xref: /freebsd/sys/dev/pms/RefTisa/sallsdk/api/sa.h (revision 193d9e768ba63fcfb187cfd17f461f7d41345048)
1 /*******************************************************************************
2 *Copyright (c) 2014 PMC-Sierra, Inc.  All rights reserved.
3 *
4 *Redistribution and use in source and binary forms, with or without modification, are permitted provided
5 *that the following conditions are met:
6 *1. Redistributions of source code must retain the above copyright notice, this list of conditions and the
7 *following disclaimer.
8 *2. Redistributions in binary form must reproduce the above copyright notice,
9 *this list of conditions and the following disclaimer in the documentation and/or other materials provided
10 *with the distribution.
11 *
12 *THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND ANY EXPRESS OR IMPLIED
13 *WARRANTIES,INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
14 *FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
15 *FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
16 *NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
17 *BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
18 *LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
19 *SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE
20 *
21 * $FreeBSD$
22 *
23 ********************************************************************************/
24 /*******************************************************************************/
25 /*! \file sa.h
26  *  \brief The file defines the constants, data structure, and functions defined by LL API
27  */
28 /******************************************************************************/
29 
30 #ifndef  __SA_H__
31 #define __SA_H__
32 
33 #include <dev/pms/RefTisa/sallsdk/api/sa_spec.h>
34 #include <dev/pms/RefTisa/sallsdk/api/sa_err.h>
35 
36 /* TestBase needed to have the 'Multi-Data fetch disable' feature */
37 #define SA_CONFIG_MDFD_REGISTRY
38 
39 #define OSSA_OFFSET_OF(STRUCT_TYPE, FEILD)              \
40         (bitptr)&(((STRUCT_TYPE *)0)->FEILD)
41 
42 #if defined(SA_CPU_LITTLE_ENDIAN)
43 
44 #define OSSA_WRITE_LE_16(AGROOT, DMA_ADDR, OFFSET, VALUE16)     \
45         (*((bit16 *)(((bit8 *)DMA_ADDR)+(OFFSET)))) = (bit16)(VALUE16);
46 
47 #define OSSA_WRITE_LE_32(AGROOT, DMA_ADDR, OFFSET, VALUE32)     \
48         (*((bit32 *)(((bit8 *)DMA_ADDR)+(OFFSET)))) = (bit32)(VALUE32);
49 
50 #define OSSA_READ_LE_16(AGROOT, ADDR16, DMA_ADDR, OFFSET)       \
51         (*((bit16 *)ADDR16)) = (*((bit16 *)(((bit8 *)DMA_ADDR)+(OFFSET))))
52 
53 #define OSSA_READ_LE_32(AGROOT, ADDR32, DMA_ADDR, OFFSET)       \
54         (*((bit32 *)ADDR32)) = (*((bit32 *)(((bit8 *)DMA_ADDR)+(OFFSET))))
55 
56 #define OSSA_WRITE_BE_16(AGROOT, DMA_ADDR, OFFSET, VALUE16)     \
57         (*((bit8 *)(((bit8 *)DMA_ADDR)+(OFFSET))))   = (bit8)((((bit16)VALUE16)>>8)&0xFF);  \
58         (*((bit8 *)(((bit8 *)DMA_ADDR)+(OFFSET)+1))) = (bit8)(((bit16)VALUE16)&0xFF);
59 
60 #define OSSA_WRITE_BE_32(AGROOT, DMA_ADDR, OFFSET, VALUE32)     \
61         (*((bit8 *)(((bit8 *)DMA_ADDR)+(OFFSET))))   = (bit8)((((bit32)VALUE32)>>24)&0xFF); \
62         (*((bit8 *)(((bit8 *)DMA_ADDR)+(OFFSET)+1))) = (bit8)((((bit32)VALUE32)>>16)&0xFF); \
63         (*((bit8 *)(((bit8 *)DMA_ADDR)+(OFFSET)+2))) = (bit8)((((bit32)VALUE32)>>8)&0xFF);  \
64         (*((bit8 *)(((bit8 *)DMA_ADDR)+(OFFSET)+3))) = (bit8)(((bit32)VALUE32)&0xFF);
65 
66 #define OSSA_READ_BE_16(AGROOT, ADDR16, DMA_ADDR, OFFSET)       \
67         (*(bit8 *)(((bit8 *)ADDR16)+1)) = (*((bit8 *)(((bit8 *)DMA_ADDR)+(OFFSET))));   \
68         (*(bit8 *)(((bit8 *)ADDR16)))   = (*((bit8 *)(((bit8 *)DMA_ADDR)+(OFFSET)+1)));
69 
70 #define OSSA_READ_BE_32(AGROOT, ADDR32, DMA_ADDR, OFFSET)       \
71         (*(bit8 *)(((bit8 *)ADDR32)+3)) = (*((bit8 *)(((bit8 *)DMA_ADDR)+(OFFSET))));   \
72         (*(bit8 *)(((bit8 *)ADDR32)+2)) = (*((bit8 *)(((bit8 *)DMA_ADDR)+(OFFSET)+1))); \
73         (*(bit8 *)(((bit8 *)ADDR32)+1)) = (*((bit8 *)(((bit8 *)DMA_ADDR)+(OFFSET)+2))); \
74         (*(bit8 *)(((bit8 *)ADDR32)))   = (*((bit8 *)(((bit8 *)DMA_ADDR)+(OFFSET)+3)));
75 
76 #define OSSA_WRITE_BYTE_STRING(AGROOT, DEST_ADDR, SRC_ADDR, LEN)                        \
77         si_memcpy(DEST_ADDR, SRC_ADDR, LEN);
78 
79 
80 #elif defined(SA_CPU_BIG_ENDIAN)
81 
82 #define OSSA_WRITE_LE_16(AGROOT, DMA_ADDR, OFFSET, VALUE16)     \
83         (*((bit8 *)(((bit8 *)DMA_ADDR)+(OFFSET)+1))) = (bit8)((((bit16)VALUE16)>>8)&0xFF);   \
84         (*((bit8 *)(((bit8 *)DMA_ADDR)+(OFFSET))))   = (bit8)(((bit16)VALUE16)&0xFF);
85 
86 #define OSSA_WRITE_LE_32(AGROOT, DMA_ADDR, OFFSET, VALUE32)     \
87         (*((bit8 *)(((bit8 *)DMA_ADDR)+(OFFSET)+3))) = (bit8)((((bit32)VALUE32)>>24)&0xFF);  \
88         (*((bit8 *)(((bit8 *)DMA_ADDR)+(OFFSET)+2))) = (bit8)((((bit32)VALUE32)>>16)&0xFF);  \
89         (*((bit8 *)(((bit8 *)DMA_ADDR)+(OFFSET)+1))) = (bit8)((((bit32)VALUE32)>>8)&0xFF);   \
90         (*((bit8 *)(((bit8 *)DMA_ADDR)+(OFFSET))))   = (bit8)(((bit32)VALUE32)&0xFF);
91 
92 #define OSSA_READ_LE_16(AGROOT, ADDR16, DMA_ADDR, OFFSET)       \
93         (*(bit8 *)(((bit8 *)ADDR16)+1)) = (*((bit8 *)(((bit8 *)DMA_ADDR)+(OFFSET))));   \
94         (*(bit8 *)(((bit8 *)ADDR16)))   = (*((bit8 *)(((bit8 *)DMA_ADDR)+(OFFSET)+1)));
95 
96 #define OSSA_READ_LE_32(AGROOT, ADDR32, DMA_ADDR, OFFSET)       \
97         (*((bit8 *)(((bit8 *)ADDR32)+3))) = (*((bit8 *)(((bit8 *)DMA_ADDR)+(OFFSET))));   \
98         (*((bit8 *)(((bit8 *)ADDR32)+2))) = (*((bit8 *)(((bit8 *)DMA_ADDR)+(OFFSET)+1))); \
99         (*((bit8 *)(((bit8 *)ADDR32)+1))) = (*((bit8 *)(((bit8 *)DMA_ADDR)+(OFFSET)+2))); \
100         (*((bit8 *)(((bit8 *)ADDR32))))   = (*((bit8 *)(((bit8 *)DMA_ADDR)+(OFFSET)+3)));
101 
102 #define OSSA_WRITE_BE_16(AGROOT, DMA_ADDR, OFFSET, VALUE16)         \
103         (*((bit16 *)(((bit8 *)DMA_ADDR)+(OFFSET)))) = (bit16)(VALUE16);
104 
105 #define OSSA_WRITE_BE_32(AGROOT, DMA_ADDR, OFFSET, VALUE32)         \
106         (*((bit32 *)(((bit8 *)DMA_ADDR)+(OFFSET)))) = (bit32)(VALUE32);
107 
108 #define OSSA_READ_BE_16(AGROOT, ADDR16, DMA_ADDR, OFFSET)           \
109         (*((bit16 *)ADDR16)) = (*((bit16 *)(((bit8 *)DMA_ADDR)+(OFFSET))));
110 
111 #define OSSA_READ_BE_32(AGROOT, ADDR32, DMA_ADDR, OFFSET)           \
112         (*((bit32 *)ADDR32)) = (*((bit32 *)(((bit8 *)DMA_ADDR)+(OFFSET))));
113 
114 #define OSSA_WRITE_BYTE_STRING(AGROOT, DEST_ADDR, SRC_ADDR, LEN)    \
115         si_memcpy(DEST_ADDR, SRC_ADDR, LEN);
116 
117 #else
118 
119 #error (Host CPU endianess undefined!!)
120 
121 #endif
122 
123 #define AGSA_WRITE_SGL(sglDest, sgLower, sgUpper, len, extReserved)     \
124         OSSA_WRITE_LE_32(agRoot, sglDest, 0, sgLower);                  \
125         OSSA_WRITE_LE_32(agRoot, sglDest, 4, sgUpper);                  \
126         OSSA_WRITE_LE_32(agRoot, sglDest, 8, len);                      \
127         OSSA_WRITE_LE_32(agRoot, sglDest, 12, extReserved);
128 
129 
130 /**************************************************************************
131  *                        define byte swap macro                          *
132  **************************************************************************/
133 /*! \def AGSA_FLIP_2_BYTES(_x)
134 * \brief AGSA_FLIP_2_BYTES macro
135 *
136 * use to flip two bytes
137 */
138 #define AGSA_FLIP_2_BYTES(_x) ((bit16)(((((bit16)(_x))&0x00FF)<<8)|  \
139                                      ((((bit16)(_x))&0xFF00)>>8)))
140 
141 /*! \def AGSA_FLIP_4_BYTES(_x)
142 * \brief AGSA_FLIP_4_BYTES macro
143 *
144 * use to flip four bytes
145 */
146 #define AGSA_FLIP_4_BYTES(_x) ((bit32)(((((bit32)(_x))&0x000000FF)<<24)|  \
147                                      ((((bit32)(_x))&0x0000FF00)<<8)|   \
148                                      ((((bit32)(_x))&0x00FF0000)>>8)|   \
149                                      ((((bit32)(_x))&0xFF000000)>>24)))
150 
151 
152 #if defined(SA_CPU_LITTLE_ENDIAN)
153 
154 /*! \def LEBIT16_TO_BIT16(_x)
155 * \brief LEBIT16_TO_BIT16 macro
156 *
157 * use to convert little endian bit16 to host bit16
158 */
159 #ifndef LEBIT16_TO_BIT16
160 #define LEBIT16_TO_BIT16(_x)   (_x)
161 #endif
162 
163 /*! \def BIT16_TO_LEBIT16(_x)
164 * \brief BIT16_TO_LEBIT16 macro
165 *
166 * use to convert host bit16 to little endian bit16
167 */
168 #ifndef BIT16_TO_LEBIT16
169 #define BIT16_TO_LEBIT16(_x)   (_x)
170 #endif
171 
172 /*! \def BEBIT16_TO_BIT16(_x)
173 * \brief BEBIT16_TO_BIT16 macro
174 *
175 * use to convert big endian bit16 to host bit16
176 */
177 #ifndef BEBIT16_TO_BIT16
178 #define BEBIT16_TO_BIT16(_x)   AGSA_FLIP_2_BYTES(_x)
179 #endif
180 
181 /*! \def BIT16_TO_BEBIT16(_x)
182 * \brief BIT16_TO_BEBIT16 macro
183 *
184 * use to convert host bit16 to big endian bit16
185 */
186 #ifndef BIT16_TO_BEBIT16
187 #define BIT16_TO_BEBIT16(_x)   AGSA_FLIP_2_BYTES(_x)
188 #endif
189 
190 /*! \def LEBIT32_TO_BIT32(_x)
191 * \brief LEBIT32_TO_BIT32 macro
192 *
193 * use to convert little endian bit32 to host bit32
194 */
195 #ifndef LEBIT32_TO_BIT32
196 #define LEBIT32_TO_BIT32(_x)   (_x)
197 #endif
198 
199 /*! \def BIT32_TO_LEBIT32(_x)
200 * \brief BIT32_TO_LEBIT32 macro
201 *
202 * use to convert host bit32 to little endian bit32
203 */
204 #ifndef BIT32_TO_LEBIT32
205 #define BIT32_TO_LEBIT32(_x)   (_x)
206 #endif
207 
208 /*! \def BEBIT32_TO_BIT32(_x)
209 * \brief BEBIT32_TO_BIT32 macro
210 *
211 * use to convert big endian bit32 to host bit32
212 */
213 #ifndef BEBIT32_TO_BIT32
214 #define BEBIT32_TO_BIT32(_x)   AGSA_FLIP_4_BYTES(_x)
215 #endif
216 
217 /*! \def BIT32_TO_BEBIT32(_x)
218 * \brief BIT32_TO_BEBIT32 macro
219 *
220 * use to convert host bit32 to big endian bit32
221 */
222 #ifndef BIT32_TO_BEBIT32
223 #define BIT32_TO_BEBIT32(_x)   AGSA_FLIP_4_BYTES(_x)
224 #endif
225 
226 
227 /*
228  * bit8 to Byte[x] of bit32
229  */
230 #ifndef BIT8_TO_BIT32_B0
231 #define BIT8_TO_BIT32_B0(_x)   ((bit32)(_x))
232 #endif
233 
234 #ifndef BIT8_TO_BIT32_B1
235 #define BIT8_TO_BIT32_B1(_x)   (((bit32)(_x)) << 8)
236 #endif
237 
238 #ifndef BIT8_TO_BIT32_B2
239 #define BIT8_TO_BIT32_B2(_x)   (((bit32)(_x)) << 16)
240 #endif
241 
242 #ifndef BIT8_TO_BIT32_B3
243 #define BIT8_TO_BIT32_B3(_x)   (((bit32)(_x)) << 24)
244 #endif
245 
246 /*
247  * Byte[x] of bit32 to bit8
248  */
249 #ifndef BIT32_B0_TO_BIT8
250 #define BIT32_B0_TO_BIT8(_x)   ((bit8)(((bit32)(_x)) & 0x000000FF))
251 #endif
252 
253 #ifndef BIT32_B1_TO_BIT8
254 #define BIT32_B1_TO_BIT8(_x)   ((bit8)((((bit32)(_x)) & 0x0000FF00) >> 8))
255 #endif
256 
257 #ifndef BIT32_B2_TO_BIT8
258 #define BIT32_B2_TO_BIT8(_x)   ((bit8)((((bit32)(_x)) & 0x00FF0000) >> 16))
259 #endif
260 
261 #ifndef BIT32_B3_TO_BIT8
262 #define BIT32_B3_TO_BIT8(_x)   ((bit8)((((bit32)(_x)) & 0xFF000000) >> 24))
263 #endif
264 
265 #elif defined(SA_CPU_BIG_ENDIAN)
266 
267 /*! \def LEBIT16_TO_BIT16(_x)
268 * \brief LEBIT16_TO_BIT16 macro
269 *
270 * use to convert little endian bit16 to host bit16
271 */
272 #ifndef LEBIT16_TO_BIT16
273 #define LEBIT16_TO_BIT16(_x)   AGSA_FLIP_2_BYTES(_x)
274 #endif
275 
276 /*! \def BIT16_TO_LEBIT16(_x)
277 * \brief BIT16_TO_LEBIT16 macro
278 *
279 * use to convert host bit16 to little endian bit16
280 */
281 #ifndef BIT16_TO_LEBIT16
282 #define BIT16_TO_LEBIT16(_x)   AGSA_FLIP_2_BYTES(_x)
283 #endif
284 
285 /*! \def BEBIT16_TO_BIT16(_x)
286 * \brief BEBIT16_TO_BIT16 macro
287 *
288 * use to convert big endian bit16 to host bit16
289 */
290 #ifndef BEBIT16_TO_BIT16
291 #define BEBIT16_TO_BIT16(_x)   (_x)
292 #endif
293 
294 /*! \def BIT16_TO_BEBIT16(_x)
295 * \brief BIT16_TO_BEBIT16 macro
296 *
297 * use to convert host bit16 to big endian bit16
298 */
299 #ifndef BIT16_TO_BEBIT16
300 #define BIT16_TO_BEBIT16(_x)   (_x)
301 #endif
302 
303 /*! \def LEBIT32_TO_BIT32(_x)
304 * \brief LEBIT32_TO_BIT32 macro
305 *
306 * use to convert little endian bit32 to host bit32
307 */
308 #ifndef LEBIT32_TO_BIT32
309 #define LEBIT32_TO_BIT32(_x)   AGSA_FLIP_4_BYTES(_x)
310 #endif
311 
312 /*! \def BIT32_TO_LEBIT32(_x)
313 * \brief BIT32_TO_LEBIT32 macro
314 *
315 * use to convert host bit32 to little endian bit32
316 */
317 #ifndef BIT32_TO_LEBIT32
318 #define BIT32_TO_LEBIT32(_x)   AGSA_FLIP_4_BYTES(_x)
319 #endif
320 
321 /*! \def BEBIT32_TO_BIT32(_x)
322 * \brief BEBIT32_TO_BIT32 macro
323 *
324 * use to convert big endian bit32 to host bit32
325 */
326 #ifndef BEBIT32_TO_BIT32
327 #define BEBIT32_TO_BIT32(_x)   (_x)
328 #endif
329 
330 /*! \def BIT32_TO_BEBIT32(_x)
331 * \brief BIT32_TO_BEBIT32 macro
332 *
333 * use to convert host bit32 to big endian bit32
334 */
335 #ifndef BIT32_TO_BEBIT32
336 #define BIT32_TO_BEBIT32(_x)   (_x)
337 #endif
338 
339 
340 /*
341  * bit8 to Byte[x] of bit32
342  */
343 #ifndef BIT8_TO_BIT32_B0
344 #define BIT8_TO_BIT32_B0(_x)   (((bit32)(_x)) << 24)
345 #endif
346 
347 #ifndef BIT8_TO_BIT32_B1
348 #define BIT8_TO_BIT32_B1(_x)   (((bit32)(_x)) << 16)
349 #endif
350 
351 #ifndef BIT8_TO_BIT32_B2
352 #define BIT8_TO_BIT32_B2(_x)   (((bit32)(_x)) << 8)
353 #endif
354 
355 #ifndef BIT8_TO_BIT32_B3
356 #define BIT8_TO_BIT32_B3(_x)   ((bit32)(_x))
357 #endif
358 
359 /*
360  * Byte[x] of bit32 to bit8
361  */
362 #ifndef BIT32_B0_TO_BIT8
363 #define BIT32_B0_TO_BIT8(_x)   ((bit8)((((bit32)(_x)) & 0xFF000000) >> 24))
364 #endif
365 
366 #ifndef BIT32_B1_TO_BIT8
367 #define BIT32_B1_TO_BIT8(_x)   ((bit8)((((bit32)(_x)) & 0x00FF0000) >> 16))
368 #endif
369 
370 #ifndef BIT32_B2_TO_BIT8
371 #define BIT32_B2_TO_BIT8(_x)   ((bit8)((((bit32)(_x)) & 0x0000FF00) >> 8))
372 #endif
373 
374 #ifndef BIT32_B3_TO_BIT8
375 #define BIT32_B3_TO_BIT8(_x)   ((bit8)(((bit32)(_x)) & 0x000000FF))
376 #endif
377 
378 #else
379 
380 #error No definition of SA_CPU_BIG_ENDIAN or SA_CPU_LITTLE_ENDIAN
381 
382 #endif
383 
384 
385 #if defined(SA_DMA_LITTLE_ENDIAN)
386 
387 /*
388  * ** bit32 to bit32
389  * */
390 #ifndef DMA_BIT32_TO_BIT32
391 #define DMA_BIT32_TO_BIT32(_x)   (_x)
392 #endif
393 
394 #ifndef DMA_LEBIT32_TO_BIT32
395 #define DMA_LEBIT32_TO_BIT32(_x) (_x)
396 #endif
397 
398 #ifndef DMA_BEBIT32_TO_BIT32
399 #define DMA_BEBIT32_TO_BIT32(_x) AGSA_FLIP_4_BYTES(_x)
400 #endif
401 
402 #ifndef BIT32_TO_DMA_BIT32
403 #define BIT32_TO_DMA_BIT32(_x)   (_x)
404 #endif
405 
406 #ifndef BIT32_TO_DMA_LEBIT32
407 #define BIT32_TO_DMA_LEBIT32(_x) (_x)
408 #endif
409 
410 #ifndef BIT32_TO_DMA_BEBIT32
411 #define BIT32_TO_DMA_BEBIT32(_x) AGSA_FLIP_4_BYTES(_x)
412 #endif
413 
414 
415 /*
416  * ** bit16 to bit16
417  * */
418 #ifndef DMA_BIT16_TO_BIT16
419 #define DMA_BIT16_TO_BIT16(_x)   (_x)
420 #endif
421 
422 #ifndef DMA_LEBIT16_TO_BIT16
423 #define DMA_LEBIT16_TO_BIT16(_x) (_x)
424 #endif
425 
426 #ifndef DMA_BEBIT16_TO_BIT16
427 #define DMA_BEBIT16_TO_BIT16(_x) AGSA_FLIP_2_BYTES(_x)
428 #endif
429 
430 #ifndef BIT16_TO_DMA_BIT16
431 #define BIT16_TO_DMA_BIT16(_x)   (_x)
432 #endif
433 
434 #ifndef BIT16_TO_DMA_LEBIT16
435 #define BIT16_TO_DMA_LEBIT16(_x) (_x)
436 #endif
437 
438 #ifndef BIT16_TO_DMA_BEBIT16
439 #define BIT16_TO_DMA_BEBIT16(_x) AGSA_FLIP_2_BYTES(_x)
440 #endif
441 
442 #if defined(SA_CPU_LITTLE_ENDIAN)
443 
444 #ifndef BEBIT32_TO_DMA_BEBIT32
445 #define BEBIT32_TO_DMA_BEBIT32(_x) (_x)
446 #endif
447 
448 #ifndef LEBIT32_TO_DMA_LEBIT32
449 #define LEBIT32_TO_DMA_LEBIT32(_x) (_x)
450 #endif
451 
452 #ifndef DMA_LEBIT32_TO_LEBIT32
453 #define DMA_LEBIT32_TO_LEBIT32(_x) (_x)
454 #endif
455 
456 #ifndef DMA_BEBIT32_TO_BEBIT32
457 #define DMA_BEBIT32_TO_BEBIT32(_x) (_x)
458 #endif
459 
460 /*
461  * ** bit16 to bit16
462  * */
463 #ifndef BEBIT16_TO_DMA_BEBIT16
464 #define BEBIT16_TO_DMA_BEBIT16(_x) (_x)
465 #endif
466 
467 #ifndef LEBIT16_TO_DMA_LEBIT16
468 #define LEBIT16_TO_DMA_LEBIT16(_x) (_x)
469 #endif
470 
471 #ifndef DMA_LEBIT16_TO_LEBIT16
472 #define DMA_LEBIT16_TO_LEBIT16(_x) (_x)
473 #endif
474 
475 #ifndef DMA_BEBIT16_TO_BEBIT16
476 #define DMA_BEBIT16_TO_BEBIT16(_x) (_x)
477 #endif
478 
479 #else   /* defined(SA_CPU_BIG_ENDIAN) */
480 
481 
482 /*
483  * ** bit32 to bit32
484  * */
485 #ifndef BEBIT32_TO_DMA_BEBIT32
486 #define BEBIT32_TO_DMA_BEBIT32(_x) AGSA_FLIP_4_BYTES(_x)
487 #endif
488 
489 #ifndef LEBIT32_TO_DMA_LEBIT32
490 #define LEBIT32_TO_DMA_LEBIT32(_x) AGSA_FLIP_4_BYTES(_x)
491 #endif
492 
493 #ifndef DMA_LEBIT32_TO_LEBIT32
494 #define DMA_LEBIT32_TO_LEBIT32(_x) AGSA_FLIP_4_BYTES(_x)
495 #endif
496 
497 #ifndef DMA_BEBIT32_TO_BEBIT32
498 #define DMA_BEBIT32_TO_BEBIT32(_x) AGSA_FLIP_4_BYTES(_x)
499 #endif
500 
501 /*
502  * ** bit16 to bit16
503  * */
504 #ifndef BEBIT16_TO_DMA_BEBIT16
505 #define BEBIT16_TO_DMA_BEBIT16(_x) AGSA_FLIP_2_BYTES(_x)
506 #endif
507 
508 #ifndef LEBIT16_TO_DMA_LEBIT16
509 #define LEBIT16_TO_DMA_LEBIT16(_x) AGSA_FLIP_2_BYTES(_x)
510 #endif
511 
512 #ifndef DMA_LEBIT16_TO_LEBIT16
513 #define DMA_LEBIT16_TO_LEBIT16(_x) AGSA_FLIP_2_BYTES(_x)
514 #endif
515 
516 #ifndef DMA_BEBIT16_TO_BEBIT16
517 #define DMA_BEBIT16_TO_BEBIT16(_x) AGSA_FLIP_2_BYTES(_x)
518 #endif
519 
520 #endif
521 
522 /*
523  * bit8 to Byte[x] of bit32
524  */
525 #ifndef BIT8_TO_DMA_BIT32_B0
526 #define BIT8_TO_DMA_BIT32_B0(_x)   ((bit32)(_x))
527 #endif
528 
529 #ifndef BIT8_TO_DMA_BIT32_B1
530 #define BIT8_TO_DMA_BIT32_B1(_x)   (((bit32)(_x)) << 8)
531 #endif
532 
533 #ifndef BIT8_TO_DMA_BIT32_B2
534 #define BIT8_TO_DMA_BIT32_B2(_x)   (((bit32)(_x)) << 16)
535 #endif
536 
537 #ifndef BIT8_TO_DMA_BIT32_B3
538 #define BIT8_TO_DMA_BIT32_B3(_x)   (((bit32)(_x)) << 24)
539 #endif
540 
541 /*
542  * Byte[x] of bit32 to bit8
543  */
544 #ifndef DMA_BIT32_B0_TO_BIT8
545 #define DMA_BIT32_B0_TO_BIT8(_x)   ((bit8)(((bit32)(_x)) & 0x000000FF))
546 #endif
547 
548 #ifndef DMA_BIT32_B1_TO_BIT8
549 #define DMA_BIT32_B1_TO_BIT8(_x)   ((bit8)((((bit32)(_x)) & 0x0000FF00) >> 8))
550 #endif
551 
552 #ifndef DMA_BIT32_B2_TO_BIT8
553 #define DMA_BIT32_B2_TO_BIT8(_x)   ((bit8)((((bit32)(_x)) & 0x00FF0000) >> 16))
554 #endif
555 
556 #ifndef DMA_BIT32_B3_TO_BIT8
557 #define DMA_BIT32_B3_TO_BIT8(_x)   ((bit8)((((bit32)(_x)) & 0xFF000000) >> 24))
558 #endif
559 
560 /*|                                                                   |
561   | end of DMA access macros for LITTLE ENDIAN                        |
562   ---------------------------------------------------------------------
563  */
564 
565 #elif defined(SA_DMA_BIG_ENDIAN)                /* DMA big endian */
566 
567 /*--------------------------------------------------------------------
568  | DMA buffer access macros for BIG ENDIAN                           |
569  |                                                                   |
570  */
571 
572 /* bit32 to bit32 */
573 #ifndef DMA_BEBIT32_TO_BIT32
574 #define DMA_BEBIT32_TO_BIT32(_x)   (_x)
575 #endif
576 
577 #ifndef DMA_LEBIT32_TO_BIT32
578 #define DMA_LEBIT32_TO_BIT32(_x) AGSA_FLIP_4_BYTES(_x)
579 #endif
580 
581 #ifndef BIT32_TO_DMA_BIT32
582 #define BIT32_TO_DMA_BIT32(_x)   (_x)
583 #endif
584 
585 #ifndef BIT32_TO_DMA_LEBIT32
586 #define BIT32_TO_DMA_LEBIT32(_x) AGSA_FLIP_4_BYTES(_x)
587 #endif
588 
589 #ifndef BIT32_TO_DMA_BEBIT32
590 #define BIT32_TO_DMA_BEBIT32(_x) (_x)
591 #endif
592 
593 /* bit16 to bit16 */
594 #ifndef DMA_BEBIT16_TO_BIT16
595 #define DMA_BEBIT16_TO_BIT16(_x)   (_x)
596 #endif
597 
598 #ifndef DMA_LEBIT16_TO_BIT16
599 #define DMA_LEBIT16_TO_BIT16(_x) AGSA_FLIP_2_BYTES(_x)
600 #endif
601 
602 #ifndef BIT16_TO_DMA_BIT16
603 #define BIT16_TO_DMA_BIT16(_x)   (_x)
604 #endif
605 
606 #ifndef BIT16_TO_DMA_LEBIT16
607 #define BIT16_TO_DMA_LEBIT16(_x) AGSA_FLIP_2_BYTES(_x)
608 #endif
609 
610 #ifndef BIT16_TO_DMA_BEBIT16
611 #define BIT16_TO_DMA_BEBIT16(_x) (_x)
612 #endif
613 
614 
615 #if defined(SA_CPU_LITTLE_ENDIAN)           /* CPU little endain */
616 
617 /* bit32 to bit32 */
618 #ifndef BEBIT32_TO_DMA_BEBIT32
619 #define BEBIT32_TO_DMA_BEBIT32(_x) AGSA_FLIP_4_BYTES(_x)
620 #endif
621 
622 #ifndef LEBIT32_TO_DMA_LEBIT32
623 #define LEBIT32_TO_DMA_LEBIT32(_x) AGSA_FLIP_4_BYTES(_x)
624 #endif
625 
626 #ifndef DMA_LEBIT32_TO_LEBIT32
627 #define DMA_LEBIT32_TO_LEBIT32(_x) AGSA_FLIP_4_BYTES(_x)
628 #endif
629 
630 #ifndef DMA_BEBIT32_TO_BEBIT32
631 #define DMA_BEBIT32_TO_BEBIT32(_x) AGSA_FLIP_4_BYTES(_x)
632 #endif
633 
634 /* bit16 to bit16 */
635 #ifndef BEBIT16_TO_DMA_BEBIT16
636 #define BEBIT16_TO_DMA_BEBIT16(_x) AGSA_FLIP_2_BYTES(_x)
637 #endif
638 
639 #ifndef LEBIT16_TO_DMA_LEBIT16
640 #define LEBIT16_TO_DMA_LEBIT16(_x) AGSA_FLIP_2_BYTES(_x)
641 #endif
642 
643 #ifndef DMA_LEBIT16_TO_LEBIT16
644 #define DMA_LEBIT16_TO_LEBIT16(_x) AGSA_FLIP_2_BYTES(_x)
645 #endif
646 
647 #ifndef DMA_BEBIT16_TO_BEBIT16
648 #define DMA_BEBIT16_TO_BEBIT16(_x) AGSA_FLIP_2_BYTES(_x)
649 #endif
650 
651 
652 #else   /* defined(SA_CPU_BIG_ENDIAN) */
653 
654 /* bit32 to bit32 */
655 #ifndef BEBIT32_TO_DMA_BEBIT32
656 #define BEBIT32_TO_DMA_BEBIT32(_x) (_x)
657 #endif
658 
659 #ifndef LEBIT32_TO_DMA_LEBIT32
660 #define LEBIT32_TO_DMA_LEBIT32(_x) (_x)
661 #endif
662 
663 #ifndef DMA_LEBIT32_TO_LEBIT32
664 #define DMA_LEBIT32_TO_LEBIT32(_x) (_x)
665 #endif
666 
667 #ifndef DMA_BEBIT32_TO_BEBIT32
668 #define DMA_BEBIT32_TO_BEBIT32(_x) (_x)
669 #endif
670 
671 /* bit16 to bit16 */
672 #ifndef BEBIT16_TO_DMA_BEBIT16
673 #define BEBIT16_TO_DMA_BEBIT16(_x) (_x)
674 #endif
675 
676 #ifndef LEBIT16_TO_DMA_LEBIT16
677 #define LEBIT16_TO_DMA_LEBIT16(_x) (_x)
678 #endif
679 
680 #ifndef DMA_LEBIT16_TO_LEBIT16
681 #define DMA_LEBIT16_TO_LEBIT16(_x) (_x)
682 #endif
683 
