/************************************************************************** Module Name: CSMISAS.H Abstract: This file contains constants and data structure definitions used by drivers that support the Common Storage Management Interface specification for SAS or SATA in either the Windows or Linux. This should be considered as a reference implementation only. Changes may be necessary to accommodate a specific build environment or target OS. Revision History: 001 SEF 8/12/03 Initial release. 002 SEF 8/20/03 Cleanup to match documentation. 003 SEF 9/12/03 Additional cleanup, created combined header 004 SEF 9/23/03 Changed base types to match linux defaults Added RAID signature Added bControllerFlags to CSMI_SAS_CNTLR_CONFIG Changed CSMI_SAS_BEGIN_PACK to 8 for common structures Fixed other typos identified in first compilation test 005 SEF 10/03/03 Additions to match first version of CSMI document 006 SEF 10/14/03 Fixed typedef struct _CSMI_SAS_SMP_PASSTHRU_BUFFER Added defines for bConnectionRate 007 SEF 10/15/03 Added Firmware Download Control Code and support Added CSMI revision support 008 SEF 10/30/03 No functional change, just updated version to track spec changes 009 SEF 12/09/03 No functional change, just updated version to track spec changes 010 SEF 3/11/04 Fixed typedef struct CSMI_SAS_RAID_DRIVES to include the bFirmware member that is defined in the spec, but was missing in this file, added CC_CSMI_SAS_TASK_MANAGEMENT 011 SEF 4/02/04 No functional change, added comment line before CC_CSMI_SAS_TASK_MANAGEMENT 012 SEF 4/16/04 Added IOControllerNumber to linux header, Modified linux control codes to have upper word of 0xCC77.... to indicate CSMI version 77 Added bSignalClass to CC_CSMI_SET_PHY_INFO Added CC_CSMI_SAS_PHY_CONTROL support 013 SEF 5/14/04 Added CC_CSMI_SAS_GET_CONNECTOR_INFO support 014 SEF 5/24/04 No functional change, just updated version to track spec changes 015 SEF 6/16/04 changed bPinout to uPinout to reflect proper size, changed width of bLocation defines to reflect size 016 SEF 6/17/04 changed bLengthOfControls in CSMI_SAS_PHY_CONTROL to be proper size 017 SEF 9/17/04 added CSMI_SAS_SATA_PORT_SELECTOR, CSMI_SAS_LINK_VIRTUAL, CSMI_SAS_CON_NOT_PRESENT, and CSMI_SAS_CON_NOT_CONNECTED 018 SEF 9/20/04 added CSMI_SAS_PHY_USER_PATTERN, changed definition of CSMI_SAS_PHY_FIXED_PATTERN to not conflict with activate definition 019 SEF 12/06/04 added CSMI_SAS_GET_LOCATION added bSSPStatus to CSMI_SAS_SSP_PASSTHRU_STATUS structure 020 SEF 5/25/05 added CSMI_SAS_PHY_VIRTUAL_SMP, and changes to CSMI_SAS_GET_LOCATION 021 SEF 11/03/05 added new RAID creation functionality 022 SEF 2/01/06 corrected typo bNegotitiatedLInkRate Added two more RAID_TYPES, 7 and 8 023 SEF 4/04/06 added CSMI_RAID_TYPE_1E changed structures that contained surface scan to priority approach rather than time, causes 0.89 to incompatible with 0.87, so a version check is necessary when interpreting the raid structures Added netware section 024 DRG 5/22/06 Added uFailureCode to CSMI_SAS_RAID_CONFIG and CSMI_SAS_RAID_FEATURES Changed __u64 fields to high and low __u32 fields in order to avoid backward compatibility issues with packing and alignment. Fixed alignment problem in CSMI_SAS_RAID_DRIVES. Added CSMI_SAS_CNTLR_SMART_ARRAY to uControllerFlags Reassigned the value of CSMI_SAS_CNTLR_RAID_CFG_SUPPORT to avoid a conflict. **************************************************************************/ #ifndef _CSMI_SAS_H_ #define _CSMI_SAS_H_ // CSMI Specification Revision, the intent is that all versions of the // specification will be backward compatible after the 1.00 release. // Major revision number, corresponds to xxxx. of CSMI specification // Minor revision number, corresponds to .xxxx of CSMI specification #define CSMI_MAJOR_REVISION 0 #define CSMI_MINOR_REVISION 90 /*************************************************************************/ /* PATCHES FOR TYPOS */ /*************************************************************************/ #define bNegotitiatedLInkRate bNegotiatedLinkRate /*************************************************************************/ /* TARGET OS LINUX SPECIFIC CODE */ /*************************************************************************/ // EDM #ifdef _linux #ifdef __KERNEL__ // Linux base types #include #define __i8 char // pack definition // EDM #define CSMI_SAS_BEGIN_PACK(x) pack(x) // EDM #define CSMI_SAS_END_PACK pack() // IOCTL Control Codes // (IoctlHeader.ControlCode) // Control Codes prior to 0.77 // Control Codes requiring CSMI_ALL_SIGNATURE // #define CC_CSMI_SAS_GET_DRIVER_INFO 0x12345678 // #define CC_CSMI_SAS_GET_CNTLR_CONFIG 0x23456781 // #define CC_CSMI_SAS_GET_CNTLR_STATUS 0x34567812 // #define CC_CSMI_SAS_FIRMWARE_DOWNLOAD 0x92345678 // Control Codes requiring CSMI_RAID_SIGNATURE // #define CC_CSMI_SAS_GET_RAID_INFO 0x45678123 // #define CC_CSMI_SAS_GET_RAID_CONFIG 0x56781234 // Control Codes requiring CSMI_SAS_SIGNATURE // #define CC_CSMI_SAS_GET_PHY_INFO 0x67812345 // #define CC_CSMI_SAS_SET_PHY_INFO 0x78123456 // #define CC_CSMI_SAS_GET_LINK_ERRORS 0x81234567 // #define CC_CSMI_SAS_SMP_PASSTHRU 0xA1234567 // #define CC_CSMI_SAS_SSP_PASSTHRU 0xB1234567 // #define CC_CSMI_SAS_STP_PASSTHRU 0xC1234567 // #define CC_CSMI_SAS_GET_SATA_SIGNATURE 0xD1234567 // #define CC_CSMI_SAS_GET_SCSI_ADDRESS 0xE1234567 // #define CC_CSMI_SAS_GET_DEVICE_ADDRESS 0xF1234567 // #define CC_CSMI_SAS_TASK_MANAGEMENT 0xA2345678 // Control Codes for 0.77 and later // Control Codes requiring CSMI_ALL_SIGNATURE #define CC_CSMI_SAS_GET_DRIVER_INFO 0xCC770001 #define CC_CSMI_SAS_GET_CNTLR_CONFIG 0xCC770002 #define CC_CSMI_SAS_GET_CNTLR_STATUS 0xCC770003 #define CC_CSMI_SAS_FIRMWARE_DOWNLOAD 0xCC770004 // Control Codes requiring CSMI_RAID_SIGNATURE #define CC_CSMI_SAS_GET_RAID_INFO 0xCC77000A #define CC_CSMI_SAS_GET_RAID_CONFIG 0xCC77000B #define CC_CSMI_SAS_GET_RAID_FEATURES 0xCC77000C #define CC_CSMI_SAS_SET_RAID_CONTROL 0xCC77000D #define CC_CSMI_SAS_GET_RAID_ELEMENT 0xCC77000E #define CC_CSMI_SAS_SET_RAID_OPERATION 0xCC77000F // Control Codes requiring CSMI_SAS_SIGNATURE #define CC_CSMI_SAS_GET_PHY_INFO 0xCC770014 #define CC_CSMI_SAS_SET_PHY_INFO 0xCC770015 #define