xref: /illumos-gate/usr/src/uts/common/sys/nxge/nxge_phy_hw.h (revision bc3489c0c3dc75477d8ebb93b7a202625bd8cbfd)
1 /*
2  * CDDL HEADER START
3  *
4  * The contents of this file are subject to the terms of the
5  * Common Development and Distribution License (the "License").
6  * You may not use this file except in compliance with the License.
7  *
8  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9  * or http://www.opensolaris.org/os/licensing.
10  * See the License for the specific language governing permissions
11  * and limitations under the License.
12  *
13  * When distributing Covered Code, include this CDDL HEADER in each
14  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15  * If applicable, add the following below this CDDL HEADER, with the
16  * fields enclosed by brackets "[]" replaced with your own identifying
17  * information: Portions Copyright [yyyy] [name of copyright owner]
18  *
19  * CDDL HEADER END
20  */
21 /*
22  * Copyright 2008 Sun Microsystems, Inc.  All rights reserved.
23  * Use is subject to license terms.
24  */
25 
26 #ifndef	_SYS_NXGE_NXGE_PHY_HW_H
27 #define	_SYS_NXGE_NXGE_PHY_HW_H
28 
29 #ifdef	__cplusplus
30 extern "C" {
31 #endif
32 
33 #include <nxge_defs.h>
34 
35 /*
36  * Clause 45 and Clause 22 port/phy addresses 0 through 5 are reserved
37  * for on-chip serdes. So here the starting port is 6.
38  */
39 #define	NXGE_MAX_PHY_PORTS		32
40 #define	NXGE_EXT_PHY_PORT_ST		6
41 
42 #define	NXGE_PMA_PMD_DEV_ADDR		1
43 #define	NXGE_PCS_DEV_ADDR		3
44 #define	NXGE_DEV_ID_REG_1		2
45 #define	NXGE_DEV_ID_REG_2		3
46 #define	NXGE_PHY_ID_REG_1		2
47 #define	NXGE_PHY_ID_REG_2		3
48 
49 #define	BCM8704_CHIP_ID			0x8704
50 #define	BCM8706_CHIP_ID			0x8706
51 #define	MRVL88X201X_CHIP_ID		0x5043
52 
53 /*
54  * Description of BCM_PHY_ID_MASK:
55  * The first nibble (bits 0 through 3) is changed with every revision
56  * of the silicon. So these bits are masked out to support future revisions
57  * of the same chip. The third nibble (bits 8 through 11) is changed for
58  * different chips of the same family. So these bits are masked out to
59  * support chips of the same family.
60  */
61 #define	BCM_PHY_ID_MASK			0xfffff0f0
62 #define	BCM8704_DEV_ID			0x206033
63 #define	BCM5464R_PHY_ID			0x2060b1
64 #define	BCM8706_DEV_ID			0x206035
65 #define	BCM5482_PHY_ID			0x143bcb1
66 #define	MARVELL_88X_201X_DEV_ID		0x1410d24
67 #define	MARVELL_88X201X_PHY_ID	(MARVELL_88X_201X_DEV_ID & BCM_PHY_ID_MASK)
68 #define	PHY_BCM8704_FAMILY		(BCM8704_DEV_ID & BCM_PHY_ID_MASK)
69 #define	PHY_BCM5464R_FAMILY		(BCM5464R_PHY_ID & BCM_PHY_ID_MASK)
70 #define	PHY_BCM5482_FAMILY		(BCM5482_PHY_ID & BCM_PHY_ID_MASK)
71 /*
72  * The default value is 0xa19410, after masking out model and revision
73  * (bits[9:0]) use 0xa19400 for any model or revision of the TN1010
74  */
75 #define	TN1010_DEV_ID			0xa19400
76 /*
77  * Description of TN1010_DEV_ID_MASK:
78  * The device ID assigned to Teranetics is stored in TN1010 register
79  * 1.2 and register 1.3 except bits[9:4] of register 1.3 for model number
80  * and bits[3:0] of register 1.3 for revision numbers. Use mask 0xfffffc00
81  * to mask off model number and revision number and keep TN1010's device
82  * identifier
83  */
84 #define	TN1010_DEV_ID_MASK		0xfffffc00
85 
86 #define	CLAUSE_45_TYPE	1
87 #define	CLAUSE_22_TYPE	2
88 
89 /* IEEE802.3 Clause45 and Clause22 MDIO port addresses */
90 #define	NEPTUNE_CLAUSE22_PORT_ADDR_BASE		10
91 #define	NEPTUNE_CLAUSE45_PORT_ADDR_BASE		8
92 #define	N2_CLAUSE45_PORT_ADDR_BASE		16
93 #define	MRVL88X2011_NEPTUNE_PORT_ADDR_BASE	8
94 
95 /*
96  * Phy address for the second NIU port on Goa NEM card can be either
97  * 20 or 17
98  */
99 #define	GOA_CLAUSE45_PORT_ADDR_BASE		16
100 #define	ALT_GOA_CLAUSE45_PORT1_ADDR		20
101 /*
102  * Phy addresses for Maramba support. Support for P0 will eventually
103  * be removed.
