/* $NetBSD: mfp.h,v 1.6 2009/10/20 19:10:11 snj Exp $ */ /* * Copyright (c) 1995 Leo Weppelman. * 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 ``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. */ #ifndef _MACHINE_MFP_H #define _MACHINE_MFP_H /* * Atari TT hardware: MFP1/MFP2 * Motorola 68901 Multi-Function Peripheral */ #define MFP ((struct mfp *)AD_MFP) #define MFP2 ((struct mfp *)AD_MFP2) #ifdef _MILANHW_ #define __MR(n) (3 + (4 * n)) #endif #ifdef _ATARIHW_ #define __MR(n) (1 + (2 * n)) #endif struct mfp { volatile u_char mfb[__MR(24)-1]; /* Sparse */ }; #define mf_gpip mfb[__MR(0) ] /* gen-purp I/O interrupt port */ #define mf_aer mfb[__MR(1) ] /* active edge register */ #define mf_ddr mfb[__MR(2) ] /* data direction register */ #define mf_iera mfb[__MR(3) ] /* interrupt enable register A */ #define mf_ierb mfb[__MR(4) ] /* interrupt enable register B */ #define mf_ipra mfb[__MR(5) ] /* interrupt pending register A */ #define mf_iprb mfb[__MR(6) ] /* interrupt pending register B */ #define mf_isra mfb[__MR(7) ] /* interrupt in-service register A */ #define mf_isrb mfb[__MR(8) ] /* interrupt in-service register B */ #define mf_imra mfb[__MR(9) ] /* interrupt mask register A */ #define mf_imrb mfb[__MR(10)] /* interrupt mask register B */ #define mf_vr mfb[__MR(11)] /* vector register */ #define mf_tacr mfb[__MR(12)] /* timer control register A */ #define mf_tbcr mfb[__MR(13)] /* timer control register B */ #define mf_tcdcr mfb[__MR(14)] /* timer control register C+D */ #define mf_tadr mfb[__MR(15)] /* timer data register A */ #define mf_tbdr mfb[__MR(16)] /* timer data register B */ #define mf_tcdr mfb[__MR(17)] /* timer data register C */ #define mf_tddr mfb[__MR(18)] /* timer data register D */ #define mf_scr mfb[__MR(19)] /* synchronous character register */ #define mf_ucr mfb[__MR(20)] /* USART control register */ #define mf_rsr mfb[__MR(21)] /* receiver status register */ #define mf_tsr mfb[__MR(22)] /* transmitter status register */ #define mf_udr mfb[__MR(23)] /* USART data register */ /* names of IO port bits: */ #define IO_PBSY 0x01 /* Parallel Busy */ #define IO_SDCD 0x02 /* Serial Data Carrier Detect */ #define IO_SCTS 0x04 /* Serial Clear To Send */ #define IO_ISA1 0x08 /* ISA slot1 [ Hades only ] */ #define IO_AINT 0x10 /* ACIA interrupt (KB or MIDI) */ #define IO_DINT 0x20 /* DMA interrupt (FDC or HDC) */ #define IO_SRI 0x40 /* Serial Ring Indicator */ #define IO_MONO 0x80 /* Monochrome Monitor Detect */ #define IO_ISA2 0x80 /* ISA slot2 [ Hades only ] */ /* names of interrupts in register A: MFP1 */ #define IA_MONO 0x80 /* IO_MONO */ #define IA_ISA2 0x80 /* IO_ISA2 */ #define IA_SRI 0x40 /* IO_SRI */ #define IA_TIMA 0x20 /* Timer A */ #define IA_RRDY 0x10 /* Serial Receiver Ready(=Full) */ #define IA_RERR 0x08 /* Serial Receiver Error */ #define IA_TRDY 0x04 /* Serial Transmitter Ready(=Empty) */ #define IA_TERR 0x02 /* Serial Transmitter Error */ #define IA_TIMB 0x01 /* Timer B */ /* names of interrupts in register