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[SCSI] advansys: remove INQUIRY sniffing
Use slave_configure() to do all the work that used to be done in AscInquiryHandling and AdvInquiryHandling. Split slave_configure into two functions, one for wide and one for narrow controllers. Remove some unused definitions, duplicate definitions, unnecessary declarations, and scsireqq, cap_info and inquiry from struct asc_board. Signed-off-by: Matthew Wilcox <matthew@wil.cx> Signed-off-by: James Bottomley <James.Bottomley@SteelEye.com>
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@ -944,10 +944,6 @@ typedef unsigned char uchar;
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#define ASC_MAX_CDB_LEN 12
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#define ASC_SCSI_RESET_HOLD_TIME_US 60
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#define ADV_INQ_CLOCKING_ST_ONLY 0x0
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#define ADV_INQ_CLOCKING_DT_ONLY 0x1
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#define ADV_INQ_CLOCKING_ST_AND_DT 0x3
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/*
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* Inquiry SPC-2 SPI Byte 1 EVPD (Enable Vital Product Data)
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* and CmdDt (Command Support Data) field bit definitions.
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@ -966,57 +962,8 @@ typedef unsigned char uchar;
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#define ASC_SRB_TID(x) ((uchar)((uchar)(x) & (uchar)0x0F))
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#define ASC_SRB_LUN(x) ((uchar)((uint)(x) >> 13))
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#define PUT_CDB1(x) ((uchar)((uint)(x) >> 8))
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#define MS_CMD_DONE 0x00
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#define MS_EXTEND 0x01
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#define MS_SDTR_LEN 0x03
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#define MS_SDTR_CODE 0x01
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#define MS_WDTR_LEN 0x02
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#define MS_WDTR_CODE 0x03
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#define MS_MDP_LEN 0x05
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#define MS_MDP_CODE 0x00
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/*
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* Inquiry data structure and bitfield macros
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*
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* Only quantities of more than 1 bit are shifted, since the others are
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* just tested for true or false. C bitfields aren't portable between big
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* and little-endian platforms so they are not used.
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*/
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#define ASC_INQ_DVC_TYPE(inq) ((inq)->periph & 0x1f)
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#define ASC_INQ_QUALIFIER(inq) (((inq)->periph & 0xe0) >> 5)
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#define ASC_INQ_DVC_TYPE_MOD(inq) ((inq)->devtype & 0x7f)
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#define ASC_INQ_REMOVABLE(inq) ((inq)->devtype & 0x80)
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#define ASC_INQ_ANSI_VER(inq) ((inq)->ver & 0x07)
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#define ASC_INQ_ECMA_VER(inq) (((inq)->ver & 0x38) >> 3)
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#define ASC_INQ_ISO_VER(inq) (((inq)->ver & 0xc0) >> 6)
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#define ASC_INQ_RESPONSE_FMT(inq) ((inq)->byte3 & 0x0f)
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#define ASC_INQ_TERM_IO(inq) ((inq)->byte3 & 0x40)
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#define ASC_INQ_ASYNC_NOTIF(inq) ((inq)->byte3 & 0x80)
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#define ASC_INQ_SOFT_RESET(inq) ((inq)->flags & 0x01)
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#define ASC_INQ_CMD_QUEUE(inq) ((inq)->flags & 0x02)
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#define ASC_INQ_LINK_CMD(inq) ((inq)->flags & 0x08)
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#define ASC_INQ_SYNC(inq) ((inq)->flags & 0x10)
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#define ASC_INQ_WIDE16(inq) ((inq)->flags & 0x20)
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#define ASC_INQ_WIDE32(inq) ((inq)->flags & 0x40)
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#define ASC_INQ_REL_ADDR(inq) ((inq)->flags & 0x80)
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#define ASC_INQ_INFO_UNIT(inq) ((inq)->info & 0x01)
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#define ASC_INQ_QUICK_ARB(inq) ((inq)->info & 0x02)
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#define ASC_INQ_CLOCKING(inq) (((inq)->info & 0x0c) >> 2)
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typedef struct {
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uchar periph;
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uchar devtype;
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uchar ver;
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uchar byte3;
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uchar add_len;
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uchar res1;
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uchar res2;
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uchar flags;
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uchar vendor_id[8];
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uchar product_id[16];
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uchar product_rev_level[4];
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} ASC_SCSI_INQUIRY;
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#define ASC_SG_LIST_PER_Q 7
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#define QS_FREE 0x00
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@ -1932,9 +1879,7 @@ static void DvcDelayNanoSecond(ASC_DVC_VAR *, ASC_DCNT);
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static void DvcPutScsiQ(PortAddr, ushort, uchar *, int);
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static void DvcGetQinfo(PortAddr, ushort, uchar *, int);
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static ushort AscInitAsc1000Driver(ASC_DVC_VAR *);
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static void AscAsyncFix(ASC_DVC_VAR *, uchar, ASC_SCSI_INQUIRY *);
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static int AscTagQueuingSafe(ASC_SCSI_INQUIRY *);
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static void AscInquiryHandling(ASC_DVC_VAR *, uchar, ASC_SCSI_INQUIRY *);
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static void AscAsyncFix(ASC_DVC_VAR *, struct scsi_device *);
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static int AscExeScsiQueue(ASC_DVC_VAR *, ASC_SCSI_Q *);
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static int AscISR(ASC_DVC_VAR *);
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static uint AscGetNumOfFreeQueue(ASC_DVC_VAR *, uchar, uchar);
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@ -3081,7 +3026,6 @@ static int AdvResetSB(ADV_DVC_VAR *asc_dvc);
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* Internal Adv Library functions.
