xref: /freebsd/sys/dev/pms/RefTisa/sallsdk/spc/sampidefs.h (revision 8aac90f18aef7c9eea906c3ff9a001ca7b94f375)
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 *
22 ********************************************************************************/
23 /*******************************************************************************/
24 /*! \file sampidefs.h
25  *  \brief The file defines the constants used by SAS/SATA LL layer
26  *
27  */
28 
29 /*******************************************************************************/
30 
31 #ifndef  __SAMPIDEFS_H__
32 
33 #define __SAMPIDEFS_H__
34 
35 /* for Request Opcode of IOMB */
36 #define OPC_INB_ECHO                          0x001   /*  */
37 
38 #define OPC_INB_PHYSTART                      0x004   /*  */
39 #define OPC_INB_PHYSTOP                       0x005   /*  */
40 #define OPC_INB_SSPINIIOSTART                 0x006   /*  */
41 #define OPC_INB_SSPINITMSTART                 0x007   /*  */
42 #define OPC_INB_SSPINIEXTIOSTART              0x008   /*  V reserved */
43 #define OPC_INB_DEV_HANDLE_ACCEPT             0x009   /*  */
44 #define OPC_INB_SSPTGTIOSTART                 0x00a   /*  */
45 #define OPC_INB_SSPTGTRSPSTART                0x00b   /*  */
46 #define OPC_INB_SSP_ABORT                     0x00f   /*  */
47 #define OPC_INB_DEREG_DEV_HANDLE              0x010   /* 16 */
48 #define OPC_INB_GET_DEV_HANDLE                0x011   /* 17 */
49 #define OPC_INB_SMP_REQUEST                   0x012   /* 18 */
50 
51 #define OPC_INB_SMP_ABORT                     0x014   /* 20 */
52 
53 #define OPC_INB_SPC_REG_DEV                   0x016   /* 22 V reserved */
54 #define OPC_INB_SATA_HOST_OPSTART             0x017   /* 23 */
55 #define OPC_INB_SATA_ABORT                    0x018   /* 24 */
56 #define OPC_INB_LOCAL_PHY_CONTROL             0x019   /* 25 */
57 #define OPC_INB_SPC_GET_DEV_INFO              0x01a   /* 26 V reserved */
58 
59 #define OPC_INB_FW_FLASH_UPDATE               0x020   /* 32 */
60 
61 #define OPC_INB_GPIO                          0x022    /* 34 */
62 #define OPC_INB_SAS_DIAG_MODE_START_END       0x023    /* 35 */
63 #define OPC_INB_SAS_DIAG_EXECUTE              0x024    /* 36 */
64 #define OPC_INB_SPC_SAS_HW_EVENT_ACK          0x025    /* 37 V reserved */
65 #define OPC_INB_GET_TIME_STAMP                0x026    /* 38 */
66 #define OPC_INB_PORT_CONTROL                  0x027    /* 39 */
67 #define OPC_INB_GET_NVMD_DATA                 0x028    /* 40 */
68 #define OPC_INB_SET_NVMD_DATA                 0x029    /* 41 */
69 #define OPC_INB_SET_DEVICE_STATE              0x02a    /* 42 */
70 #define OPC_INB_GET_DEVICE_STATE              0x02b    /* 43 */
71 #define OPC_INB_SET_DEV_INFO                  0x02c    /* 44 */
72 #define OPC_INB_SAS_RE_INITIALIZE             0x02d    /* 45 V reserved */
73 #define OPC_INB_SGPIO                         0x02e    /* 46 */
74 #define OPC_INB_PCIE_DIAG_EXECUTE             0x02f    /* 47 */
75 
76 #define OPC_INB_SET_CONTROLLER_CONFIG         0x030    /* 48 */
77 #define OPC_INB_GET_CONTROLLER_CONFIG         0x031    /* 49 */
78 
79 #define OPC_INB_REG_DEV                       0x032    /* 50 SPCV */
80 #define OPC_INB_SAS_HW_EVENT_ACK              0x033    /* 51 SPCV */
81 #define OPC_INB_GET_DEV_INFO                  0x034    /* 52 SPCV */
82 #define OPC_INB_GET_PHY_PROFILE               0x035    /* 53 SPCV */
83 #define OPC_INB_FLASH_OP_EXT                  0x036    /* 54 SPCV */
84 #define OPC_INB_SET_PHY_PROFILE               0x037    /* 55 SPCV */
85 #define OPC_INB_GET_DFE_DATA                  0x038    /* 56 SPCV */
86 #define OPC_INB_GET_VHIST_CAP                 0x039    /* 57 SPCV12g */
87 
88 
89 #define OPC_INB_KEK_MANAGEMENT                0x100    /* 256 SPCV */
90 #define OPC_INB_DEK_MANAGEMENT                0x101    /* 257 SPCV */
91 #define OPC_INB_SSP_DIF_ENC_OPSTART           0x102    /* 258 SPCV */
92 #define OPC_INB_SATA_DIF_ENC_OPSTART          0x103    /* 259 SPCV */
93 #define OPC_INB_OPR_MGMT                      0x104    /* 260 SPCV */
94 #define OPC_INB_ENC_TEST_EXECUTE              0x105    /* 261 SPCV */
95 #define OPC_INB_SET_OPERATOR                  0x106    /* 262 SPCV */
96 #define OPC_INB_GET_OPERATOR                  0x107    /* 263 SPCV */
97 #define OPC_INB_DIF_ENC_OFFLOAD_CMD           0x110    /* 272 SPCV */
98 
99 #define OPC_INB_FW_PROFILE                    0x888    /* 2184 SPCV */
100 
101 /* for Response Opcode of IOMB */
102 #define OPC_OUB_ECHO                          0x001    /* 1 */
103 
104 #define OPC_OUB_SPC_HW_EVENT                  0x004    /*  4 V reserved Now OPC_OUB_HW_EVENT */
105 #define OPC_OUB_SSP_COMP                      0x005    /* 5 */
106 #define OPC_OUB_SMP_COMP                      0x006    /* 6 */
107 #define OPC_OUB_LOCAL_PHY_CNTRL               0x007    /* 7 */
108 
109 #define OPC_OUB_SPC_DEV_REGIST                0x00a    /* 10 V reserved Now OPC_OUB_DEV_REGIST */
110 #define OPC_OUB_DEREG_DEV                     0x00b    /* 11 */
111 #define OPC_OUB_GET_DEV_HANDLE                0x00c    /* 12 */
112 #define OPC_OUB_SATA_COMP                     0x00d    /* 13 */
113 #define OPC_OUB_SATA_EVENT                    0x00e    /* 14 */
114 #define OPC_OUB_SSP_EVENT                     0x00f    /* 15 */
115 
116 #define OPC_OUB_SPC_DEV_HANDLE_ARRIV          0x010    /* 16 V reserved Now OPC_OUB_DEV_HANDLE_ARRIV */
117 
118 #define OPC_OUB_SSP_RECV_EVENT                0x012    /* 18 */
119 #define OPC_OUB_SPC_DEV_INFO                  0x013    /* 19 V reserved Now OPC_OUB_DEV_INFO*/
120 #define OPC_OUB_FW_FLASH_UPDATE               0x014    /* 20 */
121 
122 #define OPC_OUB_GPIO_RESPONSE                 0x016    /* 22 */
123 #define OPC_OUB_GPIO_EVENT                    0x017    /* 23 */
124 #define OPC_OUB_GENERAL_EVENT                 0x018    /* 24 */
125 
126 #define OPC_OUB_SSP_ABORT_RSP                 0x01a    /* 26 */
127 #define OPC_OUB_SATA_ABORT_RSP                0x01b    /* 27 */
128 #define OPC_OUB_SAS_DIAG_MODE_START_END       0x01c    /* 28 */
129 #define OPC_OUB_SAS_DIAG_EXECUTE              0x01d    /* 29 */
130 #define OPC_OUB_GET_TIME_STAMP                0x01e    /* 30 */
131 #define OPC_OUB_SPC_SAS_HW_EVENT_ACK          0x01f    /* 31 V reserved Now OPC_OUB_SAS_HW_EVENT_ACK*/
132 #define OPC_OUB_PORT_CONTROL                  0x020    /* 32 */
133 #define OPC_OUB_SKIP_ENTRY                    0x021    /* 33 */
134 #define OPC_OUB_SMP_ABORT_RSP                 0x022    /* 34 */
135 #define OPC_OUB_GET_NVMD_DATA                 0x023    /* 35 */
136 #define OPC_OUB_SET_NVMD_DATA                 0x024    /* 36 */
137 #define OPC_OUB_DEVICE_HANDLE_REMOVAL         0x025    /* 37 */
138 #define OPC_OUB_SET_DEVICE_STATE              0x026    /* 38 */
139 #define OPC_OUB_GET_DEVICE_STATE              0x027    /* 39 */
140 #define OPC_OUB_SET_DEV_INFO                  0x028    /* 40 */
141 #define OPC_OUB_SAS_RE_INITIALIZE             0x029    /* 41 V reserved not replaced */
142 
143 #define OPC_OUB_HW_EVENT                      0x700    /* 1792 SPCV Was OPC_OUB_SPC_HW_EVENT*/
144 #define OPC_OUB_DEV_HANDLE_ARRIV              0x720    /* 1824 SPCV Was OPC_OUB_SPC_DEV_HANDLE_ARRIV*/
145 
146 #define OPC_OUB_PHY_START_RESPONSE            0x804    /* 2052 SPCV */
147 #define OPC_OUB_PHY_STOP_RESPONSE             0x805    /* 2053 SPCV */
148 #define OPC_OUB_SGPIO_RESPONSE                0x82E    /* 2094 SPCV */
149 #define OPC_OUB_PCIE_DIAG_EXECUTE             0x82F    /* 2095 SPCV */
150 
151 #define OPC_OUB_SET_CONTROLLER_CONFIG         0x830    /* 2096 SPCV */
152 #define OPC_OUB_GET_CONTROLLER_CONFIG         0x831    /* 2097 SPCV */
153 #define OPC_OUB_DEV_REGIST                    0x832    /* 2098 SPCV */
154 #define OPC_OUB_SAS_HW_EVENT_ACK              0x833    /* 2099 SPCV */
155 #define OPC_OUB_DEV_INFO                      0x834    /* 2100 SPCV */
156 #define OPC_OUB_GET_PHY_PROFILE_RSP           0x835    /* 2101 SPCV */
157 #define OPC_OUB_FLASH_OP_EXT_RSP              0x836    /* 2102 SPCV */
158 #define OPC_OUB_SET_PHY_PROFILE_RSP           0x837    /* 2103 SPCV */
159 #define OPC_OUB_GET_DFE_DATA_RSP              0x838    /* 2104 SPCV */
160 #define OPC_OUB_GET_VIST_CAP_RSP              0x839    /* Can be 2104 for SPCV12g  */
161 
162 #define OPC_OUB_FW_PROFILE                    0x888    /* 2184 */
163 
164 #define OPC_OUB_KEK_MANAGEMENT                0x900    /* 2304 SPCV */
165 #define OPC_OUB_DEK_MANAGEMENT                0x901    /* 2305 SPCV */
166 #define OPC_OUB_COMBINED_SSP_COMP             0x902    /* 2306 SPCV */
167 #define OPC_OUB_COMBINED_SATA_COMP            0x903    /* 2307 SPCV */
168 #define OPC_OUB_OPR_MGMT                      0x904    /* 2308 SPCV */
169 #define OPC_OUB_ENC_TEST_EXECUTE              0x905    /* 2309 SPCV */
170 #define OPC_OUB_SET_OPERATOR                  0x906    /* 2310 SPCV */
171 #define OPC_OUB_GET_OPERATOR                  0x907    /* 2311 SPCV */
172 #define OPC_OUB_DIF_ENC_OFFLOAD_RSP           0x910    /* 2320 SPCV */
173 
174 /* Definitions for encryption key management */
175 #define KEK_MGMT_SUBOP_INVALIDATE                0x1
176 #define KEK_MGMT_SUBOP_UPDATE                    0x2
