xref: /titanic_50/usr/src/uts/common/io/bge/bge_hw.h (revision 48011479cce51f5534141868012dcb9828a0fd63)
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 /*
23  * Copyright 2007 Sun Microsystems, Inc.  All rights reserved.
24  * Use is subject to license terms.
25  */
26 
27 #ifndef _BGE_HW_H
28 #define	_BGE_HW_H
29 
30 #pragma ident	"%Z%%M%	%I%	%E% SMI"
31 
32 #ifdef __cplusplus
33 extern "C" {
34 #endif
35 
36 #include <sys/types.h>
37 
38 
39 /*
40  * First section:
41  *	Identification of the various Broadcom chips
42  *
43  * Note: the various ID values are *not* all unique ;-(
44  *
45  * Note: the presence of an ID here does *not* imply that the chip is
46  * supported.  At this time, only the 5703C, 5704C, and 5704S devices
47  * used on the motherboards of certain Sun products are supported.
48  *
49  * Note: the revision-id values in the PCI revision ID register are
50  * *NOT* guaranteed correct.  Use the chip ID from the MHCR instead.
51  */
52 
53 #define	VENDOR_ID_BROADCOM		0x14e4
54 #define	VENDOR_ID_SUN			0x108e
55 
56 #define	DEVICE_ID_5700			0x1644
57 #define	DEVICE_ID_5700x			0x0003
58 #define	DEVICE_ID_5701			0x1645
59 #define	DEVICE_ID_5702			0x16a6
60 #define	DEVICE_ID_5702fe		0x164d
61 #define	DEVICE_ID_5703C			0x1647
62 #define	DEVICE_ID_5703S			0x16a7
63 #define	DEVICE_ID_5703			0x16c7
64 #define	DEVICE_ID_5704C			0x1648
65 #define	DEVICE_ID_5704S			0x16a8
66 #define	DEVICE_ID_5704			0x1649
67 #define	DEVICE_ID_5705C			0x1653
68 #define	DEVICE_ID_5705_2		0x1654
69 #define	DEVICE_ID_5705M			0x165d
70 #define	DEVICE_ID_5705MA3		0x165e
71 #define	DEVICE_ID_5705F			0x166e
72 #define	DEVICE_ID_5706			0x164a
73 #define	DEVICE_ID_5782			0x1696
74 #define	DEVICE_ID_5788			0x169c
75 #define	DEVICE_ID_5789			0x169d
76 #define	DEVICE_ID_5751			0x1677
77 #define	DEVICE_ID_5751M			0x167d
78 #define	DEVICE_ID_5752			0x1600
79 #define	DEVICE_ID_5752M			0x1601
80 #define	DEVICE_ID_5754			0x167a
81 #define	DEVICE_ID_5721			0x1659
82 #define	DEVICE_ID_5714C			0x1668
83 #define	DEVICE_ID_5714S			0x1669
84 #define	DEVICE_ID_5715C			0x1678
85 #define	DEVICE_ID_5715S			0x1679
86 
87 #define	REVISION_ID_5700_B0		0x10
88 #define	REVISION_ID_5700_B2		0x12
89 #define	REVISION_ID_5700_B3		0x13
90 #define	REVISION_ID_5700_C0		0x20
91 #define	REVISION_ID_5700_C1		0x21
92 #define	REVISION_ID_5700_C2		0x22
93 
94 #define	REVISION_ID_5701_A0		0x08
95 #define	REVISION_ID_5701_A2		0x12
96 #define	REVISION_ID_5701_A3		0x15
97 
98 #define	REVISION_ID_5702_A0		0x00
99 
100 #define	REVISION_ID_5703_A0		0x00
101 #define	REVISION_ID_5703_A1		0x01
102 #define	REVISION_ID_5703_A2		0x02
103 
104 #define	REVISION_ID_5704_A0		0x00
105 #define	REVISION_ID_5704_A1		0x01
106 #define	REVISION_ID_5704_A2		0x02
107 #define	REVISION_ID_5704_A3		0x03
108 #define	REVISION_ID_5704_B0		0x10
109 
110 #define	REVISION_ID_5705_A0		0x00
111 #define	REVISION_ID_5705_A1		0x01
112 #define	REVISION_ID_5705_A2		0x02
113 #define	REVISION_ID_5705_A3		0x03
114 
115 #define	REVISION_ID_5721_A0		0x00
116 #define	REVISION_ID_5721_A1		0x01
117 
118 #define	REVISION_ID_5751_A0		0x00
119 #define	REVISION_ID_5751_A1		0x01
120 
121 #define	REVISION_ID_5714_A0		0x00
122 #define	REVISION_ID_5714_A1		0x01
123 #define	REVISION_ID_5714_A2		0xA2
124 #define	REVISION_ID_5714_A3		0xA3
125 
126 #define	REVISION_ID_5715_A0		0x00
127 #define	REVISION_ID_5715_A1		0x01
128 #define	REVISION_ID_5715_A2		0xA2
129 
130 #define	REVISION_ID_5715S_A0		0x00
131 #define	REVISION_ID_5715S_A1		0x01
132 
133 #define	REVISION_ID_5754_A0		0x00
134 #define	REVISION_ID_5754_A1		0x01
135 
136 #define	DEVICE_5704_SERIES_CHIPSETS(bgep)\
137 		((bgep->chipid.device == DEVICE_ID_5700) ||\
138 		(bgep->chipid.device == DEVICE_ID_5701) ||\
139 		(bgep->chipid.device == DEVICE_ID_5702) ||\
140 		(bgep->chipid.device == DEVICE_ID_5702fe)||\
141 		(bgep->chipid.device == DEVICE_ID_5703C) ||\
142 		(bgep->chipid.device == DEVICE_ID_5703S) ||\
143 		(bgep->chipid.device == DEVICE_ID_5703) ||\
144 		(bgep->chipid.device == DEVICE_ID_5704C) ||\
145 		(bgep->chipid.device == DEVICE_ID_5704S) ||\
146 		(bgep->chipid.device == DEVICE_ID_5704))
147 
148 #define	DEVICE_5702_SERIES_CHIPSETS(bgep) \
149 		((bgep->chipid.device == DEVICE_ID_5702) ||\
150 		(bgep->chipid.device == DEVICE_ID_5702fe))
151 
152 #define	DEVICE_5705_SERIES_CHIPSETS(bgep) \
153 		((bgep->chipid.device == DEVICE_ID_5705C) ||\
154 		(bgep->chipid.device == DEVICE_ID_5705M) ||\
155 		(bgep->chipid.device == DEVICE_ID_5705MA3) ||\
156 		(bgep->chipid.device == DEVICE_ID_5705F) ||\
157 		(bgep->chipid.device == DEVICE_ID_5782) ||\
158 		(bgep->chipid.device == DEVICE_ID_5788) ||\
159 		(bgep->chipid.device == DEVICE_ID_5705_2) ||\
160 		(bgep->chipid.device == DEVICE_ID_5754))
161 
162 #define	DEVICE_5721_SERIES_CHIPSETS(bgep) \
163 		((bgep->chipid.device == DEVICE_ID_5721) ||\
164 		(bgep->chipid.device == DEVICE_ID_5751) ||\
165 		(bgep->chipid.device == DEVICE_ID_5751M) ||\
166 		(bgep->chipid.device == DEVICE_ID_5752) ||\
167 		(bgep->chipid.device == DEVICE_ID_5752M) ||\
168 		(bgep->chipid.device == DEVICE_ID_5789))
169 
170 #define	DEVICE_5714_SERIES_CHIPSETS(bgep) \
171 		((bgep->chipid.device == DEVICE_ID_5714C) ||\
172 		(bgep->chipid.device == DEVICE_ID_5714S) ||\
173 		(bgep->chipid.device == DEVICE_ID_5715C) ||\
174 		(bgep->chipid.device == DEVICE_ID_5715S))
175 
176 /*
177  * Second section:
178  *	Offsets of important registers & definitions for bits therein
179  */
180 
181 /*
182  * PCI-X registers & bits
183  */
184 #define	PCIX_CONF_COMM			0x42
185 #define	PCIX_COMM_RELAXED		0x0002
186 
187 /*
188  * Miscellaneous Host Control Register, in PCI config space
189  */
190 #define	PCI_CONF_BGE_MHCR		0x68
191 #define	MHCR_CHIP_REV_MASK		0xffff0000
192 #define	MHCR_ENABLE_TAGGED_STATUS_MODE	0x00000200
193 #define	MHCR_MASK_INTERRUPT_MODE	0x00000100
194 #define	MHCR_ENABLE_INDIRECT_ACCESS	0x00000080
195 #define	MHCR_ENABLE_REGISTER_WORD_SWAP	0x00000040
196 #define	MHCR_ENABLE_CLOCK_CONTROL_WRITE	0x00000020
197 #define	MHCR_ENABLE_PCI_STATE_WRITE	0x00000010
198 #define	MHCR_ENABLE_ENDIAN_WORD_SWAP	0x00000008
199 #define	MHCR_ENABLE_ENDIAN_BYTE_SWAP	0x00000004
200 #define	MHCR_MASK_PCI_INT_OUTPUT	0x00000002
201 #define	MHCR_CLEAR_INTERRUPT_INTA	0x00000001
202 
203 #define	MHCR_CHIP_REV_5700_B0		0x71000000
204 #define	MHCR_CHIP_REV_5700_B2		0x71020000
205 #define	MHCR_CHIP_REV_5700_B3		0x71030000
206 #define	MHCR_CHIP_REV_5700_C0		0x72000000
207 #define	MHCR_CHIP_REV_5700_C1		0x72010000
208 #define	MHCR_CHIP_REV_5700_C2		0x72020000
209 
210 #define	MHCR_CHIP_REV_5701_A0		0x00000000
211 #define	MHCR_CHIP_REV_5701_A2		0x00020000
212 #define	MHCR_CHIP_REV_5701_A3		0x00030000
213 #define	MHCR_CHIP_REV_5701_A5		0x01050000
214 
215 #define	MHCR_CHIP_REV_5702_A0		0x10000000
216 #define	MHCR_CHIP_REV_5702_A1		0x10010000
217 #define	MHCR_CHIP_REV_5702_A2		0x10020000
218 
219 #define	MHCR_CHIP_REV_5703_A0		0x10000000
220 #define	MHCR_CHIP_REV_5703_A1		0x10010000
221 #define	MHCR_CHIP_REV_5703_A2		0x10020000
222 #define	MHCR_CHIP_REV_5703_B0		0x11000000
223 #define	MHCR_CHIP_REV_5703_B1		0x11010000
224 
225 #define	MHCR_CHIP_REV_5704_A0		0x20000000
226 #define	MHCR_CHIP_REV_5704_A1		0x20010000
227 #define	MHCR_CHIP_REV_5704_A2		0x20020000
228 #define	MHCR_CHIP_REV_5704_A3		0x20030000
229 #define	MHCR_CHIP_REV_5704_B0		0x21000000
230 
231 #define	MHCR_CHIP_REV_5705_A0		0x30000000
232 #define	MHCR_CHIP_REV_5705_A1		0x30010000
233 #define	MHCR_CHIP_REV_5705_A2		0x30020000
234 #define	MHCR_CHIP_REV_5705_A3		0x30030000
235 #define	MHCR_CHIP_REV_5705_A5		0x30050000
236 
237 #define	MHCR_CHIP_REV_5782_A0		0x30030000
238 #define	MHCR_CHIP_REV_5782_A1		0x30030088
239 
240 #define	MHCR_CHIP_REV_5788_A1		0x30050000
241 
242 #define	MHCR_CHIP_REV_5751_A0		0x40000000
243 #define	MHCR_CHIP_REV_5751_A1		0x40010000
244 
245 #define	MHCR_CHIP_REV_5721_A0		0x41000000
246 #define	MHCR_CHIP_REV_5721_A1		0x41010000
247 
248 #define	MHCR_CHIP_REV_5714_A0		0x50000000
249 #define	MHCR_CHIP_REV_5714_A1		0x90010000
250 
251 #define	MHCR_CHIP_REV_5715_A0		0x50000000
252 #define	MHCR_CHIP_REV_5715_A1		0x90010000
253 
254 #define	MHCR_CHIP_REV_5715S_A0		0x50000000
255 #define	MHCR_CHIP_REV_5715S_A1		0x90010000
256 
257 #define	MHCR_CHIP_REV_5754_A0		0xb0000000
258 #define	MHCR_CHIP_REV_5754_A1		0xb0010000
259 
260 #define	MHCR_CHIP_ASIC_REV(ChipRevId)	((ChipRevId) & 0xf0000000)
261 #define	MHCR_CHIP_ASIC_REV_5700		(0x7 << 28)
262 #define	MHCR_CHIP_ASIC_REV_5701		(0x0 << 28)
263 #define	MHCR_CHIP_ASIC_REV_5703		(0x1 << 28)
264 #define	MHCR_CHIP_ASIC_REV_5704		(0x2 << 28)
265 #define	MHCR_CHIP_ASIC_REV_5705		(0x3 << 28)
266 #define	MHCR_CHIP_ASIC_REV_5721_5751	(0x4 << 28)
267 #define	MHCR_CHIP_ASIC_REV_5714 	(0x5 << 28)
268 #define	MHCR_CHIP_ASIC_REV_5752		(0x6 << 28)
269 #define	MHCR_CHIP_ASIC_REV_5754		(0xb << 28)
270 #define	MHCR_CHIP_ASIC_REV_5715 	((uint32_t)0x9 << 28)
271 
272 
273 /*
274  * PCI DMA read/write Control Register, in PCI config space
275  *
276  * Note that several fields previously defined here have been deleted
277  * as they are not implemented in the 5703/4.
