nkeynes@550 | 1 | /**
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nkeynes@586 | 2 | * $Id$
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nkeynes@826 | 3 | *
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nkeynes@939 | 4 | * SH4 MMU implementation based on address space page maps. This module
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nkeynes@939 | 5 | * is responsible for all address decoding functions.
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nkeynes@550 | 6 | *
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nkeynes@550 | 7 | * Copyright (c) 2005 Nathan Keynes.
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nkeynes@550 | 8 | *
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nkeynes@550 | 9 | * This program is free software; you can redistribute it and/or modify
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nkeynes@550 | 10 | * it under the terms of the GNU General Public License as published by
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nkeynes@550 | 11 | * the Free Software Foundation; either version 2 of the License, or
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nkeynes@550 | 12 | * (at your option) any later version.
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nkeynes@550 | 13 | *
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nkeynes@550 | 14 | * This program is distributed in the hope that it will be useful,
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nkeynes@550 | 15 | * but WITHOUT ANY WARRANTY; without even the implied warranty of
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nkeynes@550 | 16 | * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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nkeynes@550 | 17 | * GNU General Public License for more details.
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nkeynes@550 | 18 | */
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nkeynes@550 | 19 | #define MODULE sh4_module
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nkeynes@550 | 20 |
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nkeynes@550 | 21 | #include <stdio.h>
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nkeynes@915 | 22 | #include <assert.h>
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nkeynes@550 | 23 | #include "sh4/sh4mmio.h"
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nkeynes@550 | 24 | #include "sh4/sh4core.h"
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nkeynes@669 | 25 | #include "sh4/sh4trans.h"
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nkeynes@934 | 26 | #include "dreamcast.h"
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nkeynes@550 | 27 | #include "mem.h"
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nkeynes@931 | 28 | #include "mmu.h"
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nkeynes@550 | 29 |
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nkeynes@951 | 30 | #define RAISE_TLB_ERROR(code, vpn) sh4_raise_tlb_exception(code, vpn)
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nkeynes@586 | 31 | #define RAISE_MEM_ERROR(code, vpn) \
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nkeynes@586 | 32 | MMIO_WRITE(MMU, TEA, vpn); \
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nkeynes@586 | 33 | MMIO_WRITE(MMU, PTEH, ((MMIO_READ(MMU, PTEH) & 0x000003FF) | (vpn&0xFFFFFC00))); \
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nkeynes@586 | 34 | sh4_raise_exception(code);
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nkeynes@951 | 35 | #define RAISE_TLB_MULTIHIT_ERROR(vpn) sh4_raise_tlb_multihit(vpn)
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nkeynes@586 | 36 |
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nkeynes@939 | 37 | /* An entry is a 1K entry if it's one of the mmu_utlb_1k_pages entries */
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nkeynes@939 | 38 | #define IS_1K_PAGE_ENTRY(ent) ( ((uintptr_t)(((struct utlb_1k_entry *)ent) - &mmu_utlb_1k_pages[0])) < UTLB_ENTRY_COUNT )
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nkeynes@586 | 39 |
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nkeynes@939 | 40 | /* Primary address space (used directly by SH4 cores) */
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nkeynes@939 | 41 | mem_region_fn_t *sh4_address_space;
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nkeynes@939 | 42 | mem_region_fn_t *sh4_user_address_space;
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nkeynes@550 | 43 |
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nkeynes@939 | 44 | /* Accessed from the UTLB accessor methods */
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nkeynes@939 | 45 | uint32_t mmu_urc;
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nkeynes@939 | 46 | uint32_t mmu_urb;
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nkeynes@952 | 47 | static gboolean mmu_urc_overflow; /* If true, urc was set >= urb */
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nkeynes@939 | 48 |
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nkeynes@939 | 49 | /* Module globals */
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nkeynes@550 | 50 | static struct itlb_entry mmu_itlb[ITLB_ENTRY_COUNT];
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nkeynes@550 | 51 | static struct utlb_entry mmu_utlb[UTLB_ENTRY_COUNT];
