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-rw-r--r--drivers/net/chelsio/pm3393.c826
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diff --git a/drivers/net/chelsio/pm3393.c b/drivers/net/chelsio/pm3393.c
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1/*****************************************************************************
2 * *
3 * File: pm3393.c *
4 * $Revision: 1.16 $ *
5 * $Date: 2005/05/14 00:59:32 $ *
6 * Description: *
7 * PMC/SIERRA (pm3393) MAC-PHY functionality. *
8 * part of the Chelsio 10Gb Ethernet Driver. *
9 * *
10 * This program is free software; you can redistribute it and/or modify *
11 * it under the terms of the GNU General Public License, version 2, as *
12 * published by the Free Software Foundation. *
13 * *
14 * You should have received a copy of the GNU General Public License along *
15 * with this program; if not, write to the Free Software Foundation, Inc., *
16 * 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. *
17 * *
18 * THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR IMPLIED *
19 * WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED WARRANTIES OF *
20 * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. *
21 * *
22 * http://www.chelsio.com *
23 * *
24 * Copyright (c) 2003 - 2005 Chelsio Communications, Inc. *
25 * All rights reserved. *
26 * *
27 * Maintainers: maintainers@chelsio.com *
28 * *
29 * Authors: Dimitrios Michailidis <dm@chelsio.com> *
30 * Tina Yang <tainay@chelsio.com> *
31 * Felix Marti <felix@chelsio.com> *
32 * Scott Bardone <sbardone@chelsio.com> *
33 * Kurt Ottaway <kottaway@chelsio.com> *
34 * Frank DiMambro <frank@chelsio.com> *
35 * *
36 * History: *
37 * *
38 ****************************************************************************/
39
40#include "common.h"
41#include "regs.h"
42#include "gmac.h"
43#include "elmer0.h"
44#include "suni1x10gexp_regs.h"
45
46/* 802.3ae 10Gb/s MDIO Manageable Device(MMD)
47 */
48enum {
49 MMD_RESERVED,
50 MMD_PMAPMD,
51 MMD_WIS,
52 MMD_PCS,
53 MMD_PHY_XGXS, /* XGMII Extender Sublayer */
54 MMD_DTE_XGXS,
55};
56
57enum {
58 PHY_XGXS_CTRL_1,
59 PHY_XGXS_STATUS_1
60};
61
62#define OFFSET(REG_ADDR) (REG_ADDR << 2)
63
64/* Max frame size PM3393 can handle. Includes Ethernet header and CRC. */
65#define MAX_FRAME_SIZE 9600
66
67#define IPG 12
68#define TXXG_CONF1_VAL ((IPG << SUNI1x10GEXP_BITOFF_TXXG_IPGT) | \
69 SUNI1x10GEXP_BITMSK_TXXG_32BIT_ALIGN | SUNI1x10GEXP_BITMSK_TXXG_CRCEN | \
70 SUNI1x10GEXP_BITMSK_TXXG_PADEN)
71#define RXXG_CONF1_VAL (SUNI1x10GEXP_BITMSK_RXXG_PUREP | 0x14 | \
72 SUNI1x10GEXP_BITMSK_RXXG_FLCHK | SUNI1x10GEXP_BITMSK_RXXG_CRC_STRIP)
73
74/* Update statistics every 15 minutes */
75#define STATS_TICK_SECS (15 * 60)
76
77enum { /* RMON registers */
78 RxOctetsReceivedOK = SUNI1x10GEXP_REG_MSTAT_COUNTER_1_LOW,
79 RxUnicastFramesReceivedOK = SUNI1x10GEXP_REG_MSTAT_COUNTER_4_LOW,
80 RxMulticastFramesReceivedOK = SUNI1x10GEXP_REG_MSTAT_COUNTER_5_LOW,
81 RxBroadcastFramesReceivedOK = SUNI1x10GEXP_REG_MSTAT_COUNTER_6_LOW,
82 RxPAUSEMACCtrlFramesReceived = SUNI1x10GEXP_REG_MSTAT_COUNTER_8_LOW,
83 RxFrameCheckSequenceErrors = SUNI1x10GEXP_REG_MSTAT_COUNTER_10_LOW,
84 RxFramesLostDueToInternalMACErrors = SUNI1x10GEXP_REG_MSTAT_COUNTER_11_LOW,
85 RxSymbolErrors = SUNI1x10GEXP_REG_MSTAT_COUNTER_12_LOW,
86 RxInRangeLengthErrors = SUNI1x10GEXP_REG_MSTAT_COUNTER_13_LOW,
87 RxFramesTooLongErrors = SUNI1x10GEXP_REG_MSTAT_COUNTER_15_LOW,
88 RxJabbers = SUNI1x10GEXP_REG_MSTAT_COUNTER_16_LOW,
89 RxFragments = SUNI1x10GEXP_REG_MSTAT_COUNTER_17_LOW,
90 RxUndersizedFrames = SUNI1x10GEXP_REG_MSTAT_COUNTER_18_LOW,
91
92 TxOctetsTransmittedOK = SUNI1x10GEXP_REG_MSTAT_COUNTER_33_LOW,
93 TxFramesLostDueToInternalMACTransmissionError = SUNI1x10GEXP_REG_MSTAT_COUNTER_35_LOW,
94 TxTransmitSystemError = SUNI1x10GEXP_REG_MSTAT_COUNTER_36_LOW,
95 TxUnicastFramesTransmittedOK = SUNI1x10GEXP_REG_MSTAT_COUNTER_38_LOW,
96 TxMulticastFramesTransmittedOK = SUNI1x10GEXP_REG_MSTAT_COUNTER_40_LOW,
97 TxBroadcastFramesTransmittedOK = SUNI1x10GEXP_REG_MSTAT_COUNTER_42_LOW,
98 TxPAUSEMACCtrlFramesTransmitted = SUNI1x10GEXP_REG_MSTAT_COUNTER_43_LOW
99};
100
101struct _cmac_instance {
102 u8 enabled;
103 u8 fc;
104 u8 mac_addr[6];
105};
106
107static int pmread(struct cmac *cmac, u32 reg, u32 * data32)
108{
109 t1_tpi_read(cmac->adapter, OFFSET(reg), data32);
110 return 0;
111}
112
113static int pmwrite(struct cmac *cmac, u32 reg, u32 data32)
114{
115 t1_tpi_write(cmac->adapter, OFFSET(reg), data32);
116 return 0;
117}
118
119/* Port reset. */
120static int pm3393_reset(struct cmac *cmac)
121{
122 return 0;
123}
124
125/*
126 * Enable interrupts for the PM3393
127
128 1. Enable PM3393 BLOCK interrupts.