104  */
105 #define	MARAMBA_P0_CLAUSE22_PORT_ADDR_BASE	10
106 #define	MARAMBA_P1_CLAUSE22_PORT_ADDR_BASE	26
107 #define	MARAMBA_CLAUSE45_PORT_ADDR_BASE		16
108 
109 #define	BCM8704_PMA_PMD_DEV_ADDR		1
110 #define	BCM8704_PCS_DEV_ADDR			3
111 #define	BCM8704_USER_DEV3_ADDR			3
112 #define	BCM8704_PHYXS_ADDR			4
113 #define	BCM8704_USER_DEV4_ADDR			4
114 
115 /* Definitions for BCM 5464R PHY chip */
116 
117 #define	BCM5464R_PHY_ECR	16
118 #define	BCM5464R_PHY_ESR	17
119 #define	BCM5464R_RXERR_CNT	18
120 #define	BCM5464R_FALSECS_CNT	19
121 #define	BCM5464R_RX_NOTOK_CNT	20
122 #define	BCM5464R_ER_DATA	21
123 #define	BCM5464R_RES		22
124 #define	BCM5464R_ER_ACC		23
125 #define	BCM5464R_AUX_CTL	24
126 #define	BCM5464R_AUX_S		25
127 #define	BCM5464R_INTR_S		26
128 #define	BCM5464R_INTR_M		27
129 #define	BCM5464R_MISC		28
130 #define	BCM5464R_MISC1		29
131 #define	BCM5464R_TESTR1		30
132 
133 #define	PHY_BCM_5464R_OUI	0x001018
134 #define	PHY_BCM_5464R_MODEL	0x0B
135 
136 /* MARVELL PHY Definitions */
137 /* REG Offsets */
138 #define	MRVL_88X2011_USER_DEV1_ADDR	1
139 #define	MRVL_88X2011_USER_DEV2_ADDR	2
140 #define	MRVL_88X2011_USER_DEV3_ADDR	3
141 #define	MRVL_88X2011_USER_DEV4_ADDR	4
142 #define	MRVL_88X2011_PMA_PMD_CTL_1	0x0000
143 #define	MRVL_88X2011_PMA_PMD_STAT_1	0x0001
144 #define	MRVL_88X2011_10G_PMD_STAT_2	0x0008
145 #define	MRVL_88X2011_10G_PMD_TX_DIS	0x0009
146 #define	MRVL_88X2011_10G_XGXS_LANE_STAT	0x0018
147 #define	MRVL_88X2011_GEN_CTL		0x8300
148 #define	MRVL_88X2011_LED_BLINK_CTL	0x8303
149 #define	MRVL_88X2011_LED_8_TO_11_CTL	0x8306
150 
151 /* MRVL88X2011 register control */
152 #define	MRVL_88X2011_ENA_PMDTX		0x0000
153 #define	MRVL_88X2011_ENA_XFPREFCLK	0x0001
154 #define	MRVL_88X2011_LOOPBACK		0x1
155 #define	MRVL_88X2011_LED_ACT		0x1
156 #define	MRVL_88X2011_LNK_STATUS_OK	0x4
157 #define	MRVL_88X2011_LED_BLK_MASK	0x70
158 #define	MRVL_88X2011_LED_BLK_SHIFT	4
159 #define	MRVL_88X2011_LED_BLK34MS	0x0
160 #define	MRVL_88X2011_LED_BLK67MS	0x1
161 #define	MRVL_88X2011_LED_BLK134MS	0x2
162 #define	MRVL_88X2011_LED_BLK269MS	0x3
163 #define	MRVL_88X2011_LED_BLK538MS	0x4
164 #define	MRVL_88X2011_LED_CTL_OFF	0x0
165 #define	MRVL_88X2011_LED_CTL_PCS_ERR	0x2
166 #define	MRVL_88X2011_LED_CTL_PCS_ACT	0x5
167 #define	MRVL_88X2011_LED_CTL_MASK	0x7
168 #define	MRVL_88X2011_LED(n, v)		((v)<<((n)*4))
169 #define	MRVL_88X2011_LED_STAT(n, v)	((v)>>((n)*4))
170 
171 /*
172  * MII Register 16:  PHY Extended Control Register
173  */
174 
175 typedef	union _mii_phy_ecr_t {
176 	uint16_t value;
177 	struct {
178 #ifdef _BIT_FIELDS_HTOL
179 		uint16_t mac_phy_if_mode	: 1;
180 		uint16_t dis_automdicross	: 1;
181 		uint16_t tx_dis			: 1;
182 		uint16_t intr_dis		: 1;
183 		uint16_t force_intr		: 1;
184 		uint16_t bypass_encdec		: 1;
185 		uint16_t bypass_scrdes		: 1;
186 		uint16_t bypass_mlt3		: 1;
187 		uint16_t bypass_rx_sym		: 1;
188 		uint16_t reset_scr		: 1;
189 		uint16_t en_led_traffic		: 1;
190 		uint16_t force_leds_on		: 1;
191 		uint16_t force_leds_off		: 1;
192 		uint16_t res			: 2;
193 		uint16_t gmii_fifo_elas		: 1;
194 #else
195 		uint16_t gmii_fifo_elas		: 1;
196 		uint16_t res			: 2;
197 		uint16_t force_leds_off		: 1;
198 		uint16_t force_leds_on		: 1;
199 		uint16_t en_led_traffic		: 1;
200 		uint16_t reset_scr		: 1;
201 		uint16_t bypass_rx_sym		: 1;
202 		uint16_t bypass_mlt3		: 1;
203 		uint16_t bypass_scrdes		: 1;
204 		uint16_t bypass_encdec		: 1;
205 		uint16_t force_intr		: 1;
206 		uint16_t intr_dis		: 1;