177 #define KEK_MGMT_SUBOP_KEYCARDINVALIDATE         0x3
178 #define KEK_MGMT_SUBOP_KEYCARDUPDATE             0x4
179 
180 #define DEK_MGMT_SUBOP_INVALIDATE                0x1
181 #define DEK_MGMT_SUBOP_UPDATE                    0x2
182 
183 /***************************************************
184  *           typedef for IOMB structure
185  ***************************************************/
186 /** \brief the data structure of Echo Command
187  *
188  * use to describe MPI Echo Command (64 bytes)
189  *
190  */
191 typedef struct agsaEchoCmd_s {
192   bit32           tag;
193   bit32           payload[14];
194 } agsaEchoCmd_t;
195 
196 /** \brief the data structure of PHY Start Command
197  *
198  * use to describe MPI PHY Start Command (64 bytes)
199  *
200  */
201 typedef struct agsaPhyStartCmd_s {
202   bit32             tag;
203   bit32             SscdAseSHLmMlrPhyId;
204   agsaSASIdentify_t sasIdentify;
205   bit32             analogSetupIdx;
206   bit32             SAWT_DAWT;
207   bit32             reserved[5];
208 } agsaPhyStartCmd_t;
209 
210 #define SPINHOLD_DISABLE   (0x00 << 14)
211 #define SPINHOLD_ENABLE    (0x01 << 14)
212 #define LINKMODE_SAS       (0x01 << 12)
213 #define LINKMODE_DSATA     (0x02 << 12)
214 #define LINKMODE_AUTO      (0x03 << 12)
215 #define LINKRATE_15        (0x01 << 8)
216 #define LINKRATE_30        (0x02 << 8)
217 #define LINKRATE_60        (0x04 << 8)
218 #define LINKRATE_12        (0x08 << 8)
219 
220 /** \brief the data structure of PHY Stop Command
221  *
222  * use to describe MPI PHY Start Command (64 bytes)
223  *
224  */
225 typedef struct agsaPhyStopCmd_s {
226   bit32             tag;
227   bit32             phyId;
228   bit32             reserved[13];
229 } agsaPhyStopCmd_t;
230 
231 /** \brief the data structure of SSP INI IO Start Command
232  *
233  * use to describe MPI SSP INI IO Start Command (64 bytes)
234  *
235  */
236 typedef struct agsaSSPIniIOStartCmd_s {
237   bit32                tag;
238   bit32                deviceId;
239   bit32                dataLen;
240   bit32                dirMTlr;
241   agsaSSPCmdInfoUnit_t SSPInfoUnit;
242   bit32                AddrLow0;
243   bit32                AddrHi0;
244   bit32                Len0;
245   bit32                E0;
246 } agsaSSPIniIOStartCmd_t;
247 
248 /** \brief the data structure of SSP INI TM Start Command
249  *
250  * use to describe MPI SSP INI TM Start Command (64 bytes)
251  *
252  */
253 typedef struct agsaSSPIniTMStartCmd_s {
254   bit32                tag;
255   bit32                deviceId;
256   bit32                relatedTag;
257   bit32                TMfunction;
258   bit8                 lun[8];
259   bit32                dsAdsMReport;
260   bit32                reserved[8];
261 } agsaSSPIniTMStartCmd_t;
262 
263 /** \brief the data structure of SSP INI Extended IO Start Command
264  *
265  * use to describe MPI SSP INI Extended CDB Start Command (96 bytes to support 32 CDB)
266  *
267  */
268 typedef struct agsaSSPIniExtIOStartCmd_s {
269   bit32                tag;
270   bit32                deviceId;
271   bit32                dataLen;
272   bit32                SSPIuLendirMTlr;
273   bit8                 SSPIu[1];
274   /* variable lengh */
275   /*  bit32            AddrLow0; */
276   /*  bit32            AddrHi0;  */
277   /*  bit32            Len0;     */
278   /*  bit32            E0;       */
279 } agsaSSPIniExtIOStartCmd_t;
280 
281 typedef struct agsaSSPIniEncryptIOStartCmd_s
282 {
283   bit32                tag;                  /* 1 */
284   bit32                deviceId;             /* 2 */
285   bit32                dataLen;              /* 3 */
286   bit32                dirMTlr;              /* 4 */
287   bit32                sspiu_0_3_indcdbalL;  /* 5 */
288   bit32                sspiu_4_7_indcdbalH;  /* 6 */
289   bit32                sspiu_8_11;           /* 7 */
290   bit32                sspiu_12_15;          /* 8 */
291   bit32                sspiu_16_19;          /* 9 */
292   bit32                sspiu_19_23;          /* 10 */
293   bit32                sspiu_24_27;          /* 11 */
294   bit32                epl_descL;            /* 12 */
295   bit32                dpl_descL;            /* 13 */
296   bit32                edpl_descH;           /* 14 */
297   bit32                DIF_flags;            /* 15 */
298   bit32                udt;                  /* 16 0x10 */
299   bit32                udtReplacementLo;     /* 17 */
300   bit32                udtReplacementHi;     /* 18 */
301   bit32                DIF_seed;             /* 19 */
302   bit32                encryptFlagsLo;       /* 20 0x14 */
303   bit32                encryptFlagsHi;       /* 21 */
304   bit32                keyTag_W0;            /* 22 */
305   bit32                keyTag_W1;            /* 23 */
306   bit32                tweakVal_W0;          /* 24 0x18 */
307   bit32                tweakVal_W1;          /* 25 */
308   bit32                tweakVal_W2;          /* 26 */
309   bit32                tweakVal_W3;          /* 27 */
310   bit32                AddrLow0;             /* 28 0x1C */
311   bit32                AddrHi0;              /* 29 */
312   bit32                Len0;                 /* 30 */
313   bit32                E0;                   /* 31 */
314 } agsaSSPIniEncryptIOStartCmd_t;
315 
316 /** \brief the data structure of SSP Abort Command
317  *
318  * use to describe MPI SSP Abort Command (64 bytes)
319  *
320  */
321 typedef struct agsaSSPAbortCmd_s {
322   bit32             tag;
323   bit32             deviceId;
324   bit32             HTagAbort;
325   bit32             abortAll;
326   bit32             reserved[11];
327 } agsaSSPAbortCmd_t;
328 
329 /** \brief the data structure of Register Device Command
330  *
331  * use to describe MPI DEVICE REGISTER Command (64 bytes)
332  *
333  */
334 typedef struct agsaRegDevCmd_s {
335   bit32             tag;
336   bit32             phyIdportId;
337   bit32             dTypeLRateAwtHa;
338   bit32             ITNexusTimeOut;
339   bit32             sasAddrHi;
340   bit32             sasAddrLo;
341   bit32             DeviceId;
342   bit32             reserved[8];
343 } agsaRegDevCmd_t;
344 
345 /** \brief the data structure of Deregister Device Handle Command
346  *
347  * use to describe MPI DEREGISTER DEVIDE HANDLE Command (64 bytes)
348  *
349  */
350 typedef struct agsaDeregDevHandleCmd_s {
351   bit32             tag;
352   bit32             deviceId;
353   bit32             portId;
354   bit32             reserved[12];
355 } agsaDeregDevHandleCmd_t;
356 
357 /** \brief the data structure of Get Device Handle Command
358  *
359  * use to describe MPI GET DEVIDE HANDLE Command (64 bytes)
360  *
361  */
362 typedef struct agsaGetDevHandleCmd_s {
363   bit32             tag;
364   bit32             DevADevTMaxDIDportId;
365   bit32             skipCount;
366   bit32             reserved[12];
367 } agsaGetDevHandleCmd_t;
368 
369 /** \brief the data structure of SMP Request Command
370  *
371  * use to describe MPI SMP REQUEST Command (64 bytes)
372  *
373  */
374 
375 typedef struct agsaSMPCmd_s {
376   bit32                tag;
377   bit32                deviceId;
378   bit32                IR_IP_OV_res_phyId_DPdLen_res;
379                                                /* Bits [0]  - IR */
380                                                /* Bits [1] - IP */
381                                                /* Bits [15:2] - Reserved */
382                                                /* Bits [23:16] - Len */
383                                                /* Bits [31:24] - Reserved */
384   bit32                SMPCmd[12];
385 } agsaSMPCmd_t;
386 
387 
388 typedef struct agsaSMPCmd_V_s {
389   bit32                tag;                    /* 1 */
390   bit32                deviceId;               /* 2 */
391   bit32                IR_IP_OV_res_phyId_DPdLen_res;/* 3 */
392                                                /* Bits [0]  - IR */
393                                                /* Bits [1] - IP */
394                                                /* Bits [15:2] - Reserved */
395                                                /* Bits [23:16] - Len */
396                                                /* Bits [31:24] - Reserved */
397   bit32                SMPHDR;                 /* 4 */
398   bit32                SMP3_0;                 /* 5 */
399   bit32                SMP7_4;                 /* 6 */
400   bit32                SMP11_8;                /* 7 */
401   bit32                IndirL_SMPRF15_12;      /* 8 */
402   bit32                IndirH_or_SMPRF19_16;   /* 9 */
403   bit32                IndirLen_or_SMPRF23_20; /* 10 */
404   bit32                R_or_SMPRF27_24;        /* 11 */
405   bit32                ISRAL_or_SMPRF31_28;    /* 12 */
406   bit32                ISRAH_or_SMPRF35_32;    /* 13 */
407   bit32                ISRL_or_SMPRF39_36;     /* 14 */
408   bit32                R_or_SMPRF43_40;        /* 15 */
409 } agsaSMPCmd_V_t;
410 
411 /** \brief the data structure of SMP Abort Command
412  *
413  * use to describe MPI SMP Abort Command (64 bytes)
414  *
415  */