278  *
279  * Note: the value of this register is critical.  It is possible to
280  * cause various unpleasant effects (DTOs, transaction deadlock, etc)
281  * by programming the wrong value.  The value #defined below has been
282  * tested and shown to avoid all known problems.  If it is to be changed,
283  * correct operation must be reverified on all supported platforms.
284  *
285  * In particular, we set both watermark fields to 2xCacheLineSize (128)
286  * bytes and DMA_MIN_BEATS to 0 in order to avoid unfortunate interactions
287  * with Tomatillo's internal pipelines, that otherwise result in stalls,
288  * repeated retries, and DTOs.
289  */
290 #define	PCI_CONF_BGE_PDRWCR		0x6c
291 #define	PDRWCR_RWCMD_MASK		0xFF000000
292 #define	PDRWCR_PCIX32_BUGFIX_MASK	0x00800000
293 #define	PDRWCR_WRITE_WATERMARK_MASK	0x00380000
294 #define	PDRWCR_READ_WATERMARK_MASK	0x00070000
295 #define	PDRWCR_CONCURRENCY_MASK		0x0000c000
296 #define	PDRWCR_5704_FLOP_ON_RETRY	0x00008000
297 #define	PDRWCR_ONE_DMA_AT_ONCE		0x00004000
298 #define	PDRWCR_MIN_BEAT_MASK		0x000000ff
299 
300 /*
301  * These are the actual values to be put into the fields shown above
302  */
303 #define	PDRWCR_RWCMDS			0x76000000	/* MW and MR	*/
304 #define	PDRWCR_DMA_WRITE_WATERMARK	0x00180000	/* 011 => 128	*/
305 #define	PDRWCR_DMA_READ_WATERMARK	0x00030000	/* 011 => 128	*/
306 #define	PDRWCR_MIN_BEATS		0x00000000
307 
308 #define	PDRWCR_VAR_DEFAULT		0x761b0000
309 #define	PDRWCR_VAR_5721			0x76180000
310 #define	PDRWCR_VAR_5714			0x76148000	/* OR of above	*/
311 #define	PDRWCR_VAR_5715			0x76144000	/* OR of above	*/
312 
313 /*
314  * PCI State Register, in PCI config space
315  *
316  * Note: this register is read-only unless the ENABLE_PCI_STATE_WRITE bit
317  * is set in the MHCR, EXCEPT for the RETRY_SAME_DMA bit which is always RW
318  */
319 #define	PCI_CONF_BGE_PCISTATE		0x70
320 #define	PCISTATE_RETRY_SAME_DMA		0x00002000
321 #define	PCISTATE_FLAT_VIEW		0x00000100
322 #define	PCISTATE_EXT_ROM_RETRY		0x00000040
323 #define	PCISTATE_EXT_ROM_ENABLE		0x00000020
324 #define	PCISTATE_BUS_IS_32_BIT		0x00000010
325 #define	PCISTATE_BUS_IS_FAST		0x00000008
326 #define	PCISTATE_BUS_IS_PCI		0x00000004
327 #define	PCISTATE_INTA_STATE		0x00000002
328 #define	PCISTATE_FORCE_RESET		0x00000001
329 
330 /*
331  * PCI Clock Control Register, in PCI config space
332  */
333 #define	PCI_CONF_BGE_CLKCTL		0x74
334 #define	CLKCTL_PCIE_PLP_DISABLE		0x80000000
335 #define	CLKCTL_PCIE_DLP_DISABLE		0x40000000
336 #define	CLKCTL_PCIE_TLP_DISABLE		0x20000000
337 #define	CLKCTL_PCI_READ_TOO_LONG_FIX	0x04000000
338 #define	CLKCTL_PCI_WRITE_TOO_LONG_FIX	0x02000000
339 #define	CLKCTL_PCIE_A0_FIX		0x00101000
340 
341 /*
342  * Dual MAC Control Register, in PCI config space
343  */
344 #define	PCI_CONF_BGE_DUAL_MAC_CONTROL	0xB8
345 #define	DUALMAC_CHANNEL_CONTROL_MASK	0x00000003	/* RW	*/
346 #define	DUALMAC_CHANNEL_ID_MASK		0x00000004	/* RO	*/
347 
348 /*
349  * Register Indirect Access Address Register, 0x78 in PCI config
350  * space.  Once this is set, accesses to the Register Indirect
351  * Access Data Register (0x80) refer to the register whose address
352  * is given by *this* register.  This allows access to all the
353  * operating registers, while using only config space accesses.
354  *
355  * Note that the address written to the RIIAR should lie in one
356  * of the following ranges:
357  *	0x00000000 <= address < 0x00008000 (regular registers)
358  *	0x00030000 <= address < 0x00034000 (RxRISC scratchpad)
359  *	0x00034000 <= address < 0x00038000 (TxRISC scratchpad)
360  *	0x00038000 <= address < 0x00038800 (RxRISC ROM)
361  */
362 #define	PCI_CONF_BGE_RIAAR		0x78
363 #define	PCI_CONF_BGE_RIADR		0x80
364 
365 #define	RIAAR_REGISTER_MIN		0x00000000
366 #define	RIAAR_REGISTER_MAX		0x00008000
367 #define	RIAAR_RX_SCRATCH_MIN		0x00030000
368 #define	RIAAR_RX_SCRATCH_MAX		0x00034000
369 #define	RIAAR_TX_SCRATCH_MIN		0x00034000
370 #define	RIAAR_TX_SCRATCH_MAX		0x00038000
371 #define	RIAAR_RXROM_MIN			0x00038000
372 #define	RIAAR_RXROM_MAX			0x00038800
373 
374 /*
375  * Memory Window Base Address Register, 0x7c in PCI config space
376  * Once this is set, accesses to the Memory Window Data Access Register
377  * (0x84) refer to the word of NIC-local memory whose address is given
378  * by this register.  When used in this way, the whole of the address
379  * written to this register is significant.
380  *
381  * This register also provides the 32K-aligned base address for a 32K
382  * region of NIC-local memory that the host can directly address in
383  * the upper 32K of the 64K of PCI memory space allocated to the chip.
384  * In this case, the bottom 15 bits of the register are ignored.
385  *
386  * Note that the address written to the MWBAR should lie in the range
387  * 0x00000000 <= address < 0x00020000.  The rest of the range up to 1M
388  * (i.e. 0x00200000 <= address < 0x01000000) would be valid if external
389  * memory were present, but it's only supported on the 5700, not the
390  * 5701/5703/5704.
391  */
392 #define	PCI_CONF_BGE_MWBAR		0x7c
393 #define	PCI_CONF_BGE_MWDAR		0x84
394 #define	MWBAR_GRANULARITY		0x00008000	/* 32k	*/
395 #define	MWBAR_GRANULE_MASK		(MWBAR_GRANULARITY-1)
396 #define	MWBAR_ONCHIP_MAX		0x00020000	/* 128k */
397 
398 /*
399  * The PCI express device control register and device status register
400  * which are only applicable on BCM5751 and BCM5721.
401  */
402 #define	PCI_CONF_DEV_CTRL		0xd8
403 #define	READ_REQ_SIZE_MAX		0x5000
404 #define	DEV_CTRL_NO_SNOOP		0x0800
405 #define	DEV_CTRL_RELAXED		0x0010
406 
407 #define	PCI_CONF_DEV_STUS		0xda
408 #define	DEVICE_ERROR_STUS		0xf
409 
410 #define	NIC_MEM_WINDOW_OFFSET		0x00008000	/* 32k	*/
411 
412 /*
413  * Where to find things in NIC-local (on-chip) memory
414  */
415 #define	NIC_MEM_SEND_RINGS		0x0100
416 #define	NIC_MEM_SEND_RING(ring)		(0x0100+16*(ring))
417 #define	NIC_MEM_RECV_RINGS		0x0200
418 #define	NIC_MEM_RECV_RING(ring)		(0x0200+16*(ring))
419 #define	NIC_MEM_STATISTICS		0x0300
420 #define	NIC_MEM_STATISTICS_SIZE		0x0800
421 #define	NIC_MEM_STATUS_BLOCK		0x0b00
422 #define	NIC_MEM_STATUS_SIZE		0x0050
423 #define	NIC_MEM_GENCOMM			0x0b50
424 
425 
426 /*
427  * Note: the (non-bogus) values below are appropriate for systems
428  * without external memory.  They would be different on a 5700 with
429  * external memory.
430  *
431  * Note: The higher send ring addresses and the mini ring shadow
432  * buffer address are dummies - systems without external memory
433  * are limited to 4 send rings and no mini receive ring.
434  */
435 #define	NIC_MEM_SHADOW_DMA		0x2000
436 #define	NIC_MEM_SHADOW_SEND_1_4		0x4000
437 #define	NIC_MEM_SHADOW_SEND_5_6		0x6000		/* bogus	*/
438 #define	NIC_MEM_SHADOW_SEND_7_8		0x7000		/* bogus	*/
439 #define	NIC_MEM_SHADOW_SEND_9_16	0x8000		/* bogus	*/
440 #define	NIC_MEM_SHADOW_BUFF_STD		0x6000
441 #define	NIC_MEM_SHADOW_BUFF_JUMBO	0x7000
442 #define	NIC_MEM_SHADOW_BUFF_MINI	0x8000		/* bogus	*/
443 #define	NIC_MEM_SHADOW_SEND_RING(ring, nslots)	(0x4000 + 4*(ring)*(nslots))
444 
445 /*
446  * Put this in the GENCOMM port to tell the firmware not to run PXE
447  */
448 #define	T3_MAGIC_NUMBER			0x4b657654u
449 
450 /*
451  * The remaining registers appear in the low 32K of regular
452  * PCI Memory Address Space
453  */
454 
455 /*
456  * All the state machine control registers below have at least a
457  * <RESET> bit and an <ENABLE> bit as defined below.  Some also
458  * have an <ATTN_ENABLE> bit.
