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[openwrt.git] / package / switch / src / switch-adm.c
1 /*
2 * ADMTEK Adm6996 switch configuration module
3 *
4 * Copyright (C) 2005 Felix Fietkau <nbd@nbd.name>
5 *
6 * Partially based on Broadcom Home Networking Division 10/100 Mbit/s
7 * Ethernet Device Driver (from Montavista 2.4.20_mvl31 Kernel).
8 * Copyright (C) 2004 Broadcom Corporation
9 *
10 * adm_rreg function from adm6996
11 * Copyright (C) 2004 Nikki Chumakov <nikki@gattaca.ru>
12 *
13 * This program is free software; you can redistribute it and/or
14 * modify it under the terms of the GNU General Public License
15 * as published by the Free Software Foundation; either version 2
16 * of the License, or (at your option) any later version.
17 *
18 * This program is distributed in the hope that it will be useful,
19 * but WITHOUT ANY WARRANTY; without even the implied warranty of
20 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
21 * GNU General Public License for more details.
22 *
23 * You should have received a copy of the GNU General Public License
24 * along with this program; if not, write to the Free Software
25 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
26 * 02110-1301, USA.
27 */
28
29 #include <linux/autoconf.h>
30 #include <linux/module.h>
31 #include <linux/init.h>
32 #include <linux/if.h>
33 #include <linux/if_arp.h>
34 #include <linux/sockios.h>
35 #include <linux/delay.h>
36 #include <asm/uaccess.h>
37
38 #include "switch-core.h"
39 #include "gpio.h"
40
41 #define DRIVER_NAME "adm6996"
42 #define DRIVER_VERSION "0.01"
43
44 static int eecs = 0;
45 static int eesk = 0;
46 static int eedi = 0;
47 static int eerc = 0;
48 static int force = 0;
49
50 MODULE_AUTHOR("Felix Fietkau <openwrt@nbd.name>");
51 MODULE_LICENSE("GPL");
52 #if LINUX_VERSION_CODE >= KERNEL_VERSION(2,5,52)
53 module_param(eecs, int, 0);
54 module_param(eesk, int, 0);
55 module_param(eedi, int, 0);
56 module_param(eerc, int, 0);
57 module_param(force, int, 0);
58 #else
59 MODULE_PARM(eecs, "i");
60 MODULE_PARM(eesk, "i");
61 MODULE_PARM(eedi, "i");
62 MODULE_PARM(eerc, "i");
63 MODULE_PARM(force, "i");
64 #endif
65
66 /* Minimum timing constants */
67 #define EECK_EDGE_TIME 3 /* 3us - max(adm 2.5us, 93c 1us) */
68 #define EEDI_SETUP_TIME 1 /* 1us - max(adm 10ns, 93c 400ns) */
69 #define EECS_SETUP_TIME 1 /* 1us - max(adm no, 93c 200ns) */
70
71 /* Handy macros for writing fixed length values */
72 #define adm_write8(cs, b) { __u8 val = (__u8) (b); adm_write(cs, &val, sizeof(val)*8); }
73 #define adm_write16(cs, w) { __u16 val = hton16(w); adm_write(cs, (__u8 *)&val, sizeof(val)*8); }
74 #define adm_write32(cs, i) { uint32 val = hton32(i); adm_write(cs, (__u8 *)&val, sizeof(val)*8); }
75
76 #define atoi(str) simple_strtoul(((str != NULL) ? str : ""), NULL, 0)
77
78 #if defined(BCMGPIO2) || defined(BCMGPIO)
79 extern char *nvram_get(char *name);
80
81 /* Return gpio pin number assigned to the named pin */
82 /*
83 * Variable should be in format:
84 *
85 * gpio<N>=pin_name
86 *
87 * 'def_pin' is returned if there is no such variable found.