416 typedef struct agsaSMPAbortCmd_s {
417   bit32             tag;
418   bit32             deviceId;
419   bit32             HTagAbort;
420   bit32             Scp;
421   bit32             reserved[11];
422 } agsaSMPAbortCmd_t;
423 
424 /** \brief the data structure of SATA Start Command
425  *
426  * use to describe MPI SATA Start Command (64 bytes)
427  *
428  */
429 typedef struct agsaSATAStartCmd_s {
430   bit32                    tag;              /* 1 */
431   bit32                    deviceId;         /* 2 */
432   bit32                    dataLen;          /* 3 */
433   bit32                    optNCQTagataProt; /* 4 */
434   agsaFisRegHostToDevice_t sataFis;          /* 5 6 7 8 9 */
435   bit32                    reserved1;        /* 10 */
436   bit32                    reserved2;        /* 11 */
437   bit32                    AddrLow0;         /* 12 */
438   bit32                    AddrHi0;          /* 13 */
439   bit32                    Len0;             /* 14 */
440   bit32                    E0;               /* 15 */
441   bit32                    ATAPICDB[4];     /* 16-19 */
442 } agsaSATAStartCmd_t;
443 
444 typedef struct agsaSATAEncryptStartCmd_s
445 {
446   bit32                tag;                  /* 1 */
447   bit32                IniDeviceId;          /* 2 */
448   bit32                dataLen;              /* 3 */
449   bit32                optNCQTagataProt;     /* 4 */
450   agsaFisRegHostToDevice_t sataFis;          /* 5 6 7 8 9 */
451   bit32                reserved1;            /* 10 */
452   bit32                Res_EPL_DESCL;        /* 11 */
453   bit32                resSKIPBYTES;         /* 12 */
454   bit32                Res_DPL_DESCL_NDPLR;  /* 13 DIF per LA Address lo if DPLE is 1 */
455   bit32                Res_EDPL_DESCH;       /* 14 DIF per LA Address hi if DPLE is 1 */
456   bit32                DIF_flags;            /* 15 */
457   bit32                udt;                  /* 16 */
458   bit32                udtReplacementLo;     /* 17 */
459   bit32                udtReplacementHi;     /* 18 */
460   bit32                DIF_seed;             /* 19 */
461   bit32                encryptFlagsLo;       /* 20 */
462   bit32                encryptFlagsHi;       /* 21 */
463   bit32                keyTagLo;             /* 22 */
464   bit32                keyTagHi;             /* 23 */
465   bit32                tweakVal_W0;          /* 24 */
466   bit32                tweakVal_W1;          /* 25 */
467   bit32                tweakVal_W2;          /* 26 */
468   bit32                tweakVal_W3;          /* 27 */
469   bit32                AddrLow0;             /* 28 */
470   bit32                AddrHi0;              /* 29 */
471   bit32                Len0;                 /* 30 */
472   bit32                E0;                   /* 31 */
473 } agsaSATAEncryptStartCmd_t;
474 
475 /** \brief the data structure of SATA Abort Command
476  *
477  * use to describe MPI SATA Abort Command (64 bytes)
478  *
479  */
480 typedef struct agsaSATAAbortCmd_s {
481   bit32             tag;
482   bit32             deviceId;
483   bit32             HTagAbort;
484   bit32             abortAll;
485   bit32             reserved[11];
486 } agsaSATAAbortCmd_t;
487 
488 /** \brief the data structure of Local PHY Control Command
489  *
490  * use to describe MPI LOCAL PHY CONTROL Command (64 bytes)
491  *
492  */
493 typedef struct agsaLocalPhyCntrlCmd_s {
494   bit32             tag;
495   bit32             phyOpPhyId;
496   bit32             reserved1[14];
497 } agsaLocalPhyCntrlCmd_t;
498 
499 /** \brief the data structure of Get Device Info Command
500  *
501  * use to describe MPI GET DEVIDE INFO Command (64 bytes)
502  *
503  */
504 typedef struct agsaGetDevInfoCmd_s {
505   bit32             tag;
506   bit32             DeviceId;
507   bit32             reserved[13];
508 } agsaGetDevInfoCmd_t;
509 
510 /** \brief the data structure of HW Reset Command
511  *
512  * use to describe MPI HW Reset Command (64 bytes)
513  *
514  */
515 typedef struct agsaHWResetCmd_s {
516   bit32           option;
517   bit32           reserved[14];
518 } agsaHWResetCmd_t;
519 
520 /** \brief the data structure of Firmware download
521  *
522  * use to describe MPI FW DOWNLOAD Command (64 bytes)
523  */
524 typedef struct agsaFwFlashUpdate_s {
525   bit32             tag;
526   bit32             curImageOffset;
527   bit32             curImageLen;
528   bit32             totalImageLen;
529   bit32             reserved0[7];
530   bit32             SGLAL;
531   bit32             SGLAH;
532   bit32             Len;
533   bit32             extReserved;
534 } agsaFwFlashUpdate_t;
535 
536 
537 /** \brief the data structure EXT Flash Op
538  *
539  * use to describe Extented Flash Operation Command (128 bytes)
540  */
541 typedef struct agsaFwFlashOpExt_s {
542   bit32             tag;
543   bit32             Command;
544   bit32             PartOffset;
545   bit32             DataLength;
546   bit32             Reserved0[7];
547   bit32             SGLAL;
548   bit32             SGLAH;
549   bit32             Len;
550   bit32             E_sgl;
551   bit32             Reserved[15];
552 } agsaFwFlashOpExt_t;
553 
554 /** \brief the data structure EXT Flash Op
555  *
556  * use to describe Extented Flash Operation Command (64 bytes)
557  */
558 typedef struct agsaFwFlashOpExtRsp_s {
559   bit32             tag;
560   bit32             Command;
561   bit32             Status;
562   bit32             Epart_Size;
563   bit32             EpartSectSize;
564   bit32             Reserved[10];
565 } agsaFwFlashOpExtRsp_t;
566 
567 
568 #define FWFLASH_IOMB_RESERVED_LEN 0x07
569 
570 #ifdef SPC_ENABLE_PROFILE
571 typedef struct agsaFwProfileIOMB_s {
572   bit32             tag;
573   bit32             tcid_processor_cmd;
574   bit32             codeStartAdd;
575   bit32             codeEndAdd;
576   bit32             reserved0[7];
577   bit32             SGLAL;
578   bit32             SGLAH;
579   bit32             Len;
580   bit32             extReserved;
581 } agsaFwProfileIOMB_t;
582 #define FWPROFILE_IOMB_RESERVED_LEN 0x07
583 #endif
584 /** \brief the data structure of GPIO Commannd
585  *
586  * use to describe MPI GPIO Command (64 bytes)
587  */
588 typedef struct agsaGPIOCmd_s {
589   bit32             tag;
590   bit32             eOBIDGeGsGrGw;
591   bit32             GpioWrMsk;
592   bit32             GpioWrVal;
593   bit32             GpioIe;
594   bit32             OT11_0;
595   bit32             OT19_12; /* reserved for SPCv controller */
596   bit32             GPIEVChange;
597   bit32             GPIEVRise;
598   bit32             GPIEVFall;
599   bit32             reserved[5];
600 } agsaGPIOCmd_t;
601 
602 
603 #define GPIO_GW_BIT 0x1
604 #define GPIO_GR_BIT 0x2
605 #define GPIO_GS_BIT 0x4
606 #define GPIO_GE_BIT 0x8
607 
608 /** \brief the data structure of SAS Diagnostic Start/End Command
609  *
610  * use to describe MPI SAS Diagnostic Start/End Command (64 bytes)
611  */
612 typedef struct agsaSASDiagStartEndCmd_s {
613   bit32             tag;
614   bit32             OperationPhyId;
615   bit32             reserved[13];
616 } agsaSASDiagStartEndCmd_t;
617 
618 /** \brief the data structure of SAS Diagnostic Execute Command
619  *
620  * use to describe MPI SAS Diagnostic Execute Command for SPCv (128 bytes)
621  */
622 typedef struct agsaSASDiagExecuteCmd_s {
623   bit32             tag;             /* 1 */
624   bit32             CmdTypeDescPhyId;/* 2 */
625   bit32             Pat1Pat2;        /* 3 */
626   bit32             Threshold;       /* 4 */
627   bit32             CodePatErrMsk;   /* 5 */
628   bit32             Pmon;            /* 6 */
629   bit32             PERF1CTL;        /* 7 */
630   bit32             THRSHLD1;        /* 8 */
631   bit32             reserved[23];     /* 9 31 */
632 } agsaSASDiagExecuteCmd_t;
633 
634 
635 /** \brief the data structure of SAS Diagnostic Execute Command
636  *
637  * use to describe MPI SAS Diagnostic Execute Command for SPC (64 bytes)
638  */
639 typedef struct agsa_SPC_SASDiagExecuteCmd_s {
640   bit32             tag;             /* 1 */
641   bit32             CmdTypeDescPhyId;/* 2 */
642   bit32             Pat1Pat2;        /* 3 */
643   bit32             Threshold;       /* 4 */
644   bit32             CodePatErrMsk;   /* 5 */
645   bit32             Pmon;            /* 6 */
646   bit32             PERF1CTL;        /* 7 */
647   bit32             reserved[8];     /* 8 15 */
648 } agsa_SPC_SASDiagExecuteCmd_t;
649 #define SAS_DIAG_PARAM_BYTES 24
650 
651 
652 /** \brief the data structure of SSP TGT IO Start Command
653  *
654  * use to describe MPI SSP TGT IO Start Command (64 bytes)
655  *
656  */
657 typedef struct agsaSSPTgtIOStartCmd_s {
658   bit32              tag;              /*  1 */
659   bit32              deviceId;         /*  2 */
660   bit32              dataLen;          /*  3 */
661   bit32              dataOffset;       /*  4 */
662   bit32              INITagAgrDir;     /*  5 */
663   bit32              reserved;         /*  6 */
664   bit32              DIF_flags;        /*  7 */
665   bit32              udt;              /*  8 */