207 		uint16_t tx_dis			: 1;
208 		uint16_t dis_automdicross	: 1;
209 		uint16_t mac_phy_if_mode	: 1;
210 #endif
211 	} bits;
212 } mii_phy_ecr_t, *p_mii_phy_ecr_t;
213 
214 /*
215  * MII Register 17:  PHY Extended Status Register
216  */
217 typedef	union _mii_phy_esr_t {
218 	uint16_t value;
219 	struct {
220 #ifdef _BIT_FIELDS_HTOL
221 		uint16_t anbpsfm		: 1;
222 		uint16_t wsdwngr		: 1;
223 		uint16_t mdi_crst		: 1;
224 		uint16_t intr_s			: 1;
225 		uint16_t rmt_rx_s		: 1;
226 		uint16_t loc_rx_s		: 1;
227 		uint16_t locked			: 1;
228 		uint16_t link_s			: 1;
229 		uint16_t crc_err		: 1;
230 		uint16_t cext_err		: 1;
231 		uint16_t bad_ssd		: 1;
232 		uint16_t bad_esd		: 1;
233 		uint16_t rx_err			: 1;
234 		uint16_t tx_err			: 1;
235 		uint16_t lock_err		: 1;
236 		uint16_t mlt3_cerr		: 1;
237 #else
238 		uint16_t mlt3_cerr		: 1;
239 		uint16_t lock_err		: 1;
240 		uint16_t tx_err			: 1;
241 		uint16_t rx_err			: 1;
242 		uint16_t bad_esd		: 1;
243 		uint16_t bad_ssd		: 1;
244 		uint16_t cext_err		: 1;
245 		uint16_t crc_err		: 1;
246 		uint16_t link_s			: 1;
247 		uint16_t locked			: 1;
248 		uint16_t loc_rx_s		: 1;
249 		uint16_t rmt_rx_s		: 1;
250 		uint16_t intr_s			: 1;
251 		uint16_t mdi_crst		: 1;
252 		uint16_t wsdwngr		: 1;
253 		uint16_t anbpsfm		: 1;
254 #endif
255 	} bits;
256 } mii_phy_esr_t, *p_mii_phy_esr_t;
257 
258 /*
259  * MII Register 18:  Receive Error Counter Register
260  */
261 typedef	union _mii_rxerr_cnt_t {
262 	uint16_t value;
263 	struct {
264 		uint16_t rx_err_cnt		: 16;
265 	} bits;
266 } mii_rxerr_cnt_t, *p_mii_rxerr_cnt_t;
267 
268 /*
269  * MII Register 19:  False Carrier Sense Counter Register
270  */
271 typedef	union _mii_falsecs_cnt_t {
272 	uint16_t value;
273 	struct {
274 #ifdef _BIT_FIELDS_HTOL
275 		uint16_t res			: 8;
276 		uint16_t false_cs_cnt		: 8;
277 #else
278 		uint16_t false_cs_cnt		: 8;
279 		uint16_t res			: 8;
280 #endif
281 	} bits;
282 } mii_falsecs_cnt_t, *p_mii_falsecs_cnt_t;
283 
284 /*
285  * MII Register 20:  Receiver NOT_OK Counter Register
286  */
287 typedef	union _mii_rx_notok_cnt_t {
288 	uint16_t value;
289 	struct {
290 #ifdef _BIT_FIELDS_HTOL
291 		uint16_t l_rx_notok_cnt		: 8;
292 		uint16_t r_rx_notok_cnt		: 8;
293 #else
294 		uint16_t r_rx_notok_cnt		: 8;
295 		uint16_t l_rx_notok_cnt		: 8;
296 #endif
297 	} bits;
298 } mii_rx_notok_cnt_t, *p_mii_rx_notok_t;
299 
300 /*
301  * MII Register 21:  Expansion Register Data Register
302  */
303 typedef	union _mii_er_data_t {
304 	uint16_t value;
305 	struct {
306 		uint16_t reg_data;
307 	} bits;
308 } mii_er_data_t, *p_mii_er_data_t;
309 
310 /*
311  * MII Register 23:  Expansion Register Access Register
312  */
313 typedef	union _mii_er_acc_t {
314 	struct {
315 #ifdef _BIT_FIELDS_HTOL
316 		uint16_t res			: 4;
317 		uint16_t er_sel			: 4;
318 		uint16_t er_acc			: 8;
319 #else
320 		uint16_t er_acc			: 8;
321 		uint16_t er_sel			: 4;
322 		uint16_t res			: 4;
323 #endif
324 	} bits;
325 } mii_er_acc_t, *p_mii_er_acc_t;
326 
327 #define	EXP_RXTX_PKT_CNT		0x0
328 #define	EXP_INTR_STAT			0x1
329 #define	MULTICOL_LED_SEL		0x4
330 #define	MULTICOL_LED_FLASH_RATE_CTL	0x5
331 #define	MULTICOL_LED_BLINK_CTL		0x6
332 #define	CABLE_DIAG_CTL			0x10
333 #define	CABLE_DIAG_RES			0x11
334 #define	CABLE_DIAG_LEN_CH_2_1		0x12
335 #define	CABLE_DIAG_LEN_CH_4_3		0x13
336 
337 /*
338  * MII Register 24:  Auxiliary Control Register
339  */
340 typedef	union _mii_aux_ctl_t {
341 	uint16_t value;
342 	struct {
343 #ifdef _BIT_FIELDS_HTOL
