xref: /linux/drivers/crypto/cavium/cpt/cpt_hw_types.h (revision 450df3ec)
1 /* SPDX-License-Identifier: GPL-2.0-only */
2 /*
3  * Copyright (C) 2016 Cavium, Inc.
4  */
5 
6 #ifndef __CPT_HW_TYPES_H
7 #define __CPT_HW_TYPES_H
8 
9 #include "cpt_common.h"
10 
11 /**
12  * Enumeration cpt_comp_e
13  *
14  * CPT Completion Enumeration
15  * Enumerates the values of CPT_RES_S[COMPCODE].
16  */
17 enum cpt_comp_e {
18 	CPT_COMP_E_NOTDONE = 0x00,
19 	CPT_COMP_E_GOOD = 0x01,
20 	CPT_COMP_E_FAULT = 0x02,
21 	CPT_COMP_E_SWERR = 0x03,
22 	CPT_COMP_E_LAST_ENTRY = 0xFF
23 };
24 
25 /**
26  * Structure cpt_inst_s
27  *
28  * CPT Instruction Structure
29  * This structure specifies the instruction layout. Instructions are
30  * stored in memory as little-endian unless CPT()_PF_Q()_CTL[INST_BE] is set.
31  * cpt_inst_s_s
32  * Word 0
33  * doneint:1 Done interrupt.
34  *	0 = No interrupts related to this instruction.
35  *	1 = When the instruction completes, CPT()_VQ()_DONE[DONE] will be
36  *	incremented,and based on the rules described there an interrupt may
37  *	occur.
38  * Word 1
39  * res_addr [127: 64] Result IOVA.
40  *	If nonzero, specifies where to write CPT_RES_S.
41  *	If zero, no result structure will be written.
42  *	Address must be 16-byte aligned.
43  *	Bits <63:49> are ignored by hardware; software should use a
44  *	sign-extended bit <48> for forward compatibility.
45  * Word 2
46  *  grp:10 [171:162] If [WQ_PTR] is nonzero, the SSO guest-group to use when
47  *	CPT submits work SSO.
48  *	For the SSO to not discard the add-work request, FPA_PF_MAP() must map
49  *	[GRP] and CPT()_PF_Q()_GMCTL[GMID] as valid.
50  *  tt:2 [161:160] If [WQ_PTR] is nonzero, the SSO tag type to use when CPT
51  *	submits work to SSO
52  *  tag:32 [159:128] If [WQ_PTR] is nonzero, the SSO tag to use when CPT
53  *	submits work to SSO.
54  * Word 3
55  *  wq_ptr [255:192] If [WQ_PTR] is nonzero, it is a pointer to a
56  *	work-queue entry that CPT submits work to SSO after all context,
57  *	output data, and result write operations are visible to other
58  *	CNXXXX units and the cores. Bits <2:0> must be zero.
59  *	Bits <63:49> are ignored by hardware; software should
60  *	use a sign-extended bit <48> for forward compatibility.
61  *	Internal:
62  *	Bits <63:49>, <2:0> are ignored by hardware, treated as always 0x0.
63  * Word 4
64  *  ei0; [319:256] Engine instruction word 0. Passed to the AE/SE.
65  * Word 5
66  *  ei1; [383:320] Engine instruction word 1. Passed to the AE/SE.
67  * Word 6
68  *  ei2; [447:384] Engine instruction word 1. Passed to the AE/SE.
69  * Word 7
70  *  ei3; [511:448] Engine instruction word 1. Passed to the AE/SE.
71  *
72  */
73 union cpt_inst_s {
74 	u64 u[8];
75 	struct cpt_inst_s_s {
76 #if defined(__BIG_ENDIAN_BITFIELD) /* Word 0 - Big Endian */
77 		u64 reserved_17_63:47;
78 		u64 doneint:1;
79 		u64 reserved_0_1:16;
80 #else /* Word 0 - Little Endian */
81 		u64 reserved_0_15:16;
82 		u64 doneint:1;
83 		u64 reserved_17_63:47;
84 #endif /* Word 0 - End */
85 		u64 res_addr;
86 #if defined(__BIG_ENDIAN_BITFIELD) /* Word 2 - Big Endian */
87 		u64 reserved_172_19:20;
88 		u64 grp:10;
89 		u64 tt:2;
90 		u64 tag:32;
91 #else /* Word 2 - Little Endian */
92 		u64 tag:32;
93 		u64 tt:2;
94 		u64 grp:10;
95 		u64 reserved_172_191:20;
96 #endif /* Word 2 - End */
97 		u64 wq_ptr;
98 		u64 ei0;
99 		u64 ei1;
100 		u64 ei2;
101 		u64 ei3;
102 	} s;
103 };
104 
105 /**
106  * Structure cpt_res_s
107  *
108  * CPT Result Structure
109  * The CPT coprocessor writes the result structure after it completes a
110  * CPT_INST_S instruction. The result structure is exactly 16 bytes, and
111  * each instruction completion produces exactly one result structure.