129 2. Enable PM3393 Master Interrupt bit(INTE)
130 3. Enable ELMER's PM3393 bit.
131 4. Enable Terminator external interrupt.
132*/
133static int pm3393_interrupt_enable(struct cmac *cmac)
134{
135 u32 pl_intr;
136
137 /* PM3393 - Enabling all hardware block interrupts.
138 */
139 pmwrite(cmac, SUNI1x10GEXP_REG_SERDES_3125_INTERRUPT_ENABLE, 0xffff);
140 pmwrite(cmac, SUNI1x10GEXP_REG_XRF_INTERRUPT_ENABLE, 0xffff);
141 pmwrite(cmac, SUNI1x10GEXP_REG_XRF_DIAG_INTERRUPT_ENABLE, 0xffff);
142 pmwrite(cmac, SUNI1x10GEXP_REG_RXOAM_INTERRUPT_ENABLE, 0xffff);
143
144 /* Don't interrupt on statistics overflow, we are polling */
145 pmwrite(cmac, SUNI1x10GEXP_REG_MSTAT_INTERRUPT_MASK_0, 0);
146 pmwrite(cmac, SUNI1x10GEXP_REG_MSTAT_INTERRUPT_MASK_1, 0);
147 pmwrite(cmac, SUNI1x10GEXP_REG_MSTAT_INTERRUPT_MASK_2, 0);
148 pmwrite(cmac, SUNI1x10GEXP_REG_MSTAT_INTERRUPT_MASK_3, 0);
149
150 pmwrite(cmac, SUNI1x10GEXP_REG_IFLX_FIFO_OVERFLOW_ENABLE, 0xffff);
151 pmwrite(cmac, SUNI1x10GEXP_REG_PL4ODP_INTERRUPT_MASK, 0xffff);
152 pmwrite(cmac, SUNI1x10GEXP_REG_XTEF_INTERRUPT_ENABLE, 0xffff);
153 pmwrite(cmac, SUNI1x10GEXP_REG_TXOAM_INTERRUPT_ENABLE, 0xffff);
154 pmwrite(cmac, SUNI1x10GEXP_REG_RXXG_CONFIG_3, 0xffff);
155 pmwrite(cmac, SUNI1x10GEXP_REG_PL4IO_LOCK_DETECT_MASK, 0xffff);
156 pmwrite(cmac, SUNI1x10GEXP_REG_TXXG_CONFIG_3, 0xffff);
157 pmwrite(cmac, SUNI1x10GEXP_REG_PL4IDU_INTERRUPT_MASK, 0xffff);
158 pmwrite(cmac, SUNI1x10GEXP_REG_EFLX_FIFO_OVERFLOW_ERROR_ENABLE, 0xffff);
159
160 /* PM3393 - Global interrupt enable
161 */
162 /* TBD XXX Disable for now until we figure out why error interrupts keep asserting. */
163 pmwrite(cmac, SUNI1x10GEXP_REG_GLOBAL_INTERRUPT_ENABLE,
164 0 /*SUNI1x10GEXP_BITMSK_TOP_INTE */ );
165
166 /* TERMINATOR - PL_INTERUPTS_EXT */
167 pl_intr = readl(cmac->adapter->regs + A_PL_ENABLE);
168 pl_intr |= F_PL_INTR_EXT;
169 writel(pl_intr, cmac->adapter->regs + A_PL_ENABLE);
170 return 0;
171}
172
173static int pm3393_interrupt_disable(struct cmac *cmac)
174{
175 u32 elmer;
176
177 /* PM3393 - Enabling HW interrupt blocks. */
178 pmwrite(cmac, SUNI1x10GEXP_REG_SERDES_3125_INTERRUPT_ENABLE, 0);
179 pmwrite(cmac, SUNI1x10GEXP_REG_XRF_INTERRUPT_ENABLE, 0);
180 pmwrite(cmac, SUNI1x10GEXP_REG_XRF_DIAG_INTERRUPT_ENABLE, 0);
181 pmwrite(cmac, SUNI1x10GEXP_REG_RXOAM_INTERRUPT_ENABLE, 0);
182 pmwrite(cmac, SUNI1x10GEXP_REG_MSTAT_INTERRUPT_MASK_0, 0);
183 pmwrite(cmac, SUNI1x10GEXP_REG_MSTAT_INTERRUPT_MASK_1, 0);
184 pmwrite(cmac, SUNI1x10GEXP_REG_MSTAT_INTERRUPT_MASK_2, 0);
185 pmwrite(cmac, SUNI1x10GEXP_REG_MSTAT_INTERRUPT_MASK_3, 0);
186 pmwrite(cmac, SUNI1x10GEXP_REG_IFLX_FIFO_OVERFLOW_ENABLE, 0);
187 pmwrite(cmac, SUNI1x10GEXP_REG_PL4ODP_INTERRUPT_MASK, 0);
188 pmwrite(cmac, SUNI1x10GEXP_REG_XTEF_INTERRUPT_ENABLE, 0);
189 pmwrite(cmac, SUNI1x10GEXP_REG_TXOAM_INTERRUPT_ENABLE, 0);
190 pmwrite(cmac, SUNI1x10GEXP_REG_RXXG_CONFIG_3, 0);
191 pmwrite(cmac, SUNI1x10GEXP_REG_PL4IO_LOCK_DETECT_MASK, 0);
192 pmwrite(cmac, SUNI1x10GEXP_REG_TXXG_CONFIG_3, 0);
193 pmwrite(cmac, SUNI1x10GEXP_REG_PL4IDU_INTERRUPT_MASK, 0);
194 pmwrite(cmac, SUNI1x10GEXP_REG_EFLX_FIFO_OVERFLOW_ERROR_ENABLE, 0);
195
196 /* PM3393 - Global interrupt enable */
197 pmwrite(cmac, SUNI1x10GEXP_REG_GLOBAL_INTERRUPT_ENABLE, 0);
198
199 /* ELMER - External chip interrupts. */
200 t1_tpi_read(cmac->adapter, A_ELMER0_INT_ENABLE, &elmer);
201 elmer &= ~ELMER0_GP_BIT1;
202 t1_tpi_write(cmac->adapter, A_ELMER0_INT_ENABLE, elmer);
203
204 /* TERMINATOR - PL_INTERUPTS_EXT */
205 /* DO NOT DISABLE TERMINATOR's EXTERNAL INTERRUPTS. ANOTHER CHIP
206 * COULD WANT THEM ENABLED. We disable PM3393 at the ELMER level.