459  */
460 #define	STATE_MACHINE_ATTN_ENABLE_BIT	0x00000004
461 #define	STATE_MACHINE_ENABLE_BIT	0x00000002
462 #define	STATE_MACHINE_RESET_BIT		0x00000001
463 
464 #define	TRANSMIT_MAC_MODE_REG		0x045c
465 #define	SEND_DATA_INITIATOR_MODE_REG	0x0c00
466 #define	SEND_DATA_COMPLETION_MODE_REG	0x1000
467 #define	SEND_BD_SELECTOR_MODE_REG	0x1400
468 #define	SEND_BD_INITIATOR_MODE_REG	0x1800
469 #define	SEND_BD_COMPLETION_MODE_REG	0x1c00
470 
471 #define	RECEIVE_MAC_MODE_REG		0x0468
472 #define	RCV_LIST_PLACEMENT_MODE_REG	0x2000
473 #define	RCV_DATA_BD_INITIATOR_MODE_REG	0x2400
474 #define	RCV_DATA_COMPLETION_MODE_REG	0x2800
475 #define	RCV_BD_INITIATOR_MODE_REG	0x2c00
476 #define	RCV_BD_COMPLETION_MODE_REG	0x3000
477 #define	RCV_LIST_SELECTOR_MODE_REG	0x3400
478 
479 #define	MBUF_CLUSTER_FREE_MODE_REG	0x3800
480 #define	HOST_COALESCE_MODE_REG		0x3c00
481 #define	MEMORY_ARBITER_MODE_REG		0x4000
482 #define	BUFFER_MANAGER_MODE_REG		0x4400
483 #define	READ_DMA_MODE_REG		0x4800
484 #define	WRITE_DMA_MODE_REG		0x4c00
485 #define	DMA_COMPLETION_MODE_REG		0x6400
486 
487 /*
488  * Other bits in some of the above state machine control registers
489  */
490 
491 /*
492  * Transmit MAC Mode Register
493  * (TRANSMIT_MAC_MODE_REG, 0x045c)
494  */
495 #define	TRANSMIT_MODE_LONG_PAUSE	0x00000040
496 #define	TRANSMIT_MODE_BIG_BACKOFF	0x00000020
497 #define	TRANSMIT_MODE_FLOW_CONTROL	0x00000010
498 
499 /*
500  * Receive MAC Mode Register
501  * (RECEIVE_MAC_MODE_REG, 0x0468)
502  */
503 #define	RECEIVE_MODE_KEEP_VLAN_TAG	0x00000400
504 #define	RECEIVE_MODE_NO_CRC_CHECK	0x00000200
505 #define	RECEIVE_MODE_PROMISCUOUS	0x00000100
506 #define	RECEIVE_MODE_LENGTH_CHECK	0x00000080
507 #define	RECEIVE_MODE_ACCEPT_RUNTS	0x00000040
508 #define	RECEIVE_MODE_ACCEPT_OVERSIZE	0x00000020
509 #define	RECEIVE_MODE_KEEP_PAUSE		0x00000010
510 #define	RECEIVE_MODE_FLOW_CONTROL	0x00000004
511 
512 /*
513  * Receive BD Initiator Mode Register
514  * (RCV_BD_INITIATOR_MODE_REG, 0x2c00)
515  *
516  * Each of these bits controls whether ATTN is asserted
517  * on a particular condition
518  */
519 #define	RCV_BD_DISABLED_RING_ATTN	0x00000004
520 
521 /*
522  * Receive Data & Receive BD Initiator Mode Register
523  * (RCV_DATA_BD_INITIATOR_MODE_REG, 0x2400)
524  *
525  * Each of these bits controls whether ATTN is asserted
526  * on a particular condition
527  */
528 #define	RCV_DATA_BD_ILL_RING_ATTN	0x00000010
529 #define	RCV_DATA_BD_FRAME_SIZE_ATTN	0x00000008
530 #define	RCV_DATA_BD_NEED_JUMBO_ATTN	0x00000004
531 
532 #define	RCV_DATA_BD_ALL_ATTN_BITS	0x0000001c
533 
534 /*
535  * Host Coalescing Mode Control Register
536  * (HOST_COALESCE_MODE_REG, 0x3c00)
537  */
538 #define	COALESCE_64_BYTE_RINGS		12
539 #define	COALESCE_NO_INT_ON_COAL_FORCE	0x00001000
540 #define	COALESCE_NO_INT_ON_DMAD_FORCE	0x00000800
541 #define	COALESCE_CLR_TICKS_TX		0x00000400
542 #define	COALESCE_CLR_TICKS_RX		0x00000200
543 #define	COALESCE_32_BYTE_STATUS		0x00000100
544 #define	COALESCE_64_BYTE_STATUS		0x00000080
545 #define	COALESCE_NOW			0x00000008
546 
547 /*
548  * Buffer Manager Mode Register
549  * (BUFFER_MANAGER_MODE_REG, 0x4400)
550  *
551  * In addition to the usual error-attn common to most state machines
552  * this register has a separate bit for attn on running-low-on-mbufs
553  */
554 #define	BUFF_MGR_TEST_MODE		0x00000008
555 #define	BUFF_MGR_MBUF_LOW_ATTN_ENABLE	0x00000010
556 
557 #define	BUFF_MGR_ALL_ATTN_BITS		0x00000014
558 
559 /*
560  * Read and Write DMA Mode Registers (READ_DMA_MODE_REG,
561  * 0x4800 and WRITE_DMA_MODE_REG, 0x4c00)
562  *
563  * These registers each contain a 2-bit priority field, which controls
564  * the relative priority of that type of DMA (read vs. write vs. MSI),
565  * and a set of bits that control whether ATTN is asserted on each
566  * particular condition
567  */
568 #define	DMA_PRIORITY_MASK		0xc0000000
569 #define	DMA_PRIORITY_SHIFT		30
570 #define	ALL_DMA_ATTN_BITS		0x000003fc
571 
572 /*
573  * End of state machine control register definitions
574  */
575 
576 
577 /*
578  * Mailbox Registers (8 bytes each, but high half unused)
579  */
580 #define	INTERRUPT_MBOX_0_REG		0x0200
581 #define	INTERRUPT_MBOX_1_REG		0x0208
582 #define	INTERRUPT_MBOX_2_REG		0x0210
583 #define	INTERRUPT_MBOX_3_REG		0x0218
584 #define	INTERRUPT_MBOX_REG(n)		(0x0200+8*(n))
585 
586 /*
587  * Ring Producer/Consumer Index (Mailbox) Registers
588  */
589 #define	RECV_STD_PROD_INDEX_REG		0x0268
590 #define	RECV_JUMBO_PROD_INDEX_REG	0x0270
591 #define	RECV_MINI_PROD_INDEX_REG	0x0278
592 #define	RECV_RING_CONS_INDEX_REGS	0x0280
593 #define	SEND_RING_HOST_PROD_INDEX_REGS	0x0300
594 #define	SEND_RING_NIC_PROD_INDEX_REGS	0x0380
595 
596 #define	RECV_RING_CONS_INDEX_REG(ring)	(0x0280+8*(ring))
597 #define	SEND_RING_HOST_INDEX_REG(ring)	(0x0300+8*(ring))
598 #define	SEND_RING_NIC_INDEX_REG(ring)	(0x0380+8*(ring))
599 
600 /*
601  * Ethernet MAC Mode Register
602  */
603 #define	ETHERNET_MAC_MODE_REG		0x0400
604 #define	ETHERNET_MODE_ENABLE_FHDE	0x00800000
605 #define	ETHERNET_MODE_ENABLE_RDE	0x00400000
606 #define	ETHERNET_MODE_ENABLE_TDE	0x00200000
607 #define	ETHERNET_MODE_ENABLE_MIP	0x00100000
608 #define	ETHERNET_MODE_ENABLE_ACPI	0x00080000
609 #define	ETHERNET_MODE_ENABLE_MAGIC_PKT	0x00040000
610 #define	ETHERNET_MODE_SEND_CFGS		0x00020000
611 #define	ETHERNET_MODE_FLUSH_TX_STATS	0x00010000
612 #define	ETHERNET_MODE_CLEAR_TX_STATS	0x00008000
613 #define	ETHERNET_MODE_ENABLE_TX_STATS	0x00004000
614 #define	ETHERNET_MODE_FLUSH_RX_STATS	0x00002000
615 #define	ETHERNET_MODE_CLEAR_RX_STATS	0x00001000
616 #define	ETHERNET_MODE_ENABLE_RX_STATS	0x00000800
617 #define	ETHERNET_MODE_LINK_POLARITY	0x00000400
618 #define	ETHERNET_MODE_MAX_DEFER		0x00000200
619 #define	ETHERNET_MODE_ENABLE_TX_BURST	0x00000100
620 #define	ETHERNET_MODE_TAGGED_MODE	0x00000080
621 #define	ETHERNET_MODE_MAC_LOOPBACK	0x00000010
622 #define	ETHERNET_MODE_PORTMODE_MASK	0x0000000c
623 #define	ETHERNET_MODE_PORTMODE_TBI	0x0000000c
624 #define	ETHERNET_MODE_PORTMODE_GMII	0x00000008
625 #define	ETHERNET_MODE_PORTMODE_MII	0x00000004
626 #define	ETHERNET_MODE_PORTMODE_NONE	0x00000000
627 #define	ETHERNET_MODE_HALF_DUPLEX	0x00000002
628 #define	ETHERNET_MODE_GLOBAL_RESET	0x00000001
629 
630 /*
631  * Ethernet MAC Status & Event Registers
632  */
633 #define	ETHERNET_MAC_STATUS_REG		0x0404
634 #define	ETHERNET_STATUS_MI_INT		0x00800000
635 #define	ETHERNET_STATUS_MI_COMPLETE	0x00400000
636 #define	ETHERNET_STATUS_LINK_CHANGED	0x00001000
637 #define	ETHERNET_STATUS_PCS_ERROR	0x00000400
638 #define	ETHERNET_STATUS_SYNC_CHANGED	0x00000010
639 #define	ETHERNET_STATUS_CFG_CHANGED	0x00000008
640 #define	ETHERNET_STATUS_RECEIVING_CFG	0x00000004
641 #define	ETHERNET_STATUS_SIGNAL_DETECT	0x00000002
642 #define	ETHERNET_STATUS_PCS_SYNCHED	0x00000001
643 
644 #define	ETHERNET_MAC_EVENT_ENABLE_REG	0x0408
645 #define	ETHERNET_EVENT_MI_INT		0x00800000
646 #define	ETHERNET_EVENT_LINK_INT		0x00001000
647 #define	ETHERNET_STATUS_PCS_ERROR_INT	0x00000400
648 
649 /*
650  * Ethernet MAC LED Control Register
651  *
652  * NOTE: PHY mode 1 *MUST* be selected; this is the hardware default and
653  * the external LED driver circuitry is wired up to assume that this mode
654  * will always be selected.  Software must not change it!
655  */
656 #define	ETHERNET_MAC_LED_CONTROL_REG	0x040c
657 #define	LED_CONTROL_OVERRIDE_BLINK	0x80000000
658 #define	LED_CONTROL_BLINK_PERIOD_MASK	0x7ff80000
659 #define	LED_CONTROL_LED_MODE_MASK	0x00001800
660 #define	LED_CONTROL_LED_MODE_5700	0x00000000
661 #define	LED_CONTROL_LED_MODE_PHY_1	0x00000800	/* mandatory	*/
662 #define	LED_CONTROL_LED_MODE_PHY_2	0x00001000
663 #define	LED_CONTROL_LED_MODE_RESERVED	0x00001800
664 #define	LED_CONTROL_TRAFFIC_LED_STATUS	0x00000400
665 #define	LED_CONTROL_10MBPS_LED_STATUS	0x00000200
666 #define	LED_CONTROL_100MBPS_LED_STATUS	0x00000100
667 #define	LED_CONTROL_1000MBPS_LED_STATUS	0x00000080
668 #define	LED_CONTROL_BLINK_TRAFFIC	0x00000040
669 #define	LED_CONTROL_TRAFFIC_LED		0x00000020
670 #define	LED_CONTROL_OVERRIDE_TRAFFIC	0x00000010
671 #define	LED_CONTROL_10MBPS_LED		0x00000008
672 #define	LED_CONTROL_100MBPS_LED		0x00000004
673 #define	LED_CONTROL_1000MBPS_LED	0x00000002
674 #define	LED_CONTROL_OVERRIDE_LINK	0x00000001
675 #define	LED_CONTROL_DEFAULT		0x02000800
676 
677 /*
678  * MAC Address registers
679  *
680  * These four eight-byte registers each hold one unicast address
681  * (six bytes), right justified & zero-filled on the left.
682  * They will normally all be set to the same value, as a station
683  * usually only has one h/w address.  The value in register 0 is
684  * used for pause packets; any of the four can be specified for
685  * substitution into other transmitted packets if required.
686  */
687 #define	MAC_ADDRESS_0_REG		0x0410
688 #define	MAC_ADDRESS_1_REG		0x0418
689 #define	MAC_ADDRESS_2_REG		0x0420
690 #define	MAC_ADDRESS_3_REG		0x0428
691 
692 #define	MAC_ADDRESS_REG(n)		(0x0410+8*(n))
693 #define	MAC_ADDRESS_REGS_MAX		4
694 
695 /*
696  * More MAC Registers ...
697  */
698 #define	MAC_TX_RANDOM_BACKOFF_REG	0x0438
699 #define	MAC_RX_MTU_SIZE_REG		0x043c
700 #define	MAC_RX_MTU_DEFAULT		0x000005f2	/* 1522	*/
701 #define	MAC_TX_LENGTHS_REG		0x0464
702 #define	MAC_TX_LENGTHS_DEFAULT		0x00002620
703 
704 /*
705  * MII access registers
706  */
707 #define	MI_COMMS_REG			0x044c
708 #define	MI_COMMS_START			0x20000000
709 #define	MI_COMMS_READ_FAILED		0x10000000
710 #define	MI_COMMS_COMMAND_MASK		0x0c000000
711 #define	MI_COMMS_COMMAND_READ		0x08000000
712 #define	MI_COMMS_COMMAND_WRITE		0x04000000
713 #define	MI_COMMS_ADDRESS_MASK		0x03e00000
714 #define	MI_COMMS_ADDRESS_SHIFT		21
715 #define	MI_COMMS_REGISTER_MASK		0x001f0000
716 #define	MI_COMMS_REGISTER_SHIFT		16
717 #define	MI_COMMS_DATA_MASK		0x0000ffff
718 #define	MI_COMMS_DATA_SHIFT		0
719 
720 #define	MI_STATUS_REG			0x0450
721 #define	MI_STATUS_10MBPS		0x00000002
722 #define	MI_STATUS_LINK			0x00000001
723 
724 #define	MI_MODE_REG			0x0454
725 #define	MI_MODE_CLOCK_MASK		0x001f0000
726 #define	MI_MODE_AUTOPOLL		0x00000010
727 #define	MI_MODE_POLL_SHORT_PREAMBLE	0x00000002
728 #define	MI_MODE_DEFAULT			0x000c0000
729 
730 #define	MI_AUTOPOLL_STATUS_REG		0x0458
731 #define	MI_AUTOPOLL_ERROR		0x00000001
732 
733 #define	TRANSMIT_MAC_STATUS_REG		0x0460
734 #define	TRANSMIT_STATUS_ODI_OVERRUN	0x00000020
735 #define	TRANSMIT_STATUS_ODI_UNDERRUN	0x00000010
736 #define	TRANSMIT_STATUS_LINK_UP		0x00000008
737 #define	TRANSMIT_STATUS_SENT_XON	0x00000004
738 #define	TRANSMIT_STATUS_SENT_XOFF	0x00000002
739 #define	TRANSMIT_STATUS_RCVD_XOFF	0x00000001
740 
741 #define	RECEIVE_MAC_STATUS_REG		0x046c
742 #define	RECEIVE_STATUS_RCVD_XON		0x00000004
743 #define	RECEIVE_STATUS_RCVD_XOFF	0x00000002
744 #define	RECEIVE_STATUS_SENT_XOFF	0x00000001
745 
746 /*
747  * These four-byte registers constitute a hash table for deciding
748  * whether to accept incoming multicast packets.  The bits are
749  * numbered in big-endian fashion, from hash 0 => the MSB of
750  * register 0 to hash 127 => the LSB of the highest-numbered
751  * register.
752  *
753  * NOTE: the 5704 can use a 256-bit table (registers 0-7) if
754  * enabled by setting the appropriate bit in the Rx MAC mode
755  * register.  Otherwise, and on all earlier chips, the table
756  * is only 128 bits (registers 0-3).
757  */
758 #define	MAC_HASH_0_REG			0x0470
759 #define	MAC_HASH_1_REG			0x0474
760 #define	MAC_HASH_2_REG			0x0478
761 #define	MAC_HASH_3_REG			0x047c
762 #define	MAC_HASH_4_REG			0x????
763 #define	MAC_HASH_5_REG			0x????
764 #define	MAC_HASH_6_REG			0x????
765 #define	MAC_HASH_7_REG			0x????
