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FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //sys/amd64/compile/hs32/modules/usr/src/sys/modules/mlx/@/amd64/compile/hs32/modules/usr/src/sys/modules/usb/umoscom/@/dev/aic7xxx/aic79xx.reg |
/*- * Aic79xx register and scratch ram definitions. * * Copyright (c) 1994-2001, 2004 Justin T. Gibbs. * Copyright (c) 2000-2002 Adaptec 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, * without modification. * 2. Redistributions in binary form must reproduce at minimum a disclaimer * substantially similar to the "NO WARRANTY" disclaimer below * ("Disclaimer") and any redistribution must be conditioned upon * including a substantially similar Disclaimer requirement for further * binary redistribution. * 3. Neither the names of the above-listed copyright holders nor the names * of any contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * Alternatively, this software may be distributed under the terms of the * GNU General Public License ("GPL") version 2 as published by the Free * Software Foundation. * * NO WARRANTY * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTIBILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT * HOLDERS OR CONTRIBUTORS BE LIABLE FOR 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 DAMAGES. * * $FreeBSD: release/9.1.0/sys/dev/aic7xxx/aic79xx.reg 210055 2010-07-14 14:31:18Z gibbs $ */ VERSION = "$Id: //depot/aic7xxx/aic7xxx/aic79xx.reg#76 $" /* * This file is processed by the aic7xxx_asm utility for use in assembling * firmware for the aic79xx family of SCSI host adapters as well as to generate * a C header file for use in the kernel portion of the Aic79xx driver. */ /* Register window Modes */ #define M_DFF0 0 #define M_DFF1 1 #define M_CCHAN 2 #define M_SCSI 3 #define M_CFG 4 #define M_DST_SHIFT 4 #define MK_MODE(src, dst) ((src) | ((dst) << M_DST_SHIFT)) #define SET_MODE(src, dst) \ SET_SRC_MODE src; \ SET_DST_MODE dst; \ if ((ahd->bugs & AHD_SET_MODE_BUG) != 0) { \ mvi MK_MODE(src, dst) call set_mode_work_around; \ } else { \ mvi MODE_PTR, MK_MODE(src, dst); \ } #define RESTORE_MODE(mode) \ if ((ahd->bugs & AHD_SET_MODE_BUG) != 0) { \ mov mode call set_mode_work_around; \ } else { \ mov MODE_PTR, mode; \ } #define SET_SEQINTCODE(code) \ if ((ahd->bugs & AHD_INTCOLLISION_BUG) != 0) { \ mvi code call set_seqint_work_around; \ } else { \ mvi SEQINTCODE, code; \ } /* * Mode Pointer * Controls which of the 5, 512byte, address spaces should be used * as the source and destination of any register accesses in our * register window. */ register MODE_PTR { address 0x000 access_mode RW field DST_MODE 0x70 field SRC_MODE 0x07 mode_pointer } const SRC_MODE_SHIFT 0 const DST_MODE_SHIFT 4 /* * Host Interrupt Status */ register INTSTAT { address 0x001 access_mode RW field HWERRINT 0x80 field BRKADRINT 0x40 field SWTMINT 0x20 field PCIINT 0x10 field SCSIINT 0x08 field SEQINT 0x04 field CMDCMPLT 0x02 field SPLTINT 0x01 mask INT_PEND 0xFF } /* * Sequencer Interrupt Code */ register SEQINTCODE { address 0x002 access_mode RW field { NO_SEQINT, /* No seqint pending. */ BAD_PHASE, /* unknown scsi bus phase */ SEND_REJECT, /* sending a message reject */ PROTO_VIOLATION, /* Protocol Violation */ NO_MATCH, /* no cmd match for reconnect */ IGN_WIDE_RES, /* Complex IGN Wide Res Msg */ PDATA_REINIT, /* * Returned to data phase * that requires data * transfer pointers to be * recalculated from the * transfer residual. */ HOST_MSG_LOOP, /* * The bus is ready for the * host to perform another * message transaction. This * mechanism is used for things * like sync/wide negotiation * that require a kernel based * message state engine. */ BAD_STATUS, /* Bad status from target */ DATA_OVERRUN, /* * Target attempted to write * beyond the bounds of its * command. */ MKMSG_FAILED, /* * Target completed command * without honoring our ATN * request to issue a message. */ MISSED_BUSFREE, /* * The sequencer never saw * the bus go free after * either a command complete * or disconnect message. */ DUMP_CARD_STATE, ILLEGAL_PHASE, INVALID_SEQINT, CFG4ISTAT_INTR, STATUS_OVERRUN, CFG4OVERRUN, ENTERING_NONPACK, TASKMGMT_FUNC_COMPLETE, /* * Task management function * request completed with * an expected busfree. */ TASKMGMT_CMD_CMPLT_OKAY, /* * A command with a non-zero * task management function * has completed via the normal * command completion method * for commands with a zero * task management function. * This happens when an attempt * to abort a command loses * the race for the command to * complete normally. */ TRACEPOINT0, TRACEPOINT1, TRACEPOINT2, TRACEPOINT3, SAW_HWERR, BAD_SCB_STATUS } } /* * Clear Host Interrupt */ register CLRINT { address 0x003 access_mode WO field CLRHWERRINT 0x80 /* Rev B or greater */ field CLRBRKADRINT 0x40 field CLRSWTMINT 0x20 field CLRPCIINT 0x10 field CLRSCSIINT 0x08 field CLRSEQINT 0x04 field CLRCMDINT 0x02 field CLRSPLTINT 0x01 } /* * Error Register */ register ERROR { address 0x004 access_mode RO field CIOPARERR 0x80 field CIOACCESFAIL 0x40 /* Rev B or greater */ field MPARERR 0x20 field DPARERR 0x10 field SQPARERR 0x08 field ILLOPCODE 0x04 field DSCTMOUT 0x02 } /* * Clear Error */ register CLRERR { address 0x004 access_mode WO field CLRCIOPARERR 0x80 field CLRCIOACCESFAIL 0x40 /* Rev B or greater */ field CLRMPARERR 0x20 field CLRDPARERR 0x10 field CLRSQPARERR 0x08 field CLRILLOPCODE 0x04 field CLRDSCTMOUT 0x02 } /* * Host Control Register * Overall host control of the device. */ register HCNTRL { address 0x005 access_mode RW field SEQ_RESET 0x80 /* Rev B or greater */ field POWRDN 0x40 field SWINT 0x10 field SWTIMER_START_B 0x08 /* Rev B or greater */ field PAUSE 0x04 field INTEN 0x02 field CHIPRST 0x01 field CHIPRSTACK 0x01 } /* * Host New SCB Queue Offset */ register HNSCB_QOFF { address 0x006 access_mode RW size 2 } /* * Host Empty SCB Queue Offset */ register HESCB_QOFF { address 0x008 access_mode RW } /* * Host Mailbox */ register HS_MAILBOX { address 0x00B access_mode RW mask HOST_TQINPOS 0x80 /* Boundary at either 0 or 128 */ mask ENINT_COALESCE 0x40 /* Perform interrupt coalescing */ } /* * Sequencer Interupt Status */ register SEQINTSTAT { address 0x00C access_mode RO field SEQ_SWTMRTO 0x10 field SEQ_SEQINT 0x08 field SEQ_SCSIINT 0x04 field SEQ_PCIINT 0x02 field SEQ_SPLTINT 0x01 } /* * Clear SEQ Interrupt */ register CLRSEQINTSTAT { address 0x00C access_mode WO field CLRSEQ_SWTMRTO 0x10 field CLRSEQ_SEQINT 0x08 field CLRSEQ_SCSIINT 0x04 field CLRSEQ_PCIINT 0x02 field CLRSEQ_SPLTINT 0x01 } /* * Software Timer */ register SWTIMER { address 0x00E access_mode RW size 2 } /* * SEQ New SCB Queue Offset */ register SNSCB_QOFF { address 0x010 access_mode RW size 2 modes M_CCHAN } /* * SEQ Empty SCB Queue Offset */ register SESCB_QOFF { address 0x012 access_mode RW modes M_CCHAN } /* * SEQ Done SCB Queue Offset */ register SDSCB_QOFF { address 0x014 access_mode RW modes M_CCHAN size 2 } /* * Queue Offset Control & Status */ register QOFF_CTLSTA { address 0x016 access_mode RW modes M_CCHAN field EMPTY_SCB_AVAIL 0x80 field NEW_SCB_AVAIL 0x40 field SDSCB_ROLLOVR 0x20 field HS_MAILBOX_ACT 0x10 field SCB_QSIZE 0x0F { SCB_QSIZE_4, SCB_QSIZE_8, SCB_QSIZE_16, SCB_QSIZE_32, SCB_QSIZE_64, SCB_QSIZE_128, SCB_QSIZE_256, SCB_QSIZE_512, SCB_QSIZE_1024, SCB_QSIZE_2048, SCB_QSIZE_4096, SCB_QSIZE_8192, SCB_QSIZE_16384 } } /* * Interrupt Control */ register INTCTL { address 0x018 access_mode RW field SWTMINTMASK 0x80 field SWTMINTEN 0x40 field SWTIMER_START 0x20 field AUTOCLRCMDINT 0x10 field PCIINTEN 0x08 field SCSIINTEN 0x04 field SEQINTEN 0x02 field SPLTINTEN 0x01 } /* * Data FIFO Control */ register DFCNTRL { address 0x019 access_mode RW modes M_DFF0, M_DFF1 field PRELOADEN 0x80 field SCSIENWRDIS 0x40 /* Rev B only. */ field SCSIEN 0x20 field SCSIENACK 0x20 field