/* $OpenBSD: mscp.h,v 1.2 1997/05/29 00:05:02 niklas Exp $ */ /* $NetBSD: mscp.h,v 1.2 1996/07/10 23:35:59 ragge Exp $ */ /* * Copyright (c) 1988 Regents of the University of California. * All rights reserved. * * This code is derived from software contributed to Berkeley by * Chris Torek. * * 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. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by the University of * California, Berkeley and its contributors. * 4. Neither the name of the University nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE REGENTS 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 REGENTS 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. * * @(#)mscp.h 7.5 (Berkeley) 6/28/90 */ /* * Definitions for the Mass Storage Control Protocol * I WISH I KNEW WHAT MORE OF THESE WERE. IT SURE WOULD BE NICE * IF DEC SOLD DOCUMENTATION FOR THEIR OWN CONTROLLERS. */ /* * Control message opcodes */ #define M_OP_ABORT 0x01 /* Abort command */ #define M_OP_GETCMDST 0x02 /* Get command status command */ #define M_OP_GETUNITST 0x03 /* Get unit status command */ #define M_OP_SETCTLRC 0x04 /* Set controller characteristics command */ #define M_OP_SEREX 0x07 /* Serious exception end message */ #define M_OP_AVAILABLE 0x08 /* Available command */ #define M_OP_ONLINE 0x09 /* Online command */ #define M_OP_SETUNITC 0x0a /* Set unit characteristics command */ #define M_OP_DTACCPATH 0x0b /* Determine access paths command */ #define M_OP_ACCESS 0x10 /* Access command */ #define M_OP_COMPCD 0x11 /* Compare controller data command */ #define M_OP_ERASE 0x12 /* Erase command */ #define M_OP_FLUSH 0x13 /* Flush command */ #define M_OP_REPLACE 0x14 /* Replace command */ #define M_OP_COMPHD 0x20 /* Compare host data command */ #define M_OP_READ 0x21 /* Read command */ #define M_OP_WRITE 0x22 /* Write command */ #define M_OP_WRITM 0x23 /* Write mark command */ #define M_OP_POS 0x25 /* Positioning command */ #define M_OP_AVAILATTN 0x40 /* Available attention message */ #define M_OP_DUPUNIT 0x41 /* Duplicate unit number attention message */ #define M_OP_ACCPATH 0x42 /* Access path attention message */ #define M_OP_END 0x80 /* End message flag */ /* * Generic command modifiers */ #define M_MD_EXPRS 0x8000 /* Express request */ #define M_MD_COMP 0x4000 /* Compare */ #define M_MD_CLSEX 0x2000 /* Clear serious exception */ #define M_MD_ERROR 0x1000 /* Force error */ #define M_MD_SCCHH 0x0800 /* Suppress caching (high speed) */ #define M_MD_SCCHL 0x0400 /* Suppress caching (low speed) */ #define M_MD_SECOR 0x0200 /* Suppress error correction */ #define M_MD_SEREC 0x0100 /* Suppress error recovery */ #define M_MD_SSHDW 0x0080 /* Suppress shadowing */ #define M_MD_WBKNV 0x0040 /* Write back (non-volatile) */ #define M_MD_WBKVL 0x0020 /* Write back (volatile) */ #define M_MD_WRSEQ 0x0010 /* Write shadow set one unit at a time */ /* * tape command modifiers */ #define M_MD_IMMEDIATE 0x0040 /* Immediate completion */ #define M_MD_UNLOAD 0x0010 /* Unload tape */ #define M_MD_REVERSE 0x0008 /* Reverse action */ #define M_MD_OBJCOUNT 0x0004 /* Object count */ #define M_MD_REWIND 0x0002 /* Rewind */ /* * AVAILABLE command modifiers */ #define M_AVM_ALLCD 0x0002 /* All class drivers */ #define M_AVM_SPINDOWN 0x0001 /* Spin down */ /* * FLUSH command modifiers */ #define M_FLM_FLUSHENU 0x0001 /* Flush entire unit */ #define M_FLM_VOLATILE 0x0002 /* Volatile only */ /* * GET UNIT STATUS command modifiers */ #define M_GUM_NEXTUNIT 0x0001 /* Next unit */ /* * ONLINE command modifiers */ #define M_OLM_RIP 0x0001 /* Allow self destruction */ #define M_OLM_IGNMF 0x0002 /* Ignore media format error */ /* * ONLINE and SET UNIT CHARACTERISTICS command modifiers */ #define M_OSM_ALTERHI 0x0020 /* Alter host identifier */ #define M_OSM_SHADOWSP 0x0010 /* Shadow unit specified */ #define M_OSM_CLEARWBL 0x0008 /* Clear write-back data lost */ #define M_OSM_SETWRPROT 0x0004 /* Set write protect */ /* * REPLACE