766 #define	MAC_HASH_REG(n)			(0x470+4*(n))
767 
768 /*
769  * Receive Rules Registers: 16 pairs of control+mask/value pairs
770  */
771 #define	RCV_RULES_CONTROL_0_REG		0x0480
772 #define	RCV_RULES_MASK_0_REG		0x0484
773 #define	RCV_RULES_CONTROL_15_REG	0x04f8
774 #define	RCV_RULES_MASK_15_REG		0x04fc
775 #define	RCV_RULES_CONFIG_REG		0x0500
776 #define	RCV_RULES_CONFIG_DEFAULT	0x00000008
777 
778 #define	RECV_RULES_NUM_MAX		16
779 #define	RECV_RULE_CONTROL_REG(rule)	(RCV_RULES_CONTROL_0_REG+8*(rule))
780 #define	RECV_RULE_MASK_REG(rule)	(RCV_RULES_MASK_0_REG+8*(rule))
781 
782 #define	RECV_RULE_CTL_ENABLE		0x80000000
783 #define	RECV_RULE_CTL_AND		0x40000000
784 #define	RECV_RULE_CTL_P1		0x20000000
785 #define	RECV_RULE_CTL_P2		0x10000000
786 #define	RECV_RULE_CTL_P3		0x08000000
787 #define	RECV_RULE_CTL_MASK		0x04000000
788 #define	RECV_RULE_CTL_DISCARD		0x02000000
789 #define	RECV_RULE_CTL_MAP		0x01000000
790 #define	RECV_RULE_CTL_RESV_BITS		0x00fc0000
791 #define	RECV_RULE_CTL_OP		0x00030000
792 #define	RECV_RULE_CTL_OP_EQ		0x00000000
793 #define	RECV_RULE_CTL_OP_NEQ		0x00010000
794 #define	RECV_RULE_CTL_OP_GREAT		0x00020000
795 #define	RECV_RULE_CTL_OP_LESS		0x00030000
796 #define	RECV_RULE_CTL_HEADER		0x0000e000
797 #define	RECV_RULE_CTL_HEADER_FRAME	0x00000000
798 #define	RECV_RULE_CTL_HEADER_IP		0x00002000
799 #define	RECV_RULE_CTL_HEADER_TCP	0x00004000
800 #define	RECV_RULE_CTL_HEADER_UDP	0x00006000
801 #define	RECV_RULE_CTL_HEADER_DATA	0x00008000
802 #define	RECV_RULE_CTL_CLASS_BITS	0x00001f00
803 #define	RECV_RULE_CTL_CLASS(ring)	(((ring) << 8) & \
804 					    RECV_RULE_CTL_CLASS_BITS)
805 #define	RECV_RULE_CTL_OFFSET		0x000000ff
806 
807 /*
808  * Receive Rules definition
809  */
810 #define	RULE_MATCH_TO_RING		2
811 	/* ring that traffic will go into when recv rule matches.	*/
812 	/* value is between 1 and 16, not 0 and 15 */
813 
814 #define	IPHEADER_PROTO_OFFSET		0x08
815 #define	IPHEADER_SIP_OFFSET		0x0c
816 
817 #define	RULE_PROTO_CONTROL	(RECV_RULE_CTL_ENABLE | RECV_RULE_CTL_MASK | \
818 				    RECV_RULE_CTL_OP_EQ | \
819 				    RECV_RULE_CTL_HEADER_IP | \
820 				    RECV_RULE_CTL_CLASS(RULE_MATCH_TO_RING) | \
821 				    IPHEADER_PROTO_OFFSET)
822 #define	RULE_TCP_MASK_VALUE		0x00ff0006
823 #define	RULE_UDP_MASK_VALUE		0x00ff0011
824 #define	RULE_ICMP_MASK_VALUE		0x00ff0001
825 
826 #define	RULE_SIP_ADDR			0x0a000001
827 	/* ip address in 32-bit integer,such as, 0x0a000001 is "10.0.0.1" */
828 
829 #define	RULE_SIP_CONTROL	(RECV_RULE_CTL_ENABLE | RECV_RULE_CTL_OP_EQ | \
830 				    RECV_RULE_CTL_HEADER_IP | \
831 				    RECV_RULE_CTL_CLASS(RULE_MATCH_TO_RING) | \
832 				    IPHEADER_SIP_OFFSET)
833 #define	RULE_SIP_MASK_VALUE		RULE_SIP_ADDR
834 
835 /*
836  * 1000BaseX low-level access registers
837  */
838 #define	MAC_GIGABIT_PCS_TEST_REG	0x0440
839 #define	MAC_GIGABIT_PCS_TEST_ENABLE	0x00100000
840 #define	MAC_GIGABIT_PCS_TEST_PATTERN	0x000fffff
841 #define	TX_1000BASEX_AUTONEG_REG	0x0444
842 #define	RX_1000BASEX_AUTONEG_REG	0x0448
843 
844 /*
845  * Autoneg code bits for the 1000BASE-X AUTONEG registers
846  */
847 #define	AUTONEG_CODE_PAUSE		0x00008000
848 #define	AUTONEG_CODE_HALF_DUPLEX	0x00004000
849 #define	AUTONEG_CODE_FULL_DUPLEX	0x00002000
850 #define	AUTONEG_CODE_NEXT_PAGE		0x00000080
851 #define	AUTONEG_CODE_ACKNOWLEDGE	0x00000040
852 #define	AUTONEG_CODE_FAULT_MASK		0x00000030
853 #define	AUTONEG_CODE_FAULT_ANEG_ERR	0x00000030
854 #define	AUTONEG_CODE_FAULT_LINK_FAIL	0x00000020
855 #define	AUTONEG_CODE_FAULT_OFFLINE	0x00000010
856 #define	AUTONEG_CODE_ASYM_PAUSE		0x00000001
857 
858 /*
859  * SerDes Registers (5703S/5704S only)
860  */
861 #define	SERDES_CONTROL_REG		0x0590
862 #define	SERDES_CONTROL_TBI_LOOPBACK	0x00020000
863 #define	SERDES_CONTROL_COMMA_DETECT	0x00010000
864 #define	SERDES_CONTROL_TX_DISABLE	0x00004000
865 #define	SERDES_STATUS_REG		0x0594
866 #define	SERDES_STATUS_COMMA_DETECTED	0x00000100
867 #define	SERDES_STATUS_RXSTAT		0x000000ff
868 
869 /*
870  * Statistic Registers (5705/5788/5721/5751/5752/5714/5715 only)
871  */
872 #define	STAT_IFHCOUT_OCTETS_REG		0x0800
873 #define	STAT_ETHER_COLLIS_REG		0x0808
874 #define	STAT_OUTXON_SENT_REG		0x080c
875 #define	STAT_OUTXOFF_SENT_REG		0x0810
876 #define	STAT_DOT3_INTMACTX_ERR_REG		0x0818
877 #define	STAT_DOT3_SCOLLI_FRAME_REG		0x081c
878 #define	STAT_DOT3_MCOLLI_FRAME_REG		0x0820
879 #define	STAT_DOT3_DEFERED_TX_REG		0x0824
880 #define	STAT_DOT3_EXCE_COLLI_REG		0x082c
881 #define	STAT_DOT3_LATE_COLLI_REG		0x0830
882 #define	STAT_IFHCOUT_UPKGS_REG		0x086c
883 #define	STAT_IFHCOUT_MPKGS_REG		0x0870
884 #define	STAT_IFHCOUT_BPKGS_REG		0x0874
885 
886 #define	STAT_IFHCIN_OCTETS_REG		0x0880
887 #define	STAT_ETHER_FRAGMENT_REG		0x0888
888 #define	STAT_IFHCIN_UPKGS_REG		0x088c
889 #define	STAT_IFHCIN_MPKGS_REG		0x0890
890 #define	STAT_IFHCIN_BPKGS_REG		0x0894
891 
892 #define	STAT_DOT3_FCS_ERR_REG		0x0898
893 #define	STAT_DOT3_ALIGN_ERR_REG		0x089c
894 #define	STAT_XON_PAUSE_RX_REG		0x08a0
895 #define	STAT_XOFF_PAUSE_RX_REG		0x08a4
896 #define	STAT_MAC_CTRL_RX_REG		0x08a8
897 #define	STAT_XOFF_STATE_ENTER_REG		0x08ac
898 #define	STAT_DOT3_FRAME_TOOLONG_REG		0x08b0
899 #define	STAT_ETHER_JABBERS_REG		0x08b4
900 #define	STAT_ETHER_UNDERSIZE_REG		0x08b8
901 #define	SIZE_OF_STATISTIC_REG		0x1B
902 /*
903  * Send Data Initiator Registers
904  */
905 #define	SEND_INIT_STATS_CONTROL_REG	0x0c08
906 #define	SEND_INIT_STATS_ZERO		0x00000010
907 #define	SEND_INIT_STATS_FLUSH		0x00000008
908 #define	SEND_INIT_STATS_CLEAR		0x00000004
909 #define	SEND_INIT_STATS_FASTER		0x00000002
910 #define	SEND_INIT_STATS_ENABLE		0x00000001
911 
912 #define	SEND_INIT_STATS_ENABLE_MASK_REG	0x0c0c
913 
914 /*
915  * Send Buffer Descriptor Selector Control Registers
916  */
917 #define	SEND_BD_SELECTOR_STATUS_REG	0x1404
918 #define	SEND_BD_SELECTOR_HWDIAG_REG	0x1408
919 #define	SEND_BD_SELECTOR_INDEX_REG(n)	(0x1440+4*(n))
920 
921 /*
922  * Receive List Placement Registers
923  */
924 #define	RCV_LP_CONFIG_REG		0x2010
925 #define	RCV_LP_CONFIG_DEFAULT		0x00000009
926 #define	RCV_LP_CONFIG(rings)		(((rings) << 3) | 0x1)
927 
928 #define	RCV_LP_STATS_CONTROL_REG	0x2014
929 #define	RCV_LP_STATS_ZERO		0x00000010
930 #define	RCV_LP_STATS_FLUSH		0x00000008
931 #define	RCV_LP_STATS_CLEAR		0x00000004
932 #define	RCV_LP_STATS_FASTER		0x00000002
933 #define	RCV_LP_STATS_ENABLE		0x00000001
934 
935 #define	RCV_LP_STATS_ENABLE_MASK_REG	0x2018
936 #define	RCV_LP_STATS_DISABLE_MACTQ	0x040000
937 
938 /*
939  * Receive Data & BD Initiator Registers
940  */
941 #define	RCV_INITIATOR_STATUS_REG	0x2404
942 
943 /*
944  * Receive Buffer Descriptor Ring Control Block Registers
945  * NB: sixteen bytes (128 bits) each
946  */
947 #define	JUMBO_RCV_BD_RING_RCB_REG	0x2440
948 #define	STD_RCV_BD_RING_RCB_REG		0x2450
949 #define	MINI_RCV_BD_RING_RCB_REG	0x2460
950 
951 /*
952  * Receive Buffer Descriptor Ring Replenish Threshold Registers
953  */
954 #define	MINI_RCV_BD_REPLENISH_REG	0x2c14
955 #define	MINI_RCV_BD_REPLENISH_DEFAULT	0x00000080	/* 128	*/
956 #define	STD_RCV_BD_REPLENISH_REG	0x2c18
957 #define	STD_RCV_BD_REPLENISH_DEFAULT	0x00000002	/* 2	*/
958 #define	JUMBO_RCV_BD_REPLENISH_REG	0x2c1c
959 #define	JUMBO_RCV_BD_REPLENISH_DEFAULT	0x00000020	/* 32	*/
960 
961 /*
962  * Host Coalescing Engine Control Registers
963  */
964 #define	RCV_COALESCE_TICKS_REG		0x3c08
965 #define	RCV_COALESCE_TICKS_DEFAULT	0x00000096	/* 150	*/
966 #define	SEND_COALESCE_TICKS_REG		0x3c0c
967 #define	SEND_COALESCE_TICKS_DEFAULT	0x00000096	/* 150	*/
968 #define	RCV_COALESCE_MAX_BD_REG		0x3c10
969 #define	RCV_COALESCE_MAX_BD_DEFAULT	0x0000000a	/* 10	*/
970 #define	SEND_COALESCE_MAX_BD_REG	0x3c14
971 #define	SEND_COALESCE_MAX_BD_DEFAULT	0x0000000a	/* 10	*/
972 #define	RCV_COALESCE_INT_TICKS_REG	0x3c18
973 #define	RCV_COALESCE_INT_TICKS_DEFAULT	0x00000000	/* 0	*/
974 #define	SEND_COALESCE_INT_TICKS_REG	0x3c1c
975 #define	SEND_COALESCE_INT_TICKS_DEFAULT	0x00000000	/* 0	*/
976 #define	RCV_COALESCE_INT_BD_REG		0x3c20
977 #define	RCV_COALESCE_INT_BD_DEFAULT	0x00000000	/* 0	*/
978 #define	SEND_COALESCE_INT_BD_REG	0x3c24
979 #define	SEND_COALESCE_INT_BD_DEFAULT	0x00000000	/* 0	*/
980 #define	STATISTICS_TICKS_REG		0x3c28
981 #define	STATISTICS_TICKS_DEFAULT	0x000f4240	/* 1000000 */
982 #define	STATISTICS_HOST_ADDR_REG	0x3c30
983 #define	STATUS_BLOCK_HOST_ADDR_REG	0x3c38
984 #define	STATISTICS_BASE_ADDR_REG	0x3c40
985 #define	STATUS_BLOCK_BASE_ADDR_REG	0x3c44
986 #define	FLOW_ATTN_REG			0x3c48
987 
988 #define	NIC_JUMBO_RECV_INDEX_REG	0x3c50
989 #define	NIC_STD_RECV_INDEX_REG		0x3c54
990 #define	NIC_MINI_RECV_INDEX_REG		0x3c58
991 #define	NIC_DIAG_RETURN_INDEX_REG(n)	(0x3c80+4*(n))
992 #define	NIC_DIAG_SEND_INDEX_REG(n)	(0x3cc0+4*(n))
993 
994 /*
995  * Mbuf Pool Initialisation & Watermark Registers
996  *
997  * There are some conflicts in the PRM; compare the recommendations
998  * on pp. 115, 236, and 339.  The values here were recommended by
999  * dkim@broadcom.com (and the PRM should be corrected soon ;-)
1000  */
1001 #define	BUFFER_MANAGER_STATUS_REG	0x4404
1002 #define	MBUF_POOL_BASE_REG		0x4408
1003 #define	MBUF_POOL_BASE_DEFAULT		0x00008000
1004 #define	MBUF_POOL_BASE_5721		0x00010000
1005 #define	MBUF_POOL_BASE_5704		0x00010000
1006 #define	MBUF_POOL_BASE_5705		0x00010000
1007 #define	MBUF_POOL_LENGTH_REG		0x440c
1008 #define	MBUF_POOL_LENGTH_DEFAULT	0x00018000
1009 #define	MBUF_POOL_LENGTH_5704		0x00010000
1010 #define	MBUF_POOL_LENGTH_5705		0x00008000
1011 #define	MBUF_POOL_LENGTH_5721		0x00008000
1012 #define	RDMA_MBUF_LOWAT_REG		0x4410
1013 #define	RDMA_MBUF_LOWAT_DEFAULT		0x00000050
1014 #define	RDMA_MBUF_LOWAT_5705		0x00000000
1015 #define	RDMA_MBUF_LOWAT_JUMBO		0x00000130
1016 #define	RDMA_MBUF_LOWAT_5714_JUMBO	0x00000000
1017 #define	MAC_RX_MBUF_LOWAT_REG		0x4414
1018 #define	MAC_RX_MBUF_LOWAT_DEFAULT	0x00000020
1019 #define	MAC_RX_MBUF_LOWAT_5705		0x00000010
1020 #define	MAC_RX_MBUF_LOWAT_JUMBO		0x00000098
1021 #define	MAC_RX_MBUF_LOWAT_5714_JUMBO	0x0000004b
1022 #define	MBUF_HIWAT_REG			0x4418
1023 #define	MBUF_HIWAT_DEFAULT		0x00000060
1024 #define	MBUF_HIWAT_5705			0x00000060
1025 #define	MBUF_HIWAT_JUMBO		0x0000017c
1026 #define	MBUF_HIWAT_5714_JUMBO		0x00000096
1027 
1028 /*
1029  * DMA Descriptor Pool Initialisation & Watermark Registers
1030  */
1031 #define	DMAD_POOL_BASE_REG		0x442c
1032 #define	DMAD_POOL_BASE_DEFAULT		0x00002000
1033 #define	DMAD_POOL_LENGTH_REG		0x4430
1034 #define	DMAD_POOL_LENGTH_DEFAULT	0x00002000
1035 #define	DMAD_POOL_LOWAT_REG		0x4434
1036 #define	DMAD_POOL_LOWAT_DEFAULT		0x00000005	/* 5	*/
1037 #define	DMAD_POOL_HIWAT_REG		0x4438
1038 #define	DMAD_POOL_HIWAT_DEFAULT		0x0000000a	/* 10	*/
1039 
1040 /*
1041  * More threshold/watermark registers ...