207 */
208
209 return 0;
210}
211
212static int pm3393_interrupt_clear(struct cmac *cmac)
213{
214 u32 elmer;
215 u32 pl_intr;
216 u32 val32;
217
218 /* PM3393 - Clearing HW interrupt blocks. Note, this assumes
219 * bit WCIMODE=0 for a clear-on-read.
220 */
221 pmread(cmac, SUNI1x10GEXP_REG_SERDES_3125_INTERRUPT_STATUS, &val32);
222 pmread(cmac, SUNI1x10GEXP_REG_XRF_INTERRUPT_STATUS, &val32);
223 pmread(cmac, SUNI1x10GEXP_REG_XRF_DIAG_INTERRUPT_STATUS, &val32);
224 pmread(cmac, SUNI1x10GEXP_REG_RXOAM_INTERRUPT_STATUS, &val32);
225 pmread(cmac, SUNI1x10GEXP_REG_PL4ODP_INTERRUPT, &val32);
226 pmread(cmac, SUNI1x10GEXP_REG_XTEF_INTERRUPT_STATUS, &val32);
227 pmread(cmac, SUNI1x10GEXP_REG_IFLX_FIFO_OVERFLOW_INTERRUPT, &val32);
228 pmread(cmac, SUNI1x10GEXP_REG_TXOAM_INTERRUPT_STATUS, &val32);
229 pmread(cmac, SUNI1x10GEXP_REG_RXXG_INTERRUPT, &val32);
230 pmread(cmac, SUNI1x10GEXP_REG_TXXG_INTERRUPT, &val32);
231 pmread(cmac, SUNI1x10GEXP_REG_PL4IDU_INTERRUPT, &val32);
232 pmread(cmac, SUNI1x10GEXP_REG_EFLX_FIFO_OVERFLOW_ERROR_INDICATION,
233 &val32);
234 pmread(cmac, SUNI1x10GEXP_REG_PL4IO_LOCK_DETECT_STATUS, &val32);
235 pmread(cmac, SUNI1x10GEXP_REG_PL4IO_LOCK_DETECT_CHANGE, &val32);
236
237 /* PM3393 - Global interrupt status
238 */
239 pmread(cmac, SUNI1x10GEXP_REG_MASTER_INTERRUPT_STATUS, &val32);
240
241 /* ELMER - External chip interrupts.
242 */
243 t1_tpi_read(cmac->adapter, A_ELMER0_INT_CAUSE, &elmer);
244 elmer |= ELMER0_GP_BIT1;
245 t1_tpi_write(cmac->adapter, A_ELMER0_INT_CAUSE, elmer);
246
247 /* TERMINATOR - PL_INTERUPTS_EXT
248 */
249 pl_intr = readl(cmac->adapter->regs + A_PL_CAUSE);
250 pl_intr |= F_PL_INTR_EXT;
251 writel(pl_intr, cmac->adapter->regs + A_PL_CAUSE);
252
253 return 0;
254}
255
256/* Interrupt handler */
257static int pm3393_interrupt_handler(struct cmac *cmac)
258{
259 u32 master_intr_status;
260/*
261 1. Read master interrupt register.
262 2. Read BLOCK's interrupt status registers.
263 3. Handle BLOCK interrupts.
264*/
265 /* Read the master interrupt status register. */
266 pmread(cmac, SUNI1x10GEXP_REG_MASTER_INTERRUPT_STATUS,
267 &master_intr_status);
268
269 /* TBD XXX Lets just clear everything for now */
270 pm3393_interrupt_clear(cmac);
271
272 return 0;
273}
274
275static int pm3393_enable(struct cmac *cmac, int which)
276{
277 if (which & MAC_DIRECTION_RX)
278 pmwrite(cmac, SUNI1x10GEXP_REG_RXXG_CONFIG_1,
279 (RXXG_CONF1_VAL | SUNI1x10GEXP_BITMSK_RXXG_RXEN));
280
281 if (which & MAC_DIRECTION_TX) {
282 u32 val = TXXG_CONF1_VAL | SUNI1x10GEXP_BITMSK_TXXG_TXEN0;
283
284 if (cmac->instance->fc & PAUSE_RX)
285 val |= SUNI1x10GEXP_BITMSK_TXXG_FCRX;
286 if (cmac->instance->fc & PAUSE_TX)
287 val |= SUNI1x10GEXP_BITMSK_TXXG_FCTX;
288 pmwrite(cmac, SUNI1x10GEXP_REG_TXXG_CONFIG_1, val);
289 }
290
291 cmac->instance->enabled |= which;
292 return 0;
293}
294
295static int pm3393_enable_port(struct cmac *cmac, int which)
296{
297 /* Clear port statistics */
298 pmwrite(cmac, SUNI1x10GEXP_REG_MSTAT_CONTROL,
299 SUNI1x10GEXP_BITMSK_MSTAT_CLEAR);
300 udelay(2);
301 memset(&cmac->stats, 0, sizeof(struct cmac_statistics));
302
303 pm3393_enable(cmac, which);
304
305 /*
306 * XXX This should be done by the PHY and preferrably not at all.