112  *
113  * This structure is stored in memory as little-endian unless
114  * CPT()_PF_Q()_CTL[INST_BE] is set.
115  * cpt_res_s_s
116  * Word 0
117  *  doneint:1 [16:16] Done interrupt. This bit is copied from the
118  *	corresponding instruction's CPT_INST_S[DONEINT].
119  *  compcode:8 [7:0] Indicates completion/error status of the CPT coprocessor
120  *	for the	associated instruction, as enumerated by CPT_COMP_E.
121  *	Core software may write the memory location containing [COMPCODE] to
122  *	0x0 before ringing the doorbell, and then poll for completion by
123  *	checking for a nonzero value.
124  *	Once the core observes a nonzero [COMPCODE] value in this case,the CPT
125  *	coprocessor will have also completed L2/DRAM write operations.
126  * Word 1
127  *  reserved
128  *
129  */
130 union cpt_res_s {
131 	u64 u[2];
132 	struct cpt_res_s_s {
133 #if defined(__BIG_ENDIAN_BITFIELD) /* Word 0 - Big Endian */
134 		u64 reserved_17_63:47;
135 		u64 doneint:1;
136 		u64 reserved_8_15:8;
137 		u64 compcode:8;
138 #else /* Word 0 - Little Endian */
139 		u64 compcode:8;
140 		u64 reserved_8_15:8;
141 		u64 doneint:1;
142 		u64 reserved_17_63:47;
143 #endif /* Word 0 - End */
144 		u64 reserved_64_127;
145 	} s;
146 };
147 
148 /**
149  * Register (NCB) cpt#_pf_bist_status
150  *
151  * CPT PF Control Bist Status Register
152  * This register has the BIST status of memories. Each bit is the BIST result
153  * of an individual memory (per bit, 0 = pass and 1 = fail).
154  * cptx_pf_bist_status_s
155  * Word0
156  *  bstatus [29:0](RO/H) BIST status. One bit per memory, enumerated by
157  *	CPT_RAMS_E.
158  */
159 union cptx_pf_bist_status {
160 	u64 u;
161 	struct cptx_pf_bist_status_s {
162 #if defined(__BIG_ENDIAN_BITFIELD) /* Word 0 - Big Endian */
163 		u64 reserved_30_63:34;
164 		u64 bstatus:30;
165 #else /* Word 0 - Little Endian */
166 		u64 bstatus:30;
167 		u64 reserved_30_63:34;
168 #endif /* Word 0 - End */
169 	} s;
170 };
171 
172 /**
173  * Register (NCB) cpt#_pf_constants
174  *
175  * CPT PF Constants Register
176  * This register contains implementation-related parameters of CPT in CNXXXX.
177  * cptx_pf_constants_s
178  * Word 0
179  *  reserved_40_63:24 [63:40] Reserved.
180  *  epcis:8 [39:32](RO) Number of EPCI busses.
181  *  grps:8 [31:24](RO) Number of engine groups implemented.
182  *  ae:8 [23:16](RO/H) Number of AEs. In CNXXXX, for CPT0 returns 0x0,
183  *	for CPT1 returns 0x18, or less if there are fuse-disables.
184  *  se:8 [15:8](RO/H) Number of SEs. In CNXXXX, for CPT0 returns 0x30,
185  *	or less if there are fuse-disables, for CPT1 returns 0x0.
186  *  vq:8 [7:0](RO) Number of VQs.
