1025 	    PUC_PORT_2S, 0x10, 0, 8,
1026 	},
1027 
1028 	{   0x14d2, 0xe020, 0xffff, 0,
1029 	    "Titan VScom PCI-200HV2",
1030 	    DEFAULT_RCLK * 8,
1031 	    PUC_PORT_2S, 0x10, 4, 0,
1032 	},
1033 
1034 	{   0x14d2, 0xa007, 0xffff, 0,
1035 	    "Titan VScom PCIex-800H",
1036 	    DEFAULT_RCLK * 8,
1037 	    PUC_PORT_4S, 0x10, 0, 8,
1038 	},
1039 
1040 	{   0x14d2, 0xa008, 0xffff, 0,
1041 	    "Titan VScom PCIex-800H",
1042 	    DEFAULT_RCLK * 8,
1043 	    PUC_PORT_4S, 0x10, 0, 8,
1044 	},
1045 
1046 	{   0x14db, 0x2130, 0xffff, 0,
1047 	    "Avlab Technology, PCI IO 2S",
1048 	    DEFAULT_RCLK,
1049 	    PUC_PORT_2S, 0x10, 4, 0,
1050 	},
1051 
1052 	{   0x14db, 0x2150, 0xffff, 0,
1053 	    "Avlab Low Profile PCI 4 Serial",
1054 	    DEFAULT_RCLK,
1055 	    PUC_PORT_4S, 0x10, 4, 0,
1056 	},
1057 
1058 	{   0x14db, 0x2152, 0xffff, 0,
1059 	    "Avlab Low Profile PCI 4 Serial",
1060 	    DEFAULT_RCLK,
1061 	    PUC_PORT_4S, 0x10, 4, 0,
1062 	},
1063 
1064 	{   0x1592, 0x0781, 0xffff, 0,
1065 	    "Syba Tech Ltd. PCI-4S2P-550-ECP",
1066 	    DEFAULT_RCLK,
1067 	    PUC_PORT_4S1P, 0x10, 0, -1,
1068 	    .config_function = puc_config_syba
1069 	},
1070 
1071 	{   0x1fd4, 0x1999, 0x1fd4, 0x0002,
1072 	    "Sunix SER5xxxx 2-port serial",
1073 	    DEFAULT_RCLK * 8,
1074 	    PUC_PORT_2S, 0x10, 0, 8,
1075 	},
1076 
1077 	{   0x1fd4, 0x1999, 0x1fd4, 0x0004,
1078 	    "Sunix SER5xxxx 4-port serial",
1079 	    DEFAULT_RCLK * 8,
1080 	    PUC_PORT_4S, 0x10, 0, 8,
1081 	},
1082 
1083 	{   0x1fd4, 0x1999, 0x1fd4, 0x0008,
1084 	    "Sunix SER5xxxx 8-port serial",
1085 	    DEFAULT_RCLK * 8,
1086 	    PUC_PORT_8S, -1, -1, -1,
1087 	    .config_function = puc_config_sunix
1088 	},
1089 
1090 	{   0x1fd4, 0x1999, 0x1fd4, 0x0101,
1091 	    "Sunix MIO5xxxx 1-port serial and 1284 Printer port",
1092 	    DEFAULT_RCLK * 8,
1093 	    PUC_PORT_1S1P, -1, -1, -1,
1094 	    .config_function = puc_config_sunix
1095 	},
1096 
1097 	{   0x1fd4, 0x1999, 0x1fd4, 0x0102,
1098 	    "Sunix MIO5xxxx 2-port serial and 1284 Printer port",
1099 	    DEFAULT_RCLK * 8,
1100 	    PUC_PORT_2S1P, -1, -1, -1,
1101 	    .config_function = puc_config_sunix
1102 	},
1103 
1104 	{   0x1fd4, 0x1999, 0x1fd4, 0x0104,
1105 	    "Sunix MIO5xxxx 4-port serial and 1284 Printer port",
1106 	    DEFAULT_RCLK * 8,
1107 	    PUC_PORT_4S1P, -1, -1, -1,
1108 	    .config_function = puc_config_sunix
1109 	},
1110 
1111 	{   0x5372, 0x6872, 0xffff, 0,
1112 	    "Feasso PCI FPP-02 2S1P",
1113 	    DEFAULT_RCLK,
1114 	    PUC_PORT_2S1P, 0x10, 4, 0,
1115 	},
1116 
1117 	{   0x5372, 0x6873, 0xffff, 0,
1118 	    "Sun 1040 PCI Quad Serial",
1119 	    DEFAULT_RCLK,
1120 	    PUC_PORT_4S, 0x10, 4, 0,
1121 	},
1122 
1123 	{   0x6666, 0x0001, 0xffff, 0,
1124 	    "Decision Computer Inc, PCCOM 4-port serial",
1125 	    DEFAULT_RCLK,
1126 	    PUC_PORT_4S, 0x1c, 0, 8,
1127 	},
1128 
1129 	{   0x6666, 0x0002, 0xffff, 0,
