/* * Copyright 2005 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #ifndef _SYS_MMU_H #define _SYS_MMU_H #pragma ident "%Z%%M% %I% %E% SMI" #ifdef __cplusplus extern "C" { #endif #ifndef _ASM #include #endif #include /* * Definitions for the SOFT MMU */ #define FAST_IMMU_MISS_TT 0x64 #define FAST_DMMU_MISS_TT 0x68 #define FAST_PROT_TT 0x6c /* * Constants defining alternate spaces * and register layouts within them, * and a few other interesting assembly constants. */ /* * vaddr offsets of various registers */ #define MMU_PCONTEXT 0x08 /* primary context number */ #define MMU_SCONTEXT 0x10 /* secondary context number */ /* * Pseudo Synchronous Fault Status Register Layout * * IMMU and DMMU maintain their own pseudo SFSR Register * * +------------------------------------------------+ * | Reserved | Context | FT | * +----------------------|-------------------------+ * 63 32 31 16 15 0 * */ #define SFSR_FT 0x0000FFFF /* fault type mask */ #define SFSR_CTX 0xFFFF0000 /* fault context mask */ /* * Definition of FT (Fault Type) bit field of sfsr. */ #define FT_NONE 0x00 #define FT_PRIV MMFSA_F_PRIV /* privilege violation */ #define FT_SPEC_LD MMFSA_F_SOPG /* speculative ld to e page */ #define FT_ATOMIC_NC MMFSA_F_NCATM /* atomic to nc page */ #define FT_ILL_ALT MMFSA_F_INVASI /* illegal lda/sta */ #define FT_NFO MMFSA_F_NFO /* normal access to nfo page */ #define FT_RANGE MMFSA_F_INVVA /* dmmu or immu address out of range */ #define FT_NEW_FMISS MMFSA_F_FMISS /* fast miss */ #define FT_NEW_FPROT MMFSA_F_FPROT /* fast protection */ #define FT_NEW_MISS MMFSA_F_MISS /* mmu miss */ #define FT_NEW_INVRA MMFSA_F_INVRA /* invalid RA */ #define FT_NEW_PROT MMFSA_F_PROT /* protection violation */ #define FT_NEW_PRVACT MMFSA_F_PRVACT /* privileged action */ #define FT_NEW_WPT MMFSA_F_WPT /* watchpoint hit */ #define FT_NEW_UNALIGN MMFSA_F_UNALIGN /* unaligned access */ #define FT_NEW_INVPGSZ MMFSA_F_INVPGSZ /* invalid page size */ #define SFSR_FT_SHIFT 0 /* amt. to shift right to get flt type */ #define SFSR_CTX_SHIFT 16 /* to shift right to get context */ #define X_FAULT_TYPE(x) (((x) & SFSR_FT) >> SFSR_FT_SHIFT) #define X_FAULT_CTX(x) (((x) & SFSR_CTX) >> SFSR_CTX_SHIFT) /* * MMU TAG TARGET register Layout * * +-----+---------+------+-------------------------+ * | 000 | context | -- | virtual address [63:22] | * +-----+---------+------+-------------------------+ * 63 61 60 48 47 42 41 0 */ #define TTARGET_CTX_SHIFT 48 #define TTARGET_VA_SHIFT 22 /* * MMU TAG ACCESS register Layout * * +-------------------------+------------------+ * | virtual address [63:13] | context [12:0] | * +-------------------------+------------------+ * 63 13 12 0 */ #define TAGACC_CTX_MASK 0x1FFF #define TAGACC_SHIFT 13 #define TAGACC_VADDR_MASK (~TAGACC_CTX_MASK) #define TAGACC_CTX_LSHIFT (64 - TAGACC_SHIFT) /* * MMU PRIMARY/SECONDARY CONTEXT register */ #define CTXREG_CTX_MASK 0x1FFF /* * The kernel always runs in KCONTEXT, and no user mappings * are ever valid in it (so any user access pagefaults). */ #define KCONTEXT 0 /* * FLUSH_ADDR is used in the flush instruction to guarantee stores to mmu * registers complete. It is selected so it won't miss in the tlb. */ #define FLUSH_ADDR (KERNELBASE + 2 * MMU_PAGESIZE4M) #ifdef __cplusplus } #endif #endif /* _SYS_MMU_H */