xref: /freebsd/sys/dev/isci/scil/scu_bios_definitions.h (revision e7437ae907c89bf85a99c5cbb7ddd194a1ff1354)
1 /*-
2  * SPDX-License-Identifier: BSD-2-Clause OR GPL-2.0
3  *
4  * This file is provided under a dual BSD/GPLv2 license.  When using or
5  * redistributing this file, you may do so under either license.
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8  *
9  * Copyright(c) 2008 - 2011 Intel Corporation. All rights reserved.
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56 #ifndef _SCU_BIOS_DEFINITIONS_H_
57 #define _SCU_BIOS_DEFINITIONS_H_
58 
59 #ifdef __cplusplus
60 extern "C" {
61 #endif // __cplusplus
62 
63 /**
64  *  IMPORTANT NOTE:
65  *  This file can be used by an SCI Library based driver or
66  *  stand-alone where the library is excluded.  By excluding
67  *  the SCI Library, inclusion of OS specific header files can
68  *  be avoided.  For example, a BIOS utility probably does not
69  *  want to be bothered with inclusion of nested OS DDK include
70  *  files that are not necessary for its function.
71  *
72  *  To exclude the SCI Library, either uncomment the EXCLUDE_SCI_LIBRARY
73  *  #define statement in environment.h or define the statement as an input
74  *  to your compiler.
75  */
76 
77 #include <dev/isci/environment.h>
78 
79 #ifndef EXCLUDE_SCI_LIBRARY
80 #include <dev/isci/scil/sci_types.h>
81 #include <dev/isci/scil/intel_sas.h>
82 #include <dev/isci/scil/sci_controller_constants.h>
83 #endif /* EXCLUDE_SCI_LIBRARY */
84 
85 
86 
87 // For Intel Storage Controller Unit OEM Block
88 #define SCI_OEM_PARAM_SIGNATURE     "ISCUOEMB"
89 
90 #define SCI_PREBOOT_SOURCE_INIT     (0x00)
91 #define SCI_PREBOOT_SOURCE_OROM     (0x80)
92 #define SCI_PREBOOT_SOURCE_EFI      (0x81)
93 
94 #define SCI_OEM_PARAM_VER_1_0       (0x10)
95 #define SCI_OEM_PARAM_VER_1_1       (0x11)
96 #define SCI_OEM_PARAM_VER_1_2       (0x12)
97 #define SCI_OEM_PARAM_VER_1_3       (0x13)
98 
99 // current version
100 #define SCI_OEM_PARAM_VER_CUR       SCI_OEM_PARAM_VER_1_3
101 
102 // port configuration mode
103 #define SCI_BIOS_MODE_MPC   (0x00)
104 #define SCI_BIOS_MODE_APC   (0x01)
105 
106 
107 #ifndef SCI_MAX_PHYS
108 #define SCI_MAX_PHYS (4)
109 #endif
110 
111 #ifndef SCI_MAX_PORTS
112 #define SCI_MAX_PORTS (4)
113 #endif
114 
115 
116 /**
117  * @struct SCI_BIOS_OEM_PARAM_BLOCK_HDR
118  *
119  * @brief This structure defines the OEM Parameter block header.
120  */
121 typedef struct SCI_BIOS_OEM_PARAM_BLOCK_HDR
122 {
123     /**
124      * This field contains the OEM Parameter Block Signature which is
125      * used by BIOS and driver software to identify that the memory location
126      * contains valid OEM Parameter data.  The value must be set to
127      * SCI_OEM_PARAM_SIGNATURE which is the string "ISCUOEMB" which
128      * stands for Intel Storage Controller Unit OEM Block.
129      */
130     U8 signature[8];
131     /**
132      * This field contains the size in bytes of the complete OEM
133      * Parameter Block, both header and payload hdr_length +
134      * (num_elements * element_length).
135      */
136     U16 total_block_length;
137     /**
138      * This field contains the size in bytes of the
139      * SCI_BIOS_OEM_PARAM_BLOCK_HDR. It also indicates the offset from
140      * the beginning of this data structure to where the actual
141      * parameter data payload begins.
142      */
143     U8 hdr_length;
144     /**
145      * This field contains the version info defining the structure
146      * of the OEM Parameter block.
147      */
148     U8  version;
149     /**
150      * This field contains a value indicating the preboot initialization
151      * method (Option ROM or UEFI driver) so that after OS transition,
152      * the OS driver can know the preboot method. OEMs who build a single
153      * flash image where the preboot method is unknown at manufacturing
154      * time should set this field to SCI_PREBOOT_SOURCE_INIT.  Then
155      * after the block is retrieved into host memory and under preboot
156      * driver control, the OROM or UEFI driver can set this field
157      * appropriately (SCI_PREBOOT_SOURCE_OROM and SCI_PREBOOT_SOURCE_EFI,
158      * respectively).