HDMAEN 0x08 field HDMAENACK 0x08 field DIRECTION 0x04 field DIRECTIONACK 0x04 field FIFOFLUSH 0x02 field FIFOFLUSHACK 0x02 field DIRECTIONEN 0x01 } /* * Device Space Command 0 */ register DSCOMMAND0 { address 0x019 access_mode RW modes M_CFG field CACHETHEN 0x80 /* Cache Threshold enable */ field DPARCKEN 0x40 /* Data Parity Check Enable */ field MPARCKEN 0x20 /* Memory Parity Check Enable */ field EXTREQLCK 0x10 /* External Request Lock */ field DISABLE_TWATE 0x02 /* Rev B or greater */ field CIOPARCKEN 0x01 /* Internal bus parity error enable */ } /* * Data FIFO Status */ register DFSTATUS { address 0x01A access_mode RO modes M_DFF0, M_DFF1 field PRELOAD_AVAIL 0x80 field PKT_PRELOAD_AVAIL 0x40 field MREQPEND 0x10 field HDONE 0x08 field DFTHRESH 0x04 field FIFOFULL 0x02 field FIFOEMP 0x01 } /* * S/G Cache Pointer */ register SG_CACHE_PRE { address 0x01B access_mode WO modes M_DFF0, M_DFF1 field SG_ADDR_MASK 0xf8 field ODD_SEG 0x04 field LAST_SEG 0x02 } register SG_CACHE_SHADOW { address 0x01B access_mode RO modes M_DFF0, M_DFF1 field SG_ADDR_MASK 0xf8 field ODD_SEG 0x04 field LAST_SEG 0x02 field LAST_SEG_DONE 0x01 } /* * Arbiter Control */ register ARBCTL { address 0x01B access_mode RW modes M_CFG field RESET_HARB 0x80 field RETRY_SWEN 0x08 field USE_TIME 0x07 } /* * Data Channel Host Address */ register HADDR { address 0x070 access_mode RW size 8 modes M_DFF0, M_DFF1 } /* * Host Overlay DMA Address */ register HODMAADR { address 0x070 access_mode RW size 8 modes M_SCSI } /* * PCI PLL Delay. */ register PLLDELAY { address 0x070 access_mode RW size 1 modes M_CFG field SPLIT_DROP_REQ 0x80 } /* * Data Channel Host Count */ register HCNT { address 0x078 access_mode RW size 3 modes M_DFF0, M_DFF1 } /* * Host Overlay DMA Count */ register HODMACNT { address 0x078 access_mode RW size 2 modes M_SCSI } /* * Host Overlay DMA Enable */ register HODMAEN { address 0x07A access_mode RW modes M_SCSI } /* * Scatter/Gather Host Address */ register SGHADDR { address 0x07C access_mode RW size 8 modes M_DFF0, M_DFF1 } /* * SCB Host Address */ register SCBHADDR { address 0x07C access_mode RW size 8 modes M_CCHAN } /* * Scatter/Gather Host Count */ register SGHCNT { address 0x084 access_mode RW modes M_DFF0, M_DFF1 } /* * SCB Host Count */ register SCBHCNT { address 0x084 access_mode RW modes M_CCHAN } /* * Data FIFO Threshold */ register DFF_THRSH { address 0x088 access_mode RW modes M_CFG field WR_DFTHRSH 0x70 { WR_DFTHRSH_MIN, WR_DFTHRSH_25, WR_DFTHRSH_50, WR_DFTHRSH_63, WR_DFTHRSH_75, WR_DFTHRSH_85, WR_DFTHRSH_90, WR_DFTHRSH_MAX } field RD_DFTHRSH 0x07 { RD_DFTHRSH_MIN, RD_DFTHRSH_25, RD_DFTHRSH_50, RD_DFTHRSH_63, RD_DFTHRSH_75, RD_DFTHRSH_85, RD_DFTHRSH_90, RD_DFTHRSH_MAX } } /* * ROM Address */ register ROMADDR { address 0x08A access_mode RW size 3 } /* * ROM Control */ register ROMCNTRL { address 0x08D access_mode RW field ROMOP 0xE0 field ROMSPD 0x18 field REPEAT 0x02 field RDY 0x01 } /* * ROM Data */ register ROMDATA { address 0x08E access_mode RW } /* * Data Channel Receive Message 0 */ register DCHRXMSG0 { address 0x090 access_mode RO modes M_DFF0, M_DFF1 field CDNUM 0xF8 field CFNUM 0x07 } /* * CMC Recieve Message 0 */ register CMCRXMSG0 { address 0x090 access_mode RO modes M_CCHAN field CDNUM 0xF8 field CFNUM 0x07 } /* * Overlay Recieve Message 0 */ register OVLYRXMSG0 { address 0x090 access_mode RO modes M_SCSI field CDNUM 0xF8 field CFNUM 0x07 } /* * Relaxed Order Enable */ register ROENABLE { address 0x090 access_mode RW modes M_CFG field MSIROEN 0x20 field OVLYROEN 0x10 field CMCROEN 0x08 field SGROEN 0x04 field DCH1ROEN 0x02 field DCH0ROEN 0x01 } /* * Data Channel Receive Message 1 */ register DCHRXMSG1 { address 0x091 access_mode RO modes M_DFF0, M_DFF1 field CBNUM 0xFF } /* * CMC Recieve Message 1 */ register CMCRXMSG1 { address 0x091 access_mode RO modes M_CCHAN field CBNUM 0xFF } /* * Overlay Recieve Message 1 */ register OVLYRXMSG1 { address 0x091 access_mode RO modes M_SCSI field CBNUM 0xFF } /* * No Snoop Enable */ register NSENABLE { address 0x091 access_mode RW modes M_CFG field MSINSEN 0x20 field OVLYNSEN 0x10 field CMCNSEN 0x08 field SGNSEN 0x04 field DCH1NSEN 0x02 field DCH0NSEN 0x01 } /* * Data Channel Receive Message 2 */ register DCHRXMSG2 { address 0x092 access_mode RO modes M_DFF0, M_DFF1 field MINDEX 0xFF } /* * CMC Recieve Message 2 */ register CMCRXMSG2 { address 0x092 access_mode RO modes M_CCHAN field MINDEX 0xFF } /* * Overlay Recieve Message 2 */ register OVLYRXMSG2 { address 0x092 access_mode RO modes M_SCSI field MINDEX 0xFF } /* * Outstanding Split Transactions */ register OST { address 0x092 access_mode RW modes M_CFG } /* * Data Channel Receive Message 3 */ register DCHRXMSG3 { address 0x093 access_mode RO modes M_DFF0, M_DFF1 field MCLASS 0x0F } /* * CMC Recieve Message 3 */ register CMCRXMSG3 { address 0x093 access_mode RO modes M_CCHAN field MCLASS 0x0F } /* * Overlay Recieve Message 3 */ register OVLYRXMSG3 { address 0x093 access_mode RO modes M_SCSI field MCLASS 0x0F } /* * PCI-X Control */ register PCIXCTL { address 0x093 access_mode RW modes M_CFG field SERRPULSE 0x80 field UNEXPSCIEN 0x20 field SPLTSMADIS 0x10 field SPLTSTADIS 0x08 field SRSPDPEEN 0x04 field TSCSERREN 0x02 field CMPABCDIS 0x01 } /* * CMC Sequencer Byte Count */ register CMCSEQBCNT { address 0x094 access_mode RO modes M_CCHAN } /* * Overlay Sequencer Byte Count */ register OVLYSEQBCNT { address 0x094 access_mode RO modes M_SCSI } /* * Data Channel Sequencer Byte Count */ register DCHSEQBCNT { address 0x094 access_mode RO size 2 modes M_DFF0, M_DFF1 } /* * Data Channel Split Status 0 */ register DCHSPLTSTAT0 { address 0x096 access_mode RW modes M_DFF0, M_DFF1 field STAETERM 0x80 field SCBCERR 0x40 field SCADERR 0x20 field SCDATBUCKET 0x10 field CNTNOTCMPLT 0x08 field RXOVRUN 0x04 field RXSCEMSG 0x02 field RXSPLTRSP 0x01 } /* * CMC Split Status 0 */ register CMCSPLTSTAT0 { address 0x096 access_mode RW modes M_CCHAN field STAETERM 0x80 field SCBCERR 0x40 field SCADERR 0x20 field SCDATBUCKET 0x10 field CNTNOTCMPLT 0x08 field RXOVRUN 0x04 field RXSCEMSG 0x02 field RXSPLTRSP 0x01 } /* * Overlay Split Status 0 */ register OVLYSPLTSTAT0 { address 0x096 access_mode RW modes M_SCSI field STAETERM 0x80 field SCBCERR 0x40 field SCADERR 0x20 field SCDATBUCKET 0x10 field CNTNOTCMPLT 0x08 field RXOVRUN 0x04 field RXSCEMSG 0x02 field RXSPLTRSP 0x01 } /* * Data Channel Split Status 1 */ register DCHSPLTSTAT1 { address 0x097 access_mode RW modes M_DFF0, M_DFF1 field RXDATABUCKET 0x01 } /* * CMC Split Status 1 */ register CMCSPLTSTAT1 { address 0x097 access_mode RW modes M_CCHAN field RXDATABUCKET 0x01 } /* * Overlay Split Status 1 */ register OVLYSPLTSTAT1 { address 0x097 access_mode RW modes M_SCSI field RXDATABUCKET 0x01 } /* * S/G Receive Message 0 */ register SGRXMSG0 { address 0x098 access_mode RO modes M_DFF0, M_DFF1 field CDNUM 0xF8 field CFNUM 0x07 } /* * S/G Receive Message 1 */ register SGRXMSG1 { address 0x099 access_mode RO modes M_DFF0, M_DFF1 field CBNUM 0xFF } /* * S/G Receive Message 2 */ register SGRXMSG2 { address 0x09A access_mode RO modes M_DFF0, M_DFF1 field MINDEX 0xFF } /* * S/G Receive Message 3 */ register SGRXMSG3 { address 0x09B access_mode RO modes M_DFF0, M_DFF1 field MCLASS 0x0F } /* * Slave Split Out Address 0 */ register SLVSPLTOUTADR0 { address 0x098 access_mode RO modes M_SCSI field LOWER_ADDR 0x7F } /* * Slave Split Out Address 1 */ register SLVSPLTOUTADR1 { address 0x099 access_mode RO modes M_SCSI field REQ_DNUM 0xF8 field REQ_FNUM 0x07 } /* * Slave Split Out Address 2 */ register SLVSPLTOUTADR2 { address 0x09A access_mode RO modes M_SCSI field REQ_BNUM 0xFF } /* * Slave Split Out Address 3 */ register SLVSPLTOUTADR3 { address 0x09B access_mode RO modes M_SCSI field RLXORD 020 field TAG_NUM 0x1F } /* * SG Sequencer Byte Count */ register SGSEQBCNT { address 0x09C access_mode RO modes M_DFF0, M_DFF1 } /* * Slave Split Out Attribute 0 */ register SLVSPLTOUTATTR0 { address 0x09C access_mode RO modes M_SCSI field LOWER_BCNT 0xFF } /* * Slave Split Out Attribute 1 */ register SLVSPLTOUTATTR1 { address 0x09D access_mode RO modes M_SCSI field CMPLT_DNUM 0xF8 field CMPLT_FNUM 0x07 } /* * Slave Split Out Attribute 2 */ register SLVSPLTOUTATTR2 { address 0x09E access_mode RO size 2 modes M_SCSI field CMPLT_BNUM 0xFF } /* * S/G Split Status 0 */ register SGSPLTSTAT0 { address 0x09E access_mode RW modes M_DFF0, M_DFF1 field STAETERM 0x80 field SCBCERR 0x40 field SCADERR 0x20 field SCDATBUCKET 0x10 field CNTNOTCMPLT 0x08 field RXOVRUN 0x04 field RXSCEMSG 0x02 field RXSPLTRSP 0x01 } /* * S/G Split Status 1 */ register SGSPLTSTAT1 { address 0x09F access_mode RW modes M_DFF0, M_DFF1 field RXDATABUCKET 0x01 } /* * Special Function */ register SFUNCT { address 0x09f access_mode RW modes M_CFG field TEST_GROUP 0xF0 field TEST_NUM 0x0F } /* * Data FIFO 0 PCI Status */ register DF0PCISTAT { address 0x0A0 access_mode RW modes M_CFG field DPE 0x80 field SSE 0x40 field RMA 0x20 field RTA 0x10 field SCAAPERR 0x08 field RDPERR 0x04 field TWATERR 0x02 field DPR 0x01 } /* * Data FIFO 1 PCI Status */ register DF1PCISTAT { address 0x0A1 access_mode RW modes M_CFG field DPE 0x80 field SSE 0x40 field RMA 0x20 field RTA 0x10 field SCAAPERR 0x08 field RDPERR 0x04 field TWATERR 0x02 field DPR 0x01 } /* * S/G PCI Status */ register SGPCISTAT { address 0x0A2 access_mode RW modes M_CFG field DPE 0x80 field SSE 0x40 field RMA 0x20 field RTA 0x10 field SCAAPERR 0x08 field RDPERR 0x04 field DPR 0x01 } /* * CMC PCI Status */ register CMCPCISTAT { address 0x0A3 access_mode RW modes M_CFG field DPE 0x80 field SSE 0x40 field RMA 0x20 field RTA 0x10 field SCAAPERR 0x08 field RDPERR 0x04 field TWATERR 0x02 field DPR 0x01 } /* * Overlay PCI Status */ register OVLYPCISTAT { address 0x0A4 access_mode RW modes M_CFG field DPE 0x80 field SSE 0x40 field RMA 0x20 field RTA 0x10 field SCAAPERR 0x08 field RDPERR 0x04 field DPR 0x01 } /* * PCI Status for MSI Master DMA Transfer */ register MSIPCISTAT { address 0x0A6 access_mode RW modes M_CFG field SSE 0x40 field RMA 0x20 field RTA 0x10 field CLRPENDMSI 0x08 field TWATERR 0x02 field DPR 0x01 } /* * PCI Status for Target */ register TARGPCISTAT { address 0x0A7 access_mode RW modes M_CFG field DPE 0x80 field SSE 0x40 field STA 0x08 field TWATERR 0x02 } /* * LQ Packet In * The last LQ Packet recieved */ register LQIN { address 0x020 access_mode RW size 20 modes M_DFF0, M_DFF1, M_SCSI } /* * SCB Type Pointer * SCB offset for Target Mode SCB type information */ register TYPEPTR { address 0x020 access_mode RW modes M_CFG } /* * Queue Tag Pointer * SCB offset to the Two Byte tag identifier used for target mode. */ register TAGPTR { address 0x021 access_mode RW modes M_CFG } /* * Logical Unit Number Pointer * SCB offset to the LSB (little endian) of the lun field. */ register LUNPTR { address 0x022 access_mode RW modes M_CFG } /* * Data Length Pointer * SCB offset for the 4 byte data length field in target mode. */ register DATALENPTR { address 0x023 access_mode RW modes M_CFG } /* * Status Length Pointer * SCB offset to the two byte status field in target SCBs. */ register STATLENPTR { address 0x024 access_mode RW modes M_CFG } /* * Command Length Pointer * Scb offset for the CDB length field in initiator SCBs. */ register CMDLENPTR { address 0x025 access_mode RW modes M_CFG } /* * Task Attribute Pointer * Scb offset for the byte field specifying the attribute byte * to be used in command packets. */ register ATTRPTR { address 0x026 access_mode RW modes M_CFG } /* * Task Management Flags Pointer * Scb offset for the byte field specifying the attribute flags * byte to be used in command packets. */ register FLAGPTR { address 0x027 access_mode RW modes M_CFG } /* * Command Pointer * Scb offset for the first byte in the CDB for initiator SCBs. */ register CMDPTR { address 0x028 access_mode RW modes M_CFG } /* * Queue Next Pointer * Scb offset for the 2 byte "next scb link". */ register QNEXTPTR { address 0x029 access_mode RW modes M_CFG } /* * SCSI ID Pointer * Scb offset to the value to place in the SCSIID register * during target mode connections. */ register IDPTR { address 0x02A access_mode RW modes M_CFG } /* * Command Aborted Byte Pointer * Offset to the SCB flags field that includes the * "SCB aborted" status bit. */ register ABRTBYTEPTR { address 0x02B access_mode RW modes M_CFG } /* * Command Aborted Bit Pointer * Bit offset in the SCB flags field for "SCB aborted" status. */ register ABRTBITPTR { address 0x02C access_mode RW modes M_CFG } /* * Rev B or greater. */ register MAXCMDBYTES { address 0x02D access_mode RW modes M_CFG } /* * Rev B or greater. */ register MAXCMD2RCV { address 0x02E access_mode RW modes M_CFG } /* * Rev B or greater. */ register SHORTTHRESH { address 0x02F access_mode RW modes M_CFG } /* * Logical Unit Number Length * The length, in bytes, of the SCB lun field. */ register LUNLEN { address 0x030 access_mode RW modes M_CFG mask ILUNLEN 0x0F mask TLUNLEN 0xF0 } const LUNLEN_SINGLE_LEVEL_LUN 0xF /* * CDB Limit * The size, in bytes, of the embedded CDB field in initator SCBs. */ register CDBLIMIT { address 0x031 access_mode RW modes M_CFG } /* * Maximum Commands * The maximum number of commands to issue during a * single packetized connection. */ register MAXCMD { address 0x032 access_mode RW modes M_CFG } /* * Maximum Command Counter * The number of commands already sent during this connection */ register MAXCMDCNT { address 0x033 access_mode RW modes M_CFG } /* * LQ Packet Reserved Bytes * The bytes to be sent in the currently reserved fileds * of all LQ packets. */ register LQRSVD01 { address 0x034 access_mode RW modes M_SCSI } register LQRSVD16 { address 0x035 access_mode RW modes M_SCSI } register LQRSVD17 { address 0x036 access_mode RW modes M_SCSI } /* * Command Reserved 0 * The byte to be sent for the reserved byte 0 of * outgoing command packets. */ register CMDRSVD0 { address 0x037 access_mode RW modes M_CFG } /* * LQ Manager Control 0 */ register LQCTL0 { address 0x038 access_mode RW modes M_CFG field LQITARGCLT 0xC0 field LQIINITGCLT 0x30 field LQ0TARGCLT 0x0C field LQ0INITGCLT 0x03 } /* * LQ Manager Control 1 */ register LQCTL1 { address 0x038 access_mode RW modes M_DFF0, M_DFF1, M_SCSI field PCI2PCI 0x04 field SINGLECMD 0x02 field ABORTPENDING 0x01 } /* * LQ Manager Control 2 */ register LQCTL2 { address 0x039 access_mode RW modes M_DFF0, M_DFF1, M_SCSI field LQIRETRY 0x80 field LQICONTINUE 0x40 field LQITOIDLE 0x20 field LQIPAUSE 0x10 field LQORETRY 0x08 field LQOCONTINUE 0x04 field LQOTOIDLE 0x02 field LQOPAUSE 0x01 } /* * SCSI RAM BIST0 */ register SCSBIST0 { address 0x039 access_mode RW modes M_CFG field GSBISTERR 0x40 field GSBISTDONE 0x20 field GSBISTRUN 0x10 field OSBISTERR 0x04 field OSBISTDONE 0x02 field OSBISTRUN 0x01 } /* * SCSI Sequence Control0 */ register SCSISEQ0 { address 0x03A access_mode RW modes M_DFF0, M_DFF1, M_SCSI field TEMODEO 0x80 field ENSELO 0x40 field ENARBO 0x20 field FORCEBUSFREE 0x10 field SCSIRSTO 0x01 } /* * SCSI RAM BIST 1 */ register SCSBIST1 { address 0x03A access_mode RW modes M_CFG field NTBISTERR 0x04 field NTBISTDONE 0x02 field NTBISTRUN 0x01 } /* * SCSI Sequence Control 1 */ register SCSISEQ1 { address 0x03B access_mode RW modes M_DFF0, M_DFF1, M_SCSI field MANUALCTL 0x40 field ENSELI 0x20 field ENRSELI 0x10 field MANUALP 0x0C field ENAUTOATNP 0x02 field ALTSTIM 0x01 } /* * SCSI Transfer Control 0 */ register SXFRCTL0 { address 0x03C access_mode RW modes M_SCSI field DFON 0x80 field DFPEXP 0x40 field BIOSCANCELEN 0x10 field SPIOEN 0x08 } /* * SCSI Transfer Control 1 */ register SXFRCTL1 { address 