command modifiers */ #define M_RPM_PRIMARY 0x0001 /* Primary replacement block */ /* * End message flags */ #define M_EF_BBLKR 0x80 /* Bad block reported */ #define M_EF_BBLKU 0x40 /* Bad block unreported */ #define M_EF_ERLOG 0x20 /* Error log generated */ #define M_EF_SEREX 0x10 /* Serious exception */ #define M_EF_EOT 0x08 /* at end-of-tape */ #define M_EF_POSLOST 0x04 /* position lost */ /* * Controller flags */ #define M_CF_ATTN 0x80 /* Enable attention messages */ #define M_CF_MISC 0x40 /* Enable miscellaneous error log messages */ #define M_CF_OTHER 0x20 /* Enable other host's error log messages */ #define M_CF_THIS 0x10 /* Enable this host's error log messages */ #define M_CF_MLTHS 0x04 /* Multi-host */ #define M_CF_SHADW 0x02 /* Shadowing */ #define M_CF_576 0x01 /* 576 byte sectors */ /* * Unit flags */ #define M_UF_REPLC 0x8000 /* Controller initiated bad block replacement */ #define M_UF_INACT 0x4000 /* Inactive shadow set unit */ #define M_UF_WRTPH 0x2000 /* Write protect (hardware) */ #define M_UF_WRTPS 0x1000 /* Write protect (software or volume) */ #define M_UF_SCCHH 0x8000 /* Suppress caching (high speed) */ #define M_UF_SCCHL 0x4000 /* Suppress caching (low speed) */ #define M_UF_RMVBL 0x0080 /* Removable media */ #define M_UF_WBKNV 0x0040 /* Write back (non-volatile) */ #define M_UF_576 0x0004 /* 576 byte sectors */ #define M_UF_CMPWR 0x0002 /* Compare writes */ #define M_UF_CMPRD 0x0001 /* Compare reads */ /* * Error Log message format codes */ #define M_FM_CTLRERR 0x00 /* Controller error */ #define M_FM_BUSADDR 0x01 /* Host memory access error */ #define M_FM_DISKTRN 0x02 /* Disk transfer error */ #define M_FM_SDI 0x03 /* SDI error */ #define M_FM_SMLDSK 0x04 /* Small disk error */ #define M_FM_TAPETRN 0x05 /* Tape transfer error */ #define M_FM_STIERR 0x06 /* STI communication or command failure */ #define M_FM_STIDEL 0x07 /* STI drive error log */ #define M_FM_STIFEL 0x08 /* STI formatter error log */ /* * Error Log message flags */ #define M_LF_SUCC 0x80 /* Operation successful */ #define M_LF_CONT 0x40 /* Operation continuing */ #define M_LF_SQNRS 0x01 /* Sequence number reset */ /* * Status codes */ #define M_ST_MASK 0x1f /* Status code mask */ #define M_ST_SUCCESS 0x00 /* Success */ #define M_ST_INVALCMD 0x01 /* Invalid command */ #define M_ST_ABORTED 0x02 /* Command aborted */ #define M_ST_OFFLINE 0x03 /* Unit offline */ #define M_ST_AVAILABLE 0x04 /* Unit available */ #define M_ST_MFMTERR 0x05 /* Media format error */ #define M_ST_WRPROT 0x06 /* Write protected */ #define M_ST_COMPERR 0x07 /* Compare error */ #define M_ST_DATAERR 0x08 /* Data error */ #define M_ST_HOSTBUFERR 0x09 /* Host buffer access error */ #define M_ST_CTLRERR 0x0a /* Controller error */ #define M_ST_DRIVEERR 0x0b /* Drive error */ #define M_ST_FORMATTERR 0x0c /* Formatter error */ #define M_ST_BOT 0x0d /* Beginning-of-tape */ #define M_ST_TAPEMARK 0x0e /* Tape mark encountered */ #define M_ST_RDTRUNC 0x10 /* Record data truncated */ #define M_ST_DIAG 0x1f /* Message from an internal diagnostic */ /* * Subcodes of M_ST_OFFLINE */ #define M_OFFLINE_UNKNOWN (0 << 5) /* unknown or on other ctlr */ #define M_OFFLINE_UNMOUNTED (1 << 5) /* unmounted or RUN/STOP at STOP */ #define M_OFFLINE_INOPERATIVE (2 << 5) /* inoperative? */ #define M_OFFLINE_DUPLICATE (4 << 5) /* duplicate unit number */ #define M_OFFLINE_INDIAGNOSTIC (8 << 5) /* disabled by FS or diagnostic */ /* * An MSCP packet begins with a header giving the length of * the entire packet (including the header itself)(?), two bytes * of device specific data, and the a whole bunch of variants * depending on message type. * * N.B.: In most cases we distinguish between a `command' and * an `end' variant as well. The command variant is that which * is given to the controller; the `end' variant is its response. */ /* * Generic sequential message variant (command and response). */ struct mscpv_seq { long seq_bytecount; /* byte