1130 	    "Decision Computer Inc, PCCOM 8-port serial",
1131 	    DEFAULT_RCLK,
1132 	    PUC_PORT_8S, 0x1c, 0, 8,
1133 	},
1134 
1135 	{   0x6666, 0x0004, 0xffff, 0,
1136 	    "PCCOM dual port RS232/422/485",
1137 	    DEFAULT_RCLK,
1138 	    PUC_PORT_2S, 0x1c, 0, 8,
1139 	},
1140 
1141 	{   0x9710, 0x9815, 0xffff, 0,
1142 	    "NetMos NM9815 Dual 1284 Printer port",
1143 	    0,
1144 	    PUC_PORT_2P, 0x10, 8, 0,
1145 	},
1146 
1147 	/*
1148 	 * This is more specific than the generic NM9835 entry, and is placed
1149 	 * here to _prevent_ puc(4) from claiming this single port card.
1150 	 *
1151 	 * uart(4) will claim this device.
1152 	 */
1153 	{   0x9710, 0x9835, 0x1000, 1,
1154 	    "NetMos NM9835 based 1-port serial",
1155 	    DEFAULT_RCLK,
1156 	    PUC_PORT_1S, 0x10, 4, 0,
1157 	},
1158 
1159 	{   0x9710, 0x9835, 0x1000, 2,
1160 	    "NetMos NM9835 based 2-port serial",
1161 	    DEFAULT_RCLK,
1162 	    PUC_PORT_2S, 0x10, 4, 0,
1163 	},
1164 
1165 	{   0x9710, 0x9835, 0xffff, 0,
1166 	    "NetMos NM9835 Dual UART and 1284 Printer port",
1167 	    DEFAULT_RCLK,
1168 	    PUC_PORT_2S1P, 0x10, 4, 0,
1169 	},
1170 
1171 	{   0x9710, 0x9845, 0x1000, 0x0006,
1172 	    "NetMos NM9845 6 Port UART",
1173 	    DEFAULT_RCLK,
1174 	    PUC_PORT_6S, 0x10, 4, 0,
1175 	},
1176 
1177 	{   0x9710, 0x9845, 0xffff, 0,
1178 	    "NetMos NM9845 Quad UART and 1284 Printer port",
1179 	    DEFAULT_RCLK,
1180 	    PUC_PORT_4S1P, 0x10, 4, 0,
1181 	},
1182 
1183 	{   0x9710, 0x9865, 0xa000, 0x3002,
1184 	    "NetMos NM9865 Dual UART",
1185 	    DEFAULT_RCLK,
1186 	    PUC_PORT_2S, 0x10, 4, 0,
1187 	},
1188 
1189 	{   0x9710, 0x9865, 0xa000, 0x3003,
1190 	    "NetMos NM9865 Triple UART",
1191 	    DEFAULT_RCLK,
1192 	    PUC_PORT_3S, 0x10, 4, 0,
1193 	},
1194 
1195 	{   0x9710, 0x9865, 0xa000, 0x3004,
1196 	    "NetMos NM9865 Quad UART",
1197 	    DEFAULT_RCLK,
1198 	    PUC_PORT_4S, 0x10, 4, 0,
1199 	},
1200 
1201 	{   0x9710, 0x9865, 0xa000, 0x3011,
1202 	    "NetMos NM9865 Single UART and 1284 Printer port",
1203 	    DEFAULT_RCLK,
1204 	    PUC_PORT_1S1P, 0x10, 4, 0,
1205 	},
1206 
1207 	{   0x9710, 0x9865, 0xa000, 0x3012,
1208 	    "NetMos NM9865 Dual UART and 1284 Printer port",
1209 	    DEFAULT_RCLK,
1210 	    PUC_PORT_2S1P, 0x10, 4, 0,
1211 	},
1212 
1213 	{   0x9710, 0x9865, 0xa000, 0x3020,
1214 	    "NetMos NM9865 Dual 1284 Printer port",
1215 	    DEFAULT_RCLK,
1216 	    PUC_PORT_2P, 0x10, 4, 0,
1217 	},
1218 
1219 	{   0xb00c, 0x021c, 0xffff, 0,
1220 	    "IC Book Labs Gunboat x4 Lite",
1221 	    DEFAULT_RCLK,
1222 	    PUC_PORT_4S, 0x10, 0, 8,
1223 	    .config_function = puc_config_icbook
1224 	},
1225 
1226 	{   0xb00c, 0x031c, 0xffff, 0,
1227 	    "IC Book Labs Gunboat x4 Pro",
1228 	    DEFAULT_RCLK,
1229 	    PUC_PORT_4S, 0x10, 0, 8,
1230 	    .config_function = puc_config_icbook
1231 	},
1232 
1233 	{   0xb00c, 0x041c, 0xffff, 0,
1234 	    "IC Book Labs Ironclad x8 Lite",
1235 	    DEFAULT_RCLK,