0x03D access_mode RW modes M_SCSI field BITBUCKET 0x80 field ENSACHK 0x40 field ENSPCHK 0x20 field STIMESEL 0x18 field ENSTIMER 0x04 field ACTNEGEN 0x02 field STPWEN 0x01 } /* * SCSI Transfer Control 2 */ register SXFRCTL2 { address 0x03E access_mode RW modes M_SCSI field AUTORSTDIS 0x10 field CMDDMAEN 0x08 field ASU 0x07 } /* * SCSI Bus Initiator IDs * Bitmask of observed initiators on the bus. */ register BUSINITID { address 0x03C access_mode RW modes M_CFG size 2 } /* * Data Length Counters * Packet byte counter. */ register DLCOUNT { address 0x03C access_mode RW modes M_DFF0, M_DFF1 size 3 } /* * Data FIFO Status */ register DFFSTAT { address 0x03F access_mode RW modes M_SCSI field FIFO1FREE 0x20 field FIFO0FREE 0x10 /* * On the B, this enum only works * in the read direction. For writes, * you must use the B version of the * CURRFIFO_0 definition which is defined * as a constant outside of this register * definition to avoid confusing the * register pretty printing code. */ enum CURRFIFO 0x03 { CURRFIFO_0, CURRFIFO_1, CURRFIFO_NONE 0x3 } } const B_CURRFIFO_0 0x2 /* * SCSI Bus Target IDs * Bitmask of observed targets on the bus. */ register BUSTARGID { address 0x03E access_mode RW modes M_CFG size 2 } /* * SCSI Control Signal Out */ register SCSISIGO { address 0x040 access_mode RW modes M_DFF0, M_DFF1, M_SCSI field CDO 0x80 field IOO 0x40 field MSGO 0x20 field ATNO 0x10 field SELO 0x08 field BSYO 0x04 field REQO 0x02 field ACKO 0x01 /* * Possible phases to write into SCSISIG0 */ enum PHASE_MASK CDO|IOO|MSGO { P_DATAOUT 0x0, P_DATAIN IOO, P_DATAOUT_DT P_DATAOUT|MSGO, P_DATAIN_DT P_DATAIN|MSGO, P_COMMAND CDO, P_MESGOUT CDO|MSGO, P_STATUS CDO|IOO, P_MESGIN CDO|IOO|MSGO } } register SCSISIGI { address 0x041 access_mode RO modes M_DFF0, M_DFF1, M_SCSI field CDI 0x80 field IOI 0x40 field MSGI 0x20 field ATNI 0x10 field SELI 0x08 field BSYI 0x04 field REQI 0x02 field ACKI 0x01 /* * Possible phases in SCSISIGI */ enum PHASE_MASK CDO|IOO|MSGO { P_DATAOUT 0x0, P_DATAIN IOO, P_DATAOUT_DT P_DATAOUT|MSGO, P_DATAIN_DT P_DATAIN|MSGO, P_COMMAND CDO, P_MESGOUT CDO|MSGO, P_STATUS CDO|IOO, P_MESGIN CDO|IOO|MSGO } } /* * Multiple Target IDs * Bitmask of ids to respond as a target. */ register MULTARGID { address 0x040 access_mode RW modes M_CFG size 2 } /* * SCSI Phase */ register SCSIPHASE { address 0x042 access_mode RO modes M_DFF0, M_DFF1, M_SCSI field STATUS_PHASE 0x20 field COMMAND_PHASE 0x10 field MSG_IN_PHASE 0x08 field MSG_OUT_PHASE 0x04 field DATA_PHASE_MASK 0x03 { DATA_OUT_PHASE 0x01, DATA_IN_PHASE 0x02 } } /* * SCSI Data 0 Image */ register SCSIDAT0_IMG { address 0x043 access_mode RW modes M_DFF0, M_DFF1, M_SCSI } /* * SCSI Latched Data */ register SCSIDAT { address 0x044 access_mode RW modes M_DFF0, M_DFF1, M_SCSI size 2 } /* * SCSI Data Bus */ register SCSIBUS { address 0x046 access_mode RW modes M_DFF0, M_DFF1, M_SCSI size 2 } /* * Target ID In */ register TARGIDIN { address 0x048 access_mode RO modes M_DFF0, M_DFF1, M_SCSI field CLKOUT 0x80 field TARGID 0x0F } /* * Selection/Reselection ID * Upper four bits are the device id. The ONEBIT is set when the re/selecting * device did not set its own ID. */ register SELID { address 0x049 access_mode RW modes M_DFF0, M_DFF1, M_SCSI field SELID_MASK 0xf0 field ONEBIT 0x08 } /* * SCSI Block Control * Controls Bus type and channel selection. SELWIDE allows for the * coexistence of 8bit and 16bit devices on a wide bus. */ register SBLKCTL { address 0x04A access_mode RW modes M_DFF0, M_DFF1, M_SCSI field DIAGLEDEN 0x80 field DIAGLEDON 0x40 field ENAB40 0x08 /* LVD transceiver active */ field ENAB20 0x04 /* SE/HVD transceiver active */ field SELWIDE 0x02 } /* * Option Mode */ register OPTIONMODE { address 0x04A access_mode RW modes M_CFG field BIOSCANCTL 0x80 field AUTOACKEN 0x40 field BIASCANCTL 0x20 field BUSFREEREV 0x10 field ENDGFORMCHK 0x04 field AUTO_MSGOUT_DE 0x02 mask OPTIONMODE_DEFAULTS AUTO_MSGOUT_DE } /* * SCSI Status 0 */ register SSTAT0 { address 0x04B access_mode RO modes M_DFF0, M_DFF1, M_SCSI field TARGET 0x80 /* Board acting as target */ field SELDO 0x40 /* Selection Done */ field SELDI 0x20 /* Board has been selected */ field SELINGO 0x10 /* Selection In Progress */ field IOERR 0x08 /* LVD Tranceiver mode changed */ field OVERRUN 0x04 /* SCSI Offset overrun detected */ field SPIORDY 0x02 /* SCSI PIO Ready */ field ARBDO 0x01 /* Arbitration Done Out */ } /* * Clear SCSI Interrupt 0 * Writing a 1 to a bit clears the associated SCSI Interrupt in SSTAT0. */ register CLRSINT0 { address 0x04B access_mode WO modes M_DFF0, M_DFF1, M_SCSI field CLRSELDO 0x40 field CLRSELDI 0x20 field CLRSELINGO 0x10 field CLRIOERR 0x08 field CLROVERRUN 0x04 field CLRSPIORDY 0x02 field CLRARBDO 0x01 } /* * SCSI Interrupt Mode 0 * Setting any bit will enable the corresponding function * in SIMODE0 to interrupt via the IRQ pin. */ register SIMODE0 { address 0x04B access_mode RW modes M_CFG field ENSELDO 0x40 field ENSELDI 0x20 field ENSELINGO 0x10 field ENIOERR 0x08 field ENOVERRUN 0x04 field ENSPIORDY 0x02 field ENARBDO 0x01 } /* * SCSI Status 1 */ register SSTAT1 { address 0x04C access_mode RO modes M_DFF0, M_DFF1, M_SCSI field SELTO 0x80 field ATNTARG 0x40 field SCSIRSTI 0x20 field PHASEMIS 0x10 field BUSFREE 0x08 field SCSIPERR 0x04 field STRB2FAST 0x02 field REQINIT 0x01 } /* * Clear SCSI Interrupt 1 * Writing a 1 to a bit clears the associated SCSI Interrupt in SSTAT1. */ register CLRSINT1 { address 0x04C access_mode WO modes M_DFF0, M_DFF1, M_SCSI field CLRSELTIMEO 0x80 field CLRATNO 0x40 field CLRSCSIRSTI 0x20 field CLRBUSFREE 0x08 field CLRSCSIPERR 0x04 field CLRSTRB2FAST 0x02 field CLRREQINIT 0x01 } /* * SCSI Status 2 */ register SSTAT2 { address 0x04d access_mode RO modes M_DFF0, M_DFF1, M_SCSI field BUSFREETIME 0xc0 { BUSFREE_LQO 0x40, BUSFREE_DFF0 0x80, BUSFREE_DFF1 0xC0 } field NONPACKREQ 0x20 field EXP_ACTIVE 0x10 /* SCSI Expander Active */ field BSYX 0x08 /* Busy Expander */ field WIDE_RES 0x04 /* Modes 0 and 1 only */ field SDONE 0x02 /* Modes 0 and 1 only */ field DMADONE 0x01 /* Modes 0 and 1 only */ } /* * Clear SCSI Interrupt 2 */ register CLRSINT2 { address 0x04D access_mode WO modes M_DFF0, M_DFF1, M_SCSI field CLRNONPACKREQ 0x20 field CLRWIDE_RES 0x04 /* Modes 0 and 1 only */ field CLRSDONE 0x02 /* Modes 0 and 1 only */ field CLRDMADONE 0x01 /* Modes 0 and 1 only */ } /* * SCSI Interrupt Mode 2 */ register SIMODE2 { address 0x04D access_mode RW modes M_CFG field ENWIDE_RES 0x04 field ENSDONE 0x02 field ENDMADONE 0x01 } /* * Physical Error Diagnosis */ register PERRDIAG { address 0x04E access_mode RO modes M_DFF0, M_DFF1, M_SCSI field HIZERO 0x80 field HIPERR 0x40 field PREVPHASE 0x20 field PARITYERR 0x10 field AIPERR 0x08 field CRCERR 0x04 field DGFORMERR 0x02 field DTERR 0x01 } /* * LQI Manager Current State */ register LQISTATE { address 0x04E access_mode RO modes M_CFG } /* * SCSI Offset Count */ register SOFFCNT { address 0x04F access_mode RO modes M_DFF0, M_DFF1, M_SCSI } /* * LQO Manager Current State */ register LQOSTATE { address 0x04F access_mode RO modes M_CFG } /* * LQI Manager Status */ register LQISTAT0 { address 0x050 access_mode RO modes M_DFF0, M_DFF1, M_SCSI field LQIATNQAS 0x20 field LQICRCT1 0x10 field LQICRCT2 0x08 field LQIBADLQT 0x04 field LQIATNLQ 0x02 field LQIATNCMD 0x01 } /* * Clear LQI Interrupts 0 */ register CLRLQIINT0 { address 0x050 access_mode WO modes M_DFF0, M_DFF1, M_SCSI field CLRLQIATNQAS 0x20 field CLRLQICRCT1 0x10 field CLRLQICRCT2 0x08 field CLRLQIBADLQT 0x04 field CLRLQIATNLQ 0x02 field CLRLQIATNCMD 0x01 } /* * LQI Manager Interrupt Mode 0 */ register LQIMODE0 { address 0x050 access_mode RW modes M_CFG field ENLQIATNQASK 0x20 field ENLQICRCT1 0x10 field ENLQICRCT2 0x08 field ENLQIBADLQT 0x04 field ENLQIATNLQ 0x02 field ENLQIATNCMD 0x01 } /* * LQI Manager