count */ #define seq_rbn seq_bytecount /* aka RBN (replace) */ #define seq_outref seq_bytecount /* aka outref (abort/get cmd status) */ long seq_buffer; /* buffer descriptor */ long seq_mapbase; /* page map (first PTE) phys address */ long seq_xxx1; /* ? */ /* unused */ long seq_lbn; /* logical block number */ long seq_xxx2; /* ? */ /* unused */ long *seq_addr; /* pointer to cmd descriptor */ long seq_software[4]; /* reserved to software; unused */ }; /* * Set Controller Characteristics command variant */ struct mscpv_sccc { u_short sccc_version; /* MSCP version number */ u_short sccc_ctlrflags; /* controller flags */ u_short sccc_hosttimo; /* host timeout */ u_short sccc_usefrac; /* use fraction */ long sccc_time; /* time and date */ long sccc_time1; /* it's a quad field */ long sccc_errlgfl; /* ? */ short sccc_xxx2; /* ? */ short sccc_copyspd; /* ? */ }; /* * Set Controller Characteristics end variant */ struct mscpv_scce { u_short scce_version; /* MSCP version number */ u_short scce_ctlrflags; /* controller flags */ u_short scce_ctlrtimo; /* controller timeout */ u_short scce_ctlrcmdl; /* ??? */ quad_t scce_ctlrid; /* controller ID */ long scce_xxx[3]; /* ? */ long scce_volser; /* volume serial number */ }; /* * On Line command variant */ struct mscpv_onlc { long onlc_xxx1[4]; /* ? */ long onlc_errlgfl; /* error log flag? */ short onlc_xxx2; /* ? */ short onlc_copyspd; /* copy speed? */ }; /* * On Line end variant */ struct mscpv_onle { long onle_xxx1[3]; /* ? */ /*???*/ short onle_xxx2; /* ? */ u_char onle_drivetype; /* drive type index (same in guse) */ char onle_xxx3; /* ? */ long onle_mediaid; /* media type id (same in guse) */ long onle_xxx4; /* ? */ long onle_unitsize; /* unit size in sectors */ long onle_volser; /* volume serial number */ }; /* * Get Unit Status end variant (and Avail Attn?) */ struct mscpv_guse { u_short guse_multunit; /* multi-unit code */ u_short guse_unitflags; /* unit flags */ long guse_hostid; /* host id */ long guse_unitid0; /*???*/ short guse_unitid1; /*???*/ u_char guse_drivetype; /* drive type index */ u_char guse_unitid2; /*???*/ long guse_mediaid; /* media type id (encoded) */ short guse_shadowunit; /* shadow unit */ short guse_shadowstat; /* shadow status */ u_short guse_nspt; /* sectors per track */ u_short guse_group; /* track group size */ u_short guse_ngpc; /* groups per cylinder */ u_short guse_xxx; /* reserved */ u_short guse_rctsize; /* RCT size (sectors) */ u_char guse_nrpt; /* RBNs per track */ u_char guse_nrct; /* number of RCTs */ }; /* * Macros to break up and build media IDs. An ID encodes the port * type in the top 10 bits, and the drive type in the remaining 22. * The 10 bits, and 15 of the 22, are in groups of 5, with the value * 0 representing space and values 1..26 representing A..Z. The low * 7 bits represent a number in 0..127. Hence an RA81 on a UDA50 * is < >81, or 0x25641051. This encoding scheme is known * in part in uda.c. * * The casts below are just to make pcc generate better code. */ #define MSCP_MEDIA_PORT(id) (((long)(id) >> 22) & 0x3ff) /* port */ #define MSCP_MEDIA_DRIVE(id) ((long)(id) & 0x003fffff) /* drive */ #define MSCP_MID_ECH(n, id) (((long)(id) >> ((n) * 5 + 7)) & 0x1f) #define MSCP_MID_CHAR(n, id) \ (MSCP_MID_ECH(n, id) ? MSCP_MID_ECH(n, id) + '@' : ' ') #define MSCP_MID_NUM(id) ((id) & 0x7f) /* for, e.g., RA81 */ #define MSCP_MKDRIVE2(a, b, n) \ (((a) - '@') << 17 | ((b) - '@') << 12 | (n)) /* for, e.g., RRD50 */ #define MSCP_MKDRIVE3(a, b, c, n) \ (((a) - '@') << 17 | ((b) - '@') << 12 | ((c) - '@') << 7 | (n)) /* * Error datagram variant. */ struct mscpv_erd { quad_t erd_ctlrid; /* controller ID */ u_char erd_ctlrsoftware; /* controller software version */ u_char erd_ctlrhardware; /* controller hardware version */ u_short erd_multiunit; /* multi-unit code (?) */ union { u_long un_busaddr; /* bus address, if mem access err */ quad_t un_unitid; /* unit id, otherwise */ } erd_un1; #define erd_busaddr