CC_CSMI_SAS_GET_LINK_ERRORS 0xCC770016 #define CC_CSMI_SAS_SMP_PASSTHRU 0xCC770017 #define CC_CSMI_SAS_SSP_PASSTHRU 0xCC770018 #define CC_CSMI_SAS_STP_PASSTHRU 0xCC770019 #define CC_CSMI_SAS_GET_SATA_SIGNATURE 0xCC770020 #define CC_CSMI_SAS_GET_SCSI_ADDRESS 0xCC770021 #define CC_CSMI_SAS_GET_DEVICE_ADDRESS 0xCC770022 #define CC_CSMI_SAS_TASK_MANAGEMENT 0xCC770023 #define CC_CSMI_SAS_GET_CONNECTOR_INFO 0xCC770024 #define CC_CSMI_SAS_GET_LOCATION 0xCC770025 // Control Codes requiring CSMI_PHY_SIGNATURE #define CC_CSMI_SAS_PHY_CONTROL 0xCC77003C // EDM #pragma CSMI_SAS_BEGIN_PACK(8) #pragma pack(8) // IOCTL_HEADER typedef struct _IOCTL_HEADER { __u32 IOControllerNumber; __u32 Length; __u32 ReturnCode; __u32 Timeout; __u16 Direction; } IOCTL_HEADER, *PIOCTL_HEADER; // EDM #pragma CSMI_SAS_END_PACK #pragma pack() #endif /*************************************************************************/ /* TARGET OS WINDOWS SPECIFIC CODE */ /*************************************************************************/ #ifdef _WIN32 // windows IOCTL definitions #ifndef _NTDDSCSIH_ #include #endif // pack definition #if defined _MSC_VER #define CSMI_SAS_BEGIN_PACK(x) pack(push,x) #define CSMI_SAS_END_PACK pack(pop) #elif defined __BORLANDC__ #define CSMI_SAS_BEGIN_PACK(x) option -a##x #define CSMI_SAS_END_PACK option -a. #else #error "CSMISAS.H - Must externally define a pack compiler designator." #endif // base types #define __u8 unsigned char #define __u16 unsigned short #define __u32 unsigned long #define __u64 unsigned __int64 #define __i8 char // IOCTL Control Codes // (IoctlHeader.ControlCode) // Control Codes requiring CSMI_ALL_SIGNATURE #define CC_CSMI_SAS_GET_DRIVER_INFO 1 #define CC_CSMI_SAS_GET_CNTLR_CONFIG 2 #define CC_CSMI_SAS_GET_CNTLR_STATUS 3 #define CC_CSMI_SAS_FIRMWARE_DOWNLOAD 4 // Control Codes requiring CSMI_RAID_SIGNATURE #define CC_CSMI_SAS_GET_RAID_INFO 10 #define CC_CSMI_SAS_GET_RAID_CONFIG 11 #define CC_CSMI_SAS_GET_RAID_FEATURES 12 #define CC_CSMI_SAS_SET_RAID_CONTROL 13 #define CC_CSMI_SAS_GET_RAID_ELEMENT 14 #define CC_CSMI_SAS_SET_RAID_OPERATION 15 // Control Codes requiring CSMI_SAS_SIGNATURE #define CC_CSMI_SAS_GET_PHY_INFO 20 #define CC_CSMI_SAS_SET_PHY_INFO 21 #define CC_CSMI_SAS_GET_LINK_ERRORS 22 #define CC_CSMI_SAS_SMP_PASSTHRU 23 #define CC_CSMI_SAS_SSP_PASSTHRU 24 #define CC_CSMI_SAS_STP_PASSTHRU 25 #define CC_CSMI_SAS_GET_SATA_SIGNATURE 26 #define CC_CSMI_SAS_GET_SCSI_ADDRESS 27 #define CC_CSMI_SAS_GET_DEVICE_ADDRESS 28 #define CC_CSMI_SAS_TASK_MANAGEMENT 29 #define CC_CSMI_SAS_GET_CONNECTOR_INFO 30 #define CC_CSMI_SAS_GET_LOCATION 31 // Control Codes requiring CSMI_PHY_SIGNATURE #define CC_CSMI_SAS_PHY_CONTROL 60 #define IOCTL_HEADER SRB_IO_CONTROL #define PIOCTL_HEADER PSRB_IO_CONTROL #endif /*************************************************************************/ /* TARGET OS NETWARE SPECIFIC CODE */ /*************************************************************************/ #ifdef _NETWARE // NetWare IOCTL definitions #define CSMI_SAS_BEGIN_PACK(x) pack(x) #define CSMI_SAS_END_PACK pack() #ifndef LONG typedef unsigned long LONG; #endif #ifndef WORD typedef unsigned short WORD; #endif #ifndef BYTE typedef unsigned char BYTE; #endif /* Need to have these definitions for Netware */ #define __u8 unsigned char #define __u16 unsigned short #define __u32 unsigned long #define __u64 unsigned __int64 #define __i8 char // EDM #pragma CSMI_SAS_BEGIN_PACK(8) #pragma pack(8) // IOCTL_HEADER typedef struct _IOCTL_HEADER { __u32 Length; __u32 ReturnCode; } IOCTL_HEADER, *PIOCTL_HEADER; // EDM #pragma CSMI_SAS_END_PACK #pragma pack() // IOCTL Control Codes // (IoctlHeader.ControlCode) // Control Codes requiring CSMI_ALL_SIGNATURE #define CC_CSMI_SAS_GET_DRIVER_INFO 0x01FF0001 #define CC_CSMI_SAS_GET_CNTLR_CONFIG 0x01FF0002 #define CC_CSMI_SAS_GET_CNTLR_STATUS 0x01FF0003 #define CC_CSMI_SAS_FIRMWARE_DOWNLOAD 0x01FF0004 // Control Codes requiring CSMI_RAID_SIGNATURE #define CC_CSMI_SAS_GET_RAID_INFO 0x01FF000A #define CC_CSMI_SAS_GET_RAID_CONFIG 0x01FF000B #define CC_CSMI_SAS_GET_RAID_FEATURES 0x01FF000C #define CC_CSMI_SAS_SET_RAID_CONTROL 0x01FF000D #define CC_CSMI_SAS_GET_RAID_ELEMENT 0x01FF000E #define CC_CSMI_SAS_SET_RAID_OPERATION 0x01FF000F // Control Codes requiring CSMI_SAS_SIGNATURE #define CC_CSMI_SAS_GET_PHY_INFO 0x01FF0014 #define CC_CSMI_SAS_SET_PHY_INFO 0x01FF0015 #define CC_CSMI_SAS_GET_LINK_ERRORS 0x01FF0016 #define CC_CSMI_SAS_SMP_PASSTHRU 0x01FF0017 #define CC_CSMI_SAS_SSP_PASSTHRU 0x01FF0018 #define CC_CSMI_SAS_STP_PASSTHRU 0x01FF0019 #define CC_CSMI_SAS_GET_SATA_SIGNATURE 0x01FF001A #define CC_CSMI_SAS_GET_SCSI_ADDRESS 0x01FF001B #define CC_CSMI_SAS_GET_DEVICE_ADDRESS 0x01FF001C #define CC_CSMI_SAS_TASK_MANAGEMENT 0x01FF001D #define CC_CSMI_SAS_GET_CONNECTOR_INFO 0x01FF001E #define CC_CSMI_SAS_GET_LOCATION 0x01FF001F // Control Codes requiring CSMI_PHY_SIGNATURE #define CC_CSMI_SAS_PHY_CONTROL 60 #endif /*************************************************************************/ /* TARGET OS NOT DEFINED ERROR */ /*************************************************************************/ // EDM //#if (!_WIN32 && !_linux && !_NETWARE) // #error "Unknown target OS." //#endif /*************************************************************************/ /* OS INDEPENDENT CODE */ /*************************************************************************/ /* * * * * * * * * * Class Independent IOCTL Constants * * * * * * * * * */ // Return codes for all IOCTL's regardless of class // (IoctlHeader.ReturnCode) #define CSMI_SAS_STATUS_SUCCESS 0 #define CSMI_SAS_STATUS_FAILED 1 #define CSMI_SAS_STATUS_BAD_CNTL_CODE 2 #define CSMI_SAS_STATUS_INVALID_PARAMETER 3 #define CSMI_SAS_STATUS_WRITE_ATTEMPTED 4 // Signature value // (IoctlHeader.Signature) #define CSMI_ALL_SIGNATURE "CSMIALL" // Timeout value default of 60 seconds // (IoctlHeader.Timeout) #define CSMI_ALL_TIMEOUT 60 // Direction values for data flow on this IOCTL // (IoctlHeader.Direction, Linux only) #define CSMI_SAS_DATA_READ 0 #define CSMI_SAS_DATA_WRITE 1 // I/O Bus Types // ISA and EISA bus types are not supported // (bIoBusType) #define CSMI_SAS_BUS_TYPE_PCI 3 #define CSMI_SAS_BUS_TYPE_PCMCIA 4 // Controller Status // (uStatus) #define CSMI_SAS_CNTLR_STATUS_GOOD 1 #define CSMI_SAS_CNTLR_STATUS_FAILED 2 #define CSMI_SAS_CNTLR_STATUS_OFFLINE 3 #define CSMI_SAS_CNTLR_STATUS_POWEROFF 4 // Offline Status Reason // (uOfflineReason) #define CSMI_SAS_OFFLINE_REASON_NO_REASON 0 #define CSMI_SAS_OFFLINE_REASON_INITIALIZING 1 #define CSMI_SAS_OFFLINE_REASON_BACKSIDE_BUS_DEGRADED 2 #define CSMI_SAS_OFFLINE_REASON_BACKSIDE_BUS_FAILURE 3 // Controller Class // (bControllerClass) #define CSMI_SAS_CNTLR_CLASS_HBA 5 // Controller Flag bits // (uControllerFlags) #define CSMI_SAS_CNTLR_SAS_HBA 0x00000001 #define CSMI_SAS_CNTLR_SAS_RAID 0x00000002 #define CSMI_SAS_CNTLR_SATA_HBA 0x00000004 #define CSMI_SAS_CNTLR_SATA_RAID 0x00000008 #define CSMI_SAS_CNTLR_SMART_ARRAY 0x00000010 // for firmware download #define CSMI_SAS_CNTLR_FWD_SUPPORT 0x00010000 #define CSMI_SAS_CNTLR_FWD_ONLINE 0x00020000 #define CSMI_SAS_CNTLR_FWD_SRESET 0x00040000 #define CSMI_SAS_CNTLR_FWD_HRESET 0x00080000 #define CSMI_SAS_CNTLR_FWD_RROM 0x00100000 // for RAID configuration supported #define CSMI_SAS_CNTLR_RAID_CFG_SUPPORT 0x01000000 // Download Flag bits // (uDownloadFlags) #define CSMI_SAS_FWD_VALIDATE 0x00000001 #define CSMI_SAS_FWD_SOFT_RESET 0x00000002 #define CSMI_SAS_FWD_HARD_RESET 0x00000004 // Firmware Download Status // (usStatus) #define CSMI_SAS_FWD_SUCCESS 0 #define CSMI_SAS_FWD_FAILED 1 #define CSMI_SAS_FWD_USING_RROM 2 #define CSMI_SAS_FWD_REJECT 3 #define CSMI_SAS_FWD_DOWNREV 4 // Firmware Download Severity // (usSeverity> #define CSMI_SAS_FWD_INFORMATION 0 #define CSMI_SAS_FWD_WARNING 1 #define CSMI_SAS_FWD_ERROR 2 #define CSMI_SAS_FWD_FATAL 3 /* * * * * * * * * * SAS RAID Class IOCTL Constants * * * * * * * * */ // Return codes for the RAID IOCTL's regardless of class // (IoctlHeader.ReturnCode) #define CSMI_SAS_RAID_SET_OUT_OF_RANGE 1000 #define CSMI_SAS_RAID_SET_BUFFER_TOO_SMALL 1001 #define CSMI_SAS_RAID_SET_DATA_CHANGED 1002 // Signature value // (IoctlHeader.Signature) #define CSMI_RAID_SIGNATURE "CSMIARY" // Timeout value default of 60 seconds // (IoctlHeader.Timeout) #define CSMI_RAID_TIMEOUT 60 // RAID Types // (bRaidType) #define CSMI_SAS_RAID_TYPE_NONE 0 #define CSMI_SAS_RAID_TYPE_0 1 #define CSMI_SAS_RAID_TYPE_1 2 #define CSMI_SAS_RAID_TYPE_10 3 #define CSMI_SAS_RAID_TYPE_5 4 #define CSMI_SAS_RAID_TYPE_15 5 #define CSMI_SAS_RAID_TYPE_6 6 #define CSMI_SAS_RAID_TYPE_50 7 #define CSMI_SAS_RAID_TYPE_VOLUME 8 #define CSMI_SAS_RAID_TYPE_1E 9 #define CSMI_SAS_RAID_TYPE_OTHER 255 // the last value 255 was already defined for other // so end is defined as 254 #define CSMI_SAS_RAID_TYPE_END 254 // RAID Status // (bStatus) #define CSMI_SAS_RAID_SET_STATUS_OK 0 #define CSMI_SAS_RAID_SET_STATUS_DEGRADED 1 #define CSMI_SAS_RAID_SET_STATUS_REBUILDING 2 #define CSMI_SAS_RAID_SET_STATUS_FAILED 3 #define CSMI_SAS_RAID_SET_STATUS_OFFLINE 4 #define CSMI_SAS_RAID_SET_STATUS_TRANSFORMING 5 #define CSMI_SAS_RAID_SET_STATUS_QUEUED_FOR_REBUILD 6 #define CSMI_SAS_RAID_SET_STATUS_QUEUED_FOR_TRANSFORMATION 7 // RAID Drive Count // (bDriveCount, 0xF1 to 0xFF are reserved) #define CSMI_SAS_RAID_DRIVE_COUNT_TOO_BIG 0xF1 #define CSMI_SAS_RAID_DRIVE_COUNT_SUPRESSED 0xF2 // RAID Data Type // (bDataType) #define CSMI_SAS_RAID_DATA_DRIVES 0 #define CSMI_SAS_RAID_DATA_DEVICE_ID 1 #define CSMI_SAS_RAID_DATA_ADDITIONAL_DATA 2 // RAID Drive Status // (bDriveStatus) #define CSMI_SAS_DRIVE_STATUS_OK 0 #define CSMI_SAS_DRIVE_STATUS_REBUILDING 1 #define CSMI_SAS_DRIVE_STATUS_FAILED 2 #define CSMI_SAS_DRIVE_STATUS_DEGRADED 3 #define CSMI_SAS_DRIVE_STATUS_OFFLINE 4 #define CSMI_SAS_DRIVE_STATUS_QUEUED_FOR_REBUILD 5 // RAID Drive Usage // (bDriveUsage) #define CSMI_SAS_DRIVE_CONFIG_NOT_USED 0 #define CSMI_SAS_DRIVE_CONFIG_MEMBER 1 #define CSMI_SAS_DRIVE_CONFIG_SPARE 2 #define CSMI_SAS_DRIVE_CONFIG_SPARE_ACTIVE 3 // RAID Drive Type // (bDriveType) #define CSMI_SAS_DRIVE_TYPE_UNKNOWN 0 #define CSMI_SAS_DRIVE_TYPE_SINGLE_PORT_SAS 1 #define CSMI_SAS_DRIVE_TYPE_DUAL_PORT_SAS 2 #define CSMI_SAS_DRIVE_TYPE_SATA 3 #define CSMI_SAS_DRIVE_TYPE_SATA_PS 4 #define CSMI_SAS_DRIVE_TYPE_OTHER 255 // RAID Write Protect // (bWriteProtect) #define CSMI_SAS_RAID_SET_WRITE_PROTECT_UNKNOWN 0 #define CSMI_SAS_RAID_SET_WRITE_PROTECT_UNCHANGED 0 #define CSMI_SAS_RAID_SET_WRITE_PROTECT_ENABLED 1 #define CSMI_SAS_RAID_SET_WRITE_PROTECT_DISABLED 2 // RAID Cache Setting // (bCacheSetting) #define CSMI_SAS_RAID_SET_CACHE_UNKNOWN 0 #define CSMI_SAS_RAID_SET_CACHE_UNCHANGED 0 #define CSMI_SAS_RAID_SET_CACHE_ENABLED 1 #define CSMI_SAS_RAID_SET_CACHE_DISABLED 2 #define CSMI_SAS_RAID_SET_CACHE_CORRUPT 3 // RAID Features // (uFeatures) #define CSMI_SAS_RAID_FEATURE_TRANSFORMATION 0x00000001 #define CSMI_SAS_RAID_FEATURE_REBUILD 0x00000002 #define CSMI_SAS_RAID_FEATURE_SPLIT_MIRROR 0x00000004 #define CSMI_SAS_RAID_FEATURE_MERGE_MIRROR 0x00000008 #define CSMI_SAS_RAID_FEATURE_LUN_RENUMBER 0x00000010 #define CSMI_SAS_RAID_FEATURE_SURFACE_SCAN 0x00000020 #define CSMI_SAS_RAID_FEATURE_SPARES_SHARED 0x00000040 // RAID Priority // (bDefaultTransformPriority, etc.) #define CSMI_SAS_PRIORITY_UNKNOWN 0 #define CSMI_SAS_PRIORITY_UNCHANGED 0 #define CSMI_SAS_PRIORITY_AUTO 1 #define CSMI_SAS_PRIORITY_OFF 2 #define CSMI_SAS_PRIORITY_LOW 3 #define CSMI_SAS_PRIORITY_MEDIUM 4 #define CSMI_SAS_PRIORITY_HIGH 5 // RAID Transformation Rules // (uRaidSetTransformationRules) #define CSMI_SAS_RAID_RULE_AVAILABLE_MEMORY 0x00000001 #define CSMI_SAS_RAID_RULE_OVERLAPPED_EXTENTS 0x00000002 // RAID Cache Ratios Supported // (bCacheRatiosSupported) // from 0 to 100 defines the write to read ratio, 0 is 100% write #define CSMI_SAS_RAID_CACHE_RATIO_RANGE 101 #define CSMI_SAS_RAID_CACHE_RATIO_FIXED 102 #define CSMI_SAS_RAID_CACHE_RATIO_AUTO 103 #define CSMI_SAS_RAID_CACHE_RATIO_END 255 // RAID Cache Ratio Flag // (bCacheRatioFlag) #define CSMI_SAS_RAID_CACHE_RATIO_DISABLE 0 #define CSMI_SAS_RAID_CACHE_RATIO_ENABLE 1 // RAID Clear Configuration Signature // (bClearConfiguration) #define CSMI_SAS_RAID_CLEAR_CONFIGURATION_SIGNATURE "RAIDCLR" // RAID Failure Codes // (uFailureCode) #define CSMI_SAS_FAIL_CODE_OK 0 #define CSMI_SAS_FAIL_CODE_PARAMETER_INVALID 1000 #define CSMI_SAS_FAIL_CODE_TRANSFORM_PRIORITY_INVALID 1001 #define