344 		uint16_t ext_lb			: 1;
345 		uint16_t ext_pkt_len		: 1;
346 		uint16_t edge_rate_ctl_1000	: 2;
347 		uint16_t res			: 1;
348 		uint16_t write_1		: 1;
349 		uint16_t res1			: 2;
350 		uint16_t dis_partial_resp	: 1;
351 		uint16_t res2			: 1;
352 		uint16_t edge_rate_ctl_100	: 2;
353 		uint16_t diag_mode		: 1;
354 		uint16_t shadow_reg_sel		: 3;
355 #else
356 		uint16_t shadow_reg_sel		: 3;
357 		uint16_t diag_mode		: 1;
358 		uint16_t edge_rate_ctl_100	: 2;
359 		uint16_t res2			: 1;
360 		uint16_t dis_partial_resp	: 1;
361 		uint16_t res1			: 2;
362 		uint16_t write_1		: 1;
363 		uint16_t res			: 1;
364 		uint16_t edge_rate_ctl_1000	: 2;
365 		uint16_t ext_pkt_len		: 1;
366 		uint16_t ext_lb			: 1;
367 #endif
368 	} bits;
369 } mii_aux_ctl_t, *p_mii_aux_ctl_t;
370 
371 #define	AUX_REG				0x0
372 #define	AUX_10BASET			0x1
373 #define	AUX_PWR_CTL			0x2
374 #define	AUX_MISC_TEST			0x4
375 #define	AUX_MISC_CTL			0x7
376 
377 /*
378  * MII Register 25:  Auxiliary Status Summary Register
379  */
380 typedef	union _mii_aux_s_t {
381 	uint16_t value;
382 	struct {
383 #ifdef _BIT_FIELDS_HTOL
384 		uint16_t an_complete		: 1;
385 		uint16_t an_complete_ack	: 1;
386 		uint16_t an_ack_detect		: 1;
387 		uint16_t an_ability_detect	: 1;
388 		uint16_t an_np_wait		: 1;
389 		uint16_t an_hcd			: 3;
390 		uint16_t pd_fault		: 1;
391 		uint16_t rmt_fault		: 1;
392 		uint16_t an_page_rx		: 1;
393 		uint16_t lp_an_ability		: 1;
394 		uint16_t lp_np_ability		: 1;
395 		uint16_t link_s			: 1;
396 		uint16_t pause_res_rx_dir	: 1;
397 		uint16_t pause_res_tx_dir	: 1;
398 #else
399 		uint16_t pause_res_tx_dir	: 1;
400 		uint16_t pause_res_rx_dir	: 1;
401 		uint16_t link_s			: 1;
402 		uint16_t lp_np_ability		: 1;
403 		uint16_t lp_an_ability		: 1;
404 		uint16_t an_page_rx		: 1;
405 		uint16_t rmt_fault		: 1;
406 		uint16_t pd_fault		: 1;
407 		uint16_t an_hcd			: 3;
408 		uint16_t an_np_wait		: 1;
409 		uint16_t an_ability_detect	: 1;
410 		uint16_t an_ack_detect		: 1;
411 		uint16_t an_complete_ack	: 1;
412 		uint16_t an_complete		: 1;
413 #endif
414 	} bits;
415 } mii_aux_s_t, *p_mii_aux_s_t;
416 
417 /*
418  * MII Register 26, 27:  Interrupt Status and Mask Registers
419  */
420 typedef	union _mii_intr_t {
421 	uint16_t value;
422 	struct {
423 #ifdef _BIT_FIELDS_HTOL
424 		uint16_t res			: 1;
425 		uint16_t illegal_pair_swap	: 1;
426 		uint16_t mdix_status_change	: 1;
427 		uint16_t exceed_hicnt_thres	: 1;
428 		uint16_t exceed_locnt_thres	: 1;
429 		uint16_t an_page_rx		: 1;
430 		uint16_t hcd_nolink		: 1;
431 		uint16_t no_hcd			: 1;
432 		uint16_t neg_unsupported_hcd	: 1;
433 		uint16_t scr_sync_err		: 1;
434 		uint16_t rmt_rx_status_change	: 1;
435 		uint16_t loc_rx_status_change	: 1;
436 		uint16_t duplex_mode_change	: 1;
437 		uint16_t link_speed_change	: 1;
438 		uint16_t link_status_change	: 1;
439 		uint16_t crc_err		: 1;
440 #else
441 		uint16_t crc_err		: 1;
442 		uint16_t link_status_change	: 1;
443 		uint16_t link_speed_change	: 1;
444 		uint16_t duplex_mode_change	: 1;
445 		uint16_t loc_rx_status_change	: 1;
446 		uint16_t rmt_rx_status_change	: 1;
447 		uint16_t scr_sync_err		: 1;
448 		uint16_t neg_unsupported_hcd	: 1;
449 		uint16_t no_hcd			: 1;
450 		uint16_t hcd_nolink		: 1;
451 		uint16_t an_page_rx		: 1;
452 		uint16_t exceed_locnt_thres	: 1;
453 		uint16_t exceed_hicnt_thres	: 1;
454 		uint16_t mdix_status_change	: 1;
455 		uint16_t illegal_pair_swap	: 1;
456 		uint16_t res			: 1;
457 #endif
458 	} bits;
459 } mii_intr_t, *p_mii_intr_t;
