xref: /titanic_50/usr/src/uts/common/io/hxge/hxge_rdc_hw.h (revision fe930412c257f961ae67039de3b164b83717976a)
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_RDC_HW_H
27 #define	_HXGE_RDC_HW_H
28 
29 #pragma ident	"%Z%%M%	%I%	%E% SMI"
30 
31 #ifdef	__cplusplus
32 extern "C" {
33 #endif
34 
35 #define	RDC_BASE_ADDR				0X00300000
36 
37 #define	RDC_PAGE_HANDLE				(RDC_BASE_ADDR + 0x8)
38 #define	RDC_RX_CFG1				(RDC_BASE_ADDR + 0x20)
39 #define	RDC_RX_CFG2				(RDC_BASE_ADDR + 0x28)
40 #define	RDC_RBR_CFG_A				(RDC_BASE_ADDR + 0x40)
41 #define	RDC_RBR_CFG_B				(RDC_BASE_ADDR + 0x48)
42 #define	RDC_RBR_KICK				(RDC_BASE_ADDR + 0x50)
43 #define	RDC_RBR_QLEN				(RDC_BASE_ADDR + 0x58)
44 #define	RDC_RBR_HEAD				(RDC_BASE_ADDR + 0x68)
45 #define	RDC_RCR_CFG_A				(RDC_BASE_ADDR + 0x80)
46 #define	RDC_RCR_CFG_B				(RDC_BASE_ADDR + 0x88)
47 #define	RDC_RCR_QLEN				(RDC_BASE_ADDR + 0x90)
48 #define	RDC_RCR_TAIL				(RDC_BASE_ADDR + 0xA0)
49 #define	RDC_RCR_FLUSH				(RDC_BASE_ADDR + 0xA8)
50 #define	RDC_CLOCK_DIV				(RDC_BASE_ADDR + 0xB0)
51 #define	RDC_INT_MASK				(RDC_BASE_ADDR + 0xB8)
52 #define	RDC_STAT				(RDC_BASE_ADDR + 0xC0)
53 #define	RDC_PKT_COUNT				(RDC_BASE_ADDR + 0xD0)
54 #define	RDC_DROP_COUNT				(RDC_BASE_ADDR + 0xD8)
55 #define	RDC_BYTE_COUNT				(RDC_BASE_ADDR + 0xE0)
56 #define	RDC_PREF_CMD				(RDC_BASE_ADDR + 0x100)
57 #define	RDC_PREF_DATA				(RDC_BASE_ADDR + 0x108)
58 #define	RDC_SHADOW_CMD				(RDC_BASE_ADDR + 0x110)
59 #define	RDC_SHADOW_DATA				(RDC_BASE_ADDR + 0x118)
60 #define	RDC_SHADOW_PAR_DATA			(RDC_BASE_ADDR + 0x120)
61 #define	RDC_CTRL_FIFO_CMD			(RDC_BASE_ADDR + 0x128)
62 #define	RDC_CTRL_FIFO_DATA_LO			(RDC_BASE_ADDR + 0x130)
63 #define	RDC_CTRL_FIFO_DATA_HI			(RDC_BASE_ADDR + 0x138)
64 #define	RDC_CTRL_FIFO_DATA_ECC			(RDC_BASE_ADDR + 0x140)
65 #define	RDC_DATA_FIFO_CMD			(RDC_BASE_ADDR + 0x148)
66 #define	RDC_DATA_FIFO_DATA_LO			(RDC_BASE_ADDR + 0x150)
67 #define	RDC_DATA_FIFO_DATA_HI			(RDC_BASE_ADDR + 0x158)
68 #define	RDC_DATA_FIFO_DATA_ECC			(RDC_BASE_ADDR + 0x160)
69 #define	RDC_STAT_INT_DBG			(RDC_BASE_ADDR + 0x200)
70 #define	RDC_PREF_PAR_LOG			(RDC_BASE_ADDR + 0x210)
71 #define	RDC_SHADOW_PAR_LOG			(RDC_BASE_ADDR + 0x218)
72 #define	RDC_CTRL_FIFO_ECC_LOG			(RDC_BASE_ADDR + 0x220)
73 #define	RDC_DATA_FIFO_ECC_LOG			(RDC_BASE_ADDR + 0x228)
74 #define	RDC_FIFO_ERR_INT_MASK			(RDC_BASE_ADDR + 0x230)
75 #define	RDC_FIFO_ERR_STAT			(RDC_BASE_ADDR + 0x238)
76 #define	RDC_FIFO_ERR_INT_DBG			(RDC_BASE_ADDR + 0x240)
77 #define	RDC_PEU_TXN_LOG				(RDC_BASE_ADDR + 0x250)
78 #define	RDC_DBG_TRAINING_VEC			(RDC_BASE_ADDR + 0x300)
79 #define	RDC_DBG_GRP_SEL				(RDC_BASE_ADDR + 0x308)
80 
81 
82 /*
83  * Register: RdcPageHandle
84  * Logical Page Handle
85  * Description: Logical page handle specifying upper bits of 64-bit
86  * PCIE addresses. Fields in this register are part of the dma
87  * configuration and cannot be changed once the dma is enabled.
88  * Fields:
89  *     Bits [63:44] of a 64-bit address, used to concatenate to a
90  *     44-bit address when generating 64-bit addresses on the PCIE
91  *     bus.
92  */
93 typedef union {
94 	uint64_t value;
95 	struct {
96 #if defined(_BIG_ENDIAN)
97 		uint32_t	rsrvd:32;
98 		uint32_t	rsrvd_l:12;
99 		uint32_t	handle:20;
100 #else
101 		uint32_t	handle:20;
102 		uint32_t	rsrvd_l:12;
103 		uint32_t	rsrvd:32;
104 #endif
105 	} bits;
106 } rdc_page_handle_t;
107 
108 
109 /*
110  * Register: RdcRxCfg1
111  * DMA Configuration 1
112  * Description: Configuration parameters for receive DMA block.
113  * Fields in this register are part of the dma configuration and
114  * cannot be changed once the dma is enabled.
115  * The usage of enable, reset, and qst is as follows. Software
116  * should use the following sequence to reset a DMA channel. First,
117  * set DMA.enable to 0, wait for DMA.qst=1 and then, set DMA.reset to
118  * 1. After DMA.reset is cleared by hardware and the DMA.qst is set
119  * to 1, software may then start configuring the DMA channel. The
120  * DMA.enable can be set or cleared while the DMA is in operation.
121  * The state machines of the DMA may not have returned to its initial
122  * states yet after the DMA.enable bit is cleared. This condition is
123  * indicated by the value of the DMA.qst. An example of DMA.enable
124  * being cleared during operation is when a fatal error occurs.
125  * Fields:
126  *     Set to 1 to enable the Receive DMA. If set to 0, packets
127  *     selecting this DMA will be discarded. On fatal errors, this
128  *     bit will be cleared by hardware. This bit cannot be set if sw
129  *     has not resolved any pending fatal error condition: i.e. any
130  *     RdcStat ldf1 error bits remain set.
131  *     Set to 1 to reset the DMA. Hardware will clear this bit after
132  *     reset is completed. A reset will bring the sepecific DMA back
133  *     to the power on state (including the DMA.en in this register).
134  *     When set to 1, it indicates all state associated with the DMA
135  *     are in its initial state following either dma reset or
136  *     disable. Thus, once this is set to 1, sw could start to
137  *     configure the DMA if needed.
138  *     Bits [43:32] of the Mailbox address.
139  */
140 typedef union {
141 	uint64_t value;
142 	struct {
143 #if defined(_BIG_ENDIAN)
144 		uint32_t	rsrvd:32;
145 		uint32_t	enable:1;
146 		uint32_t	reset:1;
147 		uint32_t	qst:1;
148 		uint32_t	rsrvd1:17;
149 		uint32_t	mbaddr_h:12;
150 #else
151 		uint32_t	mbaddr_h:12;
152 		uint32_t	rsrvd1:17;
153 		uint32_t	qst:1;
154 		uint32_t	reset:1;
155 		uint32_t	enable:1;
156 		uint32_t	rsrvd:32;
157 #endif
158 	} bits;
159 } rdc_rx_cfg1_t;
160 
161 
162 /*
163  * Register: RdcRxCfg2
164  * DMA Configuration 2
165  * Description: Configuration parameters for receive DMA block.
166  * Fields in this register are part of the dma configuration and
167  * cannot be changed once the dma is enabled.
168  * Fields:
169  *     Bits [31:6] of the Mailbox address. Bits [5:0] are assumed to
170  *     be zero, or 64B aligned.