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*/
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static int AdvSendIdleCmd(ADV_DVC_VAR *, ushort, ADV_DCNT);
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static void AdvInquiryHandling(ADV_DVC_VAR *, ADV_SCSI_REQ_Q *);
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static int AdvInitFrom3550EEP(ADV_DVC_VAR *);
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static int AdvInitFrom38C0800EEP(ADV_DVC_VAR *);
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static int AdvInitFrom38C1600EEP(ADV_DVC_VAR *);
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@ -3295,74 +3239,6 @@ static ADVEEP_38C1600_CONFIG Default_38C1600_EEPROM_Config;
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(sizeof(ADV_SG_BLOCK) * \
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((ADV_MAX_SG_LIST + (NO_OF_SG_PER_BLOCK - 1))/NO_OF_SG_PER_BLOCK))
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/*
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* Inquiry data structure and bitfield macros
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*
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* Using bitfields to access the subchar data isn't portable across
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* endianness, so instead mask and shift. Only quantities of more
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* than 1 bit are shifted, since the others are just tested for true
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* or false.
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*/
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#define ADV_INQ_DVC_TYPE(inq) ((inq)->periph & 0x1f)
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#define ADV_INQ_QUALIFIER(inq) (((inq)->periph & 0xe0) >> 5)
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#define ADV_INQ_DVC_TYPE_MOD(inq) ((inq)->devtype & 0x7f)
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#define ADV_INQ_REMOVABLE(inq) ((inq)->devtype & 0x80)
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#define ADV_INQ_ANSI_VER(inq) ((inq)->ver & 0x07)
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#define ADV_INQ_ECMA_VER(inq) (((inq)->ver & 0x38) >> 3)
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#define ADV_INQ_ISO_VER(inq) (((inq)->ver & 0xc0) >> 6)
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#define ADV_INQ_RESPONSE_FMT(inq) ((inq)->byte3 & 0x0f)
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#define ADV_INQ_TERM_IO(inq) ((inq)->byte3 & 0x40)
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#define ADV_INQ_ASYNC_NOTIF(inq) ((inq)->byte3 & 0x80)
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#define ADV_INQ_SOFT_RESET(inq) ((inq)->flags & 0x01)
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#define ADV_INQ_CMD_QUEUE(inq) ((inq)->flags & 0x02)
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#define ADV_INQ_LINK_CMD(inq) ((inq)->flags & 0x08)
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#define ADV_INQ_SYNC(inq) ((inq)->flags & 0x10)
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#define ADV_INQ_WIDE16(inq) ((inq)->flags & 0x20)
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#define ADV_INQ_WIDE32(inq) ((inq)->flags & 0x40)
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#define ADV_INQ_REL_ADDR(inq) ((inq)->flags & 0x80)
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#define ADV_INQ_INFO_UNIT(inq) ((inq)->info & 0x01)
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#define ADV_INQ_QUICK_ARB(inq) ((inq)->info & 0x02)
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#define ADV_INQ_CLOCKING(inq) (((inq)->info & 0x0c) >> 2)
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typedef struct {
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uchar periph; /* peripheral device type [0:4] */
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/* peripheral qualifier [5:7] */
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uchar devtype; /* device type modifier (for SCSI I) [0:6] */
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/* RMB - removable medium bit [7] */
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uchar ver; /* ANSI approved version [0:2] */
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/* ECMA version [3:5] */
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/* ISO version [6:7] */
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uchar byte3; /* response data format [0:3] */
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/* 0 SCSI 1 */
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/* 1 CCS */
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/* 2 SCSI-2 */
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/* 3-F reserved */
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/* reserved [4:5] */
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/* terminate I/O process bit (see 5.6.22) [6] */
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/* asynch. event notification (processor) [7] */
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uchar add_len; /* additional length */
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uchar res1; /* reserved */
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uchar res2; /* reserved */
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uchar flags; /* soft reset implemented [0] */
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/* command queuing [1] */
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/* reserved [2] */
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/* linked command for this logical unit [3] */
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/* synchronous data transfer [4] */
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/* wide bus 16 bit data transfer [5] */
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/* wide bus 32 bit data transfer [6] */
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/* relative addressing mode [7] */
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uchar vendor_id[8]; /* vendor identification */
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uchar product_id[16]; /* product identification */
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uchar product_rev_level[4]; /* product revision level */
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uchar vendor_specific[20]; /* vendor specific */
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uchar info; /* information unit supported [0] */
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/* quick arbitrate supported [1] */
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/* clocking field [2:3] */
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/* reserved [4:7] */
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uchar res3; /* reserved */
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} ADV_SCSI_INQUIRY; /* 58 bytes */
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/*
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* --- Driver Constants and Macros
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*/
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@ -3771,10 +3647,6 @@ typedef struct asc_board {
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/*
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* The following fields are used only for Narrow Boards.
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*/
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/* The following three structures must be in DMA-able memory. */
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ASC_SCSI_REQ_Q scsireqq;
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ASC_CAP_INFO cap_info;
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ASC_SCSI_INQUIRY inquiry;
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uchar sdtr_data[ASC_MAX_TID + 1]; /* SDTR information */
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/*
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* The following fields are used only for Wide Boards.
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@ -3809,8 +3681,6 @@ static int asc_dbglvl = 3;
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/*
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* --- Driver Function Prototypes
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*
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* advansys.h contains function prototypes for functions global to Linux.