460 
461 /*
462  * MII Register 28:  Register 1C Access Register
463  */
464 typedef	union _mii_misc_t {
465 	uint16_t value;
466 	struct {
467 #ifdef _BIT_FIELDS_HTOL
468 		uint16_t w_en			: 1;
469 		uint16_t shadow_reg_sel		: 5;
470 		uint16_t data			: 10;
471 #else
472 		uint16_t data			: 10;
473 		uint16_t shadow_reg_sel		: 5;
474 		uint16_t w_en			: 1;
475 #endif
476 	} bits;
477 } mii_misc_t, *p_mii_misc_t;
478 
479 #define	LINK_LED_MODE			0x2
480 #define	CLK_ALIGN_CTL			0x3
481 #define	WIRE_SP_RETRY			0x4
482 #define	CLK125				0x5
483 #define	LED_STATUS			0x8
484 #define	LED_CONTROL			0x9
485 #define	AUTO_PWR_DOWN			0xA
486 #define	LED_SEL1			0xD
487 #define	LED_SEL2			0xE
488 
489 /*
490  * MII Register 29:  Master/Slave Seed / HCD Status Register
491  */
492 
493 typedef	union _mii_misc1_t {
494 	uint16_t value;
495 	struct {
496 #ifdef _BIT_FIELDS_HTOL
497 		uint16_t en_shadow_reg		: 1;
498 		uint16_t data			: 15;
499 #else
500 		uint16_t data			: 15;
501 		uint16_t en_shadow_reg		: 1;
502 #endif
503 	} bits;
504 } mii_misc1_t, *p_mii_misc1_t;
505 
506 /*
507  * MII Register 30:  Test Register 1
508  */
509 
510 typedef	union _mii_test1_t {
511 	uint16_t value;
512 	struct {
513 #ifdef _BIT_FIELDS_HTOL
514 		uint16_t crc_err_cnt_sel	: 1;
515 		uint16_t res			: 7;
516 		uint16_t manual_swap_mdi_st	: 1;
517 		uint16_t res1			: 7;
518 #else
519 		uint16_t res1			: 7;
520 		uint16_t manual_swap_mdi_st	: 1;
521 		uint16_t res			: 7;
522 		uint16_t crc_err_cnt_sel	: 1;
523 #endif
524 	} bits;
525 } mii_test1_t, *p_mii_test1_t;
526 
527 
528 /* Definitions of BCM8704 */
529 
530 #define	BCM8704_PMD_CONTROL_REG			0
531 #define	BCM8704_PMD_STATUS_REG			0x1
532 #define	BCM8704_PMD_ID_0_REG			0x2
533 #define	BCM8704_PMD_ID_1_REG			0x3
534 #define	BCM8704_PMD_SPEED_ABIL_REG		0x4
535 #define	BCM8704_PMD_DEV_IN_PKG1_REG		0x5
536 #define	BCM8704_PMD_DEV_IN_PKG2_REG		0x6
537 #define	BCM8704_PMD_CONTROL2_REG		0x7
538 #define	BCM8704_PMD_STATUS2_REG			0x8
539 #define	BCM8704_PMD_TRANSMIT_DIS_REG		0x9
540 #define	BCM8704_PMD_RECEIVE_SIG_DETECT		0xa
541 #define	BCM8704_PMD_ORG_UNIQUE_ID_0_REG		0xe
542 #define	BCM8704_PMD_ORG_UNIQUE_ID_1_REG		0xf
543 #define	BCM8704_PCS_CONTROL_REG			0
544 #define	BCM8704_PCS_STATUS1_REG			0x1
545 #define	BCM8704_PCS_ID_0_REG			0x2
546 #define	BCM8704_PCS_ID_1_REG			0x3
547 #define	BCM8704_PCS_SPEED_ABILITY_REG		0x4
548 #define	BCM8704_PCS_DEV_IN_PKG1_REG		0x5
549 #define	BCM8704_PCS_DEV_IN_PKG2_REG		0x6
550 #define	BCM8704_PCS_CONTROL2_REG		0x7
551 #define	BCM8704_PCS_STATUS2_REG			0x8
552 #define	BCM8704_PCS_ORG_UNIQUE_ID_0_REG		0xe
553 #define	BCM8704_PCS_ORG_UNIQUE_ID_1_REG		0xf
554 #define	BCM8704_PCS_STATUS_REG			0x18
555 #define	BCM8704_10GBASE_R_PCS_STATUS_REG	0x20
556 #define	BCM8704_10GBASE_R_PCS_STATUS2_REG	0x21
557 #define	BCM8704_PHYXS_CONTROL_REG		0
558 #define	BCM8704_PHYXS_STATUS_REG		0x1
559 #define	BCM8704_PHY_ID_0_REG			0x2
560 #define	BCM8704_PHY_ID_1_REG			0x3
561 #define	BCM8704_PHYXS_SPEED_ABILITY_REG		0x4
562 #define	BCM8704_PHYXS_DEV_IN_PKG2_REG		0x5
563 #define	BCM8704_PHYXS_DEV_IN_PKG1_REG		0x6
564 #define	BCM8704_PHYXS_STATUS2_REG		0x8
565 #define	BCM8704_PHYXS_ORG_UNIQUE_ID_0_REG	0xe
566 #define	BCM8704_PHYXS_ORG_UNIQUE_ID_1_REG	0xf
567 #define	BCM8704_PHYXS_XGXS_LANE_STATUS_REG	0x18
568 #define	BCM8704_PHYXS_XGXS_TEST_CONTROL_REG	0x19
569 #define	BCM8704_USER_CONTROL_REG		0xC800
570 #define	BCM8704_USER_ANALOG_CLK_REG		0xC801
571 #define	BCM8704_USER_PMD_RX_CONTROL_REG		0xC802
