next68k/include/cpu.h

1.3  dbj /*	$NetBSD: cpu.h,v 1.3 1998/08/28 22:53:47 dbj Exp $	*/
1.1  dbj
1.1  dbj /*
1.1  dbj  * Copyright (c) 1988 University of Utah.
1.1  dbj  * Copyright (c) 1982, 1990, 1993
1.1  dbj  *	The Regents of the University of California.  All rights reserved.
1.1  dbj  *
1.1  dbj  * This code is derived from software contributed to Berkeley by
1.1  dbj  * the Systems Programming Group of the University of Utah Computer
1.1  dbj  * Science Department.
1.1  dbj  *
1.1  dbj  * Redistribution and use in source and binary forms, with or without
1.1  dbj  * modification, are permitted provided that the following conditions
1.1  dbj  * are met:
1.1  dbj  * 1. Redistributions of source code must retain the above copyright
1.1  dbj  *    notice, this list of conditions and the following disclaimer.
1.1  dbj  * 2. Redistributions in binary form must reproduce the above copyright
1.1  dbj  *    notice, this list of conditions and the following disclaimer in the
1.1  dbj  *    documentation and/or other materials provided with the distribution.
1.1  dbj  * 3. All advertising materials mentioning features or use of this software
1.1  dbj  *    must display the following acknowledgement:
1.1  dbj  *	This product includes software developed by the University of
1.1  dbj  *	California, Berkeley and its contributors.
1.1  dbj  * 4. Neither the name of the University nor the names of its contributors
1.1  dbj  *    may be used to endorse or promote products derived from this software
1.1  dbj  *    without specific prior written permission.
1.1  dbj  *
1.1  dbj  * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
1.1  dbj  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
1.1  dbj  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
1.1  dbj  * ARE DISCLAIMED.  IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
1.1  dbj  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
1.1  dbj  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
1.1  dbj  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
1.1  dbj  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
1.1  dbj  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
1.1  dbj  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
1.1  dbj  * SUCH DAMAGE.
1.1  dbj  *
1.1  dbj  * from: Utah $Hdr: cpu.h 1.16 91/03/25$
1.1  dbj  *
1.1  dbj  *	@(#)cpu.h	8.4 (Berkeley) 1/5/94
1.1  dbj  */
1.1  dbj
1.1  dbj
1.1  dbj #ifndef _CPU_MACHINE_
1.1  dbj #define _CPU_MACHINE_
1.1  dbj
1.1  dbj /*
1.1  dbj  * Exported definitions unique to next68k/68k cpu support.
1.1  dbj  */
1.1  dbj
1.1  dbj /*
1.1  dbj  * Get common m68k definitions.
1.1  dbj  */
1.1  dbj #include <m68k/cpu.h>
1.1  dbj
1.1  dbj #define	M68K_MMU_MOTOROLA
1.1  dbj
1.1  dbj /*
1.1  dbj  * Get interrupt glue.
1.1  dbj  */
1.1  dbj #include <machine/intr.h>
1.1  dbj
1.1  dbj /*
1.1  dbj  * definitions of cpu-dependent requirements
1.1  dbj  * referenced in generic code
1.1  dbj  */
1.1  dbj #define	cpu_swapin(p)			/* nothing */
1.1  dbj #define	cpu_wait(p)			/* nothing */
1.1  dbj #define cpu_swapout(p)			/* nothing */
1.1  dbj
1.1  dbj /*
1.1  dbj  * Arguments to hardclock and gatherstats encapsulate the previous
1.1  dbj  * machine state in an opaque clockframe.  One the hp300, we use
1.1  dbj  * what the hardware pushes on an interrupt (frame format 0).
1.1  dbj  */
1.1  dbj struct clockframe {
1.1  dbj 	u_short	sr;		/* sr at time of interrupt */
1.1  dbj 	u_long	pc;		/* pc at time of interrupt */
1.1  dbj 	u_short	vo;		/* vector offset (4-word frame) */
1.1  dbj };
1.1  dbj
1.1  dbj #define	CLKF_USERMODE(framep)	(((framep)->sr & PSL_S) == 0)
1.1  dbj #define	CLKF_BASEPRI(framep)	(((framep)->sr & PSL_IPL) == 0)
1.1  dbj #define	CLKF_PC(framep)		((framep)->pc)
1.1  dbj #if 0
1.1  dbj /* We would like to do it this way... */
1.1  dbj #define	CLKF_INTR(framep)	(((framep)->sr & PSL_M) == 0)
1.1  dbj #else
1.1  dbj /* but until we start using PSL_M, we have to do this instead */
1.1  dbj #define	CLKF_INTR(framep)	(0)	/* XXX */
1.1  dbj #endif
1.1  dbj
1.1  dbj /*
1.1  dbj  * Preempt the current process if in interrupt from user mode,
1.1  dbj  * or after the current trap/syscall if in system mode.