1042  */
1043 #define	RECV_FLOW_THRESHOLD_REG		0x4458
1044 #define	LOWAT_MAX_RECV_FRAMES_REG	0x0504
1045 #define	LOWAT_MAX_RECV_FRAMES_DEFAULT	0x00000002
1046 
1047 /*
1048  * Read/Write DMA Status Registers
1049  */
1050 #define	READ_DMA_STATUS_REG		0x4804
1051 #define	WRITE_DMA_STATUS_REG		0x4c04
1052 
1053 /*
1054  * RX/TX RISC Registers
1055  */
1056 #define	RX_RISC_MODE_REG		0x5000
1057 #define	RX_RISC_STATE_REG		0x5004
1058 #define	RX_RISC_PC_REG			0x501c
1059 #define	TX_RISC_MODE_REG		0x5400
1060 #define	TX_RISC_STATE_REG		0x5404
1061 #define	TX_RISC_PC_REG			0x541c
1062 
1063 #define	FTQ_RESET_REG			0x5c00
1064 
1065 #define	MSI_MODE_REG			0x6000
1066 #define	MSI_PRI_HIGHEST			0xc0000000
1067 #define	MSI_MSI_ENABLE			0x00000002
1068 
1069 #define	MODE_CONTROL_REG		0x6800
1070 #define	MODE_ROUTE_MCAST_TO_RX_RISC	0x40000000
1071 #define	MODE_4X_NIC_SEND_RINGS		0x20000000
1072 #define	MODE_INT_ON_FLOW_ATTN		0x10000000
1073 #define	MODE_INT_ON_DMA_ATTN		0x08000000
1074 #define	MODE_INT_ON_MAC_ATTN		0x04000000
1075 #define	MODE_INT_ON_RXRISC_ATTN		0x02000000
1076 #define	MODE_INT_ON_TXRISC_ATTN		0x01000000
1077 #define	MODE_RECV_NO_PSEUDO_HDR_CSUM	0x00800000
1078 #define	MODE_SEND_NO_PSEUDO_HDR_CSUM	0x00100000
1079 #define	MODE_HOST_SEND_BDS		0x00020000
1080 #define	MODE_HOST_STACK_UP		0x00010000
1081 #define	MODE_FORCE_32_BIT_PCI		0x00008000
1082 #define	MODE_NO_INT_ON_RECV		0x00004000
1083 #define	MODE_NO_INT_ON_SEND		0x00002000
1084 #define	MODE_ALLOW_BAD_FRAMES		0x00000800
1085 #define	MODE_NO_CRC			0x00000400
1086 #define	MODE_NO_FRAME_CRACKING		0x00000200
1087 #define	MODE_WORD_SWAP_FRAME		0x00000020
1088 #define	MODE_BYTE_SWAP_FRAME		0x00000010
1089 #define	MODE_WORD_SWAP_NONFRAME		0x00000004
1090 #define	MODE_BYTE_SWAP_NONFRAME		0x00000002
1091 #define	MODE_UPDATE_ON_COAL_ONLY	0x00000001
1092 
1093 /*
1094  * Miscellaneous Configuration Register
1095  *
1096  * This contains various bits relating to power control (which differ
1097  * among different members of the chip family), but the important bits
1098  * for our purposes are the RESET bit and the Timer Prescaler field.
1099  *
1100  * The RESET bit in this register serves to reset the whole chip, even
1101  * including the PCI interface(!)  Once it's set, the chip will not
1102  * respond to ANY accesses -- not even CONFIG space -- until the reset
1103  * completes internally.  According to the PRM, this should take less
1104  * than 100us.  Any access during this period will get a bus error.
1105  *
1106  * The Timer Prescaler field must be programmed so that the timer period
1107  * is as near as possible to 1us.  The value in this field should be
1108  * the Core Clock frequency in MHz minus 1.  From my reading of the PRM,
1109  * the Core Clock should always be 66MHz (independently of the bus speed,
1110  * at least for PCI rather than PCI-X), so this register must be set to
1111  * the value 0x82 ((66-1) << 1).
1112  */
1113 #define	CORE_CLOCK_MHZ			66
1114 #define	MISC_CONFIG_REG			0x6804
1115 #define	MISC_CONFIG_GRC_RESET_DISABLE   0x20000000
1116 #define	MISC_CONFIG_GPHY_POWERDOWN_OVERRIDE 0x04000000
1117 #define	MISC_CONFIG_POWERDOWN		0x00100000
1118 #define	MISC_CONFIG_POWER_STATE		0x00060000
1119 #define	MISC_CONFIG_PRESCALE_MASK	0x000000fe
1120 #define	MISC_CONFIG_RESET_BIT		0x00000001
1121 #define	MISC_CONFIG_DEFAULT		(((CORE_CLOCK_MHZ)-1) << 1)
1122 
1123 /*
1124  * Miscellaneous Local Control Register (MLCR)
1125  */
1126 #define	MISC_LOCAL_CONTROL_REG		0x6808
1127 #define	MLCR_PCI_CTRL_SELECT		0x10000000
1128 #define	MLCR_LEGACY_PCI_MODE		0x08000000
1129 #define	MLCR_AUTO_SEEPROM_ACCESS	0x01000000
1130 #define	MLCR_SSRAM_CYCLE_DESELECT	0x00800000
1131 #define	MLCR_SSRAM_TYPE			0x00400000
1132 #define	MLCR_BANK_SELECT		0x00200000
1133 #define	MLCR_SRAM_SIZE_MASK		0x001c0000
1134 #define	MLCR_ENABLE_EXTERNAL_MEMORY	0x00020000
1135 
1136 #define	MLCR_MISC_PINS_OUTPUT_2		0x00010000
1137 #define	MLCR_MISC_PINS_OUTPUT_1		0x00008000
1138 #define	MLCR_MISC_PINS_OUTPUT_0		0x00004000
1139 #define	MLCR_MISC_PINS_OUTPUT_ENABLE_2	0x00002000
1140 #define	MLCR_MISC_PINS_OUTPUT_ENABLE_1	0x00001000
1141 #define	MLCR_MISC_PINS_OUTPUT_ENABLE_0	0x00000800
1142 #define	MLCR_MISC_PINS_INPUT_2		0x00000400	/* R/O	*/
1143 #define	MLCR_MISC_PINS_INPUT_1		0x00000200	/* R/O	*/
1144 #define	MLCR_MISC_PINS_INPUT_0		0x00000100	/* R/O	*/
1145 
1146 #define	MLCR_INT_ON_ATTN		0x00000008	/* R/W	*/
1147 #define	MLCR_SET_INT			0x00000004	/* W/O	*/
1148 #define	MLCR_CLR_INT			0x00000002	/* W/O	*/
1149 #define	MLCR_INTA_STATE			0x00000001	/* R/O	*/
1150 
1151 /*
1152  * This value defines all GPIO bits as INPUTS, but sets their default
1153  * values as outputs to HIGH, on the assumption that external circuits
1154  * (if any) will probably be active-LOW with passive pullups.
1155  *
1156  * The Claymore blade uses GPIO1 to control writing to the SEEPROM in
1157  * just this fashion.  It has to be set as an OUTPUT and driven LOW to
1158  * enable writing.  Otherwise, the SEEPROM is protected.
1159  */
1160 #define	MLCR_DEFAULT			0x0101c000
1161 #define	MLCR_DEFAULT_5714		0x1901c000
1162 
1163 /*
1164  * Serial EEPROM Data/Address Registers (auto-access mode)
1165  */
1166 #define	SERIAL_EEPROM_DATA_REG		0x683c
1167 #define	SERIAL_EEPROM_ADDRESS_REG	0x6838
1168 #define	SEEPROM_ACCESS_READ		0x80000000
1169 #define	SEEPROM_ACCESS_WRITE		0x00000000
1170 #define	SEEPROM_ACCESS_COMPLETE		0x40000000
1171 #define	SEEPROM_ACCESS_RESET		0x20000000
1172 #define	SEEPROM_ACCESS_DEVID_MASK	0x1c000000
1173 #define	SEEPROM_ACCESS_START		0x02000000
1174 #define	SEEPROM_ACCESS_HALFCLOCK_MASK	0x01ff0000
1175 #define	SEEPROM_ACCESS_ADDRESS_MASK	0x0000fffc
1176 
1177 #define	SEEPROM_ACCESS_DEVID_SHIFT	26		/* bits	*/
1178 #define	SEEPROM_ACCESS_HALFCLOCK_SHIFT	16		/* bits */
1179 #define	SEEPROM_ACCESS_ADDRESS_SIZE	16		/* bits	*/
1180 
1181 #define	SEEPROM_ACCESS_HALFCLOCK_340KHZ	0x0060		/* 340kHz */
1182 #define	SEEPROM_ACCESS_INIT		0x20600000	/* reset+clock	*/
1183 
1184 /*
1185  * "Linearised" address mask, treating multiple devices as consecutive
1186  */
1187 #define	SEEPROM_DEV_AND_ADDR_MASK	0x0007fffc	/* 8x64k devices */
1188 
1189 /*
1190  * Non-Volatile Memory Interface Registers
1191  * Note: on chips that support the flash interface (5702+), flash is the
1192  * default and the legacy seeprom interface must be explicitly enabled
1193  * if required. On older chips (5700/01), SEEPROM is the default (and
1194  * only) non-volatile memory available, and these registers don't exist!
