/* $NetBSD: ka410.h,v 1.1 1996/07/20 17:58:14 ragge Exp $ */ /* * Copyright (c) 1996 Ludd, University of Lule}, Sweden. * All rights reserved. * * This code is derived from software contributed to Ludd by Bertram Barth. * * 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 at Ludd, University of * Lule}, Sweden and its contributors. * 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. */ /* * Definition for I/O addresses of * * MicroVAX 2000 (TeamMate) * VAXstation 2000 (VAXstar) */ #define KA410_SIDEX 0x20040004 /* SID extension register */ #define KA410_CFGTST 0x20020000 /* Configuration and Test register */ #define KA410_IORESET 0x20020000 /* I/O Reset register */ #define KA410_ROM_BASE 0x20040000 /* System module ROM */ #define KA410_ROM_END 0x2007FFFF #define KA410_ROM_SIZE 0x40000 #define KA410_IVN_BASE 0x20040020 /* Interrupt Vector Numbers */ #define KA410_IVN_END 0x2004003F #define KA410_IVN_SIZE 0x20 #define KA410_HLTCOD 0x20080000 /* Halt Code Register */ #define KA410_MSER 0x20080004 /* Memory System Error register */ #define KA410_MEAR 0x20080008 /* Memory Error Address register */ #define KA410_INTMSK 0x2008000C /* Interrupt Mask register */ #define KA410_VDCORG 0x2008000D /* Video Controller Origin Register */ #define KA410_VDCSEL 0x2008000E /* Video Controller Select Register */ #define KA410_INTREQ 0x2008000F /* Interrupt Request register */ #define KA410_INTCLR 0x2008000F /* Interrupt Request clear register */ /* * Other fixed addresses which should be mapped */ #define KA410_CPU_BASE 0x20080000 #define KA410_CPU_END 0x200800FF #define KA410_CPU_SIZE 0x100 #define KA410_NWA_BASE 0x20090000 /* Network Address ROM */ #define KA410_NWA_END 0x2009007F #define KA410_NWA_SIZE 0x80 #define KA410_SER_BASE 0x200A0000 /* Serial line controller */ #define KA410_SER_END 0x200A000F #define KA410_SER_SIZE 0x10 #define KA410_WAT_BASE 0x200B0000 /* TOY clock and NV-RAM */ #define KA410_WAT_END 0x200B00FF #define KA410_WAT_SIZE 0x100 #define KA410_DKC_BASE 0x200C0000 /* Disk Controller Ports */ #define KA410_DKC_END 0x200C0007 #define KA410_DKC_SIZE 0x08 #define KA410_SCS_BASE 0x200C0080 /* Tape (SCSI) Controller Chip */ #define KA410_SCS_END 0x200C009F #define KA410_SCS_SIZE 0x20 #define KA410_DMA_BASE 0x200D0000 /* Disk Data buffer RAM */ #define KA410_DMA_END 0x200D3FFF #define KA410_DMA_SIZE 0x4000 #define KA410_LAN_BASE 0x200E0000 /* LANCE chip registers */ #define KA410_LAN_END 0x200E0007 #define KA410_LAN_SIZE 0x08 #define KA410_CUR_BASE 0x200F0000 /* Monochrome video cursor chip */ #define KA410_CUR_END 0x200F0007 #define KA410_CUR_SIZE 0x08 #define KA410_SCS_DADR 0x200C00A0 /* Tape(SCSI) DMA address register */ #define KA410_SCS_DCNT 0x200C00C0 /* Tape(SCSI) DMA byte count reg. */ #define KA410_SCS_DDIR 0x200C00C4 /* Tape(SCSI) DMA transfer direction */ #define KA410_CUR_CMD 0x200F0000 /* Cursor Command Register */ #define KA410_CUR_XPOS 0x200F0004 /* Cursor X position */ #define KA410_CUR_YPOS 0x200F0008 /* Cursor Y position */ #define KA410_CUR_XMIN1 0x200F000C /* Region 1 left edge */ #define KA410_CUR_XMAX1 0x200F0010 /* Region 1 right edge */ #define KA410_CUR_YMIN1 0x200F0014 /* Region 1 top edge */ #define KA410_CUR_YMAX1 0x200F0018 /* Region 1 bottom edge */ #define KA410_CUR_XMIN2 0x200F002C /* Region 2 left edge */ #define KA410_CUR_XMAX2 0x200F0030 /* Region 2 right edge */ #define KA410_CUR_YMIN2 0x200F0034 /* Region 2 top edge */ #define KA410_CUR_YMAX2 