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Current File : //compat/linux/proc/68247/cwd/sys/dev/hpt27xx/hptintf.h |
/*- * Copyright (c) 2011 HighPoint Technologies, Inc. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * $FreeBSD: release/9.1.0/sys/dev/hpt27xx/hptintf.h 228940 2011-12-28 23:26:58Z delphij $ */ #include <dev/hpt27xx/hpt27xx_config.h> #ifndef HPT_INTF_H #define HPT_INTF_H #if defined(__BIG_ENDIAN__)&&!defined(__BIG_ENDIAN_BITFIELD) #define __BIG_ENDIAN_BITFIELD #endif #ifdef __cplusplus extern "C" { #endif #ifndef __GNUC__ #define __attribute__(x) #endif #pragma pack(1) /* * Version of this interface. * The user mode application must first issue a hpt_get_version() call to * check HPT_INTERFACE_VERSION. When an utility using newer version interface * is used with old version drivers, it must call only the functions that * driver supported. * A new version interface should only add ioctl functions; it should implement * all old version functions without change their definition. */ #define __this_HPT_INTERFACE_VERSION 0x02010000 #ifndef HPT_INTERFACE_VERSION #error "You must define HPT_INTERFACE_VERSION you implemented" #endif #if HPT_INTERFACE_VERSION > __this_HPT_INTERFACE_VERSION #error "HPT_INTERFACE_VERSION is invalid" #endif /* * DEFINITION * Logical device --- a device that can be accessed by OS. * Physical device --- device attached to the controller. * A logical device can be simply a physical device. * * Each logical and physical device has a 32bit ID. GUI will use this ID * to identify devices. * 1. The ID must be unique. * 2. The ID must be immutable. Once an ID is assigned to a device, it * must not change when system is running and the device exists. * 3. The ID of logical device must be NOT reusable. If a device is * removed, other newly created logical device must not use the same ID. * 4. The ID must not be zero or 0xFFFFFFFF. */ typedef HPT_U32 DEVICEID; /* * logical device type. * Identify array (logical device) and physical device. */ #define LDT_ARRAY 1 #define LDT_DEVICE 2 /* * Array types * GUI will treat all array as 1-level RAID. No RAID0/1 or RAID1/0. * A RAID0/1 device is type AT_RAID1. A RAID1/0 device is type AT_RAID0. * Their members may be another array of type RAID0 or RAID1. */ #define AT_UNKNOWN 0 #define AT_RAID0 1 #define AT_RAID1 2 #define AT_RAID5 3 #define AT_RAID6 4 #define AT_RAID3 5 #define AT_RAID4 6 #define AT_JBOD 7 #define AT_RAID1E 8 /* * physical device type */ #define PDT_UNKNOWN 0 #define PDT_HARDDISK 1 #define PDT_CDROM 2 #define PDT_TAPE 3 /* * Some constants. */ #define MAX_NAME_LENGTH 36 #define MAX_ARRAYNAME_LEN 16 #define MAX_ARRAY_MEMBERS_V1 8 #ifndef MAX_ARRAY_MEMBERS_V2 #define MAX_ARRAY_MEMBERS_V2 16 #endif #ifndef MAX_ARRAY_MEMBERS_V3 #define MAX_ARRAY_MEMBERS_V3 64 #endif /* keep definition for source code compatiblity */ #define MAX_ARRAY_MEMBERS MAX_ARRAY_MEMBERS_V1 /* * io commands * GUI use these commands to do IO on logical/physical devices. */ #define IO_COMMAND_READ 1 #define IO_COMMAND_WRITE 2 /* * array flags */ #define ARRAY_FLAG_DISABLED 0x00000001 /* The array is disabled */ #define ARRAY_FLAG_NEEDBUILDING 0x00000002 /* array data need to be rebuilt */ #define ARRAY_FLAG_REBUILDING 0x00000004 /* array is in rebuilding process */ #define ARRAY_FLAG_BROKEN 0x00000008 /* broken but may still working */ #define ARRAY_FLAG_BOOTDISK 0x00000010 /* array has a active partition */ #define ARRAY_FLAG_BOOTMARK 0x00000040 /* array has boot mark set */ #define ARRAY_FLAG_NEED_AUTOREBUILD 0x00000080 /* auto-rebuild should start */ #define ARRAY_FLAG_VERIFYING 0x00000100 /* is being verified */ #define ARRAY_FLAG_INITIALIZING 0x00000200 /* is being initialized */ #define ARRAY_FLAG_TRANSFORMING 0x00000400 /* tranform in progress */ #define ARRAY_FLAG_NEEDTRANSFORM 0x00000800 /* array need tranform */ #define ARRAY_FLAG_NEEDINITIALIZING 0x00001000 /* the array's initialization hasn't finished*/ #define ARRAY_FLAG_BROKEN_REDUNDANT 0x00002000 /* broken but redundant (raid6) */ #define ARRAY_FLAG_RAID15PLUS 0x80000000 /* display this RAID 1 as RAID 1.5 */ /* * device flags */ #define DEVICE_FLAG_DISABLED 0x00000001 /* device is disabled */ #define DEVICE_FLAG_BOOTDISK 0x00000002 /* disk has a active partition */ #define DEVICE_FLAG_BOOTMARK 0x00000004 /* disk has boot mark set */ #define DEVICE_FLAG_WITH_601 0x00000008 /* has HPT601 connected */ #define DEVICE_FLAG_SATA 0x00000010 /* SATA or SAS device */ #define DEVICE_FLAG_ON_PM_PORT 0x00000020 /* PM port */ #define DEVICE_FLAG_SAS 0x00000040 /* SAS device */ #define DEVICE_FLAG_IN_ENCLOSURE 0x00000080 /* PathId is enclosure# */ #define DEVICE_FLAG_UNINITIALIZED 0x00010000 /* device is not initialized, can't be used to create array */ #define DEVICE_FLAG_LEGACY 0x00020000 /* single disk & mbr contains at least one partition */ #define DEVICE_FLAG_IS_SPARE 0x80000000 /* is a spare disk */ /* * array states used by hpt_set_array_state() */ /* old defines */ #define MIRROR_REBUILD_START 1 #define MIRROR_REBUILD_ABORT 2 #define MIRROR_REBUILD_COMPLETE 3 /* new defines */ #define AS_REBUILD_START 1 #define AS_REBUILD_ABORT 2 #define AS_REBUILD_PAUSE AS_REBUILD_ABORT #define AS_REBUILD_COMPLETE 3 #define AS_VERIFY_START 4 #define AS_VERIFY_ABORT 5 #define AS_VERIFY_COMPLETE 6 #define AS_INITIALIZE_START 7 #define AS_INITIALIZE_ABORT 8 #define AS_INITIALIZE_COMPLETE 9 #define AS_VERIFY_FAILED 10 #define AS_REBUILD_STOP 11 #define AS_SAVE_STATE 12 #define AS_TRANSFORM_START 13 #define AS_TRANSFORM_ABORT 14 /************************************************************************ * ioctl code * It would be better if ioctl code are the same on different platforms, * but we must not conflict with system defined ioctl code. ************************************************************************/ #if defined(LINUX) || defined(__FreeBSD_version) || defined(linux) #define HPT_CTL_CODE(x) (x+0xFF00) #define HPT_CTL_CODE_LINUX_TO_IOP(x) ((x)-0xff00) #elif defined(_MS_WIN32_) || defined(WIN32) #ifndef CTL_CODE #define CTL_CODE( DeviceType, Function, Method, Access ) \ (((DeviceType) << 16) | ((Access) << 14) | ((Function) << 2) | (Method)) #endif #define HPT_CTL_CODE(x) CTL_CODE(0x370, 0x900+(x), 0, 0) #define HPT_CTL_CODE_WIN32_TO_IOP(x) ((((x) & 0xffff)>>2)-0x900) #else #define HPT_CTL_CODE(x) (x) #endif #define HPT_IOCTL_GET_VERSION HPT_CTL_CODE(0) #define HPT_IOCTL_GET_CONTROLLER_COUNT HPT_CTL_CODE(1) #define HPT_IOCTL_GET_CONTROLLER_INFO HPT_CTL_CODE(2) #define HPT_IOCTL_GET_CHANNEL_INFO HPT_CTL_CODE(3) #define HPT_IOCTL_GET_LOGICAL_DEVICES HPT_CTL_CODE(4) #define HPT_IOCTL_GET_DEVICE_INFO HPT_CTL_CODE(5) #define HPT_IOCTL_CREATE_ARRAY HPT_CTL_CODE(6) #define HPT_IOCTL_DELETE_ARRAY HPT_CTL_CODE(7) #define HPT_IOCTL_ARRAY_IO HPT_CTL_CODE(8) #define HPT_IOCTL_DEVICE_IO HPT_CTL_CODE(9) #define HPT_IOCTL_GET_EVENT HPT_CTL_CODE(10) #define HPT_IOCTL_REBUILD_MIRROR HPT_CTL_CODE(11) /* use HPT_IOCTL_REBUILD_DATA_BLOCK from now on */ #define HPT_IOCTL_REBUILD_DATA_BLOCK HPT_IOCTL_REBUILD_MIRROR #define HPT_IOCTL_ADD_SPARE_DISK HPT_CTL_CODE(12) #define HPT_IOCTL_REMOVE_SPARE_DISK HPT_CTL_CODE(13) #define HPT_IOCTL_ADD_DISK_TO_ARRAY HPT_CTL_CODE(14) #define HPT_IOCTL_SET_ARRAY_STATE HPT_CTL_CODE(15) #define HPT_IOCTL_SET_ARRAY_INFO HPT_CTL_CODE(16) #define HPT_IOCTL_SET_DEVICE_INFO HPT_CTL_CODE(17) #define HPT_IOCTL_RESCAN_DEVICES HPT_CTL_CODE(18) #define HPT_IOCTL_GET_DRIVER_CAPABILITIES HPT_CTL_CODE(19) #define HPT_IOCTL_GET_601_INFO HPT_CTL_CODE(20) #define HPT_IOCTL_SET_601_INFO HPT_CTL_CODE(21) #define HPT_IOCTL_LOCK_DEVICE HPT_CTL_CODE(22) #define HPT_IOCTL_UNLOCK_DEVICE