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*/
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static int advansys_slave_configure(struct scsi_device *);
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@ -4622,38 +4492,203 @@ static irqreturn_t advansys_interrupt(int irq, void *dev_id)
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return result;
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}
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static void
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advansys_narrow_slave_configure(struct scsi_device *sdev, ASC_DVC_VAR *asc_dvc)
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{
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ASC_SCSI_BIT_ID_TYPE tid_bit = 1 << sdev->id;
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ASC_SCSI_BIT_ID_TYPE orig_use_tagged_qng = asc_dvc->use_tagged_qng;
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if (sdev->lun == 0) {
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ASC_SCSI_BIT_ID_TYPE orig_init_sdtr = asc_dvc->init_sdtr;
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if ((asc_dvc->cfg->sdtr_enable & tid_bit) && sdev->sdtr) {
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asc_dvc->init_sdtr |= tid_bit;
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} else {
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asc_dvc->init_sdtr &= ~tid_bit;
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}
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if (orig_init_sdtr != asc_dvc->init_sdtr)
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AscAsyncFix(asc_dvc, sdev);
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}
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if (sdev->tagged_supported) {
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if (asc_dvc->cfg->cmd_qng_enabled & tid_bit) {
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if (sdev->lun == 0) {
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asc_dvc->cfg->can_tagged_qng |= tid_bit;
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asc_dvc->use_tagged_qng |= tid_bit;
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}
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scsi_adjust_queue_depth(sdev, MSG_ORDERED_TAG,
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asc_dvc->max_dvc_qng[sdev->id]);
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}
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} else {
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if (sdev->lun == 0) {
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asc_dvc->cfg->can_tagged_qng &= ~tid_bit;
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asc_dvc->use_tagged_qng &= ~tid_bit;
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}
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scsi_adjust_queue_depth(sdev, 0, sdev->host->cmd_per_lun);
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}
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if ((sdev->lun == 0) &&
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(orig_use_tagged_qng != asc_dvc->use_tagged_qng)) {
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AscWriteLramByte(asc_dvc->iop_base, ASCV_DISC_ENABLE_B,
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asc_dvc->cfg->disc_enable);
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AscWriteLramByte(asc_dvc->iop_base, ASCV_USE_TAGGED_QNG_B,
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asc_dvc->use_tagged_qng);
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AscWriteLramByte(asc_dvc->iop_base, ASCV_CAN_TAGGED_QNG_B,
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asc_dvc->cfg->can_tagged_qng);
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asc_dvc->max_dvc_qng[sdev->id] =
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asc_dvc->cfg->max_tag_qng[sdev->id];
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AscWriteLramByte(asc_dvc->iop_base,
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(ushort)(ASCV_MAX_DVC_QNG_BEG + sdev->id),
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asc_dvc->max_dvc_qng[sdev->id]);
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}
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}
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/*
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* Wide Transfers
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*
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* If the EEPROM enabled WDTR for the device and the device supports wide
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* bus (16 bit) transfers, then turn on the device's 'wdtr_able' bit and
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* write the new value to the microcode.
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*/
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static void
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advansys_wide_enable_wdtr(AdvPortAddr iop_base, unsigned short tidmask)
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{
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unsigned short cfg_word;
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AdvReadWordLram(iop_base, ASC_MC_WDTR_ABLE, cfg_word);
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if ((cfg_word & tidmask) != 0)
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return;
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cfg_word |= tidmask;
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AdvWriteWordLram(iop_base, ASC_MC_WDTR_ABLE, cfg_word);
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/*
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* Clear the microcode SDTR and WDTR negotiation done indicators for
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* the target to cause it to negotiate with the new setting set above.
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* WDTR when accepted causes the target to enter asynchronous mode, so
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* SDTR must be negotiated.
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*/
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AdvReadWordLram(iop_base, ASC_MC_SDTR_DONE, cfg_word);
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cfg_word &= ~tidmask;
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AdvWriteWordLram(iop_base, ASC_MC_SDTR_DONE, cfg_word);
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AdvReadWordLram(iop_base, ASC_MC_WDTR_DONE, cfg_word);
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cfg_word &= ~tidmask;
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AdvWriteWordLram(iop_base, ASC_MC_WDTR_DONE, cfg_word);
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}
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/*
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* Synchronous Transfers
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*
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* If the EEPROM enabled SDTR for the device and the device
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* supports synchronous transfers, then turn on the device's
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* 'sdtr_able' bit. Write the new value to the microcode.
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*/
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static void
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advansys_wide_enable_sdtr(AdvPortAddr iop_base, unsigned short tidmask)
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{
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unsigned short cfg_word;
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AdvReadWordLram(iop_base, ASC_MC_SDTR_ABLE, cfg_word);
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if ((cfg_word & tidmask) != 0)
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return;
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cfg_word |= tidmask;
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AdvWriteWordLram(iop_base, ASC_MC_SDTR_ABLE, cfg_word);
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/*
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* Clear the microcode "SDTR negotiation" done indicator for the
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* target to cause it to negotiate with the new setting set above.
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*/
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AdvReadWordLram(iop_base, ASC_MC_SDTR_DONE, cfg_word);
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cfg_word &= ~tidmask;
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AdvWriteWordLram(iop_base, ASC_MC_SDTR_DONE, cfg_word);
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}
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/*
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* PPR (Parallel Protocol Request) Capable
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*
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* If the device supports DT mode, then it must be PPR capable.