572 #define	BCM8704_USER_PMD_TX_CONTROL_REG		0xC803
573 #define	BCM8704_USER_ANALOG_STATUS0_REG		0xC804
574 #define	BCM8704_CHIP_ID_REG			0xC807
575 #define	BCM8704_USER_OPTICS_DIGITAL_CTRL_REG	0xC808
576 #define	BCM8704_USER_RX2_CONTROL1_REG		0x80C6
577 #define	BCM8704_USER_RX1_CONTROL1_REG		0x80D6
578 #define	BCM8704_USER_RX0_CONTROL1_REG		0x80E6
579 #define	BCM8704_USER_TX_ALARM_STATUS_REG	0x9004
580 
581 /* Rx Channel Control1 Register bits */
582 #define	BCM8704_RXPOL_FLIP			0x20
583 
584 typedef	union _phyxs_control {
585 	uint16_t value;
586 	struct {
587 #ifdef _BIT_FIELDS_HTOL
588 		uint16_t reset			: 1;
589 		uint16_t loopback		: 1;
590 		uint16_t speed_sel2		: 1;
591 		uint16_t res2			: 1;
592 		uint16_t low_power		: 1;
593 		uint16_t res1			: 4;
594 		uint16_t speed_sel1		: 1;
595 		uint16_t speed_sel0		: 4;
596 		uint16_t res0			: 2;
597 #else
598 		uint16_t res0			: 2;
599 		uint16_t speed_sel0		: 4;
600 		uint16_t speed_sel1		: 1;
601 		uint16_t res1			: 4;
602 		uint16_t low_power		: 1;
603 		uint16_t res2			: 1;
604 		uint16_t speed_sel2		: 1;
605 		uint16_t loopback		: 1;
606 		uint16_t reset			: 1;
607 #endif
608 	} bits;
609 } phyxs_control_t, *p_phyxs_control_t, pcs_control_t, *p_pcs_control_t;
610 
611 
612 /* PMD/Optics Digital Control Register (Dev=3 Addr=0xc800) */
613 
614 typedef	union _control {
615 	uint16_t value;
616 	struct {
617 #ifdef _BIT_FIELDS_HTOL
618 		uint16_t optxenb_lvl		: 1;
619 		uint16_t optxrst_lvl		: 1;
620 		uint16_t opbiasflt_lvl		: 1;
621 		uint16_t obtmpflt_lvl		: 1;
622 		uint16_t opprflt_lvl		: 1;
623 		uint16_t optxflt_lvl		: 1;
624 		uint16_t optrxlos_lvl		: 1;
625 		uint16_t oprxflt_lvl		: 1;
626 		uint16_t optxon_lvl		: 1;
627 		uint16_t res1			: 7;
628 #else
629 		uint16_t res1			: 7;
630 		uint16_t optxon_lvl		: 1;
631 		uint16_t oprxflt_lvl		: 1;
632 		uint16_t optrxlos_lvl		: 1;
633 		uint16_t optxflt_lvl		: 1;
634 		uint16_t opprflt_lvl		: 1;
635 		uint16_t obtmpflt_lvl		: 1;
636 		uint16_t opbiasflt_lvl		: 1;
637 		uint16_t optxrst_lvl		: 1;
638 		uint16_t optxenb_lvl		: 1;
639 #endif
640 	} bits;
641 } control_t, *p_control_t;
642 
643 typedef	union _pmd_tx_control {
644 	uint16_t value;
645 	struct {
646 #ifdef _BIT_FIELDS_HTOL
647 		uint16_t res1			: 7;
648 		uint16_t xfp_clken		: 1;
649 		uint16_t tx_dac_txd		: 2;
650 		uint16_t tx_dac_txck		: 2;
651 		uint16_t tsd_lpwren		: 1;
652 		uint16_t tsck_lpwren		: 1;
653 		uint16_t cmu_lpwren		: 1;
654 		uint16_t sfiforst		: 1;
655 #else
656 		uint16_t sfiforst		: 1;
657 		uint16_t cmu_lpwren		: 1;
658 		uint16_t tsck_lpwren		: 1;
659 		uint16_t tsd_lpwren		: 1;
660 		uint16_t tx_dac_txck		: 2;
661 		uint16_t tx_dac_txd		: 2;
662 		uint16_t xfp_clken		: 1;
663 		uint16_t res1			: 7;
664 #endif
665 	} bits;
666 } pmd_tx_control_t, *p_pmd_tx_control_t;
667 
668 
669 /* PMD/Optics Digital Control Register (Dev=3 Addr=0xc808) */
670 
671 typedef	union _optics_dcntr {
672 	uint16_t value;
673 	struct {
674 #ifdef _BIT_FIELDS_HTOL
675 		uint16_t fault_mode		: 1;
676 		uint16_t tx_pwrdown		: 1;
677 		uint16_t rx_pwrdown		: 1;
678 		uint16_t ext_flt_en		: 1;
679 		uint16_t opt_rst		: 1;
680 		uint16_t pcs_tx_inv_b		: 1;
681 		uint16_t pcs_rx_inv		: 1;
682 		uint16_t res3			: 2;
683 		uint16_t gpio_sel		: 2;
684 		uint16_t res2			: 1;
685 		uint16_t lpbk_err_dis		: 1;
686 		uint16_t res1			: 2;
687 		uint16_t txonoff_pwdwn_dis	: 1;
688 #else
689 		uint16_t txonoff_pwdwn_dis	: 1;
690 		uint16_t res1			: 2;
691 		uint16_t lpbk_err_dis		: 1;
