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/* * Copyright (c) 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/hptrr/him.h 176018 2008-02-06 01:02:20Z scottl $ */ #include <dev/hptrr/hptrr_config.h> /* * $Id: him.h,v 1.47 2007/12/17 08:55:49 gmm Exp $ * Copyright (C) 2004-2005 HighPoint Technologies, Inc. All rights reserved. */ #ifndef _HPT_HIM_H_ #define _HPT_HIM_H_ #define VERMAGIC_HIM 46 #if defined(__cplusplus) extern "C" { #endif #include <dev/hptrr/list.h> #define SECTOR_TO_BYTE_SHIFT 9 #define SECTOR_TO_BYTE(x) ((HPT_U32)(x) << SECTOR_TO_BYTE_SHIFT) #define BYTE_TO_SECTOR(x) ((x)>>SECTOR_TO_BYTE_SHIFT) typedef struct _PCI_ID { HPT_U16 vid; HPT_U16 did; HPT_U32 subsys; HPT_U8 rev; HPT_U8 nbase; HPT_U16 reserve; } PCI_ID; typedef struct _PCI_ADDRESS { HPT_U8 tree; HPT_U8 bus; HPT_U8 device; HPT_U8 function; } PCI_ADDRESS; typedef struct _HIM_ADAPTER_CONFIG { PCI_ADDRESS pci_addr; PCI_ID pci_id; HPT_U8 max_devices; HPT_U8 reserve1; HPT_U8 bDevsPerBus; HPT_U8 first_on_slot; HPT_U8 bChipType; HPT_U8 bChipIntrNum; HPT_U8 bChipFlags; HPT_U8 bNumBuses; HPT_U8 szVendorID[36]; HPT_U8 szProductID[36]; } HIM_ADAPTER_CONFIG, *PHIM_ADAPTER_CONFIG; typedef struct _HIM_CHANNEL_CONFIG { HPT_U32 io_port; HPT_U32 ctl_port; } HIM_CHANNEL_CONFIG, *PHIM_CHANNEL_CONFIG; typedef struct _HIM_DEVICE_FLAGS { HPT_UINT df_atapi :1; HPT_UINT df_removable_drive :1; HPT_UINT df_on_line :1; HPT_UINT df_reduce_mode :1; HPT_UINT df_sata :1; HPT_UINT df_on_pm_port :1; HPT_UINT df_support_read_ahead :1; HPT_UINT df_read_ahead_enabled :1; HPT_UINT df_support_write_cache :1; HPT_UINT df_write_cache_enabled :1; HPT_UINT df_cdrom_device :1; HPT_UINT df_tape_device :1; HPT_UINT df_support_tcq :1; HPT_UINT df_tcq_enabled :1; HPT_UINT df_support_ncq :1; HPT_UINT df_ncq_enabled :1; HPT_UINT df_sas :1; } DEVICE_FLAGS, *PDEVICE_FLAGS; #pragma pack(1) typedef struct _IDENTIFY_DATA2 { HPT_U16 GeneralConfiguration; HPT_U16 NumberOfCylinders; HPT_U16 Reserved1; HPT_U16 NumberOfHeads; HPT_U16 UnformattedBytesPerTrack; HPT_U16 UnformattedBytesPerSector; HPT_U16 SectorsPerTrack; HPT_U16 VendorUnique1[3]; 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; } #ifdef __GNUC__ __attribute__((packed)) #endif IDENTIFY_DATA2, *PIDENTIFY_DATA2; #pragma pack() typedef struct _HIM_DEVICE_CONFIG { HPT_U64 capacity; DEVICE_FLAGS flags; HPT_U8 path_id; HPT_U8 target_id; HPT_U8 max_queue_depth; HPT_U8 spin_up_mode; HPT_U8 reserved; HPT_U8 transfer_mode; HPT_U8 bMaxShowMode; HPT_U8 bDeUsable_Mode; HPT_U16 max_sectors_per_cmd; PIDENTIFY_DATA2 pIdentifyData; } HIM_DEVICE_CONFIG, *PHIM_DEVICE_CONFIG; #define _DIT_MODE 0 #define _DIT_601 1 #define _DIT_READ_AHEAD 2 #define _DIT_WRITE_CACHE 3 #define _DIT_TCQ 4 #define _DIT_NCQ 5 #define _DIT_BEEP_OFF 6 #define _DIT_SPIN_UP_MODE 7 #define _DIT_IDLE_STANDBY 8 #define _DIT_IDENTIFY 9 #define SPIN_UP_MODE_NOSUPPORT 0 #define SPIN_UP_MODE_FULL 1 #define SPIN_UP_MODE_STANDBY 2 struct tcq_control { HPT_U8 enable; HPT_U8 depth; }; struct ncq_control { HPT_U8 enable; HPT_U8 depth; }; typedef struct _HIM_ALTERABLE_DEV_INFO{ HPT_U8 type; union { HPT_U8 mode; HPT_U8 enable_read_ahead; HPT_U8 enable_read_cache; HPT_U8 enable_write_cache; struct tcq_control tcq; struct ncq_control ncq; void * adapter; HPT_U8 spin_up_mode; HPT_U8 idle_standby_timeout; HPT_U8 identify_indicator; }u; } HIM_ALTERABLE_DEV_INFO, *PHIM_ALTERABLE_DEV_INFO; struct _COMMAND; struct _IOCTL_ARG; typedef void (*PROBE_CALLBACK)(void *arg, void *dev, int index); typedef struct _HIM { char *name; struct _HIM *next; HPT_UINT max_sg_descriptors; #define _HIM_INTERFACE(_type, _fn, _args) _type (* _fn) _args; #include <dev/hptrr/himfuncs.h> } HIM, *PHIM; #pragma pack(1) #ifdef SG_FLAG_EOT #error "don't use SG_FLAG_EOT with _SG.eot. clean the code!" #endif typedef struct _SG { HPT_U32 size; HPT_UINT eot; union { HPT_U8 FAR * _logical; BUS_ADDRESS bus; } addr; } SG, *PSG; #pragma pack() typedef struct _AtaCommand { HPT_U64 Lba; HPT_U16 nSectors; HPT_U16 pad; } AtaComm, *PAtaComm; #define ATA_CMD_SET_FEATURES 0xef #define ATA_CMD_FLUSH 0xE7 #define ATA_CMD_VERIFY 0x40 #define ATA_CMD_STANDBY 0xe2 #define ATA_CMD_READ_MULTI 0xC4 #define ATA_CMD_READ_MULTI_EXT 0x29 #define ATA_CMD_WRITE_MULTI 0xC5 #define ATA_CMD_WRITE_MULTI_EXT 0x39 #define ATA_CMD_WRITE_MULTI_FUA_EXT 0xCE #define ATA_SET_FEATURES_XFER 0x3 #define ATA_SECTOR_SIZE 512 typedef struct _PassthroughCmd { HPT_U16 bFeaturesReg; HPT_U16 bSectorCountReg; HPT_U16 bLbaLowReg; HPT_U16 bLbaMidReg; HPT_U16 bLbaHighReg; HPT_U8 bDriveHeadReg; HPT_U8 bCommandReg; HPT_U8 nSectors; HPT_U8 *pDataBuffer; } PassthroughCmd; typedef struct _ScsiComm { HPT_U8 cdbLength; HPT_U8 senseLength; HPT_U8 scsiStatus; HPT_U8 reserve1; HPT_U32 dataLength; HPT_U8 *cdb; HPT_U8 *senseBuffer; } ScsiComm; #define CTRL_CMD_REBUILD 1 #define CTRL_CMD_VERIFY 2 #define CTRL_CMD_INIT 3 typedef struct _R5ControlCmd { HPT_U64 StripeLine; HPT_U16 Offset; HPT_U8 Command; HPT_U8 reserve1; } R5ControlCmd, *PR5ControlCmd; typedef struct _HPT_ADDRESS { HPT_U8 * logical; BUS_ADDRESS bus; } HPT_ADDRESS; typedef struct ctl_pages { HPT_ADDRESS *pages; HPT_UINT page_size; HPT_UINT npages; HPT_UINT min_sg_descriptors; } CONTROL_PAGES, *PCONTROL_PAGES; typedef struct _R1ControlCmd { HPT_U64 Lba; HPT_U16 nSectors; HPT_U8 Command; /* CTRL_CMD_XXX */ HPT_U8 reserve1; PCONTROL_PAGES ctl_pages; } R1ControlCmd, *PR1ControlCmd; typedef void (*TQ_PROC)(void *arg); struct tq_item { TQ_PROC proc; void *arg; struct tq_item *next; }; #define INIT_TQ_ITEM(t, p, a) \ do { (t)->proc = p; (t)->arg = a; (t)->next = 0; } while (0) typedef struct _COMMAND { struct _VBUS * vbus; struct freelist *grplist; HPT_UINT grpcnt; struct list_head q_link; struct tq_item done_dpc; HPT_UINT extsize; void *ext; void *target; void *priv; HPT_UPTR priv2; int priority; struct lock_request *owned_lock; struct lock_request *lock_req; void (*dtor)(struct _COMMAND *, void *); void *dtor_arg; union{ AtaComm Ide; PassthroughCmd Passthrough; ScsiComm Scsi; R5ControlCmd R5Control; R1ControlCmd R1Control; } uCmd; HPT_U8 type; /* CMD_TYPE_* */ struct { HPT_U8 physical_sg: 1; HPT_U8 data_in: 1; HPT_U8 data_out: 1; HPT_U8 transform : 1; HPT_U8 hard_flush: 2; HPT_U8 from_cc: 1; HPT_U8 force_cc: 1; } flags; /* return status */ HPT_U8 Result; /* retry count */ HPT_U8 RetryCount; PSG psg; int (*buildsgl)(struct _COMMAND *cmd, PSG psg, int logical); void (*done)(struct _COMMAND *cmd); } COMMAND, *PCOMMAND; /* command types */ #define CMD_TYPE_IO 0 #define CMD_TYPE_CONTROL 1 #define CMD_TYPE_ATAPI 2 #define CMD_TYPE_SCSI CMD_TYPE_ATAPI #define CMD_TYPE_PASSTHROUGH 3 #define CMD_TYPE_FLUSH 4 /* flush command flags */ #define CF_HARD_FLUSH_CACHE 1 #define CF_HARD_FLUSH_STANDBY 2 /* command return values */ #define RETURN_PENDING 0 #define RETURN_SUCCESS 1 #define RETURN_BAD_DEVICE 2 #define RETURN_BAD_PARAMETER 3 #define RETURN_WRITE_NO_DRQ 4 #define RETURN_DEVICE_BUSY 5 #define RETURN_INVALID_REQUEST 6 #define RETURN_SELECTION_TIMEOUT 7 #define RETURN_IDE_ERROR 8 #define RETURN_NEED_LOGICAL_SG 9 #define RETURN_NEED_PHYSICAL_SG 10 #define RETURN_RETRY 11 #define RETURN_DATA_ERROR 12 #define RETURN_BUS_RESET 13 #define RETURN_BAD_TRANSFER_LENGTH 14 #define RETURN_INSUFFICIENT_MEMORY 15 #define RETURN_SECTOR_ERROR 16 #if defined(__cplusplus) } #endif #endif