xref: /illumos-gate/usr/src/uts/common/io/hxge/hxge_vmac_hw.h (revision 7a6d80f1660abd4755c68cbd094d4a914681d26e)
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	_HXGE_VMAC_HW_H
27 #define	_HXGE_VMAC_HW_H
28 
29 #ifdef	__cplusplus
30 extern "C" {
31 #endif
32 
33 #define	VMAC_BASE_ADDR				0X00100000
34 
35 #define	VMAC_RST				(VMAC_BASE_ADDR + 0x0)
36 #define	VMAC_TX_CFG				(VMAC_BASE_ADDR + 0x8)
37 #define	VMAC_RX_CFG				(VMAC_BASE_ADDR + 0x10)
38 #define	VMAC_TX_STAT				(VMAC_BASE_ADDR + 0x20)
39 #define	VMAC_TX_MSK				(VMAC_BASE_ADDR + 0x28)
40 #define	VMAC_RX_STAT				(VMAC_BASE_ADDR + 0x30)
41 #define	VMAC_RX_MSK				(VMAC_BASE_ADDR + 0x38)
42 #define	VMAC_TX_STAT_MIRROR			(VMAC_BASE_ADDR + 0x40)
43 #define	VMAC_RX_STAT_MIRROR			(VMAC_BASE_ADDR + 0x48)
44 #define	VMAC_TX_FRAME_CNT			(VMAC_BASE_ADDR + 0x100)
45 #define	VMAC_TX_BYTE_CNT			(VMAC_BASE_ADDR + 0x108)
46 #define	VMAC_RX_FRAME_CNT			(VMAC_BASE_ADDR + 0x120)
47 #define	VMAC_RX_BYTE_CNT			(VMAC_BASE_ADDR + 0x128)
48 #define	VMAC_RX_DROP_FR_CNT			(VMAC_BASE_ADDR + 0x130)
49 #define	VMAC_RX_DROP_BYTE_CNT			(VMAC_BASE_ADDR + 0x138)
50 #define	VMAC_RX_CRC_CNT				(VMAC_BASE_ADDR + 0x140)
51 #define	VMAC_RX_PAUSE_CNT			(VMAC_BASE_ADDR + 0x148)
52 #define	VMAC_RX_BCAST_FR_CNT			(VMAC_BASE_ADDR + 0x150)
53 #define	VMAC_RX_MCAST_FR_CNT			(VMAC_BASE_ADDR + 0x158)
54 
55 
56 /*
57  * Register: VmacRst
58  * VMAC Software Reset Command
59  * Description:
60  * Fields:
61  *     Write a '1' to reset Rx VMAC; auto clears. This brings rx vmac
62  *     to power on reset state.
63  *     Write a '1' to reset Tx VMAC; auto clears. This brings tx vmac
64  *     to power on reset state.
65  */
66 typedef union {
67 	uint64_t value;
68 	struct {
69 #if defined(_BIG_ENDIAN)
70 		uint32_t	rsrvd:32;
71 		uint32_t	rsrvd_l:23;
72 		uint32_t	rx_reset:1;
73 		uint32_t	rsrvd1:7;
74 		uint32_t	tx_reset:1;
75 #else
76 		uint32_t	tx_reset:1;
77 		uint32_t	rsrvd1:7;
78 		uint32_t	rx_reset:1;
79 		uint32_t	rsrvd_l:23;
80 		uint32_t	rsrvd:32;
81 #endif
82 	} bits;
83 } vmac_rst_t;
84 
85 
86 /*
87  * Register: VmacTxCfg
88  * Tx VMAC Configuration
89  * Description:
90  * Fields:
91  *     Maximum length of any total transfer gathered by Tx VMAC,
92  *     including packet data, header, crc, transmit header and any
93  *     pad bytes. Default value of 0x2422 represents 9220 bytes of
94  *     packet data, ethernet header, and crc, 14 bytes maximum pad,
95  *     and 16 bytes transmit header = 9250 (0x2422).
96  *     Enable padding of short packet to meet minimum frame length of
97  *     64 bytes. Software should note that if txPad functionality is
98  *     used to pad runt packets to minimum length, that crcInsert
99  *     functionality (below) must also be used to provide the packet
100  *     with correct L2 crc.