159      */
160     U8 preboot_source;
161     /**
162      * This field contains the number of parameter descriptor elements
163      * (i.e. controller_elements) following this header.  The number of
164      * elements corresponds to the number of SCU controller units contained
165      * in the platform:
166      *  controller_element[0] = SCU0
167      *  controller_element[1] = SCU1
168      */
169     U8 num_elements;
170     /**
171      * This field contains the size in bytes of the descriptor element(s)
172      * in the block.
173      */
174     U16 element_length;
175     /**
176      * Reserve fields for future use.
177      */
178     U8 reserved[8];
179 
180 } SCI_BIOS_OEM_PARAM_BLOCK_HDR_T;
181 
182 
183 /**
184  * @struct SCIC_SDS_OEM_PARAMETERS VER 1.0
185  *
186  * @brief This structure delineates the various OEM parameters that must
187  * be set for the Intel SAS Storage Controller Unit (SCU).
188  */
189 typedef struct SCI_BIOS_OEM_PARAM_ELEMENT
190 {
191     /**
192      * Per SCU Controller Data
193      */
194     struct
195     {
196         /**
197          * This field indicates the port configuration mode for
198          * this controller:
199          *   Automatic Port Configuration(APC) or
200          *   Manual Port Configuration (MPC).
201          *
202          * APC means the Platform OEM expects SCI to configure
203          * SAS Ports automatically according to the discovered SAS
204          * Address pairs of the endpoints, wide and/or narrow.
205          *
206          * MPC means the Platform OEM manually defines wide or narrow
207          * connectors by apriori assigning PHYs to SAS Ports.
208          *
209          * By default, the mode type is APC
210          * in APC mode, if ANY of the phy mask is non-zero,
211          *    SCI_FAILURE_INVALID_PARAMETER_VALUE will be returned
212          *      from scic_oem_parameters_set AND the default oem
213          *      configuration will be applied
214          * in MPC mode, if ALL of the phy masks are zero,
215          *    SCI_FAILURE_INVALID_PARAMETER_VALUE will be returned
216          *      from scic_oem_parameters_set AND the default oem
217          *      configuration will be applied
218          */
219         U8  mode_type;
220 
221         /**
222          * This field specifies the maximum number of direct attached
223          * devices the OEM will allow to have powered up simultaneously
224          * on this controller.  This allows the OEM to avoid exceeding
225          * power supply limits for this platform.  A value of zero
226          * indicates there are no restrictions.
227          */
228         U8  max_number_concurrent_device_spin_up;
229 
230         /**
231          * This field indicates OEM's desired default
232          * Spread Spectrum Clocking (SSC) setting for Tx:
233          *   enabled     = 1
234          *   disabled    = 0
235          */
236         U8 do_enable_ssc;
237 
238         U8 reserved;
239 
240     } controller;
241 
242     /**
243      * Per SAS Port data.
244      */
245     struct
246     {
247         /**
248          * This field specifies the phys to be contained inside a port.
249          * The bit position in the mask specifies the index of the phy
250          * to be contained in the port.  Multiple bits (i.e. phys)
251         * can be contained in a single port:
252         *      Bit 0 = This controller's PHY index 0     (0x01)
253         *      Bit 1 = This controller's PHY index 1     (0x02)
254         *      Bit 2 = This controller's PHY index 2     (0x04)
255         *      Bit 3 = This controller's PHY index 3     (0x08)
256         *
257         * Refer to the mode_type field for rules regarding APC and MPC mode.
258         * General rule: For APC mode phy_mask = 0
259         */
260         U8 phy_mask;
261 
262     } ports[SCI_MAX_PORTS]; // Up to 4 Ports per SCU controller unit
263 
264     /**
265      * Per PHY Parameter data.
266      */
267     struct
268     {
269         /**
270          * This field indicates the SAS Address that will be transmitted on
271          * this PHY index.  The field is defined as a union, however, the
272          * OEM should use the U8 array definition when encoding it to ensure
273          * correct byte ordering.
274          *
275          * NOTE: If using APC MODE, along with phy_mask being set to ZERO, the
276          * SAS Addresses for all PHYs within a controller group SHALL be the
277          * same.
278          */
279         union
280         {
281             /**
282              * The array should be stored in little endian order.  For example,
283              * if the desired SAS Address is 0x50010B90_0003538D, then it
284              * should be stored in the following manner:
285              *    array[0] = 0x90
286              *    array[1] = 0x0B
287              *    array[2] = 0x01
288              *    array[3] = 0x50
289              *    array[4] = 0x8D
290              *    array[5] = 0x53
291              *    array[6] = 0x03
292              *    array[7] = 0x00
293              */
294             U8 array[8];
295             /**
296              * This is the typedef'd version of the SAS Address used in
297              * the SCI Library.
