NetBSD-5.0.2/sys/dev/vme/xdreg.h
/* $NetBSD: xdreg.h,v 1.6 2006/08/27 19:18:08 christos Exp $ */
/*
*
* Copyright (c) 1995 Charles D. Cranor
* 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.
* 3. All advertising materials mentioning features or use of this software
* must display the following acknowledgement:
* This product includes software developed by Charles D. Cranor.
* 4. The name of the author may not be used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``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 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.
*/
/*
* x d r e g . h
*
* this file contains the description of the Xylogics 753/7053's hardware
* data structures.
*
* author: Chuck Cranor <chuck@ccrc.wustl.edu>
*/
#define XDC_MAXDEV 4 /* max devices per controller */
#define XDC_RESETUSEC 1000000 /* max time for xdc reset (page 21 says 1sec) */
#define XDC_MAXIOPB 31 /* max number of iopbs that can be active */
#define XDC_MAXTIME 4*1000000 /* four seconds before we give up and reset */
#define XDC_MAXTRIES 4 /* max number of times to retry an operation */
#define XDC_THROTTLE 32 /* DMA throttle */
#define XDC_INTERLEAVE 0 /* interleave (for format param) */
#define XDC_DPARAM 0 /* dparam (drive param) XDDP_EC32 or 0 */
/*
* xdc device interface
* (lives in VME address space)
*/
struct xdc {
volatile u_char filler0;
volatile u_char xdc_iopbaddr0; /* iopb byte 0 (LSB) */
volatile u_char filler1;
volatile u_char xdc_iopbaddr1; /* iopb byte 1 */
volatile u_char filler2;
volatile u_char xdc_iopbaddr2; /* iopb byte 2 */
volatile u_char filler3;
volatile u_char xdc_iopbaddr3; /* iopb byte 3 (MSB) */
volatile u_char filler4;
volatile u_char xdc_iopbamod; /* iopb address modifier */
volatile u_char filler5;
volatile u_char xdc_csr; /* control and status register */
volatile u_char filler6;
volatile u_char xdc_f_err; /* fatal error register */
};
/*
* xdc_iopbamod: addressing modes
* When doing DMA, if the maximum address of the buffer is greater than
* 24 bits then you must use the 32 bit mode. Note that on many systems
* (e.g. sun-4/300) DVMA space is smaller than 24 bits, so there is no
* need for the 32 bit mode. However, the 32-bit mode hooks are in
* the driver in case it ever gets ported to an environment that needs it.
*/
#define XDC_ADDRMOD 0x3d /* standard address modifer, 24 bit max */
#define XDC_ADDRMOD32 0x0d /* 32 bit version above */
/*
* xdc_csr
*/
#define XDC_RMAINTMD 0x80 /* reserved maintenance mode (write) */
#define XDC_BUSY 0x80 /* busy (read) */
#define XDC_F_ERROR 0x40 /* fatal error (read) */
#define XDC_MAINTMOD 0x20 /* maintenance mode (read/write) */
#define XDC_RESET 0x08 /* soft reset (read/write) */
#define XDC_ADDIOPB 0x04 /* add iopb/add pending (write) */
#define XDC_ADDING 0x04 /* iopb add is pending (read) */
#define XDC_CLRRIO 0x02 /* clear RIO (remove iopb) request (write) */
#define XDC_REMIOPB 0x02 /* remove iopb (read) */
#define XDC_RBUSYSEM 0x01 /* register busy semaphore (read/write) */
/*
* Input/Output Parameter Block (iopb)
*
* all controller commands are done via iopb's. to start a command you
* must do this:
* [1] allocate space in DVMA space for the iopb
* [2] fill out all the fields of the iopb
* [3] check to see if controller can accept an iopb (XDC_ADDING bit clear)
* [4] put the DVMA address of the iopb in the xdc registers (in vme space)
* [5] set the XDC_ADDIOPB bit in the xdc csr
* [6] <command started>
*
* when the controller is done with a command it may interrupt (if you
* ask it to) and it will set the XDC_REMIOPB bit in the csr. the address
* of the finished iopb will be in the xdc registers. after that is
* read, set the XDC_CLRRIO to clear the iopb out of memory.