1236 	    PUC_PORT_8S, 0x10, 0, 8,
1237 	    .config_function = puc_config_icbook
1238 	},
1239 
1240 	{   0xb00c, 0x051c, 0xffff, 0,
1241 	    "IC Book Labs Ironclad x8 Pro",
1242 	    DEFAULT_RCLK,
1243 	    PUC_PORT_8S, 0x10, 0, 8,
1244 	    .config_function = puc_config_icbook
1245 	},
1246 
1247 	{   0xb00c, 0x081c, 0xffff, 0,
1248 	    "IC Book Labs Dreadnought x16 Pro",
1249 	    DEFAULT_RCLK * 8,
1250 	    PUC_PORT_16S, 0x10, 0, 8,
1251 	    .config_function = puc_config_icbook
1252 	},
1253 
1254 	{   0xb00c, 0x091c, 0xffff, 0,
1255 	    "IC Book Labs Dreadnought x16 Lite",
1256 	    DEFAULT_RCLK,
1257 	    PUC_PORT_16S, 0x10, 0, 8,
1258 	    .config_function = puc_config_icbook
1259 	},
1260 
1261 	{   0xb00c, 0x0a1c, 0xffff, 0,
1262 	    "IC Book Labs Gunboat x2 Low Profile",
1263 	    DEFAULT_RCLK,
1264 	    PUC_PORT_2S, 0x10, 0, 8,
1265 	},
1266 
1267 	{   0xb00c, 0x0b1c, 0xffff, 0,
1268 	    "IC Book Labs Gunboat x4 Low Profile",
1269 	    DEFAULT_RCLK,
1270 	    PUC_PORT_4S, 0x10, 0, 8,
1271 	    .config_function = puc_config_icbook
1272 	},
1273 
1274 	{ 0xffff, 0, 0xffff, 0, NULL, 0 }
1275 };
1276 
1277 static int
1278 puc_config_advantech(struct puc_softc *sc, enum puc_cfg_cmd cmd, int port,
1279     intptr_t *res __unused)
1280 {
1281 	const struct puc_cfg *cfg;
1282 	struct resource *cres;
1283 	struct puc_bar *bar;
1284 	device_t cdev, dev;
1285 	bus_size_t off;
1286 	int base, crtype, fixed, high, i, oxpcie;
1287 	uint8_t acr, func, mask;
1288 
1289 	if (cmd != PUC_CFG_SETUP)
1290 		return (ENXIO);
1291 
1292 	base = fixed = oxpcie = 0;
1293 	crtype = SYS_RES_IOPORT;
1294 	acr = mask = 0x0;
1295 	func = high = 1;
1296 	off = 0x60;
1297 
1298 	cfg = sc->sc_cfg;
1299 	switch (cfg->subvendor) {
1300 	case 0x13fe:
1301 		switch (cfg->device) {
1302 		case 0xa102:
1303 			high = 0;
1304 			break;
1305 		default:
1306 			break;
1307 		}
1308 	default:
1309 		break;
1310 	}
1311 	if (fixed == 1)
1312 		goto setup;
1313 
1314 	dev = sc->sc_dev;
1315 	cdev = pci_find_dbsf(pci_get_domain(dev), pci_get_bus(dev),
1316 	    pci_get_slot(dev), func);
1317 	if (cdev == NULL) {
1318 		device_printf(dev, "could not find config function\n");
1319 		return (ENXIO);
1320 	}
1321 
1322 	i = PCIR_BAR(0);
1323 	cres = bus_alloc_resource_any(cdev, crtype, &i, RF_ACTIVE);
1324 	if (cres == NULL) {
1325 		device_printf(dev, "could not allocate config resource\n");
1326 		return (ENXIO);
1327 	}
1328 
1329 	if (oxpcie == 0) {
1330 		mask = bus_read_1(cres, off);
1331 		if (pci_get_function(dev) == 1)
1332 			base = 4;
1333 	}
1334 
1335  setup:
1336 	for (i = 0; i < sc->sc_nports; ++i) {
1337 		device_printf(dev, "port %d: ", i);
1338 		bar = puc_get_bar(sc, cfg->rid + i * cfg->d_rid);
1339 		if (bar == NULL) {
1340 			printf("could not get BAR\n");
1341 			continue;
1342 		}
1343 
1344 		if (fixed == 0) {
1345 			if ((mask & (1 << (base + i))) == 0) {
1346 				acr = 0;