187  */
188 union cptx_pf_constants {
189 	u64 u;
190 	struct cptx_pf_constants_s {
191 #if defined(__BIG_ENDIAN_BITFIELD) /* Word 0 - Big Endian */
192 		u64 reserved_40_63:24;
193 		u64 epcis:8;
194 		u64 grps:8;
195 		u64 ae:8;
196 		u64 se:8;
197 		u64 vq:8;
198 #else /* Word 0 - Little Endian */
199 		u64 vq:8;
200 		u64 se:8;
201 		u64 ae:8;
202 		u64 grps:8;
203 		u64 epcis:8;
204 		u64 reserved_40_63:24;
205 #endif /* Word 0 - End */
206 	} s;
207 };
208 
209 /**
210  * Register (NCB) cpt#_pf_exe_bist_status
211  *
212  * CPT PF Engine Bist Status Register
213  * This register has the BIST status of each engine.  Each bit is the
214  * BIST result of an individual engine (per bit, 0 = pass and 1 = fail).
215  * cptx_pf_exe_bist_status_s
216  * Word0
217  *  reserved_48_63:16 [63:48] reserved
218  *  bstatus:48 [47:0](RO/H) BIST status. One bit per engine.
219  *
220  */
221 union cptx_pf_exe_bist_status {
222 	u64 u;
223 	struct cptx_pf_exe_bist_status_s {
224 #if defined(__BIG_ENDIAN_BITFIELD) /* Word 0 - Big Endian */
225 		u64 reserved_48_63:16;
226 		u64 bstatus:48;
227 #else /* Word 0 - Little Endian */
228 		u64 bstatus:48;
229 		u64 reserved_48_63:16;
230 #endif /* Word 0 - End */
231 	} s;
232 };
233 
234 /**
235  * Register (NCB) cpt#_pf_q#_ctl
236  *
237  * CPT Queue Control Register
238  * This register configures queues. This register should be changed only
239  * when quiescent (see CPT()_VQ()_INPROG[INFLIGHT]).
240  * cptx_pf_qx_ctl_s
241  * Word0
242  *  reserved_60_63:4 [63:60] reserved.
243  *  aura:12; [59:48](R/W) Guest-aura for returning this queue's
244  *	instruction-chunk buffers to FPA. Only used when [INST_FREE] is set.
245  *	For the FPA to not discard the request, FPA_PF_MAP() must map
246  *	[AURA] and CPT()_PF_Q()_GMCTL[GMID] as valid.
247  *  reserved_45_47:3 [47:45] reserved.
248  *  size:13 [44:32](R/W) Command-buffer size, in number of 64-bit words per
249  *	command buffer segment. Must be 8*n + 1, where n is the number of
250  *	instructions per buffer segment.
251  *  reserved_11_31:21 [31:11] Reserved.
252  *  cont_err:1 [10:10](R/W) Continue on error.
253  *	0 = When CPT()_VQ()_MISC_INT[NWRP], CPT()_VQ()_MISC_INT[IRDE] or
254  *	CPT()_VQ()_MISC_INT[DOVF] are set by hardware or software via
255  *	CPT()_VQ()_MISC_INT_W1S, then CPT()_VQ()_CTL[ENA] is cleared.  Due to
256  *	pipelining, additional instructions may have been processed between the
257  *	instruction causing the error and the next instruction in the disabled
258  *	queue (the instruction at CPT()_VQ()_SADDR).
259  *	1 = Ignore errors and continue processing instructions.
260  *	For diagnostic use only.
261  *  inst_free:1 [9:9](R/W) Instruction FPA free. When set, when CPT reaches the
262  *	end of an instruction chunk, that chunk will be freed to the FPA.
263  *  inst_be:1 [8:8](R/W) Instruction big-endian control. When set, instructions,
264  *	instruction next chunk pointers, and result structures are stored in
265  *	big-endian format in memory.
266  *  iqb_ldwb:1 [7:7](R/W) Instruction load don't write back.
267  *	0 = The hardware issues NCB transient load (LDT) towards the cache,
268  *	which if the line hits and it is dirty will cause the line to be
269  *	written back before being replaced.
270  *	1 = The hardware issues NCB LDWB read-and-invalidate command towards
271  *	the cache when fetching the last word of instructions; as a result the
272  *	line will not be written back when replaced.  This improves
273  *	performance, but software must not read the instructions after they are
274  *	posted to the hardware.	Reads that do not consume the last word of a
275  *	cache line always use LDI.
276  *  reserved_4_6:3 [6:4] Reserved.
277  *  grp:3; [3:1](R/W) Engine group.
278  *  pri:1; [0:0](R/W) Queue priority.
279  *	1 = This queue has higher priority. Round-robin between higher
280  *	priority queues.
281  *	0 = This queue has lower priority. Round-robin between lower
282  *	priority queues.