1.1  dbj  */
1.1  dbj extern int want_resched; /* resched() was called */
1.1  dbj #define	need_resched()	{ want_resched = 1; aston(); }
1.1  dbj
1.1  dbj /*
1.1  dbj  * Give a profiling tick to the current process when the user profiling
1.1  dbj  * buffer pages are invalid.  On the sun3, request an ast to send us
1.1  dbj  * through trap, marking the proc as needing a profiling tick.
1.1  dbj  */
1.1  dbj #define	need_proftick(p)	((p)->p_flag |= P_OWEUPC, aston())
1.1  dbj
1.1  dbj /*
1.1  dbj  * Notify the current process (p) that it has a signal pending,
1.1  dbj  * process as soon as possible.
1.1  dbj  */
1.1  dbj #define	signotify(p)	aston()
1.1  dbj
1.1  dbj #define aston() (astpending++)
1.1  dbj
1.1  dbj int	astpending;	/* need to trap before returning to user mode */
1.1  dbj int	want_resched;	/* resched() was called */
1.1  dbj
1.1  dbj #ifdef _KERNEL
1.1  dbj extern	volatile char *intiobase;
1.1  dbj extern  volatile char *intiolimit;
1.1  dbj extern	void (*vectab[]) __P((void));
1.1  dbj
1.1  dbj struct frame;
1.1  dbj struct fpframe;
1.1  dbj struct pcb;
1.1  dbj
1.1  dbj /* locore.s functions */
1.1  dbj void	m68881_save __P((struct fpframe *));
1.1  dbj void	m68881_restore __P((struct fpframe *));
1.1  dbj #if 0                           /* it's already in m68k/m68k.h */
1.1  dbj u_long	getdfc __P((void));
1.1  dbj u_long	getsfc __P((void));
1.1  dbj #endif
1.1  dbj void	DCIA __P((void));
1.1  dbj void	DCIS __P((void));
1.1  dbj void	DCIU __P((void));
1.1  dbj void	ICIA __P((void));
1.1  dbj void	ICPA __P((void));
1.1  dbj void	PCIA __P((void));
1.1  dbj void	TBIA __P((void));
1.1  dbj void	TBIS __P((vm_offset_t));
1.1  dbj void	TBIAS __P((void));
1.1  dbj void	TBIAU __P((void));
1.1  dbj #if defined(M68040)
1.1  dbj void	DCFA __P((void));
1.1  dbj void	DCFP __P((vm_offset_t));
1.1  dbj void	DCFL __P((vm_offset_t));
1.1  dbj void	DCPL __P((vm_offset_t));
1.1  dbj void	DCPP __P((vm_offset_t));
1.1  dbj void	ICPL __P((vm_offset_t));
1.1  dbj void	ICPP __P((vm_offset_t));
1.1  dbj #endif
1.1  dbj int	suline __P((caddr_t, caddr_t));
1.1  dbj void	savectx __P((struct pcb *));
1.1  dbj void	switch_exit __P((struct proc *));
1.1  dbj void	proc_trampoline __P((void));
1.1  dbj void	loadustp __P((int));
1.1  dbj
1.1  dbj void	doboot __P((void)) __attribute__((__noreturn__));
1.1  dbj
1.1  dbj /* vm_machdep.c functions */
1.1  dbj void	physaccess __P((caddr_t, caddr_t, int, int));
1.1  dbj void	physunaccess __P((caddr_t, int));
1.1  dbj int	kvtop __P((caddr_t));
1.1  dbj
1.1  dbj /* clock.c functions */
1.1  dbj void	next68k_calibrate_delay __P((void));
1.1  dbj
1.1  dbj #endif /* _KERNEL */
1.1  dbj
1.1  dbj #define NEXT_RAMBASE  (0x4000000) /* really depends on slot, but... */
1.1  dbj #define NEXT_BANKSIZE (0x1000000) /* Size of a memory bank in physical address */