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nkeynes@939 | 52 | static struct utlb_page_entry mmu_utlb_pages[UTLB_ENTRY_COUNT];
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nkeynes@550 | 53 | static uint32_t mmu_lrui;
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nkeynes@586 | 54 | static uint32_t mmu_asid; // current asid
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nkeynes@946 | 55 | static struct utlb_default_regions *mmu_user_storequeue_regions;
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nkeynes@550 | 56 |
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nkeynes@939 | 57 | /* Structures for 1K page handling */
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nkeynes@939 | 58 | static struct utlb_1k_entry mmu_utlb_1k_pages[UTLB_ENTRY_COUNT];
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nkeynes@939 | 59 | static int mmu_utlb_1k_free_list[UTLB_ENTRY_COUNT];
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nkeynes@939 | 60 | static int mmu_utlb_1k_free_index;
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nkeynes@915 | 61 |
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nkeynes@550 | 62 |
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nkeynes@939 | 63 | /* Function prototypes */
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nkeynes@550 | 64 | static void mmu_invalidate_tlb();
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nkeynes@939 | 65 | static void mmu_utlb_register_all();
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nkeynes@939 | 66 | static void mmu_utlb_remove_entry(int);
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nkeynes@939 | 67 | static void mmu_utlb_insert_entry(int);
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nkeynes@939 | 68 | static void mmu_register_mem_region( uint32_t start, uint32_t end, mem_region_fn_t fn );
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nkeynes@939 | 69 | static void mmu_register_user_mem_region( uint32_t start, uint32_t end, mem_region_fn_t fn );
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nkeynes@939 | 70 | static void mmu_set_tlb_enabled( int tlb_on );
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nkeynes@939 | 71 | static void mmu_set_tlb_asid( uint32_t asid );
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nkeynes@946 | 72 | static void mmu_set_storequeue_protected( int protected, int tlb_on );
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nkeynes@939 | 73 | static gboolean mmu_utlb_map_pages( mem_region_fn_t priv_page, mem_region_fn_t user_page, sh4addr_t start_addr, int npages );
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nkeynes@943 | 74 | static void mmu_utlb_remap_pages( gboolean remap_priv, gboolean remap_user, int entryNo );
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nkeynes@943 | 75 | static gboolean mmu_utlb_unmap_pages( gboolean unmap_priv, gboolean unmap_user, sh4addr_t start_addr, int npages );
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nkeynes@939 | 76 | static gboolean mmu_ext_page_remapped( sh4addr_t page, mem_region_fn_t fn, void *user_data );
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nkeynes@939 | 77 | static void mmu_utlb_1k_init();
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nkeynes@939 | 78 | static struct utlb_1k_entry *mmu_utlb_1k_alloc();
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nkeynes@939 | 79 | static void mmu_utlb_1k_free( struct utlb_1k_entry *entry );
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nkeynes@955 | 80 | static int mmu_read_urc();
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nkeynes@550 | 81 |
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nkeynes@946 | 82 | static void FASTCALL tlb_miss_read( sh4addr_t addr, void *exc );
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nkeynes@939 | 83 | static int32_t FASTCALL tlb_protected_read( sh4addr_t addr, void *exc );
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nkeynes@939 | 84 | static void FASTCALL tlb_protected_write( sh4addr_t addr, uint32_t val, void *exc );
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nkeynes@975 | 85 | static int32_t FASTCALL tlb_protected_read_for_write( sh4addr_t addr, void *exc );
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nkeynes@939 | 86 | static void FASTCALL tlb_initial_write( sh4addr_t addr, uint32_t val, void *exc );
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nkeynes@975 | 87 | static int32_t FASTCALL tlb_initial_read_for_write( sh4addr_t addr, void *exc );
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nkeynes@939 | 88 | static uint32_t get_tlb_size_mask( uint32_t flags );
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nkeynes@939 | 89 | static uint32_t get_tlb_size_pages( uint32_t flags );
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nkeynes@586 | 90 |
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nkeynes@946 | 91 | #define DEFAULT_REGIONS 0
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nkeynes@946 | 92 | #define DEFAULT_STOREQUEUE_REGIONS 1
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nkeynes@946 | 93 | #define DEFAULT_STOREQUEUE_SQMD_REGIONS 2
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nkeynes@946 | 94 |