CSMI_SAS_FAIL_CODE_REBUILD_PRIORITY_INVALID 1002 #define CSMI_SAS_FAIL_CODE_CACHE_RATIO_INVALID 1003 #define CSMI_SAS_FAIL_CODE_SURFACE_SCAN_INVALID 1004 #define CSMI_SAS_FAIL_CODE_CLEAR_CONFIGURATION_INVALID 1005 #define CSMI_SAS_FAIL_CODE_ELEMENT_INDEX_INVALID 1006 #define CSMI_SAS_FAIL_CODE_SUBELEMENT_INDEX_INVALID 1007 #define CSMI_SAS_FAIL_CODE_EXTENT_INVALID 1008 #define CSMI_SAS_FAIL_CODE_BLOCK_COUNT_INVALID 1009 #define CSMI_SAS_FAIL_CODE_DRIVE_INDEX_INVALID 1010 #define CSMI_SAS_FAIL_CODE_EXISTING_LUN_INVALID 1011 #define CSMI_SAS_FAIL_CODE_RAID_TYPE_INVALID 1012 #define CSMI_SAS_FAIL_CODE_STRIPE_SIZE_INVALID 1013 #define CSMI_SAS_FAIL_CODE_TRANSFORMATION_INVALID 1014 #define CSMI_SAS_FAIL_CODE_CHANGE_COUNT_INVALID 1015 #define CSMI_SAS_FAIL_CODE_ENUMERATION_TYPE_INVALID 1016 #define CSMI_SAS_FAIL_CODE_EXCEEDED_RAID_SET_COUNT 2000 #define CSMI_SAS_FAIL_CODE_DUPLICATE_LUN 2001 #define CSMI_SAS_FAIL_CODE_WAIT_FOR_OPERATION 3000 // RAID Enumeration Types // (uEnumerationType) #define CSMI_SAS_RAID_ELEMENT_TYPE_DRIVE 0 #define CSMI_SAS_RAID_ELEMENT_TYPE_MODULE 1 #define CSMI_SAS_RAID_ELEMENT_TYPE_DRIVE_RAID_SET 2 #define CSMI_SAS_RAID_ELEMENT_TYPE_EXTENT_DRIVE 3 // RAID Extent Types // (bExtentType) #define CSMI_SAS_RAID_EXTENT_RESERVED 0 #define CSMI_SAS_RAID_EXTENT_METADATA 1 #define CSMI_SAS_RAID_EXTENT_ALLOCATED 2 #define CSMI_SAS_RAID_EXTENT_UNALLOCATED 3 // RAID Operation Types // (uOperationType) #define CSMI_SAS_RAID_SET_CREATE 0 #define CSMI_SAS_RAID_SET_LABEL 1 #define CSMI_SAS_RAID_SET_TRANSFORM 2 #define CSMI_SAS_RAID_SET_DELETE 3 #define CSMI_SAS_RAID_SET_WRITE_PROTECT 4 #define CSMI_SAS_RAID_SET_CACHE 5 #define CSMI_SAS_RAID_SET_ONLINE_STATE 6 #define CSMI_SAS_RAID_SET_SPARE 7 // RAID Transform Types // (bTransformType) #define CSMI_SAS_RAID_SET_TRANSFORM_SPLIT_MIRROR 0 #define CSMI_SAS_RAID_SET_TRANSFORM_MERGE_RAID_0 1 #define CSMI_SAS_RAID_SET_TRANSFORM_LUN_RENUMBER 2 #define CSMI_SAS_RAID_SET_TRANSFORM_RAID_SET 3 // RAID Online State // (bOnlineState) #define CSMI_SAS_RAID_SET_STATE_UNKNOWN 0 #define CSMI_SAS_RAID_SET_STATE_ONLINE 1 #define CSMI_SAS_RAID_SET_STATE_OFFLINE 2 /* * * * * * * * * * SAS HBA Class IOCTL Constants * * * * * * * * * */ // Return codes for SAS IOCTL's // (IoctlHeader.ReturnCode) #define CSMI_SAS_PHY_INFO_CHANGED CSMI_SAS_STATUS_SUCCESS #define CSMI_SAS_PHY_INFO_NOT_CHANGEABLE 2000 #define CSMI_SAS_LINK_RATE_OUT_OF_RANGE 2001 #define CSMI_SAS_PHY_DOES_NOT_EXIST 2002 #define CSMI_SAS_PHY_DOES_NOT_MATCH_PORT 2003 #define CSMI_SAS_PHY_CANNOT_BE_SELECTED 2004 #define CSMI_SAS_SELECT_PHY_OR_PORT 2005 #define CSMI_SAS_PORT_DOES_NOT_EXIST 2006 #define CSMI_SAS_PORT_CANNOT_BE_SELECTED 2007 #define CSMI_SAS_CONNECTION_FAILED 2008 #define CSMI_SAS_NO_SATA_DEVICE 2009 #define CSMI_SAS_NO_SATA_SIGNATURE 2010 #define CSMI_SAS_SCSI_EMULATION 2011 #define CSMI_SAS_NOT_AN_END_DEVICE 2012 #define CSMI_SAS_NO_SCSI_ADDRESS 2013 #define CSMI_SAS_NO_DEVICE_ADDRESS 2014 // Signature value // (IoctlHeader.Signature) #define CSMI_SAS_SIGNATURE "CSMISAS" // Timeout value default of 60 seconds // (IoctlHeader.Timeout) #define CSMI_SAS_TIMEOUT 60 // Device types // (bDeviceType) #define CSMI_SAS_PHY_UNUSED 0x00 #define CSMI_SAS_NO_DEVICE_ATTACHED 0x00 #define CSMI_SAS_END_DEVICE 0x10 #define CSMI_SAS_EDGE_EXPANDER_DEVICE 0x20 #define CSMI_SAS_FANOUT_EXPANDER_DEVICE 0x30 // Protocol options // (bInitiatorPortProtocol, bTargetPortProtocol) #define CSMI_SAS_PROTOCOL_SATA 0x01 #define CSMI_SAS_PROTOCOL_SMP 0x02 #define CSMI_SAS_PROTOCOL_STP 0x04 #define CSMI_SAS_PROTOCOL_SSP 0x08 // Negotiated and hardware link rates // (bNegotiatedLinkRate, bMinimumLinkRate, bMaximumLinkRate) #define CSMI_SAS_LINK_RATE_UNKNOWN 0x00 #define CSMI_SAS_PHY_DISABLED 0x01 #define CSMI_SAS_LINK_RATE_FAILED 0x02 #define CSMI_SAS_SATA_SPINUP_HOLD 0x03 #define CSMI_SAS_SATA_PORT_SELECTOR 0x04 #define CSMI_SAS_LINK_RATE_1_5_GBPS 0x08 #define CSMI_SAS_LINK_RATE_3_0_GBPS 0x09 #define CSMI_SAS_LINK_VIRTUAL 0x10 // Discover state // (bAutoDiscover) #define CSMI_SAS_DISCOVER_NOT_SUPPORTED 0x00 #define CSMI_SAS_DISCOVER_NOT_STARTED 0x01 #define CSMI_SAS_DISCOVER_IN_PROGRESS 0x02 #define CSMI_SAS_DISCOVER_COMPLETE 0x03 #define CSMI_SAS_DISCOVER_ERROR 0x04 // Phy features #define CSMI_SAS_PHY_VIRTUAL_SMP 0x01 // Programmed link rates // (bMinimumLinkRate, bMaximumLinkRate) // (bProgrammedMinimumLinkRate, bProgrammedMaximumLinkRate) #define CSMI_SAS_PROGRAMMED_LINK_RATE_UNCHANGED 0x00 #define CSMI_SAS_PROGRAMMED_LINK_RATE_1_5_GBPS 0x08 #define CSMI_SAS_PROGRAMMED_LINK_RATE_3_0_GBPS 0x09 // Link rate // (bNegotiatedLinkRate in CSMI_SAS_SET_PHY_INFO) #define CSMI_SAS_LINK_RATE_NEGOTIATE 0x00 #define CSMI_SAS_LINK_RATE_PHY_DISABLED 0x01 // Signal class // (bSignalClass in CSMI_SAS_SET_PHY_INFO) #define CSMI_SAS_SIGNAL_CLASS_UNKNOWN 0x00 #define CSMI_SAS_SIGNAL_CLASS_DIRECT 0x01 #define CSMI_SAS_SIGNAL_CLASS_SERVER 0x02 #define CSMI_SAS_SIGNAL_CLASS_ENCLOSURE 0x03 // Link error reset // (bResetCounts) #define CSMI_SAS_LINK_ERROR_DONT_RESET_COUNTS 0x00 #define CSMI_SAS_LINK_ERROR_RESET_COUNTS 0x01 // Phy identifier // (bPhyIdentifier) #define CSMI_SAS_USE_PORT_IDENTIFIER 0xFF // Port identifier // (bPortIdentifier) #define CSMI_SAS_IGNORE_PORT 0xFF // Programmed link rates // (bConnectionRate) #define CSMI_SAS_LINK_RATE_NEGOTIATED 0x00 #define CSMI_SAS_LINK_RATE_1_5_GBPS 0x08 #define CSMI_SAS_LINK_RATE_3_0_GBPS 0x09 // Connection status // (bConnectionStatus) #define CSMI_SAS_OPEN_ACCEPT 0 #define CSMI_SAS_OPEN_REJECT_BAD_DESTINATION 1 #define CSMI_SAS_OPEN_REJECT_RATE_NOT_SUPPORTED 2 #define CSMI_SAS_OPEN_REJECT_NO_DESTINATION 3 #define CSMI_SAS_OPEN_REJECT_PATHWAY_BLOCKED 4 #define CSMI_SAS_OPEN_REJECT_PROTOCOL_NOT_SUPPORTED 5 #define CSMI_SAS_OPEN_REJECT_RESERVE_ABANDON 6 #define CSMI_SAS_OPEN_REJECT_RESERVE_CONTINUE 7 #define CSMI_SAS_OPEN_REJECT_RESERVE_INITIALIZE 8 #define CSMI_SAS_OPEN_REJECT_RESERVE_STOP 9 #define CSMI_SAS_OPEN_REJECT_RETRY 10 #define CSMI_SAS_OPEN_REJECT_STP_RESOURCES_BUSY 11 #define CSMI_SAS_OPEN_REJECT_WRONG_DESTINATION 12 // SSP Status // (bSSPStatus) #define CSMI_SAS_SSP_STATUS_UNKNOWN 0x00 #define CSMI_SAS_SSP_STATUS_WAITING 0x01 #define CSMI_SAS_SSP_STATUS_COMPLETED 0x02 #define CSMI_SAS_SSP_STATUS_FATAL_ERROR 