307 * The PHY doesn't give us link status indication on its own so have
308 * the link management code query it instead.
309 */
310 {
311 extern void link_changed(adapter_t *adapter, int port_id);
312
313 link_changed(cmac->adapter, 0);
314 }
315 return 0;
316}
317
318static int pm3393_disable(struct cmac *cmac, int which)
319{
320 if (which & MAC_DIRECTION_RX)
321 pmwrite(cmac, SUNI1x10GEXP_REG_RXXG_CONFIG_1, RXXG_CONF1_VAL);
322 if (which & MAC_DIRECTION_TX)
323 pmwrite(cmac, SUNI1x10GEXP_REG_TXXG_CONFIG_1, TXXG_CONF1_VAL);
324
325 /*
326 * The disable is graceful. Give the PM3393 time. Can't wait very
327 * long here, we may be holding locks.
328 */
329 udelay(20);
330
331 cmac->instance->enabled &= ~which;
332 return 0;
333}
334
335static int pm3393_loopback_enable(struct cmac *cmac)
336{
337 return 0;
338}
339
340static int pm3393_loopback_disable(struct cmac *cmac)
341{
342 return 0;
343}
344
345static int pm3393_set_mtu(struct cmac *cmac, int mtu)
346{
347 int enabled = cmac->instance->enabled;
348
349 /* MAX_FRAME_SIZE includes header + FCS, mtu doesn't */
350 mtu += 14 + 4;
351 if (mtu > MAX_FRAME_SIZE)
352 return -EINVAL;
353
354 /* Disable Rx/Tx MAC before configuring it. */
355 if (enabled)
356 pm3393_disable(cmac, MAC_DIRECTION_RX | MAC_DIRECTION_TX);
357
358 pmwrite(cmac, SUNI1x10GEXP_REG_RXXG_MAX_FRAME_LENGTH, mtu);
359 pmwrite(cmac, SUNI1x10GEXP_REG_TXXG_MAX_FRAME_SIZE, mtu);
360
361 if (enabled)
362 pm3393_enable(cmac, enabled);
363 return 0;
364}
365
366static u32 calc_crc(u8 *b, int len)
367{
368 int i;
369 u32 crc = (u32)~0;
370
371 /* calculate crc one bit at a time */
372 while (len--) {
373 crc ^= *b++;
374 for (i = 0; i < 8; i++) {
375 if (crc & 0x1)
376 crc = (crc >> 1) ^ 0xedb88320;
377 else
378 crc = (crc >> 1);
379 }
380 }
381
382 /* reverse bits */
383 crc = ((crc >> 4) & 0x0f0f0f0f) | ((crc << 4) & 0xf0f0f0f0);
384 crc = ((crc >> 2) & 0x33333333) | ((crc << 2) & 0xcccccccc);
385 crc = ((crc >> 1) & 0x55555555) | ((crc << 1) & 0xaaaaaaaa);
386 /* swap bytes */
387 crc = (crc >> 16) | (crc << 16);
388 crc = (crc >> 8 & 0x00ff00ff) | (crc << 8 & 0xff00ff00);
389
390 return crc;
391}
392
393static int pm3393_set_rx_mode(struct cmac *cmac, struct t1_rx_mode *rm)
394{
395 int enabled = cmac->instance->enabled & MAC_DIRECTION_RX;
396 u32 rx_mode;
397
398 /* Disable MAC RX before reconfiguring it */
399 if (enabled)
400 pm3393_disable(cmac, MAC_DIRECTION_RX);
401
402 pmread(cmac, SUNI1x10GEXP_REG_RXXG_ADDRESS_FILTER_CONTROL_2, &rx_mode);
403 rx_mode &= ~(SUNI1x10GEXP_BITMSK_RXXG_PMODE |
404 SUNI1x10GEXP_BITMSK_RXXG_MHASH_EN);
405 pmwrite(cmac, SUNI1x10GEXP_REG_RXXG_ADDRESS_FILTER_CONTROL_2,
406 (u16)rx_mode);
407
408 if (t1_rx_mode_promisc(rm)) {
409 /* Promiscuous mode. */
410 rx_mode |= SUNI1x10GEXP_BITMSK_RXXG_PMODE;
411 }
412 if (t1_rx_mode_allmulti(rm)) {
413 /* Accept all multicast. */
414 pmwrite(cmac, SUNI1x10GEXP_REG_RXXG_MULTICAST_HASH_LOW, 0xffff);
415 pmwrite(cmac, SUNI1x10GEXP_REG_RXXG_MULTICAST_HASH_MIDLOW, 0xffff);
416 pmwrite(cmac, SUNI1x10GEXP_REG_RXXG_MULTICAST_HASH_MIDHIGH, 0xffff);
417 pmwrite(cmac, SUNI1x10GEXP_REG_RXXG_MULTICAST_HASH_HIGH, 0xffff);
418 rx_mode |= SUNI1x10GEXP_BITMSK_RXXG_MHASH_EN;
419 } else if (t1_rx_mode_mc_cnt(rm)) {
420 /* Accept one or more multicast(s). */
421 u8 *addr;
422 int bit;
423 u16 mc_filter[4] = { 0, };
424
425 while ((addr = t1_get_next_mcaddr(rm))) {
426 bit = (calc_crc(addr, ETH_ALEN) >> 23) & 0x3f; /* bit[23:28] */
427 mc_filter[bit >> 4] |= 1 << (bit & 0xf);
428 }
429 pmwrite(cmac, SUNI1x10GEXP_REG_RXXG_MULTICAST_HASH_LOW, mc_filter[0]);
430 pmwrite(cmac, SUNI1x10GEXP_REG_RXXG_MULTICAST_HASH_MIDLOW, mc_filter[1]);
431 pmwrite(cmac, SUNI1x10GEXP_REG_RXXG_MULTICAST_HASH_MIDHIGH, mc_filter[2]);
432 pmwrite(cmac, SUNI1x10GEXP_REG_RXXG_MULTICAST_HASH_HIGH, mc_filter[3]);
433 rx_mode |= SUNI1x10GEXP_BITMSK_RXXG_MHASH_EN;
434 }
435