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* The PPR message will be used in place of the SDTR and WDTR
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* messages to negotiate synchronous speed and offset, transfer
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* width, and protocol options.
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*/
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static void advansys_wide_enable_ppr(ADV_DVC_VAR *adv_dvc,
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AdvPortAddr iop_base, unsigned short tidmask)
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{
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AdvReadWordLram(iop_base, ASC_MC_PPR_ABLE, adv_dvc->ppr_able);
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adv_dvc->ppr_able |= tidmask;
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AdvWriteWordLram(iop_base, ASC_MC_PPR_ABLE, adv_dvc->ppr_able);
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}
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static void
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advansys_wide_slave_configure(struct scsi_device *sdev, ADV_DVC_VAR *adv_dvc)
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{
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AdvPortAddr iop_base = adv_dvc->iop_base;
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unsigned short tidmask = 1 << sdev->id;
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if (sdev->lun == 0) {
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/*
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* Handle WDTR, SDTR, and Tag Queuing. If the feature
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* is enabled in the EEPROM and the device supports the
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* feature, then enable it in the microcode.
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*/
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if ((adv_dvc->wdtr_able & tidmask) && sdev->wdtr)
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advansys_wide_enable_wdtr(iop_base, tidmask);
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if ((adv_dvc->sdtr_able & tidmask) && sdev->sdtr)
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advansys_wide_enable_sdtr(iop_base, tidmask);
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if (adv_dvc->chip_type == ADV_CHIP_ASC38C1600 && sdev->ppr)
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advansys_wide_enable_ppr(adv_dvc, iop_base, tidmask);
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/*
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* Tag Queuing is disabled for the BIOS which runs in polled
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* mode and would see no benefit from Tag Queuing. Also by
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* disabling Tag Queuing in the BIOS devices with Tag Queuing
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* bugs will at least work with the BIOS.
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*/
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if ((adv_dvc->tagqng_able & tidmask) &&
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sdev->tagged_supported) {
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unsigned short cfg_word;
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AdvReadWordLram(iop_base, ASC_MC_TAGQNG_ABLE, cfg_word);
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cfg_word |= tidmask;
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AdvWriteWordLram(iop_base, ASC_MC_TAGQNG_ABLE,
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cfg_word);
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AdvWriteByteLram(iop_base,
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ASC_MC_NUMBER_OF_MAX_CMD + sdev->id,
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adv_dvc->max_dvc_qng);
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}
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}
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if ((adv_dvc->tagqng_able & tidmask) && sdev->tagged_supported) {
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scsi_adjust_queue_depth(sdev, MSG_ORDERED_TAG,
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adv_dvc->max_dvc_qng);
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} else {
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scsi_adjust_queue_depth(sdev, 0, sdev->host->cmd_per_lun);
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}
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}
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/*
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* Set the number of commands to queue per device for the
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* specified host adapter.
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*/
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static int advansys_slave_configure(struct scsi_device *device)
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static int advansys_slave_configure(struct scsi_device *sdev)
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{
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asc_board_t *boardp;
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boardp = ASC_BOARDP(device->host);
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asc_board_t *boardp = ASC_BOARDP(sdev->host);
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boardp->flags |= ASC_SELECT_QUEUE_DEPTHS;
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/*
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||||
* Save a pointer to the device and set its initial/maximum
|
||||
* Save a pointer to the sdev and set its initial/maximum
|
||||
* queue depth. Only save the pointer for a lun0 dev though.
|
||||
*/
|
||||
if (device->lun == 0)
|
||||
boardp->device[device->id] = device;
|
||||
if (device->tagged_supported) {
|
||||
if (ASC_NARROW_BOARD(boardp)) {
|
||||
scsi_adjust_queue_depth(device, MSG_ORDERED_TAG,
|
||||
boardp->dvc_var.asc_dvc_var.
|
||||
max_dvc_qng[device->id]);
|
||||
} else {
|
||||
scsi_adjust_queue_depth(device, MSG_ORDERED_TAG,
|
||||
boardp->dvc_var.adv_dvc_var.
|
||||
max_dvc_qng);
|
||||
}
|
||||
} else {
|
||||
scsi_adjust_queue_depth(device, 0, device->host->cmd_per_lun);
|
||||
}
|
||||
ASC_DBG4(1,
|
||||
"advansys_slave_configure: device 0x%lx, boardp 0x%lx, id %d, depth %d\n",
|
||||
(ulong)device, (ulong)boardp, device->id, device->queue_depth);
|
||||
if (sdev->lun == 0)
|
||||
boardp->device[sdev->id] = sdev;
|
||||
|
||||
if (ASC_NARROW_BOARD(boardp))
|
||||
advansys_narrow_slave_configure(sdev,
|
||||
&boardp->dvc_var.asc_dvc_var);
|
||||
else
|
||||
advansys_wide_slave_configure(sdev,
|
||||
&boardp->dvc_var.adv_dvc_var);
|
||||
|
||||
return 0;
|
||||
}
|
||||
|
||||
@ -5405,22 +5440,11 @@ static void asc_isr_callback(ASC_DVC_VAR *asc_dvc_varp, ASC_QDONE_INFO *qdonep)
|
||||
ASC_DBG(2, "asc_isr_callback: QD_NO_ERROR\n");
|
||||
scp->result = 0;
|
||||
|
||||
/*
|
||||
* If an INQUIRY command completed successfully, then call
|
||||
* the AscInquiryHandling() function to set-up the device.