0x03 #define CSMI_SAS_SSP_STATUS_RETRY 0x04 #define CSMI_SAS_SSP_STATUS_NO_TAG 0x05 // SSP Flags // (uFlags) #define CSMI_SAS_SSP_READ 0x00000001 #define CSMI_SAS_SSP_WRITE 0x00000002 #define CSMI_SAS_SSP_UNSPECIFIED 0x00000004 #define CSMI_SAS_SSP_TASK_ATTRIBUTE_SIMPLE 0x00000000 #define CSMI_SAS_SSP_TASK_ATTRIBUTE_HEAD_OF_QUEUE 0x00000010 #define CSMI_SAS_SSP_TASK_ATTRIBUTE_ORDERED 0x00000020 #define CSMI_SAS_SSP_TASK_ATTRIBUTE_ACA 0x00000040 // SSP Data present // (bDataPresent) #define CSMI_SAS_SSP_NO_DATA_PRESENT 0x00 #define CSMI_SAS_SSP_RESPONSE_DATA_PRESENT 0x01 #define CSMI_SAS_SSP_SENSE_DATA_PRESENT 0x02 // STP Flags // (uFlags) #define CSMI_SAS_STP_READ 0x00000001 #define CSMI_SAS_STP_WRITE 0x00000002 #define CSMI_SAS_STP_UNSPECIFIED 0x00000004 #define CSMI_SAS_STP_PIO 0x00000010 #define CSMI_SAS_STP_DMA 0x00000020 #define CSMI_SAS_STP_PACKET 0x00000040 #define CSMI_SAS_STP_DMA_QUEUED 0x00000080 #define CSMI_SAS_STP_EXECUTE_DIAG 0x00000100 #define CSMI_SAS_STP_RESET_DEVICE 0x00000200 // Task Management Flags // (uFlags) #define CSMI_SAS_TASK_IU 0x00000001 #define CSMI_SAS_HARD_RESET_SEQUENCE 0x00000002 #define CSMI_SAS_SUPPRESS_RESULT 0x00000004 // Task Management Functions // (bTaskManagement) #define CSMI_SAS_SSP_ABORT_TASK 0x01 #define CSMI_SAS_SSP_ABORT_TASK_SET 0x02 #define CSMI_SAS_SSP_CLEAR_TASK_SET 0x04 #define CSMI_SAS_SSP_LOGICAL_UNIT_RESET 0x08 #define CSMI_SAS_SSP_CLEAR_ACA 0x40 #define CSMI_SAS_SSP_QUERY_TASK 0x80 // Task Management Information // (uInformation) #define CSMI_SAS_SSP_TEST 1 #define CSMI_SAS_SSP_EXCEEDED 2 #define CSMI_SAS_SSP_DEMAND 3 #define CSMI_SAS_SSP_TRIGGER 4 // Connector Pinout Information // (uPinout) #define CSMI_SAS_CON_UNKNOWN 0x00000001 #define CSMI_SAS_CON_SFF_8482 0x00000002 #define CSMI_SAS_CON_SFF_8470_LANE_1 0x00000100 #define CSMI_SAS_CON_SFF_8470_LANE_2 0x00000200 #define CSMI_SAS_CON_SFF_8470_LANE_3 0x00000400 #define CSMI_SAS_CON_SFF_8470_LANE_4 0x00000800 #define CSMI_SAS_CON_SFF_8484_LANE_1 0x00010000 #define CSMI_SAS_CON_SFF_8484_LANE_2 0x00020000 #define CSMI_SAS_CON_SFF_8484_LANE_3 0x00040000 #define CSMI_SAS_CON_SFF_8484_LANE_4 0x00080000 // Connector Location Information // (bLocation) // same as uPinout above... // #define CSMI_SAS_CON_UNKNOWN 0x01 #define CSMI_SAS_CON_INTERNAL 0x02 #define CSMI_SAS_CON_EXTERNAL 0x04 #define CSMI_SAS_CON_SWITCHABLE 0x08 #define CSMI_SAS_CON_AUTO 0x10 #define CSMI_SAS_CON_NOT_PRESENT 0x20 #define CSMI_SAS_CON_NOT_CONNECTED 0x80 // Device location identification // (bIdentify) #define CSMI_SAS_LOCATE_UNKNOWN 0x00 #define CSMI_SAS_LOCATE_FORCE_OFF 0x01 #define CSMI_SAS_LOCATE_FORCE_ON 0x02 // Location Valid flags // (uLocationFlags) #define CSMI_SAS_LOCATE_SAS_ADDRESS_VALID 0x00000001 #define CSMI_SAS_LOCATE_SAS_LUN_VALID 0x00000002 #define CSMI_SAS_LOCATE_ENCLOSURE_IDENTIFIER_VALID 0x00000004 #define CSMI_SAS_LOCATE_ENCLOSURE_NAME_VALID 0x00000008 #define CSMI_SAS_LOCATE_BAY_PREFIX_VALID 0x00000010 #define CSMI_SAS_LOCATE_BAY_IDENTIFIER_VALID 0x00000020 #define CSMI_SAS_LOCATE_LOCATION_STATE_VALID 0x00000040 /* * * * * * * * SAS Phy Control Class IOCTL Constants * * * * * * * * */ // Return codes for SAS Phy Control IOCTL's // (IoctlHeader.ReturnCode) // Signature value // (IoctlHeader.Signature) #define CSMI_PHY_SIGNATURE "CSMIPHY" // Phy Control Functions // (bFunction) // values 0x00 to 0xFF are consistent in definition with the SMP PHY CONTROL // function defined in the SAS spec #define CSMI_SAS_PC_NOP 0x00000000 #define CSMI_SAS_PC_LINK_RESET 0x00000001 #define CSMI_SAS_PC_HARD_RESET 0x00000002 #define CSMI_SAS_PC_PHY_DISABLE 0x00000003 // 0x04 to 0xFF reserved... #define CSMI_SAS_PC_GET_PHY_SETTINGS 0x00000100 // Link Flags #define CSMI_SAS_PHY_ACTIVATE_CONTROL 0x00000001 #define CSMI_SAS_PHY_UPDATE_SPINUP_RATE 0x00000002 #define CSMI_SAS_PHY_AUTO_COMWAKE 0x00000004 // Device Types for Phy Settings // (bType) #define CSMI_SAS_UNDEFINED 0x00 #define CSMI_SAS_SATA 0x01 #define CSMI_SAS_SAS 0x02 // Transmitter Flags // (uTransmitterFlags) #define CSMI_SAS_PHY_PREEMPHASIS_DISABLED 0x00000001 // Receiver Flags // (uReceiverFlags) #define CSMI_SAS_PHY_EQUALIZATION_DISABLED 0x00000001 // Pattern Flags // (uPatternFlags) // #define CSMI_SAS_PHY_ACTIVATE_CONTROL 0x00000001 #define CSMI_SAS_PHY_DISABLE_SCRAMBLING 0x00000002 #define CSMI_SAS_PHY_DISABLE_ALIGN 0x00000004 #define CSMI_SAS_PHY_DISABLE_SSC 0x00000008 #define CSMI_SAS_PHY_FIXED_PATTERN 0x00000010 #define CSMI_SAS_PHY_USER_PATTERN 0x00000020 // Fixed Patterns // (bFixedPattern) #define CSMI_SAS_PHY_CJPAT 0x00000001 #define CSMI_SAS_PHY_ALIGN 0x00000002 // Type Flags // (bTypeFlags) #define CSMI_SAS_PHY_POSITIVE_DISPARITY 0x01 #define CSMI_SAS_PHY_NEGATIVE_DISPARITY 0x02 #define CSMI_SAS_PHY_CONTROL_CHARACTER 0x04 // Miscellaneous #define SLOT_NUMBER_UNKNOWN 0xFFFF /*************************************************************************/ /* DATA STRUCTURES */ /*************************************************************************/ /* * * * * * * * * * Class Independent Structures * * * * * * * * * */ // EDM #pragma CSMI_SAS_BEGIN_PACK(8) #pragma pack(8) // CC_CSMI_SAS_DRIVER_INFO typedef struct _CSMI_SAS_DRIVER_INFO { __u8 szName[81]; __u8 szDescription[81]; __u16 usMajorRevision; __u16 usMinorRevision; __u16 usBuildRevision; __u16 usReleaseRevision; __u16 usCSMIMajorRevision; __u16 usCSMIMinorRevision; } CSMI_SAS_DRIVER_INFO, *PCSMI_SAS_DRIVER_INFO; typedef struct _CSMI_SAS_DRIVER_INFO_BUFFER { IOCTL_HEADER IoctlHeader; CSMI_SAS_DRIVER_INFO Information; } CSMI_SAS_DRIVER_INFO_BUFFER, *PCSMI_SAS_DRIVER_INFO_BUFFER; // CC_CSMI_SAS_CNTLR_CONFIGURATION typedef struct _CSMI_SAS_PCI_BUS_ADDRESS { __u8 bBusNumber; __u8 bDeviceNumber; __u8 bFunctionNumber; __u8 bReserved; } CSMI_SAS_PCI_BUS_ADDRESS, *PCSMI_SAS_PCI_BUS_ADDRESS; typedef union _CSMI_SAS_IO_BUS_ADDRESS { CSMI_SAS_PCI_BUS_ADDRESS PciAddress; __u8 bReserved[32]; } CSMI_SAS_IO_BUS_ADDRESS, *PCSMI_SAS_IO_BUS_ADDRESS; typedef struct _CSMI_SAS_CNTLR_CONFIG { __u32 uBaseIoAddress; struct { __u32 uLowPart; __u32 uHighPart; } BaseMemoryAddress; __u32 uBoardID; __u16 usSlotNumber; __u8 bControllerClass; __u8 bIoBusType; CSMI_SAS_IO_BUS_ADDRESS BusAddress; __u8 