171  *     Multiple of 64Bs, 0 means no offset, b01 means 64B, b10 means
172  *     128B. b11 is invalid, hardware behavior not specified.
173  *     Set to 1 to select the entire header of 6B.
174  */
175 typedef union {
176 	uint64_t value;
177 	struct {
178 #if defined(_BIG_ENDIAN)
179 		uint32_t	rsrvd:32;
180 		uint32_t	mbaddr_l:26;
181 		uint32_t	rsrvd1:3;
182 		uint32_t	offset:2;
183 		uint32_t	full_hdr:1;
184 #else
185 		uint32_t	full_hdr:1;
186 		uint32_t	offset:2;
187 		uint32_t	rsrvd1:3;
188 		uint32_t	mbaddr_l:26;
189 		uint32_t	rsrvd:32;
190 #endif
191 	} bits;
192 } rdc_rx_cfg2_t;
193 
194 
195 /*
196  * Register: RdcRbrCfgA
197  * RBR Configuration A
198  * Description: The following registers are used to configure and
199  * manage the RBR. Note that the entire RBR must stay within the
200  * 'page' defined by staddrBase. The behavior of the hardware is
201  * undefined if the last entry is outside of the page (if bits 43:18
202  * of the address of the last entry are different from bits 43:18 of
203  * the base address). Hardware will support wrapping around at the
204  * end of the ring buffer defined by LEN. LEN must be a multiple of
205  * 64. Fields in this register are part of the dma configuration and
206  * cannot be changed once the dma is enabled.
207  * HW does not check for all configuration errors across different
208  * fields.
209  *
210  * Fields:
211  *     Bits 15:6 of the maximum number of RBBs in the buffer ring.
212  *     Bits 5:0 are hardcoded to zero. The maximum is (2^16 - 64) and
213  *     is limited by the staddr value. (len + staddr) should not
214  *     exceed (2^16 - 64).
215  *     Bits [43:18] of the address for the RBR. This value remains
216  *     fixed, and is used as the base address of the ring. All
217  *     entries in the ring have this as their upper address bits.
218  *     Bits [17:6] of the address of the RBR. staddrBase concatinated
219  *     with staddr is the starting address of the RBR. (len + staddr)
220  *     should not exceed (2^16 - 64).
221  */
222 typedef union {
223 	uint64_t value;
224 	struct {
225 #if defined(_BIG_ENDIAN)
226 		uint32_t	len:10;
227 		uint32_t	len_lo:6;
228 		uint32_t	rsrvd:4;
229 		uint32_t	staddr_base:12;
230 		uint32_t	staddr_base_l:14;
231 		uint32_t	staddr:12;
232 		uint32_t	rsrvd1:6;
233 #else
234 		uint32_t	rsrvd1:6;
235 		uint32_t	staddr:12;
236 		uint32_t	staddr_base_l:14;
237 		uint32_t	staddr_base:12;
238 		uint32_t	rsrvd:4;
239 		uint32_t	len_lo:6;
240 		uint32_t	len:10;
241 #endif
242 	} bits;
243 } rdc_rbr_cfg_a_t;
244 
245 
246 /*
247  * Register: RdcRbrCfgB
248  * RBR Configuration B
249  * Description: This register configures the block size, and the
250  * individual packet buffer sizes. The VLD bits of the three block
251  * sizes have to be set to 1 in normal operations. These bits may be
252  * turned off for debug purpose only. Fields in this register are
253  * part of the dma configuration and cannot be changed once the dma
254  * is enabled.
255  * Fields:
256  *     Buffer Block Size. b0 - 4K; b1 - 8K.
257  *     Set to 1 to indicate SIZE2 is valid, and enable hardware to
258  *     allocate buffers of size 2. Always set to 1 in normal
259  *     operation.
260  *     Size 2 of packet buffer. b0 - 2K; b1 - 4K.
261  *     Set to 1 to indicate SIZE1 is valid, and enable hardware to
262  *     allocate buffers of size 1. Always set to 1 in normal
263  *     operation.
264  *     Size 1 of packet buffer. b0 - 1K; b1 - 2K.
265  *     Set to 1 to indicate SIZE0 is valid, and enable hardware to
266  *     allocate buffers of size 0. Always set to 1 in normal
267  *     operation.
268  *     Size 0 of packet buffer. b00 - 256; b01 - 512; b10 - 1K; b11 -
269  *     reserved.
270  */
271 typedef union {
272 	uint64_t value;
273 	struct {
274 #if defined(_BIG_ENDIAN)
275 		uint32_t	rsrvd:32;
276 		uint32_t	rsrvd_l:7;
277 		uint32_t	bksize:1;
278 		uint32_t	vld2:1;
279 		uint32_t	rsrvd1:6;
280 		uint32_t	bufsz2:1;
281 		uint32_t	vld1:1;
282 		uint32_t	rsrvd2:6;
283 		uint32_t	bufsz1:1;
284 		uint32_t	vld0:1;
285 		uint32_t	rsrvd3:5;
286 		uint32_t	bufsz0:2;
287 #else
288 		uint32_t	bufsz0:2;
289 		uint32_t	rsrvd3:5;
290 		uint32_t	vld0:1;
291 		uint32_t	bufsz1:1;
292 		uint32_t	rsrvd2:6;
293 		uint32_t	vld1:1;
294 		uint32_t	bufsz2:1;
295 		uint32_t	rsrvd1:6;
296 		uint32_t	vld2:1;
297 		uint32_t	bksize:1;
298 		uint32_t	rsrvd_l:7;
299 		uint32_t	rsrvd:32;
300 #endif
301 	} bits;
302 } rdc_rbr_cfg_b_t;
303 
304 
305 /*
306  * Register: RdcRbrKick
307  * RBR Kick
308  * Description: Block buffer addresses are added to the ring buffer
309  * by software. When software writes to the Kick register, indicating
310  * the number of descriptors added, hardware will update the internal
311  * state of the corresponding buffer pool.
312  * HW does not check for all configuration errors across different
313  * fields.
314  *
315  * Fields:
316  *     Number of Block Buffers added by software. Hardware effect
317  *     will be triggered when the register is written to.
318  */
319 typedef union {
320 	uint64_t value;
321 	struct {
322 #if defined(_BIG_ENDIAN)
323 		uint32_t	rsrvd:32;
324 		uint32_t	rsrvd_l:16;
325 		uint32_t	bkadd:16;
326 #else
327 		uint32_t	bkadd:16;
328 		uint32_t	rsrvd_l:16;
329 		uint32_t	rsrvd:32;
330 #endif
331 	} bits;
332 } rdc_rbr_kick_t;
333 
334 
335 /*
336  * Register: RdcRbrQlen
337  * RBR Queue Length
338  * Description: The current number of entries in the RBR.
339  * Fields:
340  *     Number of block addresses in the ring buffer.
341  */
342 typedef union {
343 	uint64_t value;
344 	struct {
345 #if defined(_BIG_ENDIAN)
346 		uint32_t	rsrvd:32;
347 		uint32_t	rsrvd_l:16;
348 		uint32_t	qlen:16;
349 #else
350 		uint32_t	qlen:16;
351 		uint32_t	rsrvd_l:16;
352 		uint32_t	rsrvd:32;
353 #endif
354 	} bits;
355 } rdc_rbr_qlen_t;
356 
357 
358 /*
359  * Register: RdcRbrHead
360  * RBR Head
361  * Description: Lower bits of the RBR head pointer. Software programs
362  * the upper bits, specified in rdcRbrConfigA.staddrBase.
363  * Fields:
364  *     Bits [17:2] of the software posted address, 4B aligned. This
365  *     pointer is updated by hardware after each block buffer is
366  *     consumed.
367  */
368 typedef union {
369 	uint64_t value;
370 	struct {
371 #if defined(_BIG_ENDIAN)
372 		uint32_t	rsrvd:32;
373 		uint32_t	rsrvd_l:14;
374 		uint32_t	head:16;
375 		uint32_t	rsrvd1:2;
376 #else
377 		uint32_t	rsrvd1:2;
378 		uint32_t	head:16;
379 		uint32_t	rsrvd_l:14;
380 		uint32_t	rsrvd:32;
381 #endif
382 	} bits;
383 } rdc_rbr_head_t;
384 
385 
386 /*
387  * Register: RdcRcrCfgA
388  * RCR Configuration A
389  * Description: The RCR should be within the 'page' defined by the
390  * staddrBase, i.e. staddrBase concatenate with STADDR plus 8 x LEN
391  * should be within the last address of the 'page' defined by
392  * staddrBase. The length must be a multiple of 32. Fields in this
393  * register are part of the dma configuration and cannot be changed
394  * once the dma is enabled.