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nkeynes@946 | 95 | static struct utlb_default_regions mmu_default_regions[3] = {
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nkeynes@946 | 96 | { &mem_region_tlb_miss, &mem_region_tlb_protected, &mem_region_tlb_multihit },
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nkeynes@946 | 97 | { &p4_region_storequeue_miss, &p4_region_storequeue_protected, &p4_region_storequeue_multihit },
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nkeynes@946 | 98 | { &p4_region_storequeue_sqmd_miss, &p4_region_storequeue_sqmd_protected, &p4_region_storequeue_sqmd_multihit } };
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nkeynes@946 | 99 |
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nkeynes@946 | 100 | #define IS_STOREQUEUE_PROTECTED() (mmu_user_storequeue_regions == &mmu_default_regions[DEFAULT_STOREQUEUE_SQMD_REGIONS])
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nkeynes@550 | 101 |
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nkeynes@939 | 102 | /*********************** Module public functions ****************************/
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nkeynes@550 | 103 |
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nkeynes@939 | 104 | /**
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nkeynes@939 | 105 | * Allocate memory for the address space maps, and initialize them according
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nkeynes@939 | 106 | * to the default (reset) values. (TLB is disabled by default)
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nkeynes@939 | 107 | */
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nkeynes@939 | 108 |
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nkeynes@826 | 109 | void MMU_init()
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nkeynes@550 | 110 | {
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nkeynes@939 | 111 | sh4_address_space = mem_alloc_pages( sizeof(mem_region_fn_t) * 256 );
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nkeynes@939 | 112 | sh4_user_address_space = mem_alloc_pages( sizeof(mem_region_fn_t) * 256 );
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nkeynes@946 | 113 | mmu_user_storequeue_regions = &mmu_default_regions[DEFAULT_STOREQUEUE_REGIONS];
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nkeynes@939 | 114 |
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nkeynes@939 | 115 | mmu_set_tlb_enabled(0);
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nkeynes@939 | 116 | mmu_register_user_mem_region( 0x80000000, 0x00000000, &mem_region_address_error );
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nkeynes@946 | 117 | mmu_register_user_mem_region( 0xE0000000, 0xE4000000, &p4_region_storequeue );
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nkeynes@939 | 118 |
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nkeynes@939 | 119 | /* Setup P4 tlb/cache access regions */
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nkeynes@939 | 120 | mmu_register_mem_region( 0xE0000000, 0xE4000000, &p4_region_storequeue );
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nkeynes@939 | 121 | mmu_register_mem_region( 0xE4000000, 0xF0000000, &mem_region_unmapped );
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nkeynes@939 | 122 | mmu_register_mem_region( 0xF0000000, 0xF1000000, &p4_region_icache_addr );
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nkeynes@939 | 123 | mmu_register_mem_region( 0xF1000000, 0xF2000000, &p4_region_icache_data );
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nkeynes@939 | 124 | mmu_register_mem_region( 0xF2000000, 0xF3000000, &p4_region_itlb_addr );
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nkeynes@939 | 125 | mmu_register_mem_region( 0xF3000000, 0xF4000000, &p4_region_itlb_data );
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nkeynes@939 | 126 | mmu_register_mem_region( 0xF4000000, 0xF5000000, &p4_region_ocache_addr );
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nkeynes@939 | 127 | mmu_register_mem_region( 0xF5000000, 0xF6000000, &p4_region_ocache_data );
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nkeynes@939 | 128 | mmu_register_mem_region( 0xF6000000, 0xF7000000, &p4_region_utlb_addr );
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nkeynes@939 | 129 | mmu_register_mem_region( 0xF7000000, 0xF8000000, &p4_region_utlb_data );
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nkeynes@939 | 130 | mmu_register_mem_region( 0xF8000000, 0x00000000, &mem_region_unmapped );
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nkeynes@939 | 131 |
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nkeynes@939 | 132 | /* Setup P4 control region */
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nkeynes@939 | 133 | mmu_register_mem_region( 0xFF000000, 0xFF001000, &mmio_region_MMU.fn );
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nkeynes@939 | 134 | mmu_register_mem_region( 0xFF100000, 0xFF101000, &mmio_region_PMM.fn );
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nkeynes@939 | 135 | mmu_register_mem_region( 0xFF200000, 0xFF201000, &mmio_region_UBC.fn );
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nkeynes@939 | 136 | mmu_register_mem_region( 0xFF800000, 0xFF801000, &mmio_region_BSC.fn );