283  */
284 union cptx_pf_qx_ctl {
285 	u64 u;
286 	struct cptx_pf_qx_ctl_s {
287 #if defined(__BIG_ENDIAN_BITFIELD) /* Word 0 - Big Endian */
288 		u64 reserved_60_63:4;
289 		u64 aura:12;
290 		u64 reserved_45_47:3;
291 		u64 size:13;
292 		u64 reserved_11_31:21;
293 		u64 cont_err:1;
294 		u64 inst_free:1;
295 		u64 inst_be:1;
296 		u64 iqb_ldwb:1;
297 		u64 reserved_4_6:3;
298 		u64 grp:3;
299 		u64 pri:1;
300 #else /* Word 0 - Little Endian */
301 		u64 pri:1;
302 		u64 grp:3;
303 		u64 reserved_4_6:3;
304 		u64 iqb_ldwb:1;
305 		u64 inst_be:1;
306 		u64 inst_free:1;
307 		u64 cont_err:1;
308 		u64 reserved_11_31:21;
309 		u64 size:13;
310 		u64 reserved_45_47:3;
311 		u64 aura:12;
312 		u64 reserved_60_63:4;
313 #endif /* Word 0 - End */
314 	} s;
315 };
316 
317 /**
318  * Register (NCB) cpt#_vq#_saddr
319  *
320  * CPT Queue Starting Buffer Address Registers
321  * These registers set the instruction buffer starting address.
322  * cptx_vqx_saddr_s
323  * Word0
324  *  reserved_49_63:15 [63:49] Reserved.
325  *  ptr:43 [48:6](R/W/H) Instruction buffer IOVA <48:6> (64-byte aligned).
326  *	When written, it is the initial buffer starting address; when read,
327  *	it is the next read pointer to be requested from L2C. The PTR field
328  *	is overwritten with the next pointer each time that the command buffer
329  *	segment is exhausted. New commands will then be read from the newly
330  *	specified command buffer pointer.
331  *  reserved_0_5:6 [5:0] Reserved.
332  *
333  */
334 union cptx_vqx_saddr {
335 	u64 u;
336 	struct cptx_vqx_saddr_s {
337 #if defined(__BIG_ENDIAN_BITFIELD) /* Word 0 - Big Endian */
338 		u64 reserved_49_63:15;
339 		u64 ptr:43;
340 		u64 reserved_0_5:6;
341 #else /* Word 0 - Little Endian */
342 		u64 reserved_0_5:6;
343 		u64 ptr:43;
344 		u64 reserved_49_63:15;
345 #endif /* Word 0 - End */
346 	} s;
347 };
348 
349 /**
350  * Register (NCB) cpt#_vq#_misc_ena_w1s
351  *
352  * CPT Queue Misc Interrupt Enable Set Register
353  * This register sets interrupt enable bits.
354  * cptx_vqx_misc_ena_w1s_s
355  * Word0
356  * reserved_5_63:59 [63:5] Reserved.
357  * swerr:1 [4:4](R/W1S/H) Reads or sets enable for
358  *	CPT(0..1)_VQ(0..63)_MISC_INT[SWERR].
359  * nwrp:1 [3:3](R/W1S/H) Reads or sets enable for
360  *	CPT(0..1)_VQ(0..63)_MISC_INT[NWRP].
361  * irde:1 [2:2](R/W1S/H) Reads or sets enable for
362  *	CPT(0..1)_VQ(0..63)_MISC_INT[IRDE].
363  * dovf:1 [1:1](R/W1S/H) Reads or sets enable for
364  *	CPT(0..1)_VQ(0..63)_MISC_INT[DOVF].
365  * mbox:1 [0:0](R/W1S/H) Reads or sets enable for
366  *	CPT(0..1)_VQ(0..63)_MISC_INT[MBOX].
367  *
368  */
369 union cptx_vqx_misc_ena_w1s {
370 	u64 u;
371 	struct cptx_vqx_misc_ena_w1s_s {
372 #if defined(__BIG_ENDIAN_BITFIELD) /* Word 0 - Big Endian */
373 		u64 reserved_5_63:59;
374 		u64 swerr:1;
375 		u64 nwrp:1;
376 		u64 irde:1;
377 		u64 dovf:1;
378 		u64 mbox:1;
379 #else /* Word 0 - Little Endian */
380 		u64 mbox:1;
381 		u64 dovf:1;
382 		u64 irde:1;
383 		u64 nwrp:1;
384 		u64 swerr:1;
385 		u64 reserved_5_63:59;
386 #endif /* Word 0 - End */
387 	} s;
388 };
389 
390 /**
391  * Register (NCB) cpt#_vq#_doorbell
392  *
393  * CPT Queue Doorbell Registers
394  * Doorbells for the CPT instruction queues.