666   bit32              udtReplacementLo; /*  9 */
667   bit32              udtReplacementHi; /* 10 */
668   bit32              DIF_seed;         /* 11 */
669   bit32              AddrLow0;         /* 12 */
670   bit32              AddrHi0;          /* 13 */
671   bit32              Len0;             /* 14 */
672   bit32              E0;               /* 15 */
673 } agsaSSPTgtIOStartCmd_t;
674 
675 /** \brief the data structure of SSP TGT Response Start Command
676  *
677  * use to describe MPI SSP TGT Response Start Command (64 bytes)
678  *
679  */
680 typedef struct agsaSSPTgtRspStartCmd_s {
681   bit32                    tag;
682   bit32                    deviceId;
683   bit32                    RspLen;
684   bit32                    INITag_IP_AN;
685   bit32                    reserved[7];
686   bit32                    AddrLow0;
687   bit32                    AddrHi0;
688   bit32                    Len0;
689   bit32                    E0;
690 } agsaSSPTgtRspStartCmd_t;
691 
692 /** \brief the data structure of Device Handle Accept Command
693  *
694  * use to describe MPI Device Handle Accept Command (64 bytes)
695  *
696  */
697 typedef struct agsaDevHandleAcceptCmd_s {
698   bit32                    tag;
699   bit32                    Ctag;
700   bit32                    deviceId;
701   bit32                    DevA_MCN_R_R_HA_ITNT;
702   bit32                    reserved[11];
703 } agsaDevHandleAcceptCmd_t;
704 
705 /** \brief the data structure of SAS HW Event Ack Command
706  *
707  * use to describe MPI SAS HW Event Ack Command (64 bytes)
708  *
709  */
710 typedef struct agsaSASHwEventAckCmd_s {
711   bit32                    tag;
712   bit32                    sEaPhyIdPortId;
713   bit32                    Param0;
714   bit32                    Param1;
715   bit32                    reserved[11];
716 } agsaSASHwEventAckCmd_t;
717 
718 /** \brief the data structure of Get Time Stamp Command
719  *
720  * use to describe MPI Get Time Stamp Command (64 bytes)
721  *
722  */
723 typedef struct agsaGetTimeStampCmd_s {
724   bit32                    tag;
725   bit32                    reserved[14];
726 } agsaGetTimeStampCmd_t;
727 
728 /** \brief the data structure of Port Control Command
729  *
730  * use to describe MPI Port Control Command (64 bytes)
731  *
732  */
733 typedef struct agsaPortControlCmd_s {
734   bit32                    tag;
735   bit32                    portOPPortId;
736   bit32                    Param0;
737   bit32                    Param1;
738   bit32                    reserved[11];
739 } agsaPortControlCmd_t;
740 
741 /** \brief the data structure of Set NVM Data Command
742  *
743  * use to describe MPI Set NVM Data Command (64 bytes)
744  *
745  */
746 typedef struct agNVMIndirect_s {
747   bit32           signature;
748   bit32           reserved[7];
749   bit32           ISglAL;
750   bit32           ISglAH;
751   bit32           ILen;
752   bit32           reserved1;
753 } agNVMIndirect_t;
754 
755 typedef union agsaSetNVMData_s {
756   bit32           NVMData[12];
757   agNVMIndirect_t indirectData;
758 } agsaSetNVMData_t;
759 
760 typedef struct agsaSetNVMDataCmd_s {
761   bit32            tag;
762   bit32            LEN_IR_VPDD;
763   bit32            VPDOffset;
764   agsaSetNVMData_t Data;
765 } agsaSetNVMDataCmd_t;
766 
767 /** \brief the data structure of Get NVM Data Command
768  *
769  * use to describe MPI Get NVM Data Command (64 bytes)
770  *
771  */
772 typedef struct agsaGetNVMDataCmd_s {
773   bit32           tag;
774   bit32           LEN_IR_VPDD;
775   bit32           VPDOffset;
776   bit32           reserved[8];
777   bit32           respAddrLo;
778   bit32           respAddrHi;
779   bit32           respLen;
780   bit32           reserved1;
781 } agsaGetNVMDataCmd_t;
782 
783 #define TWI_DEVICE 0x0
784 #define C_SEEPROM  0x1
785 #define VPD_FLASH  0x4
786 #define AAP1_RDUMP 0x5
787 #define IOP_RDUMP  0x6
788 #define EXPAN_ROM  0x7
789 
790 #define DIRECT_MODE   0x0
791 #define INDIRECT_MODE 0x1
792 
793 #define IRMode     0x80000000
794 #define IPMode     0x80000000
795 #define NVMD_TYPE  0x0000000F
796 #define NVMD_STAT  0x0000FFFF
797 #define NVMD_LEN   0xFF000000
798 
799 #define TWI_DEVICE 0x0
800 #define SEEPROM    0x1
801 
802 /** \brief the data structure of Set Device State Command
803  *
804  * use to describe MPI Set Device State Command (64 bytes)
805  *
806  */
807 typedef struct agsaSetDeviceStateCmd_s {
808   bit32           tag;
809   bit32           deviceId;
810   bit32           NDS;
811   bit32           reserved[12];
812 } agsaSetDeviceStateCmd_t;
813 
814 #define DS_OPERATIONAL     0x01
815 #define DS_IN_RECOVERY     0x03
816 #define DS_IN_ERROR        0x04
817 #define DS_NON_OPERATIONAL 0x07
818 
819 /** \brief the data structure of Get Device State Command
820  *
821  * use to describe MPI Get Device State Command (64 bytes)
822  *
823  */
824 typedef struct agsaGetDeviceStateCmd_s {
825   bit32           tag;
826   bit32           deviceId;
827   bit32           reserved[13];
828 } agsaGetDeviceStateCmd_t;
829 
830 /** \brief the data structure of Set Device Info Command
831  *
832  * use to describe MPI OPC_INB_SET_DEV_INFO (0x02c) Command (64 bytes)
833  *
834  */
835 typedef struct agsaSetDevInfoCmd_s {
836   bit32             tag;
837   bit32             deviceId;
838   bit32             SA_SR_SI;
839   bit32             DEVA_MCN_R_ITNT;
840   bit32             reserved[11];
841 } agsaSetDevInfoCmd_t;
842 
843 #define SET_DEV_INFO_V_DW3_MASK    0x0000003F
844 #define SET_DEV_INFO_V_DW4_MASK    0xFF07FFFF
845 #define SET_DEV_INFO_SPC_DW3_MASK  0x7
846 #define SET_DEV_INFO_SPC_DW4_MASK  0x003FFFF
847 
848 #define SET_DEV_INFO_V_DW3_SM_SHIFT 3
849 #define SET_DEV_INFO_V_DW3_SA_SHIFT 2
850 #define SET_DEV_INFO_V_DW3_SR_SHIFT 1
851 #define SET_DEV_INFO_V_DW3_SI_SHIFT 0
852 
853 #define SET_DEV_INFO_V_DW4_MCN_SHIFT     24
854 #define SET_DEV_INFO_V_DW4_AWT_SHIFT     17
855 #define SET_DEV_INFO_V_DW4_RETRY_SHIFT   16
856 #define SET_DEV_INFO_V_DW4_ITNEXUS_SHIFT  0
857 
858 /** \brief the data structure of SAS Re_Initialize Command
859  *
860  * use to describe MPI SAS RE_INITIALIZE Command (64 bytes)
861  *
862  */
863 typedef struct agsaSasReInitializeCmd_s {
864   bit32             tag;
865   bit32             setFlags;
866   bit32             MaxPorts;
867   bit32             openRejReCmdData;
868   bit32             sataHOLTMO;
869   bit32             reserved[10];
870 } agsaSasReInitializeCmd_t;
871 
872 
873 /** \brief the data structure of SGPIO Command
874  *
875  * use to describe MPI serial GPIO Command (64 bytes)
876  *
877  */
878 typedef struct agsaSGpioCmd_s {
879   bit32             tag;
880   bit32             regIndexRegTypeFunctionFrameType;
881   bit32             regCount;
882   bit32             writeData[OSSA_SGPIO_MAX_WRITE_DATA_COUNT];
883 } agsaSGpioCmd_t;
884 
885 /** \brief the data structure of PCIE Diagnostic Command
886  *
887  * use to describe MPI PCIE Diagnostic Command for SPCv (128 bytes)
888  *
889  */
890 typedef struct agsaPCIeDiagExecuteCmd_s {
891   bit32    tag;           /* 1 */
892   bit32    CmdTypeDesc;   /* 2 */
893   bit32    UUM_EDA;       /* 3 */
894   bit32    UDTR1_UDT0;    /* 4 */
895   bit32    UDT5_UDT2;     /* 5 */
896   bit32    UDTR5_UDTR2;   /* 6 */
897   bit32    Res_IOS;       /* 7 */
898   bit32    rdAddrLower;   /* 8 */
899   bit32    rdAddrUpper;   /* 9 */
900   bit32    wrAddrLower;   /* 10 */
901   bit32    wrAddrUpper;   /* 11 */
902   bit32    len;           /* 12 */
903   bit32    pattern;       /* 13 */
904   bit32    reserved2[2];  /* 14 15 */
905   bit32    reserved3[16]; /* 15 31 */
906 } agsaPCIeDiagExecuteCmd_t;
907 
908 
909 /** \brief the data structure of PCI Diagnostic Command for SPC
910  *
911  * use to describe MPI PCI Diagnostic Command for SPC (64 bytes)
912  *
913  */
914 typedef struct agsa_SPC_PCIDiagExecuteCmd_s {
915   bit32    tag;
916   bit32    CmdTypeDesc;
917   bit32    reserved1[5];
918   bit32    rdAddrLower;
919   bit32    rdAddrUpper;
920   bit32    wrAddrLower;
921   bit32    wrAddrUpper;
922   bit32    len;
923   bit32    pattern;
924   bit32    reserved2[2];
925 } agsa_SPC_PCIDiagExecuteCmd_t;
926 
927 /** \brief the data structure of GET DFE Data Command
928  *
929  * use to describe GET DFE Data Command for SPCv (128 bytes)
930  *
931  */
932 typedef struct agsaGetDDEFDataCmd_s {
933   bit32    tag;           /* 1 */
934   bit32    reserved_In_Ln;/* 2 */
935   bit32    MCNT;          /* 3 */
936   bit32    reserved1[3];  /* 4 - 6 */
937   bit32    Buf_AddrL;     /* 7 */
938   bit32    Buf_AddrH;     /* 8 */
939   bit32    Buf_Len;       /* 9 */
940   bit32    E_reserved;    /* 10 */
941   bit32    reserved2[21]; /* 11 - 31 */
942 } agsaGetDDEFDataCmd_t;
943 
944 
945 /***********************************************
946  * outbound IOMBs
947  ***********************************************/
948 /** \brief the data structure of Echo Response
949  *
950  * use to describe MPI Echo Response (64 bytes)
951  *
952  */
953 typedef struct agsaEchoRsp_s {
954   bit32           tag;
955   bit32           payload[14];
956 } agsaEchoRsp_t;
957 
958 /** \brief the data structure of HW Event from Outbound