101  *     1: Enable generation and appending of FCS to the packets. 0:
102  *     Disable generation and appending of FCS to the packets.
103  *     Enable Tx VMAC. Write a '1' to enable Tx VMAC; write a '0' to
104  *     disable it. This bit also propagates as vmacTdcEn to the TDC
105  *     block. In TDC, the vmacTdcEn bit disables the RTab state
106  *     machine. Hence, the transmission from that blade would be
107  *     stopped and be queued, but no packets would be dropped. Thus,
108  *     the VMAC can only be enabled/disabled at packet boundary. The
109  *     VMAC will not send out portion of a packet. The currently
110  *     processed packet will continue to be sent out when Tx VMAC is
111  *     disabled.
112  */
113 typedef union {
114 	uint64_t value;
115 	struct {
116 #if defined(_BIG_ENDIAN)
117 		uint32_t	rsrvd:32;
118 		uint32_t	tx_max_frame_length:14;
119 		uint32_t	rsrvd1:15;
120 		uint32_t	tx_pad:1;
121 		uint32_t	crc_insert:1;
122 		uint32_t	tx_en:1;
123 #else
124 		uint32_t	tx_en:1;
125 		uint32_t	crc_insert:1;
126 		uint32_t	tx_pad:1;
127 		uint32_t	rsrvd1:15;
128 		uint32_t	tx_max_frame_length:14;
129 		uint32_t	rsrvd:32;
130 #endif
131 	} bits;
132 } vmac_tx_cfg_t;
133 
134 
135 /*
136  * Register: VmacRxCfg
137  * Rx VMAC Configuration
138  * Description: MAC address and length in Type/Length field are
139  * checked in PFC.
140  * Fields:
141  *     Maximum length of a frame accepted by Rx/Tx VMAC. Only packets
142  *     with length between 64 bytes and maxFrameLength will be
143  *     accepted by Rx/Tx VMAC. This length indicates just the packet
144  *     length excluding the packet header, crc, and any pad bytes.
145  *     Maximum value is 9K (9*1024)
146  *     enable packets from the same blade to loopback
147  *     Enable acceptance of all Unicast packets for L2 destination
148  *     address, ie, allow all Unicast packets to pass the L2
149  *     filtering.
150  *     Enable acceptance of all multi-cast packets, ie, allow all
151  *     multi-cast packets to pass the L2 filtering.
152  *     Enable the passing through of flow control frames.
153  *     Enable the stripping of FCS field in the packets.
154  *     Disable of FCS checking. When enable, packets with incorrect
155  *     FCS value are dropped by Rx VMAC.
156  *     Enable rx VMAC. Write a '1' to enable rx VMAC; write a '0' to
157  *     disable it. The VMAC will begin to accept packet at the
158  *     detection of the SOP (start of packet). When disable, the
159  *     currently processed packet will continue to be accepted.
160  */
161 typedef union {
162 	uint64_t value;
163 	struct {
164 #if defined(_BIG_ENDIAN)
165 		uint32_t	rsrvd:32;
166 		uint32_t	rx_max_frame_length:14;
167 		uint32_t	reserved:11;
168 		uint32_t	loopback:1;
169 		uint32_t	promiscuous_mode:1;
170 		uint32_t	promiscuous_group:1;
171 		uint32_t	pass_flow_ctrl_fr:1;
172 		uint32_t	strip_crc:1;
173 		uint32_t	crc_check_disable:1;
174 		uint32_t	rx_en:1;
175 #else
176 		uint32_t	rx_en:1;
177 		uint32_t	crc_check_disable:1;
178 		uint32_t	strip_crc:1;
179 		uint32_t	pass_flow_ctrl_fr:1;
180 		uint32_t	promiscuous_group:1;
181 		uint32_t	promiscuous_mode:1;
182 		uint32_t	loopback:1;
183 		uint32_t	reserved:11;
184 		uint32_t	rx_max_frame_length:14;
185 		uint32_t	rsrvd:32;
186 #endif
187 	} bits;
188 } vmac_rx_cfg_t;
189 
190 
191 /*
192  * Register: VmacTxStat
193  * Tx VMAC Status Register
194  * Description: A new interrupt will be generated only if Tx VMAC is
195  * enabled by vmacTxCfg::txEn=1. Disabling Tx VMAC does not affect
196  * currently-existing Ldf state. Writing this register affects
197  * vmacTxStatMirror register bits also the same way.