1347 				printf("RS-232\n");
1348 			} else {
1349 				acr = (high == 1 ? 0x18 : 0x10);
1350 				printf("RS-422/RS-485, active-%s auto-DTR\n",
1351 				    high == 1 ? "high" : "low");
1352 			}
1353 		}
1354 
1355 		bus_write_1(bar->b_res, REG_SPR, REG_ACR);
1356 		bus_write_1(bar->b_res, REG_ICR, acr);
1357 	}
1358 
1359 	bus_release_resource(cdev, crtype, rman_get_rid(cres), cres);
1360 	return (0);
1361 }
1362 
1363 static int
1364 puc_config_amc(struct puc_softc *sc __unused, enum puc_cfg_cmd cmd, int port,
1365     intptr_t *res)
1366 {
1367 
1368 	switch (cmd) {
1369 	case PUC_CFG_GET_OFS:
1370 		*res = 8 * (port & 1);
1371 		return (0);
1372 	case PUC_CFG_GET_RID:
1373 		*res = 0x14 + (port >> 1) * 4;
1374 		return (0);
1375 	default:
1376 		break;
1377 	}
1378 	return (ENXIO);
1379 }
1380 
1381 static int
1382 puc_config_diva(struct puc_softc *sc, enum puc_cfg_cmd cmd, int port,
1383     intptr_t *res)
1384 {
1385 	const struct puc_cfg *cfg = sc->sc_cfg;
1386 
1387 	if (cmd == PUC_CFG_GET_OFS) {
1388 		if (cfg->subdevice == 0x1282)		/* Everest SP */
1389 			port <<= 1;
1390 		else if (cfg->subdevice == 0x104b)	/* Maestro SP2 */
1391 			port = (port == 3) ? 4 : port;
1392 		*res = port * 8 + ((port > 2) ? 0x18 : 0);
1393 		return (0);
1394 	}
1395 	return (ENXIO);
1396 }
1397 
1398 static int
1399 puc_config_exar(struct puc_softc *sc __unused, enum puc_cfg_cmd cmd,
1400     int port, intptr_t *res)
1401 {
1402 
1403 	if (cmd == PUC_CFG_GET_OFS) {
1404 		*res = port * 0x200;
1405 		return (0);
1406 	}
1407 	return (ENXIO);
1408 }
1409 
1410 static int
1411 puc_config_exar_pcie(struct puc_softc *sc __unused, enum puc_cfg_cmd cmd,
1412     int port, intptr_t *res)
1413 {
1414 
1415 	if (cmd == PUC_CFG_GET_OFS) {
1416 		*res = port * 0x400;
1417 		return (0);
1418 	}
1419 	return (ENXIO);
1420 }
1421 
1422 static int
1423 puc_config_icbook(struct puc_softc *sc __unused, enum puc_cfg_cmd cmd,
1424     int port __unused, intptr_t *res)
1425 {
1426 
1427 	if (cmd == PUC_CFG_GET_ILR) {
1428 		*res = PUC_ILR_DIGI;
1429 		return (0);
1430 	}
1431 	return (ENXIO);
1432 }
1433 
1434 static int
1435 puc_config_moxa(struct puc_softc *sc, enum puc_cfg_cmd cmd, int port,
1436     intptr_t *res)
1437 {
1438 	const struct puc_cfg *cfg = sc->sc_cfg;
1439 
1440 	if (cmd == PUC_CFG_GET_OFS) {
1441 		if (port == 3 && (cfg->device == 0x1045 ||
1442 		    cfg->device == 0x1144))
1443 			port = 7;
1444 		*res = port * 0x200;
1445 
1446 		return 0;
1447 	}
1448 	return (ENXIO);
1449 }
1450 
1451 static int
1452 puc_config_quatech(struct puc_softc *sc, enum puc_cfg_cmd cmd,
1453     int port __unused, intptr_t *res)
1454 {
1455 	const struct puc_cfg *cfg = sc->sc_cfg;
1456 	struct puc_bar *bar;
1457 	uint8_t v0, v1;
1458 
1459 	switch (cmd) {
1460 	case PUC_CFG_SETUP:
1461 		/*
1462 		 * Check if the scratchpad register is enabled or if the
1463 		 * interrupt status and options registers are active.