684 #ifndef DMA_BEBIT16_TO_BEBIT16
685 #define DMA_BEBIT16_TO_BEBIT16(_x) (_x)
686 #endif
687 
688 #endif
689 
690 /*
691  * bit8 to Byte[x] of bit32
692  */
693 #ifndef BIT8_TO_DMA_BIT32_B0
694 #define BIT8_TO_DMA_BIT32_B0(_x)   (((bit32)(_x)) << 24)
695 #endif
696 
697 #ifndef BIT8_TO_DMA_BIT32_B1
698 #define BIT8_TO_DMA_BIT32_B1(_x)   (((bit32)(_x)) << 16)
699 #endif
700 
701 #ifndef BIT8_TO_DMA_BIT32_B2
702 #define BIT8_TO_DMA_BIT32_B2(_x)   (((bit32)(_x)) << 8)
703 #endif
704 
705 #ifndef BIT8_TO_DMA_BIT32_B3
706 #define BIT8_TO_DMA_BIT32_B3(_x)   ((bit32)(_x))
707 #endif
708 
709 /*
710  * ** Byte[x] of bit32 to bit8
711  * */
712 #ifndef DMA_BIT32_B0_TO_BIT8
713 #define DMA_BIT32_B0_TO_BIT8(_x)   ((bit8)((((bit32)(_x)) & 0xFF000000) >> 24))
714 #endif
715 
716 #ifndef DMA_BIT32_B1_TO_BIT8
717 #define DMA_BIT32_B1_TO_BIT8(_x)   ((bit8)((((bit32)(_x)) & 0x00FF0000) >> 16))
718 #endif
719 
720 #ifndef DMA_BIT32_B2_TO_BIT8
721 #define DMA_BIT32_B2_TO_BIT8(_x)   ((bit8)((((bit32)(_x)) & 0x0000FF00) >> 8))
722 #endif
723 
724 #ifndef DMA_BIT32_B3_TO_BIT8
725 #define DMA_BIT32_B3_TO_BIT8(_x)   ((bit8)(((bit32)(_x)) & 0x000000FF))
726 #endif
727 
728 /*|                                                                   |
729   | end of DMA access macros for BIG ENDIAN                           |
730   ---------------------------------------------------------------------
731 */
732 #else
733 
734 #error No definition of SA_DMA_BIG_ENDIAN or SA_DMA_LITTLE_ENDIAN
735 
736 #endif  /* DMA endian */
737 /*
738  * End of DMA buffer access macros                                   *
739  *                                                                    *
740  **********************************************************************
741  */
742 
743 /************************************************************************************
744  *                                                                                  *
745  *               Constants defined for LL Layer starts                              *
746  *                                                                                  *
747  ************************************************************************************/
748 
749 /*********************************************************
750  *   sTSDK LL revision and Interface revision, FW version
751  *********************************************************/
752 
753 #define FW_THIS_VERSION_SPC12G 0x03060005
754 
755 #define FW_THIS_VERSION_SPC6G  0x02092400
756 #define FW_THIS_VERSION_SPC    0x01110000
757 
758 
759 #define STSDK_LL_INTERFACE_VERSION                  0x20A
760 #define STSDK_LL_OLD_INTERFACE_VERSION              0x1                   /* SPC and SPCv before 02030401 */
761 #define STSDK_LL_VERSION                            FW_THIS_VERSION_SPC6G /**< current sTSDK version */
762 #define MAX_FW_VERSION_SUPPORTED                    FW_THIS_VERSION_SPC6G /**< FW */
763 #define MATCHING_V_FW_VERSION                       FW_THIS_VERSION_SPC6G /**< current V  matching FW version */
764 #define MIN_FW_SPCVE_VERSION_SUPPORTED              0x02000000            /**< 2.00 FW */
765 
766 #define STSDK_LL_12G_INTERFACE_VERSION              0x302
767 #define STSDK_LL_12G_VERSION                        FW_THIS_VERSION_SPC12G /**< current sTSDK version */
768 #define MAX_FW_12G_VERSION_SUPPORTED                FW_THIS_VERSION_SPC12G /**< FW */
769 #define MATCHING_12G_V_FW_VERSION                   FW_THIS_VERSION_SPC12G /**< current V  matching FW version */
770 #define MIN_FW_12G_SPCVE_VERSION_SUPPORTED          0x03000000             /**< 3.00 FW */
771 
772 #define STSDK_LL_SPC_VERSION                        0x01100000          /**< current SPC FW version supported */
773 #define MATCHING_SPC_FW_VERSION                     FW_THIS_VERSION_SPC /**< current SPC matching FW version */
774 #define MIN_FW_SPC_VERSION_SUPPORTED                0x01062502          /**< 1.06d FW */
775 
776 #define STSDK_LL_INTERFACE_VERSION_IGNORE_MASK      0xF00
777 /*************************************************
778  *   constants for API return values
779  *************************************************/
780 #define AGSA_RC_SUCCESS                             0x00     /**< Successful function return value */
781 #define AGSA_RC_FAILURE                             0x01     /**< Failed function return value */
782 #define AGSA_RC_BUSY                                0x02     /**< Busy function return value */
783 /* current only return from saGetControllerInfo() and saGetControllerStatus() */
784 #define AGSA_RC_HDA_NO_FW_RUNNING                   0x03     /**< HDA mode and no FW running */
785 #define AGSA_RC_FW_NOT_IN_READY_STATE               0x04     /**< FW not in ready state */
786 /* current only return from saInitialize() for version checking */
787 #define AGSA_RC_VERSION_INCOMPATIBLE                0x05     /**< Version mismatch */
788 #define AGSA_RC_VERSION_UNTESTED                    0x06     /**< Version not tested */
789 #define AGSA_RC_NOT_SUPPORTED                       0x07     /**< Operation not supported on the current hardware */
790 #define AGSA_RC_COMPLETE                            0x08
791 
792 /*************************************************
793  *   constants for type field in agsaMem_t
794  *************************************************/
795 #define AGSA_CACHED_MEM                             0x00     /**< CACHED memory type */
796 #define AGSA_DMA_MEM                                0x01     /**< DMA memory type */
797 #define AGSA_CACHED_DMA_MEM                         0x02     /**< CACHED DMA memory type */
798 
799 #ifdef SA_ENABLE_TRACE_FUNCTIONS
800 #ifdef FAST_IO_TEST
801 #define AGSA_NUM_MEM_CHUNKS                 (12 + AGSA_MAX_INBOUND_Q + AGSA_MAX_OUTBOUND_Q)       /**< max # of memory chunks supported */
802 #else
803 #define AGSA_NUM_MEM_CHUNKS                 (11 + AGSA_MAX_INBOUND_Q + AGSA_MAX_OUTBOUND_Q)       /**< max # of memory chunks supported */
804 #endif
805 #else
806 #ifdef FAST_IO_TEST
807 #define AGSA_NUM_MEM_CHUNKS                 (11 + AGSA_MAX_INBOUND_Q + AGSA_MAX_OUTBOUND_Q)       /**< max # of memory chunks supported */
808 #else
809 #define AGSA_NUM_MEM_CHUNKS                 (10 + AGSA_MAX_INBOUND_Q + AGSA_MAX_OUTBOUND_Q)       /**< max # of memory chunks supported */
810 #endif
811 #endif /* END SA_ENABLE_TRACE_FUNCTIONS */
812 
813 
814 /**********************************
815  * default constant for phy count
816  **********************************/
817 #define AGSA_MAX_VALID_PHYS                         16  /* was 8 for SPC */   /**< max # of phys supported by the hardware */
818 
819 /************************************
820  * default constant for Esgl entries
821  ************************************/
822 #define MAX_ESGL_ENTRIES                            10    /**< max # of extended SG list entry */
823 
824 /*******************************************
825  * constant for max inbound/outbound queues
826  *******************************************/
827 #define AGSA_MAX_INBOUND_Q                          64    /**< max # of inbound queue */
828 #define AGSA_MAX_OUTBOUND_Q                         64    /**< max # of outbound queue */
829 #define AGSA_MAX_BEST_INBOUND_Q                     16    /* Max inbound Q number with good IO performance */
830 
831 /****************************
832  *   Phy Control constants
833  ****************************/
834 #define AGSA_PHY_LINK_RESET                         0x01
835 #define AGSA_PHY_HARD_RESET                         0x02
836 #define AGSA_PHY_GET_ERROR_COUNTS                   0x03 /* SPC only used in original saLocalPhyControl */
837 #define AGSA_PHY_CLEAR_ERROR_COUNTS                 0x04 /* SPC only */
838 #define AGSA_PHY_GET_BW_COUNTS                      0x05 /* SPC only */
839 #define AGSA_PHY_NOTIFY_ENABLE_SPINUP               0x10
840 #define AGSA_PHY_BROADCAST_ASYNCH_EVENT             0x12
841 #define AGSA_PHY_COMINIT_OOB                        0x20
842 
843 #define AGSA_SAS_PHY_ERR_COUNTERS_PAGE      0x01 /* retrieve the SAS PHY error counters */
844 #define AGSA_SAS_PHY_ERR_COUNTERS_CLR_PAGE  0x02 /* retrieve the SAS PHY error counters After capturing the errors, the hardware error counters are cleared and restarted. */
845 #define AGSA_SAS_PHY_BW_COUNTERS_PAGE       0x03 /* retrieve the SAS PHY transmit and receive bandwidth counters. */
846 #define AGSA_SAS_PHY_ANALOG_SETTINGS_PAGE   0x04 /* retrieve the SAS PHY analog settings  */
847 #define AGSA_SAS_PHY_GENERAL_STATUS_PAGE    0x05 /* retrieve the SAS PHY general status for the PHY specified in the phyID parameter   */
848 #define AGSA_PHY_SNW3_PAGE                  0x06
849 #define AGSA_PHY_RATE_CONTROL_PAGE          0x07 /* Used to set several rate control parameters. */
850 #define AGSA_SAS_PHY_MISC_PAGE              0x08
851 #define AGSA_SAS_PHY_OPEN_REJECT_RETRY_BACKOFF_THRESHOLD_PAGE     0x08 /* Used to set retry and backoff threshold  parameters. */
852 
853 /*****************
854  * HW Reset
855  *****************/
856 #define AGSA_CHIP_RESET                             0x00     /**< flag to reset hard reset */
857 #define AGSA_SOFT_RESET                             0x01     /**< flag to reset the controller chip */
858 
859 /***************************************
860  * Discovery Types
861  ***************************************/
862 #define AG_SA_DISCOVERY_TYPE_SAS                    0x00     /**< flag to discover SAS devices */
863 #define AG_SA_DISCOVERY_TYPE_SATA                   0x01     /**< flag to discover SATA devices */
864 
865 /***************************************
866  * Discovery Options
867  ***************************************/
868 #define AG_SA_DISCOVERY_OPTION_FULL_START           0x00     /**< flag to start full discovery */
869 #define AG_SA_DISCOVERY_OPTION_INCREMENTAL_START    0x01     /**< flag to start incremental discovery */
870 #define AG_SA_DISCOVERY_OPTION_ABORT                0x02     /**< flag to abort a discovery */
871 
872 /****************************************************************
873  * SSP/SMP/SATA Request type
874  ****************************************************************/
875 /* bit31-28 - request type
876    bit27-16 - reserved
877    bit15-10 - SATA ATAP
878    bit9-8   - direction
879    bit7     - AUTO
880    bit6     - reserved
881    bit5     - EXT
882    bit4     - MSG
883    bit3-0   - Initiator, target or task mode (1 to 8)
884    */
885 #define AGSA_REQTYPE_MASK                           0xF0000000  /**< request type mask */
886 #define AGSA_REQ_TYPE_UNKNOWN                       0x00000000  /**< unknown request type */
887 #define AGSA_SSP_REQTYPE                            0x80000000
888 #define AGSA_SMP_REQTYPE                            0x40000000
889 #define AGSA_SATA_REQTYPE                           0x20000000
890 
891 #define AGSA_DIR_MASK                               0x00000300
892 #define AGSA_AUTO_MASK                              0x00000080
893 #define AGSA_SATA_ATAP_MASK                         0x0000FC00
894 
895 #define AGSA_DIR_NONE                               0x00000000
896 #define AGSA_DIR_CONTROLLER_TO_HOST                 0x00000100  /**< used to be called AGSA_DIR_READ */
897 #define AGSA_DIR_HOST_TO_CONTROLLER                 0x00000200  /**< used to be called AGSA_DIR_WRITE */
898 
899 /* bit definition - AUTO mode */
900 #define AGSA_AUTO_GOOD_RESPONSE                     0x00000080
901 
902 /* request type - not bit difination */
903 #define AGSA_SSP_INIT                               0x00000001
904 #define AGSA_SSP_TGT_MODE                           0x00000003
905 #define AGSA_SSP_TASK_MGNT                          0x00000005
906 #define AGSA_SSP_TGT_RSP                            0x00000006
907 #define AGSA_SMP_INIT                               0x00000007
908 #define AGSA_SMP_TGT                                0x00000008
909 
910 /* request type for SSP Initiator and extend */
911 #define AGSA_SSP_INIT_EXT                           (AGSA_SSP_INIT | AGSA_SSP_EXT_BIT)
912 
913 /* request type for SSP Initiator and indirect */
914 #define AGSA_SSP_INIT_INDIRECT                      (AGSA_SSP_INIT | AGSA_SSP_INDIRECT_BIT)
915 
916 /* bit definition */
917 #define AGSA_MSG                                    0x00000010
918 #define AGSA_SSP_EXT_BIT                            0x00000020
919 #define AGSA_SSP_INDIRECT_BIT                       0x00000040
920 #define AGSA_MSG_BIT                                AGSA_MSG >> 2
921 
922 /* agsaSSPIniEncryptIOStartCmd_t dirMTlr bits*/
923 #define AGSA_INDIRECT_CDB_BIT                       0x00000008
924 #define AGSA_SKIP_MASK_BIT                          0x00000010
925 #define AGSA_ENCRYPT_BIT                            0x00000020
926 #define AGSA_DIF_BIT                                0x00000040
927 #define AGSA_DIF_LA_BIT                             0x00000080
928 #define AGSA_DIRECTION_BITS                         0x00000300
929 #define AGSA_SKIP_MASK_OFFSET_BITS                  0x0F000000
930 #define AGSA_SSP_INFO_LENGTH_BITS                   0xF0000000
931 
932 /*  agsaSSPTgtIOStartCmd_t INITagAgrDir bits */
933 #define AGSA_SSP_TGT_BITS_INI_TAG                   0xFFFF0000 /* 16 31  */
934 #define AGSA_SSP_TGT_BITS_ODS                       0x00008000 /* 15 */
935 #define AGSA_SSP_TGT_BITS_DEE_DIF                   0x00004000 /* 14 */
936 #define AGSA_SSP_TGT_BITS_DEE                       0x00002000 /* 13 14 */
937 #define AGSA_SSP_TGT_BITS_R                         0x00001000 /* 12 */
938 #define AGSA_SSP_TGT_BITS_DAD                       0x00000600 /* 11 10 */
939 #define AGSA_SSP_TGT_BITS_DIR                       0x00000300 /* 8 9 */
940 #define AGSA_SSP_TGT_BITS_DIR_IN                    0x00000100 /* 8 9 */
941 #define AGSA_SSP_TGT_BITS_DIR_OUT                   0x00000200 /* 8 9 */
942 #define AGSA_SSP_TGT_BITS_AGR                       0x00000080 /* 7 */
943 #define AGSA_SSP_TGT_BITS_RDF                       0x00000040 /* 6 */
944 #define AGSA_SSP_TGT_BITS_RTE                       0x00000030 /* 4 5 */
945 #define AGSA_SSP_TGT_BITS_AN                        0x00000006 /* 2 3 */
946 
947 
948 /* agsaSSPIniEncryptIOStartCmd_t DIF_flags bit definitions */
949 #define AGSA_DIF_UPDATE_BITS                        0xFC000000
950 #define AGSA_DIF_VERIFY_BITS                        0x03F00000
951 #define AGSA_DIF_BLOCK_SIZE_BITS                    0x000F0000
952 #define AGSA_DIF_ENABLE_BLOCK_COUNT_BIT             0x00000040
953 #define AGSA_DIF_CRC_SEED_BIT                       0x00000020
954 #define AGSA_DIF_CRC_INVERT_BIT                     0x00000010
955 #define AGSA_DIF_CRC_VERIFY_BIT                     0x00000008
956 #define AGSA_DIF_OP_BITS                            0x00000007
957 
958 #define AGSA_DIF_OP_INSERT                          0x00000000
959 #define AGSA_DIF_OP_VERIFY_AND_FORWARD              0x00000001
960 #define AGSA_DIF_OP_VERIFY_AND_DELETE               0x00000002
961 #define AGSA_DIF_OP_VERIFY_AND_REPLACE              0x00000003
962 #define AGSA_DIF_OP_RESERVED2                       0x00000004
963 #define AGSA_DIF_OP_VERIFY_UDT_REPLACE_CRC          0x00000005
964 #define AGSA_DIF_OP_RESERVED3                       0x00000006
965 #define AGSA_DIF_OP_REPLACE_UDT_REPLACE_CRC         0x00000007
966 
967 
968 /* agsaSSPIniEncryptIOStartCmd_t EncryptFlagsLo bit definitions */
969 #define AGSA_ENCRYPT_DEK_BITS                       0xFFFFFF000
970 #define AGSA_ENCRYPT_SKIP_DIF_BIT                   0x000000010
971 #define AGSA_ENCRYPT_KEY_TABLE_BITS                 0x00000000C
972 #define AGSA_ENCRYPT_KEY_TAG_BIT                    0x000000002
973 
974 /* Cipher mode to be used for this I/O. */
975 #define AGSA_ENCRYPT_ECB_Mode                       0
976 #define AGSA_ENCRYPT_XTS_Mode                       0x6
977 
978 /* agsaSSPIniEncryptIOStartCmd_t EncryptFlagsHi bit definitions */
979 #define AGSA_ENCRYPT_KEK_SELECT_BITS                0x0000000E0
980 #define AGSA_ENCRYPT_SECTOR_SIZE_BITS               0x00000001F
981 
982 /* defined in the sTSDK spec. */
983 #define AGSA_SSP_INIT_NONDATA                       (AGSA_SSP_REQTYPE | AGSA_DIR_NONE | AGSA_SSP_INIT)  /**< SSP initiator non data request type */
984 #define AGSA_SSP_INIT_READ                          (AGSA_SSP_REQTYPE | AGSA_DIR_CONTROLLER_TO_HOST | AGSA_SSP_INIT)  /**< SSP initiator read request type */
985 #define AGSA_SSP_INIT_WRITE                         (AGSA_SSP_REQTYPE | AGSA_DIR_HOST_TO_CONTROLLER | AGSA_SSP_INIT)  /**< SSP initiator write request type */
986 #define AGSA_SSP_TGT_READ_DATA                      (AGSA_SSP_REQTYPE | AGSA_DIR_HOST_TO_CONTROLLER | AGSA_SSP_TGT_MODE)  /**< SSP target read data request type */
987 #define AGSA_SSP_TGT_READ                           (AGSA_SSP_REQTYPE | AGSA_DIR_HOST_TO_CONTROLLER | AGSA_SSP_TGT_MODE)  /**< SSP target read data request type */
988 #define AGSA_SSP_TGT_READ_GOOD_RESP                 (AGSA_SSP_REQTYPE | AGSA_DIR_HOST_TO_CONTROLLER | AGSA_SSP_TGT_MODE | AGSA_AUTO_GOOD_RESPONSE)  /**< SSP target read data with automatic good response request type */
989 #define AGSA_SSP_TGT_WRITE_DATA                     (AGSA_SSP_REQTYPE | AGSA_DIR_CONTROLLER_TO_HOST | AGSA_SSP_TGT_MODE)  /**< SSP target write data request type */
990 #define AGSA_SSP_TGT_WRITE                          (AGSA_SSP_REQTYPE | AGSA_DIR_CONTROLLER_TO_HOST | AGSA_SSP_TGT_MODE)  /**< SSP target write data request type */
991 #define AGSA_SSP_TGT_WRITE_GOOD_RESP                (AGSA_SSP_REQTYPE | AGSA_DIR_CONTROLLER_TO_HOST | AGSA_SSP_TGT_MODE  | AGSA_AUTO_GOOD_RESPONSE) /**< SSP target write data request type with automatic good response request type*/
992 #define AGSA_SSP_TASK_MGNT_REQ                      (AGSA_SSP_REQTYPE | AGSA_SSP_TASK_MGNT)  /**< SSP task management request type */
993 #define AGSA_SSP_TGT_CMD_OR_TASK_RSP                (AGSA_SSP_REQTYPE | AGSA_SSP_TGT_RSP)  /**< SSP command or task management response request type */
994 #define AGSA_SMP_INIT_REQ                           (AGSA_SMP_REQTYPE | AGSA_SMP_INIT)  /**< SMP initiator request type */
995 #define AGSA_SMP_TGT_RESPONSE                       (AGSA_SMP_REQTYPE | AGSA_SMP_TGT)  /**< SMP target response request type */
996 #define AGSA_SSP_INIT_READ_M                        (AGSA_SSP_REQTYPE | AGSA_DIR_CONTROLLER_TO_HOST | AGSA_SSP_INIT | AGSA_MSG)
997 #define AGSA_SSP_INIT_WRITE_M                       (AGSA_SSP_REQTYPE | AGSA_DIR_HOST_TO_CONTROLLER | AGSA_SSP_INIT | AGSA_MSG)
998 #define AGSA_SSP_TASK_MGNT_REQ_M                    (AGSA_SSP_REQTYPE | AGSA_SSP_TASK_MGNT                          | AGSA_MSG)
999 #define AGSA_SSP_INIT_READ_EXT                      (AGSA_SSP_REQTYPE | AGSA_DIR_CONTROLLER_TO_HOST | AGSA_SSP_INIT_EXT)  /**< SSP initiator read request Ext type */
1000 #define AGSA_SSP_INIT_WRITE_EXT                     (AGSA_SSP_REQTYPE | AGSA_DIR_HOST_TO_CONTROLLER | AGSA_SSP_INIT_EXT)  /**< SSP initiator write request Ext type */
1001 
1002 #define AGSA_SSP_INIT_READ_INDIRECT                 (AGSA_SSP_REQTYPE | AGSA_DIR_CONTROLLER_TO_HOST | AGSA_SSP_INIT_INDIRECT)  /**< SSP initiator read request indirect type */
1003 #define AGSA_SSP_INIT_WRITE_INDIRECT                (AGSA_SSP_REQTYPE | AGSA_DIR_HOST_TO_CONTROLLER | AGSA_SSP_INIT_INDIRECT)  /**< SSP initiator write request indirect type */
1004 
1005 #define AGSA_SSP_INIT_READ_INDIRECT_M               (AGSA_SSP_REQTYPE | AGSA_DIR_CONTROLLER_TO_HOST | AGSA_SSP_INIT_INDIRECT | AGSA_MSG)  /**< SSP initiator read request indirect type */
1006 #define AGSA_SSP_INIT_WRITE_INDIRECT_M              (AGSA_SSP_REQTYPE | AGSA_DIR_HOST_TO_CONTROLLER | AGSA_SSP_INIT_INDIRECT | AGSA_MSG)  /**< SSP initiator write request indirect type */
1007 #define AGSA_SSP_INIT_READ_EXT_M                    (AGSA_SSP_REQTYPE | AGSA_DIR_CONTROLLER_TO_HOST | AGSA_SSP_INIT_EXT | AGSA_MSG)
1008 #define AGSA_SSP_INIT_WRITE_EXT_M                   (AGSA_SSP_REQTYPE | AGSA_DIR_HOST_TO_CONTROLLER | AGSA_SSP_INIT_EXT | AGSA_MSG)
1009 
1010 #define AGSA_SMP_IOCTL_REQUEST			    		0xFFFFFFFF
1011 
1012 #define AGSA_SATA_ATAP_SRST_ASSERT                  0x00000400
1013 #define AGSA_SATA_ATAP_SRST_DEASSERT                0x00000800
1014 #define AGSA_SATA_ATAP_EXECDEVDIAG                  0x00000C00
1015 #define AGSA_SATA_ATAP_NON_DATA                     0x00001000
1016 #define AGSA_SATA_ATAP_PIO                          0x00001400
1017 #define AGSA_SATA_ATAP_DMA                          0x00001800
1018 #define AGSA_SATA_ATAP_NCQ                          0x00001C00
1019 #define AGSA_SATA_ATAP_PKT_DEVRESET                 0x00002000
1020 #define AGSA_SATA_ATAP_PKT                          0x00002400
1021 
1022 #define AGSA_SATA_PROTOCOL_NON_DATA                 (AGSA_SATA_REQTYPE | AGSA_DIR_NONE  | AGSA_SATA_ATAP_NON_DATA)
1023 #define AGSA_SATA_PROTOCOL_PIO_READ                 (AGSA_SATA_REQTYPE | AGSA_DIR_CONTROLLER_TO_HOST | AGSA_SATA_ATAP_PIO)  /**< SATA PIO read request type */
1024 #define AGSA_SATA_PROTOCOL_DMA_READ                 (AGSA_SATA_REQTYPE | AGSA_DIR_CONTROLLER_TO_HOST | AGSA_SATA_ATAP_DMA)  /**< SATA DMA read request type */
1025 #define AGSA_SATA_PROTOCOL_FPDMA_READ               (AGSA_SATA_REQTYPE | AGSA_DIR_CONTROLLER_TO_HOST | AGSA_SATA_ATAP_NCQ)  /**< SATA FDMA read request type */