198  * Fields:
199  *     Indicates that counter of byte transmitted has exceeded the
200  *     max value.
201  *     Indicates that counter of frame transmitted has exceeded the
202  *     max value.
203  *     A frame has been successfully transmitted.
204  */
205 typedef union {
206 	uint64_t value;
207 	struct {
208 #if defined(_BIG_ENDIAN)
209 		uint32_t	rsrvd:32;
210 		uint32_t	rsrvd_l:29;
211 		uint32_t	tx_byte_cnt_overflow:1;
212 		uint32_t	tx_frame_cnt_overflow:1;
213 		uint32_t	frame_tx:1;
214 #else
215 		uint32_t	frame_tx:1;
216 		uint32_t	tx_frame_cnt_overflow:1;
217 		uint32_t	tx_byte_cnt_overflow:1;
218 		uint32_t	rsrvd_l:29;
219 		uint32_t	rsrvd:32;
220 #endif
221 	} bits;
222 } vmac_tx_stat_t;
223 
224 
225 /*
226  * Register: VmacTxMsk
227  * Tx VMAC Status Mask
228  * Description: masking vmacTxStat from interrupt.
229  * Fields:
230  *     1: mask interrupt due to overflow of counter of byte
231  *     transmitted
232  *     1: mask interrupt due to overflow of counter of frame
233  *     transmitted
234  *     1: mask interrupt due to successful transmition of frame.
235  */
236 typedef union {
237 	uint64_t value;
238 	struct {
239 #if defined(_BIG_ENDIAN)
240 		uint32_t	rsrvd:32;
241 		uint32_t	rsrvd_l:29;
242 		uint32_t	tx_byte_cnt_overflow_msk:1;
243 		uint32_t	tx_frame_cnt_overflow_msk:1;
244 		uint32_t	frame_tx_msk:1;
245 #else
246 		uint32_t	frame_tx_msk:1;
247 		uint32_t	tx_frame_cnt_overflow_msk:1;
248 		uint32_t	tx_byte_cnt_overflow_msk:1;
249 		uint32_t	rsrvd_l:29;
250 		uint32_t	rsrvd:32;
251 #endif
252 	} bits;
253 } vmac_tx_msk_t;
254 
255 
256 /*
257  * Register: VmacRxStat
258  * Rx VMAC Status Register
259  * Description: Overflow indicators are read-only registers; Read off
260  * the counters to clear. A new interrupt will be generated only if
261  * Rx VMAC is enabled by vmacRxCfg::rxEn=1. Disabling Rx VMAC does
262  * not affect currently-existing Ldf state. Writing this register
263  * affects vmacRxStatMirror register bits also the same way.
264  * Fields:
265  *     Indicates that the counter for broadcast packets has exceeded
266  *     the max value.
267  *     Indicates that the counter for multicast packets has exceeded
268  *     the max value.
269  *     Indicates that the counter for pause packets has exceeded the
270  *     max value.
271  *     Indicates that the counter for packets with mismatched FCS has
272  *     exceeded the max value.
273  *     Indicates that counter of dropped byte has exceeded the max
274  *     value.
275  *     Indicates that counter of dropped frame has exceeded the max
276  *     value.
277  *     Indicates that counter of byte received has exceeded the max
278  *     value.
279  *     Indicates that counter of frame received has exceeded the max
280  *     value.
281  *     A valid frame has been successfully received.