1195  */
1196 #define	NVM_FLASH_CMD_REG		0x7000
1197 #define	NVM_FLASH_CMD_LAST		0x00000100
1198 #define	NVM_FLASH_CMD_FIRST		0x00000080
1199 #define	NVM_FLASH_CMD_RD		0x00000000
1200 #define	NVM_FLASH_CMD_WR		0x00000020
1201 #define	NVM_FLASH_CMD_DOIT		0x00000010
1202 #define	NVM_FLASH_CMD_DONE		0x00000008
1203 
1204 #define	NVM_FLASH_WRITE_REG		0x7008
1205 #define	NVM_FLASH_READ_REG		0x7010
1206 
1207 #define	NVM_FLASH_ADDR_REG		0x700c
1208 #define	NVM_FLASH_ADDR_MASK		0x00fffffc
1209 
1210 #define	NVM_CONFIG1_REG			0x7014
1211 #define	NVM_CFG1_LEGACY_SEEPROM_MODE	0x80000000
1212 #define	NVM_CFG1_SEE_CLK_DIV_MASK	0x003ff800
1213 #define	NVM_CFG1_SPI_CLK_DIV_MASK	0x00000780
1214 #define	NVM_CFG1_BUFFERED_MODE		0x00000002
1215 #define	NVM_CFG1_FLASH_MODE		0x00000001
1216 
1217 #define	NVM_SW_ARBITRATION_REG		0x7020
1218 #define	NVM_READ_REQ3			0X00008000
1219 #define	NVM_READ_REQ2			0X00004000
1220 #define	NVM_READ_REQ1			0X00002000
1221 #define	NVM_READ_REQ0			0X00001000
1222 #define	NVM_WON_REQ3			0X00000800
1223 #define	NVM_WON_REQ2			0X00000400
1224 #define	NVM_WON_REQ1			0X00000200
1225 #define	NVM_WON_REQ0			0X00000100
1226 #define	NVM_RESET_REQ3			0X00000080
1227 #define	NVM_RESET_REQ2			0X00000040
1228 #define	NVM_RESET_REQ1			0X00000020
1229 #define	NVM_RESET_REQ0			0X00000010
1230 #define	NVM_SET_REQ3			0X00000008
1231 #define	NVM_SET_REQ2			0X00000004
1232 #define	NVM_SET_REQ1			0X00000002
1233 #define	NVM_SET_REQ0			0X00000001
1234 
1235 /*
1236  * NVM access register
1237  * Applicable to BCM5721,BCM5751,BCM5752,BCM5714
1238  * and BCM5715 only.
1239  */
1240 #define	NVM_ACCESS_REG			0X7024
1241 #define	NVM_WRITE_ENABLE		0X00000002
1242 #define	NVM_ACCESS_ENABLE		0X00000001
1243 
1244 /*
1245  * TLP Control Register
1246  * Applicable to BCM5721 and BCM5751 only
1247  */
1248 #define	TLP_CONTROL_REG			0x7c00
1249 #define	TLP_DATA_FIFO_PROTECT		0x02000000
1250 
1251 /*
1252  * PHY Test Control Register
1253  * Applicable to BCM5721 and BCM5751 only
1254  */
1255 #define	PHY_TEST_CTRL_REG		0x7e2c
1256 #define	PHY_PCIE_SCRAM_MODE		0x20
1257 #define	PHY_PCIE_LTASS_MODE		0x40
1258 
1259 /*
1260  * The internal firmware expects a certain layout of the non-volatile
1261  * memory (if fitted), and will check for it during startup, and use the
1262  * contents to initialise various internal parameters if it looks good.
1263  *
1264  * The offsets and field definitions below refer to where to find some
1265  * important values, and how to interpret them ...
1266  */
1267 #define	NVMEM_DATA_MAC_ADDRESS		0x007c		/* 8 bytes	*/
1268 
1269 /*
1270  * MII (PHY) registers, beyond those already defined in <sys/miiregs.h>
1271  */
1272 
1273 #define	MII_AN_LPNXTPG			8
1274 #define	MII_1000BASE_T_CONTROL		9
1275 #define	MII_1000BASE_T_STATUS		10
1276 #define	MII_IEEE_EXT_STATUS		15
1277 
1278 /*
1279  * New bits in the MII_CONTROL register
1280  */
1281 #define	MII_CONTROL_1000MB		0x0040
1282 
1283 /*
1284  * New bits in the MII_AN_ADVERT register
1285  */
1286 #define	MII_ABILITY_ASYM_PAUSE		0x0800
1287 #define	MII_ABILITY_PAUSE		0x0400
1288 
1289 /*
1290  * Values for the <selector> field of the MII_AN_ADVERT register
1291  */
1292 #define	MII_AN_SELECTOR_8023		0x0001
1293 
1294 /*
1295  * Bits in the MII_1000BASE_T_CONTROL register
1296  *
1297  * The MASTER_CFG bit enables manual configuration of Master/Slave mode
1298  * (otherwise, roles are automatically negotiated).  When this bit is set,
1299  * the MASTER_SEL bit forces Master mode, otherwise Slave mode is forced.
1300  */
1301 #define	MII_1000BT_CTL_MASTER_CFG	0x1000	/* enable role select	*/
1302 #define	MII_1000BT_CTL_MASTER_SEL	0x0800	/* role select bit	*/
1303 #define	MII_1000BT_CTL_ADV_FDX		0x0200
1304 #define	MII_1000BT_CTL_ADV_HDX		0x0100
1305 
1306 /*
1307  * Bits in the MII_1000BASE_T_STATUS register
1308  */
1309 #define	MII_1000BT_STAT_MASTER_FAULT	0x8000
1310 #define	MII_1000BT_STAT_MASTER_MODE	0x4000	/* shows role selected	*/
1311 #define	MII_1000BT_STAT_LCL_RCV_OK	0x2000
1312 #define	MII_1000BT_STAT_RMT_RCV_OK	0x1000
1313 #define	MII_1000BT_STAT_LP_FDX_CAP	0x0800
1314 #define	MII_1000BT_STAT_LP_HDX_CAP	0x0400
1315 
1316 /*
1317  * Vendor-specific MII registers
1318  */
1319 #define	MII_EXT_CONTROL			MII_VENDOR(0)
1320 #define	MII_EXT_STATUS			MII_VENDOR(1)
1321 #define	MII_RCV_ERR_COUNT		MII_VENDOR(2)
1322 #define	MII_FALSE_CARR_COUNT		MII_VENDOR(3)
1323 #define	MII_RCV_NOT_OK_COUNT		MII_VENDOR(4)
1324 #define	MII_AUX_CONTROL			MII_VENDOR(8)
1325 #define	MII_AUX_STATUS			MII_VENDOR(9)
1326 #define	MII_INTR_STATUS			MII_VENDOR(10)
1327 #define	MII_INTR_MASK			MII_VENDOR(11)
1328 #define	MII_HCD_STATUS			MII_VENDOR(13)
1329 
1330 #define	MII_MAXREG			MII_VENDOR(15)	/* 31, 0x1f	*/
1331 
1332 /*
1333  * Bits in the MII_EXT_CONTROL register
1334  */
1335 #define	MII_EXT_CTRL_INTERFACE_TBI	0x8000
1336 #define	MII_EXT_CTRL_DISABLE_AUTO_MDIX	0x4000
1337 #define	MII_EXT_CTRL_DISABLE_TRANSMIT	0x2000
1338 #define	MII_EXT_CTRL_DISABLE_INTERRUPT	0x1000
1339 #define	MII_EXT_CTRL_FORCE_INTERRUPT	0x0800
1340 #define	MII_EXT_CTRL_BYPASS_4B5B	0x0400
1341 #define	MII_EXT_CTRL_BYPASS_SCRAMBLER	0x0200
1342 #define	MII_EXT_CTRL_BYPASS_MLT3	0x0100
1343 #define	MII_EXT_CTRL_BYPASS_RX_ALIGN	0x0080
1344 #define	MII_EXT_CTRL_RESET_SCRAMBLER	0x0040
1345 #define	MII_EXT_CTRL_LED_TRAFFIC_MODE	0x0020
1346 #define	MII_EXT_CTRL_FORCE_LEDS_ON	0x0010
1347 #define	MII_EXT_CTRL_FORCE_LEDS_OFF	0x0008
1348 #define	MII_EXT_CTRL_EXTEND_TX_IPG	0x0004
1349 #define	MII_EXT_CTRL_3LINK_LED_MODE	0x0002
1350 #define	MII_EXT_CTRL_FIFO_ELASTICITY	0x0001
1351 
1352 /*
1353  * Bits in the MII_EXT_STATUS register
1354  */
1355 #define	MII_EXT_STAT_S3MII_FIFO_ERROR	0x8000
1356 #define	MII_EXT_STAT_WIRESPEED_DOWNGRADE 0x4000
1357 #define	MII_EXT_STAT_MDIX_STATE		0x2000
1358 #define	MII_EXT_STAT_INTERRUPT_STATUS	0x1000
1359 #define	MII_EXT_STAT_REMOTE_RCVR_STATUS	0x0800
1360 #define	MII_EXT_STAT_LOCAL_RDVR_STATUS	0x0400
1361 #define	MII_EXT_STAT_DESCRAMBLER_LOCKED	0x0200
1362 #define	MII_EXT_STAT_LINK_STATUS	0x0100
1363 #define	MII_EXT_STAT_CRC_ERROR		0x0080
1364 #define	MII_EXT_STAT_CARR_EXT_ERROR	0x0040
1365 #define	MII_EXT_STAT_BAD_SSD_ERROR	0x0020
1366 #define	MII_EXT_STAT_BAD_ESD_ERROR	0x0010
1367 #define	MII_EXT_STAT_RECEIVE_ERROR	0x0008
1368 #define	MII_EXT_STAT_TRANSMIT_ERROR	0x0004
1369 #define	MII_EXT_STAT_LOCK_ERROR		0x0002
1370 #define	MII_EXT_STAT_MLT3_CODE_ERROR	0x0001
1371 
1372 /*
1373  * The AUX CONTROL register is seriously weird!
1374  *
1375  * It hides (up to) eight 'shadow' registers.  When writing, which one
1376  * of them is written is determined by the low-order bits of the data
1377  * written(!), but when reading, which one is read is determined by the
1378  * value previously written to (part of) one of the shadow registers!!!
1379  */
1380 
1381 /*
1382  * Shadow register numbers
1383  */
1384 #define	MII_AUX_CTRL_NORMAL		0
1385 #define	MII_AUX_CTRL_10BASE_T		1
1386 #define	MII_AUX_CTRL_POWER		2
1387 #define	MII_AUX_CTRL_TEST_1		4
1388 #define	MII_AUX_CTRL_MISC		7
1389 
1390 /*
1391  * Selected bits in some of the shadow registers ...
1392  */
1393 #define	MII_AUX_CTRL_NORM_EXT_LOOPBACK	0x8000
1394 #define	MII_AUX_CTRL_NORM_LONG_PKTS	0x4000
1395 #define	MII_AUX_CTRL_NORM_EDGE_CTRL	0x3000
1396 #define	MII_AUX_CTRL_NORM_TX_MODE	0x0400
1397 #define	MII_AUX_CTRL_NORM_CABLE_TEST	0x0008
1398 
1399 #define	MII_AUX_CTRL_TEST_TX_HALF	0x0008
1400 
1401 #define	MII_AUX_CTRL_MISC_WRITE_ENABLE	0x8000
1402 #define	MII_AUX_CTRL_MISC_WIRE_SPEED	0x0010
1403 
1404 /*
1405  * Write this value to the AUX control register
1406  * to select which shadow register will be read
1407  */
1408 #define	MII_AUX_CTRL_SHADOW_READ(x)	(((x) << 12) | MII_AUX_CTRL_MISC)
1409 
1410 /*
1411  * Bits in the MII_AUX_STATUS register
1412  */
1413 #define	MII_AUX_STATUS_MODE_MASK	0x0700
1414 #define	MII_AUX_STATUS_MODE_1000_F	0x0700
1415 #define	MII_AUX_STATUS_MODE_1000_H	0x0600
1416 #define	MII_AUX_STATUS_MODE_100_F	0x0500
1417 #define	MII_AUX_STATUS_MODE_100_4	0x0400
1418 #define	MII_AUX_STATUS_MODE_100_H	0x0300
1419 #define	MII_AUX_STATUS_MODE_10_F	0x0200
1420 #define	MII_AUX_STATUS_MODE_10_H	0x0100
1421 #define	MII_AUX_STATUS_MODE_NONE	0x0000
1422 #define	MII_AUX_STATUS_MODE_SHIFT	8
1423 
1424 #define	MII_AUX_STATUS_PAR_FAULT	0x0080
1425 #define	MII_AUX_STATUS_REM_FAULT	0x0040
1426 #define	MII_AUX_STATUS_LP_ANEG_ABLE	0x0010
1427 #define	MII_AUX_STATUS_LP_NP_ABLE	0x0008
1428 
1429 #define	MII_AUX_STATUS_LINKUP		0x0004
1430 #define	MII_AUX_STATUS_RX_PAUSE		0x0002
1431 #define	MII_AUX_STATUS_TX_PAUSE		0x0001
1432 
1433 /*
1434  * Bits in the MII_INTR_STATUS and MII_INTR_MASK registers
1435  */
1436 #define	MII_INTR_RMT_RX_STATUS_CHANGE	0x0020
1437 #define	MII_INTR_LCL_RX_STATUS_CHANGE	0x0010
1438 #define	MII_INTR_LINK_DUPLEX_CHANGE	0x0008
1439 #define	MII_INTR_LINK_SPEED_CHANGE	0x0004
1440 #define	MII_INTR_LINK_STATUS_CHANGE	0x0002
1441 
1442 
1443 /*
1444  * Third section:
1445  * 	Hardware-defined data structures
1446  *
1447  * Note that the chip is naturally BIG-endian, so, for a big-endian
1448  * host, the structures defined below match those described in the PRM.
1449  * For little-endian hosts, some structures have to be swapped around.