298              */
299             SCI_SAS_ADDRESS_T  sci_format;
300 
301         } sas_address;
302 
303         /**
304          * These are the per PHY equalization settings associated with the
305          * AFE XCVR Tx Amplitude and Equalization Control Register Set
306          * (0 thru 3).
307          *
308          * Operational Note: The following Look-Up-Table registers are engaged
309          * by the AFE block after the following:
310          *  - Software programs the Link Layer AFE Look Up Table Control
311          *    Registers (AFE_LUTCR).
312          *  - Software sets AFE XCVR Tx Control Register Tx Equalization
313          *    Enable bit.
314          */
315         /**
316          * AFE_TX_AMP_CTRL0.  This register is associated with AFE_LUTCR
317          * LUTSel=00b. It contains the Tx Equalization settings that will be
318          * used if a SATA 1.5Gbs or SATA 3.0Gbs device is direct-attached.
319          */
320         U32 afe_tx_amp_control0;
321 
322         /**
323          * AFE_TX_AMP_CTRL1.  This register is associated with AFE_LUTCR
324          * LUTSel=01b. It contains the Tx Equalization settings that will
325          * be used if a SATA 6.0Gbs device is direct-attached.
326          */
327         U32 afe_tx_amp_control1;
328 
329         /**
330          * AFE_TX_AMP_CTRL2.  This register is associated with AFE_LUTCR
331          * LUTSel=10b. It contains the Tx Equalization settings that will
332          * be used if a SAS 1.5Gbs or SAS 3.0Gbs device is direct-attached.
333          */
334         U32 afe_tx_amp_control2;
335 
336         /**
337          * AFE_TX_AMP_CTRL3.  This register is associated with AFE_LUTCR
338          * LUTSel=11b. It contains the Tx Equalization settings that will
339          * be used if a SAS 6.0Gbs device is direct-attached.
340          */
341         U32 afe_tx_amp_control3;
342 
343     } phys[SCI_MAX_PHYS];   // 4 PHYs per SCU controller unit
344 
345 } SCI_BIOS_OEM_PARAM_ELEMENT_T;
346 
347 /**
348  * @struct SCIC_SDS_OEM_PARAMETERS VER 1.1
349  *
350  * @brief This structure delineates the various OEM parameters that must
351  * be set for the Intel SAS Storage Controller Unit (SCU).
352  */
353 typedef struct SCI_BIOS_OEM_PARAM_ELEMENT_v_1_1
354 {
355     /**
356      * Per SCU Controller Data
357      */
358     struct
359     {
360         /**
361          * This field indicates the port configuration mode for
362          * this controller:
363          *   Automatic Port Configuration(APC) or
364          *   Manual Port Configuration (MPC).
365          *
366          * APC means the Platform OEM expects SCI to configure
367          * SAS Ports automatically according to the discovered SAS
368          * Address pairs of the endpoints, wide and/or narrow.
369          *
370          * MPC means the Platform OEM manually defines wide or narrow
371          * connectors by apriori assigning PHYs to SAS Ports.
372          *
373          * By default, the mode type is APC
374          * in APC mode, if ANY of the phy mask is non-zero,
375          *    SCI_FAILURE_INVALID_PARAMETER_VALUE will be returned
376          *      from scic_oem_parameters_set AND the default oem
377          *      configuration will be applied
378          * in MPC mode, if ALL of the phy masks are zero,
379          *    SCI_FAILURE_INVALID_PARAMETER_VALUE will be returned
380          *      from scic_oem_parameters_set AND the default oem
381          *      configuration will be applied
382          */
383         U8  mode_type;
384 
385         /**
386          * This field specifies the maximum number of direct attached
387          * devices the OEM will allow to have powered up simultaneously
388          * on this controller.  This allows the OEM to avoid exceeding
389          * power supply limits for this platform.  A value of zero
390          * indicates there are no restrictions.
391          */
392         U8  max_number_concurrent_device_spin_up;
393 
394         /**
395          * This bitfield indicates the OEM's desired default Tx
396          * Spread Spectrum Clocking (SSC) settings for SATA and SAS.
397          * NOTE: Default SSC Modulation Frequency is 31.5KHz.
398          *--------------------------------------------------------------------*/
399         /**
400          * NOTE: Max spread for SATA is +0 / -5000 PPM.