|
||||
*/
|
||||
if (scp->cmnd[0] == INQUIRY && scp->device->lun == 0 &&
|
||||
(scp->request_bufflen - qdonep->remain_bytes) >= 8) {
|
||||
AscInquiryHandling(asc_dvc_varp, scp->device->id & 0x7,
|
||||
(ASC_SCSI_INQUIRY *)scp->
|
||||
request_buffer);
|
||||
}
|
||||
|
||||
/*
|
||||
* Check for an underrun condition.
|
||||
*
|
||||
* If there was no error and an underrun condition, then
|
||||
* then return the number of underrun bytes.
|
||||
* return the number of underrun bytes.
|
||||
*/
|
||||
if (scp->request_bufflen != 0 && qdonep->remain_bytes != 0 &&
|
||||
qdonep->remain_bytes <= scp->request_bufflen) {
|
||||
@ -8229,8 +8253,8 @@ static int AscIsrChipHalted(ASC_DVC_VAR *asc_dvc)
|
||||
(uchar *)&ext_msg,
|
||||
sizeof(EXT_MSG) >> 1);
|
||||
|
||||
if (ext_msg.msg_type == MS_EXTEND &&
|
||||
ext_msg.msg_req == MS_SDTR_CODE &&
|
||||
if (ext_msg.msg_type == EXTENDED_MESSAGE &&
|
||||
ext_msg.msg_req == EXTENDED_SDTR &&
|
||||
ext_msg.msg_len == MS_SDTR_LEN) {
|
||||
sdtr_accept = TRUE;
|
||||
if ((ext_msg.req_ack_offset > ASC_SYN_MAX_OFFSET)) {
|
||||
@ -8312,8 +8336,8 @@ static int AscIsrChipHalted(ASC_DVC_VAR *asc_dvc)
|
||||
q_cntl);
|
||||
AscWriteLramWord(iop_base, ASCV_HALTCODE_W, 0);
|
||||
return (0);
|
||||
} else if (ext_msg.msg_type == MS_EXTEND &&
|
||||
ext_msg.msg_req == MS_WDTR_CODE &&
|
||||
} else if (ext_msg.msg_type == EXTENDED_MESSAGE &&
|
||||
ext_msg.msg_req == EXTENDED_WDTR &&
|
||||
ext_msg.msg_len == MS_WDTR_LEN) {
|
||||
|
||||
ext_msg.wdtr_width = 0;
|
||||
@ -8406,9 +8430,9 @@ static int AscIsrChipHalted(ASC_DVC_VAR *asc_dvc)
|
||||
(uchar *)&out_msg,
|
||||
sizeof(EXT_MSG) >> 1);
|
||||
|
||||
if ((out_msg.msg_type == MS_EXTEND) &&
|
||||
if ((out_msg.msg_type == EXTENDED_MESSAGE) &&
|
||||
(out_msg.msg_len == MS_SDTR_LEN) &&
|
||||
(out_msg.msg_req == MS_SDTR_CODE)) {
|
||||
(out_msg.msg_req == EXTENDED_SDTR)) {
|
||||
|
||||
asc_dvc->init_sdtr &= ~target_id;
|
||||
asc_dvc->sdtr_done &= ~target_id;
|
||||
@ -9901,9 +9925,9 @@ AscMsgOutSDTR(ASC_DVC_VAR *asc_dvc, uchar sdtr_period, uchar sdtr_offset)
|
||||
PortAddr iop_base;
|
||||
|
||||
iop_base = asc_dvc->iop_base;
|
||||
sdtr_buf.msg_type = MS_EXTEND;
|
||||
sdtr_buf.msg_type = EXTENDED_MESSAGE;
|
||||
sdtr_buf.msg_len = MS_SDTR_LEN;
|
||||
sdtr_buf.msg_req = MS_SDTR_CODE;
|
||||
sdtr_buf.msg_req = EXTENDED_SDTR;
|
||||
sdtr_buf.xfer_period = sdtr_period;
|
||||
sdtr_offset &= ASC_SYN_MAX_OFFSET;
|
||||
sdtr_buf.req_ack_offset = sdtr_offset;
|
||||
@ -10985,91 +11009,31 @@ AscSetEEPConfig(PortAddr iop_base, ASCEEP_CONFIG *cfg_buf, ushort bus_type)
|
||||
return (n_error);
|
||||
}
|
||||
|
||||
static void
|
||||
AscAsyncFix(ASC_DVC_VAR *asc_dvc, uchar tid_no, ASC_SCSI_INQUIRY *inq)
|
||||
static void AscAsyncFix(ASC_DVC_VAR *asc_dvc, struct scsi_device *sdev)
|
||||
{
|
||||
uchar dvc_type;
|
||||
ASC_SCSI_BIT_ID_TYPE tid_bits;
|
||||
|
||||
dvc_type = ASC_INQ_DVC_TYPE(inq);
|
||||
tid_bits = ASC_TIX_TO_TARGET_ID(tid_no);
|
||||
char type = sdev->type;
|
||||
ASC_SCSI_BIT_ID_TYPE tid_bits = 1 << sdev->id;
|
||||
|
||||
if (asc_dvc->bug_fix_cntl & ASC_BUG_FIX_ASYN_USE_SYN) {
|
||||
if (!(asc_dvc->init_sdtr & tid_bits)) {
|
||||
if ((dvc_type == TYPE_ROM) &&
|