436 pmwrite(cmac, SUNI1x10GEXP_REG_RXXG_ADDRESS_FILTER_CONTROL_2, (u16)rx_mode);
437
438 if (enabled)
439 pm3393_enable(cmac, MAC_DIRECTION_RX);
440
441 return 0;
442}
443
444static int pm3393_get_speed_duplex_fc(struct cmac *cmac, int *speed,
445 int *duplex, int *fc)
446{
447 if (speed)
448 *speed = SPEED_10000;
449 if (duplex)
450 *duplex = DUPLEX_FULL;
451 if (fc)
452 *fc = cmac->instance->fc;
453 return 0;
454}
455
456static int pm3393_set_speed_duplex_fc(struct cmac *cmac, int speed, int duplex,
457 int fc)
458{
459 if (speed >= 0 && speed != SPEED_10000)
460 return -1;
461 if (duplex >= 0 && duplex != DUPLEX_FULL)
462 return -1;
463 if (fc & ~(PAUSE_TX | PAUSE_RX))
464 return -1;
465
466 if (fc != cmac->instance->fc) {
467 cmac->instance->fc = (u8) fc;
468 if (cmac->instance->enabled & MAC_DIRECTION_TX)
469 pm3393_enable(cmac, MAC_DIRECTION_TX);
470 }
471 return 0;
472}
473
474#define RMON_UPDATE(mac, name, stat_name) \
475 { \
476 t1_tpi_read((mac)->adapter, OFFSET(name), &val0); \
477 t1_tpi_read((mac)->adapter, OFFSET(((name)+1)), &val1); \
478 t1_tpi_read((mac)->adapter, OFFSET(((name)+2)), &val2); \
479 (mac)->stats.stat_name = ((u64)val0 & 0xffff) | \
480 (((u64)val1 & 0xffff) << 16) | \
481 (((u64)val2 & 0xff) << 32) | \
482 ((mac)->stats.stat_name & \
483 (~(u64)0 << 40)); \
484 if (ro & \
485 ((name - SUNI1x10GEXP_REG_MSTAT_COUNTER_0_LOW) >> 2)) \
486 (mac)->stats.stat_name += ((u64)1 << 40); \
487 }
488
489static const struct cmac_statistics *pm3393_update_statistics(struct cmac *mac,
490 int flag)
491{
492 u64 ro;
493 u32 val0, val1, val2, val3;
494
495 /* Snap the counters */
496 pmwrite(mac, SUNI1x10GEXP_REG_MSTAT_CONTROL,
497 SUNI1x10GEXP_BITMSK_MSTAT_SNAP);
498
499 /* Counter rollover, clear on read */
500 pmread(mac, SUNI1x10GEXP_REG_MSTAT_COUNTER_ROLLOVER_0, &val0);
501 pmread(mac, SUNI1x10GEXP_REG_MSTAT_COUNTER_ROLLOVER_1, &val1);
502 pmread(mac, SUNI1x10GEXP_REG_MSTAT_COUNTER_ROLLOVER_2, &val2);
503 pmread(mac, SUNI1x10GEXP_REG_MSTAT_COUNTER_ROLLOVER_3, &val3);
504 ro = ((u64)val0 & 0xffff) | (((u64)val1 & 0xffff) << 16) |
505 (((u64)val2 & 0xffff) << 32) | (((u64)val3 & 0xffff) << 48);
506
507 /* Rx stats */
508 RMON_UPDATE(mac, RxOctetsReceivedOK, RxOctetsOK);
509 RMON_UPDATE(mac, RxUnicastFramesReceivedOK, RxUnicastFramesOK);
510 RMON_UPDATE(mac, RxMulticastFramesReceivedOK, RxMulticastFramesOK);
511 RMON_UPDATE(mac, RxBroadcastFramesReceivedOK, RxBroadcastFramesOK);
512 RMON_UPDATE(mac, RxPAUSEMACCtrlFramesReceived, RxPauseFrames);
513 RMON_UPDATE(mac, RxFrameCheckSequenceErrors, RxFCSErrors);
514 RMON_UPDATE(mac, RxFramesLostDueToInternalMACErrors,
515 RxInternalMACRcvError);
516 RMON_UPDATE(mac, RxSymbolErrors, RxSymbolErrors);
517 RMON_UPDATE(mac, RxInRangeLengthErrors, RxInRangeLengthErrors);
518 RMON_UPDATE(mac, RxFramesTooLongErrors , RxFrameTooLongErrors);
519 RMON_UPDATE(mac, RxJabbers, RxJabberErrors);
520 RMON_UPDATE(mac, RxFragments, RxRuntErrors);
521 RMON_UPDATE(mac, RxUndersizedFrames, RxRuntErrors);
522
523 /* Tx stats */
524 RMON_UPDATE(mac, TxOctetsTransmittedOK, TxOctetsOK);
525 RMON_UPDATE(mac, TxFramesLostDueToInternalMACTransmissionError,
526 TxInternalMACXmitError);
527 RMON_UPDATE(mac, TxTransmitSystemError, TxFCSErrors);
528 RMON_UPDATE(mac, TxUnicastFramesTransmittedOK, TxUnicastFramesOK);
529 RMON_UPDATE(mac, TxMulticastFramesTransmittedOK, TxMulticastFramesOK);
530 RMON_UPDATE(mac, TxBroadcastFramesTransmittedOK, TxBroadcastFramesOK);
531 RMON_UPDATE(mac, TxPAUSEMACCtrlFramesTransmitted, TxPauseFrames);
532
533 return &mac->stats;
534}
535
536static int pm3393_macaddress_get(struct cmac *cmac, u8 mac_addr[6])
537{
538 memcpy(mac_addr, cmac->instance->mac_addr, 6);
539 return 0;
540}
541
542static int pm3393_macaddress_set(struct cmac *cmac, u8 ma[6])
543{
544 u32 val, lo, mid, hi, enabled = cmac->instance->enabled;
545
546 /*
547 * MAC addr: 00:07:43:00:13:09