HPT_CTL_CODE(23) #define HPT_IOCTL_IDE_PASS_THROUGH HPT_CTL_CODE(24) #define HPT_IOCTL_VERIFY_DATA_BLOCK HPT_CTL_CODE(25) #define HPT_IOCTL_INITIALIZE_DATA_BLOCK HPT_CTL_CODE(26) #define HPT_IOCTL_ADD_DEDICATED_SPARE HPT_CTL_CODE(27) #define HPT_IOCTL_DEVICE_IO_EX HPT_CTL_CODE(28) #define HPT_IOCTL_SET_BOOT_MARK HPT_CTL_CODE(29) #define HPT_IOCTL_QUERY_REMOVE HPT_CTL_CODE(30) #define HPT_IOCTL_REMOVE_DEVICES HPT_CTL_CODE(31) #define HPT_IOCTL_CREATE_ARRAY_V2 HPT_CTL_CODE(32) #define HPT_IOCTL_GET_DEVICE_INFO_V2 HPT_CTL_CODE(33) #define HPT_IOCTL_SET_DEVICE_INFO_V2 HPT_CTL_CODE(34) #define HPT_IOCTL_REBUILD_DATA_BLOCK_V2 HPT_CTL_CODE(35) #define HPT_IOCTL_VERIFY_DATA_BLOCK_V2 HPT_CTL_CODE(36) #define HPT_IOCTL_INITIALIZE_DATA_BLOCK_V2 HPT_CTL_CODE(37) #define HPT_IOCTL_LOCK_DEVICE_V2 HPT_CTL_CODE(38) #define HPT_IOCTL_DEVICE_IO_V2 HPT_CTL_CODE(39) #define HPT_IOCTL_DEVICE_IO_EX_V2 HPT_CTL_CODE(40) #define HPT_IOCTL_CREATE_TRANSFORM HPT_CTL_CODE(41) #define HPT_IOCTL_STEP_TRANSFORM HPT_CTL_CODE(42) #define HPT_IOCTL_SET_VDEV_INFO HPT_CTL_CODE(43) #define HPT_IOCTL_CALC_MAX_CAPACITY HPT_CTL_CODE(44) #define HPT_IOCTL_INIT_DISKS HPT_CTL_CODE(45) #define HPT_IOCTL_GET_DEVICE_INFO_V3 HPT_CTL_CODE(46) #define HPT_IOCTL_GET_CONTROLLER_INFO_V2 HPT_CTL_CODE(47) #define HPT_IOCTL_I2C_TRANSACTION HPT_CTL_CODE(48) #define HPT_IOCTL_GET_PARAMETER_LIST HPT_CTL_CODE(49) #define HPT_IOCTL_GET_PARAMETER HPT_CTL_CODE(50) #define HPT_IOCTL_SET_PARAMETER HPT_CTL_CODE(51) #define HPT_IOCTL_GET_DRIVER_CAPABILITIES_V2 HPT_CTL_CODE(52) #define HPT_IOCTL_GET_CHANNEL_INFO_V2 HPT_CTL_CODE(53) #define HPT_IOCTL_GET_CONTROLLER_INFO_V3 HPT_CTL_CODE(54) #define HPT_IOCTL_GET_DEVICE_INFO_V4 HPT_CTL_CODE(55) #define HPT_IOCTL_CREATE_ARRAY_V3 HPT_CTL_CODE(56) #define HPT_IOCTL_CREATE_TRANSFORM_V2 HPT_CTL_CODE(57) #define HPT_IOCTL_CALC_MAX_CAPACITY_V2 HPT_CTL_CODE(58) #define HPT_IOCTL_SCSI_PASSTHROUGH HPT_CTL_CODE(59) #define HPT_IOCTL_GET_PHYSICAL_DEVICES HPT_CTL_CODE(60) #define HPT_IOCTL_GET_ENCLOSURE_COUNT HPT_CTL_CODE(61) #define HPT_IOCTL_GET_ENCLOSURE_INFO HPT_CTL_CODE(62) #define HPT_IOCTL_GET_PERFMON_STATUS HPT_CTL_CODE(63) #define HPT_IOCTL_SET_PERFMON_STATUS HPT_CTL_CODE(64) #define HPT_IOCTL_GET_PERFMON_DATA HPT_CTL_CODE(65) #define HPT_IOCTL_IDE_PASS_THROUGH_V2 HPT_CTL_CODE(66) #define HPT_IOCTL_GET_ENCLOSURE_INFO_V2 HPT_CTL_CODE(67) #define HPT_IOCTL_GET_ENCLOSURE_INFO_V3 HPT_CTL_CODE(68) #define HPT_IOCTL_GET_CONTROLLER_IDS HPT_CTL_CODE(100) #define HPT_IOCTL_GET_DCB HPT_CTL_CODE(101) #define HPT_IOCTL_EPROM_IO HPT_CTL_CODE(102) #define HPT_IOCTL_GET_CONTROLLER_VENID HPT_CTL_CODE(103) /************************************************************************ * shared data structures ************************************************************************/ /* * Chip Type */ #define CHIP_TYPE_HPT366 1 #define CHIP_TYPE_HPT368 2 #define CHIP_TYPE_HPT370 3 #define CHIP_TYPE_HPT370A 4 #define CHIP_TYPE_HPT370B 5 #define CHIP_TYPE_HPT374 6 #define CHIP_TYPE_HPT372 7 #define CHIP_TYPE_HPT372A 8 #define CHIP_TYPE_HPT302 9 #define CHIP_TYPE_HPT371 10 #define CHIP_TYPE_HPT372N 11 #define CHIP_TYPE_HPT302N 12 #define CHIP_TYPE_HPT371N 13 #define CHIP_TYPE_SI3112A 14 #define CHIP_TYPE_ICH5 15 #define CHIP_TYPE_ICH5R 16 #define CHIP_TYPE_MV50XX 20 #define CHIP_TYPE_MV60X1 21 #define CHIP_TYPE_MV60X2 22 #define CHIP_TYPE_MV70X2 23 #define CHIP_TYPE_MV5182 24 #define CHIP_TYPE_IOP331 31 #define CHIP_TYPE_IOP333 32 #define CHIP_TYPE_IOP341 33 #define CHIP_TYPE_IOP348 34 /* * Chip Flags */ #define CHIP_SUPPORT_ULTRA_66 0x20 #define CHIP_SUPPORT_ULTRA_100 0x40 #define CHIP_HPT3XX_DPLL_MODE 0x80 #define CHIP_SUPPORT_ULTRA_133 0x01 #define CHIP_SUPPORT_ULTRA_150 0x02 #define CHIP_MASTER 0x04 #define CHIP_SUPPORT_SATA_300 0x08 #define HPT_SPIN_UP_MODE_NOSUPPORT 0 #define HPT_SPIN_UP_MODE_FULL 1 #define HPT_SPIN_UP_MODE_STANDBY 2 typedef struct _DRIVER_CAPABILITIES { HPT_U32 dwSize; HPT_U8 MaximumControllers; /* maximum controllers the driver can support */ HPT_U8 SupportCrossControllerRAID; /* 1-support, 0-not support */ HPT_U8 MinimumBlockSizeShift; /* minimum block size shift */ HPT_U8 MaximumBlockSizeShift; /* maximum block size shift */ HPT_U8 SupportDiskModeSetting; HPT_U8 SupportSparePool; HPT_U8 MaximumArrayNameLength; /* only one HPT_U8 left here! */ #ifdef __BIG_ENDIAN_BITFIELD HPT_U8 reserved: 2; HPT_U8 SupportPerformanceMonitor: 1; HPT_U8 SupportVariableSectorSize: 1; HPT_U8 SupportHotSwap: 1; HPT_U8 HighPerformanceRAID1: 1; HPT_U8 RebuildProcessInDriver: 1; HPT_U8 SupportDedicatedSpare: 1; #else HPT_U8 SupportDedicatedSpare: 1; /* call hpt_add_dedicated_spare() for dedicated spare. */ HPT_U8 RebuildProcessInDriver: 1; /* Windows only. used by mid layer for rebuild control. */ HPT_U8 HighPerformanceRAID1: 1; HPT_U8 SupportHotSwap: 1; HPT_U8 SupportVariableSectorSize: 1; HPT_U8 SupportPerformanceMonitor: 1; HPT_U8 reserved: 2; #endif HPT_U8 SupportedRAIDTypes[16]; /* maximum members in an array corresponding to SupportedRAIDTypes */ HPT_U8 MaximumArrayMembers[16]; } DRIVER_CAPABILITIES, *PDRIVER_CAPABILITIES; typedef struct _DRIVER_CAPABILITIES_V2 { DRIVER_CAPABILITIES v1; HPT_U8 SupportedCachePolicies[16]; HPT_U32 reserved[17]; } DRIVER_CAPABILITIES_V2, *PDRIVER_CAPABILITIES_V2; /* * Controller information. */ typedef struct _CONTROLLER_INFO { HPT_U8 ChipType; /* chip type */ HPT_U8 InterruptLevel; /* IRQ level */ HPT_U8 NumBuses; /* bus count */ HPT_U8 ChipFlags; HPT_U8 szProductID[MAX_NAME_LENGTH];/* product name */ HPT_U8 szVendorID[MAX_NAME_LENGTH]; /* vender name */ } CONTROLLER_INFO, *PCONTROLLER_INFO; #if HPT_INTERFACE_VERSION>=0x01020000 typedef struct _CONTROLLER_INFO_V2 { HPT_U8 ChipType; /* chip type */ HPT_U8 InterruptLevel; /* IRQ level */ HPT_U8 NumBuses; /* bus count */ HPT_U8 ChipFlags; HPT_U8 szProductID[MAX_NAME_LENGTH];/* product name */ HPT_U8 szVendorID[MAX_NAME_LENGTH]; /* vender name */ HPT_U32 GroupId; /* low 32bit of vbus pointer the controller belongs * the master controller has CHIP_MASTER flag set*/ HPT_U8 pci_tree; HPT_U8 pci_bus; HPT_U8 pci_device; HPT_U8 pci_function; HPT_U32 ExFlags; } CONTROLLER_INFO_V2, *PCONTROLLER_INFO_V2; #define CEXF_IOPModel 1 #define CEXF_SDRAMSize 2 #define CEXF_BatteryInstalled 4 #define CEXF_BatteryStatus 8 #define CEXF_BatteryVoltage 0x10 #define CEXF_BatteryBackupTime 0x20 #define CEXF_FirmwareVersion 0x40 #define CEXF_SerialNumber 0x80 #define CEXF_BatteryTemperature 0x100 #define CEXF_Power12v 0x200 #define CEXF_Power5v 0x400 #define CEXF_Power3p3v 0x800 #define CEXF_Power2p5v 0x1000 #define CEXF_Power1p8v 0x2000 #define CEXF_Core1p8v 0x4000 #define CEXF_Core1p2v 0x8000 #define CEXF_DDR1p8v 0x10000 #define CEXF_DDR1p8vRef 0x20000 #define CEXF_CPUTemperature 0x40000 #define CEXF_BoardTemperature 0x80000 #define CEXF_FanSpeed 0x100000 #define CEXF_Core1p0v 0x200000 #define CEXF_Fan2Speed 0x400000 typedef struct _CONTROLLER_INFO_V3 { HPT_U8 ChipType; HPT_U8 InterruptLevel; HPT_U8 NumBuses; HPT_U8 ChipFlags; HPT_U8 szProductID[MAX_NAME_LENGTH]; HPT_U8 szVendorID[MAX_NAME_LENGTH]; HPT_U32 GroupId; HPT_U8 pci_tree; HPT_U8 pci_bus; HPT_U8 pci_device; HPT_U8 pci_function; HPT_U32 ExFlags; HPT_U8 IOPModel[32]; HPT_U32 SDRAMSize; HPT_U8 BatteryInstalled; HPT_U8 BatteryStatus; HPT_U16 BatteryVoltage; HPT_U32 BatteryBackupTime; HPT_U32 FirmwareVersion; HPT_U8 SerialNumber[32]; HPT_U8 BatteryMBInstalled; HPT_U8 BatteryTemperature; signed char CPUTemperature; signed char BoardTemperature; HPT_U16 FanSpeed; HPT_U16 Power12v; HPT_U16 Power5v; HPT_U16 Power3p3v; HPT_U16 Power2p5v; HPT_U16 Power1p8v; HPT_U16 Core1p8v; HPT_U16 Core1p2v; HPT_U16 DDR1p8v; HPT_U16 DDR1p8vRef; HPT_U16 Core1p0v; HPT_U16 Fan2Speed; HPT_U8 reserve[60]; } CONTROLLER_INFO_V3, *PCONTROLLER_INFO_V3; typedef char check_CONTROLLER_INFO_V3[sizeof(CONTROLLER_INFO_V3)==256? 