282  */
283 typedef union {
284 	uint64_t value;
285 	struct {
286 #if defined(_BIG_ENDIAN)
287 		uint32_t	rsrvd:32;
288 		uint32_t	rsrvd_l:23;
289 		uint32_t	bcast_cnt_overflow:1;
290 		uint32_t	mcast_cnt_overflow:1;
291 		uint32_t	pause_cnt_overflow:1;
292 		uint32_t	crc_err_cnt_overflow:1;
293 		uint32_t	rx_drop_byte_cnt_overflow:1;
294 		uint32_t	rx_drop_frame_cnt_overflow:1;
295 		uint32_t	rx_byte_cnt_overflow:1;
296 		uint32_t	rx_frame_cnt_overflow:1;
297 		uint32_t	frame_rx:1;
298 #else
299 		uint32_t	frame_rx:1;
300 		uint32_t	rx_frame_cnt_overflow:1;
301 		uint32_t	rx_byte_cnt_overflow:1;
302 		uint32_t	rx_drop_frame_cnt_overflow:1;
303 		uint32_t	rx_drop_byte_cnt_overflow:1;
304 		uint32_t	crc_err_cnt_overflow:1;
305 		uint32_t	pause_cnt_overflow:1;
306 		uint32_t	mcast_cnt_overflow:1;
307 		uint32_t	bcast_cnt_overflow:1;
308 		uint32_t	rsrvd_l:23;
309 		uint32_t	rsrvd:32;
310 #endif
311 	} bits;
312 } vmac_rx_stat_t;
313 
314 
315 /*
316  * Register: VmacRxMsk
317  * Rx VMAC Status Mask
318  * Description:
319  * Fields:
320  *     1: mask interrupt due to overflow of the counter for broadcast
321  *     packets
322  *     1: mask interrupt due to overflow of the counter for multicast
323  *     packets
324  *     1: mask interrupt due to overflow of the counter for pause
325  *     packets
326  *     1: mask interrupt due to overflow of the counter for packets
327  *     with mismatched FCS the max value.
328  *     1: mask interrupt due to overflow of dropped byte counter
329  *     1: mask interrupt due to overflow of dropped frame counter
330  *     1: mask interrupt due to overflow of received byte counter
331  *     1: mask interrupt due to overflow of received frame counter
332  *     1: mask interrupt due to a valid frame has been successfully
333  *     received.
334  */
335 typedef union {
336 	uint64_t value;
337 	struct {
338 #if defined(_BIG_ENDIAN)
339 		uint32_t	rsrvd:32;
340 		uint32_t	rsrvd_l:23;
341 		uint32_t	bcast_cnt_overflow_msk:1;
342 		uint32_t	mcast_cnt_overflow_msk:1;
343 		uint32_t	pause_cnt_overflow_msk:1;
344 		uint32_t	crc_err_cnt_overflow_msk:1;
345 		uint32_t	rx_drop_byte_cnt_overflow_msk:1;
346 		uint32_t	rx_drop_frame_cnt_overflow_msk:1;
347 		uint32_t	rx_byte_cnt_overflow_msk:1;
348 		uint32_t	rx_frame_cnt_overflow_msk:1;
349 		uint32_t	frame_rx_msk:1;
350 #else
351 		uint32_t	frame_rx_msk:1;
352 		uint32_t	rx_frame_cnt_overflow_msk:1;
353 		uint32_t	rx_byte_cnt_overflow_msk:1;
354 		uint32_t	rx_drop_frame_cnt_overflow_msk:1;
355 		uint32_t	rx_drop_byte_cnt_overflow_msk:1;
356 		uint32_t	crc_err_cnt_overflow_msk:1;
357 		uint32_t	pause_cnt_overflow_msk:1;
358 		uint32_t	mcast_cnt_overflow_msk:1;
359 		uint32_t	bcast_cnt_overflow_msk:1;
360 		uint32_t	rsrvd_l:23;
361 		uint32_t	rsrvd:32;
362 #endif
363 	} bits;
364 } vmac_rx_msk_t;
365 
366 
367 /*
368  * Register: VmacTxStatMirror
369  * Tx VMAC Status Mirror Register
370  * Description: Write a 1 to this register to force the corresponding
371  * interrupt. Reading this register returns the current Tx interrupt
372  * status which would be the same as reading the vmacTxStat register.
373  * The bits are cleared by writing 1 to the corresponding register
374  * bit in the vmacTxStat register. ie, bit 0 of this register is
375  * cleared by writing 1 to bit 0 in the vmacTxStat register.