548 *
549 * ma[5] = 0x09
550 * ma[4] = 0x13
551 * ma[3] = 0x00
552 * ma[2] = 0x43
553 * ma[1] = 0x07
554 * ma[0] = 0x00
555 *
556 * The PM3393 requires byte swapping and reverse order entry
557 * when programming MAC addresses:
558 *
559 * low_bits[15:0] = ma[1]:ma[0]
560 * mid_bits[31:16] = ma[3]:ma[2]
561 * high_bits[47:32] = ma[5]:ma[4]
562 */
563
564 /* Store local copy */
565 memcpy(cmac->instance->mac_addr, ma, 6);
566
567 lo = ((u32) ma[1] << 8) | (u32) ma[0];
568 mid = ((u32) ma[3] << 8) | (u32) ma[2];
569 hi = ((u32) ma[5] << 8) | (u32) ma[4];
570
571 /* Disable Rx/Tx MAC before configuring it. */
572 if (enabled)
573 pm3393_disable(cmac, MAC_DIRECTION_RX | MAC_DIRECTION_TX);
574
575 /* Set RXXG Station Address */
576 pmwrite(cmac, SUNI1x10GEXP_REG_RXXG_SA_15_0, lo);
577 pmwrite(cmac, SUNI1x10GEXP_REG_RXXG_SA_31_16, mid);
578 pmwrite(cmac, SUNI1x10GEXP_REG_RXXG_SA_47_32, hi);
579
580 /* Set TXXG Station Address */
581 pmwrite(cmac, SUNI1x10GEXP_REG_TXXG_SA_15_0, lo);
582 pmwrite(cmac, SUNI1x10GEXP_REG_TXXG_SA_31_16, mid);
583 pmwrite(cmac, SUNI1x10GEXP_REG_TXXG_SA_47_32, hi);
584
585 /* Setup Exact Match Filter 1 with our MAC address
586 *
587 * Must disable exact match filter before configuring it.
588 */
589 pmread(cmac, SUNI1x10GEXP_REG_RXXG_ADDRESS_FILTER_CONTROL_0, &val);
590 val &= 0xff0f;
591 pmwrite(cmac, SUNI1x10GEXP_REG_RXXG_ADDRESS_FILTER_CONTROL_0, val);
592
593 pmwrite(cmac, SUNI1x10GEXP_REG_RXXG_EXACT_MATCH_ADDR_1_LOW, lo);
594 pmwrite(cmac, SUNI1x10GEXP_REG_RXXG_EXACT_MATCH_ADDR_1_MID, mid);
595 pmwrite(cmac, SUNI1x10GEXP_REG_RXXG_EXACT_MATCH_ADDR_1_HIGH, hi);
596
597 val |= 0x0090;
598 pmwrite(cmac, SUNI1x10GEXP_REG_RXXG_ADDRESS_FILTER_CONTROL_0, val);
599
600 if (enabled)
601 pm3393_enable(cmac, enabled);
602 return 0;
603}
604
605static void pm3393_destroy(struct cmac *cmac)
606{
607 kfree(cmac);
608}
609
610static struct cmac_ops pm3393_ops = {
611 .destroy = pm3393_destroy,
612 .reset = pm3393_reset,
613 .interrupt_enable = pm3393_interrupt_enable,
614 .interrupt_disable = pm3393_interrupt_disable,
615 .interrupt_clear = pm3393_interrupt_clear,
616 .interrupt_handler = pm3393_interrupt_handler,
617 .enable = pm3393_enable_port,
618 .disable = pm3393_disable,
619 .loopback_enable = pm3393_loopback_enable,
620 .loopback_disable = pm3393_loopback_disable,
621 .set_mtu = pm3393_set_mtu,
622 .set_rx_mode = pm3393_set_rx_mode,
623 .get_speed_duplex_fc = pm3393_get_speed_duplex_fc,
624 .set_speed_duplex_fc = pm3393_set_speed_duplex_fc,
625 .statistics_update = pm3393_update_statistics,
626 .macaddress_get = pm3393_macaddress_get,
627 .macaddress_set = pm3393_macaddress_set
628};
629
630static struct cmac *pm3393_mac_create(adapter_t *adapter, int index)
631{
632 struct cmac *cmac;
633
634 cmac = kmalloc(sizeof(*cmac) + sizeof(cmac_instance), GFP_KERNEL);
635 if (!cmac)
636 return NULL;
637 memset(cmac, 0, sizeof(*cmac));
638
639 cmac->ops = &pm3393_ops;
640 cmac->instance = (cmac_instance *) (cmac + 1);
641 cmac->adapter = adapter;
642 cmac->instance->fc = PAUSE_TX | PAUSE_RX;
643
644 t1_tpi_write(adapter, OFFSET(0x0001), 0x00008000);
645 t1_tpi_write(adapter, OFFSET(0x0001), 0x00000000);
646 t1_tpi_write(adapter, OFFSET(0x2308), 0x00009800);
647 t1_tpi_write(adapter, OFFSET(0x2305), 0x00001001); /* PL4IO Enable */
648 t1_tpi_write(adapter, OFFSET(0x2320), 0x00008800);
649 t1_tpi_write(adapter, OFFSET(0x2321), 0x00008800);
650 t1_tpi_write(adapter, OFFSET(0x2322), 0x00008800);
651 t1_tpi_write(adapter, OFFSET(0x2323), 0x00008800);
652 t1_tpi_write(adapter, OFFSET(0x2324), 0x00008800);
653 t1_tpi_write(adapter, OFFSET(0x2325), 0x00008800);
654 t1_tpi_write(adapter, OFFSET(0x2326), 0x00008800);
655 t1_tpi_write(adapter, OFFSET(0x2327), 0x00008800);
656 t1_tpi_write(adapter, OFFSET(0x2328), 0x00008800);
657 t1_tpi_write(adapter, OFFSET(0x2329), 0x00008800);
658 t1_tpi_write(adapter, OFFSET(0x232a), 0x00008800);
