4.3BSD-Reno/src/sys/vaxbi/kdbreg.h
/*
* 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 is only permitted until one year after the first shipment
* of 4.4BSD by the Regents. Otherwise, redistribution and use in source and
* binary forms are permitted provided that: (1) source distributions retain
* this entire copyright notice and comment, and (2) distributions including
* binaries display the following acknowledgement: This product includes
* software developed by the University of California, Berkeley and its
* contributors'' in the documentation or other materials provided with the
* distribution and in all advertising materials mentioning features or use
* of this software. 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 AS IS'' AND WITHOUT ANY EXPRESS OR IMPLIED
* WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
*
* @(#)kdbreg.h 7.3 (Berkeley) 6/28/90
*/
/*
* The KDB50 registers are embedded inside the bi interface
* general-purpose registers.
*/
struct kdb_regs {
struct biiregs kdb_bi;
short kdb_xxx; /* first half of GPR 0 unused */
short kdb_ip; /* initialisation and polling */
short kdb_sa; /* status & address (r/o half) */
short kdb_sw; /* status & address (w/o half) */
};
/*
* Bits in KDB status register during initialisation
*/
#define KDB_ERR 0x8000 /* error */
#define KDB_STEP4 0x4000 /* step 4 has started */
#define KDB_STEP3 0x2000 /* step 3 has started */
#define KDB_STEP2 0x1000 /* step 2 has started */
#define KDB_STEP1 0x0800 /* step 1 has started */
#define KDB_DI 0x0100 /* controller implements diagnostics */
#define KDB_IE 0x0080 /* interrupt enable */
#define KDB_NCNRMASK 0x003f /* in STEP1, bits 0-2=NCMDL2, 3-5=NRSPL2 */
#define KDB_IVECMASK 0x007f /* in STEP2, bits 0-6 are interruptvec / 4 */
/* after initialisation: */
#define KDB_GO 0x0001 /* run */
#define KDBSR_BITS \
"\20\20ERR\17STEP4\16STEP3\15STEP2\14STEP1\13oldNV\12oldQB\11DI\10IE\1GO"
/*
* KDB Communications Area. Note that this structure definition
* requires NRSP and NCMD to be defined already.
*/
struct kdbca {
short ca_xxx1; /* unused */
char ca_xxx2; /* unused */
char ca_bdp; /* BDP to purge XXX */
short ca_cmdint; /* command ring transition flag */
short ca_rspint; /* response ring transition flag */
long ca_rspdsc[NRSP];/* response descriptors */
long ca_cmddsc[NCMD];/* command descriptors */
};
/*
* Simplified routines (crash dump) use one command and one response.
*/
struct kdb1ca {
long ca_xxx;
short ca_cmdint;
short ca_rspint;
long ca_rspdsc;
long ca_cmddsc;
};
/*
* Asserting KDB_MAP in values placed in mscp_seq.seq_buffer tells
* the KDB to use mscp_seq.seq_mapbase as a set of PTEs and seq_buffer
* as an offset value. Hence we need no mappings; the KDB50 reads
* the hardware page tables directly. (Without KDB_MAP, seq_bufer
* represents the physical memory address instead, and seq_mapbase is
* unused.)
*/
#define KDB_MAP 0x80000000
#define KDB_PHYS 0 /* pseudo flag */
/*
* KDB statistics.
*/
#define KS_MAXC 32
struct kdbstats {
int ks_sys; /* transfers done from Sysmap */
int ks_paget; /* transfers done from Usrptmap */
int ks_contig; /* transfers done from contiguous user map */
int ks_copies; /* transfers done from pte copies */
int ks_mapwait; /* number of out-of-map waits */
int ks_cmd[KS_MAXC];/* commands started at once */
int ks_inval; /* copies due to !PG_V */
};