1.1  dbj
1.1  dbj #if 0
1.1  dbj /* @@@ this needs to be fixed to work on 030's */
1.1  dbj #define	NEXT_SLOT_ID		0x0
1.1  dbj #ifdef	M68030
1.1  dbj #define	NEXT_SLOT_ID_BMAP	0x0
1.1  dbj #endif	M68030
1.1  dbj #endif
1.1  dbj #ifdef	M68040
1.3  dbj #ifdef DISABLE_NEXT_BMAP_CHIP		/* @@@ For turbo testing */
1.3  dbj #define	NEXT_SLOT_ID_BMAP	0x0
1.3  dbj #else
1.1  dbj #define	NEXT_SLOT_ID_BMAP	0x00100000
1.3  dbj #endif
1.1  dbj #define NEXT_SLOT_ID            0x0
1.1  dbj #endif	M68040
1.1  dbj
1.1  dbj /****************************************************************/
1.1  dbj
1.1  dbj /* Eventually, I'd like to move these defines off into
1.1  dbj  * configure somewhere
1.1  dbj  * Darrin B Jewell <jewell (at) mit.edu>  Thu Feb  5 03:50:58 1998
1.1  dbj  */
1.1  dbj /* ROM */
1.1  dbj #define NEXT_P_EPROM		(NEXT_SLOT_ID+0x00000000)
1.1  dbj #define NEXT_P_EPROM_BMAP	(NEXT_SLOT_ID+0x01000000)
1.1  dbj #define NEXT_P_EPROM_SIZE	(128 * 1024)
1.1  dbj
1.1  dbj /* device space */
1.1  dbj #define NEXT_P_DEV_SPACE	(NEXT_SLOT_ID+0x02000000)
1.1  dbj #define NEXT_P_DEV_BMAP		(NEXT_SLOT_ID+0x02100000)
1.1  dbj #define NEXT_DEV_SPACE_SIZE	0x0001c000
1.1  dbj
1.1  dbj /* DMA control/status (writes MUST be 32-bit) */
1.1  dbj #define NEXT_P_SCSI_CSR		(NEXT_SLOT_ID+0x02000010)
1.1  dbj #define NEXT_P_SOUNDOUT_CSR	(NEXT_SLOT_ID+0x02000040)
1.1  dbj #define NEXT_P_DISK_CSR		(NEXT_SLOT_ID+0x02000050)
1.1  dbj #define NEXT_P_SOUNDIN_CSR	(NEXT_SLOT_ID+0x02000080)
1.1  dbj #define NEXT_P_PRINTER_CSR	(NEXT_SLOT_ID+0x02000090)
1.1  dbj #define NEXT_P_SCC_CSR		(NEXT_SLOT_ID+0x020000c0)
1.1  dbj #define NEXT_P_DSP_CSR		(NEXT_SLOT_ID+0x020000d0)
1.1  dbj #define NEXT_P_ENETX_CSR	(NEXT_SLOT_ID+0x02000110)
1.1  dbj #define NEXT_P_ENETR_CSR	(NEXT_SLOT_ID+0x02000150)
1.1  dbj #define NEXT_P_VIDEO_CSR	(NEXT_SLOT_ID+0x02000180)
1.1  dbj #define NEXT_P_M2R_CSR		(NEXT_SLOT_ID+0x020001d0)
1.1  dbj #define NEXT_P_R2M_CSR		(NEXT_SLOT_ID+0x020001c0)
1.1  dbj
1.1  dbj /* DMA scratch pad (writes MUST be 32-bit) */
1.1  dbj #define NEXT_P_VIDEO_SPAD	(NEXT_SLOT_ID+0x02004180)
1.1  dbj #define NEXT_P_EVENT_SPAD	(NEXT_SLOT_ID+0x0200418c)
1.1  dbj #define NEXT_P_M2M_SPAD		(NEXT_SLOT_ID+0x020041e0)
1.1  dbj
1.1  dbj /* device registers */
1.1  dbj #define NEXT_P_ENET		(NEXT_SLOT_ID_BMAP+0x02006000)
1.1  dbj #define NEXT_P_DSP		(NEXT_SLOT_ID_BMAP+0x02008000)
1.1  dbj #define NEXT_P_MON		(NEXT_SLOT_ID+0x0200e000)
1.1  dbj #define NEXT_P_PRINTER		(NEXT_SLOT_ID+0x0200f000)
1.1  dbj #define NEXT_P_DISK		(NEXT_SLOT_ID_BMAP+0x02012000)
1.1  dbj #define NEXT_P_SCSI		(NEXT_SLOT_ID_BMAP+0x02014000)
1.1  dbj #define NEXT_P_FLOPPY		(NEXT_SLOT_ID_BMAP+0x02014100)
1.1  dbj #define NEXT_P_TIMER		(NEXT_SLOT_ID_BMAP+0x02016000)