395  * HW does not check for all configuration errors across different
396  * fields.
397  *
398  * Fields:
399  *     Bits 15:5 of the maximum number of 8B entries in RCR. Bits 4:0
400  *     are hard-coded to zero. The maximum size is (2^16 - 32) and is
401  *     limited by staddr value. (len + staddr) should not exceed
402  *     (2^16 - 32).
403  *     Bits [43:19] of the Start address for the RCR.
404  *     Bits [18:6] of start address for the RCR. (len + staddr)
405  *     should not exceed (2^16 - 32).
406  */
407 typedef union {
408 	uint64_t value;
409 	struct {
410 #if defined(_BIG_ENDIAN)
411 		uint32_t	len:11;
412 		uint32_t	len_lo:5;
413 		uint32_t	rsrvd:4;
414 		uint32_t	staddr_base:12;
415 		uint32_t	staddr_base_l:13;
416 		uint32_t	staddr:13;
417 		uint32_t	rsrvd1:6;
418 #else
419 		uint32_t	rsrvd1:6;
420 		uint32_t	staddr:13;
421 		uint32_t	staddr_base_l:13;
422 		uint32_t	staddr_base:12;
423 		uint32_t	rsrvd:4;
424 		uint32_t	len_lo:5;
425 		uint32_t	len:11;
426 #endif
427 	} bits;
428 } rdc_rcr_cfg_a_t;
429 
430 
431 /*
432  * Register: RdcRcrCfgB
433  * RCR Configuration B
434  * Description: RCR configuration settings.
435  * Fields:
436  *     Packet Threshold; when the number of packets enqueued in RCR
437  *     is strictly larger than PTHRES, the DMA MAY issue an interrupt
438  *     if enabled.
439  *     Enable timeout. If set to one, enable the timeout. A timeout
440  *     will initiate an update of the software visible states. If
441  *     interrupt is armed, in addition to the update, an interrupt to
442  *     CPU will be generated, and the interrupt disarmed.
443  *     Time out value. The system clock is divided down by the value
444  *     programmed in the Receive DMA Clock Divider register.
445  */
446 typedef union {
447 	uint64_t value;
448 	struct {
449 #if defined(_BIG_ENDIAN)
450 		uint32_t	rsrvd:32;
451 		uint32_t	pthres:16;
452 		uint32_t	entout:1;
453 		uint32_t	rsrvd1:9;
454 		uint32_t	timeout:6;
455 #else
456 		uint32_t	timeout:6;
457 		uint32_t	rsrvd1:9;
458 		uint32_t	entout:1;
459 		uint32_t	pthres:16;
460 		uint32_t	rsrvd:32;
461 #endif
462 	} bits;
463 } rdc_rcr_cfg_b_t;
464 
465 
466 /*
467  * Register: RdcRcrQlen
468  * RCR Queue Length
469  * Description: The number of entries in the RCR.
470  * Fields:
471  *     Number of packets queued. Initialize to zero after the RCR
472  *     Configuration A register is written to.
473  */
474 typedef union {
475 	uint64_t value;
476 	struct {
477 #if defined(_BIG_ENDIAN)
478 		uint32_t	rsrvd:32;
479 		uint32_t	rsrvd_l:16;
480 		uint32_t	qlen:16;
481 #else
482 		uint32_t	qlen:16;
483 		uint32_t	rsrvd_l:16;
484 		uint32_t	rsrvd:32;
485 #endif
486 	} bits;
487 } rdc_rcr_qlen_t;
488 
489 
490 /*
491  * Register: RdcRcrTail
492  * RCR Tail
493  * Description: Lower bits of the RCR tail pointer. Software programs
494  * the upper bits, specified in rdcRcrConfigA.staddrBase.
495  * Fields:
496  *     Address of the RCR Tail Pointer [18:3] (points to the next
497  *     available location.) Initialized after the RCR Configuration A
498  *     register is written to.
499  */
500 typedef union {
501 	uint64_t value;
502 	struct {
503 #if defined(_BIG_ENDIAN)
504 		uint32_t	rsrvd:32;
505 		uint32_t	rsrvd_l:13;
506 		uint32_t	tail:16;
507 		uint32_t	rsrvd1:3;
508 #else
509 		uint32_t	rsrvd1:3;
510 		uint32_t	tail:16;
511 		uint32_t	rsrvd_l:13;
512 		uint32_t	rsrvd:32;
513 #endif
514 	} bits;
515 } rdc_rcr_tail_t;
516 
517 
518 /*
519  * Register: RdcRcrFlush
520  * RCR Flush
521  * Description: This register will force an update to the RCR in
522  * system memory.
523  * Fields:
524  *     Set to 1 to force the hardware to store the shadow tail block
525  *     to DRAM if the hardware state (queue length and pointers) is
526  *     different from the software visible state. Reset to 0 by
527  *     hardware when done.
528  */
529 typedef union {
530 	uint64_t value;
531 	struct {
532 #if defined(_BIG_ENDIAN)
533 		uint32_t	rsrvd:32;
534 		uint32_t	rsrvd_l:31;
535 		uint32_t	flush:1;
536 #else
537 		uint32_t	flush:1;
538 		uint32_t	rsrvd_l:31;
539 		uint32_t	rsrvd:32;
540 #endif
541 	} bits;
542 } rdc_rcr_flush_t;
543 
544 
545 /*
546  * Register: RdcClockDiv
547  * Receive DMA Clock Divider
548  * Description: The granularity of the DMA timers is determined by
549  * the following counter. This is used to drive the DMA timeout
550  * counters. For a 250MHz system clock, a value of 25000 (decimal)
551  * will yield a granularity of 100 usec.
552  * Fields:
553  *     System clock divider, determines the granularity of the DMA
554  *     timeout count-down. The hardware count down is count+1.
555  */
556 typedef union {
557 	uint64_t value;
558 	struct {
559 #if defined(_BIG_ENDIAN)
560 		uint32_t	rsrvd:32;
561 		uint32_t	rsrvd_l:16;
562 		uint32_t	count:16;
563 #else
564 		uint32_t	count:16;
565 		uint32_t	rsrvd_l:16;
566 		uint32_t	rsrvd:32;
567 #endif
568 	} bits;
569 } rdc_clock_div_t;
570 
571 
572 /*
573  * Register: RdcIntMask
574  * RDC Interrupt Mask
575  * Description: RDC interrupt status register. RCRTHRES and RCRTO
576  * bits are used to keep track of normal DMA operations, while the
577  * remaining bits are primarily used to detect error conditions.
578  * Fields:
579  *     Set to 0 to enable flagging when rdc receives a response
580  *     completion timeout from peu. Part of LDF 1.
581  *     Set to 1 to enable flagging when rdc receives a poisoned
582  *     completion or non-zero (unsuccessful) completion status
583  *     received from PEU. Part of LDF 1.
584  *     Set to 0 to enable flagging when RCR threshold crossed. Part
585  *     of LDF 0.
586  *     Set to 0 to enable flagging when RCR timeout. Part of LDF 0.
587  *     Set to 0 to enable flagging when read from rcr shadow ram
588  *     generates a parity error Part of LDF 1.
589  *     Set to 0 to enable flagging when read from rbr prefetch ram
590  *     generates a parity error Part of LDF 1.
591  *     Set to 0 to enable flagging when Receive Block Ring prefetch
592  *     is empty (not enough buffer blocks available depending on
593  *     incoming pkt size) when hardware tries to queue a packet.
594  *     Incoming packets will be discarded. Non-fatal error. Part of
595  *     LDF 1.
596  *     Set to 0 to enable flagging when packet discard because of RCR
597  *     shadow full.
598  *     Set to 0 to enable flagging when Receive Completion Ring full
599  *     when hardware tries to enqueue the completion status of a
600  *     packet. Part of LDF 1.
601  *     Set to 0 to enable flagging when RBR empty when hardware
602  *     attempts to prefetch. Part of LDF 1.
603  *     Set to 0 to enable flagging when Receive Block Ring full when
604  *     software tries to post more blocks. Part of LDF 1.