erd_un1.un_busaddr #define erd_unitid erd_un1.un_unitid u_char erd_unitsoftware; /* unit software version */ u_char erd_unithardware; /* unit hardware version */ union { u_char un_b[2]; /* level, retry (if disk xfer err) */ u_short un_s; /* cylinder (if small disk error) */ } erd_un2; #define erd_level erd_un2.un_b[0] #define erd_retry erd_un2.un_b[1] #define erd_sdecyl erd_un2.un_s long erd_volser; /* volume serial number */ u_long erd_hdr; /* `header' (block number) */ u_char erd_sdistat[12]; /* SDI status information (?) */ }; /* * I am making brash assumptions about the first four bytes of all * MSCP packets. These appear to be true for both UDA50s and TMSCP * devices (TU81, TA81, TK50). DEC claim that these four bytes are * not part of MSCP itself, yet at least the length is necessary * for, e.g., error checking. */ struct mscp { u_short mscp_msglen; /* length in bytes */ u_char mscp_msgtc; /* type (high 4 bits) and credits */ u_char mscp_vcid; /* virtual circuit ID */ long mscp_cmdref; /* command reference number */ u_short mscp_unit; /* unit number */ u_short mscp_seqnum; /* sequence number */ u_char mscp_opcode; /* opcode */ #define mscp_format mscp_opcode /* aka format (datagrams) */ u_char mscp_flags; /* flags */ u_short mscp_modifier; /* modifier (commands) */ #define mscp_status mscp_modifier /* aka status (ends) */ #define mscp_event mscp_modifier /* aka event (datagrams) */ union { struct mscpv_seq un_seq; /* generic sequential msg */ struct mscpv_sccc un_sccc; /* SCC command */ struct mscpv_scce un_scce; /* SCC end */ struct mscpv_onlc un_onlc; /* on line command */ struct mscpv_onle un_onle; /* on line end */ struct mscpv_guse un_guse; /* get unit status */ struct mscpv_erd un_erd; /* error datagram */ } mscp_un; /*???*/ long mscp_xxx; /* pad to 64 bytes */ }; /* * Define message length according to the DEC specifications by dropping * the four byte header. */ #define MSCP_MSGLEN (sizeof (struct mscp) - 4) /* * Shorthand */ /* * Generic packet */ #define mscp_seq mscp_un.un_seq /* * Set Controller Characteristics packet */ #define mscp_sccc mscp_un.un_sccc /* * Set Controller Characteristics end packet */ #define mscp_scce mscp_un.un_scce /* * Online / Set Unit Characteristics command packet */ #define mscp_onlc mscp_un.un_onlc /* * Online end packet */ #define mscp_onle mscp_un.un_onle /* * Get Unit Status end packet */ #define mscp_guse mscp_un.un_guse /* * MSCP Error Log packet */ #define mscp_erd mscp_un.un_erd /* * MSCP seq_addr field actually belongs to overall packet. */ #define mscp_addr mscp_seq.seq_addr /* * Macros to break up mscp_msgtc, and types. */ #define MSCP_MSGTYPE(m) ((m) & 0xf0) #define MSCP_CREDITS(m) ((m) & 0x0f) #define MSCPT_SEQ 0x00 /* sequential message */ #define MSCPT_DATAGRAM 0x10 /* error datagram */ #define MSCPT_CREDITS 0x20 /* credit notification */ #define MSCPT_MAINTENANCE 0xf0 /* who knows */ /* * Here begin more perhaps brash assumptions about MSCP devices... */ /* * MSCP controllers have `command rings' and `response rings'. A * command ring is a pool of MSCP packets that the host uses to give * commands to the controller; a response ring is a pool of MSCP * packets that the controller uses to give back responses. Entries * in the command and response rings are `owned' by either the host * or the controller; only the owner is allowed to alter any of the * fields in the MSCP packet. Thus, free command packets are owned * by the host, and free response packets by the controller. When * the host gives a packet to the controller, it tells the controller * by touching a device register; when the controller gives a response * to the host, it generates an interrupt if enabled, and sets * a device register as well. * * The pool is `described' by a set of pointers to the packets, along * with the two flags below. */ #define MSCP_OWN 0x80000000 /* controller owns this packet */ #define MSCP_INT 0x40000000 /* controller should interrupt */