szSerialNumber[81]; __u16 usMajorRevision; __u16 usMinorRevision; __u16 usBuildRevision; __u16 usReleaseRevision; __u16 usBIOSMajorRevision; __u16 usBIOSMinorRevision; __u16 usBIOSBuildRevision; __u16 usBIOSReleaseRevision; __u32 uControllerFlags; __u16 usRromMajorRevision; __u16 usRromMinorRevision; __u16 usRromBuildRevision; __u16 usRromReleaseRevision; __u16 usRromBIOSMajorRevision; __u16 usRromBIOSMinorRevision; __u16 usRromBIOSBuildRevision; __u16 usRromBIOSReleaseRevision; __u8 bReserved[7]; } CSMI_SAS_CNTLR_CONFIG, *PCSMI_SAS_CNTLR_CONFIG; typedef struct _CSMI_SAS_CNTLR_CONFIG_BUFFER { IOCTL_HEADER IoctlHeader; CSMI_SAS_CNTLR_CONFIG Configuration; } CSMI_SAS_CNTLR_CONFIG_BUFFER, *PCSMI_SAS_CNTLR_CONFIG_BUFFER; // CC_CSMI_SAS_CNTLR_STATUS typedef struct _CSMI_SAS_CNTLR_STATUS { __u32 uStatus; __u32 uOfflineReason; __u8 bReserved[28]; } CSMI_SAS_CNTLR_STATUS, *PCSMI_SAS_CNTLR_STATUS; typedef struct _CSMI_SAS_CNTLR_STATUS_BUFFER { IOCTL_HEADER IoctlHeader; CSMI_SAS_CNTLR_STATUS Status; } CSMI_SAS_CNTLR_STATUS_BUFFER, *PCSMI_SAS_CNTLR_STATUS_BUFFER; // CC_CSMI_SAS_FIRMWARE_DOWNLOAD typedef struct _CSMI_SAS_FIRMWARE_DOWNLOAD { __u32 uBufferLength; __u32 uDownloadFlags; __u8 bReserved[32]; __u16 usStatus; __u16 usSeverity; } CSMI_SAS_FIRMWARE_DOWNLOAD, *PCSMI_SAS_FIRMWARE_DOWNLOAD; typedef struct _CSMI_SAS_FIRMWARE_DOWNLOAD_BUFFER { IOCTL_HEADER IoctlHeader; CSMI_SAS_FIRMWARE_DOWNLOAD Information; __u8 bDataBuffer[1]; } CSMI_SAS_FIRMWARE_DOWNLOAD_BUFFER, *PCSMI_SAS_FIRMWARE_DOWNLOAD_BUFFER; // CC_CSMI_SAS_RAID_INFO typedef struct _CSMI_SAS_RAID_INFO { __u32 uNumRaidSets; __u32 uMaxDrivesPerSet; __u32 uMaxRaidSets; __u8 bMaxRaidTypes; __u8 bReservedByteFields[7]; struct { __u32 uLowPart; __u32 uHighPart; } ulMinRaidSetBlocks; struct { __u32 uLowPart; __u32 uHighPart; } ulMaxRaidSetBlocks; __u32 uMaxPhysicalDrives; __u32 uMaxExtents; __u32 uMaxModules; __u32 uMaxTransformationMemory; __u32 uChangeCount; __u8 bReserved[44]; } CSMI_SAS_RAID_INFO, *PCSMI_SAS_RAID_INFO; typedef struct _CSMI_SAS_RAID_INFO_BUFFER { IOCTL_HEADER IoctlHeader; CSMI_SAS_RAID_INFO Information; } CSMI_SAS_RAID_INFO_BUFFER, *PCSMI_SAS_RAID_INFO_BUFFER; // CC_CSMI_SAS_GET_RAID_CONFIG typedef struct _CSMI_SAS_RAID_DRIVES { __u8 bModel[40]; __u8 bFirmware[8]; __u8 bSerialNumber[40]; __u8 bSASAddress[8]; __u8 bSASLun[8]; __u8 bDriveStatus; __u8 bDriveUsage; __u16 usBlockSize; __u8 bDriveType; __u8 bReserved[15]; __u32 uDriveIndex; struct { __u32 uLowPart; __u32 uHighPart; } ulTotalUserBlocks; } CSMI_SAS_RAID_DRIVES, *PCSMI_SAS_RAID_DRIVES; typedef struct _CSMI_SAS_RAID_DEVICE_ID { __u8 bDeviceIdentificationVPDPage[1]; } CSMI_SAS_RAID_DEVICE_ID, *PCSMI_SAS_RAID_DEVICE_ID; typedef struct _CSMI_SAS_RAID_SET_ADDITIONAL_DATA { __u8 bLabel[16]; __u8 bRaidSetLun[8]; __u8 bWriteProtection; __u8 bCacheSetting; __u8 bCacheRatio; __u16 usBlockSize; __u8 bReservedBytes[11]; struct { __u32 uLowPart; __u32 uHighPart; } ulRaidSetExtentOffset; struct { __u32 uLowPart; __u32 uHighPart; } ulRaidSetBlocks; __u32 uStripeSizeInBlocks; __u32 uSectorsPerTrack; __u8 bApplicationScratchPad[16]; __u32 uNumberOfHeads; __u32 uNumberOfTracks; __u8 bReserved[24]; } CSMI_SAS_RAID_SET_ADDITIONAL_DATA, *PCSMI_SAS_RAID_SET_ADDITIONAL_DATA; typedef struct _CSMI_SAS_RAID_CONFIG { __u32 uRaidSetIndex; __u32 uCapacity; __u32 uStripeSize; __u8 bRaidType; __u8 bStatus; __u8 bInformation; __u8 bDriveCount; __u8 bDataType; __u8 bReserved[11]; __u32 uFailureCode; __u32 uChangeCount; union { CSMI_SAS_RAID_DRIVES Drives[1]; CSMI_SAS_RAID_DEVICE_ID DeviceId[1]; CSMI_SAS_RAID_SET_ADDITIONAL_DATA Data[1]; }; } CSMI_SAS_RAID_CONFIG, *PCSMI_SAS_RAID_CONFIG; typedef struct _CSMI_SAS_RAID_CONFIG_BUFFER { IOCTL_HEADER IoctlHeader; CSMI_SAS_RAID_CONFIG Configuration; } CSMI_SAS_RAID_CONFIG_BUFFER, *PCSMI_SAS_RAID_CONFIG_BUFFER; // CC_CSMI_SAS_GET_RAID_FEATURES typedef struct _CSMI_SAS_RAID_TYPE_DESCRIPTION { __u8 bRaidType; __u8 bReservedBytes[7]; __u32 uSupportedStripeSizeMap; __u8 bReserved[24]; } CSMI_SAS_RAID_TYPE_DESCRIPTION, *PCSMI_SAS_RAID_TYPE_DESCRIPTION; typedef struct _CSMI_SAS_RAID_FEATURES { __u32 uFeatures; __u8 bReservedFeatures[32]; __u8 bDefaultTransformPriority; __u8 bTransformPriority; __u8 bDefaultRebuildPriority; __u8 bRebuildPriority; __u8 bDefaultSurfaceScanPriority; __u8 bSurfaceScanPriority; __u16 usReserved; __u32 uRaidSetTransformationRules; __u32 uReserved[11]; CSMI_SAS_RAID_TYPE_DESCRIPTION RaidType[24]; __u8 bCacheRatiosSupported[104]; __u32 uChangeCount; __u32 uFailureCode; __u8 bReserved[120]; } CSMI_SAS_RAID_FEATURES, *PCSMI_SAS_RAID_FEATURES; typedef struct _CSMI_SAS_RAID_FEATURES_BUFFER { IOCTL_HEADER IoctlHeader; CSMI_SAS_RAID_FEATURES Information; } CSMI_SAS_RAID_FEATURES_BUFFER, *PCSMI_SAS_RAID_FEATURES_BUFFER; // CC_CSMI_SAS_SET_RAID_CONTROL typedef struct _CSMI_SAS_RAID_CONTROL { __u8 bTransformPriority; __u8 bRebuildPriority; __u8 bCacheRatioFlag; __u8 bCacheRatio; __u8 bSurfaceScanPriority; __u8 bReservedBytes[15]; __u8 bClearConfiguration[8]; __u32 uChangeCount; __u8 bReserved[88]; __u32 uFailureCode; __u8 bFailureDescription[80]; } CSMI_SAS_RAID_CONTROL, *PCSMI_SAS_RAID_CONTROL; typedef struct _CSMI_SAS_RAID_CONTROL_BUFFER { IOCTL_HEADER IoctlHeader; CSMI_SAS_RAID_CONTROL Information; } CSMI_SAS_RAID_CONTROL_BUFFER, *PCSMI_SAS_RAID_CONTROL_BUFFER; // CC_CSMI_SAS_GET_RAID_ELEMENT typedef struct _CSMI_SAS_DRIVE_EXTENT_INFO { __u32 uDriveIndex; __u8 bExtentType; __u8 bReservedBytes[7]; struct { __u32 uLowPart; __u32 uHighPart; } ulExtentOffset; struct { __u32 uLowPart; __u32 uHighPart; } ulExtentBlocks; __u32 uRaidSetIndex; __u8 bReserved[96]; } CSMI_SAS_DRIVE_EXTENT_INFO, *PCSMI_SAS_DRIVE_EXTENT_INFO; typedef struct _CSMI_SAS_RAID_MODULE_INFO { __u8 bReserved[128]; } CSMI_SAS_RAID_MODULE_INFO, *PCSMI_SAS_RAID_MODULE_INFO; typedef struct _CSMI_SAS_DRIVE_LOCATION { __u8 bConnector[16]; __u8 bBoxName[16]; __u32 uBay; __u8 bReservedBytes[4]; __u8 bAttachedSASAddress[8]; __u8 bAttachedPhyIdentifier; __u8 bReserved[79]; } CSMI_SAS_DRIVE_LOCATION, *PCSMI_SAS_DRIVE_LOCATION; typedef struct _CSMI_SAS_RAID_DRIVES_ADDITIONAL_DATA { __u8 bNegotiatedLinkRate[2]; __u8 bReserved[126]; } CSMI_SAS_RAID_DRIVES_ADDITIONAL_DATA, *PCSMI_SAS_RAID_DRIVES_ADDITIONAL_DATA; typedef