1026 #define AGSA_SATA_PROTOCOL_PIO_WRITE                (AGSA_SATA_REQTYPE | AGSA_DIR_HOST_TO_CONTROLLER | AGSA_SATA_ATAP_PIO)  /**< SATA PIO read request type */
1027 #define AGSA_SATA_PROTOCOL_DMA_WRITE                (AGSA_SATA_REQTYPE | AGSA_DIR_HOST_TO_CONTROLLER | AGSA_SATA_ATAP_DMA)  /**< SATA DMA read request type */
1028 #define AGSA_SATA_PROTOCOL_FPDMA_WRITE              (AGSA_SATA_REQTYPE | AGSA_DIR_HOST_TO_CONTROLLER | AGSA_SATA_ATAP_NCQ)  /**< SATA FDMA read request type */
1029 #define AGSA_SATA_PROTOCOL_DEV_RESET                (AGSA_SATA_REQTYPE | AGSA_DIR_NONE  | AGSA_SATA_ATAP_PKT_DEVRESET)  /**< SATA device reset request type */
1030 #define AGSA_SATA_PROTOCOL_SRST_ASSERT              (AGSA_SATA_REQTYPE | AGSA_DIR_NONE  | AGSA_SATA_ATAP_SRST_ASSERT)  /**< SATA device reset assert */
1031 #define AGSA_SATA_PROTOCOL_SRST_DEASSERT            (AGSA_SATA_REQTYPE | AGSA_DIR_NONE  | AGSA_SATA_ATAP_SRST_DEASSERT)  /**< SATA device reset deassert */
1032 #define AGSA_SATA_PROTOCOL_D2H_PKT                  (AGSA_SATA_REQTYPE | AGSA_DIR_CONTROLLER_TO_HOST | AGSA_SATA_ATAP_PKT)
1033 #define AGSA_SATA_PROTOCOL_H2D_PKT                  (AGSA_SATA_REQTYPE | AGSA_DIR_HOST_TO_CONTROLLER | AGSA_SATA_ATAP_PKT)
1034 #define AGSA_SATA_PROTOCOL_NON_PKT                  (AGSA_SATA_REQTYPE | AGSA_DIR_NONE | AGSA_SATA_ATAP_PKT)
1035 
1036 
1037 #define AGSA_SATA_PROTOCOL_NON_DATA_M               (AGSA_SATA_REQTYPE | AGSA_DIR_NONE          | AGSA_SATA_ATAP_NON_DATA | AGSA_MSG)
1038 #define AGSA_SATA_PROTOCOL_PIO_READ_M               (AGSA_SATA_REQTYPE | AGSA_DIR_CONTROLLER_TO_HOST | AGSA_SATA_ATAP_PIO | AGSA_MSG)  /**< SATA PIO read request type */
1039 #define AGSA_SATA_PROTOCOL_DMA_READ_M               (AGSA_SATA_REQTYPE | AGSA_DIR_CONTROLLER_TO_HOST | AGSA_SATA_ATAP_DMA | AGSA_MSG)  /**< SATA DMA read request type */
1040 #define AGSA_SATA_PROTOCOL_FPDMA_READ_M             (AGSA_SATA_REQTYPE | AGSA_DIR_CONTROLLER_TO_HOST | AGSA_SATA_ATAP_NCQ | AGSA_MSG)  /**< SATA FDMA read request type */
1041 #define AGSA_SATA_PROTOCOL_PIO_WRITE_M              (AGSA_SATA_REQTYPE | AGSA_DIR_HOST_TO_CONTROLLER | AGSA_SATA_ATAP_PIO | AGSA_MSG)  /**< SATA PIO read request type */
1042 #define AGSA_SATA_PROTOCOL_DMA_WRITE_M              (AGSA_SATA_REQTYPE | AGSA_DIR_HOST_TO_CONTROLLER | AGSA_SATA_ATAP_DMA | AGSA_MSG)  /**< SATA DMA read request type */
1043 #define AGSA_SATA_PROTOCOL_FPDMA_WRITE_M            (AGSA_SATA_REQTYPE | AGSA_DIR_HOST_TO_CONTROLLER | AGSA_SATA_ATAP_NCQ | AGSA_MSG)  /**< SATA FDMA read request type */
1044 #define AGSA_SATA_PROTOCOL_D2H_PKT_M                (AGSA_SATA_REQTYPE | AGSA_DIR_CONTROLLER_TO_HOST | AGSA_SATA_ATAP_PKT | AGSA_MSG)
1045 #define AGSA_SATA_PROTOCOL_H2D_PKT_M                (AGSA_SATA_REQTYPE | AGSA_DIR_HOST_TO_CONTROLLER | AGSA_SATA_ATAP_PKT | AGSA_MSG)
1046 #define AGSA_SATA_PROTOCOL_NON_PKT_M                (AGSA_SATA_REQTYPE | AGSA_DIR_NONE               | AGSA_SATA_ATAP_PKT | AGSA_MSG)
1047 /* TestBase */
1048 #define AGSA_SATA_PROTOCOL_DEV_RESET_M              (AGSA_SATA_REQTYPE | AGSA_DIR_NONE  | AGSA_SATA_ATAP_PKT_DEVRESET     | AGSA_MSG)  /**< SATA device reset request type */
1049 
1050 
1051 
1052 #define AGSA_INTERRUPT_HANDLE_ALL_CHANNELS          0xFFFFFFFF    /**< flag indicates handles interrupts for all channles */
1053 
1054 /****************************************************************************
1055 ** INBOUND Queue related macros
1056 ****************************************************************************/
1057 #define AGSA_IBQ_PRIORITY_NORMAL                    0x0
1058 #define AGSA_IBQ_PRIORITY_HIGH                      0x1
1059 
1060 /****************************************************************************
1061 ** Phy properties related macros
1062 ****************************************************************************/
1063 /* link rate */
1064 #define AGSA_PHY_MAX_LINK_RATE_MASK                 0x0000000F /* bits 0-3 */
1065 #define AGSA_PHY_MAX_LINK_RATE_1_5G                 0x00000001 /* 0001b */
1066 #define AGSA_PHY_MAX_LINK_RATE_3_0G                 0x00000002 /* 0010b */
1067 #define AGSA_PHY_MAX_LINK_RATE_6_0G                 0x00000004 /* 0100b */
1068 #define AGSA_PHY_MAX_LINK_RATE_12_0G                0x00000008 /* 1000b */
1069 
1070 /* SAS/SATA mode */
1071 #define AGSA_PHY_MODE_MASK                          0x00000030 /* bits 4-5 */
1072 #define AGSA_PHY_MODE_SAS                           0x00000010 /* 01b */
1073 #define AGSA_PHY_MODE_SATA                          0x00000020 /* 10b */
1074 
1075 /* control spin-up hold */
1076 #define AGSA_PHY_SPIN_UP_HOLD_MASK                  0x00000040 /* bit6 */
1077 #define AGSA_PHY_SPIN_UP_HOLD_ON                    0x00000040 /* 1b */
1078 #define AGSA_PHY_SPIN_UP_HOLD_OFF                   0x00000000 /* 0b */
1079 
1080 /****************************************************************************
1081 ** Device Info related macros
1082 ****************************************************************************/
1083 /* S (SAS/SATA) */
1084 #define AGSA_DEV_INFO_SASSATA_MASK                  0x00000010 /* bit 4 */
1085 #define AGSA_DEV_INFO_SASSATA_SAS                   0x00000010 /* 1b */
1086 #define AGSA_DEV_INFO_SASSATA_SATA                  0x00000000 /* 0b */
1087 
1088 /* Rate (link-rate) */
1089 #define AGSA_DEV_INFO_RATE_MASK                     0x0000000F /* bits 0-3 */
1090 #define AGSA_DEV_INFO_RATE_1_5G                     0x00000008 /* 8h */
1091 #define AGSA_DEV_INFO_RATE_3_0G                     0x00000009 /* 9h */
1092 #define AGSA_DEV_INFO_RATE_6_0G                     0x0000000A /* Ah */
1093 #define AGSA_DEV_INFO_RATE_12_0G                    0x0000000B /* Bh */
1094 
1095 /* devType */
1096 #define AGSA_DEV_INFO_DEV_TYPE_MASK                 0x000000E0 /* bits 5-7 */
1097 #define AGSA_DEV_INFO_DEV_TYPE_END_DEVICE           0x00000020 /* 001b */
1098 #define AGSA_DEV_INFO_DEV_TYPE_EDGE_EXP_DEVICE      0x00000040 /* 010b */
1099 #define AGSA_DEV_INFO_DEV_TYPE_FANOUT_EXP_DEVICE    0x00000060 /* 011b */
1100 
1101 /*****************************************************************************
1102 ** SAS TM Function definitions see SAS spec p308 Table 105 (Revision 7)
1103 *****************************************************************************/
1104 #define AGSA_ABORT_TASK                             0x01
1105 #define AGSA_ABORT_TASK_SET                         0x02
1106 #define AGSA_CLEAR_TASK_SET                         0x04
1107 #define AGSA_LOGICAL_UNIT_RESET                     0x08
1108 #define AGSA_IT_NEXUS_RESET                         0x10
1109 #define AGSA_CLEAR_ACA                              0x40
1110 #define AGSA_QUERY_TASK                             0x80
1111 #define AGSA_QUERY_TASK_SET                         0x81
1112 #define AGSA_QUERY_UNIT_ATTENTION                   0x82
1113 
1114 /*****************************************************************************
1115 ** SAS TM Function Response Code see SAS spec p312 Table 111 (Revision 7)
1116 *****************************************************************************/
1117 #define AGSA_TASK_MANAGEMENT_FUNCTION_COMPLETE      0x0
1118 #define AGSA_INVALID_FRAME                          0x2
1119 #define AGSA_TASK_MANAGEMENT_FUNCTION_NOT_SUPPORTED 0x4
1120 #define AGSA_TASK_MANAGEMENT_FUNCTION_FAILED        0x5
1121 #define AGSA_TASK_MANAGEMENT_FUNCTION_SUCCEEDED     0x8
1122 #define AGSA_INCORRECT_LOGICAL_UNIT_NUMBER          0x9
1123 /* SAS spec 9.2.2.5.3 p356 Table 128 (Revision 9e) */
1124 #define AGSA_OVERLAPPED_TAG_ATTEMPTED               0xA
1125 
1126 #define AGSA_SATA_BSY_OVERRIDE                      0x00080000
1127 #define AGSA_SATA_CLOSE_CLEAR_AFFILIATION           0x00400000
1128 
1129 #define AGSA_MAX_SMPPAYLOAD_VIA_SFO                 40
1130 #define AGSA_MAX_SSPPAYLOAD_VIA_SFO                 36
1131 
1132 /* SATA Initiator Request option field defintion */
1133 #define AGSA_RETURN_D2H_FIS_GOOD_COMPLETION         0x000001
1134 #define AGSA_SATA_ENABLE_ENCRYPTION                 0x000004
1135 #define AGSA_SATA_ENABLE_DIF                        0x000008
1136 #define AGSA_SATA_SKIP_QWORD                        0xFFFF00
1137 
1138 /* SAS Initiator Request flag definitions */
1139 /* Bits 0,1 use TLR_MASK */
1140 
1141 #define AGSA_SAS_ENABLE_ENCRYPTION                  0x0004
1142 #define AGSA_SAS_ENABLE_DIF                         0x0008
1143 
1144 #ifdef SAFLAG_USE_DIF_ENC_IOMB
1145 #define AGSA_SAS_USE_DIF_ENC_OPSTART                0x0010
1146 #endif /* SAFLAG_USE_DIF_ENC_IOMB */
1147 
1148 #define AGSA_SAS_ENABLE_SKIP_MASK                   0x0010
1149 #define AGSA_SAS_SKIP_MASK_OFFSET                   0xFFE0
1150 
1151 /****************************************************************************
1152 ** SMP Phy control Phy Operation field
1153 ****************************************************************************/
1154 #define AGSA_PHY_CONTROL_LINK_RESET_OP              0x1
1155 #define AGSA_PHY_CONTROL_HARD_RESET_OP              0x2
1156 #define AGSA_PHY_CONTROL_DISABLE                    0x3
1157 #define AGSA_PHY_CONTROL_CLEAR_ERROR_LOG_OP         0x5
1158 #define AGSA_PHY_CONTROL_CLEAR_AFFILIATION          0x6
1159 #define AGSA_PHY_CONTROL_XMIT_SATA_PS_SIGNAL        0x7
1160 
1161 /****************************************************************************
1162 ** SAS Diagnostic Operation code
1163 ****************************************************************************/
1164 #define AGSA_SAS_DIAG_START                         0x1
1165 #define AGSA_SAS_DIAG_END                           0x0
1166 
1167 /****************************************************************************
1168 ** Port Control constants
1169 ****************************************************************************/
1170 #define AGSA_PORT_SET_SMP_PHY_WIDTH                 0x1
1171 #define AGSA_PORT_SET_PORT_RECOVERY_TIME            0x2
1172 #define AGSA_PORT_IO_ABORT                          0x3
1173 #define AGSA_PORT_SET_PORT_RESET_TIME               0x4
1174 #define AGSA_PORT_HARD_RESET                        0x5
1175 #define AGSA_PORT_CLEAN_UP                          0x6
1176 #define AGSA_STOP_PORT_RECOVERY_TIMER               0x7
1177 
1178 /* Device State */
1179 #define SA_DS_OPERATIONAL                           0x1
1180 #define SA_DS_PORT_IN_RESET                         0x2
1181 #define SA_DS_IN_RECOVERY                           0x3
1182 #define SA_DS_IN_ERROR                              0x4
1183 #define SA_DS_NON_OPERATIONAL                       0x7
1184 
1185 /************************************************************************************
1186  *                                                                                  *
1187  *               Constants defined for LL Layer ends                                *
1188  *                                                                                  *
1189  ************************************************************************************/
1190 
1191 /************************************************************************************
1192  *                                                                                  *
1193  *               Constants defined for OS Layer starts                              *
1194  *                                                                                  *
1195  ************************************************************************************/
1196 /*****************************************
1197  *  ossaXXX return values
1198  ******************************************/
1199 /* common for all ossaXXX CB */
1200 #define OSSA_SUCCESS                                0x00   /**< flag indicates successful callback status */
1201 #define OSSA_FAILURE                                0x01   /**< flag indicates failed callback status */
1202 
1203 /* ossaHwCB() */
1204 #define OSSA_RESET_PENDING                          0x03   /**< flag indicates reset pending callback status */
1205 #define OSSA_CHIP_FAILED                            0x04   /**< flag indicates chip failed callback status */
1206 #define OSSA_FREEZE_FAILED                          0x05   /**< flag indicates freeze failed callback status */
1207 
1208 /* ossaLocalPhyControl() */
1209 #define OSSA_PHY_CONTROL_FAILURE                    0x03   /**< flag indicates phy Control operation failure */
1210 
1211 /* ossaDeviceRegisterCB() */
1212 #define OSSA_FAILURE_OUT_OF_RESOURCE                0x01   /**< flag indicates failed callback status */
1213 #define OSSA_FAILURE_DEVICE_ALREADY_REGISTERED      0x02   /**< flag indicates failed callback status */
1214 #define OSSA_FAILURE_INVALID_PHY_ID                 0x03   /**< flag indicates failed callback status */
1215 #define OSSA_FAILURE_PHY_ID_ALREADY_REGISTERED      0x04   /**< flag indicates failed callback status */
1216 #define OSSA_FAILURE_PORT_ID_OUT_OF_RANGE           0x05   /**< flag indicates failed callback status */
1217 #define OSSA_FAILURE_PORT_NOT_VALID_STATE           0x06   /**< flag indicates failed callback status */
1218 #define OSSA_FAILURE_DEVICE_TYPE_NOT_VALID          0x07   /**< flag indicates failed callback status */
1219 #define OSSA_ERR_DEVICE_HANDLE_UNAVAILABLE          0x1020
1220 #define OSSA_ERR_DEVICE_ALREADY_REGISTERED          0x1021
1221 #define OSSA_ERR_DEVICE_TYPE_NOT_VALID              0x1022
1222 
1223 #define OSSA_MPI_ERR_DEVICE_ACCEPT_PENDING          0x1027 /**/
1224 
1225 #define OSSA_ERR_PORT_INVALID                       0x1041
1226 #define OSSA_ERR_PORT_STATE_NOT_VALID               0x1042
1227 
1228 #define OSSA_ERR_PORT_SMP_PHY_WIDTH_EXCEED          0x1045
1229 
1230 #define OSSA_ERR_PHY_ID_INVALID                     0x1061
1231 #define OSSA_ERR_PHY_ID_ALREADY_REGISTERED          0x1062
1232 
1233 
1234 
1235 /* ossaDeregisterDeviceCB() */
1236 #define OSSA_INVALID_HANDLE                         0x02   /**< flag indicates failed callback status */
1237 #define OSSA_ERR_DEVICE_HANDLE_INVALID              0x1023 /* MPI_ERR_DEVICE_HANDLE_INVALID The device handle associated with DEVICE_ID does not exist. */
1238 #define OSSA_ERR_DEVICE_BUSY                        0x1024 /* MPI_ERR_DEVICE_BUSY Device has outstanding I/Os. */
1239 
1240 
1241 #define OSSA_RC_ACCEPT                              0x00   /**< flag indicates the result of the callback function */
1242 #define OSSA_RC_REJECT                              0x01   /**< flag indicates the result of the callback function */
1243 
1244 /* ossaSetDeviceStateCB() */
1245 #define OSSA_INVALID_STATE                          0x0001
1246 #define OSSA_ERR_DEVICE_NEW_STATE_INVALID           0x1025
1247 #define OSSA_ERR_DEVICE_STATE_CHANGE_NOT_ALLOWED    0x1026
1248 #define OSSA_ERR_DEVICE_STATE_INVALID               0x0049
1249 
1250 /* status of ossaSASDiagExecuteCB() */
1251 #define OSSA_DIAG_SUCCESS                           0x00 /* Successful SAS diagnostic command. */
1252 #define OSSA_DIAG_INVALID_COMMAND                   0x01 /* Invalid SAS diagnostic command. */
1253 #define OSSA_REGISTER_ACCESS_TIMEOUT                0x02 /* Register access has been timed-out. This is applicable only to the SPCv controller. */
1254 #define OSSA_DIAG_FAIL                              0x02 /* SAS diagnostic command failed. This is applicable only to the SPC controller. */
1255 #define OSSA_DIAG_NOT_IN_DIAGNOSTIC_MODE            0x03 /* Attempted to execute SAS diagnostic command but PHY is not in diagnostic mode */
1256 #define OSSA_DIAG_INVALID_PHY                       0x04 /* Attempted to execute SAS diagnostic command on an invalid/out-of-range PHY. */
1257 #define OSSA_MEMORY_ALLOC_FAILURE                   0x05 /* Memory allocation failed in diagnostic. This is applicable only to the SPCv controller. */
1258 
1259 
1260 /* status of ossaSASDiagStartEndCB() */
1261 #define OSSA_DIAG_SE_SUCCESS                        0x00
1262 #define OSSA_DIAG_SE_INVALID_PHY_ID                 0x01
1263 #define OSSA_DIAG_PHY_NOT_DISABLED                  0x02
1264 #define OSSA_DIAG_OTHER_FAILURE                     0x03 /* SPC */
1265 #define OSSA_DIAG_OPCODE_INVALID                    0x03
1266 
1267 /* status of ossaPortControlCB() */
1268 #define OSSA_PORT_CONTROL_FAILURE                   0x03
1269 
1270 #define OSSA_MPI_ERR_PORT_IO_RESOURCE_UNAVAILABLE   0x1004
1271 #define OSSA_MPI_ERR_PORT_INVALID                   0x1041 /**/
1272 #define OSSA_MPI_ERR_PORT_OP_NOT_IN_USE             0x1043 /**/
1273 #define OSSA_MPI_ERR_PORT_OP_NOT_SUPPORTED          0x1044 /**/
1274 #define OSSA_MPI_ERR_PORT_SMP_WIDTH_EXCEEDED        0x1045 /**/
1275 #define OSSA_MPI_ERR_PORT_NOT_IN_CORRECT_STATE      0x1047 /**/
1276 
1277 /*regDumpNum of agsaRegDumpInfo_t */
1278 #define GET_GSM_SM_INFO                             0x02
1279 #define GET_IOST_RB_INFO                            0x03
1280 
1281 /************************************************************************************
1282  *               HW Events
1283  ************************************************************************************/
1284 #define OSSA_HW_EVENT_RESET_START                   0x01   /**< flag indicates reset started event */
1285 #define OSSA_HW_EVENT_RESET_COMPLETE                0x02   /**< flag indicates chip reset completed event */
1286 #define OSSA_HW_EVENT_PHY_STOP_STATUS               0x03   /**< flag indicates phy stop event status */
1287 #define OSSA_HW_EVENT_SAS_PHY_UP                    0x04   /**< flag indicates SAS link up event */
1288 #define OSSA_HW_EVENT_SATA_PHY_UP                   0x05   /**< flag indicates SATA link up event */
1289 #define OSSA_HW_EVENT_SATA_SPINUP_HOLD              0x06   /**< flag indicates SATA spinup hold event */
1290 #define OSSA_HW_EVENT_PHY_DOWN                      0x07   /**< flag indicates link down event */
1291 
1292 #define OSSA_HW_EVENT_BROADCAST_CHANGE              0x09   /**< flag indicates broadcast change event */
1293 /* not used spcv 0x0A*/
1294 #define OSSA_HW_EVENT_PHY_ERROR                     0x0A   /**< flag indicates link error event */
1295 #define OSSA_HW_EVENT_BROADCAST_SES                 0x0B   /**< flag indicates broadcast change (SES) event */
1296 #define OSSA_HW_EVENT_PHY_ERR_INBOUND_CRC           0x0C
1297 #define OSSA_HW_EVENT_HARD_RESET_RECEIVED           0x0D   /**< flag indicates hardware reset received event */
1298 /* not used spcv 0x0E*/
1299 #define OSSA_HW_EVENT_MALFUNCTION                   0x0E   /**< flag indicates unrecoverable Error */
1300 #define OSSA_HW_EVENT_ID_FRAME_TIMEOUT              0x0F   /**< flag indicates ID Frame Timeout event */
1301 #define OSSA_HW_EVENT_BROADCAST_EXP                 0x10   /**< flag indicates broadcast (EXPANDER) event */
1302 /* not used spcv 0x11*/
1303 #define OSSA_HW_EVENT_PHY_START_STATUS              0x11   /**< flag indicates phy start event status */
1304 #define OSSA_HW_EVENT_PHY_ERR_INVALID_DWORD         0x12   /**< flag indicates Link error invalid DWORD */
1305 #define OSSA_HW_EVENT_PHY_ERR_DISPARITY_ERROR       0x13   /**< flag indicates Phy error disparity */
1306 #define OSSA_HW_EVENT_PHY_ERR_CODE_VIOLATION        0x14   /**< flag indicates Phy error code violation */
1307 #define OSSA_HW_EVENT_PHY_ERR_LOSS_OF_DWORD_SYNCH   0x15   /**< flag indicates Link error loss of DWORD synch */
1308 #define OSSA_HW_EVENT_PHY_ERR_PHY_RESET_FAILED      0x16   /**< flag indicates Link error phy reset failed */
1309 #define OSSA_HW_EVENT_PORT_RECOVERY_TIMER_TMO       0x17   /**< flag indicates Port Recovery timeout */
1310 #define OSSA_HW_EVENT_PORT_RECOVER                  0x18   /**< flag indicates Port Recovery */
1311 #define OSSA_HW_EVENT_PORT_RESET_TIMER_TMO          0x19   /**< flag indicates Port Reset Timer out */
1312 #define OSSA_HW_EVENT_PORT_RESET_COMPLETE           0x20   /**< flag indicates Port Reset Complete */
1313 #define OSSA_HW_EVENT_BROADCAST_ASYNCH_EVENT        0x21   /**< flag indicates Broadcast Asynch Event */
1314 #define OSSA_HW_EVENT_IT_NEXUS_LOSS                 0x22   /**< Custom: H/W event for IT Nexus Loss */
1315 
1316 #define OSSA_HW_EVENT_OPEN_RETRY_BACKOFF_THR_ADJUSTED 0x25
1317 
1318 #define OSSA_HW_EVENT_ENCRYPTION                    0x83   /**< TSDK internal flag indicating that an encryption event occurred */
1319 #define OSSA_HW_EVENT_MODE                          0x84   /**< TSDK internal flag indicating that a controller mode page operation completed */
1320 #define OSSA_HW_EVENT_SECURITY_MODE                 0x85   /**< TSDK internal flag indicating that saEncryptSetMode() completed */
1321 
1322 
1323 /* port state */
1324 #define OSSA_PORT_NOT_ESTABLISHED                   0x00   /**< flag indicates port is not established */
1325 #define OSSA_PORT_VALID                             0x01   /**< flag indicates port valid */
1326 #define OSSA_PORT_LOSTCOMM                          0x02   /**< flag indicates port lost communication */
1327 #define OSSA_PORT_IN_RESET                          0x04   /**< flag indicates port in reset state */
1328 #define OSSA_PORT_3RDPARTY_RESET                    0x07   /**< flag indicates port in 3rd party reset state */
1329 #define OSSA_PORT_INVALID                           0x08   /**< flag indicates port invalid */
1330 