88 */
89 static unsigned int getgpiopin(char *pin_name, unsigned int def_pin)
90 {
91 char name[] = "gpioXXXX";
92 char *val;
93 unsigned int pin;
94
95 /* Go thru all possibilities till a match in pin name */
96 for (pin = 0; pin < 16; pin ++) {
97 sprintf(name, "gpio%d", pin);
98 val = nvram_get(name);
99 if (val && !strcmp(val, pin_name))
100 return pin;
101 }
102 return def_pin;
103 }
104 #endif
105
106
107 static void adm_write(int cs, char *buf, unsigned int bits)
108 {
109 int i, len = (bits + 7) / 8;
110 __u8 mask;
111
112 gpioout(eecs, (cs ? eecs : 0));
113 udelay(EECK_EDGE_TIME);
114
115 /* Byte assemble from MSB to LSB */
116 for (i = 0; i < len; i++) {
117 /* Bit bang from MSB to LSB */
118 for (mask = 0x80; mask && bits > 0; mask >>= 1, bits --) {
119 /* Clock low */
120 gpioout(eesk, 0);
121 udelay(EECK_EDGE_TIME);
122
123 /* Output on rising edge */
124 gpioout(eedi, ((mask & buf[i]) ? eedi : 0));
125 udelay(EEDI_SETUP_TIME);
126
127 /* Clock high */
128 gpioout(eesk, eesk);
129 udelay(EECK_EDGE_TIME);
130 }
131 }
132
133 /* Clock low */
134 gpioout(eesk, 0);
135 udelay(EECK_EDGE_TIME);
136
137 if (cs)
138 gpioout(eecs, 0);
139 }
140
141
142 static void adm_read(int cs, char *buf, unsigned int bits)
143 {
144 int i, len = (bits + 7) / 8;
145 __u8 mask;
146
147 gpioout(eecs, (cs ? eecs : 0));
148 udelay(EECK_EDGE_TIME);
149
150 /* Byte assemble from MSB to LSB */
151 for (i = 0; i < len; i++) {
152 __u8 byte;
153
154 /* Bit bang from MSB to LSB */
155 for (mask = 0x80, byte = 0; mask && bits > 0; mask >>= 1, bits --) {
156 __u8 gp;
157
158 /* Clock low */
159 gpioout(eesk, 0);
160 udelay(EECK_EDGE_TIME);
161
162 /* Input on rising edge */
163 gp = gpioin();
164 if (gp & eedi)
165 byte |= mask;
166
167 /* Clock high */
168 gpioout(eesk, eesk);
169 udelay(EECK_EDGE_TIME);
170 }
171
172 *buf++ = byte;
173 }
174
175 /* Clock low */
176 gpioout(eesk, 0);
177 udelay(EECK_EDGE_TIME);
178
179 if (cs)
180 gpioout(eecs, 0);
181 }
182
183
184 /* Enable outputs with specified value to the chip */
185 static void adm_enout(__u8 pins, __u8 val)
186 {
187 /* Prepare GPIO output value */
188 gpioout(pins, val);
189
190 /* Enable GPIO outputs */
191 gpioouten(pins, pins);
192 udelay(EECK_EDGE_TIME);
193 }
194
195
196 /* Disable outputs to the chip */
197 static void adm_disout(__u8 pins)
198 {
199 /* Disable GPIO outputs */
200 gpioouten(pins, 0);
201 udelay(EECK_EDGE_TIME);
202 }
203
204
205 /* Advance clock(s) */
206 static void adm_adclk(int clocks)
207 {
208 int i;
209 for (i = 0; i < clocks; i++) {
210 /* Clock high */
211 gpioout(eesk, eesk);
212 udelay(EECK_EDGE_TIME);
213
214 /* Clock low */
215 gpioout(eesk, 0);
216 udelay(EECK_EDGE_TIME);