1.1  dbj #define NEXT_P_TIMER_CSR	(NEXT_SLOT_ID_BMAP+0x02016004)
1.1  dbj #define NEXT_P_SCC		(NEXT_SLOT_ID_BMAP+0x02018000)
1.1  dbj #define NEXT_P_SCC_CLK		(NEXT_SLOT_ID_BMAP+0x02018004)
1.1  dbj #define NEXT_P_EVENTC		(NEXT_SLOT_ID_BMAP+0x0201a000)
1.1  dbj #define NEXT_P_BMAP		(NEXT_SLOT_ID+0x020c0000)
1.1  dbj /* All COLOR_FB registers are 1 byte wide */
1.1  dbj #define NEXT_P_C16_DAC_0	(NEXT_SLOT_ID_BMAP+0x02018100)	/* COLOR_FB - RAMDAC */
1.1  dbj #define NEXT_P_C16_DAC_1	(NEXT_SLOT_ID_BMAP+0x02018101)
1.1  dbj #define NEXT_P_C16_DAC_2	(NEXT_SLOT_ID_BMAP+0x02018102)
1.1  dbj #define NEXT_P_C16_DAC_3	(NEXT_SLOT_ID_BMAP+0x02018103)
1.1  dbj #define NEXT_P_C16_CMD_REG	(NEXT_SLOT_ID_BMAP+0x02018180)	/* COLOR_FB - CSR */
1.1  dbj
1.1  dbj /* system control registers */
1.1  dbj #define NEXT_P_MEMTIMING	(NEXT_SLOT_ID_BMAP+0x02006010)
1.1  dbj #define NEXT_P_INTRSTAT		(NEXT_SLOT_ID+0x02007000)
1.1  dbj #define NEXT_P_INTRSTAT_CON	0x02007000
1.1  dbj #define NEXT_P_INTRMASK		(NEXT_SLOT_ID+0x02007800)
1.1  dbj #define NEXT_P_INTRMASK_CON	0x02007800
1.1  dbj #define NEXT_P_SCR1		(NEXT_SLOT_ID+0x0200c000)
1.1  dbj #define NEXT_P_SCR1_CON	0x0200c000
1.1  dbj #define NEXT_P_SID		0x0200c800		/* NOT slot-relative */
1.1  dbj #define NEXT_P_SCR2		(NEXT_SLOT_ID+0x0200d000)
1.1  dbj #define NEXT_P_SCR2_CON	0x0200d000
1.1  dbj #define NEXT_P_RMTINT		(NEXT_SLOT_ID+0x0200d800)
1.1  dbj #define NEXT_P_BRIGHTNESS	(NEXT_SLOT_ID_BMAP+0x02010000)
1.1  dbj #define NEXT_P_DRAM_TIMING	(NEXT_SLOT_ID_BMAP+0x02018190) /* Warp 9C memory ctlr */
1.1  dbj #define NEXT_P_VRAM_TIMING	(NEXT_SLOT_ID_BMAP+0x02018198) /* Warp 9C memory ctlr */
1.1  dbj
1.1  dbj /* memory */
1.1  dbj #define NEXT_P_MAINMEM		(NEXT_SLOT_ID+0x04000000)
1.1  dbj #define NEXT_P_MEMSIZE		0x04000000
1.1  dbj #define NEXT_P_VIDEOMEM		(NEXT_SLOT_ID+0x0b000000)
1.1  dbj #define NEXT_P_VIDEOSIZE	0x0003a800
1.1  dbj #define NEXT_P_C16_VIDEOMEM	(NEXT_SLOT_ID+0x06000000)	/* COLOR_FB */
1.1  dbj #define NEXT_P_C16_VIDEOSIZE	0x001D4000		/* COLOR_FB */
1.1  dbj #define NEXT_P_WF4VIDEO		(NEXT_SLOT_ID+0x0c000000)	/* w A+B-AB function */
1.1  dbj #define NEXT_P_WF3VIDEO		(NEXT_SLOT_ID+0x0d000000)	/* w (1-A)B function */
1.1  dbj #define NEXT_P_WF2VIDEO		(NEXT_SLOT_ID+0x0e000000)	/* w ceil(A+B) function */
1.1  dbj #define NEXT_P_WF1VIDEO		(NEXT_SLOT_ID+0x0f000000)	/* w AB function */
1.1  dbj #define NEXT_P_WF4MEM		(NEXT_SLOT_ID+0x10000000)	/* w A+B-AB function */
1.1  dbj #define NEXT_P_WF3MEM		(NEXT_SLOT_ID+0x14000000)	/* w (1-A)B function */
1.1  dbj #define NEXT_P_WF2MEM		(NEXT_SLOT_ID+0x18000000)	/* w ceil(A+B) function */
1.1  dbj #define NEXT_P_WF1MEM		(NEXT_SLOT_ID+0x1c000000)	/* w AB function */
1.1  dbj #define NEXT_NMWF		4			/* # of memory write funcs */
1.1  dbj
1.1  dbj /*
1.1  dbj  * Interrupt structure.