605  */
606 typedef union {
607 	uint64_t value;
608 	struct {
609 #if defined(_BIG_ENDIAN)
610 		uint32_t	rsrvd:10;
611 		uint32_t	rbr_cpl_to:1;
612 		uint32_t	peu_resp_err:1;
613 		uint32_t	rsrvd1:5;
614 		uint32_t	rcr_thres:1;
615 		uint32_t	rcr_to:1;
616 		uint32_t	rcr_shadow_par_err:1;
617 		uint32_t	rbr_prefetch_par_err:1;
618 		uint32_t	rsrvd2:2;
619 		uint32_t	rbr_pre_empty:1;
620 		uint32_t	rcr_shadow_full:1;
621 		uint32_t	rsrvd3:2;
622 		uint32_t	rcr_full:1;
623 		uint32_t	rbr_empty:1;
624 		uint32_t	rbr_full:1;
625 		uint32_t	rsrvd4:2;
626 		uint32_t	rsrvd5:32;
627 #else
628 		uint32_t	rsrvd5:32;
629 		uint32_t	rsrvd4:2;
630 		uint32_t	rbr_full:1;
631 		uint32_t	rbr_empty:1;
632 		uint32_t	rcr_full:1;
633 		uint32_t	rsrvd3:2;
634 		uint32_t	rcr_shadow_full:1;
635 		uint32_t	rbr_pre_empty:1;
636 		uint32_t	rsrvd2:2;
637 		uint32_t	rbr_prefetch_par_err:1;
638 		uint32_t	rcr_shadow_par_err:1;
639 		uint32_t	rcr_to:1;
640 		uint32_t	rcr_thres:1;
641 		uint32_t	rsrvd1:5;
642 		uint32_t	peu_resp_err:1;
643 		uint32_t	rbr_cpl_to:1;
644 		uint32_t	rsrvd:10;
645 #endif
646 	} bits;
647 } rdc_int_mask_t;
648 
649 
650 /*
651  * Register: RdcStat
652  * RDC Control And Status
653  * Description: The DMA channels are controlled using this register.
654  * Fields:
655  *     Set to 1 to indicate rdc received a response completion
656  *     timeout from peu. Fatal error. Part of LDF 1.
657  *     Set to 1 to indicate poisoned completion or non-zero
658  *     (unsuccessful) completion status received from PEU. Part of
659  *     LDF 1.
660  *     Set to 1 to enable mailbox update. Hardware will reset to 0
661  *     after one update. Software needs to set to 1 for each update.
662  *     Write 0 has no effect. Note that once set by software, only
663  *     hardware can reset the value. This bit is also used to keep
664  *     track of the exclusivity between threshold triggered or
665  *     timeout triggered interrupt. If this bit is not set, there
666  *     will be no timer based interrupt, and threshold based
667  *     interrupt will not issue a mailbox update. It is recommended
668  *     that software should set this bit to one when arming the
669  *     device for interrupt.
670  *     Set to 1 to indicate RCR threshold crossed. This is a level
671  *     event. Part of LDF 0.
672  *     Set to 1 to indicate RCR time-outed if MEX bit is set and the
673  *     queue length is non-zero when timeout occurs. When software
674  *     writes 1 to this bit, RCRTO will be reset to 0. Part of LDF 0.
675  *     Set to 1 to indicate read from rcr shadow ram generates a
676  *     parity error Writing a 1 to this register also clears the
677  *     rdcshadowParLog register Fatal error. Part of LDF 1.
678  *     Set to 1 to indicate read from rbr prefetch ram generates
679  *     parity error Writing a 1 to this register also clears the
680  *     rdcPrefParLog register Fatal error. Part of LDF 1.
681  *     Set to 1 to indicate Receive Block Ring prefetch is empty (not
682  *     enough buffer blocks available depending on incoming pkt size)
683  *     when hardware tries to queue a packet. Incoming packets will
684  *     be discarded. Non-fatal error. Part of LDF 1.
685  *     Set to 1 to indicate packet discard because of RCR shadow
686  *     full. RCR Shadow full cannot be set to 1 in a normal
687  *     operation. When set to 1, it indicates a fatal error. Part of
688  *     LDF 1.
689  *     Set to 1 to indicate Receive Completion Ring full when
690  *     hardware tries to enqueue the completion status of a packet.
691  *     Incoming packets will be discarded. No buffer consumed. Fatal
692  *     error. Part of LDF 1.
693  *     Set to 1 to indicate RBR empty when hardware attempts to
694  *     prefetch. Part of LDF 1.
695  *     Set to 1 to indicate Receive Buffer Ring full when software
696  *     writes the kick register with a value greater than the length
697  *     of the RBR length. Incoming packets will be discarded. Fatal
698  *     error. Part of LDF 1.
699  *     Number of buffer pointers read. Used to advance the RCR head
700  *     pointer.
701  *     Number of packets read; when written to, decrement the QLEN
702  *     counter by PKTREAD. QLEN is lower bounded to zero.
703  */
704 typedef union {
705 	uint64_t value;
706 	struct {
707 #if defined(_BIG_ENDIAN)
708 		uint32_t	rsrvd:10;
709 		uint32_t	rbr_cpl_to:1;
710 		uint32_t	peu_resp_err:1;
711 		uint32_t	rsrvd1:4;
712 		uint32_t	mex:1;
713 		uint32_t	rcr_thres:1;
714 		uint32_t	rcr_to:1;
715 		uint32_t	rcr_shadow_par_err:1;
716 		uint32_t	rbr_prefetch_par_err:1;
717 		uint32_t	rsrvd2:2;
718 		uint32_t	rbr_pre_empty:1;
719 		uint32_t	rcr_shadow_full:1;
720 		uint32_t	rsrvd3:2;
721 		uint32_t	rcr_full:1;
722 		uint32_t	rbr_empty:1;
723 		uint32_t	rbr_full:1;
724 		uint32_t	rsrvd4:2;
725 		uint32_t	ptrread:16;
726 		uint32_t	pktread:16;
727 #else
728 		uint32_t	pktread:16;
729 		uint32_t	ptrread:16;
730 		uint32_t	rsrvd4:2;
731 		uint32_t	rbr_full:1;
732 		uint32_t	rbr_empty:1;
733 		uint32_t	rcr_full:1;
734 		uint32_t	rsrvd3:2;
735 		uint32_t	rcr_shadow_full:1;
736 		uint32_t	rbr_pre_empty:1;
737 		uint32_t	rsrvd2:2;
738 		uint32_t	rbr_prefetch_par_err:1;
739 		uint32_t	rcr_shadow_par_err:1;
740 		uint32_t	rcr_to:1;
741 		uint32_t	rcr_thres:1;
742 		uint32_t	mex:1;
743 		uint32_t	rsrvd1:4;
744 		uint32_t	peu_resp_err:1;
745 		uint32_t	rbr_cpl_to:1;
746 		uint32_t	rsrvd:10;
747 #endif
748 	} bits;
749 } rdc_stat_t;
750 
751 
752 /*
753  * Register: RdcPktCount
754  * Rx DMA Packet Counter
755  * Description: Counts the number of packets received from the Rx
756  * Virtual MAC for this DMA channel.
757  * Fields:
758  *     Count of SYN packets received from RVM. This counter
759  *     saturates.
760  *     Count of packets received from RVM. This counter saturates.
761  */
762 typedef union {
763 	uint64_t value;
764 	struct {
765 #if defined(_BIG_ENDIAN)
766 		uint32_t	syn_pkt_count:32;
767 		uint32_t	pkt_count:32;
768 #else
769 		uint32_t	pkt_count:32;
770 		uint32_t	syn_pkt_count:32;
771 #endif
772 	} bits;
773 } rdc_pkt_count_t;
774 
775 
776 /*
777  * Register: RdcDropCount
778  * Rx DMA Dropped Packet Counters
779  * Description: Counts the number of packets dropped due to different
780  * types of errors.
781  * Fields:
782  *     Count of packets dropped because they were longer than the
783  *     maximum length. This counter saturates.
784  *     Count of packets dropped because there was no block available
785  *     in the RBR Prefetch Buffer. This counter saturates.
786  *     Count of packets dropped because the RVM marked the packet as
787  *     errored. This counter saturates.
788  *     Count of packets dropped because there was a framing error
789  *     from the RVM. This counter saturates.
790  *     Count of packets dropped because the packet did not fit in the
791  *     rx ram. This counter saturates.
792  */
793 typedef union {
794 	uint64_t value;
795 	struct {
796 #if defined(_BIG_ENDIAN)
797 		uint32_t	rsrvd:16;
798 		uint32_t	too_long:8;
799 		uint32_t	no_rbr_avail:8;
800 		uint32_t	rvm_error:8;
801 		uint32_t	frame_error:8;
802 		uint32_t	rxram_error:8;
803 		uint32_t	rsrvd1:8;
804 #else
805 		uint32_t	rsrvd1:8;
806 		uint32_t	rxram_error:8;
807 		uint32_t	frame_error:8;
808 		uint32_t	rvm_error:8;
809 		uint32_t	no_rbr_avail:8;
810 		uint32_t	too_long:8;
811 		uint32_t	rsrvd:16;
812 #endif
813 	} bits;
814 } rdc_drop_count_t;
815 
816 
817 /*
818  * Register: RdcByteCount
819  * Rx DMA Byte Counter
820  * Description: Counts the number of bytes transferred by dma for all
821  * channels.