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nkeynes@939 | 137 | mmu_register_mem_region( 0xFF900000, 0xFFA00000, &mem_region_unmapped ); // SDMR2 + SDMR3
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nkeynes@939 | 138 | mmu_register_mem_region( 0xFFA00000, 0xFFA01000, &mmio_region_DMAC.fn );
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nkeynes@939 | 139 | mmu_register_mem_region( 0xFFC00000, 0xFFC01000, &mmio_region_CPG.fn );
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nkeynes@939 | 140 | mmu_register_mem_region( 0xFFC80000, 0xFFC81000, &mmio_region_RTC.fn );
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nkeynes@939 | 141 | mmu_register_mem_region( 0xFFD00000, 0xFFD01000, &mmio_region_INTC.fn );
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nkeynes@939 | 142 | mmu_register_mem_region( 0xFFD80000, 0xFFD81000, &mmio_region_TMU.fn );
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nkeynes@939 | 143 | mmu_register_mem_region( 0xFFE00000, 0xFFE01000, &mmio_region_SCI.fn );
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nkeynes@939 | 144 | mmu_register_mem_region( 0xFFE80000, 0xFFE81000, &mmio_region_SCIF.fn );
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nkeynes@939 | 145 | mmu_register_mem_region( 0xFFF00000, 0xFFF01000, &mem_region_unmapped ); // H-UDI
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nkeynes@939 | 146 |
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nkeynes@939 | 147 | register_mem_page_remapped_hook( mmu_ext_page_remapped, NULL );
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nkeynes@939 | 148 | mmu_utlb_1k_init();
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nkeynes@939 | 149 |
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nkeynes@960 | 150 | /* Ensure the code regions are executable (64-bit only). Although it might
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nkeynes@960 | 151 | * be more portable to mmap these at runtime rather than using static decls
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nkeynes@960 | 152 | */
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nkeynes@960 | 153 | #if SIZEOF_VOID_P == 8
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nkeynes@939 | 154 | mem_unprotect( mmu_utlb_pages, sizeof(mmu_utlb_pages) );
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nkeynes@939 | 155 | mem_unprotect( mmu_utlb_1k_pages, sizeof(mmu_utlb_1k_pages) );
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nkeynes@960 | 156 | #endif
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nkeynes@550 | 157 | }
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nkeynes@550 | 158 |
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nkeynes@550 | 159 | void MMU_reset()
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nkeynes@550 | 160 | {
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nkeynes@550 | 161 | mmio_region_MMU_write( CCR, 0 );
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nkeynes@586 | 162 | mmio_region_MMU_write( MMUCR, 0 );
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nkeynes@550 | 163 | }
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nkeynes@550 | 164 |
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nkeynes@550 | 165 | void MMU_save_state( FILE *f )
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nkeynes@550 | 166 | {
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nkeynes@955 | 167 | mmu_read_urc();
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nkeynes@550 | 168 | fwrite( &mmu_itlb, sizeof(mmu_itlb), 1, f );
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nkeynes@550 | 169 | fwrite( &mmu_utlb, sizeof(mmu_utlb), 1, f );
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nkeynes@586 | 170 | fwrite( &mmu_urc, sizeof(mmu_urc), 1, f );
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nkeynes@586 | 171 | fwrite( &mmu_urb, sizeof(mmu_urb), 1, f );
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nkeynes@586 | 172 | fwrite( &mmu_lrui, sizeof(mmu_lrui), 1, f );
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nkeynes@586 | 173 | fwrite( &mmu_asid, sizeof(mmu_asid), 1, f );
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nkeynes@550 | 174 | }
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nkeynes@550 | 175 |
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nkeynes@550 | 176 | int MMU_load_state( FILE *f )
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nkeynes@550 | 177 | {
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nkeynes@550 | 178 | if( fread( &mmu_itlb, sizeof(mmu_itlb), 1, f ) != 1 ) {
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nkeynes@736 | 179 | return 1;
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nkeynes@550 | 180 | }
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nkeynes@550 | 181 | if( fread( &mmu_utlb, sizeof(mmu_utlb), 1, f ) != 1 ) {
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nkeynes@736 | 182 | return 1;
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nkeynes@550 | 183 | }
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nkeynes@586 | 184 | if( fread( &mmu_urc, sizeof(mmu_urc), 1, f ) != 1 ) {
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nkeynes@736 | 185 | return 1;
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nkeynes@586 | 186 | }
