/* r3000.h - mips R3k architecture header file */
/*
* Copyright 1985-1997 by MIPS Computer Systems, Inc.
*/
/*
modification history
--------------------
01k,17jan96,kkk made MINCACHE 512 (spr# 7556)
01j,13jan96,kkk undid 01i.
01i,18dec96,tam enabled FP exceptions via FP_TASK_STATUS (spr #7665).
01h,13sep93,caf fixed K2SIZE (SPR #1880).
01g,22sep92,rrr added support for c++
01f,02jun92,ajm the 5.0.5 merge
01e,26may92,rrr the tree shuffle
01d,04oct91,rrr passed through the ansification filter
-changed copyright notice
01c,23jul91,ajm changed default fp status register to all exceptions
off forcing the user to enable exceptions for signals
Enable FPA interrupt to tasks
01b,08jul91,ajm added SR_KUMSK for exception handling
01a,21feb91,ajm written.
*/
#ifndef __INCr3000h
#define __INCr3000h
#ifdef __cplusplus
extern "C" {
#endif
/*
* Segment base addresses and sizes
*/
#define K0BASE 0x80000000
#define K0SIZE 0x20000000
#define K1BASE 0xA0000000
#define K1SIZE 0x20000000
#define K2BASE 0xC0000000
#define K2SIZE 0x40000000
/*
* Exception vectors
*/
#define UT_VEC K0BASE /* utlbmiss vector */
#define E_VEC (K0BASE+0x80) /* exception vector */
#define R_VEC (K1BASE+0x1fc00000) /* reset vector */
/*
* Address conversion macros
*/
#define K0_TO_K1(x) ((unsigned)(x)|0xA0000000) /* kseg0 to kseg1 */
#define K1_TO_K0(x) ((unsigned)(x)&0x9FFFFFFF) /* kseg1 to kseg0 */
#define K0_TO_PHYS(x) ((unsigned)(x)&0x1FFFFFFF) /* kseg0 to physical */
#define K1_TO_PHYS(x) ((unsigned)(x)&0x1FFFFFFF) /* kseg1 to physical */
#define PHYS_TO_K0(x) ((unsigned)(x)|0x80000000) /* physical to kseg0 */
#define PHYS_TO_K1(x) ((unsigned)(x)|0xA0000000) /* physical to kseg1 */
/*
* Address predicates
*/
#define IS_KSEG0(x) ((unsigned)(x) >= K0BASE && (unsigned)(x) < K1BASE)
#define IS_KSEG1(x) ((unsigned)(x) >= K1BASE && (unsigned)(x) < K2BASE)
#define IS_KUSEG(x) ((unsigned)(x) < K0BASE)
/*
* Cache size constants
*/
#define MINCACHE +(1*512) /* leading plus for mas's benefit */
#define MAXCACHE +(256*1024) /* leading plus for mas's benefit */
/*
* Cause bit definitions
*/
#define CAUSE_BD 0x80000000 /* Branch delay slot */
#define CAUSE_CEMASK 0x30000000 /* coprocessor error */
#define CAUSE_CESHIFT 28
#define CAUSE_IP8 0x00008000 /* External level 8 pending */
#define CAUSE_IP7 0x00004000 /* External level 7 pending */
#define CAUSE_IP6 0x00002000 /* External level 6 pending */
#define CAUSE_IP5 0x00001000 /* External level 5 pending */
#define CAUSE_IP4 0x00000800 /* External level 4 pending */
#define CAUSE_IP3 0x00000400 /* External level 3 pending */
#define CAUSE_SW2 0x00000200 /* Software level 2 pending */
#define CAUSE_SW1 0x00000100 /* Software level 1 pending */
#define CAUSE_IPMASK 0x0000FF00 /* Pending interrupt mask */
#define CAUSE_IPSHIFT 8
#define CAUSE_EXCMASK 0x0000003C /* Cause code bits */
#define CAUSE_EXCSHIFT 2
/*
* Status definition bits
*/
#define SR_CUMASK 0xf0000000 /* coproc usable bits */
#define SR_CU3 0x80000000 /* Coprocessor 3 usable */
#define SR_CU2 0x40000000 /* Coprocessor 2 usable */
#define SR_CU1 0x20000000 /* Coprocessor 1 usable */
#define SR_CU0 0x10000000 /* Coprocessor 0 usable */
#define SR_BEV 0x00400000 /* use boot exception vectors */
#define SR_TS 0x00200000 /* TLB shutdown */
#define SR_PE 0x00100000 /* cache parity error */
#define SR_CM 0x00080000 /* cache miss */
#define SR_PZ 0x00040000 /* cache parity zero */
#define SR_SWC 0x00020000 /* swap cache */
#define SR_ISC 0x00010000 /* Isolate data cache */
#define SR_IMASK 0x0000ff00 /* Interrupt mask */
#define SR_IMASK8 0x00000000 /* mask level 8 */
#define SR_IMASK7 0x00008000 /* mask level 7 */
#define SR_IMASK6 0x0000c000 /* mask level 6 */
#define SR_IMASK5 0x0000e000 /* mask level 5 */