959  *
960  * use to describe MPI HW Event (64 bytes)
961  *
962  */
963 typedef struct agsaHWEvent_SPC_OUB_s {
964   bit32             LRStatusEventPhyIdPortId;
965   bit32             EVParam;
966   bit32             NpipPortState;
967   agsaSASIdentify_t sasIdentify;
968   agsaFisRegDeviceToHost_t sataFis;
969 } agsaHWEvent_SPC_OUB_t;
970 
971 #define PHY_ID_BITS    0x000000F0
972 #define LINK_RATE_MASK 0xF0000000
973 #define STATUS_BITS    0x0F000000
974 #define HW_EVENT_BITS  0x00FFFF00
975 
976 typedef struct agsaHWEvent_Phy_OUB_s {
977   bit32             tag;
978   bit32             Status;
979   bit32             ReservedPhyId;
980 } agsaHWEvent_Phy_OUB_t;
981 
982 /** \brief the data structure of HW Event from Outbound
983  *
984  * use to describe MPI HW Event (64 bytes)
985  *
986  */
987 typedef struct agsaHWEvent_V_OUB_s {
988   bit32             LRStatEventPortId;
989   bit32             EVParam;
990   bit32             RsvPhyIdNpipRsvPortState;
991   agsaSASIdentify_t sasIdentify;
992   agsaFisRegDeviceToHost_t sataFis;
993 } agsaHWEvent_V_OUB_t;
994 
995 #define PHY_ID_V_BITS  0x00FF0000
996 #define NIPP_V_BITS    0x0000FF00
997 
998 
999 
1000 /** \brief the data structure of SSP Completion Response
1001  *
1002  * use to describe MPI SSP Completion Response (1024 bytes)
1003  *
1004  */
1005 typedef struct agsaSSPCompletionRsp_s {
1006   bit32                     tag;
1007   bit32                     status;
1008   bit32                     param;
1009   bit32                     SSPTag;
1010   agsaSSPResponseInfoUnit_t SSPrsp;
1011   bit32                     respData;
1012   bit32                     senseData[5];
1013   bit32                     respData1[239];
1014 } agsaSSPCompletionRsp_t;
1015 
1016 
1017 /** \brief the data structure of SSP Completion DIF Response
1018  *
1019  * use to describe MPI SSP Completion DIF Response (1024 bytes)
1020  *
1021  */
1022 typedef struct agsaSSPCompletionDifRsp_s {
1023   bit32 tag;
1024   bit32 status;
1025   bit32 param;
1026   bit32 SSPTag;
1027   bit32 Device_Id;
1028   bit32 UpperLBA;
1029   bit32 LowerLBA;
1030   bit32 sasAddressHi;
1031   bit32 sasAddressLo;
1032   bit32 ExpectedCRCUDT01;
1033   bit32 ExpectedUDT2345;
1034   bit32 ActualCRCUDT01;
1035   bit32 ActualUDT2345;
1036   bit32 DIFErrDevID;
1037   bit32 ErrBoffsetEDataLen;
1038   bit32 EDATA_FRM;
1039 
1040 } agsaSSPCompletionDifRsp_t;
1041 
1042 
1043 /* SSPTag bit fields Bits [31:16] */
1044 #define SSP_RESCV_BIT       0x00010000  /* Bits [16] */
1045 #define SSP_RESCV_PAD       0x00060000  /* Bits [18:17] */
1046 #define SSP_RESCV_PAD_SHIFT 17
1047 #define SSP_AGR_S_BIT       (1 << 19)   /* Bits [19] */
1048 
1049 /** \brief the data structure of SMP Completion Response
1050  *
1051  * use to describe MPI SMP Completion Response (1024 bytes)
1052  *
1053  */
1054 typedef struct agsaSMPCompletionRsp_s {
1055   bit32                     tag;
1056   bit32                     status;
1057   bit32                     param;
1058   bit32                     SMPrsp[252];
1059 } agsaSMPCompletionRsp_t;
1060 
1061 /** \brief the data structure of Deregister Device Response
1062  *
1063  * use to describe MPI Deregister Device Response (64 bytes)
1064  *
1065  */
1066 typedef struct agsaDeregDevHandleRsp_s {
1067   bit32                     tag;
1068   bit32                     status;
1069   bit32                     deviceId;
1070   bit32                     reserved[12];
1071 } agsaDeregDevHandleRsp_t;
1072 
1073 /** \brief the data structure of Get Device Handle Response
1074  *
1075  * use to describe MPI Get Device Handle Response (64 bytes)
1076  *
1077  */
1078 typedef struct agsaGetDevHandleRsp_s {
1079   bit32                     tag;
1080   bit32                     DeviceIdcPortId;
1081   bit32                     deviceId[13];
1082 } agsaGetDevHandleRsp_t;
1083 
1084 #define DEVICE_IDC_BITS 0x00FFFF00
1085 #define DEVICE_ID_BITS  0x00000FFF
1086 
1087 /** \brief the data structure of Local Phy Control Response
1088  *
1089  * use to describe MPI Local Phy Control Response (64 bytes)
1090  *
1091  */
1092 typedef struct agsaLocalPhyCntrlRsp_s {
1093   bit32                     tag;
1094   bit32                     phyOpId;
1095   bit32                     status;
1096   bit32                     reserved[12];
1097 } agsaLocalPhyCntrlRsp_t;
1098 
1099 #define LOCAL_PHY_OP_BITS 0x0000FF00
1100 #define LOCAL_PHY_PHYID   0x000000FF
1101 
1102 /** \brief the data structure of DEVICE_REGISTRATION Response
1103  *
1104  * use to describe device registration response (64 bytes)
1105  *
1106  */
1107 typedef struct agsaDeviceRegistrationRsp_s {
1108   bit32             tag;
1109   bit32             status;
1110   bit32             deviceId;
1111   bit32             reserved[12];
1112 } agsaDeviceRegistrationRsp_t;
1113 
1114 
1115 #define FAILURE_OUT_OF_RESOURCE             0x01 /* The device registration failed because the SPC 8x6G is running out of device handle resources. The parameter DEVICE_ID is not used. */
1116 #define FAILURE_DEVICE_ALREADY_REGISTERED   0x02 /* The device registration failed because the SPC 8x6G detected an existing device handle with a similar SAS address. The parameter DEVICE_ID contains the existing  DEVICE _ID assigned to the SAS device. */
1117 #define FAILURE_INVALID_PHY_ID              0x03 /* Only for directly-attached SATA registration. The device registration failed because the SPC 8x6G detected an invalid (out-of-range) PHY ID. */
1118 #define FAILURE_PHY_ID_ALREADY_REGISTERED   0x04 /* Only for directly-attached SATA registration. The device registration failed because the SPC 8x6G detected an already -registered PHY ID for a directly attached SATA drive. */
1119 #define FAILURE_PORT_ID_OUT_OF_RANGE        0x05 /* PORT_ID specified in the REGISTER_DEVICE Command is out-of range (0-7).  */
1120 #define FAILURE_PORT_NOT_VALID_STATE        0x06 /* The PORT_ID specified in the REGISTER_DEVICE Command is not in PORT_VALID state. */
1121 #define FAILURE_DEVICE_TYPE_NOT_VALID       0x07 /* The device type, specified in the �S field in the REGISTER_DEVICE Command is not valid. */
1122 
1123 #define MPI_ERR_DEVICE_HANDLE_UNAVAILABLE   0x1020 /* The device registration failed because the SPCv controller is running out of device handle resources. The parameter DEVICE_ID is not used. */
1124 #define MPI_ERR_DEVICE_ALREADY_REGISTERED   0x1021 /* The device registration failed because the SPCv controller detected an existing device handle with the same SAS address. The parameter DEVICE_ID contains the existing DEVICE _ID assigned to the SAS device. */
1125 #define MPI_ERR_DEVICE_TYPE_NOT_VALID       0x1022 /* The device type, specified in the �S field in the REGISTER_DEVICE_HANDLE Command (page 274) is not valid. */
1126 #define MPI_ERR_PORT_INVALID_PORT_ID        0x1041 /* specified in the REGISTER_DEVICE_HANDLE Command (page 274) is invalid. i.e Out of supported range  */
1127 #define MPI_ERR_PORT_STATE_NOT_VALID        0x1042 /* The PORT_ID specified in the REGISTER_DEVICE_HANDLE Command (page 274) is not in PORT_VALID state.  */
1128 #define MPI_ERR_PORT_STATE_NOT_IN_USE       0x1043
1129 #define MPI_ERR_PORT_OP_NOT_SUPPORTED       0x1044
1130 #define MPI_ERR_PORT_SMP_PHY_WIDTH_EXCEED   0x1045
1131 #define MPI_ERR_PORT_NOT_IN_CORRECT_STATE   0x1047 /*MPI_ERR_DEVICE_ACCEPT_PENDING*/
1132 
1133 
1134 #define MPI_ERR_PHY_ID_INVALID              0x1061 /* Only for directly-attached SATA registration. The device registration failed because the SPCv controller detected an invalid (out-of-range) PHY ID. */
1135 #define MPI_ERR_PHY_ID_ALREADY_REGISTERED   0x1062 /* Only for directly-attached SATA registration. The device registration failed because the SPCv controller detected an alreadyregistered PHY ID for a directly-attached SATA drive. */
1136 
1137 
1138 
1139 
1140 /** \brief the data structure of SATA Completion Response
1141  *
1142  * use to describe MPI SATA Completion Response (64 bytes)
1143  *
1144  */
1145 typedef struct agsaSATACompletionRsp_s {
1146   bit32                     tag;
1147   bit32                     status;
1148   bit32                     param;
1149   bit32                     FSATArsp;
1150   bit32                     respData[11];
1151 } agsaSATACompletionRsp_t;
1152 
1153 /** \brief the data structure of SATA Event Response
1154  *
1155  * use to describe MPI SATA Event Response (64 bytes)
1156  *
1157  */
1158 typedef struct agsaSATAEventRsp_s {
1159   bit32                     tag;
1160   bit32                     event;
1161   bit32                     portId;
1162   bit32                     deviceId;
1163   bit32                     reserved[11];
1164 } agsaSATAEventRsp_t;
1165 
1166 /** \brief the data structure of SSP Event Response
1167  *
1168  * use to describe MPI SSP Event Response (64 bytes)
1169  *
1170  */
1171 typedef struct agsaSSPEventRsp_s {
1172   bit32                     tag;
1173   bit32                     event;
1174   bit32                     portId;
1175   bit32                     deviceId;
1176   bit32                     SSPTag;
1177   bit32                     EVT_PARAM0_or_LBAH;