376  *
377  * Fields:
378  *     1 : Force tx byte counter overflow interrupt generation
379  *     1 : Force tx frame counter overflow interrupt generation
380  *     1 : Force frame transmitted interrupt generation
381  */
382 typedef union {
383 	uint64_t value;
384 	struct {
385 #if defined(_BIG_ENDIAN)
386 		uint32_t	rsrvd:32;
387 		uint32_t	rsrvd_l:29;
388 		uint32_t	force_tx_byte_cnt_overflow:1;
389 		uint32_t	force_tx_frame_cnt_overflow:1;
390 		uint32_t	force_frame_tx:1;
391 #else
392 		uint32_t	force_frame_tx:1;
393 		uint32_t	force_tx_frame_cnt_overflow:1;
394 		uint32_t	force_tx_byte_cnt_overflow:1;
395 		uint32_t	rsrvd_l:29;
396 		uint32_t	rsrvd:32;
397 #endif
398 	} bits;
399 } vmac_tx_stat_mirror_t;
400 
401 
402 /*
403  * Register: VmacRxStatMirror
404  * Rx VMAC Status Mirror Register
405  * Description: Write a 1 to this register to force the corresponding
406  * interrupt. Reading this register returns the current Rx interrupt
407  * status which would be the same as reading the vmacRxStat register.
408  * The bits are cleared by writing 1 to the corresponding register
409  * bit in the vmacRxStat register. ie, bit 0 of this register is
410  * cleared by writing 1 to bit 0 in the vmacRxStat register.
411  * Fields:
412  *     1 : Force broadcast frame counter overflow interrupt
413  *     generation
414  *     1 : Force multicast frame counter overflow interrupt
415  *     generation
416  *     1 : Force pause frame counter overflow interrupt generation
417  *     1 : Force crc error counter overflow interrupt generation
418  *     1 : Force dropped frames byte counter overflow interrupt
419  *     generation
420  *     1 : Force dropped frame counter overflow interrupt generation
421  *     1 : Force rx byte counter overflow interrupt generation
422  *     1 : Force rx frame counter overflow interrupt generation
423  *     1 : Force frame received interrupt generation
424  */
425 typedef union {
426 	uint64_t value;
427 	struct {
428 #if defined(_BIG_ENDIAN)
429 		uint32_t	rsrvd:32;
430 		uint32_t	rsrvd_l:23;
431 		uint32_t	force_bcast_cnt_overflow:1;
432 		uint32_t	force_mcast_cnt_overflow:1;
433 		uint32_t	force_pause_cnt_overflow:1;
434 		uint32_t	force_crc_err_cnt_overflow:1;
435 		uint32_t	force_rx_drop_byte_cnt_overflow:1;
436 		uint32_t	force_rx_drop_frame_cnt_overflow:1;
437 		uint32_t	force_rx_byte_cnt_overflow:1;
438 		uint32_t	force_rx_frame_cnt_overflow:1;
439 		uint32_t	force_frame_rx:1;
440 #else
441 		uint32_t	force_frame_rx:1;
442 		uint32_t	force_rx_frame_cnt_overflow:1;
443 		uint32_t	force_rx_byte_cnt_overflow:1;
444 		uint32_t	force_rx_drop_frame_cnt_overflow:1;
445 		uint32_t	force_rx_drop_byte_cnt_overflow:1;
446 		uint32_t	force_crc_err_cnt_overflow:1;
447 		uint32_t	force_pause_cnt_overflow:1;
448 		uint32_t	force_mcast_cnt_overflow:1;
449 		uint32_t	force_bcast_cnt_overflow:1;
450 		uint32_t	rsrvd_l:23;
451 		uint32_t	rsrvd:32;
452 #endif
453 	} bits;
454 } vmac_rx_stat_mirror_t;
455 
456 
457 /*
458  * Register: VmacTxFrameCnt
459  * VMAC transmitted frame counter
460  * Description:
461  * Fields:
462  *     Indicates the number of frames transmitted by Tx VMAC. The
463  *     counter will saturate at max value. The counter is stalled
464  *     when Tx VMAC is disabled by vmacTxCfg::txEn=0
465  */
466 typedef union {
467 	uint64_t value;
468 	struct {
469 #if defined(_BIG_ENDIAN)
470 		uint32_t	rsrvd:32;
471 		uint32_t	tx_frame_cnt:32;
472 #else
473 		uint32_t	tx_frame_cnt:32;