struct _CSMI_SAS_DRIVE_INFO { CSMI_SAS_RAID_DRIVES Device; CSMI_SAS_RAID_DRIVES_ADDITIONAL_DATA Data; CSMI_SAS_DRIVE_LOCATION Location; __u8 bReserved[16]; } CSMI_SAS_DRIVE_INFO, *PCSMI_SAS_DRIVE_INFO; typedef struct _CSMI_SAS_RAID_ELEMENT { __u32 uEnumerationType; __u32 uElementIndex; __u32 uNumElements; __u32 uChangeCount; __u32 uSubElementIndex; __u8 bReserved[32]; __u32 uFailureCode; __u8 bFailureDescription[80]; union { CSMI_SAS_DRIVE_INFO Drive; CSMI_SAS_RAID_MODULE_INFO Module; CSMI_SAS_DRIVE_EXTENT_INFO Extent; } Element; } CSMI_SAS_RAID_ELEMENT, *PCSMI_SAS_RAID_ELEMENT; typedef struct _CSMI_SAS_RAID_ELEMENT_BUFFER { IOCTL_HEADER IoctlHeader; CSMI_SAS_RAID_ELEMENT Information; } CSMI_SAS_RAID_ELEMENT_BUFFER, *PCSMI_SAS_RAID_ELEMENT_BUFFER; // CC_CSMI_SAS_SET_RAID_OPERATION typedef struct _CSMI_SAS_RAID_SET_LIST { __u32 uRaidSetIndex; __u8 bExistingLun[8]; __u8 bNewLun[8]; __u8 bReserved[12]; } CSMI_SAS_RAID_SET_LIST, *PCSMI_SAS_RAID_SET_LIST; typedef struct _CSMI_SAS_RAID_SET_DRIVE_LIST { __u32 uDriveIndex; __u8 bDriveUsage; __u8 bReserved[27]; } CSMI_SAS_RAID_SET_DRIVE_LIST, *PCSMI_SAS_RAID_SET_DRIVE_LIST; typedef struct _CSMI_SAS_RAID_SET_SPARE_INFO { __u32 uRaidSetIndex; __u32 uDriveCount; __u8 bApplicationScratchPad[16]; __u8 bReserved[104]; } CSMI_SAS_RAID_SET_SPARE_INFO, *PCSMI_SAS_RAID_SET_SPARE_INFO; typedef struct _CSMI_SAS_RAID_SET_ONLINE_STATE_INFO { __u32 uRaidSetIndex; __u8 bOnlineState; __u8 bReserved[123]; } CSMI_SAS_RAID_SET_ONLINE_STATE_INFO, *PCSMI_SAS_RAID_SET_ONLINE_STATE_INFO; typedef struct _CSMI_SAS_RAID_SET_CACHE_INFO { __u32 uRaidSetIndex; __u8 bCacheSetting; __u8 bCacheRatioFlag; __u8 bCacheRatio; __u8 bReserved[121]; } CSMI_SAS_RAID_SET_CACHE_INFO, *PCSMI_SAS_RAID_SET_CACHE_INFO; typedef struct _CSMI_SAS_RAID_SET_WRITE_PROTECT_INFO { __u32 uRaidSetIndex; __u8 bWriteProtectSetting; __u8 bReserved[123]; } CSMI_SAS_RAID_SET_WRITE_PROTECT_INFO, *PCSMI_SAS_RAID_SET_WRITE_PROTECT_INFO; typedef struct _CSMI_SAS_RAID_SET_DELETE_INFO { __u32 uRaidSetIndex; __u8 bReserved[124]; } CSMI_SAS_RAID_SET_DELETE_INFO, *PCSMI_SAS_RAID_SET_DELETE_INFO; typedef struct _CSMI_SAS_RAID_SET_MODIFY_INFO { __u8 bRaidType; __u8 bReservedBytes[7]; __u32 uStripeSize; struct { __u32 uLowPart; __u32 uHighPart; } ulRaidSetBlocks; struct { __u32 uLowPart; __u32 uHighPart; } ulRaidSetExtentOffset; __u32 uDriveCount; __u8 bReserved[96]; } CSMI_SAS_RAID_SET_MODIFY_INFO, *PCSMI_SAS_RAID_SET_MODIFY_INFO; typedef struct _CSMI_SAS_RAID_SET_TRANSFORM_INFO { __u8 bTransformType; __u8 bReservedBytes[3]; __u32 uRaidSetIndex; __u8 bRaidType; __u8 bReservedBytes2[11]; __u32 uAdditionalRaidSetIndex; __u32 uRaidSetCount; __u8 bApplicationScratchPad[16]; CSMI_SAS_RAID_SET_MODIFY_INFO Modify; __u8 bReserved[80]; } CSMI_SAS_RAID_SET_TRANSFORM_INFO, *PCSMI_SAS_RAID_SET_TRANSFORM_INFO; typedef struct _CSMI_SAS_RAID_SET_LABEL_INFO { __u32 uRaidSetIndex; __u8 bLabel[16]; __u8 bReserved[108]; } CSMI_SAS_RAID_SET_LABEL_INFO, *PCSMI_SAS_RAID_SET_LABEL_INFO; typedef struct _CSMI_SAS_RAID_SET_CREATE_INFO { __u8 bRaidType; __u8 bReservedBytes[7]; __u32 uStripeSize; __u32 uTrackSectorCount; struct { __u32 uLowPart; __u32 uHighPart; } ulRaidSetBlocks; struct { __u32 uLowPart; __u32 uHighPart; } ulRaidSetExtentOffset; __u32 uDriveCount; __u8 bLabel[16]; __u32 uRaidSetIndex; __u8 bApplicationScratchPad[16]; __u32 uNumberOfHeads; __u32 uNumberOfTracks; __u8 bReserved[48]; } CSMI_SAS_RAID_SET_CREATE_INFO, *PCSMI_SAS_RAID_SET_CREATE_INFO; typedef struct _CSMI_SAS_RAID_SET_OPERATION { __u32 uOperationType; __u32 uChangeCount; __u32 uFailureCode; __u8 bFailureDescription[80]; __u8 bReserved[28]; union { CSMI_SAS_RAID_SET_CREATE_INFO Create; CSMI_SAS_RAID_SET_LABEL_INFO Label; CSMI_SAS_RAID_SET_TRANSFORM_INFO Transform; CSMI_SAS_RAID_SET_DELETE_INFO Delete; CSMI_SAS_RAID_SET_WRITE_PROTECT_INFO Protect; CSMI_SAS_RAID_SET_CACHE_INFO Cache; CSMI_SAS_RAID_SET_ONLINE_STATE_INFO State; CSMI_SAS_RAID_SET_SPARE_INFO Spare; } Operation; union { CSMI_SAS_RAID_SET_DRIVE_LIST DriveList[1]; CSMI_SAS_RAID_SET_LIST RaidSetList[1]; } Parameters; } CSMI_SAS_RAID_SET_OPERATION, *PCSMI_SAS_RAID_SET_OPERATION; typedef struct _CSMI_SAS_RAID_SET_OPERATION_BUFFER { IOCTL_HEADER IoctlHeader; CSMI_SAS_RAID_SET_OPERATION Information; } CSMI_SAS_RAID_SET_OPERATION_BUFFER, *PCSMI_SAS_RAID_SET_OPERATION_BUFFER; /* * * * * * * * * * SAS HBA Class Structures * * * * * * * * * */ // CC_CSMI_SAS_GET_PHY_INFO typedef struct _CSMI_SAS_IDENTIFY { __u8 bDeviceType; __u8 bRestricted; __u8 bInitiatorPortProtocol; __u8 bTargetPortProtocol; __u8 bRestricted2[8]; __u8 bSASAddress[8]; __u8 bPhyIdentifier; __u8 bSignalClass; __u8 bReserved[6]; } CSMI_SAS_IDENTIFY, *PCSMI_SAS_IDENTIFY; typedef struct _CSMI_SAS_PHY_ENTITY { CSMI_SAS_IDENTIFY Identify; __u8 bPortIdentifier; __u8 bNegotiatedLinkRate; __u8 bMinimumLinkRate; __u8 bMaximumLinkRate; __u8 bPhyChangeCount; __u8 bAutoDiscover; __u8 bPhyFeatures; __u8 bReserved; CSMI_SAS_IDENTIFY Attached; } CSMI_SAS_PHY_ENTITY, *PCSMI_SAS_PHY_ENTITY; typedef struct _CSMI_SAS_PHY_INFO { __u8 bNumberOfPhys; __u8 bReserved[3]; CSMI_SAS_PHY_ENTITY Phy[32]; } CSMI_SAS_PHY_INFO, *PCSMI_SAS_PHY_INFO; typedef struct _CSMI_SAS_PHY_INFO_BUFFER { IOCTL_HEADER IoctlHeader; CSMI_SAS_PHY_INFO Information; } CSMI_SAS_PHY_INFO_BUFFER, *PCSMI_SAS_PHY_INFO_BUFFER; // CC_CSMI_SAS_SET_PHY_INFO typedef struct _CSMI_SAS_SET_PHY_INFO { __u8 bPhyIdentifier; __u8 bNegotiatedLinkRate; __u8 bProgrammedMinimumLinkRate; __u8 bProgrammedMaximumLinkRate; __u8 bSignalClass; __u8 bReserved[3]; } CSMI_SAS_SET_PHY_INFO, *PCSMI_SAS_SET_PHY_INFO; typedef struct _CSMI_SAS_SET_PHY_INFO_BUFFER { IOCTL_HEADER IoctlHeader; CSMI_SAS_SET_PHY_INFO Information; } CSMI_SAS_SET_PHY_INFO_BUFFER, *PCSMI_SAS_SET_PHY_INFO_BUFFER; // CC_CSMI_SAS_GET_LINK_ERRORS typedef struct _CSMI_SAS_LINK_ERRORS { __u8 bPhyIdentifier; __u8 bResetCounts; __u8 bReserved[2]; __u32 uInvalidDwordCount; __u32 uRunningDisparityErrorCount; __u32 uLossOfDwordSyncCount; __u32 uPhyResetProblemCount; } CSMI_SAS_LINK_ERRORS, *PCSMI_SAS_LINK_ERRORS; typedef struct _CSMI_SAS_LINK_ERRORS_BUFFER { IOCTL_HEADER IoctlHeader; CSMI_SAS_LINK_ERRORS Information; } CSMI_SAS_LINK_ERRORS_BUFFER, *PCSMI_SAS_LINK_ERRORS_BUFFER; // CC_CSMI_SAS_SMP_PASSTHRU