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nkeynes@586 | 187 | if( fread( &mmu_urc, sizeof(mmu_urb), 1, f ) != 1 ) {
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nkeynes@736 | 188 | return 1;
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nkeynes@586 | 189 | }
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nkeynes@586 | 190 | if( fread( &mmu_lrui, sizeof(mmu_lrui), 1, f ) != 1 ) {
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nkeynes@736 | 191 | return 1;
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nkeynes@586 | 192 | }
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nkeynes@586 | 193 | if( fread( &mmu_asid, sizeof(mmu_asid), 1, f ) != 1 ) {
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nkeynes@736 | 194 | return 1;
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nkeynes@586 | 195 | }
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nkeynes@939 | 196 |
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nkeynes@939 | 197 | uint32_t mmucr = MMIO_READ(MMU,MMUCR);
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nkeynes@952 | 198 | mmu_urc_overflow = mmu_urc >= mmu_urb;
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nkeynes@939 | 199 | mmu_set_tlb_enabled(mmucr&MMUCR_AT);
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nkeynes@946 | 200 | mmu_set_storequeue_protected(mmucr&MMUCR_SQMD, mmucr&MMUCR_AT);
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nkeynes@550 | 201 | return 0;
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nkeynes@550 | 202 | }
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nkeynes@550 | 203 |
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nkeynes@550 | 204 | /**
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nkeynes@550 | 205 | * LDTLB instruction implementation. Copies PTEH, PTEL and PTEA into the UTLB
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nkeynes@550 | 206 | * entry identified by MMUCR.URC. Does not modify MMUCR or the ITLB.
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nkeynes@550 | 207 | */
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nkeynes@550 | 208 | void MMU_ldtlb()
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nkeynes@550 | 209 | {
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nkeynes@955 | 210 | int urc = mmu_read_urc();
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nkeynes@1090 | 211 | if( IS_TLB_ENABLED() && mmu_utlb[urc].flags & TLB_VALID )
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nkeynes@955 | 212 | mmu_utlb_remove_entry( urc );
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nkeynes@955 | 213 | mmu_utlb[urc].vpn = MMIO_READ(MMU, PTEH) & 0xFFFFFC00;
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nkeynes@955 | 214 | mmu_utlb[urc].asid = MMIO_READ(MMU, PTEH) & 0x000000FF;
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nkeynes@955 | 215 | mmu_utlb[urc].ppn = MMIO_READ(MMU, PTEL) & 0x1FFFFC00;
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nkeynes@955 | 216 | mmu_utlb[urc].flags = MMIO_READ(MMU, PTEL) & 0x00001FF;
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nkeynes@955 | 217 | mmu_utlb[urc].pcmcia = MMIO_READ(MMU, PTEA);
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nkeynes@955 | 218 | mmu_utlb[urc].mask = get_tlb_size_mask(mmu_utlb[urc].flags);
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nkeynes@1090 | 219 | if( IS_TLB_ENABLED() && mmu_utlb[urc].flags & TLB_VALID )
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nkeynes@955 | 220 | mmu_utlb_insert_entry( urc );
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nkeynes@550 | 221 | }
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nkeynes@550 | 222 |
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nkeynes@939 | 223 |
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nkeynes@939 | 224 | MMIO_REGION_READ_FN( MMU, reg )
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nkeynes@939 | 225 | {
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nkeynes@939 | 226 | reg &= 0xFFF;
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nkeynes@939 | 227 | switch( reg ) {
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nkeynes@939 | 228 | case MMUCR:
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nkeynes@955 | 229 | return MMIO_READ( MMU, MMUCR) | (mmu_read_urc()<<10) | ((mmu_urb&0x3F)<<18) | (mmu_lrui<<26);
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nkeynes@939 | 230 | default:
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nkeynes@939 | 231 | return MMIO_READ( MMU, reg );
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nkeynes@939 | 232 | }
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nkeynes@939 | 233 | }
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nkeynes@939 | 234 |
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nkeynes@975 | 235 | MMIO_REGION_READ_DEFSUBFNS(MMU)
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nkeynes@975 | 236 |
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nkeynes@939 | 237 | MMIO_REGION_WRITE_FN( MMU, reg, val )
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nkeynes@939 | 238 | {
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nkeynes@939 | 239 | uint32_t tmp;
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nkeynes@939 | 240 | reg &= 0xFFF;