474 		uint32_t	rsrvd:32;
475 #endif
476 	} bits;
477 } vmac_tx_frame_cnt_t;
478 
479 
480 /*
481  * Register: VmacTxByteCnt
482  * VMAC transmitted byte counter
483  * Description:
484  * Fields:
485  *     Indicates the number of byte (octet) of data transmitted by Tx
486  *     VMAC. This counter counts all the bytes of the incoming data
487  *     including packet header, packet data, crc, and pad bytes. The
488  *     counter will saturate at max value. The counter is stalled
489  *     when Tx VMAC is disabled by vmacTxCfg::txEn=0
490  */
491 typedef union {
492 	uint64_t value;
493 	struct {
494 #if defined(_BIG_ENDIAN)
495 		uint32_t	rsrvd:32;
496 		uint32_t	tx_byte_cnt:32;
497 #else
498 		uint32_t	tx_byte_cnt:32;
499 		uint32_t	rsrvd:32;
500 #endif
501 	} bits;
502 } vmac_tx_byte_cnt_t;
503 
504 
505 /*
506  * Register: VmacRxFrameCnt
507  * VMAC received frame counter
508  * Description:
509  * Fields:
510  *     Indicates the number of frame received by Rx VMAC. The counter
511  *     will saturate at max value. The counter is stalled when Rx
512  *     VMAC is disabled by vmacRxCfg::rxEn=0.
513  */
514 typedef union {
515 	uint64_t value;
516 	struct {
517 #if defined(_BIG_ENDIAN)
518 		uint32_t	rsrvd:32;
519 		uint32_t	rx_frame_cnt:32;
520 #else
521 		uint32_t	rx_frame_cnt:32;
522 		uint32_t	rsrvd:32;
523 #endif
524 	} bits;
525 } vmac_rx_frame_cnt_t;
526 
527 
528 /*
529  * Register: VmacRxByteCnt
530  * VMAC received byte counter
531  * Description:
532  * Fields:
533  *     Indicates the number of bytes (octet) of data received by Rx
534  *     VMAC including any error frames. The counter will saturate at
535  *     max value. The counter is stalled when Rx VMAC is disabled by
536  *     vmacRxCfg::rxEn=0.
537  */
538 typedef union {
539 	uint64_t value;
540 	struct {
541 #if defined(_BIG_ENDIAN)
542 		uint32_t	rsrvd:32;
543 		uint32_t	rx_byte_cnt:32;
544 #else
545 		uint32_t	rx_byte_cnt:32;
546 		uint32_t	rsrvd:32;
547 #endif
548 	} bits;
549 } vmac_rx_byte_cnt_t;
550 
551 
552 /*
553  * Register: VmacRxDropFrCnt
554  * VMAC dropped frame counter
555  * Description:
556  * Fields:
557  *     Indicates the number of frame dropped by Rx VMAC. The counter
558  *     will This counter increments for every frame dropped for the
559  *     following: - crc mismatch & crc check is enabled - failed the
560  *     L2 address match & Vmac is not in promiscuous mode - pause
561  *     packet & Vmac is not programmed to pass these frames The
562  *     counter will saturate at max value. The counter is stalled
563  *     when Rx VMAC is disabled by vmacRxCfg::rxEn=0.
564  */
565 typedef union {
566 	uint64_t value;
567 	struct {
568 #if defined(_BIG_ENDIAN)
569 		uint32_t	rsrvd:32;
570 		uint32_t	rx_drop_frame_cnt:32;
571 #else
572 		uint32_t	rx_drop_frame_cnt:32;
573 		uint32_t	rsrvd:32;
574 #endif
575 	} bits;
576 } vmac_rx_drop_fr_cnt_t;
577 
578 
579 /*
580  * Register: VmacRxDropByteCnt
581  * VMAC dropped byte counter
582  * Description:
583  * Fields:
584  *     Indicates the number of byte of data dropped by Rx VMAC.
585  *     Frames are dropped for one of the follg conditions : - crc
586  *     mismatch & crc check is enabled - failed the L2 address match
587  *     & Vmac is not in promiscuous mode - pause packet & Vmac is not
588  *     programmed to pass these frames The counter will saturate at
589  *     max value. The counter is stalled when Rx VMAC is disabled by
590  *     vmacRxCfg::rxEn=0.