*
* the format of the iopb is described in section 4 of the manual.
*/
struct xd_iopb {
/* section 4.1.1: byte 0 */
volatile u_char errs:1; /* error summary bit, only valid if
"done" is set. must clear "done"
and "errs" bits before starting an
operation */
volatile u_char done:1; /* "done" bit */
volatile u_char chen:1; /* chain enable, "next iopb" is valid,
note xd returns one iopb at a time */
volatile u_char sgm:1; /* scatter/gather mode */
volatile u_char comm:4; /* command number (see table 4-2) */
#define XDCMD_NOP 0x0 /* no-op */
#define XDCMD_WR 0x1 /* write */
#define XDCMD_RD 0x2 /* read */
#define XDCMD_SK 0x3 /* seek */
#define XDCMD_RST 0x4 /* drive reset */
#define XDCMD_WRP 0x5 /* write params */
#define XDCMD_RDP 0x6 /* read params */
#define XDCMD_XWR 0x7 /* extended write */
#define XDCMD_XRD 0x8 /* extended read */
#define XDCMD_TST 0x9 /* diagnostic tests */
/* 0xa to 0xf are reserved */
/* section 4.1.2: byte 1 */
volatile u_char errnum; /* status byte 1 (non-zero if error) */
/* section 4.1.3: byte 2 */
volatile u_char status; /* status byte 2 (see below) */
#define XDST_SR 0x40 /* slipped revolution */
#define XDST_CSE 0x20 /* count sectors executed */
#define XDST_WRPT 0x10 /* write protected drive */
#define XDST_DFLT 0x08 /* disk fault */
#define XDST_SKER 0x04 /* seek error: >max, or timeout */
#define XDST_ONCL 0x02 /* on-cylinder */
#define XDST_DRDY 0x01 /* drive is ready! */
/* section 4.1.4: byte 3 */
volatile u_char istat; /* internal status: reserved for xylogics */
/* section 4.1.5: byte 4 */
volatile u_char subfun; /* sub-function of command (see below) */
#define XDFUN_R 0x00 /* XDCMD_SK: report current addr */
#define XDFUN_SR 0x01 /* XDCMD_SK: seek and report addr */
#define XDFUN_SRI 0x02 /* XDCMD_SK: start seek, report comp imm */
#define XDFUN_CTL 0x00 /* XDCMD_{WRP,RDP}: controller params */
#define XDFUN_DRV 0x80 /* XDCMD_{WRP,RDP}: drive params */
#define XDFUN_FMT 0x81 /* XDCMD_{WRP,RDP}: format params,XWR form.*/
#define XDFUN_STX 0xa0 /* XDCMD_RDP: read drive status extended */
#define XDFUN_THD 0x80 /* XDCMD_{XWR,XRD}: track headers */
#define XDFUN_VFY 0x81 /* XDCMD_XRD: verify data */
#define XDFUN_HDR 0x82 /* XDCMD_{XWR,XRD}: header, verify,data, ecc*/
#define XDFUN_DM 0xa0 /* XDCMD_{XWR,XRD}: defect map */
#define XDFUN_DMX 0xa1 /* XDCMD_{XWR,XRD}: defect map extended */
/* section 4.1.6: byte 5 */
volatile u_char fixd:1; /* fixed media (vs removable) */
volatile u_char reserved1:4; /* reserved */
volatile u_char unit:3; /* unit number */
/* note: 6 to 13 are overloaded (see below) */
/* section 4.1.7: byte 6 */
volatile u_char lll:5; /* linked list length */
volatile u_char intl:3; /* interrupt level */
/* section 4.1.8: byte 7 */
volatile u_char intr_vec; /* interrupt vector */
/* section 4.1.9: bytes 8 and 9 */
volatile u_short sectcnt; /* sector count (# to xfer) */
/* section 4.1.10: byte a and b */
volatile u_short cylno; /* cylinder number */
/* section 4.1.11: byte c */
volatile u_char headno; /* head number */
/* section 4.1.12: byte d */
volatile u_char sectno; /* sector number */
/* section 4.1.13: byte e */
volatile u_char addrmod; /* addr modifier (bits 7,6 must be zero) */
/* section 4.1.14: byte f */
volatile u_char naddrmod; /* next (in chain) address iobp ad. modifer */
/* section 4.1.15: bytes 0x10 to 0x13 */
volatile u_long daddr; /* DMA data address */
/* section 4.1.16: bytes 0x14 to 0x17 */
volatile u_long nextiopb; /* next iopb (in chain) address */
/* section 4.1.17: bytes 0x18, 0x19 */
volatile u_short cksum; /* iopb checksum */
/* section 4.1.18: bytes 0x1a, 0x1b */
volatile u_short eccpattern; /* ECC pattern word (ecc mode 0) */
/* section 4.1.19: bytes 0x1c, 0x1d */
volatile u_short eccoffword; /* ECC offset word (ecc mode 0) */
};
/*
* some commands overload bytes 6 to 0x13 of the iopb with different meanings.