#define SR_IMASK4 0x0000f000 /* mask level 4 */
#define SR_IMASK3 0x0000f800 /* mask level 3 */
#define SR_IMASK2 0x0000fc00 /* mask level 2 */
#define SR_IMASK1 0x0000fe00 /* mask level 1 */
#define SR_IMASK0 0x0000ff00 /* mask level 0 */
#define SR_IBIT8 0x00008000 /* bit level 8 */
#define SR_IBIT7 0x00004000 /* bit level 7 */
#define SR_IBIT6 0x00002000 /* bit level 6 */
#define SR_IBIT5 0x00001000 /* bit level 5 */
#define SR_IBIT4 0x00000800 /* bit level 4 */
#define SR_IBIT3 0x00000400 /* bit level 3 */
#define SR_IBIT2 0x00000200 /* bit level 2 */
#define SR_IBIT1 0x00000100 /* bit level 1 */
#define SR_KUO 0x00000020 /* old kernel/user, 0 => k, 1 => u */
#define SR_IEO 0x00000010 /* old interrupt enable, 1 => enable */
#define SR_KUP 0x00000008 /* prev kernel/user, 0 => k, 1 => u */
#define SR_IEP 0x00000004 /* prev interrupt enable, 1 => enable */
#define SR_KUC 0x00000002 /* cur kernel/user, 0 => k, 1 => u */
#define SR_IEC 0x00000001 /* cur interrupt enable, 1 => enable */
#define SR_KUMSK (SR_KUO|SR_IEO|SR_KUP|SR_IEP|SR_KUC|SR_IEC)
#define SR_IMASKSHIFT 8
/*
* fpa definitions
*/
#define FP_ROUND 0x3 /* r3010 round mode mask */
#define FP_STICKY 0x7c /* r3010 sticky bits mask */
#define FP_ENABLE 0xf80 /* r3010 enable mode mask */
#define FP_EXC 0x3f000 /* r3010 exception mask */
#define FP_ROUND_N 0x0 /* round to nearest */
#define FP_ROUND_Z 0x1 /* round to zero */
#define FP_ROUND_P 0x2 /* round to + infinity */
#define FP_ROUND_M 0x3 /* round to - infinity */
#define FP_STICKY_I 0x4 /* sticky inexact operation */
#define FP_STICKY_U 0x8 /* sticky underflow */
#define FP_STICKY_O 0x10 /* sticky overflow */
#define FP_STICKY_Z 0x20 /* sticky divide by zero */
#define FP_STICKY_V 0x40 /* sticky invalid operation */
#define FP_ENABLE_I 0x80 /* enable inexact operation */
#define FP_ENABLE_U 0x100 /* enable underflow exc */
#define FP_ENABLE_O 0x200 /* enable overflow exc */
#define FP_ENABLE_Z 0x400 /* enable divide by zero exc */
#define FP_ENABLE_V 0x800 /* enable invalid operation exc */
#define FP_EXC_I 0x1000 /* inexact operation */
#define FP_EXC_U 0x2000 /* underflow */
#define FP_EXC_O 0x4000 /* overflow */
#define FP_EXC_Z 0x8000 /* divide by zero */
#define FP_EXC_V 0x10000 /* invalid operation */
#define FP_EXC_E 0x20000 /* unimplemented operation */
#define FP_COND 0x800000 /* condition bit */
#define FP_EXC_SHIFT 12
#define FP_ENABLE_SHIFT 7
#define FP_EXC_MASK (FP_EXC_I|FP_EXC_U|FP_EXC_O|FP_EXC_Z|FP_EXC_V|FP_EXC_E)
#define FP_ENABLE_MASK (FP_ENABLE_I|FP_ENABLE_U|FP_ENABLE_O|FP_ENABLE_Z| \
FP_ENABLE_V)
#define FP_TASK_STATUS 0x0 /* all FP exceptions are disabled
(see fppAlib.s and spr #7665) */
/*
* tlb definitions
*/
#define TLB_ENTRIES 64
#define TLBLO_PFNMASK 0xfffff000
#define TLBLO_PFNSHIFT 12
#define TLBLO_N 0x800 /* non-cacheable */
#define TLBLO_D 0x400 /* writeable */
#define TLBLO_V 0x200 /* valid bit */
#define TLBHI_VPNMASK 0xfffff000
#define TLBHI_VPNSHIFT 12
#define TLBHI_PIDMASK 0xfc0
#define TLBHI_PIDSHIFT 6
#define TLBHI_NPID 64
#define TLBINX_PROBE 0x80000000
#define TLBINX_INXMASK 0x00003f00
#define TLBINX_INXSHIFT 8
#define TLBRAND_RANDMASK 0x00003f00
#define TLBRAND_RANDSHIFT 8
#define TLBCTXT_BASEMASK 0xffe00000
#define TLBCTXT_BASESHIFT 21
#define TLBCTXT_VPNMASK 0x001ffffc
#define TLBCTXT_VPNSHIFT 2
/*
* Coprocessor 0 operations
*/
#define C0_READI 0x1 /* read ITLB entry addressed by C0_INDEX */
#define C0_WRITEI 0x2 /* write ITLB entry addressed by C0_INDEX */
#define C0_WRITER 0x6 /* write ITLB entry addressed by C0_RAND */
#define C0_PROBE 0x8 /* probe for ITLB entry addressed by TLBHI */
#define C0_RFE 0x10 /* restore for exception */
#ifdef __cplusplus
}
#endif
#endif /* __INCr3000h */