1178   bit32                     EVT_PARAM1_or_LBAL;
1179   bit32                     SAS_ADDRH;
1180   bit32                     SAS_ADDRL;
1181   bit32                     UDT1_E_UDT0_E_CRC_E;
1182   bit32                     UDT5_E_UDT4_E_UDT3_E_UDT2_E;
1183   bit32                     UDT1_A_UDT0_A_CRC_A;
1184   bit32                     UDT5_A_UDT4_A_UDT3_A_UDT2_A;
1185   bit32                     HW_DEVID_Reserved_DIF_ERR;
1186   bit32                     EDATA_LEN_ERR_BOFF;
1187   bit32                     EDATA_FRM;
1188 } agsaSSPEventRsp_t;
1189 
1190 #define SSPTAG_BITS 0x0000FFFF
1191 
1192 /** \brief the data structure of Get Device Info Response
1193  *
1194  * use to describe MPI Get Device Info Response (64 bytes)
1195  *
1196  */
1197 typedef struct agsaGetDevInfoRspSpc_s {
1198   bit32           tag;
1199   bit32           status;
1200   bit32           deviceId;
1201   bit32           dTypeSrateSMPTOArPortID;
1202   bit32           FirstBurstSizeITNexusTimeOut;
1203   bit8            sasAddrHi[4];
1204   bit8            sasAddrLow[4];
1205   bit32           reserved[8];
1206 } agsaGetDevInfoRsp_t;
1207 
1208 #define SMPTO_BITS     0xFFFF
1209 #define NEXUSTO_BITS   0xFFFF
1210 #define FIRST_BURST    0xFFFF
1211 #define FLAG_BITS      0x3
1212 #define LINK_RATE_BITS 0xFF
1213 #define DEV_TYPE_BITS  0x30000000
1214 
1215 /** \brief the data structure of Get Device Info Response V
1216  *
1217  * use to describe MPI Get Device Info Response (64 bytes)
1218  *
1219  */
1220 typedef struct agsaGetDevInfoRspV_s {
1221   bit32           tag;
1222   bit32           status;
1223   bit32           deviceId;
1224   bit32           ARSrateSMPTimeOutPortID;
1225   bit32           IRMcnITNexusTimeOut;
1226   bit8            sasAddrHi[4];
1227   bit8            sasAddrLow[4];
1228   bit32           reserved[8];
1229 } agsaGetDevInfoRspV_t;
1230 
1231 #define SMPTO_VBITS     0xFFFF
1232 #define NEXUSTO_VBITS   0xFFFF
1233 #define FIRST_BURST_MCN 0xF
1234 #define FLAG_VBITS      0x3
1235 #define LINK_RATE_VBITS 0xFF
1236 #define DEV_TYPE_VBITS  0x10000000
1237 
1238 
1239 /** \brief the data structure of Get Phy Profile Command IOMB V
1240  *
1241  */
1242 typedef struct agsaGetPhyProfileCmd_V_s {
1243   bit32           tag;
1244   bit32           Reserved_Ppc_SOP_PHYID;
1245   bit32           reserved[29];
1246 } agsaGetPhyProfileCmd_V_t;
1247 
1248 
1249 /** \brief the data structure of Get Phy Profile Response IOMB V
1250  *
1251  */
1252 typedef struct agsaGetPhyProfileRspV_s {
1253   bit32           tag;
1254   bit32           status;
1255   bit32           Reserved_Ppc_SOP_PHYID;
1256   bit32           PageSpecificArea[12];
1257 } agsaGetPhyProfileRspV_t;
1258 
1259 /** \brief the data structure of Set Phy Profile Command IOMB V
1260  *
1261  */
1262 typedef struct agsaSetPhyProfileCmd_V_s {
1263   bit32           tag;
1264   bit32           Reserved_Ppc_SOP_PHYID;
1265   bit32           PageSpecificArea[29];
1266 } agsaSetPhyProfileCmd_V_t;
1267 
1268 /** \brief the data structure of GetVis Command IOMB V
1269  *  OPC_OUB_GET_VIST_CAP_RSP
1270  */
1271 typedef struct agsaGetVHistCap_V_s {
1272   bit32           tag;
1273   bit32           Channel;
1274   bit32           NumBitLo;
1275   bit32           NumBitHi;
1276   bit32           reserved0;
1277   bit32           reserved1;
1278   bit32           PcieAddrLo;
1279   bit32           PcieAddrHi;
1280   bit32           ByteCount;
1281   bit32           reserved2[22];
1282 } agsaGetVHistCap_V_t;
1283 
1284 /** \brief the data structure of Set Phy Profile Response IOMB V
1285  *
1286  */
1287 typedef struct agsaSetPhyProfileRspV_s {
1288   bit32           tag;
1289   bit32           status;
1290   bit32           Reserved_Ppc_PHYID;
1291   bit32           PageSpecificArea[12];
1292 } agsaSetPhyProfileRspV_t;
1293 
1294 typedef struct agsaGetPhyInfoV_s {
1295   bit32           tag;
1296   bit32           Reserved_SOP_PHYID;
1297   bit32           reserved[28];
1298 } agsaGetPhyInfoV_t;
1299 
1300 
1301 #define SPC_GET_SAS_PHY_ERR_COUNTERS      1
1302 #define SPC_GET_SAS_PHY_ERR_COUNTERS_CLR  2
1303 #define SPC_GET_SAS_PHY_BW_COUNTERS       3
1304 
1305 
1306 /** \brief the data structure of FW_FLASH_UPDATE Response
1307  *
1308  * use to describe MPI FW_FLASH_UPDATE Response (64 bytes)
1309  *
1310  */
1311 typedef struct agsaFwFlashUpdateRsp_s {
1312   bit32             tag;
1313   bit32             status;
1314   bit32             reserved[13];
1315 } agsaFwFlashUpdateRsp_t;
1316 
1317 #ifdef SPC_ENABLE_PROFILE
1318 typedef struct agsaFwProfileRsp_s {
1319   bit32             tag;
1320   bit32             status;
1321   bit32             len;
1322   bit32             reserved[12];
1323 } agsaFwProfileRsp_t;
1324 #endif
1325 /** \brief the data structure of GPIO Response
1326  *
1327  * use to describe MPI GPIO Response (64 bytes)
1328  */
1329 typedef struct agsaGPIORsp_s {
1330   bit32             tag;
1331   bit32             reserved[2];
1332   bit32             GpioRdVal;
1333   bit32             GpioIe;
1334   bit32             OT11_0;
1335   bit32             OT19_12;
1336   bit32             GPIEVChange;
1337   bit32             GPIEVRise;
1338   bit32             GPIEVFall;
1339   bit32             reserved1[5];
1340 } agsaGPIORsp_t;
1341 
1342 /** \brief the data structure of GPIO Event
1343  *
1344  * use to describe MPI GPIO Event Response (64 bytes)
1345  */
1346 typedef struct agsaGPIOEvent_s {
1347   bit32             GpioEvent;
1348   bit32             reserved[14];
1349 } agsaGPIOEvent_t;
1350 
1351 /** \brief the data structure of GENERAL_EVENT Response
1352  *
1353  * use to describe MPI GENERNAL_EVENT Notification (64 bytes)
1354  *
1355  */
1356 typedef struct agsaGenernalEventRsp_s {
1357   bit32             status;
1358   bit32             inboundIOMB[14];
1359 } agsaGenernalEventRsp_t;
1360 
1361 /** \brief the data structure of SSP_ABORT Response
1362  *
1363  * use to describe MPI SSP_ABORT (64 bytes)
1364  *
1365  */
1366 typedef struct agsaSSPAbortRsp_s {
1367   bit32             tag;
1368   bit32             status;
1369   bit32             scp;
1370   bit32             reserved[12];
1371 } agsaSSPAbortRsp_t;
1372 
1373 /** \brief the data structure of SATA_ABORT Response
1374  *
1375  * use to describe MPI SATA_ABORT (64 bytes)
1376  *
1377  */
1378 typedef struct agsaSATAAbortRsp_s {
1379   bit32             tag;
1380   bit32             status;
1381   bit32             scp;
1382   bit32             reserved[12];
1383 } agsaSATAAbortRsp_t;
1384 
1385 /** \brief the data structure of SAS Diagnostic Start/End Response
1386  *
1387  * use to describe MPI SAS Diagnostic Start/End Response (64 bytes)
1388  *
1389  */
1390 typedef struct agsaSASDiagStartEndRsp_s {
1391   bit32             tag;
1392   bit32             Status;
1393   bit32             reserved[13];
1394 } agsaSASDiagStartEndRsp_t;
1395 
1396 /** \brief the data structure of SAS Diagnostic Execute Response
1397  *
1398  * use to describe MPI SAS Diagnostic Execute Response (64 bytes)
1399  *
1400  */
1401 typedef struct agsaSASDiagExecuteRsp_s {
1402   bit32             tag;
1403   bit32             CmdTypeDescPhyId;
1404   bit32             Status;
1405   bit32             ReportData;
1406   bit32             reserved[11];
1407 } agsaSASDiagExecuteRsp_t;
1408 
1409 /** \brief the data structure of General Event Notification Response
1410  *
1411  * use to describe MPI General Event Notification Response (64 bytes)
1412  *
1413  */
1414 typedef struct agsaGeneralEventRsp_s {
1415   bit32             status;
1416   bit32             inbIOMBpayload[14];
1417 } agsaGeneralEventRsp_t;
1418 
1419 #define GENERAL_EVENT_PAYLOAD 14
1420 #define OPCODE_BITS           0x00000fff
1421 
1422 /*
1423 Table 171 GENERAL_EVENT Notification Status Field Codes
1424 Value Name Description
1425 */
1426 #define GEN_EVENT_IOMB_V_BIT_NOT_SET             0x01 /* INBOUND_ Inbound IOMB is received with the V bit in the IOMB header not set. */
1427 #define GEN_EVENT_INBOUND_IOMB_OPC_NOT_SUPPORTED 0x02 /* Inbound IOMB is received with an unsupported OPC. */
1428 #define GEN_EVENT_IOMB_INVALID_OBID              0x03 /* INBOUND Inbound IOMB is received with an invalid OBID. */
1429 #define GEN_EVENT_DS_IN_NON_OPERATIONAL          0x39 /* DEVICE_HANDLE_ACCEPT command failed due to the device being in DS_NON_OPERATIONAL state. */
1430 #define GEN_EVENT_DS_IN_RECOVERY                 0x3A /* DEVICE_HANDLE_ACCEPT command failed due to device being in DS_IN_RECOVERY state. */
1431 #define GEN_EVENT_DS_INVALID                     0x49 /* DEVICE_HANDLE_ACCEPT command failed due to device being in DS_INVALID state. */
1432 
1433 #define GEN_EVENT_IO_XFER_READ_COMPL_ERR         0x50 /* Indicates the PCIe Read Request to fetch one or more inbound IOMBs received
1434                                                         a failed completion response. The first and second Dwords of the
1435                                                         INBOUND IOMB field ( Dwords 2 and 3) contains information to identifying
1436                                                         the location in the inbound queue where the error occurred.