822  * Fields:
823  *     Count of bytes transferred by dma. This counter saturates.
824  */
825 typedef union {
826 	uint64_t value;
827 	struct {
828 #if defined(_BIG_ENDIAN)
829 		uint32_t	rsrvd:32;
830 		uint32_t	count:32;
831 #else
832 		uint32_t	count:32;
833 		uint32_t	rsrvd:32;
834 #endif
835 	} bits;
836 } rdc_byte_count_t;
837 
838 
839 /*
840  * Register: RdcPrefCmd
841  * Rx DMA Prefetch Buffer Command
842  * Description: Allows debug access to the entire prefetch buffer,
843  * along with the rdcPrefData register. Writing the rdcPrefCmd
844  * triggers the access. For writes, software writes the 32 bits of
845  * data to the rdcPrefData register before writing the write command
846  * to this register. For reads, software first writes the the read
847  * command to this register, then reads the 32-bit value from the
848  * rdcPrefData register. The status field should be polled by
849  * software until it goes low, indicating the read or write has
850  * completed.
851  * Fields:
852  *     status of indirect access 0=busy 1=done
853  *     Command type. 1 indicates a read command, 0 a write command.
854  *     enable writing of parity bits 1=enabled, 0=disabled
855  *     DMA channel of entry to read or write
856  *     Entry in the prefetch buffer to read or write
857  */
858 typedef union {
859 	uint64_t value;
860 	struct {
861 #if defined(_BIG_ENDIAN)
862 		uint32_t	rsrvd:32;
863 		uint32_t	status:1;
864 		uint32_t	cmd:1;
865 		uint32_t	par_en:1;
866 		uint32_t	rsrvd1:22;
867 		uint32_t	dmc:2;
868 		uint32_t	entry:5;
869 #else
870 		uint32_t	entry:5;
871 		uint32_t	dmc:2;
872 		uint32_t	rsrvd1:22;
873 		uint32_t	par_en:1;
874 		uint32_t	cmd:1;
875 		uint32_t	status:1;
876 		uint32_t	rsrvd:32;
877 #endif
878 	} bits;
879 } rdc_pref_cmd_t;
880 
881 
882 /*
883  * Register: RdcPrefData
884  * Rx DMA Prefetch Buffer Data
885  * Description: See rdcPrefCmd register.
886  * Fields:
887  *     For writes, parity bits is written into prefetch buffer. For
888  *     reads, parity bits read from the prefetch buffer.
889  *     For writes, data which is written into prefetch buffer. For
890  *     reads, data read from the prefetch buffer.
891  */
892 typedef union {
893 	uint64_t value;
894 	struct {
895 #if defined(_BIG_ENDIAN)
896 		uint32_t	rsrvd:28;
897 		uint32_t	par:4;
898 		uint32_t	data:32;
899 #else
900 		uint32_t	data:32;
901 		uint32_t	par:4;
902 		uint32_t	rsrvd:28;
903 #endif
904 	} bits;
905 } rdc_pref_data_t;
906 
907 
908 /*
909  * Register: RdcShadowCmd
910  * Rx DMA Shadow Tail Command
911  * Description: Allows debug access to the entire shadow tail, along
912  * with the rdcShadowData register. Writing the rdcShadowCmd triggers
913  * the access. For writes, software writes the 64 bits of data to the
914  * rdcShadowData register before writing the write command to this
915  * register. For reads, software first writes the the read command to
916  * this register, then reads the 64-bit value from the rdcShadowData
917  * register. The valid field should be polled by software until it
918  * goes low, indicating the read or write has completed.
919  * Fields:
920  *     status of indirect access 0=busy 1=done
921  *     Command type. 1 indicates a read command, 0 a write command.
922  *     enable writing of parity bits 1=enabled, 0=disabled
923  *     DMA channel of entry to read or write
924  *     Entry in the shadow tail to read or write
925  */
926 typedef union {
927 	uint64_t value;
928 	struct {
929 #if defined(_BIG_ENDIAN)
930 		uint32_t	rsrvd:32;
931 		uint32_t	status:1;
932 		uint32_t	cmd:1;
933 		uint32_t	par_en:1;
934 		uint32_t	rsrvd1:23;
935 		uint32_t	dmc:2;
936 		uint32_t	entry:4;
937 #else
938 		uint32_t	entry:4;
939 		uint32_t	dmc:2;
940 		uint32_t	rsrvd1:23;
941 		uint32_t	par_en:1;
942 		uint32_t	cmd:1;
943 		uint32_t	status:1;
944 		uint32_t	rsrvd:32;
945 #endif
946 	} bits;
947 } rdc_shadow_cmd_t;
948 
949 
950 /*
951  * Register: RdcShadowData
952  * Rx DMA Shadow Tail Data
953  * Description: See rdcShadowCmd register.
954  * Fields:
955  *     For writes, data which is written into shadow tail. For reads,
956  *     data read from the shadow tail.
957  */
958 typedef union {
959 	uint64_t value;
960 	struct {
961 #if defined(_BIG_ENDIAN)
962 		uint32_t	data:32;
963 		uint32_t	data_l:32;
964 #else
965 		uint32_t	data_l:32;
966 		uint32_t	data:32;
967 #endif
968 	} bits;
969 } rdc_shadow_data_t;
970 
971 
972 /*
973  * Register: RdcShadowParData
974  * Rx DMA Shadow Tail Parity Data
975  * Description: See rdcShadowCmd register.
976  * Fields:
977  *     For writes, parity data is written into shadow tail. For
978  *     reads, parity data read from the shadow tail.
979  */
980 typedef union {
981 	uint64_t value;
982 	struct {
983 #if defined(_BIG_ENDIAN)
984 		uint32_t	rsrvd:32;
985 		uint32_t	rsrvd1:24;
986 		uint32_t	parity_data:8;
987 #else
988 		uint32_t	parity_data:8;
989 		uint32_t	rsrvd1:24;
990 		uint32_t	rsrvd:32;
991 #endif
992 	} bits;
993 } rdc_shadow_par_data_t;
994 
995 
996 /*
997  * Register: RdcCtrlFifoCmd
998  * Rx DMA Control Fifo Command
999  * Description: Allows debug access to the entire Rx Ctl FIFO, along
1000  * with the rdcCtrlFifoData register. Writing the rdcCtrlFifoCmd
1001  * triggers the access. For writes, software writes the 128 bits of
1002  * data to the rdcCtrlFifoData registers before writing the write
1003  * command to this register. For reads, software first writes the the
1004  * read command to this register, then reads the 128-bit value from
1005  * the rdcCtrlFifoData registers. The valid field should be polled by
1006  * software until it goes low, indicating the read or write has
1007  * completed.
1008  * Fields:
1009  *     status of indirect access 0=busy 1=done
1010  *     Command type. 1 indicates a read command, 0 a write command.
1011  *     enable writing of ECC bits 1=enabled, 0=disabled
1012  *     Entry in the rx control ram to read or write
1013  */
1014 typedef union {
1015 	uint64_t value;
1016 	struct {
1017 #if defined(_BIG_ENDIAN)
1018 		uint32_t	rsrvd:32;
1019 		uint32_t	status:1;
1020 		uint32_t	cmd:1;
1021 		uint32_t	ecc_en:1;
1022 		uint32_t	rsrvd1:20;
1023 		uint32_t	entry:9;
1024 #else
1025 		uint32_t	entry:9;
1026 		uint32_t	rsrvd1:20;
1027 		uint32_t	ecc_en:1;
1028 		uint32_t	cmd:1;
1029 		uint32_t	status:1;
1030 		uint32_t	rsrvd:32;
1031 #endif
1032 	} bits;
1033 } rdc_ctrl_fifo_cmd_t;
1034 
1035 
1036 /*
1037  * Register: RdcCtrlFifoDataLo
1038  * Rx DMA Control Fifo Data Lo
1039  * Description: Lower 64 bits read or written to the Rx Ctl FIFO. See
1040  * rdcCtrlFifoCmd register.
1041  * Fields:
1042  *     For writes, data which is written into rx control ram. For
1043  *     reads, data read from the rx control ram.