591  */
592 typedef union {
593 	uint64_t value;
594 	struct {
595 #if defined(_BIG_ENDIAN)
596 		uint32_t	rsrvd:32;
597 		uint32_t	rx_drop_byte_cnt:32;
598 #else
599 		uint32_t	rx_drop_byte_cnt:32;
600 		uint32_t	rsrvd:32;
601 #endif
602 	} bits;
603 } vmac_rx_drop_byte_cnt_t;
604 
605 
606 /*
607  * Register: VmacRxCrcCnt
608  * VMAC received CRC error frame counter
609  * Description:
610  * Fields:
611  *     Indicates the number of frames with invalid CRC. When NMAC
612  *     truncates a packet, it asserts crcError indication to VMAC
613  *     which then counts it towards CRC error. Thus the VMAC crc
614  *     error counter reflects the CRC mismatches on all the packets
615  *     going out of RxMAC while the NMAC crc error counter reflects
616  *     the CRC mismatches on all the packets coming into RxMAC. The
617  *     counter will saturate at max value The counter is stalled when
618  *     Rx VMAC is disabled by vmacRxCfg::rxEn=0.
619  */
620 typedef union {
621 	uint64_t value;
622 	struct {
623 #if defined(_BIG_ENDIAN)
624 		uint32_t	rsrvd:32;
625 		uint32_t	rx_crc_cnt:32;
626 #else
627 		uint32_t	rx_crc_cnt:32;
628 		uint32_t	rsrvd:32;
629 #endif
630 	} bits;
631 } vmac_rx_crc_cnt_t;
632 
633 
634 /*
635  * Register: VmacRxPauseCnt
636  * VMAC received pause frame counter
637  * Description:
638  * Fields:
639  *     Count the number of pause frames received by Rx VMAC. The
640  *     counter is stalled when Rx VMAC is disabled by
641  *     vmacRxCfg::rxEn=0.
642  */
643 typedef union {
644 	uint64_t value;
645 	struct {
646 #if defined(_BIG_ENDIAN)
647 		uint32_t	rsrvd:32;
648 		uint32_t	rx_pause_cnt:32;
649 #else
650 		uint32_t	rx_pause_cnt:32;
651 		uint32_t	rsrvd:32;
652 #endif
653 	} bits;
654 } vmac_rx_pause_cnt_t;
655 
656 
657 /*
658  * Register: VmacRxBcastFrCnt
659  * VMAC received broadcast frame counter
660  * Description:
661  * Fields:
662  *     Indicates the number of broadcast frames received The counter
663  *     is stalled when Rx VMAC is disabled by vmacRxCfg::rxEn=0.
664  */
665 typedef union {
666 	uint64_t value;
667 	struct {
668 #if defined(_BIG_ENDIAN)
669 		uint32_t	rsrvd:32;
670 		uint32_t	rx_bcast_fr_cnt:32;
671 #else
672 		uint32_t	rx_bcast_fr_cnt:32;
673 		uint32_t	rsrvd:32;
674 #endif
675 	} bits;
676 } vmac_rx_bcast_fr_cnt_t;
677 
678 
679 /*
680  * Register: VmacRxMcastFrCnt
681  * VMAC received multicast frame counter
682  * Description:
683  * Fields:
684  *     Indicates the number of multicast frames received The counter
685  *     is stalled when Rx VMAC is disabled by vmacRxCfg::rxEn=0.
686  */
687 typedef union {
688 	uint64_t value;
689 	struct {
690 #if defined(_BIG_ENDIAN)
691 		uint32_t	rsrvd:32;
692 		uint32_t	rx_mcast_fr_cnt:32;
693 #else
694 		uint32_t	rx_mcast_fr_cnt:32;
695 		uint32_t	rsrvd:32;
696 #endif
697 	} bits;
698 } vmac_rx_mcast_fr_cnt_t;
699 
700 
701 #ifdef	__cplusplus
702 }
703 #endif
704 
705 #endif	/* _HXGE_VMAC_HW_H */
706