||||
(strncmp(inq->vendor_id, "HP ", 3) == 0)) {
|
||||
if ((type == TYPE_ROM) &&
|
||||
(strncmp(sdev->vendor, "HP ", 3) == 0)) {
|
||||
asc_dvc->pci_fix_asyn_xfer_always |= tid_bits;
|
||||
}
|
||||
asc_dvc->pci_fix_asyn_xfer |= tid_bits;
|
||||
if ((dvc_type == TYPE_PROCESSOR) ||
|
||||
(dvc_type == TYPE_SCANNER) ||
|
||||
(dvc_type == TYPE_ROM) || (dvc_type == TYPE_TAPE)) {
|
||||
if ((type == TYPE_PROCESSOR) ||
|
||||
(type == TYPE_SCANNER) || (type == TYPE_ROM) ||
|
||||
(type == TYPE_TAPE)) {
|
||||
asc_dvc->pci_fix_asyn_xfer &= ~tid_bits;
|
||||
}
|
||||
|
||||
if (asc_dvc->pci_fix_asyn_xfer & tid_bits) {
|
||||
AscSetRunChipSynRegAtID(asc_dvc->iop_base,
|
||||
tid_no,
|
||||
ASYN_SDTR_DATA_FIX_PCI_REV_AB);
|
||||
sdev->id,
|
||||
ASYN_SDTR_DATA_FIX_PCI_REV_AB);
|
||||
}
|
||||
}
|
||||
}
|
||||
return;
|
||||
}
|
||||
|
||||
static int AscTagQueuingSafe(ASC_SCSI_INQUIRY *inq)
|
||||
{
|
||||
if ((inq->add_len >= 32) &&
|
||||
(strncmp(inq->vendor_id, "QUANTUM XP34301", 15) == 0) &&
|
||||
(strncmp(inq->product_rev_level, "1071", 4) == 0)) {
|
||||
return 0;
|
||||
}
|
||||
return 1;
|
||||
}
|
||||
|
||||
static void
|
||||
AscInquiryHandling(ASC_DVC_VAR *asc_dvc, uchar tid_no, ASC_SCSI_INQUIRY *inq)
|
||||
{
|
||||
ASC_SCSI_BIT_ID_TYPE tid_bit = ASC_TIX_TO_TARGET_ID(tid_no);
|
||||
ASC_SCSI_BIT_ID_TYPE orig_init_sdtr, orig_use_tagged_qng;
|
||||
|
||||
orig_init_sdtr = asc_dvc->init_sdtr;
|
||||
orig_use_tagged_qng = asc_dvc->use_tagged_qng;
|
||||
|
||||
asc_dvc->init_sdtr &= ~tid_bit;
|
||||
asc_dvc->cfg->can_tagged_qng &= ~tid_bit;
|
||||
asc_dvc->use_tagged_qng &= ~tid_bit;
|
||||
|
||||
if (ASC_INQ_RESPONSE_FMT(inq) >= 2 || ASC_INQ_ANSI_VER(inq) >= 2) {
|
||||
if ((asc_dvc->cfg->sdtr_enable & tid_bit) && ASC_INQ_SYNC(inq)) {
|
||||
asc_dvc->init_sdtr |= tid_bit;
|
||||
}
|
||||
if ((asc_dvc->cfg->cmd_qng_enabled & tid_bit) &&
|
||||
ASC_INQ_CMD_QUEUE(inq)) {
|
||||
if (AscTagQueuingSafe(inq)) {
|
||||
asc_dvc->use_tagged_qng |= tid_bit;
|
||||
asc_dvc->cfg->can_tagged_qng |= tid_bit;
|
||||
}
|
||||
}
|
||||
}
|
||||
if (orig_use_tagged_qng != asc_dvc->use_tagged_qng) {
|
||||
AscWriteLramByte(asc_dvc->iop_base, ASCV_DISC_ENABLE_B,
|
||||
asc_dvc->cfg->disc_enable);
|
||||
AscWriteLramByte(asc_dvc->iop_base, ASCV_USE_TAGGED_QNG_B,
|
||||
asc_dvc->use_tagged_qng);
|
||||
AscWriteLramByte(asc_dvc->iop_base, ASCV_CAN_TAGGED_QNG_B,
|
||||
asc_dvc->cfg->can_tagged_qng);
|
||||
|
||||
asc_dvc->max_dvc_qng[tid_no] =
|
||||
asc_dvc->cfg->max_tag_qng[tid_no];
|
||||
AscWriteLramByte(asc_dvc->iop_base,
|
||||
(ushort)(ASCV_MAX_DVC_QNG_BEG + tid_no),
|
||||
asc_dvc->max_dvc_qng[tid_no]);
|
||||
}
|
||||
if (orig_init_sdtr != asc_dvc->init_sdtr) {
|
||||
AscAsyncFix(asc_dvc, tid_no, inq);
|
||||
}
|
||||
return;
|
||||
}
|
||||
|
||||
static uchar AscReadLramByte(PortAddr iop_base, ushort addr)
|
||||
@ -13998,7 +13962,7 @@ static int AdvInitAsc3550Driver(ADV_DVC_VAR *asc_dvc)
|
||||
|
||||
/*
|
||||
* Microcode operating variables for WDTR, SDTR, and command tag
|
||||
* queuing will be set in AdvInquiryHandling() based on what a
|
||||
* queuing will be set in slave_configure() based on what a
|
||||
* device reports it is capable of in Inquiry byte 7.