217 }
218 }
219
220 static __u32 adm_rreg(__u8 table, __u8 addr)
221 {
222 /* cmd: 01 10 T DD R RRRRRR */
223 __u8 bits[6] = {
224 0xFF, 0xFF, 0xFF, 0xFF,
225 (0x06 << 4) | ((table & 0x01) << 3 | (addr&64)>>6),
226 ((addr&63)<<2)
227 };
228
229 __u8 rbits[4];
230
231 /* Enable GPIO outputs with all pins to 0 */
232 adm_enout((__u8)(eecs | eesk | eedi), 0);
233
234 adm_write(0, bits, 46);
235 adm_disout((__u8)(eedi));
236 adm_adclk(2);
237 adm_read (0, rbits, 32);
238
239 /* Extra clock(s) required per datasheet */
240 adm_adclk(2);
241
242 /* Disable GPIO outputs */
243 adm_disout((__u8)(eecs | eesk));
244
245 if (!table) /* EEPROM has 16-bit registers, but pumps out two registers in one request */
246 return (addr & 0x01 ? (rbits[0]<<8) | rbits[1] : (rbits[2]<<8) | (rbits[3]));
247 else
248 return (rbits[0]<<24) | (rbits[1]<<16) | (rbits[2]<<8) | rbits[3];
249 }
250
251
252
253 /* Write chip configuration register */
254 /* Follow 93c66 timing and chip's min EEPROM timing requirement */
255 void
256 adm_wreg(__u8 addr, __u16 val)
257 {
258 /* cmd(27bits): sb(1) + opc(01) + addr(bbbbbbbb) + data(bbbbbbbbbbbbbbbb) */
259 __u8 bits[4] = {
260 (0x05 << 5) | (addr >> 3),
261 (addr << 5) | (__u8)(val >> 11),
262 (__u8)(val >> 3),
263 (__u8)(val << 5)
264 };
265
266 /* Enable GPIO outputs with all pins to 0 */
267 adm_enout((__u8)(eecs | eesk | eedi), 0);
268
269 /* Write cmd. Total 27 bits */
270 adm_write(1, bits, 27);
271
272 /* Extra clock(s) required per datasheet */
273 adm_adclk(2);
274
275 /* Disable GPIO outputs */
276 adm_disout((__u8)(eecs | eesk | eedi));
277 }
278
279
280 /* Port configuration registers */
281 static int port_conf[] = { 0x01, 0x03, 0x05, 0x07, 0x08, 0x09 };
282
283 /* Bits in VLAN port mapping */
284 static int vlan_ports[] = { 1 << 0, 1 << 2, 1 << 4, 1 << 6, 1 << 7, 1 << 8 };
285
286 static int handle_vlan_port_read(void *driver, char *buf, int nr)
287 {
288 int ports, i, c, len = 0;
289
290 if ((nr < 0) || (nr > 15))
291 return 0;
292
293 /* Get VLAN port map */
294 ports = adm_rreg(0, 0x13 + nr);
295
296 for (i = 0; i <= 5; i++) {
297 if (ports & vlan_ports[i]) {
298 c = adm_rreg(0, port_conf[i]);
299
300 len += sprintf(buf + len, "%d", i);
301 if (c & (1 << 4)) {
302 buf[len++] = 't';
303 if (((c & (0xf << 10)) >> 10) == nr)
304 buf[len++] = '*';
305 } else if (i == 5)
306 buf[len++] = 'u';
307
308 buf[len++] = '\t';
309 }
310 }
311 len += sprintf(buf + len, "\n");
312
313 return len;
314 }
315
316 static int handle_vlan_port_write(void *driver, char *buf, int nr)
317 {
318 int i, cfg, ports;
319 switch_driver *d = (switch_driver *) driver;
320 switch_vlan_config *c = switch_parse_vlan(d, buf);
321
322 if (c == NULL)