401          * Down-spreading SSC (only method allowed for SATA):
402          *  SATA SSC Tx Disabled                    = 0x0
403          *  SATA SSC Tx at +0 / -1419 PPM Spread    = 0x2
404          *  SATA SSC Tx at +0 / -2129 PPM Spread    = 0x3
405          *  SATA SSC Tx at +0 / -4257 PPM Spread    = 0x6
406          *  SATA SSC Tx at +0 / -4967 PPM Spread    = 0x7
407         */
408         U8 ssc_sata_tx_spread_level : 4;
409 
410         /**
411          * SAS SSC Tx Disabled                     = 0x0
412          *
413          * NOTE: Max spread for SAS down-spreading +0 / -2300 PPM
414          * Down-spreading SSC:
415          *  SAS SSC Tx at +0 / -1419 PPM Spread     = 0x2
416          *  SAS SSC Tx at +0 / -2129 PPM Spread     = 0x3
417          *
418          * NOTE: Max spread for SAS center-spreading +2300 / -2300 PPM
419          * Center-spreading SSC:
420          *  SAS SSC Tx at +1064 / -1064 PPM Spread  = 0x3
421          *  SAS SSC Tx at +2129 / -2129 PPM Spread  = 0x6
422          */
423         U8 ssc_sas_tx_spread_level : 3;
424         /**
425          * NOTE: Refer to the SSC section of the SAS 2.x Specification
426          * for proper setting of this field. For standard SAS Initiator
427          * SAS PHY operation it should be 0 for Down-spreading.
428          * SAS SSC Tx spread type:
429          *  Down-spreading SSC      = 0
430          *  Center-spreading SSC    = 1
431          */
432         U8 ssc_sas_tx_type : 1;
433         /*--------------------------------------------------------------------*/
434 
435         U8 reserved;
436 
437     } controller;
438 
439     /**
440      * Per SAS Port data.
441      */
442     struct
443     {
444         /**
445          * This field specifies the phys to be contained inside a port.
446          * The bit position in the mask specifies the index of the phy
447          * to be contained in the port.  Multiple bits (i.e. phys)
448         * can be contained in a single port:
449         *      Bit 0 = This controller's PHY index 0     (0x01)
450         *      Bit 1 = This controller's PHY index 1     (0x02)
451         *      Bit 2 = This controller's PHY index 2     (0x04)
452         *      Bit 3 = This controller's PHY index 3     (0x08)
453         *
454         * Refer to the mode_type field for rules regarding APC and MPC mode.
455         * General rule: For APC mode phy_mask = 0
456         */
457         U8 phy_mask;
458 
459     } ports[SCI_MAX_PORTS]; // Up to 4 Ports per SCU controller unit
460 
461     /**
462      * Per PHY Parameter data.
463      */
464     struct
465     {
466         /**
467          * This field indicates the SAS Address that will be transmitted on
468          * this PHY index.  The field is defined as a union, however, the
469          * OEM should use the U8 array definition when encoding it to ensure
470          * correct byte ordering.
471          *
472          * NOTE: If using APC MODE, along with phy_mask being set to ZERO, the
473          * SAS Addresses for all PHYs within a controller group SHALL be the
474          * same.
475          */
476         union
477         {
478             /**
479              * The array should be stored in little endian order.  For example,
480              * if the desired SAS Address is 0x50010B90_0003538D, then it
481              * should be stored in the following manner:
482              *    array[0] = 0x90
483              *    array[1] = 0x0B
484              *    array[2] = 0x01
485              *    array[3] = 0x50
486              *    array[4] = 0x8D
487              *    array[5] = 0x53
488              *    array[6] = 0x03
489              *    array[7] = 0x00
490              */
491             U8 array[8];
492             /**
493              * This is the typedef'd version of the SAS Address used in
494              * the SCI Library.
495              */
496             SCI_SAS_ADDRESS_T  sci_format;
497 
498         } sas_address;
499 
500         /**
501          * These are the per PHY equalization settings associated with the
502          * AFE XCVR Tx Amplitude and Equalization Control Register Set
503          * (0 thru 3).
504          *
505          * Operational Note: The following Look-Up-Table registers are engaged
506          * by the AFE block after the following:
507          *  - Software programs the Link Layer AFE Look Up Table Control
508          *    Registers (AFE_LUTCR).
509          *  - Software sets AFE XCVR Tx Control Register Tx Equalization
510          *    Enable bit.
511          */
512         /**
513          * AFE_TX_AMP_CTRL0.  This register is associated with AFE_LUTCR
514          * LUTSel=00b. It contains the Tx Equalization settings that will be
515          * used if a SATA 1.5Gbs or SATA 3.0Gbs device is direct-attached.
516          */
517         U32 afe_tx_amp_control0;
518 
519         /**
520          * AFE_TX_AMP_CTRL1.  This register is associated with AFE_LUTCR
521          * LUTSel=01b. It contains the Tx Equalization settings that will
522          * be used if a SATA 6.0Gbs device is direct-attached.
523          */
524         U32 afe_tx_amp_control1;
525 
526         /**
527          * AFE_TX_AMP_CTRL2.  This register is associated with AFE_LUTCR
528          * LUTSel=10b. It contains the Tx Equalization settings that will
529          * be used if a SAS 1.5Gbs or SAS 3.0Gbs device is direct-attached.