* these commands include:
* section 4.2: controller parameters
* section 4.3: drive parameters
* sectino 4.4: format parameters
*
* note that the commands that overload the iopb are not part of the
* "critical data path" of the driver. so, we handle them by defining
* alternate iopb structures for these commands... it only costs us an
* extra pointer.
*/
/*
* controller parameters iopb: redefines bytes: 8 -> 0xe, 0x10 -> 0x13
*/
struct xd_iopb_ctrl {
volatile u_char same[8]; /* same as xd_iopb */
/* section 4.2.1: byte 8 */
volatile u_char param_a; /* param A (see below) */
#define XDPA_AUD 0x80 /* auto-update iopb fields when cmd done */
#define XDPA_TMOD 0x40 /* long-word transfer mode (vs word) */
#define XDPA_DACF 0x20 /* ignore vme ACFAIL signal */
#define XDPA_ICS 0x10 /* checksum check (adds 100usec per xfer) */
#define XDPA_EDT 0x08 /* enable on-board DMA timeout timer */
#define XDPA_NPRM 0x04 /* enable VME non-priv request mode */
/* rest must be zero */
/* section 4.2.2: byte 9 */
volatile u_char param_b; /* param B (see below) */
#define XDPB_TDT 0xc0 /* throttle dead time (see 8.11, below) */
#define XDPB_ROR 0x10 /* release on request */
#define XDPB_DRA 0x01 /* disable read ahead */
/* TDT values: */
#define XDPB_TDT_0USEC 0x00 /* no TDT */
#define XDPB_TDT_3_2USEC 0x40 /* 3.2 usec */
#define XDPB_TDT_6_4USEC 0x80 /* 6.4 usec */
#define XDPB_TDT_12_8USEC 0xc0 /* 12.8 usec */
/* section 4.2.3: byte a */
volatile u_char param_c; /* param C (see below) */
#define XDPC_OVS 0x80 /* over-lapped seek */
#define XDPC_COP 0x40 /* command optimiziation (elevator alg.) */
#define XDPC_ASR 0x10 /* auto-seek retry */
#define XDPC_RBC 0x04 /* retry before correction if ECC error */
#define XDPC_ECCM 0x03 /* ECC mode (0, 1, and 2) */
#define XDPC_ECC0 0x00 /* ECC mode 0 */
#define XDPC_ECC1 0x01 /* ECC mode 1 */
#define XDPC_ECC2 0x02 /* ECC mode 2 */
/* section 4.2.4: byte b */
volatile u_char throttle; /* max DMA xfers per master (0==256) */
/* section 4.2.5: byte c */
volatile u_char eprom_lvl; /* EPROM release level */
volatile u_char delay; /* delay (see note below) */
/* section 4.2.6: byte e */
volatile u_char ctype; /* controller type */
#define XDCT_753 0x53 /* xylogic 753/7053 */
volatile u_char same2; /* byte f: same as xd_iopb */
/* section 4.2.7: byte 0x10, 0x11 */
volatile u_short eprom_partno; /* eprom part number */
/* section 4.2.8: byte 12 */
volatile u_char eprom_rev; /* eprom revision number */
};
/*
* Note on byte 0xd ("delay"): This byte is not documented in the
* Xylogics manual. However, I contacted Xylogics and found out what
* it does. The controller sorts read commands into groups of
* contiguous sectors. After it processes a group of contiguous
* sectors rather than immediately going on to the next group of
* contiguous sectors, the controller can delay for a certain amount
* of time in hopes of getting another cluster of reads in the same
* area of the disk (thus avoiding a long seek). Byte 0xd controls
* how long it waits before giving up and going on and doing the next
* contiguous cluster.