1437                                                         Dword 2 bits[15:0] contains the inbound queue number.
1438                                                         Dword 2 bits[31:16] specifies how many consecutive IOMBs were affected
1439                                                         by the failed DMA.
1440                                                         Dword 3 specifies the Consumer Index [CI] of the inbound queue where
1441                                                         the DMA operation failed.*/
1442 
1443 /** \brief the data structure of SSP Request Received Notification
1444  *
1445  * use to describe MPI SSP Request Received Notification ( 1024 bytes)
1446  *
1447  */
1448 typedef struct agsaSSPReqReceivedNotify_s {
1449   bit32             deviceId;
1450   bit32             iniTagSSPIul;
1451   bit32             frameTypeHssa;
1452   bit32             TlrHdsa;
1453   bit32             SSPIu[251];
1454 } agsaSSPReqReceivedNotify_t;
1455 
1456 #define SSPIUL_BITS  0x0000FFFF
1457 #define INITTAG_BITS 0x0000FFFF
1458 #define FRAME_TYPE   0x000000FF
1459 #define TLR_BITS     0x00000300
1460 
1461 /** \brief the data structure of Device Handle Arrived Notification
1462  *
1463  * use to describe MPI Device Handle Arrived Notification ( 64 bytes)
1464  *
1465  */
1466 typedef struct agsaDeviceHandleArrivedNotify_s {
1467   bit32             CTag;
1468   bit32             HostAssignedIdFwdDeviceId;
1469   bit32             ProtConrPortId;
1470   bit8              sasAddrHi[4];
1471   bit8              sasAddrLow[4];
1472   bit32             reserved[10];
1473 
1474 } agsaDeviceHandleArrivedNotify_t;
1475 
1476 
1477 #define Conrate_V_MASK 0x0000F000
1478 #define Conrate_V_SHIFT 12
1479 #define Conrate_SPC_MASK  0x0000F000
1480 #define Conrate_SPC_SHIFT 4
1481 
1482 #define Protocol_SPC_MASK 0x00000700
1483 #define Protocol_SPC_SHIFT 8
1484 #define Protocol_SPC_MASK 0x00000700
1485 #define Protocol_SPC_SHIFT 8
1486 
1487 #define PortId_V_MASK   0xFF
1488 #define PortId_SPC_MASK 0x0F
1489 
1490 #define PROTOCOL_BITS        0x00000700
1491 #define PROTOCOL_SHIFT       8
1492 
1493 #define SHIFT_REG_64K_MASK   0xffff0000
1494 #define SHIFT_REG_BIT_SHIFT  8
1495 #define SPC_GSM_SM_OFFSET    0x400000
1496 #define SPCV_GSM_SM_OFFSET   0x0
1497 
1498 /** \brief the data structure of Get Time Stamp Response
1499  *
1500  * use to describe MPI Get TIme Stamp Response ( 64 bytes)
1501  *
1502  */
1503 typedef struct agsaGetTimeStampRsp_s {
1504   bit32             tag;
1505   bit32             timeStampLower;
1506   bit32             timeStampUpper;
1507   bit32             reserved[12];
1508 } agsaGetTimeStampRsp_t;
1509 
1510 /** \brief the data structure of SAS HW Event Ack Response
1511  *
1512  * use to describe SAS HW Event Ack Response ( 64 bytes)
1513  *
1514  */
1515 typedef struct agsaSASHwEventAckRsp_s {
1516   bit32             tag;
1517   bit32             status;
1518   bit32             reserved[13];
1519 } agsaSASHwEventAckRsp_t;
1520 
1521 /** \brief the data structure of Port Control Response
1522  *
1523  * use to describe Port Control Response ( 64 bytes)
1524  *
1525  */
1526 typedef struct agsaPortControlRsp_s {
1527   bit32             tag;
1528   bit32             portOPPortId;
1529   bit32             status;
1530   bit32             rsvdPortState;
1531   bit32             reserved[11];
1532 } agsaPortControlRsp_t;
1533 
1534 /** \brief the data structure of SMP Abort Response
1535  *
1536  * use to describe SMP Abort Response ( 64 bytes)
1537  *
1538  */
1539 typedef struct agsaSMPAbortRsp_s {
1540   bit32             tag;
1541   bit32             status;
1542   bit32             scp;
1543   bit32             reserved[12];
1544 } agsaSMPAbortRsp_t;
1545 
1546 /** \brief the data structure of Get NVMD Data Response
1547  *
1548  * use to describe MPI Get NVMD Data Response (64 bytes)
1549  *
1550  */
1551 typedef struct agsaGetNVMDataRsp_s {
1552   bit32           tag;
1553   bit32           iRTdaBnDpsAsNvm;
1554   bit32           DlenStatus;
1555   bit32           NVMData[12];
1556 } agsaGetNVMDataRsp_t;
1557 
1558 /** \brief the data structure of Set NVMD Data Response
1559  *
1560  * use to describe MPI Set NVMD Data Response (64 bytes)
1561  *
1562  */
1563 typedef struct agsaSetNVMDataRsp_s {
1564   bit32           tag;
1565   bit32           iPTdaBnDpsAsNvm;
1566   bit32           status;
1567   bit32           reserved[12];
1568 } agsaSetNVMDataRsp_t;
1569 
1570 /** \brief the data structure of Device Handle Removal
1571  *
1572  * use to describe MPI Device Handle Removel Notification (64 bytes)
1573  *
1574  */
1575 typedef struct agsaDeviceHandleRemoval_s {
1576   bit32           portId;
1577   bit32           deviceId;
1578   bit32           reserved[13];
1579 } agsaDeviceHandleRemoval_t;
1580 
1581 /** \brief the data structure of Set Device State Response
1582  *
1583  * use to describe MPI Set Device State Response (64 bytes)
1584  *
1585  */
1586 typedef struct agsaSetDeviceStateRsp_s {
1587   bit32           tag;
1588   bit32           status;
1589   bit32           deviceId;
1590   bit32           pds_nds;
1591   bit32           reserved[11];
1592 } agsaSetDeviceStateRsp_t;
1593 
1594 #define NDS_BITS 0x0F
1595 #define PDS_BITS 0xF0
1596 
1597 /** \brief the data structure of Get Device State Response
1598  *
1599  * use to describe MPI Get Device State Response (64 bytes)
1600  *
1601  */
1602 typedef struct agsaGetDeviceStateRsp_s {
1603   bit32           tag;
1604   bit32           status;
1605   bit32           deviceId;
1606   bit32           ds;
1607   bit32           reserved[11];
1608 } agsaGetDeviceStateRsp_t;
1609 
1610 /** \brief the data structure of Set Device Info Response
1611  *
1612  * use to describe MPI Set Device Info Response (64 bytes)
1613  *
1614  */
1615 typedef struct agsaSetDeviceInfoRsp_s {
1616   bit32           tag;
1617   bit32           status;
1618   bit32           deviceId;
1619   bit32           SA_SR_SI;
1620   bit32           A_R_ITNT;
1621   bit32           reserved[10];
1622 } agsaSetDeviceInfoRsp_t;
1623 
1624 /** \brief the data structure of SAS Re_Initialize Response
1625  *
1626  * use to describe MPI SAS RE_INITIALIZE Response (64 bytes)
1627  *
1628  */
1629 typedef struct agsaSasReInitializeRsp_s {
1630   bit32             tag;
1631   bit32             status;
1632   bit32             setFlags;
1633   bit32             MaxPorts;
1634   bit32             openRejReCmdData;
1635   bit32             sataHOLTMO;
1636   bit32             reserved[9];
1637 } agsaSasReInitializeRsp_t;
1638 
1639 /** \brief the data structure of SGPIO Response
1640  *
1641  * use to describe MPI serial GPIO Response IOMB (64 bytes)
1642  *
1643  */
1644 typedef struct agsaSGpioRsp_s {
1645   bit32             tag;
1646   bit32             resultFunctionFrameType;
1647   bit32             readData[OSSA_SGPIO_MAX_READ_DATA_COUNT];
1648 } agsaSGpioRsp_t;
1649 
1650 
1651 /** \brief the data structure of PCIe diag response
1652  *
1653  * use to describe PCIe diag response IOMB (64 bytes)
1654  *
1655  */
1656 
1657 typedef struct agsaPCIeDiagExecuteRsp_s {
1658   bit32    tag;               /* 1 */
1659   bit32    CmdTypeDesc;       /* 2 */
1660   bit32    Status;            /* 3 */
1661   bit32    reservedDW4;       /* 4 */
1662   bit32    reservedDW5;       /* 5 */
1663   bit32    ERR_BLKH;          /* 6 */
1664   bit32    ERR_BLKL;          /* 7 */
1665   bit32    DWord8;            /* 8 */
1666   bit32    DWord9;            /* 9 */
1667   bit32    DWord10;           /* 10 */
1668   bit32    DWord11;           /* 11 */
1669   bit32    DIF_ERR;           /* 12 */
1670   bit32    reservedDW13;      /* 13 */
1671   bit32    reservedDW14;      /* 14 */
1672   bit32    reservedDW15;      /* 15 */
1673 } agsaPCIeDiagExecuteRsp_t;
1674 
1675 /** \brief the data structure of PCI diag response
1676  *
1677  * use to describe PCI diag response IOMB  for SPC (64 bytes)
1678  *
1679  */
1680 
1681 typedef struct agsa_SPC_PCIeDiagExecuteRsp_s {
1682   bit32    tag;               /* 1 */
1683   bit32    CmdTypeDesc;       /* 2 */
1684   bit32    Status;            /* 3 */
1685   bit32    reserved[12];      /* 4 15 */
1686 } agsa_SPC_PCIeDiagExecuteRsp_t;
1687 
1688 /** \brief the data structure of GET DFE Data Response
1689  *
1690  * use to describe GET DFE Data Response for SPCv (64 bytes)
1691  *
1692  */
1693 typedef struct agsaGetDDEFDataRsp_s {
1694   bit32    tag;           /* 1 */
1695   bit32    status;        /* 2 */
1696   bit32    reserved_In_Ln;/* 3 */
1697   bit32    MCNT;          /* 4 */
1698   bit32    NBT;           /* 5 */
1699   bit32    reserved[10];  /* 6 - 15 */
1700 } agsaGetDDEFDataRsp_t;
1701 
1702 /** \brief the data structure of GET Vis Data Response
1703  *
1704  * use to describe GET Vis Data Response for SPCv (64 bytes)
1705  *
1706  */
1707 typedef struct agsaGetVHistCapRsp_s {
1708   bit32    tag;           /* 1 */
1709   bit32    status;        /* 2 */
1710   bit32    channel;       /* 3 */
1711   bit32    BistLo;        /* 4 */
1712   bit32    BistHi;        /* 5 */
1713   bit32    BytesXfered;   /* 6 */
1714   bit32    PciLo;         /* 7 */