530          */
531         U32 afe_tx_amp_control2;
532 
533         /**
534          * AFE_TX_AMP_CTRL3.  This register is associated with AFE_LUTCR
535          * LUTSel=11b. It contains the Tx Equalization settings that will
536          * be used if a SAS 6.0Gbs device is direct-attached.
537          */
538         U32 afe_tx_amp_control3;
539 
540     } phys[SCI_MAX_PHYS];   // 4 PHYs per SCU controller unit
541 
542 } SCI_BIOS_OEM_PARAM_ELEMENT_v_1_1_T;
543 
544 /**
545  * @struct SCIC_SDS_OEM_PARAMETERS VER 1.2
546  *
547  * @brief This structure delineates the various OEM parameters that must
548  * be set for the Intel SAS Storage Controller Unit (SCU).
549  */
550 typedef struct SCI_BIOS_OEM_PARAM_ELEMENT_v_1_2
551 {
552     /**
553      * Per SCU Controller Data
554      */
555     struct
556     {
557         /**
558          * This field indicates the port configuration mode for
559          * this controller:
560          *   Automatic Port Configuration(APC) or
561          *   Manual Port Configuration (MPC).
562          *
563          * APC means the Platform OEM expects SCI to configure
564          * SAS Ports automatically according to the discovered SAS
565          * Address pairs of the endpoints, wide and/or narrow.
566          *
567          * MPC means the Platform OEM manually defines wide or narrow
568          * connectors by apriori assigning PHYs to SAS Ports.
569          *
570          * By default, the mode type is APC
571          * in APC mode, if ANY of the phy mask is non-zero,
572          *    SCI_FAILURE_INVALID_PARAMETER_VALUE will be returned
573          *      from scic_oem_parameters_set AND the default oem
574          *      configuration will be applied
575          * in MPC mode, if ALL of the phy masks are zero,
576          *    SCI_FAILURE_INVALID_PARAMETER_VALUE will be returned
577          *      from scic_oem_parameters_set AND the default oem
578          *      configuration will be applied
579          */
580         U8  mode_type;
581 
582         /**
583          * This field specifies the maximum number of direct attached
584          * devices the OEM will allow to have powered up simultaneously
585          * on this controller.  This allows the OEM to avoid exceeding
586          * power supply limits for this platform.  A value of zero
587          * indicates there are no restrictions.
588          */
589         U8  max_number_concurrent_device_spin_up;
590 
591         /**
592          * This bitfield indicates the OEM's desired default Tx
593          * Spread Spectrum Clocking (SSC) settings for SATA and SAS.
594          * NOTE: Default SSC Modulation Frequency is 31.5KHz.
595          *--------------------------------------------------------------------*/
596         /**
597          * NOTE: Max spread for SATA is +0 / -5000 PPM.
598          * Down-spreading SSC (only method allowed for SATA):
599          *  SATA SSC Tx Disabled                    = 0x0
600          *  SATA SSC Tx at +0 / -1419 PPM Spread    = 0x2
601          *  SATA SSC Tx at +0 / -2129 PPM Spread    = 0x3
602          *  SATA SSC Tx at +0 / -4257 PPM Spread    = 0x6
603          *  SATA SSC Tx at +0 / -4967 PPM Spread    = 0x7
604         */
605         U8 ssc_sata_tx_spread_level : 4;
606 
607         /**
608          * SAS SSC Tx Disabled                     = 0x0
609          *
610          * NOTE: Max spread for SAS down-spreading +0 / -2300 PPM
611          * Down-spreading SSC:
612          *  SAS SSC Tx at +0 / -1419 PPM Spread     = 0x2
613          *  SAS SSC Tx at +0 / -2129 PPM Spread     = 0x3
614          *
615          * NOTE: Max spread for SAS center-spreading +2300 / -2300 PPM
616          * Center-spreading SSC:
617          *  SAS SSC Tx at +1064 / -1064 PPM Spread  = 0x3
618          *  SAS SSC Tx at +2129 / -2129 PPM Spread  = 0x6
619          */
620         U8 ssc_sas_tx_spread_level : 3;
621         /**
622          * NOTE: Refer to the SSC section of the SAS 2.x Specification
623          * for proper setting of this field. For standard SAS Initiator
624          * SAS PHY operation it should be 0 for Down-spreading.
625          * SAS SSC Tx spread type:
626          *  Down-spreading SSC      = 0
627          *  Center-spreading SSC    = 1
628          */
629         U8 ssc_sas_tx_type : 1;
630 
631         /**
632          * This field indicates length of the SAS/SATA cable between
633          * host and device.
634          * This field is used make relationship between analog parameters of
635          * the phy in the silicon and length of the cable.
636          * Supported length: "short"- up to 3m, "long"- more than 3m
637          * This is bit mask field:
638          *
639          * BIT:           7  6  5  4   3     2     1     0 (LSB)
640          * ASSIGNMENT:   <-><-><-><-><phy3><phy2><phy1><phy0>
641          *
642          * For short cable corresponding bit shall be reset,
643          * for long cable shall be set.