*
* it is unclear what unit the delay is in, but it looks like sun
* uses the value "20" for sun3's, and "0" for sparc, except for the
* 4/300 (where it is "4"). [see /sys/sundev/xd_conf.c on any 4.1.3
* machine for how sun configures its controller...]
*/
#define XDC_DELAY_SUN3 20
#define XDC_DELAY_4_300 4
#define XDC_DELAY_SPARC 0
/*
* drive parameters iopb: redefines bytes: 6, 8, 9, a, b, c, d, e
*/
struct xd_iopb_drive {
volatile u_char same[6]; /* same as xd_iopb */
/* section 4.3.1: byte 6 */
volatile u_char dparam_ipl; /* drive params | interrupt level */
#define XDDP_EC32 0x10 /* 32 bit ECC mode */
volatile u_char same1; /* byte 7: same */
/* section 4.3.2: byte 8 */
volatile u_char maxsect; /* max sector/last head (<= byte d) */
/* section 4.3.3: byte 9 */
volatile u_char headoff; /* head offset */
/* section 4.3.4: bytes 0xa, 0xb */
volatile u_short maxcyl; /* max cyl (zero based!) */
/* section 4.3.5: byte 0xc */
volatile u_char maxhead; /* max head (zero based!) */
/* section 4.3.6: byte 0xd */
volatile u_char maxsector; /* max sector of disk (zero based!) */
/* section 4.3.7: byte 0xe */
volatile u_char sectpertrk; /* sectors per track, not zero base, no runt*/
};
/*
* format parameters iopb: redefines bytes: 6, 8, 9, a, b, c, d, 0x10, 0x11
*/
struct xd_iopb_format {
volatile u_char same[6]; /* smae as xd_iopb */
/* section 4.4.1: byte 6 */
volatile u_char interleave_ipl;/* (interleave << 4) | interrupt level */
/* interleave ratio 1:1 to 16:1 */
volatile u_char same1; /* byte 7: same */
/* section 4.4.2: byte 8 */
volatile u_char field1; /* >= 1, xylogic says should be 1 */
#define XDFM_FIELD1 0x01 /* xylogic value */
/* section 4.4.3: byte 9 */
volatile u_char field2; /* >0, field1+field2 <= 255 */
#define XDFM_FIELD2 0x0a /* xylogic value */
/* section 4.4.4: byte a */
volatile u_char field3; /* >= field1+field2 */
#define XDFM_FIELD3 0x1b /* xylogic value */
/* section 4.4.5: byte b */
volatile u_char field4; /* field4 */
#define XDFM_FIELD4 0x14 /* xylogic value */
/* section 4.4.6: bytes 0xc, 0xd */
volatile u_short bytespersec; /* bytes per sector */
#define XDFM_BPS 0x200 /* must be 512! */
volatile u_char same2[2]; /* bytes e, f */
/* section 4.4.7: byte 0x10 */
volatile u_char field6; /* field 6 */
#define XDFM_FIELD6 0x0a /* xylogic value */
/* section 4.4.8: byte 0x11 */
volatile u_char field7; /* field 7, >= 1 */
#define XDFM_FIELD7 0x03 /* xylogic value */
};
/*
* errors: errors come from either the fatal error register or the
* iopb
*/
#define XD_ERA_MASK 0xf0 /* error action mask */
#define XD_ERA_PROG 0x10 /* program error */
#define XD_ERA_PRG2 0x20 /* program error */
#define XD_ERA_SOFT 0x30 /* soft error: we recovered */
#define XD_ERA_HARD 0x40 /* hard error: retry */
#define XD_ERA_RSET 0x60 /* hard error: reset, then retry */
#define XD_ERA_WPRO 0x90 /* write protected */
/* software error codes */
#define XD_ERR_FAIL 0xff /* general total failure */