0x200F0038 /* Region 2 bottom edge */ /* * Definitions for the Configuration and Test Register */ #define KA410_CFG_MULTU 0x80 /* MicroVAX or VAXstation */ #define KA410_CFG_NETOPT 0x40 /* Network option present */ #define KA410_CFG_L3CON 0x20 /* Console on line #3 of dc */ #define KA410_CFG_CURTEST 0x10 /* Cursor Test (monochrom) */ #define KA410_CFG_VIDOPT 0x08 /* Video option present */ #define KA410_CFG_MEMSZ 0x07 /* Memory option type/size */ #define KA410_CFG_0MB 0x00 /* No additional Memory board */ #define KA410_CFG_1MB 0x01 #define KA410_CFG_2MB 0x02 #define KA410_CFG_4MB 0x03 #define KA410_CFG_6MB 0x04 #define KA410_CFG_8MB 0x05 #define KA410_CFG_12MB 0x06 #define KA410_CFG_14MB 0x07 /* * interrupt request-, clear-, and mask register */ extern volatile unsigned char *ka410_intreq; extern volatile unsigned char *ka410_intclr; extern volatile unsigned char *ka410_intmsk; #define INTR_SR (1<<7) /* Serial line receiver or silo full */ #define INTR_ST (1<<6) /* Serial line transmitter done */ #define INTR_NP (1<<5) /* Network controller primary */ #define INTR_NS (1<<4) /* Network controller secondary */ #define INTR_VF (1<<3) /* Video end of frame */ #define INTR_VS (1<<2) /* Video secondary */ #define INTR_SC (1<<1) /* SCSI controller */ #define INTR_DC (1<<0) /* Disk controller */ /* * interrupt vector numbers */ #define IVEC_BASE 0x20040020 #define IVEC_SR 0x000002C0 #define IVEC_ST 0x000002C4 #define IVEC_NP 0x00000250 #define IVEC_NS 0x00000254 #define IVEC_VF 0x00000244 #define IVEC_VS 0x00000248 #define IVEC_SC 0x000003F8 #define IVEC_DC 0x000003FC /* * Clock-Chip data in NVRAM */ #define KA410_CPMBX 0x200B0038 /* Console Mailbox (1 byte) */ #define KA410_CPFLG 0x200B003C /* Console Program Flags (1 byte) */ #define KA410_LK201_ID 0x200B0040 /* Keyboard Variation (1 byte) */ #define KA410_CONS_ID 0x200B0044 /* Console Device Type (1 byte) */ #define KA410_SCR 0x200B0048 /* Console Scratch RAM */ #define KA410_TEMP 0x200B0058 /* Used by System Firmware */ #define KA410_BAT_CHK 0x200B0088 /* Battery Check Data */ #define KA410_BOOTDEV 0x200B0098 /* Default Boot Device (4 bytes) */ #define KA410_BOOTFLG 0x200B00A8 /* Default Boot Flags (4 bytes) */ #define KA410_SCRLEN 0x200B00B8 /* Number of pages of SCR (1 byte) */ #define KA410_SCSIPORT 0x200B00BC /* Tape Controller Port Data */ #define KA410_RESERVED 0x200B00C0 /* Reserved (16 bytes) */ struct ka410_cpu { u_long ka410_hltcod; u_long ka410_mser; u_long ka410_cear; u_long ka410_intmsk; }; /* * KA410 uses bits 2-9 of longwords to store single bytes in NVRAM, * thus we declare the clock as an struct of bit-fields, so that the * generic clock-routines work for KA410... */ struct ka410_clock { u_long :2; u_long sec :8; u_long :22; u_long :2; u_long secalrm :8; u_long :22; u_long :2; u_long min :8; u_long :22; u_long :2; u_long minalrm :8; u_long :22; u_long :2; u_long hr :8; u_long :22; u_long :2; u_long hralrm :8; u_long :22; u_long :2; u_long dayofwk :8; u_long :22; u_long :2; u_long day :8; u_long :22; u_long :2; u_long mon :8; u_long :22; u_long :2; u_long yr :8; u_long :22; u_long :2; u_long csr0 :8; u_long :22; u_long :2; u_long csr1 :8; u_long :22; u_long :2; u_long csr2 :8; u_long :22; u_long :2; u_long csr3 :8; u_long :22; u_long :2; u_long cpmbx :8; u_long :22; }; /* Prototypes */ int ka410_setup __P((struct uvax_calls *p, int flags)); static int ka410_clkread __P((time_t)); static void ka410_clkwrite __P((void));