1331 /* status for agsaHWEventMode_t */
1332 #define OSSA_CTL_SUCCESS                            0x0000
1333 #define OSSA_CTL_INVALID_CONFIG_PAGE                0x1001
1334 #define OSSA_CTL_INVALID_PARAM_IN_CONFIG_PAGE       0x1002
1335 #define OSSA_CTL_INVALID_ENCRYPTION_SECURITY_MODE   0x1003
1336 #define OSSA_CTL_RESOURCE_NOT_AVAILABLE             0x1004
1337 #define OSSA_CTL_CONTROLLER_NOT_IDLE                0x1005
1338 // #define OSSA_CTL_NVM_MEMORY_ACCESS_ERR              0x100B
1339 #define OSSA_CTL_OPERATOR_AUTHENTICATION_FAILURE    0x100XX
1340 
1341 
1342 
1343 /************************************************************************************
1344  *               General Events value
1345  ************************************************************************************/
1346 #define OSSA_INBOUND_V_BIT_NOT_SET                  0x01
1347 #define OSSA_INBOUND_OPC_NOT_SUPPORTED              0x02
1348 #define OSSA_INBOUND_IOMB_INVALID_OBID              0x03
1349 
1350 /************************************************************************************
1351  *               FW Flash Update status values
1352  ************************************************************************************/
1353 #define OSSA_FLASH_UPDATE_COMPLETE_PENDING_REBOOT   0x00   /**< flag indicates fw flash update completed */
1354 #define OSSA_FLASH_UPDATE_IN_PROGRESS               0x01   /**< flag indicates fw flash update in progress */
1355 #define OSSA_FLASH_UPDATE_HDR_ERR                   0x02   /**< flag indicates fw flash header error */
1356 #define OSSA_FLASH_UPDATE_OFFSET_ERR                0x03   /**< flag indicates fw flash offset error */
1357 #define OSSA_FLASH_UPDATE_CRC_ERR                   0x04   /**< flag indicates fw flash CRC error */
1358 #define OSSA_FLASH_UPDATE_LENGTH_ERR                0x05   /**< flag indicates fw flash length error */
1359 #define OSSA_FLASH_UPDATE_HW_ERR                    0x06   /**< flag indicates fw flash HW error */
1360 #define OSSA_FLASH_UPDATE_HMAC_ERR                  0x0E   /**< flag indicates fw flash Firmware image HMAC authentication failure.*/
1361 
1362 #define OSSA_FLASH_UPDATE_DNLD_NOT_SUPPORTED        0x10   /**< flag indicates fw flash down load not supported */
1363 #define OSSA_FLASH_UPDATE_DISABLED                  0x11   /**< flag indicates fw flash Update disabled */
1364 #define OSSA_FLASH_FWDNLD_DEVICE_UNSUPPORT          0x12   /**< flag indicates fw flash Update disabled */
1365 
1366 /************************************************************************************
1367 *               Discovery status values
1368 ************************************************************************************/
1369 #define OSSA_DISCOVER_STARTED                       0x00   /**< flag indicates discover started */
1370 #define OSSA_DISCOVER_FOUND_DEVICE                  0x01   /**< flag indicates discovery found a new device */
1371 #define OSSA_DISCOVER_REMOVED_DEVICE                0x02   /**< flag indicates discovery found a device removed */
1372 #define OSSA_DISCOVER_COMPLETE                      0x03   /**< flag indicates discover completed */
1373 #define OSSA_DISCOVER_ABORT                         0x04   /**< flag indicates discover error12 */
1374 #define OSSA_DISCOVER_ABORT_ERROR_1                 0x05   /**< flag indicates discover error1 */
1375 #define OSSA_DISCOVER_ABORT_ERROR_2                 0x06   /**< flag indicates discover error2 */
1376 #define OSSA_DISCOVER_ABORT_ERROR_3                 0x07   /**< flag indicates discover error3 */
1377 #define OSSA_DISCOVER_ABORT_ERROR_4                 0x08   /**< flag indicates discover error4 */
1378 #define OSSA_DISCOVER_ABORT_ERROR_5                 0x09   /**< flag indicates discover error5 */
1379 #define OSSA_DISCOVER_ABORT_ERROR_6                 0x0A   /**< flag indicates discover error6 */
1380 #define OSSA_DISCOVER_ABORT_ERROR_7                 0x0B   /**< flag indicates discover error7 */
1381 #define OSSA_DISCOVER_ABORT_ERROR_8                 0x0C   /**< flag indicates discover error8 */
1382 #define OSSA_DISCOVER_ABORT_ERROR_9                 0x0D   /**< flag indicates discover error9 */
1383 
1384 /***********************************************************************************
1385  *                        Log Debug Levels
1386  ***********************************************************************************/
1387 #define OSSA_DEBUG_LEVEL_0                          0x00   /**< debug level 0 */
1388 #define OSSA_DEBUG_LEVEL_1                          0x01   /**< debug level 1 */
1389 #define OSSA_DEBUG_LEVEL_2                          0x02   /**< debug level 2 */
1390 #define OSSA_DEBUG_LEVEL_3                          0x03   /**< debug level 3 */
1391 #define OSSA_DEBUG_LEVEL_4                          0x04   /**< debug level 4 */
1392 
1393 #define OSSA_DEBUG_PRINT_INVALID_NUMBER             0xFFFFFFFF   /**< the number won't be printed by OS layer */
1394 
1395 #define OSSA_FRAME_TYPE_SSP_CMD                     0x06   /**< flag indicates received frame is SSP command */
1396 #define OSSA_FRAME_TYPE_SSP_TASK                    0x16   /**< flag indicates received frame is SSP task management */
1397 
1398 /* Event Source Type of saRegisterEventCallback() */
1399 #define OSSA_EVENT_SOURCE_DEVICE_HANDLE_ADDED       0x00
1400 #define OSSA_EVENT_SOURCE_DEVICE_HANDLE_REMOVED     0x01
1401 
1402 /* Status of Get Device Info CB */
1403 #define OSSA_DEV_INFO_INVALID_HANDLE                0x01
1404 #define OSSA_DEV_INFO_NO_EXTENDED_INFO              0x02
1405 #define OSSA_DEV_INFO_SAS_EXTENDED_INFO             0x03
1406 #define OSSA_DEV_INFO_SATA_EXTENDED_INFO            0x04
1407 
1408 /* Diagnostic Command Type */
1409 #define AGSA_CMD_TYPE_DIAG_OPRN_PERFORM             0x00
1410 #define AGSA_CMD_TYPE_DIAG_OPRN_STOP                0x01
1411 #define AGSA_CMD_TYPE_DIAG_THRESHOLD_SPECIFY        0x02
1412 #define AGSA_CMD_TYPE_DIAG_RECEIVE_ENABLE           0x03
1413 #define AGSA_CMD_TYPE_DIAG_REPORT_GET               0x04
1414 #define AGSA_CMD_TYPE_DIAG_ERR_CNT_RESET            0x05
1415 
1416 /* Command Description for CMD_TYPE DIAG_OPRN_PERFORM, DIAG_OPRN_STOP, THRESHOLD_SPECIFY */
1417 #define AGSA_CMD_DESC_PRBS                          0x00
1418 #define AGSA_CMD_DESC_CJTPAT                        0x01
1419 #define AGSA_CMD_DESC_USR_PATTERNS                  0x02
1420 #define AGSA_CMD_DESC_PRBS_ERR_INSERT               0x08
1421 #define AGSA_CMD_DESC_PRBS_INVERT                   0x09
1422 #define AGSA_CMD_DESC_CJTPAT_INVERT                 0x0A
1423 #define AGSA_CMD_DESC_CODE_VIOL_INSERT              0x0B
1424 #define AGSA_CMD_DESC_DISP_ERR_INSERT               0x0C
1425 #define AGSA_CMD_DESC_SSPA_PERF_EVENT_1             0x0E
1426 #define AGSA_CMD_DESC_LINE_SIDE_ANA_LPBK            0x10
1427 #define AGSA_CMD_DESC_LINE_SIDE_DIG_LPBK            0x11
1428 #define AGSA_CMD_DESC_SYS_SIDE_ANA_LPBK             0x12
1429 
1430 /* Command Description for CMD_TYPE DIAG_REPORT_GET and ERR_CNT_RESET */
1431 #define AGSA_CMD_DESC_PRBS_ERR_CNT                  0x00
1432 #define AGSA_CMD_DESC_CODE_VIOL_ERR_CNT             0x01
1433 #define AGSA_CMD_DESC_DISP_ERR_CNT                  0x02
1434 #define AGSA_CMD_DESC_LOST_DWD_SYNC_CNT             0x05
1435 #define AGSA_CMD_DESC_INVALID_DWD_CNT               0x06
1436 #define AGSA_CMD_DESC_CODE_VIOL_ERR_CNT_THHD        0x09
1437 #define AGSA_CMD_DESC_DISP_ERR_CNT_THHD             0x0A
1438 #define AGSA_CMD_DESC_SSPA_PERF_CNT                 0x0B
1439 #define AGSA_CMD_DESC_PHY_RST_CNT                   0x0C
1440 #define AGSA_CMD_DESC_SSPA_PERF_1_THRESHOLD         0x0E
1441 
1442 #define AGSA_CMD_DESC_CODE_VIOL_ERR_THHD            0x19
1443 #define AGSA_CMD_DESC_DISP_ERR_THHD                 0x1A
1444 #define AGSA_CMD_DESC_RX_LINK_BANDWIDTH             0x1B
1445 #define AGSA_CMD_DESC_TX_LINK_BANDWIDTH             0x1C
1446 #define AGSA_CMD_DESC_ALL                           0x1F
1447 
1448 /* NVMDevice type */
1449 #define AGSA_NVMD_TWI_DEVICES                       0x00
1450 #define AGSA_NVMD_CONFIG_SEEPROM                    0x01
1451 #define AGSA_NVMD_VPD_FLASH                         0x04
1452 #define AGSA_NVMD_AAP1_REG_FLASH                    0x05
1453 #define AGSA_NVMD_IOP_REG_FLASH                     0x06
1454 #define AGSA_NVMD_EXPANSION_ROM                     0x07
1455 #define AGSA_NVMD_REG_FLASH                         0x05
1456 
1457 
1458 /* GET/SET NVMD Data Response errors */
1459 #define OSSA_NVMD_SUCCESS                           0x0000
1460 #define OSSA_NVMD_MODE_ERROR                        0x0001
1461 #define OSSA_NVMD_LENGTH_ERROR                      0x0002
1462 #define OSSA_NVMD_TWI_ADDRESS_SIZE_ERROR            0x0005
1463 #define OSSA_NVMD_TWI_NACK_ERROR                    0x2001
1464 #define OSSA_NVMD_TWI_LOST_ARB_ERROR                0x2002
1465 #define OSSA_NVMD_TWI_TIMEOUT_ERROR                 0x2021
1466 #define OSSA_NVMD_TWI_BUS_NACK_ERROR                0x2081
1467 #define OSSA_NVMD_TWI_ARB_FAILED_ERROR              0x2082
1468 #define OSSA_NVMD_TWI_BUS_TIMEOUT_ERROR             0x20FF
1469 #define OSSA_NVMD_FLASH_PARTITION_NUM_ERROR         0x9001
1470 #define OSSA_NVMD_FLASH_LENGTH_TOOBIG_ERROR         0x9002
1471 #define OSSA_NVMD_FLASH_PROGRAM_ERROR               0x9003
1472 #define OSSA_NVMD_FLASH_DEVICEID_ERROR              0x9004
1473 #define OSSA_NVMD_FLASH_VENDORID_ERROR              0x9005
1474 #define OSSA_NVMD_FLASH_ERASE_TIMEOUT_ERROR         0x9006
1475 #define OSSA_NVMD_FLASH_ERASE_ERROR                 0x9007
1476 #define OSSA_NVMD_FLASH_BUSY_ERROR                  0x9008
1477 #define OSSA_NVMD_FLASH_NOT_SUPPORT_DEVICE_ERROR    0x9009
1478 #define OSSA_NVMD_FLASH_CFI_INF_ERROR               0x900A
1479 #define OSSA_NVMD_FLASH_MORE_ERASE_BLOCK_ERROR      0x900B
1480 #define OSSA_NVMD_FLASH_READ_ONLY_ERROR             0x900C
1481 #define OSSA_NVMD_FLASH_MAP_TYPE_ERROR              0x900D
1482 #define OSSA_NVMD_FLASH_MAP_DISABLE_ERROR           0x900E
1483 
1484 /************************************************************
1485 * ossaHwCB Encryption encryptOperation of agsaHWEventEncrypt_t
1486 ************************************************************/
1487 #define OSSA_HW_ENCRYPT_KEK_UPDATE                      0x0000
1488 #define OSSA_HW_ENCRYPT_KEK_UPDATE_AND_STORE            0x0001
1489 #define OSSA_HW_ENCRYPT_KEK_INVALIDTE                   0x0002
1490 #define OSSA_HW_ENCRYPT_DEK_UPDATE                      0x0003
1491 #define OSSA_HW_ENCRYPT_DEK_INVALIDTE                   0x0004
1492 #define OSSA_HW_ENCRYPT_OPERATOR_MANAGEMENT             0x0005
1493 #define OSSA_HW_ENCRYPT_TEST_EXECUTE                    0x0006
1494 #define OSSA_HW_ENCRYPT_SET_OPERATOR                    0x0007
1495 #define OSSA_HW_ENCRYPT_GET_OPERATOR                    0x0008
1496 
1497 
1498 /************************************************************
1499 * ossaHwCB Encryption status of agsaHWEventEncrypt_t
1500 ************************************************************/
1501 /* KEK and DEK managment status from PM */
1502 #define OSSA_INVALID_ENCRYPTION_SECURITY_MODE           0x1003
1503 #define OSSA_KEK_MGMT_SUBOP_NOT_SUPPORTED_              0x2000     /*not in PM 101222*/
1504 #define OSSA_DEK_MGMT_SUBOP_NOT_SUPPORTED               0x2000
1505 #define OSSA_MPI_ENC_ERR_ILLEGAL_DEK_PARAM              0x2001
1506 #define OSSA_MPI_ERR_DEK_MANAGEMENT_DEK_UNWRAP_FAIL     0x2002
1507 #define OSSA_MPI_ENC_ERR_ILLEGAL_KEK_PARAM              0x2021
1508 #define OSSA_MPI_ERR_KEK_MANAGEMENT_KEK_UNWRAP_FAIL     0x2022
1509 #define OSSA_MPI_ERR_KEK_MANAGEMENT_NVRAM_OPERATION_FAIL 0x2023
1510 
1511 /*encrypt operator management response status */
1512 #define OSSA_OPR_MGMT_OP_NOT_SUPPORTED                  0x2060
1513 #define OSSA_MPI_ENC_ERR_OPR_PARAM_ILLEGAL              0x2061
1514 #define OSSA_MPI_ENC_ERR_OPR_ID_NOT_FOUND               0x2062
1515 #define OSSA_MPI_ENC_ERR_OPR_ROLE_NOT_MATCH             0x2063
1516 #define OSSA_MPI_ENC_ERR_OPR_MAX_NUM_EXCEEDED           0x2064
1517 
1518 /*encrypt saSetOperator() response status */
1519 #define OSSA_MPI_ENC_ERR_CONTROLLER_NOT_IDLE            0x1005
1520 #define OSSA_MPI_ENC_NVM_MEM_ACCESS_ERR                 0x100B
1521 
1522 /* agsaEncryptSMX | agsaEncryptCipherMode == cipherMode for saEncryptSetMode()*/
1523 /* Make sure all definitions are unique bits */
1524 #define agsaEncryptSMF                            0x00000000
1525 #define agsaEncryptSMA                            0x00000100
1526 #define agsaEncryptSMB                            0x00000200
1527 #define agsaEncryptReturnSMF                    (1 << 12)
1528 #define agsaEncryptAuthorize                    (1 << 13)
1529 
1530 /*
1531 Bits 16-23: Allowable Cipher Mode(ACM)
1532 Bit 16: Enable AES ECB. If set to 1, AES ECB is enable. If set to 0, AES ECB is disabled.
1533 Bit 22: Enable AES XTS. If set to 1, AES XTS is enable. If set to 0, AES XTS is disabled.
1534 */
1535 #define agsaEncryptAcmMask                        0x00ff0000
1536 #define agsaEncryptEnableAES_ECB                (1 << 16)
1537 #define agsaEncryptEnableAES_XTS                (1 << 22)
1538 
1539 
1540 
1541 #define agsaEncryptCipherModeECB                  0x00000001
1542 #define agsaEncryptCipherModeXTS                  0x00000002
1543 
1544 
1545 
1546 #define agsaEncryptStatusNoNVRAM                  0x00000001
1547 #define agsaEncryptStatusNVRAMErr                 0x00000002
1548 
1549 /*
1550 
1551 Bin    Hex  Sector      Total
1552 00000 :0x0  512B        512
1553 11000 :0x1  520B        520
1554 00010 :0x2  4K          4096
1555 00011 :0x3  4K+64B      4160
1556 00100 :0x4  4K+128B     4224
1557 
1558 11000 :0x18 512+8B      520
1559 11001 :0x19 520+8B      528
1560 11010 :0x1A 4K+8B       4104
1561 11011 :0x1B 4K+64B+8B   4168
1562 11100 :0x1C 4K+128B+8B  4232
1563 
1564 */
1565 
1566 #define agsaEncryptSectorSize512                        0
1567 /*  define agsaEncryptSectorSize520                     1 Not supported */
1568 #define agsaEncryptSectorSize4096                       2
1569 #define agsaEncryptSectorSize4160                       3
1570 #define agsaEncryptSectorSize4224                       4
1571 
1572 #define agsaEncryptDIFSectorSize520                     (agsaEncryptSectorSize512  | 0x18)
1573 #define agsaEncryptDIFSectorSize528                     ( 0x19)
1574 #define agsaEncryptDIFSectorSize4104                    (agsaEncryptSectorSize4096 | 0x18)
1575 #define agsaEncryptDIFSectorSize4168                    (agsaEncryptSectorSize4160 | 0x18)
1576 #define agsaEncryptDIFSectorSize4232                    (agsaEncryptSectorSize4224 | 0x18)
1577 
1578 
1579 #define AGSA_ENCRYPT_STORE_NVRAM                         1
1580 
1581 /************************************************************
1582 * ossaHwCB Mode page event definitions
1583 ************************************************************/
1584 #define agsaModePageGet                                    1
1585 #define agsaModePageSet                                    2
1586 
1587 /************************************************************
1588 * saSgpio() SGPIO Function and Register type
1589 ************************************************************/
1590 #define AGSA_READ_SGPIO_REGISTER                         0x02
1591 #define AGSA_WRITE_SGPIO_REGISTER                        0x82
1592 
1593 #define AGSA_SGPIO_CONFIG_REG                            0x0
1594 #define AGSA_SGPIO_DRIVE_BY_DRIVE_RECEIVE_REG            0x1
1595 #define AGSA_SGPIO_GENERAL_PURPOSE_RECEIVE_REG           0x2
1596 #define AGSA_SGPIO_DRIVE_BY_DRIVE_TRANSMIT_REG           0x3
1597 #define AGSA_SGPIO_GENERAL_PURPOSE_TRANSMIT_REG          0x4
1598 
1599 /************************************************************
1600 * ossaSGpioCB() Function result
1601 ************************************************************/
1602 #define OSSA_SGPIO_COMMAND_SUCCESS                          0x00
1603 #define OSSA_SGPIO_CMD_ERROR_WRONG_FRAME_TYPE               0x01
1604 #define OSSA_SGPIO_CMD_ERROR_WRONG_REG_TYPE                 0x02
1605 #define OSSA_SGPIO_CMD_ERROR_WRONG_REG_INDEX                0x03
1606 #define OSSA_SGPIO_CMD_ERROR_WRONG_REG_COUNT                0x04
1607 #define OSSA_SGPIO_CMD_ERROR_WRONG_FRAME_REG_TYPE           0x05
1608 #define OSSA_SGPIO_CMD_ERROR_WRONG_FUNCTION                 0x06
1609 #define OSSA_SGPIO_CMD_ERROR_WRONG_FRAME_TYPE_REG_INDEX     0x19
1610 #define OSSA_SGPIO_CMD_ERROR_WRONG_FRAME_TYPE_REG_CNT       0x81
1611 #define OSSA_SGPIO_CMD_ERROR_WRONG_REG_TYPE_REG_INDEX       0x1A
1612 #define OSSA_SGPIO_CMD_ERROR_WRONG_REG_TYPE_REG_COUNT       0x82
1613 #define OSSA_SGPIO_CMD_ERROR_WRONG_REG_INDEX_REG_COUNT      0x83
1614 #define OSSA_SGPIO_CMD_ERROR_WRONG_FRAME_REG_TYPE_REG_INDEX 0x1D
1615 #define OSSA_SGPIO_CMD_ERROR_WRONG_ALL_HEADER_PARAMS        0x9D
1616 
1617 #define OSSA_SGPIO_MAX_READ_DATA_COUNT                      0x0D
1618 #define OSSA_SGPIO_MAX_WRITE_DATA_COUNT                     0x0C
1619 
1620 /************************************************************
1621 * ossaGetDFEDataCB() status
1622 ************************************************************/
1623 #define OSSA_DFE_MPI_IO_SUCCESS                         0x0000
1624 #define OSSA_DFE_DATA_OVERFLOW                          0x0002
1625 #define OSSA_DFE_MPI_ERR_RESOURCE_UNAVAILABLE           0x1004
1626 #define OSSA_DFE_CHANNEL_DOWN                           0x100E
1627 #define OSSA_DFE_MEASUREMENT_IN_PROGRESS                0x100F
1628 #define OSSA_DFE_CHANNEL_INVALID                        0x1010
1629 #define OSSA_DFE_DMA_FAILURE                            0x1011
1630 
1631 /************************************************************************************
1632  *                                                                                  *
1633  *               Constants defined for OS Layer ends                                *
1634  *                                                                                  *
1635  ************************************************************************************/
1636 
1637 /************************************************************************************
1638  *                                                                                  *
1639  *               Data Structures Defined for LL API start                           *
1640  *                                                                                  *
1641  ************************************************************************************/
1642 /** \brief data structure stores OS specific and LL specific context
1643  *
1644  * The agsaContext_t data structure contains two generic pointers,
1645  * also known as handles, which are used to store OS Layer-specific and
1646  * LL Layer-specific contexts. Only the handle specific to a layer can
1647  * be modified by the layer. The other layer's handle must be returned
1648  * unmodified when communicating between the layers.
1649 
1650  * A layer's handle is typically typecast to an instance of a layer-specific
1651  * data structure. The layer can use its handle to point to any data type
1652  * that is to be associated with a function call. A handle provides a way
1653  * to uniquely identify responses when multiple calls to the same function
1654  * are necessary.
1655  *
1656  */
1657 typedef struct agsaContext_s
1658 {
1659   void  *osData; /**< Pointer-sized value used internally by the OS Layer */
1660   void  *sdkData; /**< Pointer-sized value used internally by the LL Layer */
1661 } agsaContext_t;
1662 
1663 /** \brief hold points to global data strutures used by the LL and OS Layers
1664  *
1665  * The agsaRoot_t data structure is used to hold pointer-sized values for
1666  * internal use by the LL and OS Layers. It is intended that the
1667  * sdkData element of the agsaRoot_t data structure be used to
1668  * identify an instance of the hardware context. The sdkData
1669  * element is set by the LL Layer in the saHwInitialize()
1670  * function and returned to the OS Layer in the agsaRoot_t data
1671  * structure
1672  */
1673 typedef agsaContext_t agsaRoot_t;
1674 
1675 /** \brief holds the pointers to the device data structure used by the LL and OS Layers
1676  *
1677  * The agsaDevHandle_t data structure is the device instance handle.
1678  * It holds pointer-sized values used internally by each of the LL and
1679  * OS Layers. It is intended that the agsaDevHandle_t data
1680  * structure be used to identify a specific device instance. A
1681  * device instance is uniquely identified by its device handle.
1682  */
1683 typedef agsaContext_t agsaDevHandle_t;
1684 
1685 /** \brief holds the pointers to the port data structure used by the LL and
1686  *  OS Layers
1687  *
1688  * The agsaPortContext_t data structure is used to describe an instance of
1689  * SAS port or SATA port. It holds pointer-sized values used
1690  * internally by each of the LL and OS Layers.
1691  *
1692  * When connected to other SAS end-devices or expanders, each instance of
1693  * agsaPortContext_t represents a SAS local narrow-port or
1694  * wide-port.
1695  *
1696  * When connected to SATA device, each instance of agsaPortContext_t
1697  * represents a local SATA port.