typedef struct _CSMI_SAS_SMP_REQUEST { __u8 bFrameType; __u8 bFunction; __u8 bReserved[2]; __u8 bAdditionalRequestBytes[1016]; } CSMI_SAS_SMP_REQUEST, *PCSMI_SAS_SMP_REQUEST; typedef struct _CSMI_SAS_SMP_RESPONSE { __u8 bFrameType; __u8 bFunction; __u8 bFunctionResult; __u8 bReserved; __u8 bAdditionalResponseBytes[1016]; } CSMI_SAS_SMP_RESPONSE, *PCSMI_SAS_SMP_RESPONSE; typedef struct _CSMI_SAS_SMP_PASSTHRU { __u8 bPhyIdentifier; __u8 bPortIdentifier; __u8 bConnectionRate; __u8 bReserved; __u8 bDestinationSASAddress[8]; __u32 uRequestLength; CSMI_SAS_SMP_REQUEST Request; __u8 bConnectionStatus; __u8 bReserved2[3]; __u32 uResponseBytes; CSMI_SAS_SMP_RESPONSE Response; } CSMI_SAS_SMP_PASSTHRU, *PCSMI_SAS_SMP_PASSTHRU; typedef struct _CSMI_SAS_SMP_PASSTHRU_BUFFER { IOCTL_HEADER IoctlHeader; CSMI_SAS_SMP_PASSTHRU Parameters; } CSMI_SAS_SMP_PASSTHRU_BUFFER, *PCSMI_SAS_SMP_PASSTHRU_BUFFER; // CC_CSMI_SAS_SSP_PASSTHRU typedef struct _CSMI_SAS_SSP_PASSTHRU { __u8 bPhyIdentifier; __u8 bPortIdentifier; __u8 bConnectionRate; __u8 bReserved; __u8 bDestinationSASAddress[8]; __u8 bLun[8]; __u8 bCDBLength; __u8 bAdditionalCDBLength; __u8 bReserved2[2]; __u8 bCDB[16]; __u32 uFlags; __u8 bAdditionalCDB[24]; __u32 uDataLength; } CSMI_SAS_SSP_PASSTHRU, *PCSMI_SAS_SSP_PASSTHRU; typedef struct _CSMI_SAS_SSP_PASSTHRU_STATUS { __u8 bConnectionStatus; __u8 bSSPStatus; __u8 bReserved[2]; __u8 bDataPresent; __u8 bStatus; __u8 bResponseLength[2]; __u8 bResponse[256]; __u32 uDataBytes; } CSMI_SAS_SSP_PASSTHRU_STATUS, *PCSMI_SAS_SSP_PASSTHRU_STATUS; typedef struct _CSMI_SAS_SSP_PASSTHRU_BUFFER { IOCTL_HEADER IoctlHeader; CSMI_SAS_SSP_PASSTHRU Parameters; CSMI_SAS_SSP_PASSTHRU_STATUS Status; __u8 bDataBuffer[1]; } CSMI_SAS_SSP_PASSTHRU_BUFFER, *PCSMI_SAS_SSP_PASSTHRU_BUFFER; // CC_CSMI_SAS_STP_PASSTHRU typedef struct _CSMI_SAS_STP_PASSTHRU { __u8 bPhyIdentifier; __u8 bPortIdentifier; __u8 bConnectionRate; __u8 bReserved; __u8 bDestinationSASAddress[8]; __u8 bReserved2[4]; __u8 bCommandFIS[20]; __u32 uFlags; __u32 uDataLength; } CSMI_SAS_STP_PASSTHRU, *PCSMI_SAS_STP_PASSTHRU; typedef struct _CSMI_SAS_STP_PASSTHRU_STATUS { __u8 bConnectionStatus; __u8 bReserved[3]; __u8 bStatusFIS[20]; __u32 uSCR[16]; __u32 uDataBytes; } CSMI_SAS_STP_PASSTHRU_STATUS, *PCSMI_SAS_STP_PASSTHRU_STATUS; typedef struct _CSMI_SAS_STP_PASSTHRU_BUFFER { IOCTL_HEADER IoctlHeader; CSMI_SAS_STP_PASSTHRU Parameters; CSMI_SAS_STP_PASSTHRU_STATUS Status; __u8 bDataBuffer[1]; } CSMI_SAS_STP_PASSTHRU_BUFFER, *PCSMI_SAS_STP_PASSTHRU_BUFFER; // CC_CSMI_SAS_GET_SATA_SIGNATURE typedef struct _CSMI_SAS_SATA_SIGNATURE { __u8 bPhyIdentifier; __u8 bReserved[3]; __u8 bSignatureFIS[20]; } CSMI_SAS_SATA_SIGNATURE, *PCSMI_SAS_SATA_SIGNATURE; typedef struct _CSMI_SAS_SATA_SIGNATURE_BUFFER { IOCTL_HEADER IoctlHeader; CSMI_SAS_SATA_SIGNATURE Signature; } CSMI_SAS_SATA_SIGNATURE_BUFFER, *PCSMI_SAS_SATA_SIGNATURE_BUFFER; // CC_CSMI_SAS_GET_SCSI_ADDRESS typedef struct _CSMI_SAS_GET_SCSI_ADDRESS_BUFFER { IOCTL_HEADER IoctlHeader; __u8 bSASAddress[8]; __u8 bSASLun[8]; __u8 bHostIndex; __u8 bPathId; __u8 bTargetId; __u8 bLun; } CSMI_SAS_GET_SCSI_ADDRESS_BUFFER, *PCSMI_SAS_GET_SCSI_ADDRESS_BUFFER; // CC_CSMI_SAS_GET_DEVICE_ADDRESS typedef struct _CSMI_SAS_GET_DEVICE_ADDRESS_BUFFER { IOCTL_HEADER IoctlHeader; __u8 bHostIndex; __u8 bPathId; __u8 bTargetId; __u8 bLun; __u8 bSASAddress[8]; __u8 bSASLun[8]; } CSMI_SAS_GET_DEVICE_ADDRESS_BUFFER, *PCSMI_SAS_GET_DEVICE_ADDRESS_BUFFER; // CC_CSMI_SAS_TASK_MANAGEMENT typedef struct _CSMI_SAS_SSP_TASK_IU { __u8 bHostIndex; __u8 bPathId; __u8 bTargetId; __u8 bLun; __u32 uFlags; __u32 uQueueTag; __u32 uReserved; __u8 bTaskManagementFunction; __u8 bReserved[7]; __u32 uInformation; } CSMI_SAS_SSP_TASK_IU, *PCSMI_SAS_SSP_TASK_IU; typedef struct _CSMI_SAS_SSP_TASK_IU_BUFFER { IOCTL_HEADER IoctlHeader; CSMI_SAS_SSP_TASK_IU Parameters; CSMI_SAS_SSP_PASSTHRU_STATUS Status; } CSMI_SAS_SSP_TASK_IU_BUFFER, *PCSMI_SAS_SSP_TASK_IU_BUFFER; // CC_CSMI_SAS_GET_CONNECTOR_INFO typedef struct _CSMI_SAS_GET_CONNECTOR_INFO { __u32 uPinout; __u8 bConnector[16]; __u8 bLocation; __u8 bReserved[15]; } CSMI_SAS_CONNECTOR_INFO, *PCSMI_SAS_CONNECTOR_INFO; typedef struct _CSMI_SAS_CONNECTOR_INFO_BUFFER { IOCTL_HEADER IoctlHeader; CSMI_SAS_CONNECTOR_INFO Reference[32]; } CSMI_SAS_CONNECTOR_INFO_BUFFER, *PCSMI_SAS_CONNECTOR_INFO_BUFFER; // CC_CSMI_SAS_GET_LOCATION typedef struct _CSMI_SAS_LOCATION_IDENTIFIER { __u32 bLocationFlags; __u8 bSASAddress[8]; __u8 bSASLun[8]; __u8 bEnclosureIdentifier[8]; __u8 bEnclosureName[32]; __u8 bBayPrefix[32]; __u8 bBayIdentifier; __u8 bLocationState; __u8 bReserved[2]; } CSMI_SAS_LOCATION_IDENTIFIER, *PCSMI_SAS_LOCATION_IDENTIFIER; typedef struct _CSMI_SAS_GET_LOCATION_BUFFER { IOCTL_HEADER IoctlHeader; __u8 bHostIndex; __u8 bPathId; __u8 bTargetId; __u8 bLun; __u8 bIdentify; __u8 bNumberOfLocationIdentifiers; __u8 bLengthOfLocationIdentifier; CSMI_SAS_LOCATION_IDENTIFIER Location[1]; } CSMI_SAS_GET_LOCATION_BUFFER, *PCSMI_SAS_GET_LOCATION_BUFFER; // CC_CSMI_SAS_PHY_CONTROL typedef struct _CSMI_SAS_CHARACTER { __u8 bTypeFlags; __u8 bValue; } CSMI_SAS_CHARACTER, *PCSMI_SAS_CHARACTER; typedef struct _CSMI_SAS_PHY_CONTROL { __u8 bType; __u8 bRate; __u8 bReserved[6]; __u32 uVendorUnique[8]; __u32 uTransmitterFlags; __i8 bTransmitAmplitude; __i8 bTransmitterPreemphasis; __i8 bTransmitterSlewRate; __i8 bTransmitterReserved[13]; __u8 bTransmitterVendorUnique[64]; __u32 uReceiverFlags; __i8 bReceiverThreshold; __i8 bReceiverEqualizationGain; __i8 bReceiverReserved[14]; __u8 bReceiverVendorUnique[64]; __u32 uPatternFlags; __u8 bFixedPattern; __u8 bUserPatternLength; __u8 bPatternReserved[6]; CSMI_SAS_CHARACTER UserPatternBuffer[16]; } CSMI_SAS_PHY_CONTROL, *PCSMI_SAS_PHY_CONTROL; typedef struct _CSMI_SAS_PHY_CONTROL_BUFFER { IOCTL_HEADER IoctlHeader; __u32 uFunction; __u8 bPhyIdentifier; __u16 usLengthOfControl; __u8 bNumberOfControls; __u8 bReserved[4]; __u32 uLinkFlags; __u8 bSpinupRate; __u8 bLinkReserved[7]; __u32 uVendorUnique[8]; CSMI_SAS_PHY_CONTROL Control[1]; } CSMI_SAS_PHY_CONTROL_BUFFER, *PCSMI_SAS_PHY_CONTROL_BUFFER; //EDM #pragma CSMI_SAS_END_PACK #pragma pack() #endif // _CSMI_SAS_H_