644          */
645         U8 long_cable_selection_mask;
646 
647     } controller;
648 
649     /**
650      * Per SAS Port data.
651      */
652     struct
653     {
654         /**
655          * This field specifies the phys to be contained inside a port.
656          * The bit position in the mask specifies the index of the phy
657          * to be contained in the port.  Multiple bits (i.e. phys)
658         * can be contained in a single port:
659         *      Bit 0 = This controller's PHY index 0     (0x01)
660         *      Bit 1 = This controller's PHY index 1     (0x02)
661         *      Bit 2 = This controller's PHY index 2     (0x04)
662         *      Bit 3 = This controller's PHY index 3     (0x08)
663         *
664         * Refer to the mode_type field for rules regarding APC and MPC mode.
665         * General rule: For APC mode phy_mask = 0
666         */
667         U8 phy_mask;
668 
669     } ports[SCI_MAX_PORTS]; // Up to 4 Ports per SCU controller unit
670 
671     /**
672      * Per PHY Parameter data.
673      */
674     struct
675     {
676         /**
677          * This field indicates the SAS Address that will be transmitted on
678          * this PHY index.  The field is defined as a union, however, the
679          * OEM should use the U8 array definition when encoding it to ensure
680          * correct byte ordering.
681          *
682          * NOTE: If using APC MODE, along with phy_mask being set to ZERO, the
683          * SAS Addresses for all PHYs within a controller group SHALL be the
684          * same.
685          */
686         union
687         {
688             /**
689              * The array should be stored in little endian order.  For example,
690              * if the desired SAS Address is 0x50010B90_0003538D, then it
691              * should be stored in the following manner:
692              *    array[0] = 0x90
693              *    array[1] = 0x0B
694              *    array[2] = 0x01
695              *    array[3] = 0x50
696              *    array[4] = 0x8D
697              *    array[5] = 0x53
698              *    array[6] = 0x03
699              *    array[7] = 0x00
700              */
701             U8 array[8];
702             /**
703              * This is the typedef'd version of the SAS Address used in
704              * the SCI Library.
705              */
706             SCI_SAS_ADDRESS_T  sci_format;
707 
708         } sas_address;
709 
710         /**
711          * These are the per PHY equalization settings associated with the
712          * AFE XCVR Tx Amplitude and Equalization Control Register Set
713          * (0 thru 3).
714          *
715          * Operational Note: The following Look-Up-Table registers are engaged
716          * by the AFE block after the following:
717          *  - Software programs the Link Layer AFE Look Up Table Control
718          *    Registers (AFE_LUTCR).
719          *  - Software sets AFE XCVR Tx Control Register Tx Equalization
720          *    Enable bit.
721          */
722         /**
723          * AFE_TX_AMP_CTRL0.  This register is associated with AFE_LUTCR
724          * LUTSel=00b. It contains the Tx Equalization settings that will be
725          * used if a SATA 1.5Gbs or SATA 3.0Gbs device is direct-attached.
726          */
727         U32 afe_tx_amp_control0;
728 
729         /**
730          * AFE_TX_AMP_CTRL1.  This register is associated with AFE_LUTCR
731          * LUTSel=01b. It contains the Tx Equalization settings that will
732          * be used if a SATA 6.0Gbs device is direct-attached.
733          */
734         U32 afe_tx_amp_control1;
735 
736         /**
737          * AFE_TX_AMP_CTRL2.  This register is associated with AFE_LUTCR
738          * LUTSel=10b. It contains the Tx Equalization settings that will
739          * be used if a SAS 1.5Gbs or SAS 3.0Gbs device is direct-attached.
740          */
741         U32 afe_tx_amp_control2;
742 
743         /**
744          * AFE_TX_AMP_CTRL3.  This register is associated with AFE_LUTCR
745          * LUTSel=11b. It contains the Tx Equalization settings that will
746          * be used if a SAS 6.0Gbs device is direct-attached.
747          */
748         U32 afe_tx_amp_control3;
749 
750     } phys[SCI_MAX_PHYS];   // 4 PHYs per SCU controller unit
751 
752 } SCI_BIOS_OEM_PARAM_ELEMENT_v_1_2_T;
753 
754 /**
755  * @struct SCIC_SDS_OEM_PARAMETERS VER 1.3
756  *
757  * @brief This structure delineates the various OEM parameters that must
758  * be set for the Intel SAS Storage Controller Unit (SCU).
759  */
760 typedef struct SCI_BIOS_OEM_PARAM_ELEMENT_v_1_3
761 {
762     /**
763      * Per SCU Controller Data
764      */
765     struct
766     {
767         /**
768          * This field indicates the port configuration mode for
769          * this controller:
770          *   Automatic Port Configuration(APC) or
771          *   Manual Port Configuration (MPC).