1:-1]; #endif /* * Channel information. */ typedef struct _CHANNEL_INFO { HPT_U32 IoPort; /* IDE Base Port Address */ HPT_U32 ControlPort; /* IDE Control Port Address */ DEVICEID Devices[2]; /* device connected to this channel */ } CHANNEL_INFO, *PCHANNEL_INFO; typedef struct _CHANNEL_INFO_V2 { HPT_U32 IoPort; /* IDE Base Port Address */ HPT_U32 ControlPort; /* IDE Control Port Address */ DEVICEID Devices[2+13]; /* device connected to this channel, PMPort max=15 */ } CHANNEL_INFO_V2, *PCHANNEL_INFO_V2; typedef struct _ENCLOSURE_INFO { HPT_U8 EnclosureType; HPT_U8 NumberOfPhys; HPT_U8 AttachedTo; HPT_U8 Status; HPT_U8 VendorId[8]; HPT_U8 ProductId[16]; HPT_U8 ProductRevisionLevel[4]; HPT_U32 PortPhyMap; HPT_U32 reserve[55]; } ENCLOSURE_INFO, *PENCLOSURE_INFO; typedef struct _SES_ELEMENT_STATUS { HPT_U8 ElementType; HPT_U8 ElementOverallIndex; HPT_U8 ElementStatus; HPT_U8 Reserved; HPT_U32 ElementValue; HPT_U8 ElementDescriptor[32]; }SES_ELEMENT_STATUS,*PSES_ELEMENT_STATUS; #define MAX_ELEMENT_COUNT 80 /* Element Type */ #define SES_TYPE_UNSPECIFIED 0x00 #define SES_TYPE_DEVICE 0x01 #define SES_TYPE_POWER_SUPPLY 0x02 #define SES_TYPE_FAN 0x03 #define SES_TYPE_TEMPERATURE_SENSOR 0x04 #define SES_TYPE_DOOR_LOCK 0x05 #define SES_TYPE_SPEAKER 0x06 #define SES_TYPE_ES_CONTROLLER 0x07 #define SES_TYPE_SCC_CONTROLLER 0x08 #define SES_TYPE_NONVOLATILE_CACHE 0x09 #define SES_TYPE_UPS 0x0B #define SES_TYPE_DISPLAY 0x0C #define SES_TYPE_KEYPAD 0x0D #define SES_TYPE_ENCLOSURE 0x0E #define SES_TYPE_SCSI_TRANSCEIVER 0x0F #define SES_TYPE_LANGUAGE 0x10 #define SES_TYPE_COMM_PORT 0x11 #define SES_TYPE_VOLTAGE_SENSOR 0x12 #define SES_TYPE_CURRENT_SENSOR 0x13 #define SES_TYPE_SCSI_TARGET_PORT 0x14 #define SES_TYPE_SCSI_INITIATOR_PORT 0x15 #define SES_TYPE_SIMPLE_SUBENCLOSURE 0x16 #define SES_TYPE_ARRAY_DEVICE 0x17 #define SES_TYPE_VENDOR_SPECIFIC 0x80 /* Element Status */ #define SES_STATUS_UNSUPPORTED 0x00 #define SES_STATUS_OK 0x01 #define SES_STATUS_CRITICAL 0x02 #define SES_STATUS_NONCRITICAL 0x03 #define SES_STATUS_UNRECOVERABLE 0x04 #define SES_STATUS_NOTINSTALLED 0x05 #define SES_STATUS_UNKNOWN 0x06 #define SES_STATUS_NOTAVAILABLE 0x06 #define SES_STATUS_RESERVED 0x07 typedef struct _ENCLOSURE_INFO_V2 { HPT_U8 EnclosureType; HPT_U8 NumberOfPhys; HPT_U8 AttachedTo; HPT_U8 Status; HPT_U8 VendorId[8]; HPT_U8 ProductId[16]; HPT_U8 ProductRevisionLevel[4]; HPT_U32 PortPhyMap; SES_ELEMENT_STATUS ElementStatus[MAX_ELEMENT_COUNT]; } ENCLOSURE_INFO_V2, *PENCLOSURE_INFO_V2; typedef struct _ENCLOSURE_INFO_V3 { HPT_U8 EnclosureType; HPT_U8 NumberOfPhys; HPT_U8 AttachedTo; HPT_U8 Status; HPT_U8 VendorId[8]; HPT_U8 ProductId[16]; HPT_U8 ProductRevisionLevel[4]; HPT_U32 PortPhyMap; HPT_U32 UnitId; /*272x card has two Cores, unitId is used to distinguish them */ HPT_U32 reserved[32]; SES_ELEMENT_STATUS ElementStatus[MAX_ELEMENT_COUNT]; } ENCLOSURE_INFO_V3, *PENCLOSURE_INFO_V3; #define ENCLOSURE_STATUS_OFFLINE 1 #define ENCLOSURE_TYPE_INTERNAL 0 #define ENCLOSURE_TYPE_SMP 1 #define ENCLOSURE_TYPE_PM 2 #ifndef __KERNEL__ /* * time represented in HPT_U32 format */ typedef struct _TIME_RECORD { HPT_U32 seconds:6; /* 0 - 59 */ HPT_U32 minutes:6; /* 0 - 59 */ HPT_U32 month:4; /* 1 - 12 */ HPT_U32 hours:6; /* 0 - 59 */ HPT_U32 day:5; /* 1 - 31 */ HPT_U32 year:5; /* 0=2000, 31=2031 */ } TIME_RECORD; #endif /* * Array information. */ typedef struct _HPT_ARRAY_INFO { HPT_U8 Name[MAX_ARRAYNAME_LEN];/* array name */ HPT_U8 Description[64]; /* array description */ HPT_U8 CreateManager[16]; /* who created it */ TIME_RECORD CreateTime; /* when created it */ HPT_U8 ArrayType; /* array type */ HPT_U8 BlockSizeShift; /* stripe size */ HPT_U8 nDisk; /* member count: Number of ID in Members[] */ HPT_U8 SubArrayType; HPT_U32 Flags; /* working flags, see ARRAY_FLAG_XXX */ HPT_U32 Members[MAX_ARRAY_MEMBERS_V1]; /* member array/disks */ /* * rebuilding progress, xx.xx% = sprintf(s, "%.2f%%", RebuildingProgress/100.0); * only valid if rebuilding is done by driver code. * Member Flags will have ARRAY_FLAG_REBUILDING set at this case. * Verify operation use same fields below, the only difference is * ARRAY_FLAG_VERIFYING is set. */ HPT_U32 RebuildingProgress; HPT_U32 RebuiltSectors; /* rebuilding point (LBA) for single member */ } HPT_ARRAY_INFO, *PHPT_ARRAY_INFO; #if HPT_INTERFACE_VERSION>=0x01010000 typedef struct _HPT_ARRAY_INFO_V2 { HPT_U8 Name[MAX_ARRAYNAME_LEN];/* array name */ HPT_U8 Description[64]; /* array description */ HPT_U8 CreateManager[16]; /* who created it */ TIME_RECORD CreateTime; /* when created it */ HPT_U8 ArrayType; /* array type */ HPT_U8 BlockSizeShift; /* stripe size */ HPT_U8 nDisk; /* member count: Number of ID in Members[] */ HPT_U8 SubArrayType; HPT_U32 Flags; /* working flags, see ARRAY_FLAG_XXX */ HPT_U32 Members[MAX_ARRAY_MEMBERS_V2]; /* member array/disks */ HPT_U32 RebuildingProgress; HPT_U64 RebuiltSectors; /* rebuilding point (LBA) for single member */ HPT_U32 reserve4[4]; } HPT_ARRAY_INFO_V2, *PHPT_ARRAY_INFO_V2; #endif #if HPT_INTERFACE_VERSION>=0x01020000 typedef struct _HPT_ARRAY_INFO_V3 { HPT_U8 Name[MAX_ARRAYNAME_LEN];/* array name */ HPT_U8 Description[64]; /* array description */ HPT_U8 CreateManager[16]; /* who created it */ TIME_RECORD CreateTime; /* when created it */ HPT_U8 ArrayType; /* array type */ HPT_U8 BlockSizeShift; /* stripe size */ HPT_U8 nDisk; /* member count: Number of ID in Members[] */ HPT_U8 SubArrayType; HPT_U32 Flags; /* working flags, see ARRAY_FLAG_XXX */ HPT_U32 Members[MAX_ARRAY_MEMBERS_V2]; /* member array/disks */ HPT_U32 RebuildingProgress; HPT_U64 RebuiltSectors; /* rebuilding point (LBA) for single member */ DEVICEID TransformSource; DEVICEID TransformTarget; /* destination device ID */ HPT_U32 TransformingProgress; HPT_U32 Signature; /* persistent identification*/ #if MAX_ARRAY_MEMBERS_V2==16 HPT_U16 Critical_Members; /* bit mask of critical members */ HPT_U16 reserve2; HPT_U32 reserve; #else HPT_U32 Critical_Members; HPT_U32 reserve; #endif } HPT_ARRAY_INFO_V3, *PHPT_ARRAY_INFO_V3; #endif #if HPT_INTERFACE_VERSION>=0x02000001 typedef struct _HPT_ARRAY_INFO_V4 { HPT_U8 Name[MAX_ARRAYNAME_LEN];/* array name */ HPT_U8 Description[64]; /* array description */ HPT_U8 CreateManager[16]; /* who created it */ TIME_RECORD CreateTime; /* when created it */ HPT_U8 ArrayType; /* array type */ HPT_U8 BlockSizeShift; /* stripe size */ HPT_U8 nDisk; /* member count: Number of ID in Members[] */ HPT_U8 SubArrayType; HPT_U32 Flags; /* working flags, see ARRAY_FLAG_XXX */ HPT_U32 RebuildingProgress; HPT_U64 RebuiltSectors; /* rebuilding point (LBA) for single member */ DEVICEID TransformSource; DEVICEID TransformTarget; /* destination device ID */ HPT_U32 TransformingProgress; HPT_U32 Signature; /* persistent identification*/ HPT_U8 SectorSizeShift; /*sector size = 512B<<SectorSizeShift*/ HPT_U8 reserved2[7]; HPT_U64 Critical_Members; HPT_U32 Members[MAX_ARRAY_MEMBERS_V3]; /* member array/disks */ } HPT_ARRAY_INFO_V4, *PHPT_ARRAY_INFO_V4; #endif /* * ATA/ATAPI Device identify data without the Reserved4. */ typedef struct _IDENTIFY_DATA2 { HPT_U16 GeneralConfiguration; HPT_U16 NumberOfCylinders; HPT_U16 Reserved1; HPT_U16 NumberOfHeads; HPT_U16 UnformattedBytesPerTrack; HPT_U16 UnformattedBytesPerSector; HPT_U8 SasAddress[8]; HPT_U16 SerialNumber[10]; HPT_U16 BufferType; HPT_U16 BufferSectorSize; HPT_U16 NumberOfEccBytes; HPT_U16 FirmwareRevision[4]; HPT_U16 ModelNumber[20]; HPT_U8 MaximumBlockTransfer; HPT_U8 VendorUnique2; HPT_U16 DoubleWordIo; HPT_U16 