Status 1 */ register LQISTAT1 { address 0x051 access_mode RO modes M_DFF0, M_DFF1, M_SCSI field LQIPHASE_LQ 0x80 field LQIPHASE_NLQ 0x40 field LQIABORT 0x20 field LQICRCI_LQ 0x10 field LQICRCI_NLQ 0x08 field LQIBADLQI 0x04 field LQIOVERI_LQ 0x02 field LQIOVERI_NLQ 0x01 } /* * Clear LQI Manager Interrupts1 */ register CLRLQIINT1 { address 0x051 access_mode WO modes M_DFF0, M_DFF1, M_SCSI field CLRLQIPHASE_LQ 0x80 field CLRLQIPHASE_NLQ 0x40 field CLRLIQABORT 0x20 field CLRLQICRCI_LQ 0x10 field CLRLQICRCI_NLQ 0x08 field CLRLQIBADLQI 0x04 field CLRLQIOVERI_LQ 0x02 field CLRLQIOVERI_NLQ 0x01 } /* * LQI Manager Interrupt Mode 1 */ register LQIMODE1 { address 0x051 access_mode RW modes M_CFG field ENLQIPHASE_LQ 0x80 /* LQIPHASE1 */ field ENLQIPHASE_NLQ 0x40 /* LQIPHASE2 */ field ENLIQABORT 0x20 field ENLQICRCI_LQ 0x10 /* LQICRCI1 */ field ENLQICRCI_NLQ 0x08 /* LQICRCI2 */ field ENLQIBADLQI 0x04 field ENLQIOVERI_LQ 0x02 /* LQIOVERI1 */ field ENLQIOVERI_NLQ 0x01 /* LQIOVERI2 */ } /* * LQI Manager Status 2 */ register LQISTAT2 { address 0x052 access_mode RO modes M_DFF0, M_DFF1, M_SCSI field PACKETIZED 0x80 field LQIPHASE_OUTPKT 0x40 field LQIWORKONLQ 0x20 field LQIWAITFIFO 0x10 field LQISTOPPKT 0x08 field LQISTOPLQ 0x04 field LQISTOPCMD 0x02 field LQIGSAVAIL 0x01 } /* * SCSI Status 3 */ register SSTAT3 { address 0x053 access_mode RO modes M_DFF0, M_DFF1, M_SCSI field NTRAMPERR 0x02 field OSRAMPERR 0x01 } /* * Clear SCSI Status 3 */ register CLRSINT3 { address 0x053 access_mode WO modes M_DFF0, M_DFF1, M_SCSI field CLRNTRAMPERR 0x02 field CLROSRAMPERR 0x01 } /* * SCSI Interrupt Mode 3 */ register SIMODE3 { address 0x053 access_mode RW modes M_CFG field ENNTRAMPERR 0x02 field ENOSRAMPERR 0x01 } /* * LQO Manager Status 0 */ register LQOSTAT0 { address 0x054 access_mode RO modes M_DFF0, M_DFF1, M_SCSI field LQOTARGSCBPERR 0x10 field LQOSTOPT2 0x08 field LQOATNLQ 0x04 field LQOATNPKT 0x02 field LQOTCRC 0x01 } /* * Clear LQO Manager interrupt 0 */ register CLRLQOINT0 { address 0x054 access_mode WO modes M_DFF0, M_DFF1, M_SCSI field CLRLQOTARGSCBPERR 0x10 field CLRLQOSTOPT2 0x08 field CLRLQOATNLQ 0x04 field CLRLQOATNPKT 0x02 field CLRLQOTCRC 0x01 } /* * LQO Manager Interrupt Mode 0 */ register LQOMODE0 { address 0x054 access_mode RW modes M_CFG field ENLQOTARGSCBPERR 0x10 field ENLQOSTOPT2 0x08 field ENLQOATNLQ 0x04 field ENLQOATNPKT 0x02 field ENLQOTCRC 0x01 } /* * LQO Manager Status 1 */ register LQOSTAT1 { address 0x055 access_mode RO modes M_DFF0, M_DFF1, M_SCSI field LQOINITSCBPERR 0x10 field LQOSTOPI2 0x08 field LQOBADQAS 0x04 field LQOBUSFREE 0x02 field LQOPHACHGINPKT 0x01 } /* * Clear LOQ Interrupt 1 */ register CLRLQOINT1 { address 0x055 access_mode WO modes M_DFF0, M_DFF1, M_SCSI field CLRLQOINITSCBPERR 0x10 field CLRLQOSTOPI2 0x08 field CLRLQOBADQAS 0x04 field CLRLQOBUSFREE 0x02 field CLRLQOPHACHGINPKT 0x01 } /* * LQO Manager Interrupt Mode 1 */ register LQOMODE1 { address 0x055 access_mode RW modes M_CFG field ENLQOINITSCBPERR 0x10 field ENLQOSTOPI2 0x08 field ENLQOBADQAS 0x04 field ENLQOBUSFREE 0x02 field ENLQOPHACHGINPKT 0x01 } /* * LQO Manager Status 2 */ register LQOSTAT2 { address 0x056 access_mode RO modes M_DFF0, M_DFF1, M_SCSI field LQOPKT 0xE0 field LQOWAITFIFO 0x10 field LQOPHACHGOUTPKT 0x02 /* outside of packet boundaries. */ field LQOSTOP0 0x01 /* Stopped after sending all packets */ } /* * Output Synchronizer Space Count */ register OS_SPACE_CNT { address 0x056 access_mode RO modes M_CFG } /* * SCSI Interrupt Mode 1 * Setting any bit will enable the corresponding function * in SIMODE1 to interrupt via the IRQ pin. */ register SIMODE1 { address 0x057 access_mode RW modes M_DFF0, M_DFF1, M_SCSI field ENSELTIMO 0x80 field ENATNTARG 0x40 field ENSCSIRST 0x20 field ENPHASEMIS 0x10 field ENBUSFREE 0x08 field ENSCSIPERR 0x04 field ENSTRB2FAST 0x02 field ENREQINIT 0x01 } /* * Good Status FIFO */ register GSFIFO { address 0x058 access_mode RO size 2 modes M_DFF0, M_DFF1, M_SCSI } /* * Data FIFO SCSI Transfer Control */ register DFFSXFRCTL { address 0x05A access_mode RW modes M_DFF0, M_DFF1 field DFFBITBUCKET 0x08 field CLRSHCNT 0x04 field CLRCHN 0x02 field RSTCHN 0x01 } /* * Next SCSI Control Block */ register NEXTSCB { address 0x05A access_mode RW size 2 modes M_SCSI } /* Rev B only. */ register LQOSCSCTL { address 0x05A access_mode RW size 1 modes M_CFG field LQOH2A_VERSION 0x80 field LQONOCHKOVER 0x01 } /* * SEQ Interrupts */ register SEQINTSRC { address 0x05B access_mode RO modes M_DFF0, M_DFF1 field CTXTDONE 0x40 field SAVEPTRS 0x20 field CFG4DATA 0x10 field CFG4ISTAT 0x08 field CFG4TSTAT 0x04 field CFG4ICMD 0x02 field CFG4TCMD 0x01 } /* * Clear Arp Interrupts */ register CLRSEQINTSRC { address 0x05B access_mode WO modes M_DFF0, M_DFF1 field CLRCTXTDONE 0x40 field CLRSAVEPTRS 0x20 field CLRCFG4DATA 0x10 field CLRCFG4ISTAT 0x08 field CLRCFG4TSTAT 0x04 field CLRCFG4ICMD 0x02 field CLRCFG4TCMD 0x01 } /* * SEQ Interrupt Enabled (Shared) */ register SEQIMODE { address 0x05C access_mode RW modes M_DFF0, M_DFF1 field ENCTXTDONE 0x40 field ENSAVEPTRS 0x20 field ENCFG4DATA 0x10 field ENCFG4ISTAT 0x08 field ENCFG4TSTAT 0x04 field ENCFG4ICMD 0x02 field ENCFG4TCMD 0x01 } /* * Current SCSI Control Block */ register CURRSCB { address 0x05C access_mode RW size 2 modes M_SCSI } /* * Data FIFO Status */ register MDFFSTAT { address 0x05D access_mode RO modes M_DFF0, M_DFF1 field SHCNTNEGATIVE 0x40 /* Rev B or higher */ field SHCNTMINUS1 0x20 /* Rev B or higher */ field LASTSDONE 0x10 field SHVALID 0x08 field DLZERO 0x04 /* FIFO data ends on packet boundary. */ field DATAINFIFO 0x02 field FIFOFREE 0x01 } /* * CRC Control */ register CRCCONTROL { address 0x05d access_mode RW modes M_CFG field CRCVALCHKEN 0x40 } /* * SCSI Test Control */ register SCSITEST { address 0x05E access_mode RW modes M_CFG field CNTRTEST 0x08 field SEL_TXPLL_DEBUG 0x04 } /* * Data FIFO Queue Tag */ register DFFTAG { address 0x05E access_mode RW size 2 modes M_DFF0, M_DFF1 } /* * Last SCSI Control Block */ register LASTSCB { address 0x05E access_mode RW size 2 modes M_SCSI } /* * SCSI I/O Cell Power-down Control */ register IOPDNCTL { address 0x05F access_mode RW modes M_CFG field DISABLE_OE 0x80 field PDN_IDIST 0x04 field PDN_DIFFSENSE 0x01 } /* * Shaddow Host Address. */ register SHADDR { address 0x060 access_mode RO size 8 modes M_DFF0, M_DFF1 } /* * Data Group CRC Interval. */ register DGRPCRCI { address 0x060 access_mode RW size 2 modes M_CFG } /* * Data Transfer Negotiation Address */ register NEGOADDR { address 0x060 access_mode RW modes M_SCSI } /* * Data Transfer Negotiation Data - Period Byte */ register NEGPERIOD { address 0x061 access_mode RW modes M_SCSI } /* * Packetized CRC Interval */ register PACKCRCI { address 0x062 access_mode RW size 2 modes M_CFG } /* * Data Transfer Negotiation Data - Offset Byte */ register NEGOFFSET { address 0x062 access_mode RW modes M_SCSI } /* * Data Transfer Negotiation Data - PPR Options */ register NEGPPROPTS { address 0x063 access_mode RW modes M_SCSI field PPROPT_PACE 0x08 field PPROPT_QAS 0x04 field PPROPT_DT 0x02 field PPROPT_IUT 0x01 } /* * Data Transfer Negotiation Data - Connection Options */ register NEGCONOPTS { address 0x064 access_mode RW modes M_SCSI field ENSNAPSHOT 0x40 field RTI_WRTDIS 0x20 field RTI_OVRDTRN 0x10 field ENSLOWCRC 0x08 field ENAUTOATNI 0x04 field ENAUTOATNO 0x02 field WIDEXFER 0x01 } /* * Negotiation Table Annex Column Index. */ register ANNEXCOL { address 0x065 access_mode RW modes M_SCSI } register SCSCHKN { address 0x066 access_mode RW modes M_CFG field STSELSKIDDIS 0x40 field CURRFIFODEF 0x20 field WIDERESEN 0x10 field SDONEMSKDIS 0x08 field DFFACTCLR 0x04 field SHVALIDSTDIS 0x02 field LSTSGCLRDIS 0x01 } const AHD_ANNEXCOL_PER_DEV0 4 const AHD_NUM_PER_DEV_ANNEXCOLS 4 const AHD_ANNEXCOL_PRECOMP_SLEW 4 const