395  * cptx_vqx_doorbell_s
396  * Word0
397  *  reserved_20_63:44 [63:20] Reserved.
398  *  dbell_cnt:20 [19:0](R/W/H) Number of instruction queue 64-bit words to add
399  *	to the CPT instruction doorbell count. Readback value is the
400  *	current number of pending doorbell requests. If counter overflows
401  *	CPT()_VQ()_MISC_INT[DBELL_DOVF] is set. To reset the count back to
402  *	zero, write one to clear CPT()_VQ()_MISC_INT_ENA_W1C[DBELL_DOVF],
403  *	then write a value of 2^20 minus the read [DBELL_CNT], then write one
404  *	to CPT()_VQ()_MISC_INT_W1C[DBELL_DOVF] and
405  *	CPT()_VQ()_MISC_INT_ENA_W1S[DBELL_DOVF]. Must be a multiple of 8.
406  *	All CPT instructions are 8 words and require a doorbell count of
407  *	multiple of 8.
408  */
409 union cptx_vqx_doorbell {
410 	u64 u;
411 	struct cptx_vqx_doorbell_s {
412 #if defined(__BIG_ENDIAN_BITFIELD) /* Word 0 - Big Endian */
413 		u64 reserved_20_63:44;
414 		u64 dbell_cnt:20;
415 #else /* Word 0 - Little Endian */
416 		u64 dbell_cnt:20;
417 		u64 reserved_20_63:44;
418 #endif /* Word 0 - End */
419 	} s;
420 };
421 
422 /**
423  * Register (NCB) cpt#_vq#_inprog
424  *
425  * CPT Queue In Progress Count Registers
426  * These registers contain the per-queue instruction in flight registers.
427  * cptx_vqx_inprog_s
428  * Word0
429  *  reserved_8_63:56 [63:8] Reserved.
430  *  inflight:8 [7:0](RO/H) Inflight count. Counts the number of instructions
431  *	for the VF for which CPT is fetching, executing or responding to
432  *	instructions. However this does not include any interrupts that are
433  *	awaiting software handling (CPT()_VQ()_DONE[DONE] != 0x0).
434  *	A queue may not be reconfigured until:
435  *	1. CPT()_VQ()_CTL[ENA] is cleared by software.
436  *	2. [INFLIGHT] is polled until equals to zero.
437  */
438 union cptx_vqx_inprog {
439 	u64 u;
440 	struct cptx_vqx_inprog_s {
441 #if defined(__BIG_ENDIAN_BITFIELD) /* Word 0 - Big Endian */
442 		u64 reserved_8_63:56;
443 		u64 inflight:8;
444 #else /* Word 0 - Little Endian */
445 		u64 inflight:8;
446 		u64 reserved_8_63:56;
447 #endif /* Word 0 - End */
448 	} s;
449 };
450 
451 /**
452  * Register (NCB) cpt#_vq#_misc_int
453  *
454  * CPT Queue Misc Interrupt Register
455  * These registers contain the per-queue miscellaneous interrupts.
456  * cptx_vqx_misc_int_s
457  * Word 0
458  *  reserved_5_63:59 [63:5] Reserved.
459  *  swerr:1 [4:4](R/W1C/H) Software error from engines.
460  *  nwrp:1  [3:3](R/W1C/H) NCB result write response error.
461  *  irde:1  [2:2](R/W1C/H) Instruction NCB read response error.
462  *  dovf:1 [1:1](R/W1C/H) Doorbell overflow.
463  *  mbox:1 [0:0](R/W1C/H) PF to VF mailbox interrupt. Set when
464  *	CPT()_VF()_PF_MBOX(0) is written.