Capabilities; HPT_U16 Reserved2; HPT_U8 VendorUnique3; HPT_U8 PioCycleTimingMode; HPT_U8 VendorUnique4; HPT_U8 DmaCycleTimingMode; HPT_U16 TranslationFieldsValid; HPT_U16 NumberOfCurrentCylinders; HPT_U16 NumberOfCurrentHeads; HPT_U16 CurrentSectorsPerTrack; HPT_U32 CurrentSectorCapacity; HPT_U16 CurrentMultiSectorSetting; HPT_U32 UserAddressableSectors; HPT_U8 SingleWordDMASupport; HPT_U8 SingleWordDMAActive; HPT_U8 MultiWordDMASupport; HPT_U8 MultiWordDMAActive; HPT_U8 AdvancedPIOModes; HPT_U8 Reserved4; HPT_U16 MinimumMWXferCycleTime; HPT_U16 RecommendedMWXferCycleTime; HPT_U16 MinimumPIOCycleTime; HPT_U16 MinimumPIOCycleTimeIORDY; HPT_U16 Reserved5[2]; HPT_U16 ReleaseTimeOverlapped; HPT_U16 ReleaseTimeServiceCommand; HPT_U16 MajorRevision; HPT_U16 MinorRevision; } __attribute__((packed)) IDENTIFY_DATA2, *PIDENTIFY_DATA2; /* * physical device information. * IdentifyData.ModelNumber[] is HPT_U8-swapped from the original identify data. */ typedef struct _DEVICE_INFO { HPT_U8 ControllerId; /* controller id */ HPT_U8 PathId; /* bus */ HPT_U8 TargetId; /* id */ HPT_U8 DeviceModeSetting; /* Current Data Transfer mode: 0-4 PIO 0-4 */ /* 5-7 MW DMA0-2, 8-13 UDMA0-5 */ HPT_U8 DeviceType; /* device type */ HPT_U8 UsableMode; /* highest usable mode */ #ifdef __BIG_ENDIAN_BITFIELD HPT_U8 NCQEnabled: 1; HPT_U8 NCQSupported: 1; HPT_U8 TCQEnabled: 1; HPT_U8 TCQSupported: 1; HPT_U8 WriteCacheEnabled: 1; HPT_U8 WriteCacheSupported: 1; HPT_U8 ReadAheadEnabled: 1; HPT_U8 ReadAheadSupported: 1; HPT_U8 reserved6: 6; HPT_U8 SpinUpMode: 2; #else HPT_U8 ReadAheadSupported: 1; HPT_U8 ReadAheadEnabled: 1; HPT_U8 WriteCacheSupported: 1; HPT_U8 WriteCacheEnabled: 1; HPT_U8 TCQSupported: 1; HPT_U8 TCQEnabled: 1; HPT_U8 NCQSupported: 1; HPT_U8 NCQEnabled: 1; HPT_U8 SpinUpMode: 2; HPT_U8 reserved6: 6; #endif HPT_U32 Flags; /* working flags, see DEVICE_FLAG_XXX */ IDENTIFY_DATA2 IdentifyData; /* Identify Data of this device */ } __attribute__((packed)) DEVICE_INFO, *PDEVICE_INFO; #if HPT_INTERFACE_VERSION>=0x01020000 #define MAX_PARENTS_PER_DISK 8 /* * physical device information. * IdentifyData.ModelNumber[] is HPT_U8-swapped from the original identify data. */ typedef struct _DEVICE_INFO_V2 { HPT_U8 ControllerId; /* controller id */ HPT_U8 PathId; /* bus */ HPT_U8 TargetId; /* id */ HPT_U8 DeviceModeSetting; /* Current Data Transfer mode: 0-4 PIO 0-4 */ /* 5-7 MW DMA0-2, 8-13 UDMA0-5 */ HPT_U8 DeviceType; /* device type */ HPT_U8 UsableMode; /* highest usable mode */ #ifdef __BIG_ENDIAN_BITFIELD HPT_U8 NCQEnabled: 1; HPT_U8 NCQSupported: 1; HPT_U8 TCQEnabled: 1; HPT_U8 TCQSupported: 1; HPT_U8 WriteCacheEnabled: 1; HPT_U8 WriteCacheSupported: 1; HPT_U8 ReadAheadEnabled: 1; HPT_U8 ReadAheadSupported: 1; HPT_U8 reserved6: 6; HPT_U8 SpinUpMode: 2; #else HPT_U8 ReadAheadSupported: 1; HPT_U8 ReadAheadEnabled: 1; HPT_U8 WriteCacheSupported: 1; HPT_U8 WriteCacheEnabled: 1; HPT_U8 TCQSupported: 1; HPT_U8 TCQEnabled: 1; HPT_U8 NCQSupported: 1; HPT_U8 NCQEnabled: 1; HPT_U8 SpinUpMode: 2; HPT_U8 reserved6: 6; #endif HPT_U32 Flags; /* working flags, see DEVICE_FLAG_XXX */ IDENTIFY_DATA2 IdentifyData; /* Identify Data of this device */ HPT_U64 TotalFree; HPT_U64 MaxFree; HPT_U64 BadSectors; DEVICEID ParentArrays[MAX_PARENTS_PER_DISK]; } __attribute__((packed)) DEVICE_INFO_V2, *PDEVICE_INFO_V2, DEVICE_INFO_V3, *PDEVICE_INFO_V3; /* * HPT601 information */ #endif /* * HPT601 information */ #define HPT601_INFO_DEVICEID 1 #define HPT601_INFO_TEMPERATURE 2 #define HPT601_INFO_FANSTATUS 4 #define HPT601_INFO_BEEPERCONTROL 8 #define HPT601_INFO_LED1CONTROL 0x10 #define HPT601_INFO_LED2CONTROL 0x20 #define HPT601_INFO_POWERSTATUS 0x40 typedef struct _HPT601_INFO_ { HPT_U16 ValidFields; /* mark valid fields below */ HPT_U16 DeviceId; /* 0x5A3E */ HPT_U16 Temperature; /* Read: temperature sensor value. Write: temperature limit */ HPT_U16 FanStatus; /* Fan status */ HPT_U16 BeeperControl; /* bit4: beeper control bit. bit0-3: frequency bits */ HPT_U16 LED1Control; /* bit4: twinkling control bit. bit0-3: frequency bits */ HPT_U16 LED2Control; /* bit4: twinkling control bit. bit0-3: frequency bits */ HPT_U16 PowerStatus; /* 1: has power 2: no power */ } HPT601_INFO, *PHPT601_INFO; #if HPT_INTERFACE_VERSION>=0x01010000 #ifndef __KERNEL__ /* cache policy for each vdev, copied from ldm.h */ #define CACHE_POLICY_NONE 0 #define CACHE_POLICY_WRITE_THROUGH 1 #define CACHE_POLICY_WRITE_BACK 2 #endif #endif /* * Logical device information. * Union of ArrayInfo and DeviceInfo. * Common properties will be put in logical device information. */ typedef struct _LOGICAL_DEVICE_INFO { HPT_U8 Type; /* LDT_ARRAY or LDT_DEVICE */ HPT_U8 reserved[3]; HPT_U32 Capacity; /* array capacity */ DEVICEID ParentArray; union { HPT_ARRAY_INFO array; DEVICE_INFO device; } __attribute__((packed)) u; } __attribute__((packed)) LOGICAL_DEVICE_INFO, *PLOGICAL_DEVICE_INFO; #if HPT_INTERFACE_VERSION>=0x01010000 typedef struct _LOGICAL_DEVICE_INFO_V2 { HPT_U8 Type; /* LDT_ARRAY or LDT_DEVICE */ HPT_U8 reserved[3]; HPT_U64 Capacity; /* array capacity */ DEVICEID ParentArray; /* for physical device, Please don't use this field. * use ParentArrays field in DEVICE_INFO_V2 */ union { HPT_ARRAY_INFO_V2 array; DEVICE_INFO device; } __attribute__((packed)) u; } __attribute__((packed)) LOGICAL_DEVICE_INFO_V2, *PLOGICAL_DEVICE_INFO_V2; #endif #if HPT_INTERFACE_VERSION>=0x01020000 #define INVALID_TARGET_ID 0xFF #define INVALID_BUS_ID 0xFF typedef struct _LOGICAL_DEVICE_INFO_V3 { HPT_U8 Type; /* LDT_ARRAY or LDT_DEVICE */ HPT_U8 CachePolicy; /* refer to CACHE_POLICY_xxx */ HPT_U8 VBusId; /* vbus sequence in vbus_list */ HPT_U8 TargetId; /* OS target id. Value 0xFF is invalid */ /* OS disk name: HPT DISK $VBusId_$TargetId */ HPT_U64 Capacity; /* array capacity */ DEVICEID ParentArray; /* for physical device, don't use this field. * use ParentArrays field in DEVICE_INFO_V2 instead. */ HPT_U32 TotalIOs; HPT_U32 TobalMBs; HPT_U32 IOPerSec; HPT_U32 MBPerSec; union { HPT_ARRAY_INFO_V3 array; DEVICE_INFO_V2 device; } __attribute__((packed)) u; } __attribute__((packed)) LOGICAL_DEVICE_INFO_V3, *PLOGICAL_DEVICE_INFO_V3; #endif #if HPT_INTERFACE_VERSION>=0x02000001 typedef struct _LOGICAL_DEVICE_INFO_V4 { HPT_U32 dwSize; HPT_U8 revision; HPT_U8 reserved[7]; HPT_U8 Type; /* LDT_ARRAY or LDT_DEVICE */ HPT_U8 CachePolicy; /* refer to CACHE_POLICY_xxx */ HPT_U8 VBusId; /* vbus sequence in vbus_list */ HPT_U8 TargetId; /* OS target id. Value 0xFF is invalid */ /* OS disk name: HPT DISK $VBusId_$TargetId */ HPT_U64 Capacity; /* array capacity */ DEVICEID ParentArray; /* for physical device, don't use this field. * use ParentArrays field in DEVICE_INFO_V2 instead. */ HPT_U32 TotalIOs; HPT_U32 TobalMBs; HPT_U32 IOPerSec; HPT_U32 MBPerSec; union { HPT_ARRAY_INFO_V4 array; DEVICE_INFO_V3 device; } __attribute__((packed)) u; } __attribute__((packed)) LOGICAL_DEVICE_INFO_V4, *PLOGICAL_DEVICE_INFO_V4; /*LOGICAL_DEVICE_INFO_V4 max revision number*/ #define LOGICAL_DEVICE_INFO_V4_REVISION 0 /*If new revision was defined please check evey revision size*/ #define LOGICAL_DEVICE_INFO_V4_R0_SIZE (sizeof(LOGICAL_DEVICE_INFO_V4)) #endif /* * ALTERABLE_ARRAY_INFO and ALTERABLE_DEVICE_INFO, used in set_array_info() * and set_device_info(). * When set_xxx_info() is called, the ValidFields member indicates which * fields in the structure are valid. */ /* field masks */ #define AAIF_NAME 1 #define AAIF_DESCRIPTION 2 #define ADIF_MODE 1 #define ADIF_TCQ 2 #define ADIF_NCQ 4 #define ADIF_WRITE_CACHE 8 #define ADIF_READ_AHEAD 0x10 #define ADIF_SPIN_UP_MODE 0x20 typedef struct _ALTERABLE_ARRAY_INFO { HPT_U32 ValidFields; /* mark valid