/* $NetBSD: dptreg.h,v 1.16 2005/02/27 00:27:01 perry Exp $ */ /* * Copyright (c) 1999, 2000, 2001 Andrew Doran * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * */ #ifndef _IC_DPTREG_H_ #define _IC_DPTREG_H_ 1 /* Hardware limits */ #define DPT_MAX_TARGETS 16 #define DPT_MAX_LUNS 8 #define DPT_MAX_CHANNELS 3 /* * HBA registers */ #define HA_DATA 0 #define HA_ERROR 1 #define HA_DMA_BASE 2 #define HA_ICMD_CODE2 4 #define HA_ICMD_CODE1 5 #define HA_ICMD 6 /* EATA commands. There are many more that we don't define or use. */ #define HA_COMMAND 7 #define CP_PIO_GETCFG 0xf0 /* Read configuration data, PIO */ #define CP_PIO_CMD 0xf2 /* Execute command, PIO */ #define CP_DMA_GETCFG 0xfd /* Read configuration data, DMA */ #define CP_DMA_CMD 0xff /* Execute command, DMA */ #define CP_PIO_TRUNCATE 0xf4 /* Truncate transfer command, PIO */ #define CP_RESET 0xf9 /* Reset controller and SCSI bus */ #define CP_REBOOT 0x06 /* Reboot controller (last resort) */ #define CP_IMMEDIATE 0xfa /* EATA immediate command */ #define CPI_GEN_ABORT 0x00 /* Generic abort */ #define CPI_SPEC_RESET 0x01 /* Specific reset */ #define CPI_BUS_RESET 0x02 /* Bus reset */ #define CPI_SPEC_ABORT 0x03 /* Specific abort */ #define CPI_QUIET_INTR 0x04 /* ?? */ #define CPI_ROM_DL_EN 0x05 /* ?? */ #define CPI_COLD_BOOT 0x06 /* Cold boot HBA */ #define CPI_FORCE_IO 0x07 /* ?? */ #define CPI_BUS_OFFLINE 0x08 /* Set SCSI bus offline */ #define CPI_RESET_MSKD_BUS 0x09 /* Reset masked bus */ #define CPI_POWEROFF_WARN 0x0a /* Power about to fail */ #define HA_STATUS 7 #define HA_ST_ERROR 0x01 #define HA_ST_MORE 0x02 #define HA_ST_CORRECTD 0x04 #define HA_ST_DRQ 0x08 #define HA_ST_SEEK_COMPLETE 0x10 #define HA_ST_WRT_FLT 0x20 #define HA_ST_READY 0x40 #define HA_ST_BUSY 0x80 #define HA_ST_DATA_RDY (HA_ST_SEEK_COMPLETE|HA_ST_READY|HA_ST_DRQ) #define HA_AUX_STATUS 8 #define HA_AUX_BUSY 0x01 #define HA_AUX_INTR 0x02 /* * Structure of an EATA command packet. */ struct eata_cp { u_int8_t cp_ctl0; /* Control flags 0 */ u_int8_t cp_senselen; /* Request sense length */ u_int8_t cp_unused0[3]; /* Unused */ u_int8_t cp_ctl1; /* Control flags 1 */ u_int8_t cp_ctl2; /* Control flags 2 */ u_int8_t cp_ctl3; /* Control flags 3 */ u_int8_t cp_ctl4; /* Control flags 4 */ u_int8_t cp_msg[3]; /* Message bytes 0-3 */ u_int8_t cp_cdb_cmd; /* SCSI CDB */ u_int8_t cp_cdb_more0[3]; /* SCSI CDB */ u_int8_t cp_cdb_len; /* SCSI CDB */ u_int8_t cp_cdb_more1[7]; /* SCSI CDB */ u_int32_t cp_datalen; /* Bytes of data/SG list */ u_int32_t cp_ccbid; /* ID of software CCB */ u_int32_t cp_dataaddr; /* Addr of data/SG list */ u_int32_t cp_stataddr; /* Addr of status packet */ u_int32_t cp_senseaddr; /* Addr of req. sense */ } __attribute__ ((__packed__)); struct eata_ucp { u_int8_t ucp_cp[sizeof(struct eata_cp) - 5*4]; /* XXX */ u_long ucp_datalen; u_long ucp_ccbid; caddr_t ucp_dataaddr; caddr_t ucp_stataddr; caddr_t ucp_senseaddr; u_long ucp_timeout; u_int8_t ucp_hstatus; u_int8_t ucp_tstatus; u_int8_t ucp_retries; u_int8_t ucp_padding; } __attribute__ ((__packed__)); #define CP_C0_SCSI_RESET 0x01 /* Cause a bus reset */ #define CP_C0_HBA_INIT 0x02 /* Reinitialize HBA */ #define CP_C0_AUTO_SENSE 0x04 /* Auto request sense on error */ #define CP_C0_SCATTER 0x08 /* Do scatter/gather I/O */ #define CP_C0_QUICK 0x10 /* Return no status packet */ #define CP_C0_INTERPRET 0x20 /* HBA interprets SCSI CDB */ #define CP_C0_DATA_OUT 0x40 /* Data out phase */ #define CP_C0_DATA_IN 0x80 /* Data in phase */ #define CP_C1_TO_PHYS 0x01 /* Send to RAID component */ #define CP_C1_RESERVED 0xfe #define CP_C2_PHYS_UNIT 0x01 /* Physical unit on mirrored pair */ #define CP_C2_NO_AT 0x02 /* No address translation */ #define CP_C2_NO_CACHE 0x04 /* No HBA caching */ #define CP_C2_RESERVED 0xf8 #define CP_C3_ID_MASK 0x1f /* Target ID */ #define CP_C3_ID_SHIFT 0 #define CP_C3_CHANNEL_MASK 0xe0 /* Target channel */ #define CP_C3_CHANNEL_SHIFT 5 #define CP_C4_LUN_MASK 0x07 /* Target LUN */ #define CP_C4_LUN_SHIFT 0 #define CP_C4_RESERVED 0x18 #define CP_C4_LUN_TAR 0x20 /* CP is for target ROUTINE */ #define CP_C4_DIS_PRI 0x40 /* Give disconnect privilege */ #define CP_C4_IDENTIFY 0x80 /* Always true */ /* * EATA status packet as returned by controller upon command completion. It * contains status, message info and a handle on the initiating CCB. */ struct eata_sp { u_int8_t sp_hba_status; /* Host adapter status */ u_int8_t sp_scsi_status; /* SCSI bus status */ u_int8_t sp_reserved[2]; /* Reserved */ u_int32_t sp_inv_residue; /* Bytes not transferred */ u_int32_t sp_ccbid; /* ID of software CCB */ u_int8_t sp_id_message; u_int8_t sp_que_message; u_int8_t sp_tag_message; u_int8_t sp_messages[9]; } __attribute__ ((__packed__)); /* * HBA status as returned by status packet. Bit 7 signals end of command. */ #define SP_HBA_NO_ERROR 0x00 /* No error on command */ #define SP_HBA_ERROR_SEL_TO 0x01 /* Device selection timeout */ #define SP_HBA_ERROR_CMD_TO 0x02 /* Device command timeout */ #define SP_HBA_ERROR_RESET 0x03 /* SCSI bus was reset */ #define SP_HBA_INIT_POWERUP 0x04 /* Initial controller power up */ #define SP_HBA_UNX_BUSPHASE 0x05 /* Unexpected bus phase */ #define SP_HBA_UNX_BUS_FREE 0x06 /* Unexpected bus free */ #define SP_HBA_BUS_PARITY 0x07 /* SCSI bus parity error */ #define SP_HBA_SCSI_HUNG 0x08 /* SCSI bus hung */ #define SP_HBA_UNX_MSGRJCT 0x09 /* Unexpected message reject */ #define SP_HBA_RESET_STUCK 0x0a /* SCSI bus reset stuck */ #define SP_HBA_RSENSE_FAIL 0x0b /* Auto-request sense failed */ #define SP_HBA_PARITY 0x0c /* HBA memory parity error */ #define SP_HBA_ABORT_NA 0x0d /* CP aborted - not on bus */ #define SP_HBA_ABORTED 0x0e /* CP aborted - was on bus */ #define SP_HBA_RESET_NA 0x0f /* CP reset - not on bus */ #define SP_HBA_RESET 0x10 /* CP reset - was on bus */ #define SP_HBA_ECC 0x11 /* HBA memory ECC error */ #define SP_HBA_PCI_PARITY 0x12 /* PCI parity error */ #define SP_HBA_PCI_MASTER 0x13 /* PCI master abort */ #define SP_HBA_PCI_TARGET 0x14 /* PCI target abort */ #define SP_HBA_PCI_SIG_TARGET 0x15 /* PCI signalled target abort */ #define SP_HBA_ABORT 0x20 /* Software abort (too many retries) */ /* * Scatter-gather list element. */ struct eata_sg { u_int32_t sg_addr; u_int32_t sg_len; } __attribute__ ((__packed__)); /* * EATA configuration data as returned by HBA. XXX This is bogus - it * doesn't sync up with the structure FreeBSD uses. [ad] */ struct eata_cfg { u_int8_t ec_devtype; u_int8_t ec_pagecode; u_int8_t ec_reserved0; u_int8_t