692 		uint16_t res2			: 1;
693 		uint16_t gpio_sel		: 2;
694 		uint16_t res3			: 2;
695 		uint16_t pcs_rx_inv		: 1;
696 		uint16_t pcs_tx_inv_b		: 1;
697 		uint16_t opt_rst		: 1;
698 		uint16_t ext_flt_en		: 1;
699 		uint16_t rx_pwrdown		: 1;
700 		uint16_t tx_pwrdown		: 1;
701 		uint16_t fault_mode		: 1;
702 #endif
703 	} bits;
704 } optics_dcntr_t, *p_optics_dcntr_t;
705 
706 /* PMD Receive Signal Detect Register (Dev = 1 Register Address = 0x000A) */
707 
708 #define	PMD_RX_SIG_DET3			0x10
709 #define	PMD_RX_SIG_DET2			0x08
710 #define	PMD_RX_SIG_DET1			0x04
711 #define	PMD_RX_SIG_DET0			0x02
712 #define	GLOB_PMD_RX_SIG_OK		0x01
713 
714 /* 10GBase-R PCS Status Register (Dev = 3, Register Address = 0x0020) */
715 
716 #define	PCS_10GBASE_RX_LINK_STATUS	0x1000
717 #define	PCS_PRBS31_ABLE			0x0004
718 #define	PCS_10GBASE_R_HI_BER		0x0002
719 #define	PCS_10GBASE_R_PCS_BLK_LOCK	0x0001
720 
721 /* XGXS Lane Status Register (Dev = 4, Register Address = 0x0018) */
722 
723 #define	XGXS_LANE_ALIGN_STATUS		0x1000
724 #define	XGXS_PATTERN_TEST_ABILITY	0x0800
725 #define	XGXS_LANE3_SYNC			0x0008
726 #define	XGXS_LANE2_SYNC			0x0004
727 #define	XGXS_LANE1_SYNC			0x0002
728 #define	XGXS_LANE0_SYNC			0x0001
729 #define	XGXS_LANE_STAT_MAGIC		0x0400
730 
731 
732 /* Teranetics TN1010 Definitions */
733 
734 /* Teranetics TN1010 PHY MMD Addresses */
735 #define	TN1010_PMA_PMD_DEV_ADDR		1
736 #define	TN1010_PCS_DEV_ADDR		3
737 #define	TN1010_PHYXS_DEV_ADDR		4
738 #define	TN1010_AUTONEG_DEV_ADDR		7
739 #define	TN1010_VENDOR_MMD1_DEV_ADDR	30
740 
741 /* TN1010 PCS Control Register */
742 typedef union _tn1010_pcs_ctrl {
743 	uint16_t value;
744 	struct {
745 #ifdef _BIT_FIELDS_HTOL
746 		uint16_t reset			: 1;    /* bit 15 */
747 		uint16_t loopback		: 1;	/* bit 14 */
748 		uint16_t speed_sel2		: 1;
749 		uint16_t res2			: 1;
750 		uint16_t low_power		: 1;
751 		uint16_t res1			: 4;
752 		uint16_t speed_sel1		: 1;    /* bit 6 */
753 		uint16_t speed_sel0		: 4;    /* bits[5:2] */
754 		uint16_t res0			: 2;
755 #else
756 		uint16_t res0			: 2;
757 		uint16_t speed_sel0		: 4;    /* bits[5:2] */
758 		uint16_t speed_sel1		: 1;    /* bit 6 */
759 		uint16_t res1			: 4;
760 		uint16_t low_power		: 1;
761 		uint16_t res2			: 1;
762 		uint16_t speed_sel2		: 1;
763 		uint16_t loopback		: 1;	/* bit 14 */
764 		uint16_t reset			: 1;    /* bit 15 */
765 #endif
766 	} bits;
767 } tn1010_phyxs_ctrl_t, *p_tn1010_phyxs_ctrl_t;
768 
769 /* TN1010 PHY XS Control Register */
770 typedef union _tn1010_phyxs_ctrl {
771 	uint16_t value;
772 	struct {
773 #ifdef _BIT_FIELDS_HTOL
774 		uint16_t reset			: 1;    /* bit 15 */
775 		uint16_t loopback		: 1;	/* bit 14 */
776 		uint16_t speed_sel2		: 1;
777 		uint16_t res2			: 1;
778 		uint16_t low_power		: 1;
779 		uint16_t res1			: 4;
780 		uint16_t speed_sel1		: 1;    /* bit 6 */
781 		uint16_t speed_sel0		: 4;    /* bits[5:2] */
782 		uint16_t res0			: 2;
783 #else
784 		uint16_t res0			: 2;
785 		uint16_t speed_sel0		: 4;    /* bits[5:2] */
786 		uint16_t speed_sel1		: 1;    /* bit 6 */
787 		uint16_t res1			: 4;
788 		uint16_t low_power		: 1;
789 		uint16_t res2			: 1;
790 		uint16_t speed_sel2		: 1;
791 		uint16_t loopback		: 1;	/* bit 14 */
792 		uint16_t reset			: 1;    /* bit 15 */
793 #endif
794 	} bits;
795 } tn1010_pcs_ctrl_t, *p_tn1010_pcs_ctrl_t;
796 
797 /* TN1010 VENDOR MMD1 GPHY Control register 30.310 */
798 #define	TN1010_SGMII_LOOPBACK			1
799 #define	TN1010_DEEP_LOOPBACK			2
800 
801 #define	TN1010_PMD_CONTROL_REG			0