1698  *
1699  */
1700 typedef agsaContext_t agsaPortContext_t;
1701 
1702 /** \brief data structure pointer to IO request structure
1703  *
1704  * It is intended that the agsaIORequest_t structure be used to
1705  * uniquely identify each I/O Request for either target or
1706  * initiator. The OS Layer is responsible for allocating and
1707  * managing agsaIORequest_t structures. The LL Layer uses each
1708  * structure only between calls to: saSSPStart() and
1709  * ossaSSPCompleted(), saSATAStart() and ossaSATACompleted(),
1710  * saSMPStart() and ossaSMPCompleted()
1711  *
1712  */
1713 typedef agsaContext_t agsaIORequest_t;
1714 
1715 /** \brief handle to access frame
1716  *
1717  * This data structure is the handle to access frame
1718  */
1719 typedef void *agsaFrameHandle_t;
1720 
1721 /** \brief describe a SAS ReCofiguration structure in the SAS/SATA hardware
1722  *
1723  * Describe a SAS ReConfiguration in the SAS/SATA hardware
1724  *
1725  */
1726 typedef struct agsaSASReconfig_s {
1727   bit32     flags;                 /* flag to indicate a change to the default parameter
1728                                       bit31-30:reserved
1729                                       bit29:   a change to the default SAS/SATA ports is requested
1730                                       bit28:   the OPEN REJECT (RETRY) in command phase is requested
1731                                       bit27:   the OPEN REJECT (RETRY) in data phase is requested
1732                                       bit26:   REJECT will be mapped into OPEN REJECT
1733                                       bit25:   delay for SATA Head-of-Line blocking detection timeout
1734                                       bit24-00:reserved */
1735   bit16     reserved0;             /* reserved */
1736   bit8      reserved1;             /* reserved */
1737   bit8      maxPorts;              /* This field is valid if bit 29 of the flags field is set to 1 */
1738   bit16     openRejectRetriesCmd;  /* This field is valid if bit 28 of the flags field is set to 1 */
1739   bit16     openRejectRetriesData; /* This field is valid if bit 27 of the flags field is set to 1.*/
1740   bit16     reserved2;             /* reserved */
1741   bit16     sataHolTmo;            /* This field is valid if bit 25 of the flags field is set to 1 */
1742 } agsaSASReconfig_t;
1743 
1744 /** \brief describe a Phy Analog Setup registers for a Controller in the SAS/SATA hardware
1745  *
1746  * Describe a Phy Analog Setup registers for a controller in the SAS/SATA hardware
1747  *
1748  */
1749 typedef struct agsaPhyAnalogSetupRegisters_s
1750 {
1751   bit32     spaRegister0;
1752   bit32     spaRegister1;
1753   bit32     spaRegister2;
1754   bit32     spaRegister3;
1755   bit32     spaRegister4;
1756   bit32     spaRegister5;
1757   bit32     spaRegister6;
1758   bit32     spaRegister7;
1759   bit32     spaRegister8;
1760   bit32     spaRegister9;
1761 } agsaPhyAnalogSetupRegisters_t;
1762 
1763 #define MAX_INDEX 10
1764 
1765 /** \brief
1766  *
1767  */
1768 typedef struct agsaPhyAnalogSetupTable_s
1769 {
1770   agsaPhyAnalogSetupRegisters_t     phyAnalogSetupRegisters[MAX_INDEX];
1771 } agsaPhyAnalogSetupTable_t;
1772 
1773 /** \brief describe a Phy Analog Setting
1774  *
1775  * Describe a Phy Analog Setup registers for a controller in the SAS/SATA hardware
1776  *
1777  */
1778 typedef struct agsaPhyAnalogSettingsPage_s
1779 {
1780   bit32   Dword0;
1781   bit32   Dword1;
1782   bit32   Dword2;
1783   bit32   Dword3;
1784   bit32   Dword4;
1785   bit32   Dword5;
1786   bit32   Dword6;
1787   bit32   Dword7;
1788   bit32   Dword8;
1789   bit32   Dword9;
1790 } agsaPhyAnalogSettingsPage_t;
1791 
1792 
1793 /** \brief describe a Open reject retry backoff threshold page
1794  *
1795  * Describe a Open reject retry backoff threshold registers in the SAS/SATA hardware
1796  *
1797  */
1798 typedef struct agsaSASPhyOpenRejectRetryBackOffThresholdPage_s
1799 {
1800   bit32   Dword0;
1801   bit32   Dword1;
1802   bit32   Dword2;
1803   bit32   Dword3;
1804 } agsaSASPhyOpenRejectRetryBackOffThresholdPage_t;
1805 
1806 /** \brief describe a Phy Rate Control
1807  *  4.56  agsaPhyRateControlPage_t
1808  *  Description
1809  *  This profile page is used to read or set several rate control
1810  *  parameters. The page code for this profile page is 0x07. This page can
1811  *  be READ by issuing saGetPhyProfile(). It can be read anytime and there
1812  *  is no need to quiesce the I/O to the controller.
1813  *  Related parameters can be modified by issuing saSetPhyProfile() before
1814  *  calling saPhyStart() to the PHY.
1815  *  Note: This page is applicable only to the SPCv controller.
1816  *  Usage
1817  *  Initiator and target.
1818  */
1819 typedef struct agsaPhyRateControlPage_s
1820 {
1821   bit32 Dword0;
1822   bit32 Dword1;
1823   bit32 Dword2;
1824 } agsaPhyRateControlPage_t;
1825 
1826 /**
1827  *  Dword0 Bits 0-11: ALIGN_RATE(ALNR). Align Insertion rate is 2 in every
1828  *  ALIGN_RATE+1 DWord. The default value results in the standard compliant
1829  *  value of 2/256. This rate applies to out of connection, SMP and SSP
1830  *  connections. The default value is 0x0ff. Other bits are reserved.
1831  *  Dword1 Bits 0 -11: STP_ALIGN_RATE(STPALNR) Align Insertion rate is 2 in
1832  *  every ALIGN_RATE+1 DWords. Default value results in standard compliant
1833  *  value of 2/256. This rate applies to out of STP connections. The default
1834  *  value is 0x0ff. Other bits are reserved.
1835  *  Dword2 Bits 0-7: SSP_FRAME_RATE(SSPFRMR) The number of idle DWords
1836  *  between each SSP frame. 0 means no idle cycles. The default value is
1837  *  0x0. Other bits are reserved.
1838 **/
1839 
1840 /** \brief describe a Register Dump information for a Controller in the SAS/SATA hardware
1841  *
1842  * Describe a register dump information for a controller in the SAS/SATA hardware
1843  *
1844  */
1845 typedef struct agsaRegDumpInfo_s
1846 {
1847   bit8    regDumpSrc;
1848   bit8    regDumpNum;
1849   bit8    reserved[2];
1850   bit32   regDumpOffset;
1851   bit32   directLen;
1852   void    *directData;
1853   bit32   indirectAddrUpper32;
1854   bit32   indirectAddrLower32;
1855   bit32   indirectLen;
1856 } agsaRegDumpInfo_t;
1857 
1858 /*
1859 7 :  SPC GSM register at [MEMBASE-III SHIFT =  0x00_0000]
1860 8 :  SPC GSM register at [MEMBASE-III SHIFT =  0x05_0000]
1861 9 :  BDMA GSM register at [MEMBASE-III SHIFT =  0x01_0000]
1862 10:  PCIe APP GSM register at [MEMBASE-III SHIFT =  0x01_0000]
1863 11:  PCIe PHY GSM register at [MEMBASE-III SHIFT =  0x01_0000]
1864 12:  PCIe CORE GSM register at [MEMBASE-III SHIFT =  0x01_0000]
1865 13:  OSSP GSM register at [MEMBASE-III SHIFT =  0x02_0000]
1866 14:  SSPA GSM register at [MEMBASE-III SHIFT =  0x03_0000]
1867 15:  SSPA GSM register at [MEMBASE-III SHIFT =  0x04_0000]
1868 16:  HSST GSM register at [MEMBASE-III SHIFT =  0x02_0000]
1869 17:  LMS_DSS(A) GSM register at [MEMBASE-III SHIFT =  0x03_0000]
1870 18:  SSPL_6G GSM register at [MEMBASE-III SHIFT =  0x03_0000]
1871 19:  HSST(A) GSM register at [MEMBASE-III SHIFT =  0x03_0000]
1872 20:  LMS_DSS(A) GSM register at [MEMBASE-III SHIFT =  0x04_0000]
1873 21:  SSPL_6G GSM register at [MEMBASE-III SHIFT =  0x04_0000]
1874 22:  HSST(A) GSM register at [MEMBASE-III SHIFT =  0x04_0000]
1875 23:  MBIC IOP GSM register at [MEMBASE-III SHIFT =  0x06_0000]
1876 24:  MBIC AAP1 GSM register at [MEMBASE-III SHIFT =  0x07_0000]
1877 25:  SPBC GSM register at [MEMBASE-III SHIFT =  0x09_0000]
1878 26:  GSM GSM register at [MEMBASE-III SHIFT =  0x70_0000]
1879 */
1880 
1881 #define TYPE_GSM_SPACE        1
1882 #define TYPE_QUEUE            2
1883 #define TYPE_FATAL            3
1884 #define TYPE_NON_FATAL        4
1885 #define TYPE_INBOUND_QUEUE    5
1886 #define TYPE_OUTBOUND_QUEUE   6
1887 
1888 
1889 #define BAR_SHIFT_GSM_OFFSET  0x400000
1890 
1891 #define ONE_MEGABYTE  0x100000
1892 #define SIXTYFOURKBYTE   (1024 * 64)
1893 
1894 
1895 
1896 #define TYPE_INBOUND          1
1897 #define TYPE_OUTBOUND         2
1898 
1899 typedef struct
1900 {
1901   bit32  DataType;
1902   union
1903   {
1904     struct
1905     {
1906       bit32  directLen;
1907       bit32  directOffset;
1908       bit32  readLen;
1909       void  *directData;
1910     }gsmBuf;
1911 
1912     struct
1913     {
1914       bit16  queueType;
1915       bit16  queueIndex;
1916       bit32  directLen;
1917       void  *directData;
1918     }queueBuf;
1919 
1920     struct
1921     {
1922       bit32  directLen;
1923       bit32  directOffset;
1924       bit32  readLen;
1925       void  *directData;
1926     }dataBuf;
1927   } BufferType;
1928 } agsaForensicData_t;
1929 
1930 /** \brief describe a NVMData for a Controller in the SAS/SATA hardware
1931  *
1932  * Describe a NVMData for a controller in the SAS/SATA hardware
1933  *
1934  */
1935 typedef struct agsaNVMDData_s
1936 {
1937   bit32   indirectPayload      :1;
1938   bit32   reserved             :7;
1939   bit32   TWIDeviceAddress     :8;
1940   bit32   TWIBusNumber         :4;
1941   bit32   TWIDevicePageSize    :4;
1942   bit32   TWIDeviceAddressSize :4;
1943   bit32   NVMDevice            :4;
1944   bit32   directLen            :8;
1945   bit32   dataOffsetAddress    :24;
1946   void   *directData;
1947   bit32   indirectAddrUpper32;
1948   bit32   indirectAddrLower32;
1949   bit32   indirectLen;
1950   bit32   signature;
1951 } agsaNVMDData_t;
1952 
1953 
1954 /* status of ossaPCIeDiagExecuteCB() is shared with ossaSASDiagExecuteCB() */
1955 #define OSSA_PCIE_DIAG_SUCCESS                                          0x0000
1956 #define OSSA_PCIE_DIAG_INVALID_COMMAND                                  0x0001
1957 #define OSSA_PCIE_DIAG_INTERNAL_FAILURE                                 0x0002
1958 #define OSSA_PCIE_DIAG_INVALID_CMD_TYPE                                 0x1006
1959 #define OSSA_PCIE_DIAG_INVALID_CMD_DESC                                 0x1007
1960 #define OSSA_PCIE_DIAG_INVALID_PCIE_ADDR                                0x1008
1961 #define OSSA_PCIE_DIAG_INVALID_BLOCK_SIZE                               0x1009
1962 #define OSSA_PCIE_DIAG_LENGTH_NOT_BLOCK_SIZE_ALIGNED                    0x100A
1963 #define OSSA_PCIE_DIAG_IO_XFR_ERROR_DIF_MISMATCH                        0x3000
1964 #define OSSA_PCIE_DIAG_IO_XFR_ERROR_DIF_APPLICATION_TAG_MISMATCH        0x3001
1965 #define OSSA_PCIE_DIAG_IO_XFR_ERROR_DIF_REFERENCE_TAG_MISMATCH          0x3002
1966 #define OSSA_PCIE_DIAG_IO_XFR_ERROR_DIF_CRC_MISMATCH                    0x3003
1967 #define OSSA_PCIE_DIAG_MPI_ERR_INVALID_LENGTH                           0x0042
1968 #define OSSA_PCIE_DIAG_MPI_ERR_IO_RESOURCE_UNAVAILABLE                  0x1004
1969 #define OSSA_PCIE_DIAG_MPI_ERR_CONTROLLER_NOT_IDLE                      0x1005
1970 
1971 
1972 typedef struct agsaPCIeDiagExecute_s
1973 {
1974   bit32 command;
1975   bit32 flags;
1976   bit16 initialIOSeed;
1977   bit16 reserved;
1978   bit32 rdAddrLower;
1979   bit32 rdAddrUpper;
1980   bit32 wrAddrLower;
1981   bit32 wrAddrUpper;
1982   bit32 len;
1983   bit32 pattern;
1984   bit8  udtArray[6];
1985   bit8  udrtArray[6];
1986 } agsaPCIeDiagExecute_t;
1987 
1988 
1989 /** \brief agsaPCIeDiagResponse_t
1990  *
1991  *  status of ossaPCIeDiagExecuteCB()
1992  *  The agsaPCIeDiagResponse_t structure is a parameter passed to
1993  *   ossaPCIeDiagExecuteCB()
1994  * to contain a PCIe Diagnostic command response.
1995  */
1996 
1997 typedef struct agsaPCIeDiagResponse_s {
1998   bit32  ERR_BLKH;
1999   bit32  ERR_BLKL;
2000   bit32  DWord8;
2001   bit32  DWord9;
2002   bit32  DWord10;
2003   bit32  DWord11;
2004   bit32  DIF_ERR;
2005 } agsaPCIeDiagResponse_t;
2006 
2007 
2008 /** \brief describe a fatal error information for a Controller in the SAS/SATA hardware
2009  *
2010  * Describe a fatal error information for a controller in the SAS/SATA hardware
2011  *
2012  */
2013 typedef struct agsaFatalErrorInfo_s
2014 {
2015   bit32   errorInfo0;
2016   bit32   errorInfo1;
2017   bit32   errorInfo2;
2018   bit32   errorInfo3;
2019   bit32   regDumpBusBaseNum0;
2020   bit32   regDumpOffset0;
2021   bit32   regDumpLen0;
2022   bit32   regDumpBusBaseNum1;
2023   bit32   regDumpOffset1;
2024   bit32   regDumpLen1;
2025 } agsaFatalErrorInfo_t;
2026 
2027 /** \brief describe a information for a Event in the SAS/SATA hardware
2028  *
2029  * Describe a general information for a Event in the SAS/SATA hardware
2030  *
2031  */
2032 typedef struct agsaEventSource_s
2033 {
2034   agsaPortContext_t *agPortContext;
2035   bit32                   event;
2036   bit32                   param;
2037 } agsaEventSource_t;
2038 
2039 /** \brief describe a information for a Controller in the SAS/SATA hardware
2040  *
2041  * Describe a general information for a controller in the SAS/SATA hardware
2042  *
2043  */
2044 typedef struct agsaControllerInfo_s
2045 {
2046   bit32     signature;        /* coherent controller information */
2047   bit32     fwInterfaceRev;   /* host and controller interface version */
2048   bit32     hwRevision;       /* controller HW Revision number */
2049   bit32     fwRevision;       /* controller FW Revision number */
2050   bit32     ilaRevision;      /* controller ILA Revision number */
2051   bit32     maxPendingIO;     /* maximum number of outstanding I/Os supported */
2052   bit32     maxDevices;       /* Maximum Device Supported by controller */
2053   bit32     maxSgElements;    /* maximum number of SG elements supported */
2054   bit32     queueSupport;     /* maximum number of IQ and OQ supported
2055                                bit31-19 reserved
2056                                bit18    interrupt coalescing
2057                                bit17    reserved
2058                                bit16    high priority IQ supported
2059                                bit15-08 maximum number of OQ
2060                                bit07-00 maximum number of IQ */
2061   bit8      phyCount;         /* number of phy available in the controller */
2062   bit8      controllerSetting;/* Controller setting
2063                                bit07-04 reserved
2064                                bit03-00 HDA setting */
2065   bit8      PCILinkRate;      /* PCI generation 1/2/3 2.5g/5g/8g  */
2066   bit8      PCIWidth;         /* PCI number of lanes */
2067   bit32     sasSpecsSupport;  /* the supported SAS spec. */
2068   bit32     sdkInterfaceRev;  /* sdk interface reversion */
2069   bit32     sdkRevision;      /* sdk reversion */
2070 } agsaControllerInfo_t;
2071 
2072 /** \brief describe a status for a Controller in the SAS/SATA hardware
2073  *
2074  * Describe a general status for a controller in the SAS/SATA hardware
2075  *
2076  */
2077 typedef struct agsaControllerStatus_s
2078 {
2079   agsaFatalErrorInfo_t fatalErrorInfo; /* fatal error information */
2080   bit32     interfaceState;            /* host and controller interface state
2081                                           bit02-00 state of host and controller
2082                                           bit16-03 reserved
2083                                           bit31-16 detail of error based on error state */
2084   bit32     iqFreezeState0;            /* freeze state of 1st set of IQ */
2085   bit32     iqFreezeState1;            /* freeze state of 2nd set of IQ */
2086   bit32     tickCount0;                /* tick count in second for internal CPU-0 */
2087   bit32     tickCount1;                /* tick count in second for internal CPU-1 */
2088   bit32     tickCount2;                /* tick count in second for internal CPU-2 */
2089   bit32     phyStatus[8];              /* status of phy 0 to phy 15 */
2090   bit32     recoverableErrorInfo[8];   /* controller specific recoverable error information */
2091   bit32     bootStatus;
2092   bit16     bootComponentState[8];
2093 
2094 } agsaControllerStatus_t;
2095 
2096 /** \brief describe a GPIO Event Setup Infomation in the SAS/SATA hardware
2097  *
2098  * Describe a configuration for a GPIO Event Setup Infomation in the SAS/SATA hardware
2099  *
2100  */
2101 typedef struct agsaGpioEventSetupInfo_s
2102 {
2103   bit32         gpioPinMask;
2104   bit32         gpioEventLevel;
2105   bit32         gpioEventRisingEdge;
2106   bit32         gpioEventFallingEdge;
2107 } agsaGpioEventSetupInfo_t;
2108 
2109 /** \brief describe a GPIO Pin Setup Infomation in the SAS/SATA hardware
2110  *
2111  * Describe a configuration for a GPIO Pin Setup Infomation in the SAS/SATA hardware
2112  *
2113  */
2114 typedef struct agsaGpioPinSetupInfo_t
2115 {
2116   bit32         gpioPinMask;
2117   bit32         gpioInputEnabled;
2118   bit32         gpioTypePart1;
2119   bit32         gpioTypePart2;
2120 } agsaGpioPinSetupInfo_t;
2121 
2122 /** \brief describe a serial GPIO operation in the SAS/SATA hardware
2123  *
2124  * Describe a configuration for a GPIO write Setup Infomation in the SAS/SATA hardware
2125  *
2126  */
2127 typedef struct agsaGpioWriteSetupInfo_s
2128 {
2129   bit32         gpioWritemask;
2130   bit32         gpioWriteVal;
2131 }agsaGpioWriteSetupInfo_t;
2132 
2133 /** \brief describe a GPIO Read Infomation in the SAS/SATA hardware
2134  *
2135  * Describe a configuration for a GPIO read Infomation in the SAS/SATA hardware
2136  *
2137  */
2138 typedef struct agsaGpioReadInfo_s
2139 {
2140   bit32         gpioReadValue;
2141   bit32         gpioInputEnabled; /* GPIOIE */
2142   bit32         gpioEventLevelChangePart1; /* GPIEVCHANGE (pins 11-0) */
2143   bit32         gpioEventLevelChangePart2; /* GPIEVCHANGE (pins 23-20) */
2144   bit32         gpioEventRisingEdgePart1; /* GPIEVRISE (pins 11-0) */
2145   bit32         gpioEventRisingEdgePart2; /* GPIEVRISE (pins 23-20) */
2146   bit32         gpioEventFallingEdgePart1; /* GPIEVALL (pins 11-0) */
2147   bit32         gpioEventFallingEdgePart2; /* GPIEVALL (pins 23-20) */
2148 }agsaGpioReadInfo_t;
2149 
2150 /** \brief describe a serial GPIO request and response in the SAS/SATA hardware
2151  *
2152  * Describe the fields required for serial GPIO request and response in the SAS/SATA hardware
2153  *
2154  */
2155 typedef struct agsaSGpioReqResponse_s
2156 {
2157     bit8 smpFrameType;                                      /* 0x40 for request, 0x41 for response*/
2158     bit8 function;                                          /* 0x02 for read, 0x82 for write */
2159     bit8 registerType;                                      /* used only in request */
2160     bit8 registerIndex;                                     /* used only in request */
2161     bit8 registerCount;                                     /* used only in request */
2162     bit8 functionResult;                                    /* used only in response */
2163     bit32 readWriteData[OSSA_SGPIO_MAX_READ_DATA_COUNT];    /* write data for request; read data for response */
2164 } agsaSGpioReqResponse_t;
2165 
2166 
2167 /** \brief describe a serial GPIO operation response in the SAS/SATA hardware
2168  *
2169  * Describe the fields required for serial GPIO operations response in the SAS/SATA hardware
2170  *
2171  */
2172 typedef struct agsaSGpioCfg0
2173 {
2174     bit8 reserved1;
2175     bit8 version:4;
2176     bit8 reserved2:4;
2177     bit8 gpRegisterCount:4;
2178     bit8 cfgRegisterCount:3;
2179     bit8 gpioEnable:1;
2180     bit8 supportedDriveCount;
2181 } agsaSGpioCfg0_t;
2182 
2183 /** \brief SGPIO configuration register 1
2184  *
2185  * These fields constitute SGPIO configuration register 1, as defined by SFF-8485 spec
2186  *
2187  */
2188 typedef struct agsaSGpioCfg1{
2189     bit8 reserved;
2190     bit8 blinkGenA:4;
2191     bit8 blinkGenB:4;
2192     bit8 maxActOn:4;
2193     bit8 forceActOff:4;
2194     bit8 stretchActOn:4;
2195     bit8 stretchActOff:4;
2196 } agsaSGpioCfg1_t;
2197 
2198 /** \brief describe a configuration for a PHY in the SAS/SATA hardware
2199  *
2200  * Describe a configuration for a PHY in the SAS/SATA hardware
2201  *
2202  */
2203 typedef struct agsaPhyConfig_s
2204 {
2205   bit32   phyProperties;
2206                       /**< b31-b8 reserved */
2207                       /**< b16-b19 SSC Disable */
2208                       /**< b15-b8 phy analog setup index */
2209                       /**< b7     phy analog setup enable */
2210                       /**< b6     Control spin up hold */
2211                       /**< b5-b4  SAS/SATA mode, bit4 - SAS, bit5 - SATA, 11b - Auto mode */
2212                       /**< b3-b0  Max. Link Rate, bit0 - 1.5Gb/s, bit1 - 3.0Gb/s,
2213                                   bit2 - 6.0Gb/s, bit3 - reserved */
2214 } agsaPhyConfig_t;
2215 
2216 
2217 /** \brief Structure is used as a parameter passed in saLocalPhyControlCB() to describe the error counter
2218  *
2219  * Description
2220  * This profile page is used to read or set the SNW-3 PHY capabilities of a
2221  * SAS PHY. This page can be read by calling saGetPhyProfile(). It can be
2222  * read anytime and there is no need to quiesce he I/O to the controller.
2223  * The format of the 32-bit SNW3 is the same as defined in the SAS 2
2224  * specification.
2225  * Local SNW3 can be modified by calling saSetPhyProfile() before
2226  * saPhyStart() to the PHY. REQUESTED LOGICAL LINK RATE is reserved.
2227  * The SPCv will calculate the PARITY field.
2228 
2229  * Note: This page is applicable only to the SPCv controller.
2230  * Usage
2231  * Initiator and target.
2232  */
2233 
2234 typedef struct agsaPhySNW3Page_s
2235 {
2236   bit32   LSNW3;
2237   bit32   RSNW3;
2238 } agsaPhySNW3Page_t;
2239 
2240 /** \brief structure describe error counters of a PHY in the SAS/SATA
2241  *
2242  * Structure is used as a parameter passed in saLocalPhyControlCB()
2243  * to describe the error counter
2244  *
2245  */
2246 typedef struct agsaPhyErrCounters_s
2247 {
2248   bit32   invalidDword;             /* Number of invalid dwords that have been
2249                                        received outside of phy reset sequences.*/
2250   bit32   runningDisparityError;    /* Number of dwords containing running disparity
2251                                        errors that have been received outside of phy
2252                                        reset sequences.*/
2253   bit32   lossOfDwordSynch;         /* Number of times the phy has restarted the link
2254                                        reset sequence because it lost dword synchronization.*/
2255   bit32   phyResetProblem;          /* Number of times the phy did not obtain dword
2256                                        synchronization during the final SAS speed
2257                                        negotiation window.*/
2258   bit32   elasticityBufferOverflow; /* Number of times the phys receive elasticity
2259                                        buffer has overflowed.*/
2260   bit32   receivedErrorPrimitive;   /* Number of times the phy received an ERROR primitive */
2261   bit32   inboundCRCError;          /* Number of inbound CRC Error */
2262   bit32   codeViolation;            /* Number of code violation */
2263 } agsaPhyErrCounters_t;
2264 
2265 
2266 /** \brief
2267  * used in saGetPhyProfile
2268  */
2269 typedef struct agsaPhyErrCountersPage_s
2270 {
2271   bit32   invalidDword;
2272   bit32   runningDisparityError;
2273   bit32   codeViolation;
2274   bit32   lossOfDwordSynch;
2275   bit32   phyResetProblem;
2276   bit32   inboundCRCError;
2277 } agsaPhyErrCountersPage_t;
2278 
2279 /** \brief structure describes bandwidth counters of a PHY in the SAS/SATA
2280  *
2281  * Structure is used as a parameter passed in saGetPhyProfile()
2282  * to describe the error counter
2283  *
2284  */
2285 
2286 typedef struct agsaPhyBWCountersPage_s
2287 {
2288   bit32   TXBWCounter;
2289   bit32   RXBWCounter;
2290 } agsaPhyBWCountersPage_t;
2291 
2292 
2293 
2294 /** \brief structure describe hardware configuration
2295  *
2296  * Structure is used as a parameter passed in saInitialize() to describe the
2297  * configuration used during hardware initialization
2298  *
2299  */
2300 typedef struct agsaHwConfig_s
2301 {
2302   bit32   phyCount;                     /**< Number of PHYs that are to be configured
2303                                          and initialized.  */
2304   bit32   hwInterruptCoalescingTimer;   /**< Host Interrupt CoalescingTimer */
2305   bit32   hwInterruptCoalescingControl; /**< Host Interrupt CoalescingControl */
2306   bit32   intReassertionOption;         /**< Interrupt Ressertion Option */
2307   bit32   hwOption;                     /** PCAD64 on 64 bit addressing */
2308 
2309   agsaPhyAnalogSetupTable_t phyAnalogConfig; /**< Phy Analog Setting Table */
2310 } agsaHwConfig_t;
2311 
2312 /** \brief structure describe software configuration
2313  *
2314  * Structure is used as a parameter passed in saInitialize() to describe the
2315  * configuration used during software initialization
2316  *
2317  */
2318 typedef struct agsaSwConfig_s
2319 {
2320   bit32   maxActiveIOs;                 /**< Maximum active I/O requests supported */
2321   bit32   numDevHandles;                /**< Number of SAS/SATA device handles allocated
2322                                          in the pool */
2323   bit32   smpReqTimeout;                /**< SMP request time out in millisecond */
2324   bit32   numberOfEventRegClients;      /**< Maximum number of OS Layer clients for the event
2325                                              registration defined by saRegisterEventCallback() */
2326   bit32   sizefEventLog1;               /**< Size of Event Log 1 */
2327   bit32   sizefEventLog2;               /**< Size of Event Log 2 */
2328   bit32   eventLog1Option;              /**< Option of Event Log 1 */
2329   bit32   eventLog2Option;              /**< Option of Event Log 2 */
2330 
2331   bit32   fatalErrorInterruptEnable:1;  /**< 0 Fatal Error Iterrupt Enable */
2332   bit32   sgpioSupportEnable:1;         /**< 1 SGPIO Support Enable */
2333   bit32   fatalErrorInterruptVector:8;  /**< 2-9  Fatal Error Interrupt Vector */
2334   bit32   max_MSI_InterruptVectors:8;   /**< 10-18 Maximum MSI Interrupt Vectors */
2335   bit32   max_MSIX_InterruptVectors:8;  /**< 18-25 Maximum MSIX Interrupt Vectors */
2336   bit32   legacyInt_X:1;                /**< 26 Support Legacy Interrupt */
2337   bit32   hostDirectAccessSupport:1;    /**< 27 Support HDA mode */
2338   bit32   hostDirectAccessMode:2;       /**< 28-29 HDA mode: 00b - HDA SoftReset, 01b - HDA Normal */
2339   bit32   enableDIF:1;                  /**< 30 */
2340   bit32   enableEncryption:1;           /**< 31 */
2341 #ifdef SA_CONFIG_MDFD_REGISTRY
2342   bit32   disableMDF;                   /*disable MDF*/
2343 #endif
2344   bit32   param1;                       /**< parameter1 */
2345   bit32   param2;                       /**< parameter2 */
2346   void    *param3;                      /**< parameter3 */
2347   void    *param4;                      /**< paramater4 */
2348   bit32   stallUsec;
2349   bit32   FWConfig;
2350   bit32   PortRecoveryResetTimer;
2351   void    *mpiContextTable;             /** Pointer to a table that contains agsaMPIContext_t
2352                                             entries. This table is used to fill in MPI table
2353                                             fields. Values in this table are written to MPI table last.