/* no error */
#define XD_ERR_AOK 0x00 /* success */
/* non-retryable programming error */
#define XD_ERR_ICYL 0x10 /* illegal cyl */
#define XD_ERR_IHD 0x11 /* illegal head */
#define XD_ERR_ISEC 0x12 /* illegal sector */
#define XD_ERR_CZER 0x13 /* count zero */
#define XD_ERR_UIMP 0x14 /* unknown command */
#define XD_ERR_IF1 0x15 /* illegal field 1 */
#define XD_ERR_IF2 0x16 /* illegal field 2 */
#define XD_ERR_IF3 0x17 /* illegal field 3 */
#define XD_ERR_IF4 0x18 /* illegal field 4 */
#define XD_ERR_IF5 0x19 /* illegal field 5 */
#define XD_ERR_IF6 0x1a /* illegal field 6 */
#define XD_ERR_IF7 0x1b /* illegal field 7 */
#define XD_ERR_ISG 0x1c /* illegal scatter/gather */
#define XD_ERR_ISPT 0x1d /* not enough sectors per track */
#define XD_ERR_ALGN 0x1e /* next iopb allignment error */
#define XD_ERR_SGAL 0x1f /* scatter gather address alignment error */
#define XD_ERR_SGEC 0x20 /* scatter gather with auto ECC */
/* successfully recovered soft errors */
#define XD_ERR_SECC 0x30 /* soft ecc corrected */
#define XD_ERR_SIGN 0x31 /* ecc ignored */
#define XD_ERR_ASEK 0x32 /* auto-seek retry recovered */
#define XD_ERR_RTRY 0x33 /* soft retry recovered */
/* hard errors: please retry */
#define XD_ERR_HECC 0x40 /* hard data ECC */
#define XD_ERR_NHDR 0x41 /* header not found */
#define XD_ERR_NRDY 0x42 /* drive not ready */
#define XD_ERR_TOUT 0x43 /* timeout */
#define XD_ERR_VTIM 0x44 /* VME DMA timeout */
#define XD_ERR_DSEQ 0x45 /* disk sequencer error */
#define XD_ERR_HDEC 0x48 /* header ECC error */
#define XD_ERR_RVFY 0x49 /* ready verify */
#define XD_ERR_VFER 0x4a /* fatal VME DMA error */
#define XD_ERR_VBUS 0x4b /* VME bus error */
/* hard error: reset and retry */
#define XD_ERR_DFLT 0x60 /* drive fault */
#define XD_ERR_HECY 0x61 /* header error/cyl */
#define XD_ERR_HEHD 0x62 /* header error/head */
#define XD_ERR_NOCY 0x63 /* not on cylinder */
#define XD_ERR_SEEK 0x64 /* seek error */
/* fatal hardware error */
#define XD_ERR_ILSS 0x70 /* illegal sector size */
/* misc */
#define XD_ERR_SEC 0x80 /* soft ecc */
/* requires manual intervention */
#define XD_ERR_WPER 0x90 /* write protected */
/* FATAL errors */
#define XD_ERR_IRAM 0xe1 /* IRAM self test failed */
#define XD_ERR_MT3 0xe3 /* maint test 3 failed (DSKCEL RAM) */
#define XD_ERR_MT4 0xe4 /* maint test 4 failed (Header shift reg) */
#define XD_ERR_MT5 0xe5 /* maint test 5 failed (VMEDMA regs) */
#define XD_ERR_MT6 0xe6 /* maint test 6 failed (REGCEL chip) */
#define XD_ERR_MT7 0xe7 /* maint test 7 failed (buff. parity) */
#define XD_ERR_MT8 0xe8 /* maint test 8 failed (fifo) */
#define XD_ERR_IOCK 0xf0 /* iopb checksume miscompare */
#define XD_ERR_IODM 0xf1 /* iopb DMA fatal */
#define XD_ERR_IOAL 0xf2 /* iopb allignment error */
#define XD_ERR_FIRM 0xf3 /* firmware error n*/
#define XD_ERR_MMOD 0xf5 /* illegal maint mode test number */
#define XD_ERR_ACFL 0xf6 /* ACFAIL asserted */