AHD_PRECOMP_MASK 0x07 const AHD_PRECOMP_SHIFT 0 const AHD_PRECOMP_CUTBACK_17 0x04 const AHD_PRECOMP_CUTBACK_29 0x06 const AHD_PRECOMP_CUTBACK_37 0x07 const AHD_SLEWRATE_MASK 0x78 const AHD_SLEWRATE_SHIFT 3 /* * Rev A has only a single bit (high bit of field) of slew adjustment. * Rev B has 4 bits. The current default happens to be the same for both. */ const AHD_SLEWRATE_DEF_REVA 0x08 const AHD_SLEWRATE_DEF_REVB 0x08 /* Rev A does not have any amplitude setting. */ const AHD_ANNEXCOL_AMPLITUDE 6 const AHD_AMPLITUDE_MASK 0x7 const AHD_AMPLITUDE_SHIFT 0 const AHD_AMPLITUDE_DEF 0x7 /* * Negotiation Table Annex Data Port. */ register ANNEXDAT { address 0x066 access_mode RW modes M_SCSI } /* * Initiator's Own Id. * The SCSI ID to use for Selection Out and seen during a reselection.. */ register IOWNID { address 0x067 access_mode RW modes M_SCSI } /* * 960MHz Phase-Locked Loop Control 0 */ register PLL960CTL0 { address 0x068 access_mode RW modes M_CFG field PLL_VCOSEL 0x80 field PLL_PWDN 0x40 field PLL_NS 0x30 field PLL_ENLUD 0x08 field PLL_ENLPF 0x04 field PLL_DLPF 0x02 field PLL_ENFBM 0x01 } /* * Target Own Id */ register TOWNID { address 0x069 access_mode RW modes M_SCSI } /* * 960MHz Phase-Locked Loop Control 1 */ register PLL960CTL1 { address 0x069 access_mode RW modes M_CFG field PLL_CNTEN 0x80 field PLL_CNTCLR 0x40 field PLL_RST 0x01 } /* * Expander Signature */ register XSIG { address 0x06A access_mode RW modes M_SCSI } /* * Shadow Byte Count */ register SHCNT { address 0x068 access_mode RW size 3 modes M_DFF0, M_DFF1 } /* * Selection Out ID */ register SELOID { address 0x06B access_mode RW modes M_SCSI } /* * 960-MHz Phase-Locked Loop Test Count */ register PLL960CNT0 { address 0x06A access_mode RO size 2 modes M_CFG } /* * 400-MHz Phase-Locked Loop Control 0 */ register PLL400CTL0 { address 0x06C access_mode RW modes M_CFG field PLL_VCOSEL 0x80 field PLL_PWDN 0x40 field PLL_NS 0x30 field PLL_ENLUD 0x08 field PLL_ENLPF 0x04 field PLL_DLPF 0x02 field PLL_ENFBM 0x01 } /* * Arbitration Fairness */ register FAIRNESS { address 0x06C access_mode RW size 2 modes M_SCSI } /* * 400-MHz Phase-Locked Loop Control 1 */ register PLL400CTL1 { address 0x06D access_mode RW modes M_CFG field PLL_CNTEN 0x80 field PLL_CNTCLR 0x40 field PLL_RST 0x01 } /* * Arbitration Unfairness */ register UNFAIRNESS { address 0x06E access_mode RW size 2 modes M_SCSI } /* * 400-MHz Phase-Locked Loop Test Count */ register PLL400CNT0 { address 0x06E access_mode RO size 2 modes M_CFG } /* * SCB Page Pointer */ register SCBPTR { address 0x0A8 access_mode RW size 2 modes M_DFF0, M_DFF1, M_CCHAN, M_SCSI } /* * CMC SCB Array Count * Number of bytes to transfer between CMC SCB memory and SCBRAM. * Transfers must be 8byte aligned and sized. */ register CCSCBACNT { address 0x0AB access_mode RW modes M_CCHAN } /* * SCB Autopointer * SCB-Next Address Snooping logic. When an SCB is transferred to * the card, the next SCB address to be used by the CMC array can * be autoloaded from that transfer. */ register SCBAUTOPTR { address 0x0AB access_mode RW modes M_CFG field AUSCBPTR_EN 0x80 field SCBPTR_ADDR 0x38 field SCBPTR_OFF 0x07 } /* * CMC SG Ram Address Pointer */ register CCSGADDR { address 0x0AC access_mode RW modes M_DFF0, M_DFF1 } /* * CMC SCB RAM Address Pointer */ register CCSCBADDR { address 0x0AC access_mode RW modes M_CCHAN } /* * CMC SCB Ram Back-up Address Pointer * Indicates the true stop location of transfers halted prior * to SCBHCNT going to 0. */ register CCSCBADR_BK { address 0x0AC access_mode RO modes M_CFG } /* * CMC SG Control */ register CCSGCTL { address 0x0AD access_mode RW modes M_DFF0, M_DFF1 field CCSGDONE 0x80 field SG_CACHE_AVAIL 0x10 field CCSGENACK 0x08 mask CCSGEN 0x0C field SG_FETCH_REQ 0x02 field CCSGRESET 0x01 } /* * CMD SCB Control */ register CCSCBCTL { address 0x0AD access_mode RW modes M_CCHAN field CCSCBDONE 0x80 field ARRDONE 0x40 field CCARREN 0x10 field CCSCBEN 0x08 field CCSCBDIR 0x04 field CCSCBRESET 0x01 } /* * CMC Ram BIST */ register CMC_RAMBIST { address 0x0AD access_mode RW modes M_CFG field SG_ELEMENT_SIZE 0x80 field SCBRAMBIST_FAIL 0x40 field SG_BIST_FAIL 0x20 field SG_BIST_EN 0x10 field CMC_BUFFER_BIST_FAIL 0x02 field CMC_BUFFER_BIST_EN 0x01 } /* * CMC SG RAM Data Port */ register CCSGRAM { address 0x0B0 access_mode RW modes M_DFF0, M_DFF1 } /* * CMC SCB RAM Data Port */ register CCSCBRAM { address 0x0B0 access_mode RW modes M_CCHAN } /* * Flex DMA Address. */ register FLEXADR { address 0x0B0 access_mode RW size 3 modes M_SCSI } /* * Flex DMA Byte Count */ register FLEXCNT { address 0x0B3 access_mode RW size 2 modes M_SCSI } /* * Flex DMA Status */ register FLEXDMASTAT { address 0x0B5 access_mode RW modes M_SCSI field FLEXDMAERR 0x02 field FLEXDMADONE 0x01 } /* * Flex DMA Data Port */ register FLEXDATA { address 0x0B6 access_mode RW modes M_SCSI } /* * Board Data */ register BRDDAT { address 0x0B8 access_mode RW modes M_SCSI } /* * Board Control */ register BRDCTL { address 0x0B9 access_mode RW modes M_SCSI field FLXARBACK 0x80 field FLXARBREQ 0x40 field BRDADDR 0x38 field BRDEN 0x04 field BRDRW 0x02 field BRDSTB 0x01 } /* * Serial EEPROM Address */ register SEEADR { address 0x0BA access_mode RW modes M_SCSI } /* * Serial EEPROM Data */ register SEEDAT { address 0x0BC access_mode RW size 2 modes M_SCSI } /* * Serial EEPROM Status */ register SEESTAT { address 0x0BE access_mode RO modes M_SCSI field INIT_DONE 0x80 field SEEOPCODE 0x70 field LDALTID_L 0x08 field SEEARBACK 0x04 field SEEBUSY 0x02 field SEESTART 0x01 } /* * Serial EEPROM Control */ register SEECTL { address 0x0BE access_mode RW modes M_SCSI field SEEOPCODE 0x70 { SEEOP_ERASE 0x70, SEEOP_READ 0x60, SEEOP_WRITE 0x50, /* * The following four commands use special * addresses for differentiation. */ SEEOP_ERAL 0x40 } mask SEEOP_EWEN 0x40 mask SEEOP_WALL 0x40 mask SEEOP_EWDS 0x40 field SEERST 0x02 field SEESTART 0x01 } const SEEOP_ERAL_ADDR 0x80 const SEEOP_EWEN_ADDR 0xC0 const SEEOP_WRAL_ADDR 0x40 const SEEOP_EWDS_ADDR 0x00 /* * SCB Counter */ register SCBCNT { address 0x0BF access_mode RW modes M_SCSI } /* * Data FIFO Write Address * Pointer to the next QWD location to be written to the data FIFO. */ register DFWADDR { address 0x0C0 access_mode RW size 2 modes M_DFF0, M_DFF1 } /* * DSP Filter Control */ register DSPFLTRCTL { address 0x0C0 access_mode RW modes M_CFG field FLTRDISABLE 0x20 field EDGESENSE 0x10 field DSPFCNTSEL 0x0F } /* * DSP Data Channel Control */ register DSPDATACTL { address 0x0C1 access_mode RW modes M_CFG field BYPASSENAB 0x80 field DESQDIS 0x10 field RCVROFFSTDIS 0x04 field XMITOFFSTDIS 0x02 } /* * Data FIFO Read Address * Pointer to the next QWD location to be read from the data FIFO. */ register DFRADDR { address 0x0C2 access_mode RW size 2 modes M_DFF0, M_DFF1 } /* * DSP REQ Control */ register DSPREQCTL { address 0x0C2 access_mode RW modes M_CFG field MANREQCTL 0xC0 field MANREQDLY 0x3F } /* * DSP ACK Control */ register DSPACKCTL { address 0x0C3 access_mode RW modes M_CFG field MANACKCTL 0xC0 field MANACKDLY 0x3F } /* * Data FIFO Data * Read/Write byte port into the data FIFO. The read and write * FIFO pointers increment with each read and write respectively * to this port. */ register DFDAT { address 0x0C4 access_mode RW modes M_DFF0, M_DFF1 } /* * DSP Channel Select */ register DSPSELECT { address 0x0C4 access_mode RW modes M_CFG field AUTOINCEN 0x80 field DSPSEL 0x1F } const NUMDSPS 0x14 /* * Write Bias Control */ register WRTBIASCTL { address 0x0C5 access_mode WO modes M_CFG field AUTOXBCDIS 0x80 field XMITMANVAL 0x3F } /* * Currently the WRTBIASCTL is the same as the default. */ const WRTBIASCTL_HP_DEFAULT 0x0 /* * Receiver Bias Control */ register RCVRBIOSCTL { address 0x0C6 access_mode WO modes M_CFG field AUTORBCDIS 0x80 field RCVRMANVAL 0x3F } /* * Write Bias Calculator */ register WRTBIASCALC { address 0x0C7 access_mode RO modes M_CFG } /* * Data FIFO Pointers * Contains the byte offset from DFWADDR and DWRADDR to the current * FIFO write/read locations. */ register DFPTRS { address 0x0C8 access_mode RW modes M_DFF0, M_DFF1 } /* * Receiver Bias Calculator */ register RCVRBIASCALC { address 0x0C8 access_mode RO modes M_CFG } /* * Data FIFO Backup Read Pointer * Contains the data FIFO address to be restored if the last * data accessed from the data FIFO was not transferred successfully. */ register DFBKPTR { address 0x0C9 access_mode RW size 2 modes M_DFF0, M_DFF1 } /* * Skew Calculator */ register SKEWCALC { address 0x0C9 access_mode RO modes M_CFG } /* * Data FIFO Debug Control */ register DFDBCTL { address 0x0CB access_mode RW modes M_DFF0, M_DFF1 field DFF_CIO_WR_RDY 0x20 field DFF_CIO_RD_RDY 0x10 field DFF_DIR_ERR 0x08 field DFF_RAMBIST_FAIL 0x04 field DFF_RAMBIST_DONE 0x02 field DFF_RAMBIST_EN 0x01 } /* * Data FIFO Space Count * Number of FIFO locations that are free. */ register DFSCNT { address 0x0CC access_mode RO size 2 modes M_DFF0, M_DFF1 } /* * Data FIFO Byte Count * Number of filled FIFO locations. */ register DFBCNT { address 0x0CE access_mode RO size 2 modes M_DFF0, M_DFF1 } /* * Sequencer Program Overlay Address. * Low address must be written prior to high address. */ register OVLYADDR { address 0x0D4 modes M_SCSI size 2 access_mode RW } /* * Sequencer Control 0 * Error detection mode, speed configuration, * single step, breakpoints and program load. */ register SEQCTL0 { address 0x0D6 access_mode RW field PERRORDIS 0x80 field PAUSEDIS 0x40 field FAILDIS 0x20 field FASTMODE 0x10 field BRKADRINTEN 0x08 field STEP 0x04 field SEQRESET 0x02 field LOADRAM 0x01 } /* * Sequencer Control 1 * Instruction RAM Diagnostics */ register SEQCTL1 { address 0x0D7 access_mode RW field OVRLAY_DATA_CHK 0x08 field RAMBIST_DONE 0x04 field RAMBIST_FAIL 0x02 field RAMBIST_EN 0x01 } /* * Sequencer Flags * Zero and Carry state of the ALU. */ register FLAGS { address 0x0D8 access_mode RO field ZERO 0x02 field CARRY 0x01 } /* * Sequencer Interrupt Control */ register SEQINTCTL { address 0x0D9 access_mode RW field INTVEC1DSL 0x80 field INT1_CONTEXT 0x20 field SCS_SEQ_INT1M1 0x10 field SCS_SEQ_INT1M0 0x08 field INTMASK2 0x04 field INTMASK1 0x02 field IRET 0x01 } /* * Sequencer RAM Data Port * Single byte window into the Sequencer Instruction Ram area starting * at the address specified by OVLYADDR. To write a full instruction word, * simply write four bytes in succession. OVLYADDR will increment after the * most significant instrution byte (the byte with the parity bit) is written. */ register SEQRAM { address 0x0DA access_mode RW } /* * Sequencer Program Counter * Low byte must be written prior to high byte. */ register PRGMCNT { address 0x0DE access_mode RW size 2 } /* * Accumulator */ register ACCUM { address 0x0E0 access_mode RW accumulator } /* * Source Index Register * Incrementing index for reads of SINDIR and the destination (low byte only) * for any immediate operands passed in jmp, jc, jnc, call instructions. * Example: * mvi 0xFF call some_routine; * * Will set SINDEX[0] to 0xFF and call the routine "some_routine. */ register SINDEX { address 0x0E2 access_mode RW size 2 sindex } /* * Destination Index Register * Incrementing index for writes to DINDIR. Can be used as a scratch register. */ register DINDEX { address 0x0E4 access_mode RW size 2 } /* * Break Address * Sequencer instruction breakpoint address address. */ register BRKADDR0 { address 0x0E6 access_mode RW } register BRKADDR1 { address 0x0E6 access_mode RW field BRKDIS 0x80 /* Disable Breakpoint */ } /* * All Ones * All reads to this register return the value 0xFF. */ register ALLONES { address 0x0E8 access_mode RO allones } /* * All Zeros * All reads to this register return the value 0. */ register ALLZEROS { address 0x0EA access_mode RO allzeros } /* * No Destination * Writes to this register have no effect. */ register NONE { address 0x0EA access_mode WO none } /* * Source Index Indirect * Reading this register is equivalent to reading (register_base + SINDEX) and * incrementing SINDEX by 1. */ register SINDIR { address 0x0EC access_mode RO } /* * Destination Index Indirect * Writing this register is equivalent to writing to (register_base + DINDEX) * and incrementing DINDEX by 1. */ register DINDIR { address 0x0ED access_mode WO } /* * Function One * 2's complement to bit value conversion. Write the 2's complement value * (0-7 only) to the top nibble and retrieve the bit indexed by that value * on the next read of this register. * Example: * Write 0x60 * Read 0x40 */ register FUNCTION1 { address 0x0F0 access_mode RW } /* * Stack * Window into the stack. Each stack location is 10 bits wide reported * low byte followed by high byte. There are 8 stack locations. */ register STACK { address 0x0F2 access_mode RW } /* * Interrupt Vector 1 Address * Interrupt branch address for SCS SEQ_INT1 mode 0 and 1 interrupts. */ register INTVEC1_ADDR { address 0x0F4 access_mode RW size 2 modes M_CFG } /* * Current Address * Address of the SEQRAM instruction currently executing instruction. */ register CURADDR { address 0x0F4 access_mode RW size 2 modes M_SCSI } /* * Interrupt Vector 2 Address * Interrupt branch address for HST_SEQ_INT2 interrupts. */ register INTVEC2_ADDR { address 0x0F6 access_mode RW size 2 modes M_CFG } /* * Last Address * Address of the SEQRAM instruction executed prior to the current instruction. */ register LASTADDR { address 0x0F6 access_mode RW size 2 modes M_SCSI } register AHD_PCI_CONFIG_BASE { address 0x100 access_mode RW size 256 modes M_CFG } /* ---------------------- Scratch RAM Offsets ------------------------- */ scratch_ram { /* Mode Specific */ address 0x0A0 size 8 modes 0, 1, 2, 3 REG0 { size 2 } REG1 { size 2 } REG_ISR { size 2 } SG_STATE { size 1 field SEGS_AVAIL 0x01 field LOADING_NEEDED 0x02 field FETCH_INPROG 0x04 } /* * Track whether the transfer byte count for * the current data phase is odd. */ DATA_COUNT_ODD { size 1 } } scratch_ram { /* Mode Specific */ address 0x0F8 size 8 modes 0, 1, 2, 3 LONGJMP_ADDR { size 2 } ACCUM_SAVE { size 1 } } scratch_ram { address 0x100 size 128 modes 0, 1, 2, 3 /* * Per "other-id" execution queues. We use an array of * tail pointers into lists of SCBs sorted by "other-id". * The execution head pointer threads the head SCBs for * each list. */ WAITING_SCB_TAILS { size 32 } WAITING_TID_HEAD { size 2 } WAITING_TID_TAIL { size 2 } /* * SCBID of the next SCB in the new SCB queue. */ NEXT_QUEUED_SCB_ADDR { size 4 } /* * head of list of SCBs that have * completed but have not been * put into the qoutfifo. */ COMPLETE_SCB_HEAD { size 2 } /* * The list of completed SCBs in * the active DMA. */ COMPLETE_SCB_DMAINPROG_HEAD { size 2 } /* * head of list of SCBs that have * completed but need to be uploaded * to the host prior to being completed. */ COMPLETE_DMA_SCB_HEAD { size 2 } /* * tail of list of SCBs that have * completed but need to be uploaded * to the host prior to being completed. */ COMPLETE_DMA_SCB_TAIL { size 2 } /* * head of list of SCBs that have * been uploaded to the host, but cannot * be completed until the QFREEZE is in * full effect (i.e. no selections pending). */ COMPLETE_ON_QFREEZE_HEAD { size 2 } /* * Counting semaphore to prevent new select-outs * The queue is frozen so long as the sequencer * and kernel freeze counts differ. */ QFREEZE_COUNT { size 2 } KERNEL_QFREEZE_COUNT { size 2 } /* * Mode to restore on legacy idle loop exit. */ SAVED_MODE { size 1 } /* * Single byte buffer used to designate the type or message * to send to a target. */ MSG_OUT { size 1 } /* Parameters for DMA Logic */ DMAPARAMS { size 1 field PRELOADEN 0x80 field WIDEODD 0x40 