2354                                             Any previous values in MPI table are overwritten by values
2355                                             in this table. */
2356 
2357   bit32   mpiContextTablelen;           /** Number of agsaMPIContext_t entries in mpiContextTable */
2358 
2359 #if defined(SALLSDK_DEBUG)
2360   bit32   sallDebugLevel;               /**< Low Layer debug level */
2361 #endif
2362 
2363 #ifdef SA_ENABLE_PCI_TRIGGER
2364   bit32   PCI_trigger;
2365 #endif /* SA_ENABLE_PCI_TRIGGER */
2366 
2367 #ifdef SA_ENABLE_TRACE_FUNCTIONS
2368   bit32 TraceDestination;
2369   bit32 TraceBufferSize;
2370   bit32 TraceMask;
2371 #endif /* SA_ENABLE_TRACE_FUNCTIONS */
2372 } agsaSwConfig_t;
2373 
2374 
2375 typedef struct agsaQueueInbound_s
2376 {
2377   bit32   elementCount:16;  /* Maximum number of elements in the queue (queue depth).
2378                                A value of zero indicates that the host disabled this queue.*/
2379   bit32   elementSize:16;   /* Size of each element in the queue in bytes.*/
2380   bit32   priority:2;       /* Queue priority:
2381                                     00: normal priority
2382                                     01: high priority
2383                                     10: reserved
2384                                     11: reserved */
2385   bit32   reserved:30;
2386 } agsaQueueInbound_t;
2387 
2388 typedef struct agsaQueueOutbound_s
2389 {
2390   bit32   elementCount:16;          /* Maximum number of elements in the queue (queue depth).
2391                                        A value of zero indicates that the host disabled
2392                                        this queue.*/
2393   bit32   elementSize:16;           /* Size of each element in the queue in bytes.*/
2394   bit32   interruptDelay:16;        /* Time, in usec, to delay interrupts to the host.
2395                                        Zero means not to delay based on time. An
2396                                        interrupt is passed to the host when either of
2397                                        the interruptDelay or interruptCount parameters
2398                                        is satisfied. Default value is 0.*/
2399   bit32   interruptCount:16;        /* Number of interrupts required before passing to
2400                                        the host. Zero means not to coalesce based on count. */
2401   bit32   interruptVectorIndex:8;   /* MSI/MSI-X interrupt vector index. For MSI, when
2402                                        Multiple Messages is enabled, this field is the
2403                                        index to the MSI vectors derived from a single
2404                                        Message Address and multiple Message Data.
2405                                        For MSI-X, this field is the index to the
2406                                        MSI-X Table Structure. */
2407   bit32   interruptEnable:1;        /* 0b: No interrupt to host (host polling)
2408                                        1b: Interrupt enabled */
2409   bit32   reserved:23;
2410 
2411 } agsaQueueOutbound_t;
2412 
2413 typedef struct agsaPhyCalibrationTbl_s
2414 {
2415   bit32   txPortConfig1;            /* transmitter per port configuration 1 SAS_SATA G1 */
2416   bit32   txPortConfig2;            /* transmitter per port configuration 2 SAS_SATA G1*/
2417   bit32   txPortConfig3;            /* transmitter per port configuration 3 SAS_SATA G1*/
2418   bit32   txConfig1;                /* transmitter configuration 1 */
2419   bit32   rvPortConfig1;            /* reveiver per port configuration 1 SAS_SATA G1G2 */
2420   bit32   rvPortConfig2;            /* reveiver per port configuration 2 SAS_SATA G3 */
2421   bit32   rvConfig1;                /* reveiver per configuration 1 */
2422   bit32   rvConfig2;                /* reveiver per configuration 2 */
2423   bit32   reserved[2];              /* reserved */
2424 } agsaPhyCalibrationTbl_t;
2425 
2426 typedef struct agsaQueueConfig_s
2427 {
2428   bit16   numInboundQueues;
2429   bit16   numOutboundQueues;
2430   bit8    sasHwEventQueue[AGSA_MAX_VALID_PHYS];
2431   bit8    sataNCQErrorEventQueue[AGSA_MAX_VALID_PHYS];
2432   bit8    tgtITNexusEventQueue[AGSA_MAX_VALID_PHYS];
2433   bit8    tgtSSPEventQueue[AGSA_MAX_VALID_PHYS];
2434   bit8    tgtSMPEventQueue[AGSA_MAX_VALID_PHYS];
2435   bit8    iqNormalPriorityProcessingDepth;
2436   bit8    iqHighPriorityProcessingDepth;
2437   bit8    generalEventQueue;
2438   bit8    tgtDeviceRemovedEventQueue;
2439   bit32   queueOption;
2440   agsaQueueInbound_t  inboundQueues[AGSA_MAX_INBOUND_Q];
2441   agsaQueueOutbound_t outboundQueues[AGSA_MAX_OUTBOUND_Q];
2442 } agsaQueueConfig_t;
2443 
2444 #define OQ_SHARE_PATH_BIT 0x00000001
2445 
2446 typedef struct agsaFwImg_s
2447 {
2448   bit8    *aap1Img;             /**< AAP1 Image */
2449   bit32   aap1Len;              /**< AAP1 Image Length */
2450   bit8    *ilaImg;              /**< ILA Image */
2451   bit32   ilaLen;               /**< ILA Image Length */
2452   bit8    *iopImg;              /**< IOP Image */
2453   bit32   iopLen;               /**< IOP Image Length */
2454   bit8    *istrImg;             /**< Init String */
2455   bit32   istrLen;              /**< Init String Length */
2456 } agsaFwImg_t;
2457 
2458 /** \brief generic memory descriptor
2459  *
2460  * a generic memory descriptor used for describing a memory requirement in a structure
2461  *
2462  */
2463 typedef struct agsaMem_s
2464 {
2465   void    *virtPtr;             /**< Virtual pointer to the memory chunk */
2466   void    *osHandle;            /**< Handle used for OS to free memory */
2467   bit32   phyAddrUpper;         /**< Upper 32 bits of physical address */
2468   bit32   phyAddrLower;         /**< Lower 32 bits of physical address */
2469   bit32   totalLength;          /**< Total length in bytes allocated */
2470   bit32   numElements;          /**< Number of elements */
2471   bit32   singleElementLength;  /**< Size in bytes of an element */
2472   bit32   alignment;            /**< Alignment in bytes needed. A value of one indicates
2473                                      no specific alignment requirement */
2474   bit32   type;                 /**< DMA or Cache */
2475   bit32   reserved;             /**< reserved */
2476 } agsaMem_t;
2477 
2478 /** \brief specify the controller Event Log for the SAS/SATA LL Layer
2479  *
2480  * data structure used in the saGetControllerEventLogInfo() function calls
2481  *
2482  */
2483 typedef struct agsaControllerEventLog_s
2484 {
2485   agsaMem_t   eventLog1;
2486   agsaMem_t   eventLog2;
2487   bit32       eventLog1Option;
2488   bit32       eventLog2Option;
2489 } agsaControllerEventLog_t;
2490 
2491 /* Log Option - bit3-0 */
2492 #define DISABLE_LOGGING 0x0
2493 #define CRITICAL_ERROR  0x1
2494 #define WARNING         0x2
2495 #define NOTICE          0x3
2496 #define INFORMATION     0x4
2497 #define DEBUGGING       0x5
2498 
2499 /** \brief specify the SAS Diagnostic Parameters for the SAS/SATA LL Layer
2500  *
2501  * data structure used in the saGetRequirements() and the saInitialize() function calls
2502  *
2503  */
2504 typedef struct agsaSASDiagExecute_s
2505 {
2506   bit32 command;
2507   bit32 param0;
2508   bit32 param1;
2509   bit32 param2;
2510   bit32 param3;
2511   bit32 param4;
2512   bit32 param5;
2513 } agsaSASDiagExecute_t;
2514 
2515 
2516 /** \brief  for the SAS/SATA LL Layer
2517  *
2518  *  This data structure contains the general status of a SAS Phy.
2519  *  Section 4.60
2520  */
2521 typedef struct agsaSASPhyGeneralStatusPage_s
2522 {
2523   bit32 Dword0;
2524   bit32 Dword1;
2525 } agsaSASPhyGeneralStatusPage_t;
2526 
2527 
2528 /** \brief specify the memory allocation requirement for the SAS/SATA LL Layer
2529  *
2530  * data structure used in the saGetRequirements() and the saInitialize() function calls
2531  *
2532  */
2533 typedef struct agsaMemoryRequirement_s
2534 {
2535   bit32       count;                         /**< The number of memory chunks used
2536                                                   in the agMemory table */
2537   agsaMem_t   agMemory[AGSA_NUM_MEM_CHUNKS]; /**< The structure that defines the memory
2538                                                   requirement structure */
2539 } agsaMemoryRequirement_t;
2540 
2541 
2542 /** \brief describe a SAS address and PHY Identifier
2543  *
2544  * This structure is used
2545  *
2546  */
2547 typedef struct agsaSASAddressID_s
2548 {
2549   bit8   sasAddressLo[4];     /**< HOST SAS address lower part */
2550   bit8   sasAddressHi[4];     /**< HOST SAS address higher part */
2551   bit8   phyIdentifier;    /**< PHY IDENTIFIER of the PHY */
2552 } agsaSASAddressID_t;
2553 
2554 /** \brief data structure provides some information about a SATA device
2555  *
2556  * data structure provides some information about a SATA device discovered
2557  * following the SATA discovery.
2558  *
2559  */
2560 typedef struct agsaDeviceInfo_s
2561 {
2562   bit16   smpTimeout;
2563   bit16   it_NexusTimeout;
2564   bit16   firstBurstSize;
2565   bit8    reserved;
2566     /* Not Used */
2567   bit8    devType_S_Rate;
2568     /* Bit 6-7: reserved
2569        Bit 4-5: Two-bit flag to specify a SSP/SMP, or directly attached SATA or STP device
2570                 00: STP device
2571                 01: SSP or SMP device
2572                 10: Direct SATA device
2573        Bit 0-3: Connection Rate field when opening the device.
2574                 Code Description:
2575                 08h:  1.5 Gbps
2576                 09h:  3.0 Gbps
2577                 0ah:  6.0 Gbps
2578                 All others Reserved
2579     */
2580   bit8    sasAddressHi[4];
2581   bit8    sasAddressLo[4];
2582   bit32   flag;
2583 /*
2584 flag
2585 Bit 0: Retry flag.
2586       1b: enable SAS TLR (Transport Layer Retry).
2587       0b: disable SAS TLR (Transport Layer Retry).
2588           When used during device registration, it is recommended that TLR is
2589           enabled, i.e. set the bit to 1.
2590 Bit 1: Priority setting for AWT (Arbitration Wait Time) for this device.
2591       0b: Default setting (recommended). Actual AWT value TBD.
2592       1b: Increase priority. Actual AWT value TBD.
2593 Bit 2-3: Reserved
2594 Bit 4-11: Zero-based PHY identifier. This field is used only if bits 4-5 in devType_S_Rate are set to 10b
2595           which indicates a directly-attached SATA drive.
2596 Bit 12-15: Reserved
2597 Bit 16-19 : Maximum Connection Number. This field specifies the maximum number of connections that
2598             can be established with the device concurrently. This field is set to the lowest port width along the pathway
2599             from the controller to the device. This is applicable only to the SPCv controller.
2600             However, for backward compatibility reasons, if this field is set to zero, it is treated as 1 so that the controller
2601             can establish at least one connection.
2602 Bit 20: Initiator Role
2603         This bit indicates whether the device has SSP initiator role capability. This is applicable only to the SPCv controller.
2604       0b : The device has no SSP initiator capability.
2605       1b : The device has SSP initiator capability.
2606 Bit 21: ATAPI Device Flag. (Only applies to the SPCv) Flag to indicate ATAPI protocol support
2607       0b : Device does not support ATAPI protocol.
2608       1b : Device supports ATAPI protocol.
2609 Bit 22-31: Reserved
2610 */
2611 } agsaDeviceInfo_t;
2612 
2613 
2614 #define DEV_INFO_MASK       0xFF
2615 #define DEV_INFO_MCN_SHIFT  16
2616 #define DEV_INFO_IR_SHIFT   20
2617 
2618 #define RETRY_DEVICE_FLAG            (1 << SHIFT0)
2619 #define AWT_DEVICE_FLAG              (1 << SHIFT1)
2620 #define SSP_DEVICE_FLAG              (1 << SHIFT20)
2621 #define ATAPI_DEVICE_FLAG                 0x200000 /* bit21  */
2622 #define XFER_RDY_PRIORTY_DEVICE_FLAG (1 << SHIFT22)
2623 
2624 
2625 #define DEV_LINK_RATE 0x3F
2626 
2627 #define SA_DEVINFO_GET_SAS_ADDRESSLO(devInfo) \
2628   DMA_BEBIT32_TO_BIT32(*(bit32 *)(devInfo)->sasAddressLo)
2629 
2630 #define SA_DEVINFO_GET_SAS_ADDRESSHI(devInfo) \
2631   DMA_BEBIT32_TO_BIT32(*(bit32 *)(devInfo)->sasAddressHi)
2632 
2633 #define SA_DEVINFO_GET_DEVICETTYPE(devInfo) \
2634   (((devInfo)->devType_S_Rate & 0xC0) >> 5)
2635 
2636 #define SA_DEVINFO_PUT_SAS_ADDRESSLO(devInfo, src32) \
2637   *(bit32 *)((devInfo)->sasAddressLo) = BIT32_TO_DMA_BEBIT32(src32)
2638 
2639 #define SA_DEVINFO_PUT_SAS_ADDRESSHI(devInfo, src32) \
2640   *(bit32 *)((devInfo)->sasAddressHi) = BIT32_TO_DMA_BEBIT32(src32)
2641 
2642 /** \brief data structure provides some information about a SATA device
2643  *
2644  * data structure provides some information about a SATA device discovered
2645  * following the SATA discovery.
2646  *
2647  */
2648 typedef struct agsaSATADeviceInfo_s
2649 {
2650   agsaDeviceInfo_t          commonDevInfo;          /**< The general/common part of the
2651                                                          SAS/SATA device information */
2652   bit8                      connection;             /**< How device is connected:
2653                                                            0: Direct attached.
2654                                                            1: Behind Port Multiplier,
2655                                                               portMultiplierField is valid.
2656                                                            2: STP, stpPhyIdentifier is valid */
2657 
2658   bit8                      portMultiplierField;    /**< The first 4 bits indicate that
2659                                                          the Port Multiplier field is defined
2660                                                          by SATA-II. This field is valid only
2661                                                          if the connection field above is
2662                                                          set to 1 */
2663 
2664   bit8                      stpPhyIdentifier;       /**< PHY ID of the STP PHY. Valid only if
2665                                                          connection field is set to 2 (STP). */
2666 
2667   bit8                      reserved;
2668   bit8                      signature[8];           /**< The signature of SATA in Task
2669                                                          File registers following power up.
2670                                                          Only five bytes are defined by ATA.
2671                                                          The added three bytes are for
2672                                                          alignment purposes */
2673 } agsaSATADeviceInfo_t;
2674 
2675 /** \brief data structure provides some information about a SAS device
2676  *
2677  * data structure provides some information about a SAS device discovered
2678  * following the SAS discovery
2679  *
2680  */
2681 typedef struct agsaSASDeviceInfo_s
2682 {
2683   agsaDeviceInfo_t  commonDevInfo;          /**< The general/common part of the SAS/SATA
2684                                                  device information */
2685   bit8              initiator_ssp_stp_smp;  /**< SAS initiator capabilities */
2686                                             /* b4-7: reserved */
2687                                             /* b3:   SSP initiator port */
2688                                             /* b2:   STP initiator port */
2689                                             /* b1:   SMP initiator port */
2690                                             /* b0:   reserved */
2691   bit8              target_ssp_stp_smp;     /**< SAS target capabilities */
2692                                             /* b4-7: reserved */
2693                                             /* b3:   SSP target port */
2694                                             /* b2:   STP target port */
2695                                             /* b1:   SMP target port */
2696                                             /* b0:   reserved */
2697   bit32             numOfPhys;              /**< Number of PHYs in the device */
2698   bit8              phyIdentifier;          /**< PHY IDENTIFIER in IDENTIFY address
2699                                                  frame as defined by the SAS
2700                                                  specification. */
2701 } agsaSASDeviceInfo_t;
2702 
2703 #define SA_SASDEV_SSP_BIT         SA_IDFRM_SSP_BIT  /* SSP Initiator port */
2704 #define SA_SASDEV_STP_BIT         SA_IDFRM_STP_BIT  /* STP Initiator port */
2705 #define SA_SASDEV_SMP_BIT         SA_IDFRM_SMP_BIT  /* SMP Initiator port */
2706 #define SA_SASDEV_SATA_BIT        SA_IDFRM_SATA_BIT /* SATA device, valid in the discovery response only */
2707 
2708 #define SA_SASDEV_IS_SSP_INITIATOR(sasDev) \
2709   (((sasDev)->initiator_ssp_stp_smp & SA_SASDEV_SSP_BIT) == SA_SASDEV_SSP_BIT)
2710 
2711 #define SA_SASDEV_IS_STP_INITIATOR(sasDev) \
2712   (((sasDev)->initiator_ssp_stp_smp & SA_SASDEV_STP_BIT) == SA_SASDEV_STP_BIT)
2713 
2714 #define SA_SASDEV_IS_SMP_INITIATOR(sasDev) \
2715   (((sasDev)->initiator_ssp_stp_smp & SA_SASDEV_SMP_BIT) == SA_SASDEV_SMP_BIT)
2716 
2717 #define SA_SASDEV_IS_SSP_TARGET(sasDev) \
2718   (((sasDev)->target_ssp_stp_smp & SA_SASDEV_SSP_BIT) == SA_SASDEV_SSP_BIT)
2719 
2720 #define SA_SASDEV_IS_STP_TARGET(sasDev) \
2721   (((sasDev)->target_ssp_stp_smp & SA_SASDEV_STP_BIT) == SA_SASDEV_STP_BIT)
2722 
2723 #define SA_SASDEV_IS_SMP_TARGET(sasDev) \
2724   (((sasDev)->target_ssp_stp_smp & SA_SASDEV_SMP_BIT) == SA_SASDEV_SMP_BIT)
2725 
2726 #define SA_SASDEV_IS_SATA_DEVICE(sasDev) \
2727   (((sasDev)->target_ssp_stp_smp & SA_SASDEV_SATA_BIT) == SA_SASDEV_SATA_BIT)
2728 
2729 
2730 
2731 
2732 /** \brief the data structure describe SG list
2733  *
2734  * the data structure describe SG list
2735  *
2736  */
2737 typedef struct _SASG_DESCRIPTOR
2738 {
2739   bit32   sgLower;  /**< Lower 32 bits of data area physical address */
2740   bit32   sgUpper;  /**< Upper 32 bits of data area physical address */
2741   bit32   len;      /**< Total data length in bytes */
2742 } SASG_DESCRIPTOR, * PSASG_DESCRIPTOR;
2743 
2744 /** \brief data structure used to pass information about the scatter-gather list to the LL Layer
2745  *
2746  * The ESGL pages are uncached, have a configurable number of SGL
2747  * of (min, max) = (1, 10), and are 16-byte aligned. Although
2748  * the application can configure the page size, the size must be
2749  * incremented in TBD-byte increments. Refer the hardware
2750  * documentation for more detail on the format of ESGL
2751  * structure.
2752  *
2753  */
2754 typedef struct agsaSgl_s
2755 {
2756   bit32             sgLower;     /**< Lower 32 bits of data area physical address */
2757   bit32             sgUpper;     /**< Upper 32 bits of data area physical address */
2758   bit32             len;         /**< Total data length in bytes */
2759   bit32             extReserved; /**< bit31 is for extended sgl list */
2760 } agsaSgl_t;
2761 
2762 /** \brief data structure is used to pass information about the extended
2763  *  scatter-gather list (ESGL) to the LL Layer
2764  *
2765  * The agsaEsgl_t data structure is used to pass information about the
2766  * extended scatter-gather list (ESGL) to the LL Layer.
2767  *
2768  * When ESGL is used, its starting address is specified the first descriptor
2769  * entry (i.e. descriptor[0]) in agsaSgl_t structure.
2770  *
2771  * The ESGL pages are uncached, have a fixed number of SGL of 10, and are
2772  * 16-byte aligned. Refer the hardware documentation for more
2773  * detail on ESGL.
2774  *
2775  */
2776 typedef struct agsaEsgl_s
2777 {
2778   agsaSgl_t descriptor[MAX_ESGL_ENTRIES];
2779 } agsaEsgl_t;
2780 
2781 /** \brief data structure describes an SSP Command INFORMATION UNIT
2782  *
2783  * data structure describes an SSP Command INFORMATION UNIT used for SSP command and is part of
2784  * the SSP frame.
2785  *
2786  * Currently, Additional CDB length is supported to 16 bytes
2787  *
2788  */
2789 #define MAX_CDB_LEN 32
2790 typedef struct agsaSSPCmdInfoUnitExt_s
2791 {
2792   bit8  lun[8];
2793   bit8  reserved1;
2794   bit8  efb_tp_taskAttribute;
2795   bit8  reserved2;
2796   bit8  additionalCdbLen;
2797   bit8  cdb[MAX_CDB_LEN];
2798 } agsaSSPCmdInfoUnitExt_t ;
2799 
2800 #define DIF_UDT_SIZE                6
2801 
2802 /* difAction in agsaDif_t */
2803 #define AGSA_DIF_INSERT                     0
2804 #define AGSA_DIF_VERIFY_FORWARD             1
2805 #define AGSA_DIF_VERIFY_DELETE              2
2806 #define AGSA_DIF_VERIFY_REPLACE             3
2807 #define AGSA_DIF_VERIFY_UDT_REPLACE_CRC     5
2808 #define AGSA_DIF_REPLACE_UDT_REPLACE_CRC    7
2809 
2810 #define agsaDIFSectorSize512                0
2811 #define agsaDIFSectorSize520                1
2812 #define agsaDIFSectorSize4096               2
2813 #define agsaDIFSectorSize4160               3
2814 
2815 
2816 
2817 typedef struct agsaDif_s
2818 {
2819   agBOOLEAN enableDIFPerLA;
2820   bit32 flags;
2821   bit16 initialIOSeed;
2822   bit16 reserved;
2823   bit32 DIFPerLAAddrLo;
2824   bit32 DIFPerLAAddrHi;
2825   bit16 DIFPerLARegion0SecCount;
2826   bit16 Reserved2;
2827   bit8 udtArray[DIF_UDT_SIZE];
2828   bit8 udrtArray[DIF_UDT_SIZE];
2829 } agsaDif_t;
2830 
2831 
2832 /* From LL SDK2 */
2833 #define DIF_FLAG_BITS_ACTION            0x00000007  /* 0-2*/
2834 #define DIF_FLAG_BITS_CRC_VER           0x00000008  /* 3 */
2835 #define DIF_FLAG_BITS_CRC_INV           0x00000010  /* 4 */
2836 #define DIF_FLAG_BITS_CRC_SEED          0x00000020  /* 5 */
2837 #define DIF_FLAG_BITS_UDT_REF_TAG       0x00000040  /* 6 */
2838 #define DIF_FLAG_BITS_UDT_APP_TAG       0x00000080  /* 7 */
2839 #define DIF_FLAG_BITS_UDTR_REF_BLKCOUNT 0x00000100  /* 8 */
2840 #define DIF_FLAG_BITS_UDTR_APP_BLKCOUNT 0x00000200  /* 9 */
2841 #define DIF_FLAG_BITS_CUST_APP_TAG      0x00000C00  /* 10 11*/
2842 #define DIF_FLAG_BITS_EPRC              0x00001000  /* 12 */
2843 #define DIF_FLAG_BITS_Reserved          0x0000E000  /* 13 14 15*/
2844 #define DIF_FLAG_BITS_BLOCKSIZE_MASK    0x00070000  /* 16 17 18 */
2845 #define DIF_FLAG_BITS_BLOCKSIZE_SHIFT   16
2846 #define DIF_FLAG_BITS_BLOCKSIZE_512     0x00000000  /* */
2847 #define DIF_FLAG_BITS_BLOCKSIZE_520     0x00010000  /* 16 */
2848 #define DIF_FLAG_BITS_BLOCKSIZE_4096    0x00020000  /* 17 */
2849 #define DIF_FLAG_BITS_BLOCKSIZE_4160    0x00030000  /* 16 17 */
2850 #define DIF_FLAG_BITS_UDTVMASK          0x03F00000  /* 20 21 22 23 24 25 */
2851 #define DIF_FLAG_BITS_UDTV_SHIFT        20
2852 #define DIF_FLAG_BITS_UDTUPMASK         0xF6000000  /* 26 27 28 29 30 31  */
2853 #define DIF_FLAG_BITS_UDTUPSHIFT        26
2854 
2855 typedef struct agsaEncryptDek_s
2856 {
2857     bit32          dekTable;
2858     bit32          dekIndex;
2859 } agsaEncryptDek_t;
2860 
2861 typedef struct agsaEncrypt_s
2862 {
2863     agsaEncryptDek_t dekInfo;
2864     bit32           kekIndex;
2865     agBOOLEAN       keyTagCheck;
2866     agBOOLEAN       enableEncryptionPerLA; /* new */
2867     bit32           sectorSizeIndex;
2868     bit32           cipherMode;
2869     bit32           keyTag_W0;
2870     bit32           keyTag_W1;
2871     bit32           tweakVal_W0;
2872     bit32           tweakVal_W1;
2873     bit32           tweakVal_W2;
2874     bit32           tweakVal_W3;
2875     bit32           EncryptionPerLAAddrLo; /* new */
2876     bit32           EncryptionPerLAAddrHi; /* new */
2877     bit16           EncryptionPerLRegion0SecCount; /* new */
2878     bit16           reserved;
2879 } agsaEncrypt_t;
2880 
2881 /** \brief data structure describes a SAS SSP command request to be sent to the target device
2882  *
2883  * data structure describes a SAS SSP command request to be sent to the
2884  * target device. This structure limits the CDB length in SSP
2885  * command up to 16 bytes long.