|
||||
*
|
||||
* If SCSI Bus Resets have been disabled, then directly set
|
||||
@ -14649,7 +14613,7 @@ static int AdvInitAsc38C0800Driver(ADV_DVC_VAR *asc_dvc)
|
||||
|
||||
/*
|
||||
* Microcode operating variables for WDTR, SDTR, and command tag
|
||||
* queuing will be set in AdvInquiryHandling() based on what a
|
||||
* queuing will be set in slave_configure() based on what a
|
||||
* device reports it is capable of in Inquiry byte 7.
|
||||
*
|
||||
* If SCSI Bus Resets have been disabled, then directly set
|
||||
@ -15269,7 +15233,7 @@ static int AdvInitAsc38C1600Driver(ADV_DVC_VAR *asc_dvc)
|
||||
|
||||
/*
|
||||
* Microcode operating variables for WDTR, SDTR, and command tag
|
||||
* queuing will be set in AdvInquiryHandling() based on what a
|
||||
* queuing will be set in slave_configure() based on what a
|
||||
* device reports it is capable of in Inquiry byte 7.
|
||||
*
|
||||
* If SCSI Bus Resets have been disabled, then directly set
|
||||
@ -16952,23 +16916,6 @@ static int AdvISR(ADV_DVC_VAR *asc_dvc)
|
||||
*/
|
||||
scsiq->cntl = 0;
|
||||
|
||||
/*
|
||||
* If the command that completed was a SCSI INQUIRY and
|
||||
* LUN 0 was sent the command, then process the INQUIRY
|
||||
* command information for the device.
|
||||
*
|
||||
* Note: If data returned were either VPD or CmdDt data,
|
||||
* don't process the INQUIRY command information for
|
||||
* the device, otherwise may erroneously set *_able bits.
|
||||
*/
|
||||
if (scsiq->done_status == QD_NO_ERROR &&
|
||||
scsiq->cdb[0] == INQUIRY &&
|
||||
scsiq->target_lun == 0 &&
|
||||
(scsiq->cdb[1] & ADV_INQ_RTN_VPD_AND_CMDDT)
|
||||
== ADV_INQ_RTN_STD_INQUIRY_DATA) {
|
||||
AdvInquiryHandling(asc_dvc, scsiq);
|
||||
}
|
||||
|
||||
/*
|
||||
* Notify the driver of the completed request by passing
|
||||
* the ADV_SCSI_REQ_Q pointer to its callback function.
|
||||
@ -17074,168 +17021,6 @@ AdvSendIdleCmd(ADV_DVC_VAR *asc_dvc,
|
||||
return ADV_ERROR;
|
||||
}
|
||||
|
||||
/*
|
||||
* Inquiry Information Byte 7 Handling
|
||||
*
|
||||
* Handle SCSI Inquiry Command information for a device by setting
|
||||
* microcode operating variables that affect WDTR, SDTR, and Tag
|
||||
* Queuing.
|
||||
*/
|
||||
static void AdvInquiryHandling(ADV_DVC_VAR *asc_dvc, ADV_SCSI_REQ_Q *scsiq)
|
||||
{
|
||||
AdvPortAddr iop_base;
|
||||
uchar tid;
|
||||
ADV_SCSI_INQUIRY *inq;
|
||||
ushort tidmask;
|
||||
ushort cfg_word;
|
||||
|
||||
/*
|
||||
* AdvInquiryHandling() requires up to INQUIRY information Byte 7
|
||||
* to be available.
|
||||
*
|
||||
* If less than 8 bytes of INQUIRY information were requested or less
|
||||
* than 8 bytes were transferred, then return. cdb[4] is the request
|
||||
* length and the ADV_SCSI_REQ_Q 'data_cnt' field is set by the
|
||||
* microcode to the transfer residual count.
|
||||
*/
|
||||
|
||||
if (scsiq->cdb[4] < 8 ||
|
||||
(scsiq->cdb[4] - le32_to_cpu(scsiq->data_cnt)) < 8) {
|
||||
return;
|
||||
}
|
||||
|
||||
iop_base = asc_dvc->iop_base;
|
||||
tid = scsiq->target_id;
|
||||
|
||||
inq = (ADV_SCSI_INQUIRY *) scsiq->vdata_addr;
|
||||
|
||||
/*
|
||||
* WDTR, SDTR, and Tag Queuing cannot be enabled for old devices.
|
||||
*/
|
||||
if (ADV_INQ_RESPONSE_FMT(inq) < 2 && ADV_INQ_ANSI_VER(inq) < 2) {
|
||||
return;
|
||||
} else {
|
||||
/*
|
||||
* INQUIRY Byte 7 Handling
|
||||
*
|
||||
* Use a device's INQUIRY byte 7 to determine whether it
|
||||
* supports WDTR, SDTR, and Tag Queuing. If the feature
|
||||
* is enabled in the EEPROM and the device supports the
|
||||
* feature, then enable it in the microcode.
|
||||
*/
|
||||
|
||||
tidmask = ADV_TID_TO_TIDMASK(tid);
|
||||
|
||||
/*
|
||||
* Wide Transfers
|
||||
*
|
||||
* If the EEPROM enabled WDTR for the device and the device
|
||||
* supports wide bus (16 bit) transfers, then turn on the
|
||||
* device's 'wdtr_able' bit and write the new value to the
|
||||
* microcode.