1.1  dbj  * BASE and BITS define the origin and length of the bit field in the
1.1  dbj  * interrupt status/mask register for the particular interrupt level.
1.1  dbj  * The first component of the interrupt device name indicates the bit
1.1  dbj  * position in the interrupt status and mask registers; the second is the
1.1  dbj  * interrupt level; the third is the bit index relative to the start of the
1.1  dbj  * bit field.
1.1  dbj  */
1.1  dbj #define	NEXT_I(l,i,b)	(((b) << 8) | ((l) << 4) | (i))
1.1  dbj #define	NEXT_I_INDEX(i)	((i) & 0xf)
1.1  dbj #define	NEXT_I_IPL(i)	(((i) >> 4) & 7)
1.1  dbj #define	NEXT_I_BIT(i)	( 1 << (((i) >> 8) & 0x1f))
1.1  dbj
1.1  dbj #define	NEXT_I_IPL7_BASE	0
1.1  dbj #define	NEXT_I_IPL7_BITS	2
1.1  dbj #define	NEXT_I_NMI		NEXT_I(7,0,31)
1.1  dbj #define	NEXT_I_PFAIL		NEXT_I(7,1,30)
1.1  dbj
1.1  dbj #define	NEXT_I_IPL6_BASE	2
1.1  dbj #define	NEXT_I_IPL6_BITS	12
1.1  dbj #define	NEXT_I_TIMER		NEXT_I(6,0,29)
1.1  dbj #define	NEXT_I_ENETX_DMA	NEXT_I(6,1,28)
1.1  dbj #define	NEXT_I_ENETR_DMA	NEXT_I(6,2,27)
1.2  dbj #define	NEXT_I_SCSI_DMA		NEXT_I(6,3,26)
1.1  dbj #define	NEXT_I_DISK_DMA	        NEXT_I(6,4,25)
1.1  dbj #define	NEXT_I_PRINTER_DMA	NEXT_I(6,5,24)
1.1  dbj #define	NEXT_I_SOUND_OUT_DMA	NEXT_I(6,6,23)
1.1  dbj #define	NEXT_I_SOUND_IN_DMA	NEXT_I(6,7,22)
1.1  dbj #define	NEXT_I_SCC_DMA	        NEXT_I(6,8,21)
1.1  dbj #define	NEXT_I_DSP_DMA		NEXT_I(6,9,20)
1.1  dbj #define	NEXT_I_M2R_DMA		NEXT_I(6,10,19)
1.1  dbj #define	NEXT_I_R2M_DMA		NEXT_I(6,11,18)
1.1  dbj
1.1  dbj #define	NEXT_I_IPL5_BASE	14
1.1  dbj #define	NEXT_I_IPL5_BITS	3
1.1  dbj #define	NEXT_I_SCC		NEXT_I(5,0,17)
1.1  dbj #define	NEXT_I_REMOTE		NEXT_I(5,1,16)
1.1  dbj #define	NEXT_I_BUS		NEXT_I(5,2,15)
1.1  dbj
1.1  dbj #define	NEXT_I_IPL4_BASE	17
1.1  dbj #define	NEXT_I_IPL4_BITS	1
1.1  dbj #define	NEXT_I_DSP_4		NEXT_I(4,0,14)
1.1  dbj
1.1  dbj #define	NEXT_I_IPL3_BASE	18
1.1  dbj #define	NEXT_I_IPL3_BITS	12
1.1  dbj #define	NEXT_I_DISK		NEXT_I(3,0,13)
1.1  dbj #define	NEXT_I_C16_VIDEO	NEXT_I(3,0,13)	/* COLOR_FB - Steals old ESDI interrupt */
1.1  dbj #define	NEXT_I_SCSI		NEXT_I(3,1,12)