772          *
773          * APC means the Platform OEM expects SCI to configure
774          * SAS Ports automatically according to the discovered SAS
775          * Address pairs of the endpoints, wide and/or narrow.
776          *
777          * MPC means the Platform OEM manually defines wide or narrow
778          * connectors by apriori assigning PHYs to SAS Ports.
779          *
780          * By default, the mode type is APC
781          * in APC mode, if ANY of the phy mask is non-zero,
782          *    SCI_FAILURE_INVALID_PARAMETER_VALUE will be returned
783          *      from scic_oem_parameters_set AND the default oem
784          *      configuration will be applied
785          * in MPC mode, if ALL of the phy masks are zero,
786          *    SCI_FAILURE_INVALID_PARAMETER_VALUE will be returned
787          *      from scic_oem_parameters_set AND the default oem
788          *      configuration will be applied
789          */
790         U8  mode_type;
791 
792         /**
793          * This field specifies the maximum number of direct attached
794          * devices the OEM will allow to have powered up simultaneously
795          * on this controller.  This allows the OEM to avoid exceeding
796          * power supply limits for this platform.  A value of zero
797          * indicates there are no restrictions.
798          */
799         U8  max_number_concurrent_device_spin_up;
800 
801         /**
802          * This bitfield indicates the OEM's desired default Tx
803          * Spread Spectrum Clocking (SSC) settings for SATA and SAS.
804          * NOTE: Default SSC Modulation Frequency is 31.5KHz.
805          *--------------------------------------------------------------------*/
806         /**
807          * NOTE: Max spread for SATA is +0 / -5000 PPM.
808          * Down-spreading SSC (only method allowed for SATA):
809          *  SATA SSC Tx Disabled                    = 0x0
810          *  SATA SSC Tx at +0 / -1419 PPM Spread    = 0x2
811          *  SATA SSC Tx at +0 / -2129 PPM Spread    = 0x3
812          *  SATA SSC Tx at +0 / -4257 PPM Spread    = 0x6
813          *  SATA SSC Tx at +0 / -4967 PPM Spread    = 0x7
814         */
815         U8 ssc_sata_tx_spread_level : 4;
816 
817         /**
818          * SAS SSC Tx Disabled                     = 0x0
819          *
820          * NOTE: Max spread for SAS down-spreading +0 / -2300 PPM
821          * Down-spreading SSC:
822          *  SAS SSC Tx at +0 / -1419 PPM Spread     = 0x2
823          *  SAS SSC Tx at +0 / -2129 PPM Spread     = 0x3
824          *
825          * NOTE: Max spread for SAS center-spreading +2300 / -2300 PPM
826          * Center-spreading SSC:
827          *  SAS SSC Tx at +1064 / -1064 PPM Spread  = 0x3
828          *  SAS SSC Tx at +2129 / -2129 PPM Spread  = 0x6
829          */
830         U8 ssc_sas_tx_spread_level : 3;
831         /**
832          * NOTE: Refer to the SSC section of the SAS 2.x Specification
833          * for proper setting of this field. For standard SAS Initiator
834          * SAS PHY operation it should be 0 for Down-spreading.
835          * SAS SSC Tx spread type:
836          *  Down-spreading SSC      = 0
837          *  Center-spreading SSC    = 1
838          */
839         U8 ssc_sas_tx_type : 1;
840 
841         /**
842          * This field indicates length of the SAS/SATA cable between
843          * host and device.
844          * This field is used make relationship between analog parameters of
845          * the phy in the silicon and length of the cable.
846          * Supported cable attenuation levels:
847          * "short"- up to 3m, "medium"-3m to 6m, and "long"- more than 6m
848          * This is bit mask field:
849          *
850          * BIT:      (MSB) 7     6     5     4
851          * ASSIGNMENT:   <phy3><phy2><phy1><phy0>  - Medium cable length assignment
852          * BIT:            3     2     1     0  (LSB)
853          * ASSIGNMENT:   <phy3><phy2><phy1><phy0>  - Long cable length assignment
854          *
855          * BITS 7-4 are set when the cable length is assigned to medium
856          * BITS 3-0 are set when the cable length is assigned to long
857          * The BIT positions are clear when the cable length is assigned to short
858          * Setting the bits for both long and medium cable length is undefined.
859          *
860          * A value of 0x84 would assign
861          *    phy3 - medium
862          *    phy2 - long
863          *    phy1 - short
864          *    phy0 - short
865          */
866         U8 cable_selection_mask;
867 
868     } controller;
869 
870     /**
871      * Per SAS Port data.
872      */
873     struct
874     {
875         /**
876          * This field specifies the phys to be contained inside a port.