fields below */ HPT_U8 Name[MAX_ARRAYNAME_LEN]; /* array name */ HPT_U8 Description[64]; /* array description */ }__attribute__((packed))ALTERABLE_ARRAY_INFO, *PALTERABLE_ARRAY_INFO; typedef struct _ALTERABLE_DEVICE_INFO { HPT_U32 ValidFields; /* mark valid fields below */ HPT_U8 DeviceModeSetting; /* 0-4 PIO 0-4, 5-7 MW DMA0-2, 8-13 UDMA0-5 */ }__attribute__((packed))ALTERABLE_DEVICE_INFO, *PALTERABLE_DEVICE_INFO; typedef struct _ALTERABLE_DEVICE_INFO_V2 { HPT_U32 ValidFields; /* mark valid fields below */ HPT_U8 DeviceModeSetting; /* 0-4 PIO 0-4, 5-7 MW DMA0-2, 8-13 UDMA0-5 */ HPT_U8 TCQEnabled; HPT_U8 NCQEnabled; HPT_U8 WriteCacheEnabled; HPT_U8 ReadAheadEnabled; HPT_U8 SpinUpMode; HPT_U8 reserve[2]; HPT_U32 reserve2[13]; /* pad to 64 bytes */ }__attribute__((packed))ALTERABLE_DEVICE_INFO_V2, *PALTERABLE_DEVICE_INFO_V2; #if HPT_INTERFACE_VERSION>=0x01020000 #define TARGET_TYPE_DEVICE 0 #define TARGET_TYPE_ARRAY 1 #define AIT_NAME 0 #define AIT_DESCRIPTION 1 #define AIT_CACHE_POLICY 2 #define DIT_MODE 0 #define DIT_READ_AHEAD 1 #define DIT_WRITE_CACHE 2 #define DIT_TCQ 3 #define DIT_NCQ 4 #define DIT_IDENTIFY 5 /* param type is determined by target_type and info_type*/ typedef struct _SET_DEV_INFO { HPT_U8 target_type; HPT_U8 infor_type; HPT_U16 param_length; #define SET_VDEV_INFO_param(p) ((HPT_U8 *)(p)+sizeof(SET_VDEV_INFO)) /* HPT_U8 param[0]; */ } SET_VDEV_INFO, * PSET_VDEV_INFO; typedef HPT_U8 PARAM_ARRAY_NAME[MAX_ARRAYNAME_LEN] ; typedef HPT_U8 PARAM_ARRAY_DES[64]; typedef HPT_U8 PARAM_DEVICE_MODE, PARAM_TCQ, PARAM_NCQ, PARAM_READ_AHEAD, PARAM_WRITE_CACHE, PARAM_CACHE_POLICY; #endif /* * CREATE_ARRAY_PARAMS * Param structure used to create an array. */ typedef struct _CREATE_ARRAY_PARAMS { HPT_U8 ArrayType; /* 1-level array type */ HPT_U8 nDisk; /* number of elements in Members[] array */ HPT_U8 BlockSizeShift; /* Stripe size if ArrayType==AT_RAID0 / AT_RAID5 */ HPT_U8 CreateFlags; /* See CAF_xxx */ HPT_U8 ArrayName[MAX_ARRAYNAME_LEN];/* Array name */ HPT_U8 Description[64]; /* array description */ HPT_U8 CreateManager[16]; /* who created it */ TIME_RECORD CreateTime; /* when created it */ HPT_U32 Members[MAX_ARRAY_MEMBERS_V1];/* ID of array members, a member can be an array */ } CREATE_ARRAY_PARAMS, *PCREATE_ARRAY_PARAMS; #if HPT_INTERFACE_VERSION>=0x01010000 typedef struct _CREATE_ARRAY_PARAMS_V2 { HPT_U8 ArrayType; /* 1-level array type */ HPT_U8 nDisk; /* number of elements in Members[] array */ HPT_U8 BlockSizeShift; /* Stripe size if ArrayType==AT_RAID0 / AT_RAID5 */ HPT_U8 CreateFlags; /* See CAF_xxx */ HPT_U8 ArrayName[MAX_ARRAYNAME_LEN];/* Array name */ HPT_U8 Description[64]; /* array description */ HPT_U8 CreateManager[16]; /* who created it */ TIME_RECORD CreateTime; /* when created it */ HPT_U64 Capacity; HPT_U32 Members[MAX_ARRAY_MEMBERS_V2];/* ID of array members, a member can be an array */ } CREATE_ARRAY_PARAMS_V2, *PCREATE_ARRAY_PARAMS_V2; #endif #if HPT_INTERFACE_VERSION>=0x02000001 typedef struct _CREATE_ARRAY_PARAMS_V3 { HPT_U32 dwSize; HPT_U8 revision; /*CREATE_ARRAY_PARAMS_V3_REVISION*/ HPT_U8 reserved[5]; HPT_U8 subDisks; /* RAIDn0 sub array */ HPT_U8 SectorSizeShift; /*sector size = 512B<<SectorSizeShift*/ HPT_U8 ArrayType; /* 1-level array type */ HPT_U8 nDisk; /* number of elements in Members[] array */ HPT_U8 BlockSizeShift; /* Stripe size if ArrayType==AT_RAID0 / AT_RAID5 */ HPT_U8 CreateFlags; /* See CAF_xxx */ HPT_U8 ArrayName[MAX_ARRAYNAME_LEN];/* Array name */ HPT_U8 Description[64]; /* array description */ HPT_U8 CreateManager[16]; /* who created it */ TIME_RECORD CreateTime; /* when created it */ HPT_U64 Capacity; HPT_U32 Members[MAX_ARRAY_MEMBERS_V3];/* ID of array members, a member can be an array */ } CREATE_ARRAY_PARAMS_V3, *PCREATE_ARRAY_PARAMS_V3; /*CREATE_ARRAY_PARAMS_V3 current max revision*/ #define CREATE_ARRAY_PARAMS_V3_REVISION 0 /*If new revision defined please check evey revision size*/ #define CREATE_ARRAY_PARAMS_V3_R0_SIZE (sizeof(CREATE_ARRAY_PARAMS_V3)) #endif #if HPT_INTERFACE_VERSION < 0x01020000 /* * Flags used for creating an RAID 1 array * * CAF_CREATE_AND_DUPLICATE * Copy source disk contents to target for RAID 1. If user choose "create and duplicate" * to create an array, GUI will call CreateArray() with this flag set. Then GUI should * call hpt_get_device_info() with the returned array ID and check returned flags to * see if ARRAY_FLAG_REBUILDING is set. If not set, driver does not support rebuilding * and GUI must do duplication itself. * CAF_DUPLICATE_MUST_DONE * If the duplication is aborted or fails, do not create the array. */ #define CAF_CREATE_AND_DUPLICATE 1 #define CAF_DUPLICATE_MUST_DONE 2 #define CAF_CREATE_AS_RAID15 4 /* * Flags used for creating an RAID 5 array */ #define CAF_CREATE_R5_NO_BUILD 1 #define CAF_CREATE_R5_ZERO_INIT 2 #define CAF_CREATE_R5_BUILD_PARITY 4 #else /* * Flags used for creating */ #define CAF_FOREGROUND_INITIALIZE 1 #define CAF_BACKGROUND_INITIALIZE 2 #define CAF_CREATE_R5_WRITE_BACK (CACHE_POLICY_WRITE_BACK<<CAF_CACHE_POLICY_SHIFT) #define CAF_CACHE_POLICY_MASK 0x1C #define CAF_CACHE_POLICY_SHIFT 2 #endif #define CAF_KEEP_DATA_ALWAYS 0x80 /* Flags used for deleting an array * * DAF_KEEP_DATA_IF_POSSIBLE * If this flag is set, deleting a RAID 1 array will not destroy the data on both disks. * Deleting a JBOD should keep partitions on first disk ( not implement now ). * Deleting a RAID 0/1 should result as two RAID 0 array ( not implement now ). */ #define DAF_KEEP_DATA_IF_POSSIBLE 1 #define DAF_KEEP_DATA_ALWAYS 2 /* * event types */ #define ET_DEVICE_REMOVED 1 /* device removed */ #define ET_DEVICE_PLUGGED 2 /* device plugged */ #define ET_DEVICE_ERROR 3 /* device I/O error */ #define ET_REBUILD_STARTED 4 #define ET_REBUILD_ABORTED 5 #define ET_REBUILD_FINISHED 6 #define ET_SPARE_TOOK_OVER 7 #define ET_REBUILD_FAILED 8 #define ET_VERIFY_STARTED 9 #define ET_VERIFY_ABORTED 10 #define ET_VERIFY_FAILED 11 #define ET_VERIFY_FINISHED 12 #define ET_INITIALIZE_STARTED 13 #define ET_INITIALIZE_ABORTED 14 #define ET_INITIALIZE_FAILED 15 #define ET_INITIALIZE_FINISHED 16 #define ET_VERIFY_DATA_ERROR 17 #define ET_TRANSFORM_STARTED 18 #define ET_TRANSFORM_ABORTED 19 #define ET_TRANSFORM_FAILED 20 #define ET_TRANSFORM_FINISHED 21 #define ET_SMART_FAILED 22 #define ET_SMART_PASSED 23 #define ET_SECTOR_REPAIR_FAIL 24 #define ET_SECTOR_REPAIR_SUCCESS 25 #define ET_ERASE_FAIL 26 #define ET_ERASE_SUCCESS 27 #define ET_CONTINUE_REBUILD_ON_ERROR 28 /* * event structure */ typedef struct _HPT_EVENT { TIME_RECORD Time; DEVICEID DeviceID; HPT_U8 EventType; HPT_U8 reserved[3]; HPT_U8 Data[32]; /* various data depend on EventType */ } HPT_EVENT, *PHPT_EVENT; /* * IDE pass-through command. Use it at your own risk! */ typedef struct _IDE_PASS_THROUGH_HEADER { DEVICEID idDisk; /* disk ID */ HPT_U8 bFeaturesReg; /* feature register */ HPT_U8 bSectorCountReg; /* IDE sector count register. */ HPT_U8 bLbaLowReg; /* IDE LBA low value. */ HPT_U8 bLbaMidReg; /* IDE LBA mid register. */ HPT_U8 bLbaHighReg; /* IDE LBA high value. */ HPT_U8 bDriveHeadReg; /* IDE drive/head register. */ HPT_U8 bCommandReg; /* Actual IDE command. Checked for validity by driver. */ HPT_U8 nSectors; /* data size in sectors, if the command has data transfer */ HPT_U8 protocol; /* IO_COMMAND_(READ,WRITE) or zero for non-DATA */ HPT_U8 reserve[3]; #define IDE_PASS_THROUGH_buffer(p) ((HPT_U8 *)(p) + sizeof(IDE_PASS_THROUGH_HEADER)) /* HPT_U8 DataBuffer[0]; */ } IDE_PASS_THROUGH_HEADER, *PIDE_PASS_THROUGH_HEADER; typedef struct _IDE_PASS_THROUGH_HEADER_V2 { DEVICEID idDisk; /* disk ID */ HPT_U16 bFeaturesReg; /* feature register */ HPT_U16 bSectorCountReg; /* IDE