323 return -1;
324
325 ports = adm_rreg(0, 0x13 + nr);
326 for (i = 0; i < d->ports; i++) {
327 if (c->port & (1 << i)) {
328 ports |= vlan_ports[i];
329
330 cfg = adm_rreg(0, port_conf[i]);
331
332 /* Tagging */
333 if (c->untag & (1 << i))
334 cfg &= ~(1 << 4);
335 else
336 cfg |= (1 << 4);
337
338 if ((c->untag | c->pvid) & (1 << i)) {
339 cfg = (cfg & ~(0xf << 10)) | (nr << 10);
340 }
341
342 adm_wreg(port_conf[i], (__u16) cfg);
343 } else {
344 ports &= ~(vlan_ports[i]);
345 }
346 }
347 adm_wreg(0x13 + nr, (__u16) ports);
348
349 return 0;
350 }
351
352 static int handle_port_enable_read(void *driver, char *buf, int nr)
353 {
354 return sprintf(buf, "%d\n", ((adm_rreg(0, port_conf[nr]) & (1 << 5)) ? 0 : 1));
355 }
356
357 static int handle_port_enable_write(void *driver, char *buf, int nr)
358 {
359 int reg = adm_rreg(0, port_conf[nr]);
360
361 if (buf[0] == '0')
362 reg |= (1 << 5);
363 else if (buf[0] == '1')
364 reg &= ~(1 << 5);
365 else return -1;
366
367 adm_wreg(port_conf[nr], (__u16) reg);
368 return 0;
369 }
370
371 static int handle_port_media_read(void *driver, char *buf, int nr)
372 {
373 int len;
374 int media = 0;
375 int reg = adm_rreg(0, port_conf[nr]);
376
377 if (reg & (1 << 1))
378 media |= SWITCH_MEDIA_AUTO;
379 if (reg & (1 << 2))
380 media |= SWITCH_MEDIA_100;
381 if (reg & (1 << 3))
382 media |= SWITCH_MEDIA_FD;
383
384 len = switch_print_media(buf, media);
385 return len + sprintf(buf + len, "\n");
386 }
387
388 static int handle_port_media_write(void *driver, char *buf, int nr)
389 {
390 int media = switch_parse_media(buf);
391 int reg = adm_rreg(0, port_conf[nr]);
392
393 if (media < 0)
394 return -1;
395
396 reg &= ~((1 << 1) | (1 << 2) | (1 << 3));
397 if (media & SWITCH_MEDIA_AUTO)
398 reg |= 1 << 1;
399 if (media & SWITCH_MEDIA_100)
400 reg |= 1 << 2;
401 if (media & SWITCH_MEDIA_FD)
402 reg |= 1 << 3;
403
404 adm_wreg(port_conf[nr], reg);
405
406 return 0;
407 }
408
409 static int handle_vlan_enable_read(void *driver, char *buf, int nr)
410 {
411 return sprintf(buf, "%d\n", ((adm_rreg(0, 0x11) & (1 << 5)) ? 1 : 0));
412 }
413
414 static int handle_vlan_enable_write(void *driver, char *buf, int nr)
415 {
416 int reg = adm_rreg(0, 0x11);
417
418 if (buf[0] == '1')
419 reg |= (1 << 5);
420 else if (buf[0] == '0')
421 reg &= ~(1 << 5);
422 else return -1;
423
424 adm_wreg(0x11, (__u16) reg);
425 return 0;
426 }
427
428 static int handle_reset(void *driver, char *buf, int nr)
429 {
430 int i;
431 u32 cfg;
432
433 /*
434 * Reset sequence: RC high->low(100ms)->high(30ms)
435 *
436 * WAR: Certain boards don't have the correct power on
437 * reset logic therefore we must explicitly perform the
438 * sequence in software.