2886  *
2887  * This data structure is one instance of the generic request issued to
2888  * saSSPStart() and is passed as an agsaSASRequestBody_t .
2889  *
2890  */
2891 typedef struct agsaSSPInitiatorRequest_s
2892 {
2893   agsaSgl_t              agSgl;             /**< This structure is used to define either
2894                                                  an ESGL list or a single SGL for the SSP
2895                                                  command operation */
2896   bit32                  dataLength;        /**< Total data length in bytes */
2897   bit16                  firstBurstSize;    /**< First Burst Size field as defined by
2898                                                  SAS specification */
2899   bit16                  flag;              /**< bit1-0 TLR as SAS specification
2900                                                  bit31-2 reserved */
2901   agsaSSPCmdInfoUnit_t   sspCmdIU;          /**< Structure containing SSP Command
2902                                                  INFORMATION UNIT */
2903   agsaDif_t               dif;
2904   agsaEncrypt_t           encrypt;
2905 #ifdef SA_TESTBASE_EXTRA
2906   /* Added by TestBase */
2907   bit16                   bstIndex;
2908 #endif /*  SA_TESTBASE_EXTRA */
2909 } agsaSSPInitiatorRequest_t;
2910 
2911 /** \brief data structure describes a SAS SSP command request Ext to be sent to the target device
2912  *
2913  * data structure describes a SAS SSP command request to be sent to the
2914  * target device. This structure support the CDB length in SSP
2915  * command more than 16 bytes long.
2916  *
2917  * This data structure is one instance of the generic request issued to
2918  * saSSPStart() and is passed as an agsaSASRequestBody_t .
2919  *
2920  */
2921 typedef struct agsaSSPInitiatorRequestExt_s
2922 {
2923   agsaSgl_t              agSgl;             /**< This structure is used to define either
2924                                                  an ESGL list or a single SGL for the SSP
2925                                                  command operation */
2926   bit32                   dataLength;
2927   bit16                   firstBurstSize;
2928   bit16                   flag;
2929   agsaSSPCmdInfoUnitExt_t sspCmdIUExt;
2930   agsaDif_t               dif;
2931   agsaEncrypt_t           encrypt;
2932 } agsaSSPInitiatorRequestExt_t;
2933 
2934 
2935 typedef struct agsaSSPInitiatorRequestIndirect_s
2936 {
2937   agsaSgl_t              agSgl;             /**< This structure is used to define either
2938                                                  an ESGL list or a single SGL for the SSP
2939                                                  command operation */
2940   bit32                   dataLength;
2941   bit16                   firstBurstSize;
2942   bit16                   flag;
2943   bit32                   sspInitiatorReqAddrUpper32; /**< The upper 32 bits of the 64-bit physical  DMA address of the SSP initiator request buffer */
2944   bit32                   sspInitiatorReqAddrLower32; /**< The lower 32 bits of the 64-bit physical  DMA address of the SSP initiator request buffer */
2945   bit32                   sspInitiatorReqLen;         /**< Specifies the length of the SSP initiator request in bytes */
2946   agsaDif_t               dif;
2947   agsaEncrypt_t           encrypt;
2948 
2949 }agsaSSPInitiatorRequestIndirect_t;
2950 
2951 
2952 
2953 
2954 /** \brief data structure describes a SAS SSP target read and write request
2955  *
2956  * The agsaSSPTargetRequest_t data structure describes a SAS SSP target read
2957  * and write request to be issued on the port. It includes the
2958  * length of the data to be received or sent, an offset into the
2959  * data block where the transfer is to start, and a list of
2960  * scatter-gather buffers.
2961  *
2962  * This data structure is one instance of the generic request issued
2963  * to saSSPStart() and is passed as an agsaSASRequestBody_t .
2964  *
2965  */
2966 /** bit definitions for sspOption
2967     Bit 0-1: Transport Layer Retry setting for other phase:
2968     00b: No retry
2969     01b: Retry on ACK/NAK timeout
2970     10b: Retry on NAK received
2971     11b: Retry on both ACK/NAK timeout and NAK received
2972     Bit 2-3: Transport Layer Retry setting for data phase:
2973     00b: No retry
2974     01b: Retry on ACK/NAK timeout
2975     10b: Retry on NAK received
2976     11b: Retry on both ACK/NAK timeout and NAK received
2977     Bit 4:  Retry Data Frame. Valid only on write command. Indicates whether Target supports RTL for this particular IO.
2978     1b: enabled
2979     0b: disabled
2980     Bit 5: Auto good response on successful read (data transfer from target to initiator) request.
2981     1b: Enabled
2982     0b: Disabled
2983     Bits 6-15 : Reserved.
2984  */
2985 typedef struct agsaSSPTargetRequest_s
2986 {
2987   agsaSgl_t     agSgl;        /**< This structure is used to define either an ESGL list or
2988                                  a single SGL for the target read or write operation */
2989   bit32         dataLength;   /**< Specifies the amount of data to be sent in this data phase */
2990   bit32         offset;       /**< Specifies the offset into the overall data block
2991                                  where this data phase is to begin */
2992   bit16         agTag;        /**< Tag from ossaSSPReqReceived(). */
2993   bit16         sspOption;    /**< SSP option for retry */
2994   agsaDif_t     dif;
2995 } agsaSSPTargetRequest_t;
2996 
2997 #define SSP_OPTION_BITS 0x3F  /**< bit5-AGR, bit4-RDF bit3,2-RTE, bit1,0-AN */
2998 #define SSP_OPTION_ODS 0x8000 /**< bit15-ODS */
2999 
3000 #define SSP_OPTION_OTHR_NO_RETRY                  0
3001 #define SSP_OPTION_OTHR_RETRY_ON_ACK_NAK_TIMEOUT  1
3002 #define SSP_OPTION_OTHR_RETRY_ON_NAK_RECEIVED     2
3003 #define SSP_OPTION_OTHR_RETRY_ON_BOTH_ACK_NAK_TIMEOUT_AND_NAK_RECEIVED  3
3004 
3005 #define SSP_OPTION_DATA_NO_RETRY                   0
3006 #define SSP_OPTION_DATA_RETRY_ON_ACK_NAK_TIMEOUT   1
3007 #define SSP_OPTION_DATA_RETRY_ON_NAK_RECEIVED      2
3008 #define SSP_OPTION_DATA_RETRY_ON_BOTH_ACK_NAK_TIMEOUT_AND_NAK_RECEIVED  3
3009 
3010 #define SSP_OPTION_RETRY_DATA_FRAME_ENABLED (1 << SHIFT4)
3011 #define SSP_OPTION_AUTO_GOOD_RESPONSE       (1 << SHIFT5)
3012 #define SSP_OPTION_ENCRYPT                  (1 << SHIFT6)
3013 #define SSP_OPTION_DIF                      (1 << SHIFT7)
3014 #define SSP_OPTION_OVERRIDE_DEVICE_STATE     (1 << SHIFT15)
3015 
3016 
3017 /** \brief data structure describes a SAS SSP target response to be issued
3018  *  on the port
3019  *
3020  * This data structure is one instance of the generic request issued to
3021  * saSSPStart() and is passed as an agsaSASRequestBody_t
3022  *
3023  */
3024 typedef struct agsaSSPTargetResponse_s
3025 {
3026   bit32       agTag;            /**< Tag from ossaSSPReqReceived(). */
3027   void        *frameBuf;
3028   bit32       respBufLength;    /**< Specifies the length of the Response buffer */
3029   bit32       respBufUpper;     /**< Upper 32 bit of physical address of OS Layer
3030                                      allocated the Response buffer
3031                                      (agsaSSPResponseInfoUnit_t).
3032                                      Valid only when respBufLength is not zero  */
3033   bit32       respBufLower;     /**< Lower 32 bit of physical address of OS Layer
3034                                      allocated the Response buffer
3035                                      (agsaSSPResponseInfoUnit_t).
3036                                      Valid only when respBufLength is not zero  */
3037   bit32       respOption;       /**< Bit 0-1: ACK and NAK retry option:
3038                                      00b: No retry
3039                                      01b: Retry on ACK/NAK timeout
3040                                      10b: Retry on NAK received
3041                                      11b: Retry on both ACK/NAK timeout and NAK received */
3042 } agsaSSPTargetResponse_t;
3043 
3044 #define RESP_OPTION_BITS 0x3    /** bit0-1 */
3045 #define RESP_OPTION_ODS 0x8000  /** bit15 */
3046 
3047 /** \brief data structure describes a SMP request or response frame to be sent on the SAS port
3048  *
3049  * The agsaSMPFrame_t data structure describes a SMP request or response
3050  * frame to be issued or sent on the SAS port.
3051  *
3052  * This data structure is one instance of the generic request issued to
3053  * saSMPStart() and is passed as an agsaSASRequestBody_t .
3054  *
3055  */
3056 typedef struct agsaSMPFrame_s
3057 {
3058   void                  *outFrameBuf;        /**< if payload is less than 32 bytes,A virtual
3059                                                frameBuf can be used. instead of physical
3060                                                address. Set to NULL and use physical
3061                                                address if payload is > 32 bytes */
3062   bit32                 outFrameAddrUpper32; /**< The upper 32 bits of the 64-bit physical
3063                                                DMA address of the SMP frame buffer */
3064   bit32                 outFrameAddrLower32; /**< The lower 32 bits of the 64-bit physical
3065                                                DMA address of the SMP frame buffer */
3066   bit32                 outFrameLen;         /**< Specifies the length of the SMP request
3067                                                frame excluding the CRC field in bytes */
3068   bit32                 inFrameAddrUpper32;  /**< The upper 32 bits of the 64-bit phsical address
3069                                                of DMA address of response SMP Frame buffer */
3070   bit32                 inFrameAddrLower32;  /**< The lower 32 bits of the 64-bit phsical address
3071                                                of DMA address of response SMP Frame buffer */
3072   bit32                 inFrameLen;          /**< Specifies the length of the SMP response
3073                                                frame excluding the CRC field in bytes */
3074   bit32                 expectedRespLen;     /**< Specifies the length of SMP Response */
3075   bit32                 flag;                /** For the SPCv controller:
3076                                                  Bit 0: Indirect Response (IR). This indicates
3077                                                         direct or indirect mode for SMP response frame
3078                                                         to be received.
3079                                                     0b: Direct mode
3080                                                     1b: Indirect mode
3081 
3082                                                  Bit 1: Indirect Payload (IP). This indicates
3083                                                         direct or indirect mode for SMP request frame
3084                                                         to be sent.
3085                                                     0b: Direct mode
3086                                                     1b: Indirect mode
3087 
3088                                                  Bits 2-31: Reserved
3089                                                 For the SPC controller: This is not applicable.
3090                                                 */
3091 
3092 } agsaSMPFrame_t;
3093 
3094 #define smpFrameFlagDirectResponse   0
3095 #define smpFrameFlagIndirectResponse 1
3096 #define smpFrameFlagDirectPayload    0
3097 #define smpFrameFlagIndirectPayload  2
3098 
3099 /** \brief union data structure specifies a request
3100  *
3101  * union data structure specifies a request
3102  */
3103 typedef union agsaSASRequestBody_u
3104 {
3105   agsaSSPInitiatorRequest_t                 sspInitiatorReq;  /**< Structure containing the SSP initiator request, Support up to 16 bytes CDB */
3106   agsaSSPInitiatorRequestExt_t           sspInitiatorReqExt;  /**< Structure containing the SSP initiator request for CDB > 16 bytes */
3107   agsaSSPInitiatorRequestIndirect_t sspInitiatorReqIndirect;  /**< Structure containing the SSP indirect initiator request */
3108   agsaSSPTargetRequest_t                       sspTargetReq;  /**< Structure containing the SSP Target request */
3109   agsaSSPScsiTaskMgntReq_t                   sspTaskMgntReq;  /**< Structure containing the SSP SCSI Task Management request */
3110   agsaSSPTargetResponse_t                 sspTargetResponse;  /**< Structure containing the SSP Target response. */
3111   agsaSMPFrame_t                                   smpFrame;  /**< Structure containing SMP request or response frame */
3112 }agsaSASRequestBody_t;
3113 
3114 
3115 
3116 
3117 /** \brief data structure describes an STP or direct connect SATA command
3118  *
3119  * The agsaSATAInitiatorRequest_t data structure describes an STP or direct
3120  * connect SATA command request to be sent to the device and
3121  * passed as a parameter to saSATAStart() function.
3122  *
3123  * This structure is an encapsulation of SATA FIS (Frame Information
3124  * Structures), which enables the execution of ATA command
3125  * descriptor using SATA transport
3126  *
3127  */
3128 typedef struct agsaSATAInitiatorRequest_s
3129 {
3130   agsaSgl_t         agSgl;      /**< This structure is used to define either an ESGL
3131                                      list or a single SGL for operation that involves
3132                                      DMA transfer */
3133 
3134   bit32             dataLength; /**< Total data length in bytes */
3135 
3136   bit32             option;     /**< Operational option, defined using the bit field.
3137                                      b7-1: reserved
3138                                      b0:   AGSA-STP-CLOSE-CLEAR-AFFILIATION */
3139 
3140   agsaSATAHostFis_t fis;        /**< The FIS request */
3141   agsaDif_t         dif;
3142   agsaEncrypt_t     encrypt;
3143   bit8              scsiCDB[16];
3144 #ifdef SA_TESTBASE_EXTRA
3145   /* Added by TestBase */
3146   bit16             bstIndex;
3147 #endif /*  SA_TESTBASE_EXTRA */
3148 } agsaSATAInitiatorRequest_t;
3149 
3150 
3151 /* controller Configuration page */
3152 #define AGSA_SAS_PROTOCOL_TIMER_CONFIG_PAGE   0x04
3153 #define AGSA_INTERRUPT_CONFIGURATION_PAGE     0x05
3154 #define AGSA_IO_GENERAL_CONFIG_PAGE           0x06
3155 #define AGSA_ENCRYPTION_GENERAL_CONFIG_PAGE   0x20
3156 #define AGSA_ENCRYPTION_DEK_CONFIG_PAGE       0x21
3157 #define AGSA_ENCRYPTION_CONTROL_PARM_PAGE     0x22
3158 #define AGSA_ENCRYPTION_HMAC_CONFIG_PAGE      0x23
3159 
3160 #ifdef HIALEAH_ENCRYPTION
3161 typedef struct agsaEncryptGeneralPage_s {
3162   bit32             numberOfKeksPageCode;           /* 0x20 */
3163   bit32             KeyCardIdKekIndex;
3164   bit32             KeyCardId3_0;
3165   bit32             KeyCardId7_4;
3166   bit32             KeyCardId11_8;
3167 } agsaEncryptGeneralPage_t;
3168 #else
3169 typedef struct agsaEncryptGeneralPage_s {
3170   bit32             pageCode;           /* 0x20 */
3171   bit32             numberOfDeks;
3172 } agsaEncryptGeneralPage_t;
3173 #endif /* HIALEAH_ENCRYPTION */
3174 
3175 #define AGSA_ENC_CONFIG_PAGE_KEK_NUMBER 0x0000FF00
3176 #define AGSA_ENC_CONFIG_PAGE_KEK_SHIFT  8
3177 
3178 /* sTSDK 4.14   */
3179 typedef struct agsaEncryptDekConfigPage_s {
3180   bit32             pageCode;
3181   bit32             table0AddrLo;
3182   bit32             table0AddrHi;
3183   bit32             table0Entries;
3184   bit32             table0BFES;
3185   bit32             table1AddrLo;
3186   bit32             table1AddrHi;
3187   bit32             table1Entries;
3188   bit32             table1BFES;
3189 } agsaEncryptDekConfigPage_t;
3190 
3191 #define AGSA_ENC_DEK_CONFIG_PAGE_DEK_TABLE_NUMBER 0xF0000000
3192 #define AGSA_ENC_DEK_CONFIG_PAGE_DEK_TABLE_SHIFT SHIFT28
3193 #define AGSA_ENC_DEK_CONFIG_PAGE_DEK_CACHE_WAY    0x0F000000
3194 #define AGSA_ENC_DEK_CONFIG_PAGE_DEK_CACHE_SHIFT SHIFT24
3195 
3196 /*sTSDK 4.18   */
3197 /* CCS (Current Crypto Services)  and NOPR (Number of Operators) are valid only in GET_CONTROLLER_CONFIG */
3198 /* NAR, CORCAP and USRCAP are valid only when AUT==1 */
3199 typedef struct agsaEncryptControlParamPage_s {
3200   bit32          pageCode;           /* 0x22 */
3201   bit32          CORCAP;             /* Crypto Officer Role Capabilities */
3202   bit32          USRCAP;             /* User Role Capabilities */
3203   bit32          CCS;                /* Current Crypto Services */
3204   bit32          NOPR;               /* Number of Operators */
3205 } agsaEncryptControlParamPage_t;
3206 
3207 typedef struct agsaEncryptInfo_s {
3208   bit32          encryptionCipherMode;
3209   bit32          encryptionSecurityMode;
3210   bit32          status;
3211   bit32          flag;
3212 } agsaEncryptInfo_t;
3213 
3214 
3215 #define OperatorAuthenticationEnable_AUT 1
3216 #define ReturnToFactoryMode_ARF          2
3217 
3218 /*sTSDK 4.19   */
3219 typedef struct agsaEncryptSelfTestBitMap_s {
3220 	bit32		AES_Test;
3221 	bit32		KEY_WRAP_Test;
3222 	bit32		HMAC_Test;
3223 } agsaEncryptSelfTestBitMap_t;
3224 
3225 typedef struct  agsaEncryptSelfTestStatusBitMap_s{
3226 	bit32		AES_Status;
3227 	bit32		KEY_WRAP_Status;
3228 	bit32		HMAC_Status;
3229 } agsaEncryptSelfTestStatusBitMap_t;
3230 
3231 typedef struct agsaEncryptHMACTestDescriptor_s
3232 {
3233   bit32   Dword0;
3234   bit32   MsgAddrLo;
3235   bit32   MsgAddrHi;
3236   bit32   MsgLen;
3237   bit32   DigestAddrLo;
3238   bit32   DigestAddrHi;
3239   bit32   KeyAddrLo;
3240   bit32   KeyAddrHi;
3241   bit32   KeyLen;
3242 } agsaEncryptHMACTestDescriptor_t;
3243 
3244 typedef struct agsaEncryptHMACTestResult_s
3245 {
3246   bit32   Dword0;
3247   bit32   Dword[12];
3248 } agsaEncryptHMACTestResult_t;
3249 
3250 typedef struct agsaEncryptSHATestDescriptor_s
3251 {
3252   bit32   Dword0;
3253   bit32   MsgAddrLo;
3254   bit32   MsgAddrHi;
3255   bit32   MsgLen;
3256   bit32   DigestAddrLo;
3257   bit32   DigestAddrHi;
3258 } agsaEncryptSHATestDescriptor_t;
3259 
3260 typedef struct agsaEncryptSHATestResult_s
3261 {
3262   bit32   Dword0;
3263   bit32   Dword[12];
3264 } agsaEncryptSHATestResult_t;
3265 
3266 /* types of self test */
3267 #define AGSA_BIST_TEST      0x1
3268 #define AGSA_HMAC_TEST      0x2
3269 #define AGSA_SHA_TEST       0x3
3270 
3271 
3272 /*sTSDK  4.13  */
3273 typedef struct agsaEncryptDekBlob_s {
3274     bit8           dekBlob[80];
3275 } agsaEncryptDekBlob_t;
3276 
3277 typedef struct agsaEncryptKekBlob_s {
3278     bit8           kekBlob[48];
3279 } agsaEncryptKekBlob_t;
3280 
3281 /*sTSDK  4.45  */
3282 typedef struct agsaEncryptHMACConfigPage_s
3283 {
3284   bit32  PageCode;
3285   bit32  CustomerTag;
3286   bit32  KeyAddrLo;
3287   bit32  KeyAddrHi;
3288 } agsaEncryptHMACConfigPage_t;
3289 
3290 /*sTSDK  4.38  */
3291 #define AGSA_ID_SIZE 31
3292 typedef struct agsaID_s {
3293    bit8   ID[AGSA_ID_SIZE];
3294 }agsaID_t;
3295 
3296 
3297 #define SA_OPR_MGMNT_FLAG_MASK  0x00003000
3298 #define SA_OPR_MGMNT_FLAG_SHIFT 12
3299 
3300 /* */
3301 typedef struct agsaSASPhyMiscPage_s {
3302   bit32 Dword0;
3303   bit32 Dword1;
3304 } agsaSASPhyMiscPage_t ;
3305 
3306 
3307 typedef struct agsaHWEventEncrypt_s {
3308     bit32          encryptOperation;
3309     bit32          status;
3310     bit32          eq; /* error qualifier */
3311     bit32          info;
3312     void           *handle;
3313     void           *param;
3314 } agsaHWEventEncrypt_t;
3315 
3316 /*sTSDK  4.32  */
3317 typedef struct agsaHWEventMode_s {
3318     bit32          modePageOperation;
3319     bit32          status;
3320     bit32          modePageLen;
3321     void           *modePage;
3322     void           *context;
3323 } agsaHWEventMode_t;
3324 
3325 /*sTSDK  4.33  */
3326 typedef struct agsaInterruptConfigPage_s {
3327   bit32 pageCode;
3328   bit32 vectorMask0;
3329   bit32 vectorMask1;
3330   bit32 ICTC0;
3331   bit32 ICTC1;
3332   bit32 ICTC2;
3333   bit32 ICTC3;
3334   bit32 ICTC4;
3335   bit32 ICTC5;
3336   bit32 ICTC6;
3337   bit32 ICTC7;
3338 } agsaInterruptConfigPage_t;
3339 typedef struct agsaIoGeneralPage_s {
3340   bit32 pageCode;           /* 0x06 */
3341   bit32 ActiveMask;
3342   bit32 QrntTime;
3343 } agsaIoGeneralPage_t;
3344 
3345 /* \brief data structure defines detail information about Agilent Error
3346 * Detection Code (DIF) errors.
3347 *
3348 * The  agsaDifDetails_t data structure defines detail information about
3349 * PMC Error Detection Code (DIF) error.  Please refer to the latest T10 SBC
3350 * and SPC draft/specification for the definition of the Protection
3351 * Information.
3352 *
3353 * This structure is filled by the function saGetDifErrorDetails().
3354 */
3355 
3356 typedef struct agsaDifDetails_s {
3357     bit32               UpperLBA;
3358     bit32               LowerLBA;
3359     bit8                sasAddressHi[4];
3360     bit8                sasAddressLo[4];
3361     bit32               ExpectedCRCUDT01;
3362     bit32               ExpectedUDT2345;
3363     bit32               ActualCRCUDT01;
3364     bit32               ActualUDT2345;
3365     bit32               DIFErrDevID;
3366     bit32               ErrBoffsetEDataLen;
3367     void * frame;
3368 } agsaDifDetails_t;
3369 
3370 /** \brief data structure for SAS protocol timer configuration page.
3371  *
3372  */
3373 typedef struct  agsaSASProtocolTimerConfigurationPage_s{
3374   bit32 pageCode;                        /* 0 */
3375   bit32 MST_MSI;                         /* 1 */
3376   bit32 STP_SSP_MCT_TMO;                 /* 2 */
3377   bit32 STP_FRM_TMO;                     /* 3 */
3378   bit32 STP_IDLE_TMO;                    /* 4 */
3379   bit32 OPNRJT_RTRY_INTVL;               /* 5 */
3380   bit32 Data_Cmd_OPNRJT_RTRY_TMO;        /* 6 */
3381   bit32 Data_Cmd_OPNRJT_RTRY_THR;        /* 7 */
3382   bit32 MAX_AIP;                         /* 8 */
3383 } agsaSASProtocolTimerConfigurationPage_t;
3384 
3385 
3386 /** \brief data structure for firmware flash update saFwFlashUpdate().
3387  *
3388  * The agsaUpdateFwFlash data structure specifies a request to saFwFlashUpdate()
3389  */
3390 typedef struct agsaUpdateFwFlash_s
3391 {
3392   bit32     currentImageOffset;
3393   bit32     currentImageLen;
3394   bit32     totalImageLen;
3395   agsaSgl_t agSgl;
3396 } agsaUpdateFwFlash_t;
3397 
3398 
3399 
3400 /** \brief data structure for extended firmware flash update saFwFlashExtUpdate().
3401  *
3402  * The agsaFlashExtExecute_s data structure specifies a request to saFwFlashExtUpdate()
3403  */
3404 typedef struct agsaFlashExtExecute_s
3405 {
3406   bit32     command;
3407   bit32     partOffset;
3408   bit32     dataLen;
3409   agsaSgl_t *agSgl;
3410 } agsaFlashExtExecute_t;
3411 
3412 
3413 /** \brief data structure for firmware flash update saFwFlashUpdate().
3414  *
3415  * The agsaFlashExtResponse_t data structure specifies a request to ossaFlashExtExecuteCB().()
3416  */
3417 typedef struct agsaFlashExtResponse_s
3418 {
3419   bit32     epart_size;
3420   bit32     epart_sect_size;
3421 } agsaFlashExtResponse_t;
3422 
3423 
3424 /** \brief data structure for set fields in MPI table.
3425  *  The agsaMPIContext_t data structure is used to set fields in MPI table.
3426  *  For details of MPI table, refer to PM8001 Tachyon SPC 8x6G Programmers'
3427  *  Manual PMC-2080222 or PM8008/PM8009/PM8018 Tachyon SPCv/SPCve/SPCv+ Programmers Manual
3428  *  PMC-2091148/PMC-2102373.