1464 		 */
1465 		bar = puc_get_bar(sc, cfg->rid);
1466 		if (bar == NULL)
1467 			return (ENXIO);
1468 		bus_write_1(bar->b_res, REG_LCR, LCR_DLAB);
1469 		bus_write_1(bar->b_res, REG_SPR, 0);
1470 		v0 = bus_read_1(bar->b_res, REG_SPR);
1471 		bus_write_1(bar->b_res, REG_SPR, 0x80 + -cfg->clock);
1472 		v1 = bus_read_1(bar->b_res, REG_SPR);
1473 		bus_write_1(bar->b_res, REG_LCR, 0);
1474 		sc->sc_cfg_data = (v0 << 8) | v1;
1475 		if (v0 == 0 && v1 == 0x80 + -cfg->clock) {
1476 			/*
1477 			 * The SPR register echoed the two values written
1478 			 * by us.  This means that the SPAD jumper is set.
1479 			 */
1480 			device_printf(sc->sc_dev, "warning: extra features "
1481 			    "not usable -- SPAD compatibility enabled\n");
1482 			return (0);
1483 		}
1484 		if (v0 != 0) {
1485 			/*
1486 			 * The first value doesn't match.  This can only mean
1487 			 * that the SPAD jumper is not set and that a non-
1488 			 * standard fixed clock multiplier jumper is set.
1489 			 */
1490 			if (bootverbose)
1491 				device_printf(sc->sc_dev, "fixed clock rate "
1492 				    "multiplier of %d\n", 1 << v0);
1493 			if (v0 < -cfg->clock)
1494 				device_printf(sc->sc_dev, "warning: "
1495 				    "suboptimal fixed clock rate multiplier "
1496 				    "setting\n");
1497 			return (0);
1498 		}
1499 		/*
1500 		 * The first value matched, but the second didn't.  We know
1501 		 * that the SPAD jumper is not set.  We also know that the
1502 		 * clock rate multiplier is software controlled *and* that
1503 		 * we just programmed it to the maximum allowed.
1504 		 */
1505 		if (bootverbose)
1506 			device_printf(sc->sc_dev, "clock rate multiplier of "
1507 			    "%d selected\n", 1 << -cfg->clock);
1508 		return (0);
1509 	case PUC_CFG_GET_CLOCK:
1510 		v0 = (sc->sc_cfg_data >> 8) & 0xff;
1511 		v1 = sc->sc_cfg_data & 0xff;
1512 		if (v0 == 0 && v1 == 0x80 + -cfg->clock) {
1513 			/*
1514 			 * XXX With the SPAD jumper applied, there's no
1515 			 * easy way of knowing if there's also a clock
1516 			 * rate multiplier jumper installed.  Let's hope
1517 			 * not ...
1518 			 */
1519 			*res = DEFAULT_RCLK;
1520 		} else if (v0 == 0) {
1521 			/*
1522 			 * No clock rate multiplier jumper installed,
1523 			 * so we programmed the board with the maximum
1524 			 * multiplier allowed as given to us in the
1525 			 * clock field of the config record (negated).
1526 			 */
1527 			*res = DEFAULT_RCLK << -cfg->clock;
1528 		} else
1529 			*res = DEFAULT_RCLK << v0;
1530 		return (0);
1531 	case PUC_CFG_GET_ILR:
1532 		v0 = (sc->sc_cfg_data >> 8) & 0xff;
1533 		v1 = sc->sc_cfg_data & 0xff;
1534 		*res = (v0 == 0 && v1 == 0x80 + -cfg->clock) ?