1044  */
1045 typedef union {
1046 	uint64_t value;
1047 	struct {
1048 #if defined(_BIG_ENDIAN)
1049 		uint32_t	data:32;
1050 		uint32_t	data_l:32;
1051 #else
1052 		uint32_t	data_l:32;
1053 		uint32_t	data:32;
1054 #endif
1055 	} bits;
1056 } rdc_ctrl_fifo_data_lo_t;
1057 
1058 
1059 /*
1060  * Register: RdcCtrlFifoDataHi
1061  * Rx DMA Control Fifo Data Hi
1062  * Description: Upper 64 bits read or written to the Rx Ctl FIFO. See
1063  * rdcCtrlFifoCmd register.
1064  * Fields:
1065  *     For writes, data which is written into rx control ram. For
1066  *     reads, data read from the rx control ram.
1067  */
1068 typedef union {
1069 	uint64_t value;
1070 	struct {
1071 #if defined(_BIG_ENDIAN)
1072 		uint32_t	data:32;
1073 		uint32_t	data_l:32;
1074 #else
1075 		uint32_t	data_l:32;
1076 		uint32_t	data:32;
1077 #endif
1078 	} bits;
1079 } rdc_ctrl_fifo_data_hi_t;
1080 
1081 
1082 /*
1083  * Register: RdcCtrlFifoDataEcc
1084  * Rx DMA Control Fifo Data ECC
1085  * Description: 16 bits ECC data read or written to the Rx Ctl FIFO.
1086  * See rdcCtrlFifoCmd register.
1087  * Fields:
1088  *     For writes, data which is written into rx control ram. For
1089  *     reads, data read from the rx control ram.
1090  *     For writes, data which is written into rx control ram. For
1091  *     reads, data read from the rx control ram.
1092  */
1093 typedef union {
1094 	uint64_t value;
1095 	struct {
1096 #if defined(_BIG_ENDIAN)
1097 		uint32_t	rsrvd:32;
1098 		uint32_t	rsrvd1:16;
1099 		uint32_t	ecc_data_hi:8;
1100 		uint32_t	ecc_data_lo:8;
1101 #else
1102 		uint32_t	ecc_data_lo:8;
1103 		uint32_t	ecc_data_hi:8;
1104 		uint32_t	rsrvd1:16;
1105 		uint32_t	rsrvd:32;
1106 #endif
1107 	} bits;
1108 } rdc_ctrl_fifo_data_ecc_t;
1109 
1110 
1111 /*
1112  * Register: RdcDataFifoCmd
1113  * Rx DMA Data Fifo Command
1114  * Description: Allows debug access to the entire Rx Data FIFO, along
1115  * with the rdcDataFifoData register. Writing the rdcCtrlFifoCmd
1116  * triggers the access. For writes, software writes the 128 bits of
1117  * data to the rdcDataFifoData registers before writing the write
1118  * command to this register. For reads, software first writes the the
1119  * read command to this register, then reads the 128-bit value from
1120  * the rdcDataFifoData registers. The valid field should be polled by
1121  * software until it goes low, indicating the read or write has
1122  * completed.
1123  * Fields:
1124  *     status of indirect access 0=busy 1=done
1125  *     Command type. 1 indicates a read command, 0 a write command.
1126  *     enable writing of ECC bits 1=enabled, 0=disabled
1127  *     Entry in the rx data ram to read or write
1128  */
1129 typedef union {
1130 	uint64_t value;
1131 	struct {
1132 #if defined(_BIG_ENDIAN)
1133 		uint32_t	rsrvd:32;
1134 		uint32_t	status:1;
1135 		uint32_t	cmd:1;
1136 		uint32_t	ecc_en:1;
1137 		uint32_t	rsrvd1:18;
1138 		uint32_t	entry:11;
1139 #else
1140 		uint32_t	entry:11;
1141 		uint32_t	rsrvd1:18;
1142 		uint32_t	ecc_en:1;
1143 		uint32_t	cmd:1;
1144 		uint32_t	status:1;
1145 		uint32_t	rsrvd:32;
1146 #endif
1147 	} bits;
1148 } rdc_data_fifo_cmd_t;
1149 
1150 
1151 /*
1152  * Register: RdcDataFifoDataLo
1153  * Rx DMA Data Fifo Data Lo
1154  * Description: Lower 64 bits read or written to the Rx Data FIFO.
1155  * See rdcDataFifoCmd register.
1156  * Fields:
1157  *     For writes, data which is written into rx data ram. For reads,
1158  *     data read from the rx data ram.
1159  */
1160 typedef union {
1161 	uint64_t value;
1162 	struct {
1163 #if defined(_BIG_ENDIAN)
1164 		uint32_t	data:32;
1165 		uint32_t	data_l:32;
1166 #else
1167 		uint32_t	data_l:32;
1168 		uint32_t	data:32;
1169 #endif
1170 	} bits;
1171 } rdc_data_fifo_data_lo_t;
1172 
1173 
1174 /*
1175  * Register: RdcDataFifoDataHi
1176  * Rx DMA Data Fifo Data Hi
1177  * Description: Upper 64 bits read or written to the Rx Data FIFO.
1178  * See rdcDataFifoCmd register.
1179  * Fields:
1180  *     For writes, data which is written into rx data ram. For reads,
1181  *     data read from the rx data ram.
1182  */
1183 typedef union {
1184 	uint64_t value;
1185 	struct {
1186 #if defined(_BIG_ENDIAN)
1187 		uint32_t	data:32;
1188 		uint32_t	data_l:32;
1189 #else
1190 		uint32_t	data_l:32;
1191 		uint32_t	data:32;
1192 #endif
1193 	} bits;
1194 } rdc_data_fifo_data_hi_t;
1195 
1196 
1197 /*
1198  * Register: RdcDataFifoDataEcc
1199  * Rx DMA Data Fifo ECC Data
1200  * Description: 16 bits ECC data read or written to the Rx Data FIFO.
1201  * See rdcDataFifoCmd register.
1202  * Fields:
1203  *     For writes, data which is written into rx data ram. For reads,
1204  *     data read from the rx data ram.
1205  *     For writes, data which is written into rx data ram. For reads,
1206  *     data read from the rx data ram.
1207  */
1208 typedef union {
1209 	uint64_t value;
1210 	struct {
1211 #if defined(_BIG_ENDIAN)
1212 		uint32_t	rsrvd:32;
1213 		uint32_t	rsrvd1:16;
1214 		uint32_t	ecc_data_hi:8;
1215 		uint32_t	ecc_data_lo:8;
1216 #else
1217 		uint32_t	ecc_data_lo:8;
1218 		uint32_t	ecc_data_hi:8;
1219 		uint32_t	rsrvd1:16;
1220 		uint32_t	rsrvd:32;
1221 #endif
1222 	} bits;
1223 } rdc_data_fifo_data_ecc_t;
1224 
1225 
1226 /*
1227  * Register: RdcStatIntDbg
1228  * RDC Debug Control and Status Interrupt
1229  * Description: RDC debug control and status interrupt register.
1230  * Debug RDC control and status register bits to check if interrupt
1231  * is asserted used to detect error conditions.
1232  * Fields:
1233  *     Set to 1 to enable interrupt Part of LDF 1.
1234  *     Set to 1 to enable interrupt Part of LDF 1.
1235  *     Set to 1 to enable interrupt Part of LDF 0.
1236  *     Set to 1 to enable interrupt Part of LDF 0.
1237  *     Set to 1 to enable interrupt Part of LDF 1.
1238  *     Set to 1 to enable interrupt Part of LDF 1.
1239  *     Set to 1 to enable interrupt Part of LDF 1.
1240  *     Set to 1 to enable interrupt
1241  *     Set to 1 to enable interrupt Part of LDF 1.
1242  *     Set to 1 to enable interrupt Part of LDF 1.
1243  *     Set to 1 to enable interrupt Part of LDF 1.