|
||||
*/
|
||||
if ((asc_dvc->wdtr_able & tidmask) && ADV_INQ_WIDE16(inq)) {
|
||||
AdvReadWordLram(iop_base, ASC_MC_WDTR_ABLE, cfg_word);
|
||||
if ((cfg_word & tidmask) == 0) {
|
||||
cfg_word |= tidmask;
|
||||
AdvWriteWordLram(iop_base, ASC_MC_WDTR_ABLE,
|
||||
cfg_word);
|
||||
|
||||
/*
|
||||
* Clear the microcode "SDTR negotiation" and "WDTR
|
||||
* negotiation" done indicators for the target to cause
|
||||
* it to negotiate with the new setting set above.
|
||||
* WDTR when accepted causes the target to enter
|
||||
* asynchronous mode, so SDTR must be negotiated.
|
||||
*/
|
||||
AdvReadWordLram(iop_base, ASC_MC_SDTR_DONE,
|
||||
cfg_word);
|
||||
cfg_word &= ~tidmask;
|
||||
AdvWriteWordLram(iop_base, ASC_MC_SDTR_DONE,
|
||||
cfg_word);
|
||||
AdvReadWordLram(iop_base, ASC_MC_WDTR_DONE,
|
||||
cfg_word);
|
||||
cfg_word &= ~tidmask;
|
||||
AdvWriteWordLram(iop_base, ASC_MC_WDTR_DONE,
|
||||
cfg_word);
|
||||
}
|
||||
}
|
||||
|
||||
/*
|
||||
* Synchronous Transfers
|
||||
*
|
||||
* If the EEPROM enabled SDTR for the device and the device
|
||||
* supports synchronous transfers, then turn on the device's
|
||||
* 'sdtr_able' bit. Write the new value to the microcode.
|
||||
*/
|
||||
if ((asc_dvc->sdtr_able & tidmask) && ADV_INQ_SYNC(inq)) {
|
||||
AdvReadWordLram(iop_base, ASC_MC_SDTR_ABLE, cfg_word);
|
||||
if ((cfg_word & tidmask) == 0) {
|
||||
cfg_word |= tidmask;
|
||||
AdvWriteWordLram(iop_base, ASC_MC_SDTR_ABLE,
|
||||
cfg_word);
|
||||
|
||||
/*
|
||||
* Clear the microcode "SDTR negotiation" done indicator
|
||||
* for the target to cause it to negotiate with the new
|
||||
* setting set above.
|
||||
*/
|
||||
AdvReadWordLram(iop_base, ASC_MC_SDTR_DONE,
|
||||
cfg_word);
|
||||
cfg_word &= ~tidmask;
|
||||
AdvWriteWordLram(iop_base, ASC_MC_SDTR_DONE,
|
||||
cfg_word);
|
||||
}
|
||||
}
|
||||
/*
|
||||
* If the Inquiry data included enough space for the SPI-3
|
||||
* Clocking field, then check if DT mode is supported.
|
||||
*/
|
||||
if (asc_dvc->chip_type == ADV_CHIP_ASC38C1600 &&
|
||||
(scsiq->cdb[4] >= 57 ||
|
||||
(scsiq->cdb[4] - le32_to_cpu(scsiq->data_cnt)) >= 57)) {
|
||||
/*
|
||||
* PPR (Parallel Protocol Request) Capable
|
||||
*
|
||||
* If the device supports DT mode, then it must be PPR capable.
|
||||
* The PPR message will be used in place of the SDTR and WDTR
|
||||
* messages to negotiate synchronous speed and offset, transfer
|
||||
* width, and protocol options.
|
||||
*/
|
||||
if (ADV_INQ_CLOCKING(inq) & ADV_INQ_CLOCKING_DT_ONLY) {
|
||||
AdvReadWordLram(iop_base, ASC_MC_PPR_ABLE,
|
||||
asc_dvc->ppr_able);
|
||||
asc_dvc->ppr_able |= tidmask;
|
||||
AdvWriteWordLram(iop_base, ASC_MC_PPR_ABLE,
|
||||
asc_dvc->ppr_able);
|
||||
}
|
||||
}
|
||||
|
||||
/*
|
||||
* If the EEPROM enabled Tag Queuing for the device and the
|
||||
* device supports Tag Queueing, then turn on the device's
|
||||
* 'tagqng_enable' bit in the microcode and set the microcode
|
||||
* maximum command count to the ADV_DVC_VAR 'max_dvc_qng'
|
||||
* value.
|
||||
*
|
||||
* Tag Queuing is disabled for the BIOS which runs in polled
|
||||
* mode and would see no benefit from Tag Queuing. Also by
|
||||
* disabling Tag Queuing in the BIOS devices with Tag Queuing
|
||||
* bugs will at least work with the BIOS.
|
||||
*/
|
||||
if ((asc_dvc->tagqng_able & tidmask) && ADV_INQ_CMD_QUEUE(inq)) {
|
||||
AdvReadWordLram(iop_base, ASC_MC_TAGQNG_ABLE, cfg_word);
|
||||
cfg_word |= tidmask;
|
||||
AdvWriteWordLram(iop_base, ASC_MC_TAGQNG_ABLE,
|
||||
cfg_word);
|
||||
|
||||
AdvWriteByteLram(iop_base,
|
||||
ASC_MC_NUMBER_OF_MAX_CMD + tid,
|
||||
asc_dvc->max_dvc_qng);
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
static int __devinit
|
||||
advansys_wide_init_chip(asc_board_t *boardp, ADV_DVC_VAR *adv_dvc_varp)
|
||||
{
|
||||
|
Loading…
Reference in New Issue
Block a user