A: MFP2 */ #define IA_SCSI 0x80 /* SCSI-controller */ #define IA_RTC 0x40 /* Real Time Clock */ #define IA_TIMA2 0x20 /* Timer A */ /* 0x10 *//* reserved */ /* 0x08 *//* reserved */ /* 0x04 *//* reserved */ /* 0x02 *//* reserved */ #define IA_TIMB2 0x01 /* Timer B */ /* names of interrupts in register B: MFP1*/ #define IB_DINT 0x80 /* IO_DINT: from DMA devices */ #define IB_AINT 0x40 /* IO_AINT: from kbd or midi */ #define IB_TIMC 0x20 /* Timer C */ #define IB_TIMD 0x10 /* Timer D */ #define IB_ISA1 0x08 /* ISA1 interrupt [ Hades only ] */ #define IB_SCTS 0x04 /* IO_SCTS */ #define IB_SDCD 0x02 /* IO_SDCD */ #define IB_PBSY 0x01 /* IO_PBSY */ /* names of interrupts in register B: MFP2*/ #define IB_SCDM 0x80 /* SCSI-DMA */ #define IB_DCHG 0x40 /* Diskette change */ /* 0x20 *//* reserved */ /* 0x10 *//* reserved */ #define IB_RISB 0x80 /* Serial Ring indicator SCC port B */ #define IB_DMSC 0x40 /* SCC-DMA */ #define IB_J602_3 0x02 /* Pin 3 J602 */ #define IB_J602_1 0x01 /* Pin 1 J602 */ /* bits in VR: */ #define V_S 0x08 /* software end-of-interrupt mode */ #define V_V 0xF0 /* four high bits of vector */ /* bits in TCR: */ /* 0x07 *//* divider */ #define T_STOP 0x00 /* don't count */ #define T_Q004 0x01 /* divide by 4 */ #define T_Q010 0x02 /* divide by 10 */ #define T_Q016 0x03 /* divide by 16 */ #define T_Q050 0x04 /* divide by 50 */ #define T_Q064 0x05 /* divide by 64 */ #define T_Q100 0x06 /* divide by 100 */ #define T_Q200 0x07 /* divide by 200 */ #define T_EXTI 0x08 /* use extern impulse */ #define T_LOWO 0x10 /* force output low */ /* bits in UCR: */ /* 0x01 *//* not used */ #define U_EVEN 0x02 /* even parity */ #define U_PAR 0x04 /* use parity */ /* 0x18 *//* sync/async and stop bits */ #define U_SYNC 0x00 /* synchrone */ #define U_ST1 0x08 /* async, 1 stop bit */ #define U_ST1_5 0x10 /* async, 1.5 stop bit */ #define U_ST2 0x18 /* async, 2 stop bits */ /* 0x60 *//* number of data bits */ #define U_D8 0x00 /* 8 data bits */ #define U_D7 0x20 /* 7 data bits */ #define U_D6 0x40 /* 6 data bits */ #define U_D5 0x60 /* 5 data bits */ #define U_Q16 0x80 /* divide clock by 16 */ /* bits in RSR: */ #define RS_ENA 0x01 /* Receiver Enable */ #define RS_STRIP 0x02 /* Synchronous Strip Enable */ #define RS_CIP 0x04 /* Character in Progress */ #define RS_BREAK 0x08 /* Break Detected */ #define RS_FE 0x10 /* Frame Error */ #define RS_PE 0x20 /* Parity Error */ #define RS_OE 0x40 /* Overrun Error */ #define RS_FULL 0x80 /* Buffer Full */ /* bits in TSR: */ #define TS_ENA 0x01 /* Transmitter Enable */ /* 0x06 *//* state of dead transmitter output */ #define TS_TRI 0x00 /* Quiet Output Tristate */ #define TS_LOW 0x02 /* Quiet Output Low */ #define TS_HIGH 0x04 /* Quiet Output High */ #define TS_BACK 0x06 /* Loop Back Mode */ #define TS_BREAK 0x08 /* Break Detected */ #define TS_EOT 0x10 /* End of Transmission */ #define TS_TURN 0x20 /* Auto Turnaround */ #define TS_UE 0x40 /* Underrun Error */ #define TS_EMPTY 0x80 /* Buffer Empty */ #endif /* _MACHINE_MFP_H */