465  *
466  */
467 union cptx_vqx_misc_int {
468 	u64 u;
469 	struct cptx_vqx_misc_int_s {
470 #if defined(__BIG_ENDIAN_BITFIELD) /* Word 0 - Big Endian */
471 		u64 reserved_5_63:59;
472 		u64 swerr:1;
473 		u64 nwrp:1;
474 		u64 irde:1;
475 		u64 dovf:1;
476 		u64 mbox:1;
477 #else /* Word 0 - Little Endian */
478 		u64 mbox:1;
479 		u64 dovf:1;
480 		u64 irde:1;
481 		u64 nwrp:1;
482 		u64 swerr:1;
483 		u64 reserved_5_63:59;
484 #endif /* Word 0 - End */
485 	} s;
486 };
487 
488 /**
489  * Register (NCB) cpt#_vq#_done_ack
490  *
491  * CPT Queue Done Count Ack Registers
492  * This register is written by software to acknowledge interrupts.
493  * cptx_vqx_done_ack_s
494  * Word0
495  *  reserved_20_63:44 [63:20] Reserved.
496  *  done_ack:20 [19:0](R/W/H) Number of decrements to CPT()_VQ()_DONE[DONE].
497  *	Reads CPT()_VQ()_DONE[DONE]. Written by software to acknowledge
498  *	interrupts. If CPT()_VQ()_DONE[DONE] is still nonzero the interrupt
499  *	will be re-sent if the conditions described in CPT()_VQ()_DONE[DONE]
500  *	are satisfied.
501  *
502  */
503 union cptx_vqx_done_ack {
504 	u64 u;
505 	struct cptx_vqx_done_ack_s {
506 #if defined(__BIG_ENDIAN_BITFIELD) /* Word 0 - Big Endian */
507 		u64 reserved_20_63:44;
508 		u64 done_ack:20;
509 #else /* Word 0 - Little Endian */
510 		u64 done_ack:20;
511 		u64 reserved_20_63:44;
512 #endif /* Word 0 - End */
513 	} s;
514 };
515 
516 /**
517  * Register (NCB) cpt#_vq#_done
518  *
519  * CPT Queue Done Count Registers
520  * These registers contain the per-queue instruction done count.
521  * cptx_vqx_done_s
522  * Word0
523  *  reserved_20_63:44 [63:20] Reserved.
524  *  done:20 [19:0](R/W/H) Done count. When CPT_INST_S[DONEINT] set and that
525  *	instruction completes, CPT()_VQ()_DONE[DONE] is incremented when the
526  *	instruction finishes. Write to this field are for diagnostic use only;
527  *	instead software writes CPT()_VQ()_DONE_ACK with the number of
528  *	decrements for this field.
529  *	Interrupts are sent as follows:
530  *	* When CPT()_VQ()_DONE[DONE] = 0, then no results are pending, the
531  *	interrupt coalescing timer is held to zero, and an interrupt is not
532  *	sent.
533  *	* When CPT()_VQ()_DONE[DONE] != 0, then the interrupt coalescing timer
534  *	counts. If the counter is >= CPT()_VQ()_DONE_WAIT[TIME_WAIT]*1024, or
535  *	CPT()_VQ()_DONE[DONE] >= CPT()_VQ()_DONE_WAIT[NUM_WAIT], i.e. enough
536  *	time has passed or enough results have arrived, then the interrupt is
537  *	sent.
538  *	* When CPT()_VQ()_DONE_ACK is written (or CPT()_VQ()_DONE is written
539  *	but this is not typical), the interrupt coalescing timer restarts.
540  *	Note after decrementing this interrupt equation is recomputed,
541  *	for example if CPT()_VQ()_DONE[DONE] >= CPT()_VQ()_DONE_WAIT[NUM_WAIT]
542  *	and because the timer is zero, the interrupt will be resent immediately.
543  *	(This covers the race case between software acknowledging an interrupt
544  *	and a result returning.)
545  *	* When CPT()_VQ()_DONE_ENA_W1S[DONE] = 0, interrupts are not sent,
546  *	but the counting described above still occurs.
547  *	Since CPT instructions complete out-of-order, if software is using
548  *	completion interrupts the suggested scheme is to request a DONEINT on
549  *	each request, and when an interrupt arrives perform a "greedy" scan for
550  *	completions; even if a later command is acknowledged first this will
551  *	not result in missing a completion.
552  *	Software is responsible for making sure [DONE] does not overflow;
553  *	for example by insuring there are not more than 2^20-1 instructions in
554  *	flight that may request interrupts.