1244  */
1245 typedef union {
1246 	uint64_t value;
1247 	struct {
1248 #if defined(_BIG_ENDIAN)
1249 		uint32_t	rsrvd:10;
1250 		uint32_t	rbr_cpl_to:1;
1251 		uint32_t	peu_resp_err:1;
1252 		uint32_t	rsrvd1:5;
1253 		uint32_t	rcr_thres:1;
1254 		uint32_t	rcr_to:1;
1255 		uint32_t	rcr_shadow_par_err:1;
1256 		uint32_t	rbr_prefetch_par_err:1;
1257 		uint32_t	rsrvd2:2;
1258 		uint32_t	rbr_pre_empty:1;
1259 		uint32_t	rcr_shadow_full:1;
1260 		uint32_t	rsrvd3:2;
1261 		uint32_t	rcr_full:1;
1262 		uint32_t	rbr_empty:1;
1263 		uint32_t	rbr_full:1;
1264 		uint32_t	rsrvd4:2;
1265 		uint32_t	rsrvd5:32;
1266 #else
1267 		uint32_t	rsrvd5:32;
1268 		uint32_t	rsrvd4:2;
1269 		uint32_t	rbr_full:1;
1270 		uint32_t	rbr_empty:1;
1271 		uint32_t	rcr_full:1;
1272 		uint32_t	rsrvd3:2;
1273 		uint32_t	rcr_shadow_full:1;
1274 		uint32_t	rbr_pre_empty:1;
1275 		uint32_t	rsrvd2:2;
1276 		uint32_t	rbr_prefetch_par_err:1;
1277 		uint32_t	rcr_shadow_par_err:1;
1278 		uint32_t	rcr_to:1;
1279 		uint32_t	rcr_thres:1;
1280 		uint32_t	rsrvd1:5;
1281 		uint32_t	peu_resp_err:1;
1282 		uint32_t	rbr_cpl_to:1;
1283 		uint32_t	rsrvd:10;
1284 #endif
1285 	} bits;
1286 } rdc_stat_int_dbg_t;
1287 
1288 
1289 /*
1290  * Register: RdcPrefParLog
1291  * Rx DMA Prefetch Buffer Parity Log
1292  * Description: RDC DMA Prefetch Buffer parity log register This
1293  * register logs the first parity error that is encountered. Writing
1294  * a 1 to RdcStat::rbrPrefetchParErr clears this register
1295  * Fields:
1296  *     Address of parity error
1297  */
1298 typedef union {
1299 	uint64_t value;
1300 	struct {
1301 #if defined(_BIG_ENDIAN)
1302 		uint32_t	rsrvd:32;
1303 		uint32_t	rsrvd_l:25;
1304 		uint32_t	address:7;
1305 #else
1306 		uint32_t	address:7;
1307 		uint32_t	rsrvd_l:25;
1308 		uint32_t	rsrvd:32;
1309 #endif
1310 	} bits;
1311 } rdc_pref_par_log_t;
1312 
1313 
1314 /*
1315  * Register: RdcShadowParLog
1316  * Rx DMA Shadow Tail Parity Log
1317  * Description: RDC DMA Shadow Tail parity log register This register
1318  * logs the first parity error that is encountered. Writing a 1 to
1319  * RdcStat::rcrShadowParErr clears this register
1320  * Fields:
1321  *     Address of parity error
1322  */
1323 typedef union {
1324 	uint64_t value;
1325 	struct {
1326 #if defined(_BIG_ENDIAN)
1327 		uint32_t	rsrvd:32;
1328 		uint32_t	rsrvd1:26;
1329 		uint32_t	address:6;
1330 #else
1331 		uint32_t	address:6;
1332 		uint32_t	rsrvd1:26;
1333 		uint32_t	rsrvd:32;
1334 #endif
1335 	} bits;
1336 } rdc_shadow_par_log_t;
1337 
1338 
1339 /*
1340  * Register: RdcCtrlFifoEccLog
1341  * Rx DMA Control Fifo ECC Log
1342  * Description: RDC DMA Control FIFO ECC log register This register
1343  * logs the first ECC error that is encountered. A double-bit ecc
1344  * error over writes any single-bit ecc error previously logged
1345  * Fields:
1346  *     Address of ECC error for upper 64 bits Writing a 1 to
1347  *     RdcFifoErrStat::rxCtrlFifoDed[1] or
1348  *     RdcFifoErrStat::rxCtrlFifoSec[1] clears this register
1349  *     Address of ECC error for lower 64 bits Writing a 1 to
1350  *     RdcFifoErrStat::rxCtrlFifoDed[0] or
1351  *     RdcFifoErrStat::rxCtrlFifoSec[0] clears this register
1352  *     ECC syndrome for upper 64 bits Writing a 1 to
1353  *     RdcFifoErrStat::rxCtrlFifoDed[1] or
1354  *     RdcFifoErrStat::rxCtrlFifoSec[1] clears this register
1355  *     ECC syndrome for lower 64 bits Writing a 1 to
1356  *     RdcFifoErrStat::rxCtrlFifoDed[0] or
1357  *     RdcFifoErrStat::rxCtrlFifoSec[0] clears this register
1358  */
1359 typedef union {
1360 	uint64_t value;
1361 	struct {
1362 #if defined(_BIG_ENDIAN)
1363 		uint32_t	rsrvd:7;
1364 		uint32_t	address_hi:9;
1365 		uint32_t	rsrvd1:7;
1366 		uint32_t	address_lo:9;
1367 		uint32_t	rsrvd2:8;
1368 		uint32_t	syndrome_hi:8;
1369 		uint32_t	rsrvd3:8;
1370 		uint32_t	syndrome_lo:8;
1371 #else
1372 		uint32_t	syndrome_lo:8;
1373 		uint32_t	rsrvd3:8;
1374 		uint32_t	syndrome_hi:8;
1375 		uint32_t	rsrvd2:8;
1376 		uint32_t	address_lo:9;
1377 		uint32_t	rsrvd1:7;
1378 		uint32_t	address_hi:9;
1379 		uint32_t	rsrvd:7;
1380 #endif
1381 	} bits;
1382 } rdc_ctrl_fifo_ecc_log_t;
1383 
1384 
1385 /*
1386  * Register: RdcDataFifoEccLog
1387  * Rx DMA Data Fifo ECC Log
1388  * Description: RDC DMA data FIFO ECC log register This register logs
1389  * the first ECC error that is encountered. A double-bit ecc error
1390  * over writes any single-bit ecc error previously logged
1391  * Fields:
1392  *     Address of ECC error for upper 64 bits Writing a 1 to
1393  *     RdcFifoErrStat::rxDataFifoDed[1] or
1394  *     RdcFifoErrStat::rxDataFifoSec[1] clears this register
1395  *     Address of ECC error for lower 64 bits Writing a 1 to
1396  *     RdcFifoErrStat::rxDataFifoDed[0] or
1397  *     RdcFifoErrStat::rxDataFifoSec[0] clears this register
1398  *     ECC syndrome for upper 64 bits Writing a 1 to
1399  *     RdcFifoErrStat::rxDataFifoDed[1] or
1400  *     RdcFifoErrStat::rxDataFifoSec[1] clears this register
1401  *     ECC syndrome for lower 64 bits Writing a 1 to
1402  *     RdcFifoErrStat::rxDataFifoDed[0] or
1403  *     RdcFifoErrStat::rxDataFifoSec[0] clears this register
1404  */
1405 typedef union {
1406 	uint64_t value;
1407 	struct {
1408 #if defined(_BIG_ENDIAN)
1409 		uint32_t	rsrvd:5;
1410 		uint32_t	address_hi:11;
1411 		uint32_t	rsrvd1:5;
1412 		uint32_t	address_lo:11;
1413 		uint32_t	rsrvd2:8;
1414 		uint32_t	syndrome_hi:8;
1415 		uint32_t	rsrvd3:8;
1416 		uint32_t	syndrome_lo:8;
1417 #else
1418 		uint32_t	syndrome_lo:8;
1419 		uint32_t	rsrvd3:8;
1420 		uint32_t	syndrome_hi:8;
1421 		uint32_t	rsrvd2:8;
1422 		uint32_t	address_lo:11;
1423 		uint32_t	rsrvd1:5;
1424 		uint32_t	address_hi:11;
1425 		uint32_t	rsrvd:5;
1426 #endif
1427 	} bits;
1428 } rdc_data_fifo_ecc_log_t;
1429 
1430 
1431 /*
1432  * Register: RdcFifoErrIntMask
1433  * FIFO Error Interrupt Mask
1434  * Description: FIFO Error interrupt mask register. Control the
1435  * interrupt assertion of FIFO Errors. see FIFO Error Status register
1436  * for more description
1437  * Fields:
1438  *     Set to 0 to enable flagging when rx ctrl ram logs ecc single
1439  *     bit error Part of Device Error 0.
1440  *     Set to 0 to enable flagging when rx ctrl ram logs ecc double
1441  *     bit error Part of Device Error 1.
1442  *     Set to 0 to enable flagging when rx data ram logs ecc single
1443  *     bit error Part of Device Error 0.
1444  *     Set to 0 to enable flagging when rx data ram logs ecc double
1445  *     bit error Part of Device Error 1.