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nkeynes@939 | 241 | switch(reg) {
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nkeynes@939 | 242 | case SH4VER:
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nkeynes@939 | 243 | return;
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nkeynes@939 | 244 | case PTEH:
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nkeynes@939 | 245 | val &= 0xFFFFFCFF;
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nkeynes@939 | 246 | if( (val & 0xFF) != mmu_asid ) {
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nkeynes@939 | 247 | mmu_set_tlb_asid( val&0xFF );
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nkeynes@939 | 248 | }
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nkeynes@939 | 249 | break;
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nkeynes@939 | 250 | case PTEL:
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nkeynes@939 | 251 | val &= 0x1FFFFDFF;
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nkeynes@939 | 252 | break;
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nkeynes@939 | 253 | case PTEA:
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nkeynes@939 | 254 | val &= 0x0000000F;
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nkeynes@939 | 255 | break;
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nkeynes@939 | 256 | case TRA:
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nkeynes@939 | 257 | val &= 0x000003FC;
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nkeynes@939 | 258 | break;
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nkeynes@939 | 259 | case EXPEVT:
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nkeynes@939 | 260 | case INTEVT:
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nkeynes@939 | 261 | val &= 0x00000FFF;
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nkeynes@939 | 262 | break;
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nkeynes@939 | 263 | case MMUCR:
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nkeynes@939 | 264 | if( val & MMUCR_TI ) {
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nkeynes@939 | 265 | mmu_invalidate_tlb();
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nkeynes@939 | 266 | }
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nkeynes@939 | 267 | mmu_urc = (val >> 10) & 0x3F;
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nkeynes@939 | 268 | mmu_urb = (val >> 18) & 0x3F;
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nkeynes@939 | 269 | if( mmu_urb == 0 ) {
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nkeynes@939 | 270 | mmu_urb = 0x40;
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nkeynes@952 | 271 | } else if( mmu_urc >= mmu_urb ) {
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nkeynes@952 | 272 | mmu_urc_overflow = TRUE;
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nkeynes@939 | 273 | }
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nkeynes@939 | 274 | mmu_lrui = (val >> 26) & 0x3F;
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nkeynes@939 | 275 | val &= 0x00000301;
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nkeynes@939 | 276 | tmp = MMIO_READ( MMU, MMUCR );
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nkeynes@939 | 277 | if( (val ^ tmp) & (MMUCR_SQMD) ) {
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nkeynes@946 | 278 | mmu_set_storequeue_protected( val & MMUCR_SQMD, val&MMUCR_AT );
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nkeynes@939 | 279 | }
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nkeynes@939 | 280 | if( (val ^ tmp) & (MMUCR_AT) ) {
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nkeynes@939 | 281 | // AT flag has changed state - flush the xlt cache as all bets
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nkeynes@939 | 282 | // are off now. We also need to force an immediate exit from the
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nkeynes@939 | 283 | // current block
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nkeynes@939 | 284 | mmu_set_tlb_enabled( val & MMUCR_AT );
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nkeynes@939 | 285 | MMIO_WRITE( MMU, MMUCR, val );
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nkeynes@948 | 286 | sh4_core_exit( CORE_EXIT_FLUSH_ICACHE );
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nkeynes@948 | 287 | xlat_flush_cache(); // If we're not running, flush the cache anyway
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nkeynes@939 | 288 | }
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nkeynes@939 | 289 | break;
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nkeynes@939 | 290 | case CCR:
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nkeynes@939 | 291 | CCN_set_cache_control( val );
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nkeynes@939 | 292 | val &= 0x81A7;
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nkeynes@939 | 293 | break;
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nkeynes@939 | 294 | case MMUUNK1:
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nkeynes@939 | 295 | /* Note that if the high bit is set, this appears to reset the machine.
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nkeynes@939 | 296 | * Not emulating this behaviour yet until we know why...