659 t1_tpi_write(adapter, OFFSET(0x232b), 0x00008800);
660 t1_tpi_write(adapter, OFFSET(0x232c), 0x00008800);
661 t1_tpi_write(adapter, OFFSET(0x232d), 0x00008800);
662 t1_tpi_write(adapter, OFFSET(0x232e), 0x00008800);
663 t1_tpi_write(adapter, OFFSET(0x232f), 0x00008800);
664 t1_tpi_write(adapter, OFFSET(0x230d), 0x00009c00);
665 t1_tpi_write(adapter, OFFSET(0x2304), 0x00000202); /* PL4IO Calendar Repetitions */
666
667 t1_tpi_write(adapter, OFFSET(0x3200), 0x00008080); /* EFLX Enable */
668 t1_tpi_write(adapter, OFFSET(0x3210), 0x00000000); /* EFLX Channel Deprovision */
669 t1_tpi_write(adapter, OFFSET(0x3203), 0x00000000); /* EFLX Low Limit */
670 t1_tpi_write(adapter, OFFSET(0x3204), 0x00000040); /* EFLX High Limit */
671 t1_tpi_write(adapter, OFFSET(0x3205), 0x000002cc); /* EFLX Almost Full */
672 t1_tpi_write(adapter, OFFSET(0x3206), 0x00000199); /* EFLX Almost Empty */
673 t1_tpi_write(adapter, OFFSET(0x3207), 0x00000240); /* EFLX Cut Through Threshold */
674 t1_tpi_write(adapter, OFFSET(0x3202), 0x00000000); /* EFLX Indirect Register Update */
675 t1_tpi_write(adapter, OFFSET(0x3210), 0x00000001); /* EFLX Channel Provision */
676 t1_tpi_write(adapter, OFFSET(0x3208), 0x0000ffff); /* EFLX Undocumented */
677 t1_tpi_write(adapter, OFFSET(0x320a), 0x0000ffff); /* EFLX Undocumented */
678 t1_tpi_write(adapter, OFFSET(0x320c), 0x0000ffff); /* EFLX enable overflow interrupt The other bit are undocumented */
679 t1_tpi_write(adapter, OFFSET(0x320e), 0x0000ffff); /* EFLX Undocumented */
680
681 t1_tpi_write(adapter, OFFSET(0x2200), 0x0000c000); /* IFLX Configuration - enable */
682 t1_tpi_write(adapter, OFFSET(0x2201), 0x00000000); /* IFLX Channel Deprovision */
683 t1_tpi_write(adapter, OFFSET(0x220e), 0x00000000); /* IFLX Low Limit */
684 t1_tpi_write(adapter, OFFSET(0x220f), 0x00000100); /* IFLX High Limit */
685 t1_tpi_write(adapter, OFFSET(0x2210), 0x00000c00); /* IFLX Almost Full Limit */
686 t1_tpi_write(adapter, OFFSET(0x2211), 0x00000599); /* IFLX Almost Empty Limit */
687 t1_tpi_write(adapter, OFFSET(0x220d), 0x00000000); /* IFLX Indirect Register Update */
688 t1_tpi_write(adapter, OFFSET(0x2201), 0x00000001); /* IFLX Channel Provision */
689 t1_tpi_write(adapter, OFFSET(0x2203), 0x0000ffff); /* IFLX Undocumented */
690 t1_tpi_write(adapter, OFFSET(0x2205), 0x0000ffff); /* IFLX Undocumented */
691 t1_tpi_write(adapter, OFFSET(0x2209), 0x0000ffff); /* IFLX Enable overflow interrupt. The other bit are undocumented */
692
693 t1_tpi_write(adapter, OFFSET(0x2241), 0xfffffffe); /* PL4MOS Undocumented */
694 t1_tpi_write(adapter, OFFSET(0x2242), 0x0000ffff); /* PL4MOS Undocumented */
695 t1_tpi_write(adapter, OFFSET(0x2243), 0x00000008); /* PL4MOS Starving Burst Size */
696 t1_tpi_write(adapter, OFFSET(0x2244), 0x00000008); /* PL4MOS Hungry Burst Size */
697 t1_tpi_write(adapter, OFFSET(0x2245), 0x00000008); /* PL4MOS Transfer Size */
698 t1_tpi_write(adapter, OFFSET(0x2240), 0x00000005); /* PL4MOS Disable */
699
700 t1_tpi_write(adapter, OFFSET(0x2280), 0x00002103); /* PL4ODP Training Repeat and SOP rule */
701 t1_tpi_write(adapter, OFFSET(0x2284), 0x00000000); /* PL4ODP MAX_T setting */
702
703 t1_tpi_write(adapter, OFFSET(0x3280), 0x00000087); /* PL4IDU Enable data forward, port state machine. Set ALLOW_NON_ZERO_OLB */
704 t1_tpi_write(adapter, OFFSET(0x3282), 0x0000001f); /* PL4IDU Enable Dip4 check error interrupts */
705
706 t1_tpi_write(adapter, OFFSET(0x3040), 0x0c32); /* # TXXG Config */
707 /* For T1 use timer based Mac flow control. */
708 t1_tpi_write(adapter, OFFSET(0x304d), 0x8000);
709 t1_tpi_write(adapter, OFFSET(0x2040), 0x059c); /* # RXXG Config */
710 t1_tpi_write(adapter, OFFSET(0x2049), 0x0001); /* # RXXG Cut Through */
711 t1_tpi_write(adapter, OFFSET(0x2070), 0x0000); /* # Disable promiscuous mode */
712
713 /* Setup Exact Match Filter 0 to allow broadcast packets.