sector count register. */ HPT_U16 bLbaLowReg; /* IDE LBA low value. */ HPT_U16 bLbaMidReg; /* IDE LBA mid register. */ HPT_U16 bLbaHighReg; /* IDE LBA high value. */ HPT_U8 bDriveHeadReg; /* IDE drive/head register. */ HPT_U8 bCommandReg; /* Actual IDE command. Checked for validity by driver. */ HPT_U16 nSectors; /* data size in sectors, if the command has data transfer */ HPT_U8 protocol; /* IO_COMMAND_(READ,WRITE) or zero for non-DATA */ HPT_U8 reserve; #define IDE_PASS_THROUGH_V2_buffer(p) ((HPT_U8 *)(p) + sizeof(IDE_PASS_THROUGH_HEADER_V2)) /* HPT_U8 DataBuffer[0]; */ } IDE_PASS_THROUGH_HEADER_V2, *PIDE_PASS_THROUGH_HEADER_V2; typedef struct _HPT_SCSI_PASSTHROUGH_IN { DEVICEID idDisk; HPT_U8 protocol; HPT_U8 reserve1; HPT_U8 reserve2; HPT_U8 cdbLength; HPT_U8 cdb[16]; HPT_U32 dataLength; /* data follows, if any */ } HPT_SCSI_PASSTHROUGH_IN, *PHPT_SCSI_PASSTHROUGH_IN; typedef struct _HPT_SCSI_PASSTHROUGH_OUT { HPT_U8 scsiStatus; HPT_U8 reserve1; HPT_U8 reserve2; HPT_U8 reserve3; HPT_U32 dataLength; /* data/sense follows if any */ } HPT_SCSI_PASSTHROUGH_OUT, *PHPT_SCSI_PASSTHROUGH_OUT; /* * device io packet format */ typedef struct _DEVICE_IO_EX_PARAMS { DEVICEID idDisk; HPT_U32 Lba; HPT_U16 nSectors; HPT_U8 Command; /* IO_COMMAD_xxx */ HPT_U8 BufferType; /* BUFFER_TYPE_xxx, see below */ HPT_U32 BufferPtr; } DEVICE_IO_EX_PARAMS, *PDEVICE_IO_EX_PARAMS; #define BUFFER_TYPE_LOGICAL 1 /* logical pointer to buffer */ #define BUFFER_TYPE_PHYSICAL 2 /* physical address of buffer */ #define BUFFER_TYPE_LOGICAL_LOGICAL_SG 3 /* logical pointer to logical S/G table */ #define BUFFER_TYPE_LOGICAL_PHYSICAL_SG 4 /* logical pointer to physical S/G table */ #define BUFFER_TYPE_PHYSICAL_LOGICAL_SG 5 /* physical address to logical S/G table */ #define BUFFER_TYPE_PHYSICAL_PHYSICAL_SG 6 /* physical address of physical S/G table */ #define BUFFER_TYPE_PHYSICAL_PHYSICAL_SG_PIO 7 /* non DMA capable physical address of physical S/G table */ typedef struct _HPT_DRIVER_PARAMETER { char name[32]; HPT_U8 value[32]; HPT_U8 type; /* HPT_DRIVER_PARAMETER_TYPE_* */ HPT_U8 persistent; HPT_U8 reserve2[2]; HPT_U8 location; /* 0 - system */ HPT_U8 controller; HPT_U8 bus; HPT_U8 reserve1; char desc[128]; } HPT_DRIVER_PARAMETER, *PHPT_DRIVER_PARAMETER; #define HPT_DRIVER_PARAMETER_TYPE_INT 1 #define HPT_DRIVER_PARAMETER_TYPE_BOOL 2 typedef struct _HPT_PM_CMDSTAT { HPT_U64 timeStamp; HPT_U64 lba; HPT_U16 sectors; HPT_U16 reserved; HPT_U32 rspTime; } HPT_PM_CMDSTAT, *PHPT_PM_CMDSTAT; #define HIGHEST_RSPTIME_CMD_SAVE 10 #define RSPTIME_HISTOGRAM_SEGMENT_COUNT 38 typedef struct _HPT_PM_IOSTAT { HPT_PM_CMDSTAT highestRspCmdStatData[HIGHEST_RSPTIME_CMD_SAVE]; HPT_U32 rspTimeHistogram[RSPTIME_HISTOGRAM_SEGMENT_COUNT]; HPT_U16 pendingIo; HPT_U16 activeIo; HPT_U32 instantKBPs; HPT_U32 averageKBPs; HPT_U32 instantIOPs; HPT_U32 averageIOPs; } HPT_PM_IOSTAT, *PHPT_PM_IOSTAT; /* * ioctl structure */ #define HPT_IOCTL_MAGIC32 0x1A2B3C4D #define HPT_IOCTL_MAGIC 0xA1B2C3D4 typedef struct _HPT_IOCTL_PARAM { HPT_U32 Magic; /* used to check if it's a valid ioctl packet */ HPT_U32 dwIoControlCode; /* operation control code */ HPT_PTR lpInBuffer; /* input data buffer */ HPT_U32 nInBufferSize; /* size of input data buffer */ HPT_PTR lpOutBuffer; /* output data buffer */ HPT_U32 nOutBufferSize; /* size of output data buffer */ HPT_PTR lpBytesReturned; /* count of HPT_U8s returned */ } HPT_IOCTL_PARAM, *PHPT_IOCTL_PARAM; /* for 32-bit app running on 64-bit system */ typedef struct _HPT_IOCTL_PARAM32 { HPT_U32 Magic; HPT_U32 dwIoControlCode; HPT_U32 lpInBuffer; HPT_U32 nInBufferSize; HPT_U32 lpOutBuffer; HPT_U32 nOutBufferSize; HPT_U32 lpBytesReturned; } HPT_IOCTL_PARAM32, *PHPT_IOCTL_PARAM32; #if !defined(__KERNEL__) || defined(SIMULATE) /* * User-mode ioctl parameter passing conventions: * The ioctl function implementation is platform specific, so we don't * have forced rules for it. However, it's suggested to use a parameter * passing method as below * 1) Put all input data continuously in an input buffer. * 2) Prepare an output buffer with enough size if needed. * 3) Fill a HPT_IOCTL_PARAM structure. * 4) Pass the structure to driver through a platform-specific method. * This is implemented in the mid-layer user-mode library. The UI * programmer needn't care about it. */ /************************************************************************ * User mode functions ************************************************************************/ /* * hpt_get_version * Version compatibility: all versions * Parameters: * None * Returns: * interface version. 0 when fail. */ HPT_U32 hpt_get_version(void); /* * hpt_get_driver_capabilities * Version compatibility: v1.0.0.2 or later * Parameters: * Pointer to receive a DRIVE_CAPABILITIES structure. The caller must set * dwSize member to sizeof(DRIVER_CAPABILITIES). The callee must check this * member to see if it's correct. * Returns: * 0 - Success */ int hpt_get_driver_capabilities(PDRIVER_CAPABILITIES cap); int hpt_get_driver_capabilities_v2(PDRIVER_CAPABILITIES_V2 cap); /* * hpt_get_controller_count * Version compatibility: v1.0.0.1 or later * Parameters: * None * Returns: * number of controllers */ int hpt_get_controller_count(void); /* hpt_get_controller_info * Version compatibility: v1.0.0.1 or later * Parameters: * id Controller id * pInfo pointer to CONTROLLER_INFO buffer * Returns: * 0 Success, controller info is put into (*pInfo ). */ int hpt_get_controller_info(int id, PCONTROLLER_INFO pInfo); #if HPT_INTERFACE_VERSION>=0x01020000 /* hpt_get_controller_info_v2 * Version compatibility: v2.0.0.0 or later * Parameters: * id Controller id * pInfo pointer to CONTROLLER_INFO_V2 buffer * Returns: * 0 Success, controller info is put into (*pInfo ). */ int hpt_get_controller_info_v2(int id, PCONTROLLER_INFO_V2 pInfo); /* hpt_get_controller_info_v3 * Version compatibility: v2.0.0.0 or later * Parameters: * id Controller id * pInfo pointer to CONTROLLER_INFO_V3 buffer * Returns: * 0 Success, controller info is put into (*pInfo ). */ int hpt_get_controller_info_v3(int id, PCONTROLLER_INFO_V3 pInfo); #endif /* hpt_get_channel_info * Version compatibility: v1.0.0.1 or later * Parameters: * id Controller id * bus bus number * pInfo pointer to CHANNEL_INFO buffer * Returns: * 0 Success, channel info is put into (*pInfo ). */ int hpt_get_channel_info(int id, int bus, PCHANNEL_INFO pInfo); /* hpt_get_channel_info_v2 * Version compatibility: v1.0.0.1 or later * Parameters: * id Controller id * bus bus number * pInfo pointer to CHANNEL_INFO buffer * Returns: * 0 Success, channel info is put into (*pInfo ). */ int hpt_get_channel_info_v2(int id, int bus, PCHANNEL_INFO_V2 pInfo); /* hpt_get_logical_devices * Version compatibility: v1.0.0.1 or later * Parameters: * pIds pointer to a DEVICEID array * nMaxCount array size * Returns: * Number of ID returned. All logical device IDs are put into pIds array. * Note: A spare disk is not a logical device. */ int hpt_get_logical_devices(DEVICEID * pIds, int nMaxCount); /* hpt_get_physical_devices * Version compatibility: v2.1.0.0 or later * Parameters: * pIds pointer to a DEVICEID array * nMaxCount array size * Returns: * Number of ID returned. All physical device IDs are put into pIds array. */ int hpt_get_physical_devices(DEVICEID * pIds, int nMaxCount); /* hpt_get_device_info * Version compatibility: v1.0.0.1 or later * Parameters: * id logical device id * pInfo pointer to LOGICAL_DEVICE_INFO structure * Returns: * 0 - Success */ int hpt_get_device_info(DEVICEID id, PLOGICAL_DEVICE_INFO pInfo); /* hpt_create_array * Version compatibility: v1.0.0.1 or later * Parameters: * pParam