3429     sTSDK  section 4.39
3430  */
3431 
3432 typedef struct agsaMPIContext_s
3433 {
3434   bit32   MPITableType;
3435   bit32   offset;
3436   bit32   value;
3437 } agsaMPIContext_t;
3438 
3439 #define AGSA_MPI_MAIN_CONFIGURATION_TABLE             1
3440 #define AGSA_MPI_GENERAL_STATUS_TABLE                 2
3441 #define AGSA_MPI_INBOUND_QUEUE_CONFIGURATION_TABLE    3
3442 #define AGSA_MPI_OUTBOUND_QUEUE_CONFIGURATION_TABLE   4
3443 #define AGSA_MPI_SAS_PHY_ANALOG_SETUP_TABLE           5
3444 #define AGSA_MPI_INTERRUPT_VECTOR_TABLE               6
3445 #define AGSA_MPI_PER_SAS_PHY_ATTRIBUTE_TABLE          7
3446 #define AGSA_MPI_OUTBOUND_QUEUE_FAILOVER_TABLE        8
3447 
3448 
3449 /************************************************************/
3450 /*This flag and datastructure are specific for fw profiling, Now defined as compiler flag*/
3451 //#define SPC_ENABLE_PROFILE
3452 
3453 #ifdef SPC_ENABLE_PROFILE
3454 typedef struct agsaFwProfile_s
3455 {
3456   bit32     tcid;
3457   bit32     processor;
3458   bit32     cmd;
3459   bit32     len;
3460   bit32     codeStartAdd;
3461   bit32     codeEndAdd;
3462   agsaSgl_t agSgl;
3463 } agsaFwProfile_t;
3464 #endif
3465 /************************************************************/
3466 /** \brief Callback definition for .ossaDeviceRegistration
3467  *
3468  */
3469 typedef  void (*ossaDeviceRegistrationCB_t)(
3470   agsaRoot_t          *agRoot,
3471   agsaContext_t       *agContext,
3472   bit32               status,
3473   agsaDevHandle_t     *agDevHandle,
3474   bit32               deviceID
3475   );
3476 
3477 /** \brief Callback definition for
3478  *
3479  */
3480 typedef void (*ossaDeregisterDeviceHandleCB_t)(
3481   agsaRoot_t          *agRoot,
3482   agsaContext_t       *agContext,
3483   agsaDevHandle_t     *agDevHandle,
3484   bit32               status
3485   );
3486 
3487 /** \brief Callback definition for
3488  *
3489  */
3490 typedef void (*ossaGenericCB_t)(void);
3491 
3492 
3493 /** \brief Callback definition for abort SMP SSP SATA callback
3494  *
3495  */
3496 typedef void (*ossaGenericAbortCB_t)(
3497   agsaRoot_t        *agRoot,
3498   agsaIORequest_t   *agIORequest,
3499   bit32             flag,
3500   bit32             status
3501   );
3502 
3503 
3504 typedef void (*ossaLocalPhyControlCB_t)(
3505   agsaRoot_t      *agRoot,
3506   agsaContext_t   *agContext,
3507   bit32           phyId,
3508   bit32           phyOperation,
3509   bit32           status,
3510   void            *parm
3511   );
3512 
3513 
3514 /** \brief Callback definition for
3515  *
3516  */
3517 typedef void (*ossaSATACompletedCB_t)(
3518   agsaRoot_t          *agRoot,
3519   agsaIORequest_t     *agIORequest,
3520   bit32               agIOStatus,
3521   void                *agFirstDword,
3522   bit32               agIOInfoLen,
3523   void                *agParam
3524   );
3525 
3526 
3527 /** \brief Callback definition for
3528  *
3529  */
3530 typedef void (*ossaSMPCompletedCB_t)(
3531   agsaRoot_t            *agRoot,
3532   agsaIORequest_t       *agIORequest,
3533   bit32                 agIOStatus,
3534   bit32                 agIOInfoLen,
3535   agsaFrameHandle_t     agFrameHandle
3536   );
3537 
3538 
3539 /** \brief Callback definition for
3540  *
3541  */
3542 typedef  void (*ossaSSPCompletedCB_t)(
3543   agsaRoot_t            *agRoot,
3544   agsaIORequest_t       *agIORequest,
3545   bit32                 agIOStatus,
3546   bit32                 agIOInfoLen,
3547   void                  *agParam,
3548   bit16                 sspTag,
3549   bit32                 agOtherInfo
3550   );
3551 
3552 /** \brief Callback definition for
3553  *
3554  */
3555 typedef void (*ossaSetDeviceInfoCB_t) (
3556                                 agsaRoot_t        *agRoot,
3557                                 agsaContext_t     *agContext,
3558                                 agsaDevHandle_t   *agDevHandle,
3559                                 bit32             status,
3560                                 bit32             option,
3561                                 bit32             param
3562                                 );
3563 
3564 typedef struct agsaOffloadDifDetails_s
3565 {
3566   bit32 ExpectedCRCUDT01;
3567   bit32 ExpectedUDT2345;
3568   bit32 ActualCRCUDT01;
3569   bit32 ActualUDT2345;
3570   bit32 DIFErr;
3571   bit32 ErrBoffset;
3572 } agsaOffloadDifDetails_t;
3573 
3574 typedef struct agsaDifEncPayload_s
3575 {
3576   agsaSgl_t      SrcSgl;
3577   bit32          SrcDL;
3578   agsaSgl_t      DstSgl;
3579   bit32          DstDL;
3580   agsaDif_t      dif;
3581   agsaEncrypt_t  encrypt;
3582 } agsaDifEncPayload_t;
3583 
3584 typedef void (*ossaVhistCaptureCB_t) (
3585         agsaRoot_t    *agRoot,
3586         agsaContext_t *agContext,
3587         bit32         status,
3588         bit32         len);
3589 
3590 typedef void (*ossaDIFEncryptionOffloadStartCB_t) (
3591   agsaRoot_t                *agRoot,
3592   agsaContext_t             *agContext,
3593   bit32                     status,
3594   agsaOffloadDifDetails_t   *agsaOffloadDifDetails
3595   );
3596 
3597 #define SA_RESERVED_REQUEST_COUNT 16
3598 
3599 #ifdef SA_FW_TIMER_READS_STATUS
3600 #define SA_FW_TIMER_READS_STATUS_INTERVAL 20
3601 #endif /* SA_FW_TIMER_READS_STATUS */
3602 
3603 #define SIZE_DW                         4     /**< Size in bytes */
3604 #define SIZE_QW                         8     /**< Size in bytes */
3605 
3606 #define PCIBAR0                         0     /**< PCI Base Address 0 */
3607 #define PCIBAR1                         1     /**< PCI Base Address 1 */
3608 #define PCIBAR2                         2     /**< PCI Base Address 2 */
3609 #define PCIBAR3                         3     /**< PCI Base Address 3 */
3610 #define PCIBAR4                         4     /**< PCI Base Address 4 */
3611 #define PCIBAR5                         5     /**< PCI Base Address 5 */
3612 
3613 /** \brief describe an element of SPC-SPCV converter
3614  *
3615  * This structure is used
3616  *
3617  */
3618 typedef struct agsaBarOffset_s
3619 {
3620   bit32 Generic;    /* */
3621   bit32 Bar;        /* */
3622   bit32 Offset;     /* */
3623   bit32 Length;     /* */
3624 } agsaBarOffset_t;
3625 
3626 typedef union agsabit32bit64_U
3627 {
3628   bit32 S32[2];
3629   bit64 B64;
3630 } agsabit32bit64;
3631 
3632 /*
3633 The agsaIOErrorEventStats_t data structure is used as parameter in ossaGetIOErrorStatsCB(),ossaGetIOEventStatsCB().
3634 This data structure contains the number of IO error and event.
3635 */
3636 typedef struct agsaIOErrorEventStats_s
3637 {
3638    bit32  agOSSA_IO_COMPLETED_ERROR_SCSI_STATUS;
3639    bit32  agOSSA_IO_ABORTED;
3640    bit32  agOSSA_IO_OVERFLOW;
3641    bit32  agOSSA_IO_UNDERFLOW;
3642    bit32  agOSSA_IO_FAILED;
3643    bit32  agOSSA_IO_ABORT_RESET;
3644    bit32  agOSSA_IO_NOT_VALID;
3645    bit32  agOSSA_IO_NO_DEVICE;
3646    bit32  agOSSA_IO_ILLEGAL_PARAMETER;
3647    bit32  agOSSA_IO_LINK_FAILURE;
3648    bit32  agOSSA_IO_PROG_ERROR;
3649    bit32  agOSSA_IO_DIF_IN_ERROR;
3650    bit32  agOSSA_IO_DIF_OUT_ERROR;
3651    bit32  agOSSA_IO_ERROR_HW_TIMEOUT;
3652    bit32  agOSSA_IO_XFER_ERROR_BREAK;
3653    bit32  agOSSA_IO_XFER_ERROR_PHY_NOT_READY;
3654    bit32  agOSSA_IO_OPEN_CNX_ERROR_PROTOCOL_NOT_SUPPORTED;
3655    bit32  agOSSA_IO_OPEN_CNX_ERROR_ZONE_VIOLATION;
3656    bit32  agOSSA_IO_OPEN_CNX_ERROR_BREAK;
3657    bit32  agOSSA_IO_OPEN_CNX_ERROR_IT_NEXUS_LOSS;
3658    bit32  agOSSA_IO_OPEN_CNX_ERROR_BAD_DESTINATION;
3659    bit32  agOSSA_IO_OPEN_CNX_ERROR_CONNECTION_RATE_NOT_SUPPORTED;
3660    bit32  agOSSA_IO_OPEN_CNX_ERROR_STP_RESOURCES_BUSY;
3661    bit32  agOSSA_IO_OPEN_CNX_ERROR_WRONG_DESTINATION;
3662    bit32  agOSSA_IO_OPEN_CNX_ERROR_UNKNOWN_ERROR;
3663    bit32  agOSSA_IO_XFER_ERROR_NAK_RECEIVED;
3664    bit32  agOSSA_IO_XFER_ERROR_ACK_NAK_TIMEOUT;
3665    bit32  agOSSA_IO_XFER_ERROR_PEER_ABORTED;
3666    bit32  agOSSA_IO_XFER_ERROR_RX_FRAME;
3667    bit32  agOSSA_IO_XFER_ERROR_DMA;
3668    bit32  agOSSA_IO_XFER_ERROR_CREDIT_TIMEOUT;
3669    bit32  agOSSA_IO_XFER_ERROR_SATA_LINK_TIMEOUT;
3670    bit32  agOSSA_IO_XFER_ERROR_SATA;
3671    bit32  agOSSA_IO_XFER_ERROR_ABORTED_DUE_TO_SRST;
3672    bit32  agOSSA_IO_XFER_ERROR_REJECTED_NCQ_MODE;
3673    bit32  agOSSA_IO_XFER_ERROR_ABORTED_NCQ_MODE;
3674    bit32  agOSSA_IO_XFER_OPEN_RETRY_TIMEOUT;
3675    bit32  agOSSA_IO_XFER_SMP_RESP_CONNECTION_ERROR;
3676    bit32  agOSSA_IO_XFER_ERROR_UNEXPECTED_PHASE;
3677    bit32  agOSSA_IO_XFER_ERROR_XFER_RDY_OVERRUN;
3678    bit32  agOSSA_IO_XFER_ERROR_XFER_RDY_NOT_EXPECTED;
3679    bit32  agOSSA_IO_XFER_ERROR_CMD_ISSUE_ACK_NAK_TIMEOUT;
3680    bit32  agOSSA_IO_XFER_ERROR_CMD_ISSUE_BREAK_BEFORE_ACK_NAK;
3681    bit32  agOSSA_IO_XFER_ERROR_CMD_ISSUE_PHY_DOWN_BEFORE_ACK_NAK;
3682    bit32  agOSSA_IO_XFER_ERROR_OFFSET_MISMATCH;
3683    bit32  agOSSA_IO_XFER_ERROR_XFER_ZERO_DATA_LEN;
3684    bit32  agOSSA_IO_XFER_CMD_FRAME_ISSUED;
3685    bit32  agOSSA_IO_ERROR_INTERNAL_SMP_RESOURCE;
3686    bit32  agOSSA_IO_PORT_IN_RESET;
3687    bit32  agOSSA_IO_DS_NON_OPERATIONAL;
3688    bit32  agOSSA_IO_DS_IN_RECOVERY;
3689    bit32  agOSSA_IO_TM_TAG_NOT_FOUND;
3690    bit32  agOSSA_IO_XFER_PIO_SETUP_ERROR;
3691    bit32  agOSSA_IO_SSP_EXT_IU_ZERO_LEN_ERROR;
3692    bit32  agOSSA_IO_DS_IN_ERROR;
3693    bit32  agOSSA_IO_OPEN_CNX_ERROR_HW_RESOURCE_BUSY;
3694    bit32  agOSSA_IO_ABORT_IN_PROGRESS;
3695    bit32  agOSSA_IO_ABORT_DELAYED;
3696    bit32  agOSSA_IO_INVALID_LENGTH;
3697    bit32  agOSSA_IO_OPEN_CNX_ERROR_HW_RESOURCE_BUSY_ALT;
3698    bit32  agOSSA_IO_OPEN_CNX_ERROR_IT_NEXUS_LOSS_OPEN_RETRY_BACKOFF_THRESHOLD_REACHED;
3699    bit32  agOSSA_IO_OPEN_CNX_ERROR_IT_NEXUS_LOSS_OPEN_TMO;
3700    bit32  agOSSA_IO_OPEN_CNX_ERROR_IT_NEXUS_LOSS_NO_DEST;
3701    bit32  agOSSA_IO_OPEN_CNX_ERROR_IT_NEXUS_LOSS_OPEN_COLLIDE;
3702    bit32  agOSSA_IO_OPEN_CNX_ERROR_IT_NEXUS_LOSS_PATHWAY_BLOCKED;
3703    bit32  agOSSA_IO_DS_INVALID;
3704    bit32  agOSSA_IO_XFER_READ_COMPL_ERR;
3705    bit32  agOSSA_IO_XFER_ERR_LAST_PIO_DATAIN_CRC_ERR;
3706    bit32  agOSSA_IO_XFR_ERROR_INTERNAL_CRC_ERROR;
3707    bit32  agOSSA_MPI_IO_RQE_BUSY_FULL;
3708    bit32  agOSSA_MPI_ERR_IO_RESOURCE_UNAVAILABLE;
3709    bit32  agOSSA_MPI_ERR_ATAPI_DEVICE_BUSY;
3710    bit32  agOSSA_IO_XFR_ERROR_DEK_KEY_CACHE_MISS;
3711    bit32  agOSSA_IO_XFR_ERROR_DEK_KEY_TAG_MISMATCH;
3712    bit32  agOSSA_IO_XFR_ERROR_CIPHER_MODE_INVALID;
3713    bit32  agOSSA_IO_XFR_ERROR_DEK_IV_MISMATCH;
3714    bit32  agOSSA_IO_XFR_ERROR_DEK_RAM_INTERFACE_ERROR;
3715    bit32  agOSSA_IO_XFR_ERROR_INTERNAL_RAM;
3716    bit32  agOSSA_IO_XFR_ERROR_DIF_MISMATCH;
3717    bit32  agOSSA_IO_XFR_ERROR_DIF_APPLICATION_TAG_MISMATCH;
3718    bit32  agOSSA_IO_XFR_ERROR_DIF_REFERENCE_TAG_MISMATCH;
3719    bit32  agOSSA_IO_XFR_ERROR_DIF_CRC_MISMATCH;
3720    bit32  agOSSA_IO_XFR_ERROR_INVALID_SSP_RSP_FRAME;
3721    bit32  agOSSA_IO_XFER_ERR_EOB_DATA_OVERRUN;
3722    bit32  agOSSA_IO_XFR_ERROR_DEK_INDEX_OUT_OF_BOUNDS;
3723    bit32  agOSSA_IO_OPEN_CNX_ERROR_OPEN_PREEMPTED;
3724    bit32  agOSSA_IO_XFR_ERROR_DEK_ILLEGAL_TABLE;
3725    bit32  agOSSA_IO_XFER_ERROR_DIF_INTERNAL_ERROR;
3726    bit32  agOSSA_MPI_ERR_OFFLOAD_DIF_OR_ENC_NOT_ENABLED;
3727    bit32  agOSSA_IO_XFER_ERROR_DMA_ACTIVATE_TIMEOUT;
3728    bit32  agOSSA_IO_UNKNOWN_ERROR;
3729 } agsaIOErrorEventStats_t;
3730 
3731 
3732 /************************************************************************************
3733  *                                                                                  *
3734  *               Data Structures Defined for LL API ends                            *
3735  *                                                                                  *
3736  ************************************************************************************/
3737 #ifdef SALL_API_TEST
3738 typedef struct agsaIOCountInfo_s
3739 {
3740   bit32 numSSPStarted;    // saSSPStart()
3741   bit32 numSSPAborted;    // saSSPAbort()
3742   bit32 numSSPAbortedCB;  // ossaSSPAbortCB()
3743   bit32 numSSPCompleted;  // includes success and aborted IOs
3744   bit32 numSMPStarted;    // saSMPStart()
3745   bit32 numSMPAborted;    // saSMPAbort()
3746   bit32 numSMPAbortedCB;  // ossaSMPAbortCB()
3747   bit32 numSMPCompleted;  // includes success and aborted IOs
3748   bit32 numSataStarted;   // saSATAStart()
3749   bit32 numSataAborted;   // saSATAAbort()
3750   bit32 numSataAbortedCB; // ossaSATAAbortCB()
3751   bit32 numSataCompleted; // includes success and aborted IOs
3752   bit32 numEchoSent;      // saEchoCommand()
3753   bit32 numEchoCB;        // ossaEchoCB()
3754   bit32 numUNKNWRespIOMB; // unknow Response IOMB received
3755   bit32 numOurIntCount;   //InterruptHandler() counter
3756   bit32 numSpuriousInt;   //spurious interrupts
3757 //  bit32 numSpInts[64];    //spuriours interrupts count for each OBQ (PI=CI)
3758 //  bit32 numSpInts1[64];   //spuriours interrupts count for each OBQ (PI!=CI)
3759 } agsaIOCountInfo_t;
3760 
3761 /* Total IO Counter */
3762 #define LL_COUNTERS 17
3763 /* Counter Bit Map */
3764 #define COUNTER_SSP_START       0x000001
3765 #define COUNTER_SSP_ABORT       0x000002
3766 #define COUNTER_SSPABORT_CB     0x000004
3767 #define COUNTER_SSP_COMPLETEED  0x000008
3768 #define COUNTER_SMP_START       0x000010
3769 #define COUNTER_SMP_ABORT       0x000020
3770 #define COUNTER_SMPABORT_CB     0x000040
3771 #define COUNTER_SMP_COMPLETEED  0x000080
3772 #define COUNTER_SATA_START      0x000100
3773 #define COUNTER_SATA_ABORT      0x000200
3774 #define COUNTER_SATAABORT_CB    0x000400
3775 #define COUNTER_SATA_COMPLETEED 0x000800
3776 #define COUNTER_ECHO_SENT       0x001000
3777 #define COUNTER_ECHO_CB         0x002000
3778 #define COUNTER_UNKWN_IOMB      0x004000
3779 #define COUNTER_OUR_INT         0x008000
3780 #define COUNTER_SPUR_INT        0x010000
3781 #define ALL_COUNTERS            0xFFFFFF
3782 
3783 typedef union agsaLLCountInfo_s
3784 {
3785   agsaIOCountInfo_t IOCounter;
3786   bit32 arrayIOCounter[LL_COUNTERS];
3787 } agsaLLCountInfo_t;
3788 
3789 #endif /* SALL_API_TEST */
3790 
3791 #define MAX_IO_DEVICE_ENTRIES  4096            /**< Maximum Device Entries */
3792 
3793 
3794 #ifdef SA_ENABLE_POISION_TLP
3795 #define SA_PTNFE_POISION_TLP 1 /* Enable if one  */
3796 #else /* SA_ENABLE_POISION_TLP */
3797 #define SA_PTNFE_POISION_TLP 0 /* Disable if zero default setting */
3798 #endif /* SA_ENABLE_POISION_TLP */
3799 
3800 #ifdef SA_DISABLE_MDFD
3801 #define SA_MDFD_MULTI_DATA_FETCH 1 /* Disable if one  */
3802 #else /* SA_DISABLE_MDFD */
3803 #define SA_MDFD_MULTI_DATA_FETCH 0 /* Enable if zero default setting */
3804 #endif /* SA_DISABLE_MDFD */
3805 
3806 #ifdef SA_ENABLE_ARBTE
3807 #define SA_ARBTE 1  /* Enable if one  */
3808 #else /* SA_ENABLE_ARBTE */
3809 #define SA_ARBTE 0  /* Disable if zero default setting */
3810 #endif /* SA_ENABLE_ARBTE */
3811 
3812 #ifdef SA_DISABLE_OB_COAL
3813 #define SA_OUTBOUND_COALESCE 0 /* Disable if zero */
3814 #else /* SA_DISABLE_OB_COAL */
3815 #define SA_OUTBOUND_COALESCE 1 /* Enable if one default setting */
3816 #endif /* SA_DISABLE_OB_COAL */
3817 
3818 
3819 /***********************************************************************************
3820  *                                                                                 *
3821  *              The OS Layer Functions Declarations start                          *
3822  *                                                                                 *
3823  ***********************************************************************************/
3824 #include "saosapi.h"
3825 /***********************************************************************************
3826  *                                                                                 *
3827  *              The OS Layer Functions Declarations end                            *
3828  *                                                                                 *
3829  ***********************************************************************************/
3830 
3831 /***********************************************************************************
3832  *                                                                                 *
3833  *              The LL Layer Functions Declarations start                          *
3834  *                                                                                 *
3835  ***********************************************************************************/
3836 
3837 #ifdef FAST_IO_TEST
3838 /* needs to be allocated by the xPrepare() caller, one struct per IO */
3839 typedef struct agsaFastCBBuf_s
3840 {
3841   void  *cb;
3842   void  *cbArg;
3843   void  *pSenseData;
3844   bit8  *senseLen;
3845   /* internal */
3846   void  *oneDeviceData; /* tdsaDeviceData_t */
3847 } agsaFastCBBuf_t;
3848 
3849 typedef struct agsaFastCommand_s
3850 {
3851   /* in */
3852   void        *agRoot;
3853   /* modified by TD tiFastPrepare() */
3854   void        *devHandle;    /* agsaDevHandle_t* */
3855   void        *agSgl;        /* agsaSgl_t* */
3856   bit32       dataLength;
3857   bit32       extDataLength;
3858   bit8        additionalCdbLen;
3859   bit8        *cdb;
3860   bit8        *lun;
3861   /* modified by TD tiFastPrepare() */
3862   bit8        taskAttribute; /* TD_xxx */
3863   bit16       flag;          /* TLR_MASK */
3864   bit32       agRequestType;
3865   bit32       queueNum;
3866   agsaFastCBBuf_t *safb;
3867 } agsaFastCommand_t;
3868 #endif
3869 
3870 
3871 
3872 /* Enable test by setting bits in gFPGA_TEST */
3873 
3874 #define  EnableFPGA_TEST_ICCcontrol            0x01
3875 #define  EnableFPGA_TEST_ReadDEV               0x02
3876 #define  EnableFPGA_TEST_WriteCALAll           0x04
3877 #define  EnableFPGA_TEST_ReconfigSASParams     0x08
3878 #define  EnableFPGA_TEST_LocalPhyControl       0x10
3879 #define  EnableFPGA_TEST_PortControl           0x20
3880 
3881 
3882 /*
3883 PM8001/PM8008/PM8009/PM8018 sTSDK Low-Level Architecture Specification
3884 SDK2
3885 3.3 Encryption Status Definitions
3886 Encryption engine generated errors.
3887 Table 7 Encryption Engine Generated Errors
3888 Error Definition
3889 */
3890 
3891 /*
3892 PM 1.01
3893 section 4.26.12.6 Encryption Errors
3894 Table 51 lists initialization errors related to encryption functionality. For information on errors reported
3895 for inbound IOMB commands, refer to the corresponding outbound response sections. The error codes
3896 listed in Table 51 are reported in the Scratchpad 3 Register.
3897 */
3898 #define OSSA_ENCRYPT_ENGINE_FAILURE_MASK        0x00FF0000    /* Encrypt Engine failed the BIST Test */
3899 #define OSSA_ENCRYPT_SEEPROM_NOT_FOUND          0x01  /* SEEPROM is not installed. This condition is reported based on the bootstrap pin setting. */
3900 #define OSSA_ENCRYPT_SEEPROM_IPW_RD_ACCESS_TMO  0x02  /* SEEPROM access timeout detected while reading initialization password or Allowable Cipher Modes. */
3901 #define OSSA_ENCRYPT_SEEPROM_IPW_RD_CRC_ERR     0x03  /* CRC Error detected when reading initialization password or Allowable Cipher Modes.  */
3902 #define OSSA_ENCRYPT_SEEPROM_IPW_INVALID        0x04  /* Initialization password read from SEEPROM doesn't match any valid password value. This could also mean SEEPROM is blank.  */
3903 #define OSSA_ENCRYPT_SEEPROM_WR_ACCESS_TMO      0x05  /* access timeout detected while writing initialization password or Allowable Cipher Modes.  */
3904 #define OSSA_ENCRYPT_FLASH_ACCESS_TMO           0x20  /* Timeout while reading flash memory. */
3905 #define OSSA_ENCRYPT_FLASH_SECTOR_ERASE_TMO     0x21  /* Flash sector erase timeout while writing to flash memory. */
3906 #define OSSA_ENCRYPT_FLASH_SECTOR_ERASE_ERR     0x22  /* Flash sector erase failure while writing to flash memory. */
3907 #define OSSA_ENCRYPT_FLASH_ECC_CHECK_ERR        0x23  /* Flash ECC check failure. */
3908 #define OSSA_ENCRYPT_FLASH_NOT_INSTALLED        0x24  /* Flash memory not installed, this error is only detected in Security Mode B.  */
3909 #define OSSA_ENCRYPT_INITIAL_KEK_NOT_FOUND      0x40  /* Initial KEK is not found in the flash memory. This error is only detected in Security Mode B. */
3910 #define OSSA_ENCRYPT_AES_BIST_ERR               0x41  /* Built-In Test Failure */
3911 #define OSSA_ENCRYPT_KWP_BIST_FAILURE           0x42  /* Built-In Test Failed on Key Wrap Engine */
3912 
3913 /* 0x01:ENC_ERR_SEEPROM_NOT_INSTALLED */
3914 /* 0x02:ENC_ERR_SEEPROM_IPW_RD_ACCESS_TMO */
3915 /* 0x03:ENC_ERR_SEEPROM_IPW_RD_CRC_ERR */
3916 /* 0x04:ENC_ERR_SEEPROM_IPW_INVALID */
3917 /* 0x05:ENC_ERR_SEEPROM_WR_ACCESS_TMO */
3918 /* 0x20:ENC_ERR_FLASH_ACCESS_TMO */
3919 /* 0x21:ENC_ERR_FLASH_SECTOR_ERASE_TMO */
3920 /* 0x22:ENC_ERR_FLASH_SECTOR_ERASE_FAILURE */
3921 /* 0x23:ENC_ERR_FLASH_ECC_CHECK_FAILURE */
3922 /* 0x24:ENC_ERR_FLASH_NOT_INSTALLED */
3923 /* 0x40:ENC_ERR_INITIAL_KEK_NOT_FOUND */
3924 /* 0x41:ENC_ERR_AES_BIST_FAILURE */
3925 /* 0x42:ENC_ERR_KWP_BIST_FAILURE */
3926 
3927 /*
3928 This field indicates self test failure in DIF engine bits [27:24].
3929 */
3930 
3931 #define OSSA_DIF_ENGINE_FAILURE_MASK        0x0F000000    /* DIF Engine failed the BIST Test */
3932 
3933 #define OSSA_DIF_ENGINE_0_BIST_FAILURE           0x1  /* DIF Engine 0 failed the BIST Test */
3934 #define OSSA_DIF_ENGINE_1_BIST_FAILURE           0x2  /* DIF Engine 1 failed the BIST Test */
3935 #define OSSA_DIF_ENGINE_2_BIST_FAILURE           0x4  /* DIF Engine 2 failed the BIST Test */
3936 #define OSSA_DIF_ENGINE_3_BIST_FAILURE           0x8  /* DIF Engine 3 failed the BIST Test */
3937 
3938 #define SA_ROLE_CAPABILITIES_CSP 0x001
3939 #define SA_ROLE_CAPABILITIES_OPR 0x002
3940 #define SA_ROLE_CAPABILITIES_SCO 0x004
3941 #define SA_ROLE_CAPABILITIES_STS 0x008
3942 #define SA_ROLE_CAPABILITIES_TST 0x010
3943 #define SA_ROLE_CAPABILITIES_KEK 0x020
3944 #define SA_ROLE_CAPABILITIES_DEK 0x040
3945 #define SA_ROLE_CAPABILITIES_IOS 0x080
3946 #define SA_ROLE_CAPABILITIES_FWU 0x100
3947 #define SA_ROLE_CAPABILITIES_PRM 0x200
3948 
3949 
3950 #include "saapi.h"
3951 /***********************************************************************************
3952  *                                                                                 *
3953  *              The LL Layer Functions Declarations end                            *
3954  *                                                                                 *
3955  ***********************************************************************************/
3956 
3957 #endif  /*__SA_H__ */
3958