439 */
440 if (eerc) {
441 /* Keep RC high for at least 20ms */
442 adm_enout(eerc, eerc);
443 for (i = 0; i < 20; i ++)
444 udelay(1000);
445 /* Keep RC low for at least 100ms */
446 adm_enout(eerc, 0);
447 for (i = 0; i < 100; i++)
448 udelay(1000);
449 /* Set default configuration */
450 adm_enout((__u8)(eesk | eedi), eesk);
451 /* Keep RC high for at least 30ms */
452 adm_enout(eerc, eerc);
453 for (i = 0; i < 30; i++)
454 udelay(1000);
455 /* Leave RC high and disable GPIO outputs */
456 adm_disout((__u8)(eecs | eesk | eedi));
457
458 }
459
460 /* set up initial configuration for cpu port */
461 cfg = (0x8000 | /* Auto MDIX */
462 (0xf << 10) | /* PVID */
463 (1 << 4) | /* Tagging */
464 0xf); /* full duplex, 100Mbps, auto neg, flow ctrl */
465 adm_wreg(port_conf[5], cfg);
466
467 /* vlan mode select register (0x11): vlan on, mac clone */
468 adm_wreg(0x11, 0xff30);
469
470 return 0;
471 }
472
473 static int handle_registers(void *driver, char *buf, int nr)
474 {
475 int i, len = 0;
476
477 for (i = 0; i <= 0x33; i++) {
478 len += sprintf(buf + len, "0x%02x: 0x%04x\n", i, adm_rreg(0, i));
479 }
480
481 return len;
482 }
483
484 static int handle_counters(void *driver, char *buf, int nr)
485 {
486 int i, len = 0;
487
488 for (i = 0; i <= 0x3c; i++) {
489 len += sprintf(buf + len, "0x%02x: 0x%08x\n", i, adm_rreg(1, i));
490 }
491
492 return len;
493 }
494
495 static int detect_adm(void)
496 {
497 int ret = 0;
498
499 #if defined(BCMGPIO2) || defined(BCMGPIO)
500 int boardflags = atoi(nvram_get("boardflags"));
501 int boardnum = atoi(nvram_get("boardnum"));
502
503 if (boardnum == 44) { /* Trendware TEW-411BRP+ */
504 ret = 1;
505
506 eecs = getgpiopin("adm_eecs", 2);
507 eesk = getgpiopin("adm_eesk", 3);
508 eedi = getgpiopin("adm_eedi", 4);
509 eerc = getgpiopin("adm_rc", 5);
510
511 } else if ((boardflags & 0x80) || force) {
512 ret = 1;
513
514 eecs = getgpiopin("adm_eecs", 2);
515 eesk = getgpiopin("adm_eesk", 3);
516 eedi = getgpiopin("adm_eedi", 4);
517 eerc = getgpiopin("adm_rc", 0);
518
519 } else if ((strcmp(nvram_get("boardtype") ?: "", "bcm94710dev") == 0) &&
520 (strncmp(nvram_get("boardnum") ?: "", "42", 2) == 0)) {
521 /* WRT54G v1.1 hack */
522 eecs = 2;
523 eesk = 3;
524 eedi = 5;
525
526 ret = 1;
527 } else
528 printk("BFL_ENETADM not set in boardflags. Use force=1 to ignore.\n");
529
530 if (eecs)
531 eecs = (1 << eecs);
532 if (eesk)
533 eesk = (1 << eesk);
534 if (eedi)
535 eedi = (1 << eedi);
536 if (eerc)
537 eerc = (1 << eerc);
538 #else
539 ret = 1;
540 #endif
541
542 return ret;
543 }
544
545 static int __init adm_init(void)
546 {
547 switch_config cfg[] = {
548 {"registers", handle_registers, NULL},
549 {"counters", handle_counters, NULL},
550 {"reset", NULL, handle_reset},
551 {"enable_vlan", handle_vlan_enable_read, handle_vlan_enable_write},
552 {NULL, NULL, NULL}
553 };
554 switch_config port[] = {
555 {"enable", handle_port_enable_read, handle_port_enable_write},
556 {"media", handle_port_media_read, handle_port_media_write},
557 {NULL, NULL, NULL}
558 };
559 switch_config vlan[] = {
560 {"ports", handle_vlan_port_read, handle_vlan_port_write},
561 {NULL, NULL, NULL}
562 };
563 switch_driver driver = {
564 name: DRIVER_NAME,
565 version: DRIVER_VERSION,
566 interface: "eth0",
567 ports: 6,
568 cpuport: 5,
569 vlans: 16,
570 driver_handlers: cfg,
571 port_handlers: port,
572 vlan_handlers: vlan,
573 };
574
575 if (!detect_adm())
576 return -ENODEV;
577
578 return switch_register_driver(&driver);
579 }
580
581 static void __exit adm_exit(void)
582 {
583 switch_unregister_driver(DRIVER_NAME);
584 }
585
586
587 module_init(adm_init);
588 module_exit(adm_exit);
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