1535 		    PUC_ILR_NONE : PUC_ILR_QUATECH;
1536 		return (0);
1537 	default:
1538 		break;
1539 	}
1540 	return (ENXIO);
1541 }
1542 
1543 static int
1544 puc_config_syba(struct puc_softc *sc, enum puc_cfg_cmd cmd, int port,
1545     intptr_t *res)
1546 {
1547 	static int base[] = { 0x251, 0x3f0, 0 };
1548 	const struct puc_cfg *cfg = sc->sc_cfg;
1549 	struct puc_bar *bar;
1550 	int efir, idx, ofs;
1551 	uint8_t v;
1552 
1553 	switch (cmd) {
1554 	case PUC_CFG_SETUP:
1555 		bar = puc_get_bar(sc, cfg->rid);
1556 		if (bar == NULL)
1557 			return (ENXIO);
1558 
1559 		/* configure both W83877TFs */
1560 		bus_write_1(bar->b_res, 0x250, 0x89);
1561 		bus_write_1(bar->b_res, 0x3f0, 0x87);
1562 		bus_write_1(bar->b_res, 0x3f0, 0x87);
1563 		idx = 0;
1564 		while (base[idx] != 0) {
1565 			efir = base[idx];
1566 			bus_write_1(bar->b_res, efir, 0x09);
1567 			v = bus_read_1(bar->b_res, efir + 1);
1568 			if ((v & 0x0f) != 0x0c)
1569 				return (ENXIO);
1570 			bus_write_1(bar->b_res, efir, 0x16);
1571 			v = bus_read_1(bar->b_res, efir + 1);
1572 			bus_write_1(bar->b_res, efir, 0x16);
1573 			bus_write_1(bar->b_res, efir + 1, v | 0x04);
1574 			bus_write_1(bar->b_res, efir, 0x16);
1575 			bus_write_1(bar->b_res, efir + 1, v & ~0x04);
1576 			ofs = base[idx] & 0x300;
1577 			bus_write_1(bar->b_res, efir, 0x23);
1578 			bus_write_1(bar->b_res, efir + 1, (ofs + 0x78) >> 2);
1579 			bus_write_1(bar->b_res, efir, 0x24);
1580 			bus_write_1(bar->b_res, efir + 1, (ofs + 0xf8) >> 2);
1581 			bus_write_1(bar->b_res, efir, 0x25);
1582 			bus_write_1(bar->b_res, efir + 1, (ofs + 0xe8) >> 2);
1583 			bus_write_1(bar->b_res, efir, 0x17);
1584 			bus_write_1(bar->b_res, efir + 1, 0x03);
1585 			bus_write_1(bar->b_res, efir, 0x28);
1586 			bus_write_1(bar->b_res, efir + 1, 0x43);
1587 			idx++;
1588 		}
1589 		bus_write_1(bar->b_res, 0x250, 0xaa);
1590 		bus_write_1(bar->b_res, 0x3f0, 0xaa);
1591 		return (0);
1592 	case PUC_CFG_GET_OFS:
1593 		switch (port) {
1594 		case 0:
1595 			*res = 0x2f8;
1596 			return (0);
1597 		case 1:
1598 			*res = 0x2e8;
1599 			return (0);
1600 		case 2:
1601 			*res = 0x3f8;
1602 			return (0);
1603 		case 3:
1604 			*res = 0x3e8;
1605 			return (0);
1606 		case 4:
1607 			*res = 0x278;
1608 			return (0);
1609 		}
1610 		break;
1611 	default:
1612 		break;
1613 	}
1614 	return (ENXIO);
1615 }
1616 
1617 static int
1618 puc_config_siig(struct puc_softc *sc, enum puc_cfg_cmd cmd, int port,
1619     intptr_t *res)
1620 {
1621 	const struct puc_cfg *cfg = sc->sc_cfg;
1622 
1623 	switch (cmd) {
1624 	case PUC_CFG_GET_OFS:
1625 		if (cfg->ports == PUC_PORT_8S) {
1626 			*res = (port > 4) ? 8 * (port - 4) : 0;
1627 			return (0);
1628 		}
1629 		break;
1630 	case PUC_CFG_GET_RID:
1631 		if (cfg->ports == PUC_PORT_8S) {
1632 			*res = 0x10 + ((port > 4) ? 0x10 : 4 * port);
1633 			return (0);
1634 		}
1635 		if (cfg->ports == PUC_PORT_2S1P) {