ec_cfglen; /* Length in bytes past here */ u_int8_t ec_eatasig[4]; /* EATA signature */ u_int8_t ec_eataversion; /* EATA version number */ u_int8_t ec_feat0; /* First feature byte */ u_int8_t ec_padlength[2]; /* Pad bytes for PIO cmds */ u_int8_t ec_hba[4]; /* Host adapter SCSI IDs */ u_int8_t ec_cplen[4]; /* Command packet length */ u_int8_t ec_splen[4]; /* Status packet length */ u_int8_t ec_queuedepth[2]; /* Controller queue depth */ u_int8_t ec_reserved1[2]; u_int8_t ec_sglen[2]; /* Maximum s/g list size */ u_int8_t ec_feat1; /* 2nd feature byte */ u_int8_t ec_irq; /* IRQ address */ u_int8_t ec_feat2; /* 3rd feature byte */ u_int8_t ec_feat3; /* 4th feature byte */ u_int8_t ec_maxlun; /* Maximum LUN supported */ u_int8_t ec_feat4; /* 5th feature byte */ u_int8_t ec_raidnum; /* RAID host adapter humber */ } __attribute__ ((__packed__)); #define EC_F0_OVERLAP_CMDS 0x01 /* Overlapped cmds supported */ #define EC_F0_TARGET_MODE 0x02 /* Target mode supported */ #define EC_F0_TRUNC_NOT_REC 0x04 /* Truncate cmd not supported */ #define EC_F0_MORE_SUPPORTED 0x08 /* More cmd supported */ #define EC_F0_DMA_SUPPORTED 0x10 /* DMA mode supported */ #define EC_F0_DMA_NUM_VALID 0x20 /* DMA channel field is valid */ #define EC_F0_ATA_DEV 0x40 /* This is an ATA device */ #define EC_F0_HBA_VALID 0x80 /* HBA field is valid */ #define EC_F1_IRQ_NUM_MASK 0x0f /* IRQ number mask */ #define EC_F1_IRQ_NUM_SHIFT 0 #define EC_F1_IRQ_TRIGGER 0x10 /* IRQ trigger: 0 = edge, 1 = level */ #define EC_F1_SECONDARY 0x20 /* Controller not at address 0x170 */ #define EC_F1_DMA_NUM_MASK 0xc0 /* DMA channel *index* for ISA */ #define EC_F1_DMA_NUM_SHIFT 6 #define EC_F2_ISA_IO_DISABLE 0x01 /* ISA I/O address disabled */ #define EC_F2_FORCE_ADDR 0x02 /* HBA forced to EISA/ISA address */ #define EC_F2_SG_64K 0x04 /* 64kB of scatter/gather space */ #define EC_F2_SG_UNALIGNED 0x08 /* Can do unaligned scatter/gather */ #define EC_F2_RESERVED0 0x10 /* Reserved */ #define EC_F2_RESERVED1 0x20 /* Reserved */ #define EC_F2_RESERVED2 0x40 /* Reserved */ #define EC_F2_RESERVED3 0x40 /* Reserved */ #define EC_F3_MAX_TARGET_MASK 0x1f /* Maximum target ID supported */ #define EC_F3_MAX_TARGET_SHIFT 0 #define EC_F3_MAX_CHANNEL_MASK 0xe0 /* Maximum channel ID supported */ #define EC_F3_MAX_CHANNEL_SHIFT 5 #define EC_F4_RESERVED0 0x01 /* Reserved */ #define EC_F4_RESERVED1 0x02 /* Reserved */ #define EC_F4_RESERVED2 0x04 /* Reserved */ #define EC_F4_AUTO_TERM 0x08 /* Supports auto termination */ #define EC_F4_PCIM1 0x10 /* PCI M1 chipset */ #define EC_F4_BOGUS_RAID_ID 0x20 /* RAID ID may be questionable */ #define EC_F4_HBA_PCI 0x40 /* PCI adapter */ #define EC_F4_HBA_EISA 0x80 /* EISA adapter */ /* * How SCSI inquiry data breaks down for EATA boards. */ struct eata_inquiry_data { u_int8_t ei_device; u_int8_t ei_dev_qual2; u_int8_t ei_version; u_int8_t ei_response_format; u_int8_t ei_additional_length; u_int8_t ei_unused[2]; u_int8_t ei_flags; char ei_vendor[8]; /* Vendor, e.g: DPT, NEC */ char ei_model[7]; /* Model number */ char ei_suffix[9]; /* Model number suffix */ char ei_fw[3]; /* Firmware */ char ei_fwrev[1]; /* Firmware revision */ u_int8_t ei_extra[8]; } __attribute__ ((__packed__)); #endif /* !defined _IC_DPTREG_H_ */