1450  */
1451 
1452 #if	!defined(_BIG_ENDIAN) && !defined(_LITTLE_ENDIAN)
1453 #error	Host endianness not defined
1454 #endif
1455 
1456 /*
1457  * Architectural constants: absolute maximum numbers of each type of ring
1458  */
1459 #ifdef BGE_EXT_MEM
1460 #define	BGE_SEND_RINGS_MAX		16	/* only with ext mem	*/
1461 #else
1462 #define	BGE_SEND_RINGS_MAX		4
1463 #endif
1464 #define	BGE_SEND_RINGS_MAX_5705		1
1465 #define	BGE_RECV_RINGS_MAX		16
1466 #define	BGE_RECV_RINGS_MAX_5705		1
1467 #define	BGE_BUFF_RINGS_MAX		3	/* jumbo/std/mini (mini	*/
1468 						/* only with ext mem)	*/
1469 
1470 #define	BGE_SEND_SLOTS_MAX		512
1471 #define	BGE_STD_SLOTS_MAX		512
1472 #define	BGE_JUMBO_SLOTS_MAX		256
1473 #define	BGE_MINI_SLOTS_MAX		1024
1474 #define	BGE_RECV_SLOTS_MAX		2048
1475 #define	BGE_RECV_SLOTS_5705		512
1476 #define	BGE_RECV_SLOTS_5782		512
1477 #define	BGE_RECV_SLOTS_5721		512
1478 
1479 /*
1480  * Hardware-defined Ring Control Block
1481  */
1482 typedef struct {
1483 	uint64_t	host_ring_addr;
1484 #ifdef	_BIG_ENDIAN
1485 	uint16_t	max_len;
1486 	uint16_t	flags;
1487 	uint32_t	nic_ring_addr;
1488 #else
1489 	uint32_t	nic_ring_addr;
1490 	uint16_t	flags;
1491 	uint16_t	max_len;
1492 #endif	/* _BIG_ENDIAN */
1493 } bge_rcb_t;
1494 
1495 #define	RCB_FLAG_USE_EXT_RCV_BD		0x0001
1496 #define	RCB_FLAG_RING_DISABLED		0x0002
1497 
1498 /*
1499  * Hardware-defined Send Buffer Descriptor
1500  */
1501 typedef struct {
1502 	uint64_t	host_buf_addr;
1503 #ifdef	_BIG_ENDIAN
1504 	uint16_t	len;
1505 	uint16_t	flags;
1506 	uint16_t	reserved;
1507 	uint16_t	vlan_tci;
1508 #else
1509 	uint16_t	vlan_tci;
1510 	uint16_t	reserved;
1511 	uint16_t	flags;
1512 	uint16_t	len;
1513 #endif	/* _BIG_ENDIAN */
1514 } bge_sbd_t;
1515 
1516 #define	SBD_FLAG_TCP_UDP_CKSUM		0x0001
1517 #define	SBD_FLAG_IP_CKSUM		0x0002
1518 #define	SBD_FLAG_PACKET_END		0x0004
1519 #define	SBD_FLAG_IP_FRAG		0x0008
1520 #define	SBD_FLAG_IP_FRAG_END		0x0010
1521 
1522 #define	SBD_FLAG_VLAN_TAG		0x0040
1523 #define	SBD_FLAG_COAL_NOW		0x0080
1524 #define	SBD_FLAG_CPU_PRE_DMA		0x0100
1525 #define	SBD_FLAG_CPU_POST_DMA		0x0200
1526 
1527 #define	SBD_FLAG_INSERT_SRC_ADDR	0x1000
1528 #define	SBD_FLAG_CHOOSE_SRC_ADDR	0x6000
1529 #define	SBD_FLAG_DONT_GEN_CRC		0x8000
1530 
1531 /*
1532  * Hardware-defined Receive Buffer Descriptor
1533  */
1534 typedef struct {
1535 	uint64_t	host_buf_addr;
1536 #ifdef	_BIG_ENDIAN
1537 	uint16_t	index;
1538 	uint16_t	len;
1539 	uint16_t	type;
1540 	uint16_t	flags;
1541 	uint16_t	ip_cksum;
1542 	uint16_t	tcp_udp_cksum;
1543 	uint16_t	error_flag;
1544 	uint16_t	vlan_tci;
1545 	uint32_t	reserved;
1546 	uint32_t	opaque;
1547 #else
1548 	uint16_t	flags;
1549 	uint16_t	type;
1550 	uint16_t	len;
1551 	uint16_t	index;
1552 	uint16_t	vlan_tci;
1553 	uint16_t	error_flag;
1554 	uint16_t	tcp_udp_cksum;
1555 	uint16_t	ip_cksum;
1556 	uint32_t	opaque;
1557 	uint32_t	reserved;
1558 #endif	/* _BIG_ENDIAN */
1559 } bge_rbd_t;
1560 
1561 #define	RBD_FLAG_STD_RING		0x0000
1562 #define	RBD_FLAG_PACKET_END		0x0004
1563 
1564 #define	RBD_FLAG_JUMBO_RING		0x0020
1565 #define	RBD_FLAG_VLAN_TAG		0x0040
1566 
1567 #define	RBD_FLAG_FRAME_HAS_ERROR	0x0400
1568 #define	RBD_FLAG_MINI_RING		0x0800
1569 #define	RBD_FLAG_IP_CHECKSUM		0x1000
1570 #define	RBD_FLAG_TCP_UDP_CHECKSUM	0x2000
1571 #define	RBD_FLAG_TCP_UDP_IS_TCP		0x4000
1572 
1573 #define	RBD_FLAG_DEFAULT		0x0000
1574 
1575 #define	RBD_ERROR_BAD_CRC		0x00010000
1576 #define	RBD_ERROR_COLL_DETECT		0x00020000
1577 #define	RBD_ERROR_LINK_LOST		0x00040000
1578 #define	RBD_ERROR_PHY_DECODE_ERR	0x00080000
1579 #define	RBD_ERROR_ODD_NIBBLE_RX_MII	0x00100000
1580 #define	RBD_ERROR_MAC_ABORT		0x00200000
1581 #define	RBD_ERROR_LEN_LESS_64		0x00400000
1582 #define	RBD_ERROR_TRUNC_NO_RES		0x00800000
1583 #define	RBD_ERROR_GIANT_PKT_RCVD	0x01000000
1584 
1585 /*
1586  * Hardware-defined Status Block,Size of status block
1587  * is actually 0x50 bytes.Use 0x80 bytes for cache line
1588  * alignment.For BCM5705/5788/5721/5751/5752/5714
1589  * and 5715,there is only 1 recv and send ring index,but
1590  * driver defined 16 indexs here,please pay attention only
1591  * one ring is enabled in these chipsets.
1592  */
1593 typedef struct {
1594 	uint64_t	flags_n_tag;
1595 	uint16_t	buff_cons_index[4];
1596 	struct {
1597 #ifdef	_BIG_ENDIAN
1598 		uint16_t	send_cons_index;
1599 		uint16_t	recv_prod_index;
1600 #else
1601 		uint16_t	recv_prod_index;
1602 		uint16_t	send_cons_index;
1603 #endif	/* _BIG_ENDIAN */
1604 	} index[16];
1605 } bge_status_t;
1606 
1607 /*
1608  * Hardware-defined Receive BD Rule
1609  */
1610 typedef struct {
1611 	uint32_t	control;
1612 	uint32_t	mask_value;
1613 } bge_recv_rule_t;
1614 
1615 /*
1616  * Indexes into the <buff_cons_index> array
1617  */
1618 #ifdef	_BIG_ENDIAN
1619 #define	STATUS_STD_BUFF_CONS_INDEX	0
1620 #define	STATUS_JUMBO_BUFF_CONS_INDEX	1
1621 #define	STATUS_MINI_BUFF_CONS_INDEX	3
1622 #define	SEND_INDEX_P(bsp, ring)	(&(bsp)->index[(ring)^0].send_cons_index)
1623 #define	RECV_INDEX_P(bsp, ring)	(&(bsp)->index[(ring)^0].recv_prod_index)
1624 #else
1625 #define	STATUS_STD_BUFF_CONS_INDEX	3
1626 #define	STATUS_JUMBO_BUFF_CONS_INDEX	2
1627 #define	STATUS_MINI_BUFF_CONS_INDEX	0
1628 #define	SEND_INDEX_P(bsp, ring)	(&(bsp)->index[(ring)^1].send_cons_index)
1629 #define	RECV_INDEX_P(bsp, ring)	(&(bsp)->index[(ring)^1].recv_prod_index)
1630 #endif	/* _BIG_ENDIAN */
1631 
1632 /*
1633  * Bits in the <flags_n_tag> word
1634  */
1635 #define	STATUS_FLAG_UPDATED		0x0000000100000000ull
1636 #define	STATUS_FLAG_LINK_CHANGED	0x0000000200000000ull
1637 #define	STATUS_FLAG_ERROR		0x0000000400000000ull
1638 #define	STATUS_TAG_MASK			0x00000000000000FFull
1639 
1640 /*
1641  * The tag from the status block is fed back to Interrupt Mailbox 0
1642  * (INTERRUPT_MBOX_0_REG, 0x0200) after servicing an interrupt.  This
1643  * lets the chip know what updates have been processed, so it can
1644  * reassert its interrupt if more updates have occurred since.
1645  *
1646  * These macros extract the tag from the <flags_n_tag> word, shift
1647  * it to the proper position in the Mailbox register, and provide
1648  * the complete values to write to INTERRUPT_MBOX_0_REG to disable
1649  * or enable interrupts
1650  */
1651 #define	STATUS_TAG(fnt)			((fnt) & STATUS_TAG_MASK)
1652 #define	INTERRUPT_TAG(fnt)		(STATUS_TAG(fnt) << 24)
1653 #define	INTERRUPT_MBOX_DISABLE(fnt)	(INTERRUPT_TAG(fnt) | 1)
1654 #define	INTERRUPT_MBOX_ENABLE(fnt)	(INTERRUPT_TAG(fnt) | 0)
1655 
1656 /*
1657  * Hardware-defined Statistics Block Offsets
1658  *
1659  * These are given in the manual as addresses in NIC memory, starting
1660  * from the NIC statistics area base address of 0x300; but here we
1661  * convert them into indexes into an array of (uint64_t)s, so we can
1662  * use them directly for accessing the copy of the statistics block
1663  * that the chip DMAs into main memory ...
1664  */
1665 
1666 #define	KS_BASE				0x300
1667 #define	KS_ADDR(x)			(((x)-KS_BASE)/sizeof (uint64_t))
1668 
1669 typedef enum {
1670 	KS_ifHCInOctets = KS_ADDR(0x400),
1671 	KS_etherStatsFragments = KS_ADDR(0x410),
1672 	KS_ifHCInUcastPkts,
1673 	KS_ifHCInMulticastPkts,
1674 	KS_ifHCInBroadcastPkts,
1675 	KS_dot3StatsFCSErrors,
1676 	KS_dot3StatsAlignmentErrors,
1677 	KS_xonPauseFramesReceived,
1678 	KS_xoffPauseFramesReceived,
1679 	KS_macControlFramesReceived,
1680 	KS_xoffStateEntered,
1681 	KS_dot3StatsFrameTooLongs,
1682 	KS_etherStatsJabbers,
1683 	KS_etherStatsUndersizePkts,
1684 	KS_inRangeLengthError,
1685 	KS_outRangeLengthError,
1686 	KS_etherStatsPkts64Octets,
1687 	KS_etherStatsPkts65to127Octets,
1688 	KS_etherStatsPkts128to255Octets,
1689 	KS_etherStatsPkts256to511Octets,
1690 	KS_etherStatsPkts512to1023Octets,
1691 	KS_etherStatsPkts1024to1518Octets,
1692 	KS_etherStatsPkts1519to2047Octets,
1693 	KS_etherStatsPkts2048to4095Octets,
1694 	KS_etherStatsPkts4096to8191Octets,
1695 	KS_etherStatsPkts8192to9022Octets,
1696 
1697 	KS_ifHCOutOctets = KS_ADDR(0x600),
1698 	KS_etherStatsCollisions = KS_ADDR(0x610),
1699 	KS_outXonSent,
1700 	KS_outXoffSent,
1701 	KS_flowControlDone,
1702 	KS_dot3StatsInternalMacTransmitErrors,
1703 	KS_dot3StatsSingleCollisionFrames,
1704 	KS_dot3StatsMultipleCollisionFrames,
1705 	KS_dot3StatsDeferredTransmissions,
1706 	KS_dot3StatsExcessiveCollisions = KS_ADDR(0x658),
1707 	KS_dot3StatsLateCollisions,
1708 	KS_dot3Collided2Times,
1709 	KS_dot3Collided3Times,
1710 	KS_dot3Collided4Times,
1711 	KS_dot3Collided5Times,
1712 	KS_dot3Collided6Times,
1713 	KS_dot3Collided7Times,
1714 	KS_dot3Collided8Times,
1715 	KS_dot3Collided9Times,
1716 	KS_dot3Collided10Times,
1717 	KS_dot3Collided11Times,
1718 	KS_dot3Collided12Times,
1719 	KS_dot3Collided13Times,
1720 	KS_dot3Collided14Times,
1721 	KS_dot3Collided15Times,
1722 	KS_ifHCOutUcastPkts,
1723 	KS_ifHCOutMulticastPkts,
1724 	KS_ifHCOutBroadcastPkts,
1725 	KS_dot3StatsCarrierSenseErrors,
1726 	KS_ifOutDiscards,
1727 	KS_ifOutErrors,
1728 
1729 	KS_COSIfHCInPkts_1 = KS_ADDR(0x800),		/* [16]	*/
1730 	KS_COSIfHCInPkts_2,
1731 	KS_COSIfHCInPkts_3,
1732 	KS_COSIfHCInPkts_4,
1733 	KS_COSIfHCInPkts_5,
1734 	KS_COSIfHCInPkts_6,
1735 	KS_COSIfHCInPkts_7,
1736 	KS_COSIfHCInPkts_8,
1737 	KS_COSIfHCInPkts_9,
1738 	KS_COSIfHCInPkts_10,
1739 	KS_COSIfHCInPkts_11,
1740 	KS_COSIfHCInPkts_12,
1741 	KS_COSIfHCInPkts_13,
1742 	KS_COSIfHCInPkts_14,
1743 	KS_COSIfHCInPkts_15,
1744 	KS_COSIfHCInPkts_16,
1745 	KS_COSFramesDroppedDueToFilters,
1746 	KS_nicDmaWriteQueueFull,
1747 	KS_nicDmaWriteHighPriQueueFull,
1748 	KS_nicNoMoreRxBDs,
1749 	KS_ifInDiscards,
1750 	KS_ifInErrors,
1751 	KS_nicRecvThresholdHit,
1752 
1753 	KS_COSIfHCOutPkts_1 = KS_ADDR(0x900),		/* [16]	*/
1754 	KS_COSIfHCOutPkts_2,
1755 	KS_COSIfHCOutPkts_3,
1756 	KS_COSIfHCOutPkts_4,
1757 	KS_COSIfHCOutPkts_5,
1758 	KS_COSIfHCOutPkts_6,
1759 	KS_COSIfHCOutPkts_7,
1760 	KS_COSIfHCOutPkts_8,
1761 	KS_COSIfHCOutPkts_9,
1762 	KS_COSIfHCOutPkts_10,
1763 	KS_COSIfHCOutPkts_11,
1764 	KS_COSIfHCOutPkts_12,
1765 	KS_COSIfHCOutPkts_13,
1766 	KS_COSIfHCOutPkts_14,
1767 	KS_COSIfHCOutPkts_15,
1768 	KS_COSIfHCOutPkts_16,
1769 	KS_nicDmaReadQueueFull,
1770 	KS_nicDmaReadHighPriQueueFull,
1771 	KS_nicSendDataCompQueueFull,
1772 	KS_nicRingSetSendProdIndex,
1773 	KS_nicRingStatusUpdate,
1774 	KS_nicInterrupts,
1775 	KS_nicAvoidedInterrupts,
1776 	KS_nicSendThresholdHit,
1777 
1778 	KS_STATS_SIZE = KS_ADDR(0xb00)
1779 } bge_stats_offset_t;
1780 
1781 /*
1782  * Hardware-defined Statistics Block
1783  *
1784  * Another view of the statistic block, as a array and a structure ...