field SCSIEN 0x20 field SDMAEN 0x10 field SDMAENACK 0x10 field HDMAEN 0x08 field HDMAENACK 0x08 field DIRECTION 0x04 /* Set indicates PCI->SCSI */ field FIFOFLUSH 0x02 field FIFORESET 0x01 } SEQ_FLAGS { size 1 field NOT_IDENTIFIED 0x80 field NO_CDB_SENT 0x40 field TARGET_CMD_IS_TAGGED 0x40 field DPHASE 0x20 /* Target flags */ field TARG_CMD_PENDING 0x10 field CMDPHASE_PENDING 0x08 field DPHASE_PENDING 0x04 field SPHASE_PENDING 0x02 field NO_DISCONNECT 0x01 } /* * Temporary storage for the * target/channel/lun of a * reconnecting target */ SAVED_SCSIID { size 1 } SAVED_LUN { size 1 } /* * The last bus phase as seen by the sequencer. */ LASTPHASE { size 1 field CDI 0x80 field IOI 0x40 field MSGI 0x20 field P_BUSFREE 0x01 enum PHASE_MASK CDO|IOO|MSGO { P_DATAOUT 0x0, P_DATAIN IOO, P_DATAOUT_DT P_DATAOUT|MSGO, P_DATAIN_DT P_DATAIN|MSGO, P_COMMAND CDO, P_MESGOUT CDO|MSGO, P_STATUS CDO|IOO, P_MESGIN CDO|IOO|MSGO } } /* * Value to "or" into the SCBPTR[1] value to * indicate that an entry in the QINFIFO is valid. */ QOUTFIFO_ENTRY_VALID_TAG { size 1 } /* * Kernel and sequencer offsets into the queue of * incoming target mode command descriptors. The * queue is full when the KERNEL_TQINPOS == TQINPOS. */ KERNEL_TQINPOS { size 1 } TQINPOS { size 1 } /* * Base address of our shared data with the kernel driver in host * memory. This includes the qoutfifo and target mode * incoming command queue. */ SHARED_DATA_ADDR { size 4 } /* * Pointer to location in host memory for next * position in the qoutfifo. */ QOUTFIFO_NEXT_ADDR { size 4 } ARG_1 { size 1 mask SEND_MSG 0x80 mask SEND_SENSE 0x40 mask SEND_REJ 0x20 mask MSGOUT_PHASEMIS 0x10 mask EXIT_MSG_LOOP 0x08 mask CONT_MSG_LOOP_WRITE 0x04 mask CONT_MSG_LOOP_READ 0x03 mask CONT_MSG_LOOP_TARG 0x02 alias RETURN_1 } ARG_2 { size 1 alias RETURN_2 } /* * Snapshot of MSG_OUT taken after each message is sent. */ LAST_MSG { size 1 } /* * Sequences the kernel driver has okayed for us. This allows * the driver to do things like prevent initiator or target * operations. */ SCSISEQ_TEMPLATE { size 1 field MANUALCTL 0x40 field ENSELI 0x20 field ENRSELI 0x10 field MANUALP 0x0C field ENAUTOATNP 0x02 field ALTSTIM 0x01 } /* * The initiator specified tag for this target mode transaction. */ INITIATOR_TAG { size 1 } SEQ_FLAGS2 { size 1 field PENDING_MK_MESSAGE 0x01 field TARGET_MSG_PENDING 0x02 field SELECTOUT_QFROZEN 0x04 } ALLOCFIFO_SCBPTR { size 2 } /* * The maximum amount of time to wait, when interrupt coalescing * is enabled, before issueing a CMDCMPLT interrupt for a completed * command. */ INT_COALESCING_TIMER { size 2 } /* * The maximum number of commands to coalesce into a single interrupt. * Actually the 2's complement of that value to simplify sequencer * code. */ INT_COALESCING_MAXCMDS { size 1 } /* * The minimum number of commands still outstanding required * to continue coalescing (2's complement of value). */ INT_COALESCING_MINCMDS { size 1 } /* * Number of commands "in-flight". */ CMDS_PENDING { size 2 } /* * The count of commands that have been coalesced. */ INT_COALESCING_CMDCOUNT { size 1 } /* * Since the HS_MAIBOX is self clearing, copy its contents to * this position in scratch ram every time it changes. */ LOCAL_HS_MAILBOX { size 1 } /* * Target-mode CDB type to CDB length table used * in non-packetized operation. */ CMDSIZE_TABLE { size 8 } /* * When an SCB with the MK_MESSAGE flag is * queued to the controller, it cannot enter * the waiting for selection list until the * selections for any previously queued * commands to that target complete. During * the wait, the MK_MESSAGE SCB is queued * here. */ MK_MESSAGE_SCB { size 2 } /* * Saved SCSIID of MK_MESSAGE_SCB to avoid * an extra SCBPTR operation when deciding * if the MK_MESSAGE_SCB can be run. */ MK_MESSAGE_SCSIID { size 1 } } /************************* Hardware SCB Definition ****************************/ scb { address 0x180 size 64 modes 0, 1, 2, 3 SCB_RESIDUAL_DATACNT { size 4 alias SCB_CDB_STORE alias SCB_HOST_CDB_PTR } SCB_RESIDUAL_SGPTR { size 4 field SG_ADDR_MASK 0xf8 /* In the last byte */ field SG_ADDR_BIT 0x04 field SG_OVERRUN_RESID 0x02 /* In the first byte */ field SG_LIST_NULL 0x01 /* In the first byte */ } SCB_SCSI_STATUS { size 1 alias SCB_HOST_CDB_LEN } SCB_TARGET_PHASES { size 1 } SCB_TARGET_DATA_DIR { size 1 } SCB_TARGET_ITAG { size 1 } SCB_SENSE_BUSADDR { /* * Only valid if CDB length is less than 13 bytes or * we are using a CDB pointer. Otherwise contains * the last 4 bytes of embedded cdb information. */ size 4 alias SCB_NEXT_COMPLETE } SCB_TAG { alias SCB_FIFO_USE_COUNT size 2 } SCB_CONTROL { size 1 field TARGET_SCB 0x80 field DISCENB 0x40 field TAG_ENB 0x20 field MK_MESSAGE 0x10 field STATUS_RCVD 0x08 field DISCONNECTED 0x04 field SCB_TAG_TYPE 0x03 } SCB_SCSIID { size 1 field TID 0xF0 field OID 0x0F } SCB_LUN { size 1 field LID 0xff } SCB_TASK_ATTRIBUTE { size 1 /* * Overloaded field for non-packetized * ignore wide residue message handling. */ field SCB_XFERLEN_ODD 0x01 } SCB_CDB_LEN { size 1 field SCB_CDB_LEN_PTR 0x80 /* CDB in host memory */ } SCB_TASK_MANAGEMENT { size 1 } SCB_DATAPTR { size 8 } SCB_DATACNT { /* * The last byte is really the high address bits for * the data address. */ size 4 field SG_LAST_SEG 0x80 /* In the fourth byte */ field SG_HIGH_ADDR_BITS 0x7F /* In the fourth byte */ } SCB_SGPTR { size 4 field SG_STATUS_VALID 0x04 /* In the first byte */ field SG_FULL_RESID 0x02 /* In the first byte */ field SG_LIST_NULL 0x01 /* In the first byte */ } SCB_BUSADDR { size 4 } SCB_NEXT { alias SCB_NEXT_SCB_BUSADDR size 2 } SCB_NEXT2 { size 2 } SCB_SPARE { size 8 alias SCB_PKT_LUN } SCB_DISCONNECTED_LISTS { size 8 } } /*********************************** Constants ********************************/ const MK_MESSAGE_BIT_OFFSET 4 const TID_SHIFT 4 const TARGET_CMD_CMPLT 0xfe const INVALID_ADDR 0x80 #define SCB_LIST_NULL 0xff #define QOUTFIFO_ENTRY_VALID_TOGGLE 0x80 const CCSGADDR_MAX 0x80 const CCSCBADDR_MAX 0x80 const CCSGRAM_MAXSEGS 16 /* Selection Timeout Timer Constants */ const STIMESEL_SHIFT 3 const STIMESEL_MIN 0x18 const STIMESEL_BUG_ADJ 0x8 /* WDTR Message values */ const BUS_8_BIT 0x00 const BUS_16_BIT 0x01 const BUS_32_BIT 0x02 /* Offset maximums */ const MAX_OFFSET 0xfe const MAX_OFFSET_PACED 0xfe const MAX_OFFSET_PACED_BUG 0x7f /* * Some 160 devices incorrectly accept 0xfe as a * sync offset, but will overrun this value. Limit * to 0x7f for speed lower than U320 which will * avoid the persistent sync offset overruns. */ const MAX_OFFSET_NON_PACED 0x7f const HOST_MSG 0xff /* * The size of our sense buffers. * Sense buffer mapping can be handled in either of two ways. * The first is to allocate a dmamap for each transaction. * Depending on the architecture, dmamaps can be costly. The * alternative is to statically map the buffers in much the same * way we handle our scatter gather lists. The driver implements * the later. */ const AHD_SENSE_BUFSIZE 256 /* Target mode command processing constants */ const CMD_GROUP_CODE_SHIFT 0x05 const STATUS_BUSY 0x08 const STATUS_QUEUE_FULL 0x28 const STATUS_PKT_SENSE 0xFF const TARGET_DATA_IN 1 const SCB_TRANSFER_SIZE_FULL_LUN 56 const SCB_TRANSFER_SIZE_1BYTE_LUN 48 /* PKT_OVERRUN_BUFSIZE must be a multiple of 256 less than 64K */ const PKT_OVERRUN_BUFSIZE 512 /* * Timer parameters. */ const AHD_TIMER_US_PER_TICK 25 const AHD_TIMER_MAX_TICKS 0xFFFF const AHD_TIMER_MAX_US (AHD_TIMER_MAX_TICKS * AHD_TIMER_US_PER_TICK) /* * Downloaded (kernel inserted) constants */ const SG_PREFETCH_CNT download const SG_PREFETCH_CNT_LIMIT download const SG_PREFETCH_ALIGN_MASK download const SG_PREFETCH_ADDR_MASK download const SG_SIZEOF download const PKT_OVERRUN_BUFOFFSET download const SCB_TRANSFER_SIZE download const CACHELINE_MASK download /* * BIOS SCB offsets */ const NVRAM_SCB_OFFSET 0x2C