pointer to CREATE_ARRAY_PARAMS structure * Returns: * 0 failed * else return array id */ DEVICEID hpt_create_array(PCREATE_ARRAY_PARAMS pParam); /* hpt_delete_array * Version compatibility: v1.0.0.1 or later * Parameters: * id array id * Returns: * 0 Success */ int hpt_delete_array(DEVICEID id, HPT_U32 options); /* hpt_device_io * Read/write data on array and physcal device. * Version compatibility: v1.0.0.1 or later * Parameters: * id device id. If it's an array ID, IO will be performed on the array. * If it's a physical device ID, IO will be performed on the device. * cmd IO_COMMAND_READ or IO_COMMAND_WRITE * buffer data buffer * length data size * Returns: * 0 Success */ int hpt_device_io(DEVICEID id, int cmd, HPT_U32 lba, HPT_U32 nSector, void * buffer); /* hpt_add_disk_to_array * Used to dynamicly add a disk to an RAID1, RAID0/1, RAID1/0 or RAID5 array. * Auto-rebuild will start. * Version compatibility: v1.0.0.1 or later * Parameters: * idArray array id * idDisk disk id * Returns: * 0 Success */ int hpt_add_disk_to_array(DEVICEID idArray, DEVICEID idDisk); /* hpt_add_spare_disk * Version compatibility: v1.0.0.1 or later * Add a disk to spare pool. * Parameters: * idDisk disk id * Returns: * 0 Success */ int hpt_add_spare_disk(DEVICEID idDisk); /* hpt_add_dedicated_spare * Version compatibility: v1.0.0.3 or later * Add a spare disk to an array * Parameters: * idDisk disk id * idArray array id * Returns: * 0 Success */ int hpt_add_dedicated_spare(DEVICEID idDisk, DEVICEID idArray); /* hpt_remove_spare_disk * remove a disk from spare pool. * Version compatibility: v1.0.0.1 or later * Parameters: * idDisk disk id * Returns: * 0 Success */ int hpt_remove_spare_disk(DEVICEID idDisk); /* hpt_get_event * Used to poll events from driver. * Version compatibility: v1.0.0.1 or later * Parameters: * pEvent pointer to HPT_EVENT structure * Returns: * 0 Success, event info is filled in *pEvent */ int hpt_get_event(PHPT_EVENT pEvent); /* hpt_rebuild_data_block * Used to copy data from source disk and mirror disk. * Version compatibility: v1.0.0.1 or later * Parameters: * idArray Array ID (RAID1, 0/1 or RAID5) * Lba Start LBA for each array member * nSector Number of sectors for each array member (RAID 5 will ignore this parameter) * * Returns: * 0 Success, event info is filled in *pEvent */ int hpt_rebuild_data_block(DEVICEID idMirror, HPT_U32 Lba, HPT_U8 nSector); #define hpt_rebuild_mirror(p1, p2, p3) hpt_rebuild_data_block(p1, p2, p3) /* hpt_set_array_state * set array state. * Version compatibility: v1.0.0.1 or later * Parameters: * idArray Array ID * state See above 'array states' constants, possible values are: * MIRROR_REBUILD_START * Indicate that GUI wants to rebuild a mirror array * MIRROR_REBUILD_ABORT * GUI wants to abort rebuilding an array * MIRROR_REBUILD_COMPLETE * GUI finished to rebuild an array. If rebuild is done by driver this * state has no use * * Returns: * 0 Success */ int hpt_set_array_state(DEVICEID idArray, HPT_U32 state); /* hpt_set_array_info * set array info. * Version compatibility: v1.0.0.1 or later * Parameters: * idArray Array ID * pInfo pointer to new info * * Returns: * 0 Success */ int hpt_set_array_info(DEVICEID idArray, PALTERABLE_ARRAY_INFO pInfo); /* hpt_set_device_info * set device info. * Version compatibility: v1.0.0.1 or later * Parameters: * idDisk device ID * pInfo pointer to new info * * Returns: * 0 Success * Additional notes: * If idDisk==0, call to this function will stop buzzer on the adapter * (if supported by driver). */ int hpt_set_device_info(DEVICEID idDisk, PALTERABLE_DEVICE_INFO pInfo); #if HPT_INTERFACE_VERSION >= 0x01000004 int hpt_set_device_info_v2(DEVICEID idDisk, PALTERABLE_DEVICE_INFO_V2 pInfo); #endif /* hpt_rescan_devices * rescan devices * Version compatibility: v1.0.0.1 or later * Parameters: * None * Returns: * 0 Success */ int hpt_rescan_devices(void); /* hpt_get_601_info * Get HPT601 status * Version compatibiilty: v1.0.0.3 or later * Parameters: * idDisk - Disk handle * PHPT601_INFO - pointer to HPT601 info buffer * Returns: * 0 Success */ int hpt_get_601_info(DEVICEID idDisk, PHPT601_INFO pInfo); /* hpt_set_601_info * HPT601 function control * Version compatibiilty: v1.0.0.3 or later * Parameters: * idDisk - Disk handle * PHPT601_INFO - pointer to HPT601 info buffer * Returns: * 0 Success */ int hpt_set_601_info(DEVICEID idDisk, PHPT601_INFO pInfo); /* hpt_lock_device * Lock a block on a device (prevent OS accessing it) * Version compatibiilty: v1.0.0.3 or later * Parameters: * idDisk - Disk handle * Lba - Start LBA * nSectors - number of sectors * Returns: * 0 Success */ int hpt_lock_device(DEVICEID idDisk, HPT_U32 Lba, HPT_U8 nSectors); /* hpt_lock_device * Unlock a device * Version compatibiilty: v1.0.0.3 or later * Parameters: * idDisk - Disk handle * Returns: * 0 Success */ int hpt_unlock_device(DEVICEID idDisk); /* hpt_ide_pass_through * send a ATA passthrough command to a device. * Version compatibility: v1.0.0.3 or later * Parameters: * p - IDE_PASS_THROUGH header pointer * Returns: * 0 Success */ int hpt_ide_pass_through(PIDE_PASS_THROUGH_HEADER p); int hpt_ide_pass_through_v2(PIDE_PASS_THROUGH_HEADER_V2 p); /* hpt_scsi_passthrough * send a SCSI passthrough command to a device. * Version compatibility: v2.0.0.0 or later * Parameters: * in - HPT_SCSI_PASSTHROUGH_IN header pointer * out - PHPT_SCSI_PASSTHROUGH_OUT header pointer * insize, outsize - in/out buffer size * Returns: * 0 Success */ int hpt_scsi_passthrough(PHPT_SCSI_PASSTHROUGH_IN in, HPT_U32 insize, PHPT_SCSI_PASSTHROUGH_OUT out, HPT_U32 outsize); /* hpt_verify_data_block * verify data block on RAID1 or RAID5. * Version compatibility: v1.0.0.3 or later * Parameters: * idArray - Array ID * Lba - block number (on each array member, not logical block!) * nSectors - Sectors for each member (RAID 5 will ignore this parameter) * Returns: * 0 Success * 1 Data compare error * 2 I/O error */ int hpt_verify_data_block(DEVICEID idArray, HPT_U32 Lba, HPT_U8 nSectors); /* hpt_initialize_data_block * initialize data block (fill with zero) on RAID5 * Version compatibility: v1.0.0.3 or later * Parameters: * idArray - Array ID * Lba - block number (on each array member, not logical block!) * nSectors - Sectors for each member (RAID 5 will ignore this parameter) * Returns: * 0 Success */ int hpt_initialize_data_block(DEVICEID idArray, HPT_U32 Lba, HPT_U8 nSectors); /* hpt_device_io_ex * extended device I/O function * Version compatibility: v1.0.0.3 or later * Parameters: * idArray - Array ID * Lba - block number (on each array member, not logical block!) * nSectors - Sectors for each member * buffer - I/O buffer or s/g address * Returns: * 0 Success */ int hpt_device_io_ex(PDEVICE_IO_EX_PARAMS param); /* hpt_set_boot_mark * select boot device * Version compatibility: v1.0.0.3 or later * Parameters: * id - logical device ID. If id is 0 the boot mark will be removed. * Returns: * 0 Success */ int hpt_set_boot_mark(DEVICEID id); /* hpt_query_remove * check if device can be removed safely * Version compatibility: v1.0.0.4 or later * Parameters: * ndev - number of devices * pIds - device ID list * Returns: * 0 - Success * -1 - unknown error * n - the n-th device that can't be removed */ int hpt_query_remove(HPT_U32 ndev, DEVICEID *pIds); /* hpt_remove_devices * remove a list of devices * Version compatibility: v1.0.0.4 or later * Parameters: * ndev - number of devices * pIds - device ID list * Returns: * 0 - Success * -1 - unknown error * n - the n-th device that can't be removed */ int hpt_remove_devices(HPT_U32 ndev, DEVICEID *pIds); /* hpt_create_array_v2 * Version compatibility: v1.1.0.0 