1446  */
1447 typedef union {
1448 	uint64_t value;
1449 	struct {
1450 #if defined(_BIG_ENDIAN)
1451 		uint32_t	rsrvd:32;
1452 		uint32_t	rsrvd1:24;
1453 		uint32_t	rx_ctrl_fifo_sec:2;
1454 		uint32_t	rx_ctrl_fifo_ded:2;
1455 		uint32_t	rx_data_fifo_sec:2;
1456 		uint32_t	rx_data_fifo_ded:2;
1457 #else
1458 		uint32_t	rx_data_fifo_ded:2;
1459 		uint32_t	rx_data_fifo_sec:2;
1460 		uint32_t	rx_ctrl_fifo_ded:2;
1461 		uint32_t	rx_ctrl_fifo_sec:2;
1462 		uint32_t	rsrvd1:24;
1463 		uint32_t	rsrvd:32;
1464 #endif
1465 	} bits;
1466 } rdc_fifo_err_int_mask_t;
1467 
1468 
1469 /*
1470  * Register: RdcFifoErrStat
1471  * FIFO Error Status
1472  * Description: FIFO Error Status register. Log status of FIFO
1473  * Errors. Rx Data buffer is physically two seperate memory, each of
1474  * the two error bits point to one of the memory. Each entry in the
1475  * rx ctrl point to 2 buffer locations and they are read seperatly.
1476  * The two error bits point to each half of the entry.
1477  * Fields:
1478  *     Set to 1 by HW to indicate rx control ram received a ecc
1479  *     single bit error Writing a 1 to either bit clears the
1480  *     RdcCtrlFifoEccLog register Non-Fatal error. Part of Device
1481  *     Error 0
1482  *     Set to 1 by HW to indicate rx control ram received a ecc
1483  *     double bit error Writing a 1 to either bit clears the
1484  *     RdcCtrlFifoEccLog register Fatal error. Part of Device Error 1
1485  *     Set to 1 by HW to indicate rx data ram received a ecc single
1486  *     bit error Writing a 1 to either bit clears the
1487  *     RdcDataFifoEccLog register Non-Fatal error. Part of Device
1488  *     Error 0
1489  *     Set to 1 by HW to indicate rx data ram received a ecc double
1490  *     bit error Writing a 1 to either bit clears the
1491  *     RdcDataFifoEccLog register Fatal error. Part of Device Error 1
1492  */
1493 typedef union {
1494 	uint64_t value;
1495 	struct {
1496 #if defined(_BIG_ENDIAN)
1497 		uint32_t	rsrvd:32;
1498 		uint32_t	rsrvd_l:24;
1499 		uint32_t	rx_ctrl_fifo_sec:2;
1500 		uint32_t	rx_ctrl_fifo_ded:2;
1501 		uint32_t	rx_data_fifo_sec:2;
1502 		uint32_t	rx_data_fifo_ded:2;
1503 #else
1504 		uint32_t	rx_data_fifo_ded:2;
1505 		uint32_t	rx_data_fifo_sec:2;
1506 		uint32_t	rx_ctrl_fifo_ded:2;
1507 		uint32_t	rx_ctrl_fifo_sec:2;
1508 		uint32_t	rsrvd_l:24;
1509 		uint32_t	rsrvd:32;
1510 #endif
1511 	} bits;
1512 } rdc_fifo_err_stat_t;
1513 
1514 
1515 /*
1516  * Register: RdcFifoErrIntDbg
1517  * FIFO Error Interrupt Debug
1518  * Description: FIFO Error interrupt Debug register. Debug Control
1519  * the interrupt assertion of FIFO Errors.
1520  * Fields:
1521  *     Set to 1 to enable interrupt Part of Device Error 0.
1522  *     Set to 1 to enable interrupt Part of Device Error 1.
1523  *     Set to 1 to enable interrupt Part of Device Error 0.
1524  *     Set to 1 to enable interrupt Part of Device Error 1.
1525  */
1526 typedef union {
1527 	uint64_t value;
1528 	struct {
1529 #if defined(_BIG_ENDIAN)
1530 		uint32_t	rsrvd:32;
1531 		uint32_t	rsrvd1:24;
1532 		uint32_t	rx_ctrl_fifo_sec:2;
1533 		uint32_t	rx_ctrl_fifo_ded:2;
1534 		uint32_t	rx_data_fifo_sec:2;
1535 		uint32_t	rx_data_fifo_ded:2;
1536 #else
1537 		uint32_t	rx_data_fifo_ded:2;
1538 		uint32_t	rx_data_fifo_sec:2;
1539 		uint32_t	rx_ctrl_fifo_ded:2;
1540 		uint32_t	rx_ctrl_fifo_sec:2;
1541 		uint32_t	rsrvd1:24;
1542 		uint32_t	rsrvd:32;
1543 #endif
1544 	} bits;
1545 } rdc_fifo_err_int_dbg_t;
1546 
1547 
1548 /*
1549  * Register: RdcPeuTxnLog
1550  * PEU Transaction Log
1551  * Description: PEU Transaction Log register. Counts the memory read
1552  * and write requests sent to peu block. For debug only.
1553  * Fields:
1554  *     Counts the memory write transactions sent to peu block. This
1555  *     counter saturates. This counter increments when vnmDbg is on
1556  *     Counts the memory read transactions sent to peu block. This
1557  *     counter saturates. This counter increments when vnmDbg is on
1558  */
1559 typedef union {
1560 	uint64_t value;
1561 	struct {
1562 #if defined(_BIG_ENDIAN)
1563 		uint32_t	rsrvd:32;
1564 		uint32_t	rsrvd1:16;
1565 		uint32_t	peu_mem_wr_count:8;
1566 		uint32_t	peu_mem_rd_count:8;
1567 #else
1568 		uint32_t	peu_mem_rd_count:8;
1569 		uint32_t	peu_mem_wr_count:8;
1570 		uint32_t	rsrvd1:16;
1571 		uint32_t	rsrvd:32;
1572 #endif
1573 	} bits;
1574 } rdc_peu_txn_log_t;
1575 
1576 
1577 /*
1578  * Register: RdcDbgTrainingVec
1579  * Debug Training Vector
1580  * Description: Debug Training Vector register Debug Training Vector
1581  * for the coreClk domain. For the pcieClk domain, the dbgxMsb and
1582  * dbgyMsb values are flipped on the debug bus.
1583  * Fields:
1584  *     Blade Number, the value read depends on the blade this block
1585  *     resides
1586  *     debug training vector the sub-group select value of 0 selects
1587  *     this vector
1588  *     Blade Number, the value read depends on the blade this block
1589  *     resides
1590  *     debug training vector the sub-group select value of 0 selects
1591  *     this vector
1592  */
1593 typedef union {
1594 	uint64_t value;
1595 	struct {
1596 #if defined(_BIG_ENDIAN)
1597 		uint32_t	rsrvd:32;
1598 		uint32_t	dbgx_msb:1;
1599 		uint32_t	dbgx_bld_num:3;
1600 		uint32_t	dbgx_training_vec:12;
1601 		uint32_t	dbgy_msb:1;
1602 		uint32_t	dbgy_bld_num:3;
1603 		uint32_t	dbgy_training_vec:12;
1604 #else
1605 		uint32_t	dbgy_training_vec:12;
1606 		uint32_t	dbgy_bld_num:3;
1607 		uint32_t	dbgy_msb:1;
1608 		uint32_t	dbgx_training_vec:12;
1609 		uint32_t	dbgx_bld_num:3;
1610 		uint32_t	dbgx_msb:1;
1611 		uint32_t	rsrvd:32;
1612 #endif
1613 	} bits;
1614 } rdc_dbg_training_vec_t;
1615 
1616 
1617 /*
1618  * Register: RdcDbgGrpSel
1619  * Debug Group Select
1620  * Description: Debug Group Select register. Debug Group Select
1621  * register selects the group of signals brought out on the debug
1622  * port
1623  * Fields:
1624  *     high 32b sub-group select
1625  *     low 32b sub-group select
1626  */
1627 typedef union {
1628 	uint64_t value;
1629 	struct {
1630 #if defined(_BIG_ENDIAN)
1631 		uint32_t	rsrvd:32;
1632 		uint32_t	rsrvd_l:16;
1633 		uint32_t	dbg_h32_sub_sel:8;
1634 		uint32_t	dbg_l32_sub_sel:8;
1635 #else
1636 		uint32_t	dbg_l32_sub_sel:8;
1637 		uint32_t	dbg_h32_sub_sel:8;
1638 		uint32_t	rsrvd_l:16;
1639 		uint32_t	rsrvd:32;
1640 #endif
1641 	} bits;
1642 } rdc_dbg_grp_sel_t;
1643 
1644 
1645 #ifdef	__cplusplus
1646 }
1647 #endif
1648 
1649 #endif	/* _HXGE_RDC_HW_H */
1650