1636 			switch (port) {
1637 			case 0: *res = 0x10; return (0);
1638 			case 1: *res = 0x14; return (0);
1639 			case 2: *res = 0x1c; return (0);
1640 			}
1641 		}
1642 		break;
1643 	default:
1644 		break;
1645 	}
1646 	return (ENXIO);
1647 }
1648 
1649 static int
1650 puc_config_timedia(struct puc_softc *sc, enum puc_cfg_cmd cmd, int port,
1651     intptr_t *res)
1652 {
1653 	static const uint16_t dual[] = {
1654 	    0x0002, 0x4036, 0x4037, 0x4038, 0x4078, 0x4079, 0x4085,
1655 	    0x4088, 0x4089, 0x5037, 0x5078, 0x5079, 0x5085, 0x6079,
1656 	    0x7079, 0x8079, 0x8137, 0x8138, 0x8237, 0x8238, 0x9079,
1657 	    0x9137, 0x9138, 0x9237, 0x9238, 0xA079, 0xB079, 0xC079,
1658 	    0xD079, 0
1659 	};
1660 	static const uint16_t quad[] = {
1661 	    0x4055, 0x4056, 0x4095, 0x4096, 0x5056, 0x8156, 0x8157,
1662 	    0x8256, 0x8257, 0x9056, 0x9156, 0x9157, 0x9158, 0x9159,
1663 	    0x9256, 0x9257, 0xA056, 0xA157, 0xA158, 0xA159, 0xB056,
1664 	    0xB157, 0
1665 	};
1666 	static const uint16_t octa[] = {
1667 	    0x4065, 0x4066, 0x5065, 0x5066, 0x8166, 0x9066, 0x9166,
1668 	    0x9167, 0x9168, 0xA066, 0xA167, 0xA168, 0
1669 	};
1670 	static const struct {
1671 		int ports;
1672 		const uint16_t *ids;
1673 	} subdevs[] = {
1674 	    { 2, dual },
1675 	    { 4, quad },
1676 	    { 8, octa },
1677 	    { 0, NULL }
1678 	};
1679 	static char desc[64];
1680 	int dev, id;
1681 	uint16_t subdev;
1682 
1683 	switch (cmd) {
1684 	case PUC_CFG_GET_CLOCK:
1685 		if (port < 2)
1686 			*res = DEFAULT_RCLK * 8;
1687 		else
1688 			*res = DEFAULT_RCLK;
1689 		return (0);
1690 	case PUC_CFG_GET_DESC:
1691 		snprintf(desc, sizeof(desc),
1692 		    "Timedia technology %d Port Serial", (int)sc->sc_cfg_data);
1693 		*res = (intptr_t)desc;
1694 		return (0);
1695 	case PUC_CFG_GET_NPORTS:
1696 		subdev = pci_get_subdevice(sc->sc_dev);
1697 		dev = 0;
1698 		while (subdevs[dev].ports != 0) {
1699 			id = 0;
1700 			while (subdevs[dev].ids[id] != 0) {
1701 				if (subdev == subdevs[dev].ids[id]) {
1702 					sc->sc_cfg_data = subdevs[dev].ports;
1703 					*res = sc->sc_cfg_data;
1704 					return (0);
1705 				}
1706 				id++;
1707 			}
1708 			dev++;
1709 		}
1710 		return (ENXIO);
1711 	case PUC_CFG_GET_OFS:
1712 		*res = (port == 1 || port == 3) ? 8 : 0;
1713 		return (0);
1714 	case PUC_CFG_GET_RID:
1715 		*res = 0x10 + ((port > 3) ? port - 2 : port >> 1) * 4;
1716 		return (0);
1717 	case PUC_CFG_GET_TYPE:
1718 		*res = PUC_TYPE_SERIAL;
1719 		return (0);
1720 	default:
1721 		break;
1722 	}
1723 	return (ENXIO);
1724 }
1725 
1726 static int
1727 puc_config_oxford_pci954(struct puc_softc *sc, enum puc_cfg_cmd cmd,
1728     int port __unused, intptr_t *res)
1729 {
1730 
1731 	switch (cmd) {
1732 	case PUC_CFG_GET_CLOCK:
1733 		/*
1734 		 * OXu16PCI954 use a 14.7456 MHz clock by default while
1735 		 * OX16PCI954 and OXm16PCI954 employ a 1.8432 MHz one.