555  *
556  */
557 union cptx_vqx_done {
558 	u64 u;
559 	struct cptx_vqx_done_s {
560 #if defined(__BIG_ENDIAN_BITFIELD) /* Word 0 - Big Endian */
561 		u64 reserved_20_63:44;
562 		u64 done:20;
563 #else /* Word 0 - Little Endian */
564 		u64 done:20;
565 		u64 reserved_20_63:44;
566 #endif /* Word 0 - End */
567 	} s;
568 };
569 
570 /**
571  * Register (NCB) cpt#_vq#_done_wait
572  *
573  * CPT Queue Done Interrupt Coalescing Wait Registers
574  * Specifies the per queue interrupt coalescing settings.
575  * cptx_vqx_done_wait_s
576  * Word0
577  *  reserved_48_63:16 [63:48] Reserved.
578  *  time_wait:16; [47:32](R/W) Time hold-off. When CPT()_VQ()_DONE[DONE] = 0
579  *	or CPT()_VQ()_DONE_ACK is written a timer is cleared. When the timer
580  *	reaches [TIME_WAIT]*1024 then interrupt coalescing ends.
581  *	see CPT()_VQ()_DONE[DONE]. If 0x0, time coalescing is disabled.
582  *  reserved_20_31:12 [31:20] Reserved.
583  *  num_wait:20 [19:0](R/W) Number of messages hold-off.
584  *	When CPT()_VQ()_DONE[DONE] >= [NUM_WAIT] then interrupt coalescing ends
585  *	see CPT()_VQ()_DONE[DONE]. If 0x0, same behavior as 0x1.
586  *
587  */
588 union cptx_vqx_done_wait {
589 	u64 u;
590 	struct cptx_vqx_done_wait_s {
591 #if defined(__BIG_ENDIAN_BITFIELD) /* Word 0 - Big Endian */
592 		u64 reserved_48_63:16;
593 		u64 time_wait:16;
594 		u64 reserved_20_31:12;
595 		u64 num_wait:20;
596 #else /* Word 0 - Little Endian */
597 		u64 num_wait:20;
598 		u64 reserved_20_31:12;
599 		u64 time_wait:16;
600 		u64 reserved_48_63:16;
601 #endif /* Word 0 - End */
602 	} s;
603 };
604 
605 /**
606  * Register (NCB) cpt#_vq#_done_ena_w1s
607  *
608  * CPT Queue Done Interrupt Enable Set Registers
609  * Write 1 to these registers will enable the DONEINT interrupt for the queue.
610  * cptx_vqx_done_ena_w1s_s
611  * Word0
612  *  reserved_1_63:63 [63:1] Reserved.
613  *  done:1 [0:0](R/W1S/H) Write 1 will enable DONEINT for this queue.
614  *	Write 0 has no effect. Read will return the enable bit.
615  */
616 union cptx_vqx_done_ena_w1s {
617 	u64 u;
618 	struct cptx_vqx_done_ena_w1s_s {
619 #if defined(__BIG_ENDIAN_BITFIELD) /* Word 0 - Big Endian */
620 		u64 reserved_1_63:63;
621 		u64 done:1;
622 #else /* Word 0 - Little Endian */
623 		u64 done:1;
624 		u64 reserved_1_63:63;
625 #endif /* Word 0 - End */
626 	} s;
627 };
628 
629 /**
630  * Register (NCB) cpt#_vq#_ctl
631  *
632  * CPT VF Queue Control Registers
633  * This register configures queues. This register should be changed (other than
634  * clearing [ENA]) only when quiescent (see CPT()_VQ()_INPROG[INFLIGHT]).
635  * cptx_vqx_ctl_s
636  * Word0
637  *  reserved_1_63:63 [63:1] Reserved.
638  *  ena:1 [0:0](R/W/H) Enables the logical instruction queue.
639  *	See also CPT()_PF_Q()_CTL[CONT_ERR] and	CPT()_VQ()_INPROG[INFLIGHT].
640  *	1 = Queue is enabled.
641  *	0 = Queue is disabled.
642  */
643 union cptx_vqx_ctl {
644 	u64 u;
645 	struct cptx_vqx_ctl_s {
646 #if defined(__BIG_ENDIAN_BITFIELD) /* Word 0 - Big Endian */
647 		u64 reserved_1_63:63;
648 		u64 ena:1;
649 #else /* Word 0 - Little Endian */
650 		u64 ena:1;
651 		u64 reserved_1_63:63;
652 #endif /* Word 0 - End */
653 	} s;
654 };
655 #endif /*__CPT_HW_TYPES_H*/
656