1785  */
1786 
1787 typedef union {
1788 	uint64_t		a[KS_STATS_SIZE];
1789 	struct {
1790 		uint64_t	spare1[(0x400-0x300)/sizeof (uint64_t)];
1791 
1792 		uint64_t	ifHCInOctets;		/* 0x0400	*/
1793 		uint64_t	spare2[1];
1794 		uint64_t	etherStatsFragments;
1795 		uint64_t	ifHCInUcastPkts;
1796 		uint64_t	ifHCInMulticastPkts;
1797 		uint64_t	ifHCInBroadcastPkts;
1798 		uint64_t	dot3StatsFCSErrors;
1799 		uint64_t	dot3StatsAlignmentErrors;
1800 		uint64_t	xonPauseFramesReceived;
1801 		uint64_t	xoffPauseFramesReceived;
1802 		uint64_t	macControlFramesReceived;
1803 		uint64_t	xoffStateEntered;
1804 		uint64_t	dot3StatsFrameTooLongs;
1805 		uint64_t	etherStatsJabbers;
1806 		uint64_t	etherStatsUndersizePkts;
1807 		uint64_t	inRangeLengthError;
1808 		uint64_t	outRangeLengthError;
1809 		uint64_t	etherStatsPkts64Octets;
1810 		uint64_t	etherStatsPkts65to127Octets;
1811 		uint64_t	etherStatsPkts128to255Octets;
1812 		uint64_t	etherStatsPkts256to511Octets;
1813 		uint64_t	etherStatsPkts512to1023Octets;
1814 		uint64_t	etherStatsPkts1024to1518Octets;
1815 		uint64_t	etherStatsPkts1519to2047Octets;
1816 		uint64_t	etherStatsPkts2048to4095Octets;
1817 		uint64_t	etherStatsPkts4096to8191Octets;
1818 		uint64_t	etherStatsPkts8192to9022Octets;
1819 		uint64_t	spare3[(0x600-0x4d8)/sizeof (uint64_t)];
1820 
1821 		uint64_t	ifHCOutOctets;		/* 0x0600	*/
1822 		uint64_t	spare4[1];
1823 		uint64_t	etherStatsCollisions;
1824 		uint64_t	outXonSent;
1825 		uint64_t	outXoffSent;
1826 		uint64_t	flowControlDone;
1827 		uint64_t	dot3StatsInternalMacTransmitErrors;
1828 		uint64_t	dot3StatsSingleCollisionFrames;
1829 		uint64_t	dot3StatsMultipleCollisionFrames;
1830 		uint64_t	dot3StatsDeferredTransmissions;
1831 		uint64_t	spare5[1];
1832 		uint64_t	dot3StatsExcessiveCollisions;
1833 		uint64_t	dot3StatsLateCollisions;
1834 		uint64_t	dot3Collided2Times;
1835 		uint64_t	dot3Collided3Times;
1836 		uint64_t	dot3Collided4Times;
1837 		uint64_t	dot3Collided5Times;
1838 		uint64_t	dot3Collided6Times;
1839 		uint64_t	dot3Collided7Times;
1840 		uint64_t	dot3Collided8Times;
1841 		uint64_t	dot3Collided9Times;
1842 		uint64_t	dot3Collided10Times;
1843 		uint64_t	dot3Collided11Times;
1844 		uint64_t	dot3Collided12Times;
1845 		uint64_t	dot3Collided13Times;
1846 		uint64_t	dot3Collided14Times;
1847 		uint64_t	dot3Collided15Times;
1848 		uint64_t	ifHCOutUcastPkts;
1849 		uint64_t	ifHCOutMulticastPkts;
1850 		uint64_t	ifHCOutBroadcastPkts;
1851 		uint64_t	dot3StatsCarrierSenseErrors;
1852 		uint64_t	ifOutDiscards;
1853 		uint64_t	ifOutErrors;
1854 		uint64_t	spare6[(0x800-0x708)/sizeof (uint64_t)];
1855 
1856 		uint64_t	COSIfHCInPkts[16];	/* 0x0800	*/
1857 		uint64_t	COSFramesDroppedDueToFilters;
1858 		uint64_t	nicDmaWriteQueueFull;
1859 		uint64_t	nicDmaWriteHighPriQueueFull;
1860 		uint64_t	nicNoMoreRxBDs;
1861 		uint64_t	ifInDiscards;
1862 		uint64_t	ifInErrors;
1863 		uint64_t	nicRecvThresholdHit;
1864 		uint64_t	spare7[(0x900-0x8b8)/sizeof (uint64_t)];
1865 
1866 		uint64_t	COSIfHCOutPkts[16];	/* 0x0900	*/
1867 		uint64_t	nicDmaReadQueueFull;
1868 		uint64_t	nicDmaReadHighPriQueueFull;
1869 		uint64_t	nicSendDataCompQueueFull;
1870 		uint64_t	nicRingSetSendProdIndex;
1871 		uint64_t	nicRingStatusUpdate;
1872 		uint64_t	nicInterrupts;
1873 		uint64_t	nicAvoidedInterrupts;
1874 		uint64_t	nicSendThresholdHit;
1875 		uint64_t	spare8[(0xb00-0x9c0)/sizeof (uint64_t)];
1876 	} s;
1877 } bge_statistics_t;
1878 
1879 #define	KS_STAT_REG_SIZE	(0x1B)
1880 #define	KS_STAT_REG_BASE	(0x800)
1881 
1882 typedef struct {
1883 	uint32_t	ifHCOutOctets;
1884 	uint32_t	etherStatsCollisions;
1885 	uint32_t	outXonSent;
1886 	uint32_t	outXoffSent;
1887 	uint32_t	dot3StatsInternalMacTransmitErrors;
1888 	uint32_t	dot3StatsSingleCollisionFrames;
1889 	uint32_t	dot3StatsMultipleCollisionFrames;
1890 	uint32_t	dot3StatsDeferredTransmissions;
1891 	uint32_t	dot3StatsExcessiveCollisions;
1892 	uint32_t	dot3StatsLateCollisions;
1893 	uint32_t	ifHCOutUcastPkts;
1894 	uint32_t	ifHCOutMulticastPkts;
1895 	uint32_t	ifHCOutBroadcastPkts;
1896 	uint32_t	ifHCInOctets;
1897 	uint32_t	etherStatsFragments;
1898 	uint32_t	ifHCInUcastPkts;
1899 	uint32_t	ifHCInMulticastPkts;
1900 	uint32_t	ifHCInBroadcastPkts;
1901 	uint32_t	dot3StatsFCSErrors;
1902 	uint32_t	dot3StatsAlignmentErrors;
1903 	uint32_t	xonPauseFramesReceived;
1904 	uint32_t	xoffPauseFramesReceived;
1905 	uint32_t	macControlFramesReceived;
1906 	uint32_t	xoffStateEntered;
1907 	uint32_t	dot3StatsFrameTooLongs;
1908 	uint32_t	etherStatsJabbers;
1909 	uint32_t	etherStatsUndersizePkts;
1910 } bge_statistics_reg_t;
1911 
1912 
1913 #ifdef BGE_IPMI_ASF
1914 
1915 /*
1916  * Device internal memory entries
1917  */
1918 
1919 #define	BGE_FIRMWARE_MAILBOX				0x0b50
1920 #define	BGE_MAGIC_NUM_FIRMWARE_INIT_DONE		0x4b657654
1921 #define	BGE_MAGIC_NUM_DISABLE_DMAW_ON_LINK_CHANGE	0x4861764b
1922 
1923 
1924 #define	BGE_NIC_DATA_SIG_ADDR			0x0b54
1925 #define	BGE_NIC_DATA_SIG			0x4b657654
1926 
1927 
1928 #define	BGE_NIC_DATA_NIC_CFG_ADDR		0x0b58
1929 
1930 #define	BGE_NIC_CFG_LED_MODE_TRIPLE_SPEED	0x000004
1931 #define	BGE_NIC_CFG_LED_MODE_LINK_SPEED		0x000008
1932 #define	BGE_NIC_CFG_LED_MODE_OPEN_DRAIN		0x000004
1933 #define	BGE_NIC_CFG_LED_MODE_OUTPUT		0x000008
1934 #define	BGE_NIC_CFG_LED_MODE_MASK		0x00000c
1935 
1936 #define	BGE_NIC_CFG_PHY_TYPE_UNKNOWN		0x000000
1937 #define	BGE_NIC_CFG_PHY_TYPE_COPPER		0x000010
1938 #define	BGE_NIC_CFG_PHY_TYPE_FIBER		0x000020
1939 #define	BGE_NIC_CFG_PHY_TYPE_MASK		0x000030
1940 
1941 #define	BGE_NIC_CFG_ENABLE_WOL			0x000040
1942 #define	BGE_NIC_CFG_ENABLE_ASF			0x000080
1943 #define	BGE_NIC_CFG_EEPROM_WP			0x000100
1944 #define	BGE_NIC_CFG_POWER_SAVING		0x000200
1945 #define	BGE_NIC_CFG_SWAP_PORT			0x000800
1946 #define	BGE_NIC_CFG_MINI_PCI			0x001000
1947 #define	BGE_NIC_CFG_FIBER_WOL_CAPABLE		0x004000
1948 #define	BGE_NIC_CFG_5753_12x12			0x100000
1949 
1950 
1951 #define	BGE_NIC_DATA_FIRMWARE_VERSION		0x0b5c
1952 
1953 
1954 #define	BGE_NIC_DATA_PHY_ID_ADDR		0x0b74
1955 #define	BGE_NIC_PHY_ID1_MASK			0xffff0000
1956 #define	BGE_NIC_PHY_ID2_MASK			0x0000ffff
1957 
1958 
1959 #define	BGE_CMD_MAILBOX				0x0b78
1960 #define	BGE_CMD_NICDRV_ALIVE			0x00000001
1961 #define	BGE_CMD_NICDRV_PAUSE_FW			0x00000002
1962 #define	BGE_CMD_NICDRV_IPV4ADDR_CHANGE		0x00000003
1963 #define	BGE_CMD_NICDRV_IPV6ADDR_CHANGE		0x00000004
1964 
1965 
1966 #define	BGE_CMD_LENGTH_MAILBOX			0x0b7c
1967 #define	BGE_CMD_DATA_MAILBOX			0x0b80
1968 #define	BGE_ASF_FW_STATUS_MAILBOX		0x0c00
1969 
1970 #define	BGE_DRV_STATE_MAILBOX			0x0c04
1971 #define	BGE_DRV_STATE_START			0x00000001
1972 #define	BGE_DRV_STATE_START_DONE		0x80000001
1973 #define	BGE_DRV_STATE_UNLOAD			0x00000002
1974 #define	BGE_DRV_STATE_UNLOAD_DONE		0x80000002
1975 #define	BGE_DRV_STATE_WOL			0x00000003
1976 #define	BGE_DRV_STATE_SUSPEND			0x00000004
1977 
1978 
1979 #define	BGE_FW_LAST_RESET_TYPE_MAILBOX		0x0c08
1980 #define	BGE_FW_LAST_RESET_TYPE_WARM		0x0001
1981 #define	BGE_FW_LAST_RESET_TYPE_COLD		0x0002
1982 
1983 
1984 #define	BGE_MAC_ADDR_HIGH_MAILBOX		0x0c14
1985 #define	BGE_MAC_ADDR_LOW_MAILBOX		0x0c18
1986 
1987 
1988 /*
1989  * RX-RISC event register
1990  */
1991 #define	RX_RISC_EVENT_REG			0x6810
1992 #define	RRER_ASF_EVENT				0x4000
1993 
1994 #endif /* BGE_IPMI_ASF */
1995 
1996 #ifdef __cplusplus
1997 }
1998 #endif
1999 
2000 #endif	/* _BGE_HW_H */
2001