or later * Parameters: * pParam pointer to CREATE_ARRAY_PARAMS_V2 structure * Returns: * 0 failed * else return array id */ #if HPT_INTERFACE_VERSION>=0x01010000 DEVICEID hpt_create_array_v2(PCREATE_ARRAY_PARAMS_V2 pParam); #endif /* hpt_create_array_v3 * Version compatibility: v2.0.0.1 or later * Parameters: * pParam pointer to CREATE_ARRAY_PARAMS_V3 structure * Returns: * 0 failed * else return array id */ #if HPT_INTERFACE_VERSION>=0x02000001 DEVICEID hpt_create_array_v3(PCREATE_ARRAY_PARAMS_V3 pParam); #endif /* hpt_get_device_info_v2 * Version compatibility: v1.1.0.0 or later * Parameters: * id logical device id * pInfo pointer to LOGICAL_DEVICE_INFO_V2 structure * Returns: * 0 - Success */ #if HPT_INTERFACE_VERSION>=0x01010000 int hpt_get_device_info_v2(DEVICEID id, PLOGICAL_DEVICE_INFO_V2 pInfo); #endif /* hpt_get_device_info_v3 * Version compatibility: v1.2.0.0 or later * Parameters: * id logical device id * pInfo pointer to LOGICAL_DEVICE_INFO_V3 structure * Returns: * 0 - Success */ #if HPT_INTERFACE_VERSION>=0x01020000 int hpt_get_device_info_v3(DEVICEID id, PLOGICAL_DEVICE_INFO_V3 pInfo); #endif /* hpt_get_device_info_v4 * Version compatibility: v2.0.0.1 or later * Parameters: * id logical device id * pInfo pointer to LOGICAL_DEVICE_INFO_V4 structure * Returns: * 0 - Success */ #if HPT_INTERFACE_VERSION>=0x02000001 int hpt_get_device_info_v4(DEVICEID id, PLOGICAL_DEVICE_INFO_V4 pInfo); #endif /* hpt_create_transform * create a transform instance. * Version compatibility: v2.0.0.0 or later * Parameters: * idArray - source array * destInfo - destination array info * Returns: * destination array id */ #if HPT_INTERFACE_VERSION>=0x02000000 DEVICEID hpt_create_transform(DEVICEID idArray, PCREATE_ARRAY_PARAMS_V2 destInfo); #endif /* hpt_create_transform_v2 * create a transform instance. * Version compatibility: v2.0.0.1 or later * Parameters: * idArray - source array * destInfo - destination array info * Returns: * destination array id */ #if HPT_INTERFACE_VERSION>=0x02000001 DEVICEID hpt_create_transform_v2(DEVICEID idArray, PCREATE_ARRAY_PARAMS_V3 destInfo); #endif /* hpt_step_transform * move a block in a tranform progress. * This function is called by mid-layer, not GUI (which uses set_array_state instead). * Version compatibility: v2.0.0.0 or later * Parameters: * idArray - destination array ID * the source ID will be invalid when transform complete. * Returns: * 0 - Success */ #if HPT_INTERFACE_VERSION>=0x02000000 int hpt_step_transform(DEVICEID idArray); #endif /* hpt_set_vdev_info * set information for disk or array * Version compatibility: v1.2.0.0 or later * Parameters: * dev - destination device * * Returns: * 0 - Success */ #if HPT_INTERFACE_VERSION>=0x01020000 int hpt_set_vdev_info(DEVICEID dev, PSET_VDEV_INFO pInfo); #endif /* hpt_init_disks * initialize disks for use * Version compatibility: v2.0.0.0 or later * Parameters: * ndev - number of disks to initialize * pIds - array of DEVICEID * * Returns: * 0 - Success */ #if HPT_INTERFACE_VERSION>=0x02000000 int hpt_init_disks(HPT_U32 ndev, DEVICEID * pIds); #endif /* hpt_calc_max_array_capacity * cap max capacity of the array user want to create or transform * Version compatibility: v1.2.0.0 or later * Parameters: * source - if transform, this is the source array, otherwise, it should be zero * destInfo - target array params * Returns: * 0 - Success * cap - max capacity of the target array */ #if HPT_INTERFACE_VERSION>=0x01020000 int hpt_calc_max_array_capacity(DEVICEID source, PCREATE_ARRAY_PARAMS_V2 destInfo, HPT_U64 * cap); #endif /* hpt_calc_max_array_capacity_v2 * cap max capacity of the array user want to create or transform * Version compatibility: v2.0.0.1 or later * Parameters: * source - if transform, this is the source array, otherwise, it should be zero * destInfo - target array params * Returns: * 0 - Success * cap - max capacity of the target array */ #if HPT_INTERFACE_VERSION>=0x02000001 int hpt_calc_max_array_capacity_v2(DEVICEID source, PCREATE_ARRAY_PARAMS_V3 destInfo, HPT_U64 * cap); #endif /* hpt_rebuild_data_block2 * Used to copy data from source disk and mirror disk. * Version compatibility: v1.1.0.0 or later * Parameters: * idArray Array ID (RAID1, 0/1 or RAID5) * Lba Start LBA for each array member * nSector Number of sectors for each array member (RAID 5 will ignore this parameter) * * Returns: * 0 Success, event info is filled in *pEvent */ #if HPT_INTERFACE_VERSION>=0x01010000 int hpt_rebuild_data_block_v2(DEVICEID idMirror, HPT_U64 Lba, HPT_U16 nSector); #endif /* hpt_verify_data_block2 * verify data block on RAID1 or RAID5. * Version compatibility: v1.1.0.0 or later * Parameters: * idArray - Array ID * Lba - block number (on each array member, not logical block!) * nSectors - Sectors for each member (RAID 5 will ignore this parameter) * Returns: * 0 Success * 1 Data compare error * 2 I/O error */ #if HPT_INTERFACE_VERSION>=0x01010000 int hpt_verify_data_block_v2(DEVICEID idArray, HPT_U64 Lba, HPT_U16 nSectors); #endif /* hpt_initialize_data_block2 * initialize data block (fill with zero) on RAID5 * Version compatibility: v1.1.0.0 or later * Parameters: * idArray - Array ID * Lba - block number (on each array member, not logical block!) * nSectors - Sectors for each member (RAID 5 will ignore this parameter) * Returns: * 0 Success */ #if HPT_INTERFACE_VERSION>=0x01010000 int hpt_initialize_data_block_v2(DEVICEID idArray, HPT_U64 Lba, HPT_U16 nSectors); #endif /* hpt_i2c_transaction * perform an transaction on i2c bus * Version compatibility: v2.0.0.0 or later * Parameters: * indata[0] - controller ID * Returns: * 0 Success */ #if HPT_INTERFACE_VERSION>=0x01020000 int hpt_i2c_transaction(HPT_U8 *indata, HPT_U32 inlen, HPT_U8 *outdata, HPT_U32 outlen, HPT_U32 *poutlen); #endif /* hpt_get_parameter_list * get a list of driver parameters. * Version compatibility: v1.0.0.0 or later * Parameters: * location - parameter location * outBuffer - a buffer to hold the output * outBufferSize - size of outBuffer * Returns: * 0 Success * put in outBuffer a list of zero terminated parameter names. the whole list * is terminated with an additional zero byte. */ int hpt_get_parameter_list(HPT_U32 location, char *outBuffer, HPT_U32 outBufferSize); /* hpt_{get,set}_parameter * get/set a parameter value. * Version compatibility: v1.0.0.0 or later * Parameters: * pParam - a pointer to HPT_DRIVER_PARAMETER. * Returns: * 0 Success */ int hpt_get_parameter(PHPT_DRIVER_PARAMETER pParam); int hpt_set_parameter(PHPT_DRIVER_PARAMETER pParam); int hpt_reenumerate_device(DEVICEID id); /* * hpt_get_enclosure_count * Version compatibility: v2.1.0.0 or later * Parameters: * controller_id * Returns: * number of enclosurers */ int hpt_get_enclosure_count(int ctlr_id); /* hpt_get_enclosure_info * Version compatibility: v2.1.0.0 or later * Parameters: * id enclosure id * pInfo pointer to ENCLOSURE_INFO buffer * Returns: * 0 Success, enclosure info is put into (*pInfo ). */ int hpt_get_enclosure_info(int ctlr_id, int enc_id, PENCLOSURE_INFO pInfo); int hpt_get_enclosure_info_v2(int ctlr_id, int enc_id, PENCLOSURE_INFO_V2 pInfo); int hpt_get_enclosure_info_v3(int ctlr_id, int enc_id, PENCLOSURE_INFO_V3 pInfo); /* performance monitor interface * Version compatibility: v2.1.0.0 or later */ int hpt_get_perfmon_status(int ctlr_id, int *p_status); int hpt_set_perfmon_status(int ctlr_id, int enable); int hpt_get_perfmon_data(DEVICEID id, PHPT_PM_IOSTAT iostat); /* hpt_get_controller_venid * Version compatibility: v1.0.0.0 or later */ int hpt_get_controller_venid(int ctlr_id, HPT_U32 *venid); #endif #pragma pack() #ifdef __cplusplus } #endif #endif