877          * The bit position in the mask specifies the index of the phy
878          * to be contained in the port.  Multiple bits (i.e. phys)
879         * can be contained in a single port:
880         *      Bit 0 = This controller's PHY index 0     (0x01)
881         *      Bit 1 = This controller's PHY index 1     (0x02)
882         *      Bit 2 = This controller's PHY index 2     (0x04)
883         *      Bit 3 = This controller's PHY index 3     (0x08)
884         *
885         * Refer to the mode_type field for rules regarding APC and MPC mode.
886         * General rule: For APC mode phy_mask = 0
887         */
888         U8 phy_mask;
889 
890     } ports[SCI_MAX_PORTS]; // Up to 4 Ports per SCU controller unit
891 
892     /**
893      * Per PHY Parameter data.
894      */
895     struct
896     {
897         /**
898          * This field indicates the SAS Address that will be transmitted on
899          * this PHY index.  The field is defined as a union, however, the
900          * OEM should use the U8 array definition when encoding it to ensure
901          * correct byte ordering.
902          *
903          * NOTE: If using APC MODE, along with phy_mask being set to ZERO, the
904          * SAS Addresses for all PHYs within a controller group SHALL be the
905          * same.
906          */
907         union
908         {
909             /**
910              * The array should be stored in little endian order.  For example,
911              * if the desired SAS Address is 0x50010B90_0003538D, then it
912              * should be stored in the following manner:
913              *    array[0] = 0x90
914              *    array[1] = 0x0B
915              *    array[2] = 0x01
916              *    array[3] = 0x50
917              *    array[4] = 0x8D
918              *    array[5] = 0x53
919              *    array[6] = 0x03
920              *    array[7] = 0x00
921              */
922             U8 array[8];
923             /**
924              * This is the typedef'd version of the SAS Address used in
925              * the SCI Library.
926              */
927             SCI_SAS_ADDRESS_T  sci_format;
928 
929         } sas_address;
930 
931         /**
932          * These are the per PHY equalization settings associated with the
933          * AFE XCVR Tx Amplitude and Equalization Control Register Set
934          * (0 thru 3).
935          *
936          * Operational Note: The following Look-Up-Table registers are engaged
937          * by the AFE block after the following:
938          *  - Software programs the Link Layer AFE Look Up Table Control
939          *    Registers (AFE_LUTCR).
940          *  - Software sets AFE XCVR Tx Control Register Tx Equalization
941          *    Enable bit.
942          */
943         /**
944          * AFE_TX_AMP_CTRL0.  This register is associated with AFE_LUTCR
945          * LUTSel=00b. It contains the Tx Equalization settings that will be
946          * used if a SATA 1.5Gbs or SATA 3.0Gbs device is direct-attached.
947          */
948         U32 afe_tx_amp_control0;
949 
950         /**
951          * AFE_TX_AMP_CTRL1.  This register is associated with AFE_LUTCR
952          * LUTSel=01b. It contains the Tx Equalization settings that will
953          * be used if a SATA 6.0Gbs device is direct-attached.
954          */
955         U32 afe_tx_amp_control1;
956 
957         /**
958          * AFE_TX_AMP_CTRL2.  This register is associated with AFE_LUTCR
959          * LUTSel=10b. It contains the Tx Equalization settings that will
960          * be used if a SAS 1.5Gbs or SAS 3.0Gbs device is direct-attached.
961          */
962         U32 afe_tx_amp_control2;
963 
964         /**
965          * AFE_TX_AMP_CTRL3.  This register is associated with AFE_LUTCR
966          * LUTSel=11b. It contains the Tx Equalization settings that will
967          * be used if a SAS 6.0Gbs device is direct-attached.
968          */
969         U32 afe_tx_amp_control3;
970 
971     } phys[SCI_MAX_PHYS];   // 4 PHYs per SCU controller unit
972 
973 } SCI_BIOS_OEM_PARAM_ELEMENT_v_1_3_T;
974 
975 /**
976  *  @struct SCI_BIOS_OEM_PARAM_BLOCK
977  *
978  * @brief This structure defines the OEM Parameter block as it will be stored
979  *  in the last 512 bytes of the PDR region in the SPI flash.  It must be
980  *  unpacked or pack(1).
981  */
982 typedef struct SCI_BIOS_OEM_PARAM_BLOCK
983 {
984     /**
985      * OEM Parameter Block header.
986      */
987     SCI_BIOS_OEM_PARAM_BLOCK_HDR_T  header;
988 
989     /**
990      * Per controller element descriptor containing the controller's
991      * parameter data. The prototype defines just one of these descriptors,
992      * however, the actual runtime number is determined by the num_elements
993      * field in the header.
994      */
995     SCI_BIOS_OEM_PARAM_ELEMENT_T controller_element[1];
996 
997 } SCI_BIOS_OEM_PARAM_BLOCK_T;
998 
999 #ifdef __cplusplus
1000 }
1001 #endif // __cplusplus
1002 
1003 #endif // _SCU_BIOS_DEFINITIONS_H_
1004 
1005