1.1  dbj #define	NEXT_I_PRINTER		NEXT_I(3,2,11)
1.1  dbj #define	NEXT_I_ENETX		NEXT_I(3,3,10)
1.1  dbj #define	NEXT_I_ENETR		NEXT_I(3,4,9)
1.1  dbj #define	NEXT_I_SOUND_OVRUN	NEXT_I(3,5,8)
1.1  dbj #define	NEXT_I_PHONE		NEXT_I(3,6,7)
1.1  dbj #define	NEXT_I_DSP_3		NEXT_I(3,7,6)
1.1  dbj #define	NEXT_I_VIDEO		NEXT_I(3,8,5)
1.1  dbj #define	NEXT_I_MONITOR		NEXT_I(3,9,4)
1.1  dbj #define	NEXT_I_KYBD_MOUSE	NEXT_I(3,10,3)
1.1  dbj #define	NEXT_I_POWER		NEXT_I(3,11,2)
1.1  dbj
1.1  dbj #define	NEXT_I_IPL2_BASE	30
1.1  dbj #define	NEXT_I_IPL2_BITS	1
1.1  dbj #define	NEXT_I_SOFTINT1		NEXT_I(2,0,1)
1.1  dbj
1.1  dbj #define	NEXT_I_IPL1_BASE	31
1.1  dbj #define	NEXT_I_IPL1_BITS	1
1.1  dbj #define	NEXT_I_SOFTINT0		NEXT_I(1,0,0)
1.1  dbj
1.1  dbj /****************************************************************/
1.1  dbj
1.1  dbj /* physical memory sections */
1.1  dbj #if 0
1.1  dbj #define	ROMBASE		(0x00000000)
1.1  dbj #endif
1.1  dbj
1.1  dbj #define	INTIOBASE	(0x02000000)
1.1  dbj #define	INTIOTOP	(0x02120000)
1.1  dbj
1.1  dbj #define NEXT_INTR_BITS \
1.1  dbj "\20\40NMI\37PFAIL\36TIMER\35ENETX_DMA\34ENETR_DMA\33SCSNEXT_I_DMA\32DISK_DMA\31PRINTER_DMA\30SOUND_OUT_DMA\27SOUND_IN_DMA\26SCC_DMA\25DSP_DMA\24M2R_DMA\23R2M_DMA\22SCC\21REMOTE\20BUS\17DSP_4\16DISK|C16_VIDEO\15SCSI\14PRINTER\13ENETX\12ENETR\11SOUND_OVRUN\10PHONE\07DSP_3\06VIDEO\05MONITOR\04KYBD_MOUSE\03POWER\02SOFTINT1\01SOFTINT0"
1.1  dbj
1.1  dbj /*
1.1  dbj  * Internal IO space:
1.1  dbj  *
1.1  dbj  * Ranges from 0x400000 to 0x600000 (IIOMAPSIZE).
1.1  dbj  *
1.1  dbj  * Internal IO space is mapped in the kernel from ``intiobase'' to
1.1  dbj  * ``intiolimit'' (defined in locore.s).  Since it is always mapped,
1.1  dbj  * conversion between physical and kernel virtual addresses is easy.
1.1  dbj  */
1.1  dbj #define	ISIIOVA(va) \
1.1  dbj 	((char *)(va) >= intiobase && (char *)(va) < intiolimit)
1.1  dbj #define	IIOV(pa)	((int)(pa)-INTIOBASE+(int)intiobase)
1.1  dbj #define	IIOP(va)	((int)(va)-(int)intiobase+INTIOBASE)
1.1  dbj #define	IIOPOFF(pa)	((int)(pa)-INTIOBASE)
1.1  dbj #define	IIOMAPSIZE	btoc(INTIOTOP-INTIOBASE)	/* 2mb */
1.1  dbj
1.1  dbj #endif	/* _CPU_MACHINE_ */