714 */
715 t1_tpi_write(adapter, OFFSET(0x206e), 0x0000); /* # Disable Match Enable bit */
716 t1_tpi_write(adapter, OFFSET(0x204a), 0xffff); /* # low addr */
717 t1_tpi_write(adapter, OFFSET(0x204b), 0xffff); /* # mid addr */
718 t1_tpi_write(adapter, OFFSET(0x204c), 0xffff); /* # high addr */
719 t1_tpi_write(adapter, OFFSET(0x206e), 0x0009); /* # Enable Match Enable bit */
720
721 t1_tpi_write(adapter, OFFSET(0x0003), 0x0000); /* # NO SOP/ PAD_EN setup */
722 t1_tpi_write(adapter, OFFSET(0x0100), 0x0ff0); /* # RXEQB disabled */
723 t1_tpi_write(adapter, OFFSET(0x0101), 0x0f0f); /* # No Preemphasis */
724
725 return cmac;
726}
727
728static int pm3393_mac_reset(adapter_t * adapter)
729{
730 u32 val;
731 u32 x;
732 u32 is_pl4_reset_finished;
733 u32 is_pl4_outof_lock;
734 u32 is_xaui_mabc_pll_locked;
735 u32 successful_reset;
736 int i;
737
738 /* The following steps are required to properly reset
739 * the PM3393. This information is provided in the
740 * PM3393 datasheet (Issue 2: November 2002)
741 * section 13.1 -- Device Reset.
742 *
743 * The PM3393 has three types of components that are
744 * individually reset:
745 *
746 * DRESETB - Digital circuitry
747 * PL4_ARESETB - PL4 analog circuitry
748 * XAUI_ARESETB - XAUI bus analog circuitry
749 *
750 * Steps to reset PM3393 using RSTB pin:
751 *
752 * 1. Assert RSTB pin low ( write 0 )
753 * 2. Wait at least 1ms to initiate a complete initialization of device.
754 * 3. Wait until all external clocks and REFSEL are stable.
755 * 4. Wait minimum of 1ms. (after external clocks and REFEL are stable)
756 * 5. De-assert RSTB ( write 1 )
757 * 6. Wait until internal timers to expires after ~14ms.
758 * - Allows analog clock synthesizer(PL4CSU) to stabilize to
759 * selected reference frequency before allowing the digital
760 * portion of the device to operate.
761 * 7. Wait at least 200us for XAUI interface to stabilize.
762 * 8. Verify the PM3393 came out of reset successfully.
763 * Set successful reset flag if everything worked else try again
764 * a few more times.
765 */
766
767 successful_reset = 0;
768 for (i = 0; i < 3 && !successful_reset; i++) {
769 /* 1 */
770 t1_tpi_read(adapter, A_ELMER0_GPO, &val);
771 val &= ~1;
772 t1_tpi_write(adapter, A_ELMER0_GPO, val);
773
774 /* 2 */
775 msleep(1);
776
777 /* 3 */
778 msleep(1);
779
780 /* 4 */
781 msleep(2 /*1 extra ms for safety */ );
782
783 /* 5 */
784 val |= 1;
785 t1_tpi_write(adapter, A_ELMER0_GPO, val);
786
787 /* 6 */
788 msleep(15 /*1 extra ms for safety */ );
789
790 /* 7 */
791 msleep(1);
792
793 /* 8 */
794
795 /* Has PL4 analog block come out of reset correctly? */
796 t1_tpi_read(adapter, OFFSET(SUNI1x10GEXP_REG_DEVICE_STATUS), &val);
797 is_pl4_reset_finished = (val & SUNI1x10GEXP_BITMSK_TOP_EXPIRED);
798
799 /* TBD XXX SUNI1x10GEXP_BITMSK_TOP_PL4_IS_DOOL gets locked later in the init sequence
800 * figure out why? */
801
802 /* Have all PL4 block clocks locked? */
803 x = (SUNI1x10GEXP_BITMSK_TOP_PL4_ID_DOOL
804 /*| SUNI1x10GEXP_BITMSK_TOP_PL4_IS_DOOL */ |
805 SUNI1x10GEXP_BITMSK_TOP_PL4_ID_ROOL |
806 SUNI1x10GEXP_BITMSK_TOP_PL4_IS_ROOL |
807 SUNI1x10GEXP_BITMSK_TOP_PL4_OUT_ROOL);
808 is_pl4_outof_lock = (val & x);
809
810 /* ??? If this fails, might be able to software reset the XAUI part
811 * and try to recover... thus saving us from doing another HW reset */
812 /* Has the XAUI MABC PLL circuitry stablized? */
813 is_xaui_mabc_pll_locked =
814 (val & SUNI1x10GEXP_BITMSK_TOP_SXRA_EXPIRED);
815
816 successful_reset = (is_pl4_reset_finished && !is_pl4_outof_lock
817 && is_xaui_mabc_pll_locked);
818 }
819 return successful_reset ? 0 : 1;
820}
821
822struct gmac t1_pm3393_ops = {
823 STATS_TICK_SECS,
824 pm3393_mac_create,
825 pm3393_mac_reset
826};