1736 		 */
1737 		if (pci_get_revid(sc->sc_dev) == 1)
1738 			*res = DEFAULT_RCLK * 8;
1739 		else
1740 			*res = DEFAULT_RCLK;
1741 		return (0);
1742 	default:
1743 		break;
1744 	}
1745 	return (ENXIO);
1746 }
1747 
1748 static int
1749 puc_config_oxford_pcie(struct puc_softc *sc, enum puc_cfg_cmd cmd, int port,
1750     intptr_t *res)
1751 {
1752 	const struct puc_cfg *cfg = sc->sc_cfg;
1753 	int idx;
1754 	struct puc_bar *bar;
1755 	uint8_t value;
1756 
1757 	switch (cmd) {
1758 	case PUC_CFG_SETUP:
1759 		device_printf(sc->sc_dev, "%d UARTs detected\n",
1760 			sc->sc_nports);
1761 
1762 		/* Set UARTs to enhanced mode */
1763 		bar = puc_get_bar(sc, cfg->rid);
1764 		if (bar == NULL)
1765 			return (ENXIO);
1766 		for (idx = 0; idx < sc->sc_nports; idx++) {
1767 			value = bus_read_1(bar->b_res, 0x1000 + (idx << 9) +
1768 			    0x92);
1769 			bus_write_1(bar->b_res, 0x1000 + (idx << 9) + 0x92,
1770 			    value | 0x10);
1771 		}
1772 		return (0);
1773 	case PUC_CFG_GET_LEN:
1774 		*res = 0x200;
1775 		return (0);
1776 	case PUC_CFG_GET_NPORTS:
1777 		/*
1778 		 * Check if we are being called from puc_bfe_attach()
1779 		 * or puc_bfe_probe().  If puc_bfe_probe(), we cannot
1780 		 * puc_get_bar(), so we return a value of 16.  This has
1781 		 * cosmetic side-effects at worst; in PUC_CFG_GET_DESC,
1782 		 * sc->sc_cfg_data will not contain the true number of
1783 		 * ports in PUC_CFG_GET_DESC, but we are not implementing
1784 		 * that call for this device family anyway.
1785 		 *
1786 		 * The check is for initialization of sc->sc_bar[idx],
1787 		 * which is only done in puc_bfe_attach().
1788 		 */
1789 		idx = 0;
1790 		do {
1791 			if (sc->sc_bar[idx++].b_rid != -1) {
1792 				sc->sc_cfg_data = 16;
1793 				*res = sc->sc_cfg_data;
1794 				return (0);
1795 			}
1796 		} while (idx < PUC_PCI_BARS);
1797 
1798 		bar = puc_get_bar(sc, cfg->rid);
1799 		if (bar == NULL)
1800 			return (ENXIO);
1801 
1802 		value = bus_read_1(bar->b_res, 0x04);
1803 		if (value == 0)
1804 			return (ENXIO);
1805 
1806 		sc->sc_cfg_data = value;
1807 		*res = sc->sc_cfg_data;
1808 		return (0);
1809 	case PUC_CFG_GET_OFS:
1810 		*res = 0x1000 + (port << 9);
1811 		return (0);
1812 	case PUC_CFG_GET_TYPE:
1813 		*res = PUC_TYPE_SERIAL;
1814 		return (0);
1815 	default:
1816 		break;
1817 	}
1818 	return (ENXIO);
1819 }
1820 
1821 static int
1822 puc_config_sunix(struct puc_softc *sc, enum puc_cfg_cmd cmd, int port,
1823     intptr_t *res)
1824 {
1825 	int error;
1826 
1827 	switch (cmd) {
1828 	case PUC_CFG_GET_OFS:
1829 		error = puc_config(sc, PUC_CFG_GET_TYPE, port, res);
1830 		if (error != 0)
1831 			return (error);
1832 		*res = (*res == PUC_TYPE_SERIAL) ? (port & 3) * 8 : 0;
1833 		return (0);
1834 	case PUC_CFG_GET_RID:
1835 		error = puc_config(sc, PUC_CFG_GET_TYPE, port, res);
1836 		if (error != 0)
1837 			return (error);
1838 		*res = (*res == PUC_TYPE_SERIAL && port <= 3) ? 0x10 : 0x14;
1839 		return (0);
1840 	default:
1841 		break;
1842 	}
1843 	return (ENXIO);
1844 }
1845 
1846 static int
1847 puc_config_titan(struct puc_softc *sc __unused, enum puc_cfg_cmd cmd,
1848     int port, intptr_t *res)
1849 {
1850 
1851 	switch (cmd) {
1852 	case PUC_CFG_GET_OFS:
1853 		*res = (port < 3) ? 0 : (port - 2) << 3;
1854 		return (0);
1855 	case PUC_CFG_GET_RID:
1856 		*res = 0x14 + ((port >= 2) ? 0x0c : port << 2);
1857 		return (0);
1858 	default:
1859 		break;
1860 	}
1861 	return (ENXIO);
1862 }
1863