1715   bit32    PciHi;         /* 8 */
1716   bit32    PciBytecount;  /* 9 */
1717   bit32    reserved[5];  /* 10 - 15 */
1718 } agsaGetVHistCapRsp_t;
1719 
1720 typedef struct agsaSetControllerConfigCmd_s {
1721   bit32             tag;
1722   bit32             pageCode;
1723   bit32             configPage[13];     /* Page code specific fields */
1724 } agsaSetControllerConfigCmd_t;
1725 
1726 
1727 typedef struct agsaSetControllerConfigRsp_s {
1728   bit32             tag;
1729   bit32             status;
1730   bit32             errorQualifierPage;
1731   bit32             reserved[12];
1732 } agsaSetControllerConfigRsp_t;
1733 
1734 typedef struct agsaGetControllerConfigCmd_s {
1735   bit32             tag;
1736   bit32             pageCode;
1737   bit32             INT_VEC_MSK0;
1738   bit32             INT_VEC_MSK1;
1739   bit32             reserved[11];
1740 } agsaGetControllerConfigCmd_t;
1741 
1742 typedef struct agsaGetControllerConfigRsp_s {
1743   bit32             tag;
1744   bit32             status;
1745   bit32             errorQualifier;
1746   bit32             configPage[12];     /* Page code specific fields */
1747 } agsaGetControllerConfigRsp_t;
1748 
1749 typedef struct agsaDekManagementCmd_s {
1750   bit32             tag;
1751   bit32             KEKIDX_Reserved_TBLS_DSOP;
1752   bit32             dekIndex;
1753   bit32             tableAddrLo;
1754   bit32             tableAddrHi;
1755   bit32             tableEntries;
1756   bit32             Reserved_DBF_TBL_SIZE;
1757 } agsaDekManagementCmd_t;
1758 
1759 typedef struct agsaDekManagementRsp_s {
1760   bit32             tag;
1761   bit32             status;
1762   bit32             flags;
1763   bit32             dekIndex;
1764   bit32             errorQualifier;
1765   bit32             reserved[12];
1766 } agsaDekManagementRsp_t;
1767 
1768 typedef struct agsaKekManagementCmd_s {
1769   bit32             tag;
1770   bit32             NEWKIDX_CURKIDX_KBF_Reserved_SKNV_KSOP;
1771   bit32             reserved;
1772   bit32             kekBlob[12];
1773 } agsaKekManagementCmd_t;
1774 
1775 typedef struct agsaKekManagementRsp_s {
1776   bit32             tag;
1777   bit32             status;
1778   bit32             flags;
1779   bit32             errorQualifier;
1780   bit32             reserved[12];
1781 } agsaKekManagementRsp_t;
1782 
1783 
1784 typedef struct agsaCoalSspComplCxt_s {
1785     bit32            tag;
1786     bit16            SSPTag;
1787     bit16            reserved;
1788 } agsaCoalSspComplCxt_t;
1789 
1790 /** \brief the data structure of SSP Completion Response
1791  *
1792  * use to describe MPI SSP Completion Response (1024 bytes)
1793  *
1794  */
1795 typedef struct agsaSSPCoalescedCompletionRsp_s {
1796   bit32                     coalescedCount;
1797   agsaCoalSspComplCxt_t     sspComplCxt[1]; /* Open ended array */
1798 } agsaSSPCoalescedCompletionRsp_t;
1799 
1800 
1801 /** \brief the data structure of SATA Completion Response
1802  *
1803  * use to describe MPI SATA Completion Response (1024 bytes)
1804  *
1805  */
1806 typedef struct agsaCoalStpComplCxt_s {
1807     bit32            tag;
1808     bit16            reserved;
1809 } agsaCoalStpComplCxt_t;
1810 
1811 typedef struct agsaSATACoalescedCompletionRsp_s {
1812   bit32                     coalescedCount;
1813   agsaCoalStpComplCxt_t     stpComplCxt[1]; /* Open ended array */
1814 } agsaSATACoalescedCompletionRsp_t;
1815 
1816 
1817 /** \brief the data structure of Operator Mangement Command
1818  *
1819  * use to describe OPR_MGMT  Command (128 bytes)
1820  *
1821  */
1822 typedef struct  agsaOperatorMangmentCmd_s{
1823   bit32                tag;               /* 1 */
1824   bit32                OPRIDX_AUTIDX_R_KBF_PKT_OMO;/* 2 */
1825   bit8                 IDString_Role[32];    /*  3 10 */
1826 #ifndef HAILEAH_HOST_6G_COMPITIBILITY_FLAG
1827   agsaEncryptKekBlob_t Kblob;            /* 11 22 */
1828 #endif
1829   bit32                reserved[8];      /* 23 31 */
1830 } agsaOperatorMangmentCmd_t;
1831 
1832 
1833 /*
1834  *
1835  * use to describe OPR_MGMT Response (64 bytes)
1836  *
1837  */
1838 typedef struct agsaOperatorMangmentRsp_s {
1839   bit32            tag;                    /* 1 */
1840   bit32            status;                 /* 2 */
1841   bit32            OPRIDX_AUTIDX_R_OMO;    /* 3 */
1842   bit32            errorQualifier;         /* 4 */
1843   bit32            reserved[10];           /* 5 15 */
1844 } agsaOperatorMangmenRsp_t;
1845 
1846 /** \brief the data structure of Set Operator Command
1847  *
1848  * use to describe Set Operator  Command (64 bytes)
1849  *
1850  */
1851 typedef struct  agsaSetOperatorCmd_s{
1852   bit32                tag;               /* 1 */
1853   bit32                OPRIDX_PIN_ACS;    /* 2 */
1854   bit32                cert[10];          /* 3 12 */
1855   bit32                reserved[3];       /* 13 15 */
1856 } agsaSetOperatorCmd_t;
1857 
1858 /*
1859  *
1860  * use to describe Set Operator Response (64 bytes)
1861  *
1862  */
1863 typedef struct agsaSetOperatorRsp_s {
1864   bit32            tag;                    /* 1 */
1865   bit32            status;                 /* 2 */
1866   bit32            ERR_QLFR_OPRIDX_PIN_ACS;/* 3 */
1867   bit32            reserved[12];           /* 4 15 */
1868 } agsaSetOperatorRsp_t;
1869 
1870 /** \brief the data structure of Get Operator Command
1871  *
1872  * use to describe Get Operator Command (64 bytes)
1873  *
1874  */
1875 typedef struct  agsaGetOperatorCmd_s{
1876   bit32                tag;               /* 1 */
1877   bit32                option;            /* 2 */
1878   bit32                OprBufAddrLo;      /* 3 */
1879   bit32                OprBufAddrHi;      /* 4*/
1880   bit32                reserved[11];      /*5 15*/
1881 } agsaGetOperatorCmd_t;
1882 
1883 /*
1884  *
1885  * use to describe Get Operator Response (64 bytes)
1886  *
1887  */
1888 typedef struct agsaGetOperatorRsp_s {
1889   bit32            tag;                    /* 1 */
1890   bit32            status;                 /* 2 */
1891   bit32            Num_Option;             /* 3 */
1892   bit32            IDString[8];            /* 4 11*/
1893   bit32            reserved[4];            /* 12 15*/
1894 } agsaGetOperatorRsp_t;
1895 
1896 /*
1897  *
1898  * use to start Encryption BIST (128 bytes)
1899  * 0x105
1900  */
1901 typedef struct agsaEncryptBist_s {
1902   bit32 tag;               /* 1 */
1903   bit32 r_subop;           /* 2 */
1904   bit32 testDiscption[28]; /* 3 31 */
1905 } agsaEncryptBist_t;
1906 
1907 /*
1908  *
1909  * use to describe Encryption BIST Response (64 bytes)
1910  * 0x905
1911  */
1912 
1913 typedef struct agsaEncryptBistRsp_s {
1914   bit32 tag;             /* 1 */
1915   bit32 status;          /* 2 */
1916   bit32 subop;           /* 3 */
1917   bit32 testResults[11]; /* 4 15 */
1918 } agsaEncryptBistRsp_t;
1919 
1920 /** \brief the data structure of DifEncOffload Command
1921  *
1922  * use to describe Set DifEncOffload Command (128 bytes)
1923  *
1924  */
1925 typedef struct  agsaDifEncOffloadCmd_s{
1926   bit32                tag;                      /* 1 */
1927   bit32                option;                   /* 2 */
1928   bit32                reserved[2];              /* 3-4 */
1929   bit32                Src_Data_Len;             /* 5 */
1930   bit32                Dst_Data_Len;             /* 6 */
1931   bit32                flags;                    /* 7 */
1932   bit32                UDTR01UDT01;              /* 8 */
1933   bit32                UDT2345;                  /* 9 */
1934   bit32                UDTR2345;                 /* 10 */
1935   bit32                DPLR0SecCnt_IOSeed;       /* 11 */
1936   bit32                DPL_Addr_Lo;              /* 12 */
1937   bit32                DPL_Addr_Hi;              /* 13 */
1938   bit32                KeyIndex_CMode_KTS_ENT_R; /* 14 */
1939   bit32                EPLR0SecCnt_KS_ENSS;      /* 15 */
1940   bit32                keyTag_W0;                /* 16 */
1941   bit32                keyTag_W1;                /* 17 */
1942   bit32                tweakVal_W0;              /* 18 */
1943   bit32                tweakVal_W1;              /* 19 */
1944   bit32                tweakVal_W2;              /* 20 */
1945   bit32                tweakVal_W3;              /* 21 */
1946   bit32                EPL_Addr_Lo;              /* 22 */
1947   bit32                EPL_Addr_Hi;              /* 23 */
1948   agsaSgl_t            SrcSgl;                   /* 24-27 */
1949   agsaSgl_t            DstSgl;                   /* 28-31 */
1950 } agsaDifEncOffloadCmd_t;
1951 
1952 /*
1953  *
1954  * use to describe DIF/Encryption Offload Response (32 bytes)
1955  * 0x910
1956  */
1957 typedef struct agsaDifEncOffloadRspV_s {
1958   bit32                 tag;
1959   bit32                 status;
1960   bit32                 ExpectedCRCUDT01;
1961   bit32                 ExpectedUDT2345;
1962   bit32                 ActualCRCUDT01;
1963   bit32                 ActualUDT2345;
1964   bit32                 DIFErr;
1965   bit32                 ErrBoffset;
1966 } agsaDifEncOffloadRspV_t;
1967 
1968 #endif  /*__SAMPIDEFS_H__ */
1969