802 #define	TN1010_PMD_STATUS_REG			1
803 #define	TN1010_PMD_ID_HIGH_REG			2
804 #define	TN1010_PMD_ID_LOW_REG			3
805 #define	TN1010_PMD_SPEED_ABIL_REG		4
806 #define	TN1010_PMD_DEV_IN_PKG1_REG		5
807 #define	TN1010_PMD_DEV_IN_PKG2_REG		6
808 #define	TN1010_PMD_CONTROL2_REG			7
809 #define	TN1010_PMD_STATUS2_REG			8
810 #define	TN1010_PMD_TRANSMIT_DIS_REG		9
811 #define	TN1010_PMD_RECEIVE_SIG_DETECT		10
812 #define	TN1010_PMD_ORG_UNIQUE_ID_0_REG		14
813 #define	TN1010_PMD_ORG_UNIQUE_ID_1_REG		15
814 #define	TN1010_PCS_CONTROL_REG			0
815 #define	TN1010_PCS_STATUS1_REG			1
816 #define	TN1010_PCS_ID_HIGH_REG			2
817 #define	TN1010_PCS_ID_LOW_REG			3
818 #define	TN1010_PCS_SPEED_ABILITY_REG		4
819 #define	TN1010_PCS_DEV_IN_PKG1_REG		5
820 #define	TN1010_PCS_DEV_IN_PKG2_REG		6
821 #define	TN1010_PCS_CONTROL2_REG			7
822 #define	TN1010_PCS_STATUS2_REG			8
823 #define	TN1010_PCS_ORG_UNIQUE_ID_0_REG		14
824 #define	TN1010_PCS_ORG_UNIQUE_ID_1_REG		15
825 #define	TN1010_PCS_10GBASE_R_T_STATUS1_REG	32
826 #define	TN1010_PCS_10GBASE_R_T_STATUS2_REG	33
827 #define	TN1010_PHYXS_CONTROL_REG		0
828 #define	TN1010_PHYXS_STATUS_REG			1
829 #define	TN1010_PHY_ID_HIGH_REG			2
830 #define	TN1010_PHY_ID_LOW_REG			3
831 #define	TN1010_PHYXS_SPEED_ABILITY_REG		4
832 #define	TN1010_PHYXS_DEV_IN_PKG2_REG		5
833 #define	TN1010_PHYXS_DEV_IN_PKG1_REG		6
834 #define	TN1010_PHYXS_STATUS2_REG		8
835 #define	TN1010_PHYXS_ORG_UNIQUE_ID_0_REG	14
836 #define	TN1010_PHYXS_ORG_UNIQUE_ID_1_REG	15
837 #define	TN1010_PHYXS_XGXS_LANE_STATUS_REG	24
838 #define	TN1010_PHYXS_XGXS_TEST_CONTROL_REG	25
839 
840 #define	TN1010_AUTONEG_CONTROL_REG		0
841 #define	TN1010_AUTONEG_STATUS_REG		1
842 #define	TN1010_AUTONEG_ID_HIGH_REG		2
843 #define	TN1010_AUTONEG_ID_LOW_REG		3
844 #define	TN1010_AUTONEG_DEV_IN_PKG1_REG		5
845 #define	TN1010_AUTUNEG_DEV_IN_PKG2_REG		6
846 #define	TN1010_AUTONEG_ORG_UNIQUE_ID_0_REG	14
847 #define	TN1010_AUTONEG_ORG_UNIQUE_ID_1_REG	15
848 #define	TN1010_AUTONEG_ADVERTISE_REG		16
849 #define	TN1010_AUTONEG_PARTNER_ABILITY_REG	19
850 
851 #define	TN1010_VENDOR_MMD1_CONTROL_REG		0
852 #define	TN1010_VENDOR_MMD1_STATUS_REG		1
853 #define	TN1010_VENDOR_MMD1_ID_HIGH		2
854 #define	TN1010_VENDOR_MMD1_ID_LOW		3
855 #define	TN1010_VENDOR_MMD1_DEV_STATUS_REG	8
856 #define	TN1010_VENDOR_MMD1_FNS_CONTROL_RER	9
857 #define	TN1010_VENDOR_MMD1_PKG_ID_0_REG		14
858 #define	TN1010_VENDOR_MMD1_PKG_ID_1_REG		15
859 #define	TN1010_VENDOR_MMD1_GPHY_CTRL		310
860 
861 /* Bits definitions of TN1010_AUTONEG_CONTROL_REG */
862 #define	TN1010_AN_CTRL_RESET_BIT	0x8000	/* Reset */
863 #define	TN1010_AN_CTRL_EN_BIT		0x1000	/* Enable autoneg */
864 #define	TN1010_AN_CTRL_RESTART_BIT	0x200	/* Restart autoneg */
865 #define	TN1010_AN_LINK_STAT_BIT		0x4	/* Link status */
866 
867 /* Bits definitions of TN1010_PHYXS_CONTROL_REG	*/
868 #define	TN1010_VENDOR_MMD1_AN_STAT_BITS		0xC0
869 
870 /*
871  * Shift right 6 bits so bits[7:6] becomes [1:0].
872  * Bits[7:6] of TN1010_VENDOR_MND1_STATUS_REG are for autoneg status
873  * 00 in progress
874  * 01 completed
875  * 10 reserved
876  * 11 failed
877  */
878 #define	TN1010_VENDOR_MMD1_AN_STAT_SHIFT	6
879 
880 /* Bit 4 of TN1010_VENDOR_MMD1_STATUS_REG is speed. 0: 10G, 1: 1G */
881 #define	TN1010_VENDOR_MMD1_AN_SPEED_BIT		0x10
882 
883 /* Shift right 4 bits so bit4 becomes bit0 */
884 #define	TN1010_VENDOR_MMD1_AN_SPEED_SHIFT	4
885 
886 
887 #ifdef	__cplusplus
888 }
889 #endif
890 
891 #endif	/* _SYS_NXGE_NXGE_PHY_HW_H */
892