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nkeynes@939 | 297 | */
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nkeynes@939 | 298 | val &= 0x00010007;
|
nkeynes@939 | 299 | break;
|
nkeynes@939 | 300 | case QACR0:
|
nkeynes@939 | 301 | case QACR1:
|
nkeynes@939 | 302 | val &= 0x0000001C;
|
nkeynes@939 | 303 | break;
|
nkeynes@939 | 304 | case PMCR1:
|
nkeynes@939 | 305 | PMM_write_control(0, val);
|
nkeynes@939 | 306 | val &= 0x0000C13F;
|
nkeynes@939 | 307 | break;
|
nkeynes@939 | 308 | case PMCR2:
|
nkeynes@939 | 309 | PMM_write_control(1, val);
|
nkeynes@939 | 310 | val &= 0x0000C13F;
|
nkeynes@939 | 311 | break;
|
nkeynes@939 | 312 | default:
|
nkeynes@939 | 313 | break;
|
nkeynes@939 | 314 | }
|
nkeynes@939 | 315 | MMIO_WRITE( MMU, reg, val );
|
nkeynes@939 | 316 | }
|
nkeynes@939 | 317 |
|
nkeynes@939 | 318 | /********************** 1K Page handling ***********************/
|
nkeynes@939 | 319 | /* Since we use 4K pages as our native page size, 1K pages need a bit of extra
|
nkeynes@939 | 320 | * effort to manage - we justify this on the basis that most programs won't
|
nkeynes@939 | 321 | * actually use 1K pages, so we may as well optimize for the common case.
|
nkeynes@939 | 322 | *
|
nkeynes@939 | 323 | * Implementation uses an intermediate page entry (the utlb_1k_entry) that
|
nkeynes@939 | 324 | * redirects requests to the 'real' page entry. These are allocated on an
|
nkeynes@939 | 325 | * as-needed basis, and returned to the pool when all subpages are empty.
|
nkeynes@939 | 326 | */
|
nkeynes@939 | 327 | static void mmu_utlb_1k_init()
|
nkeynes@939 | 328 | {
|
nkeynes@939 | 329 | int i;
|
nkeynes@939 | 330 | for( i=0; i<UTLB_ENTRY_COUNT; i++ ) {
|
nkeynes@939 | 331 | mmu_utlb_1k_free_list[i] = i;
|
nkeynes@939 | 332 | mmu_utlb_1k_init_vtable( &mmu_utlb_1k_pages[i] );
|
nkeynes@939 | 333 | }
|
nkeynes@939 | 334 | mmu_utlb_1k_free_index = 0;
|
nkeynes@939 | 335 | }
|
nkeynes@939 | 336 |
|
nkeynes@939 | 337 | static struct utlb_1k_entry *mmu_utlb_1k_alloc()
|
nkeynes@939 | 338 | {
|
nkeynes@939 | 339 | assert( mmu_utlb_1k_free_index < UTLB_ENTRY_COUNT );
|
nkeynes@971 | 340 | struct utlb_1k_entry *entry = &mmu_utlb_1k_pages[mmu_utlb_1k_free_list[mmu_utlb_1k_free_index++]];
|
nkeynes@939 | 341 | return entry;
|
nkeynes@939 | 342 | }
|
nkeynes@939 | 343 |
|
nkeynes@939 | 344 | static void mmu_utlb_1k_free( struct utlb_1k_entry *ent )
|
nkeynes@939 | 345 | {
|
nkeynes@939 | 346 | unsigned int entryNo = ent - &mmu_utlb_1k_pages[0];
|
nkeynes@939 | 347 | assert( entryNo < UTLB_ENTRY_COUNT );
|
nkeynes@939 | 348 | assert( mmu_utlb_1k_free_index > 0 );
|
nkeynes@939 | 349 | mmu_utlb_1k_free_list[--mmu_utlb_1k_free_index] = entryNo;
|
nkeynes@939 | 350 | }
|
nkeynes@939 | 351 |
|
nkeynes@939 | 352 |
|
nkeynes@939 | 353 | /********************** Address space maintenance *************************/
|
nkeynes@939 | 354 |
|
nkeynes@939 | 355 | /**
|
nkeynes@939 | 356 | * MMU accessor functions just increment URC - fixup here if necessary
|
nkeynes@939 | 357 | */
|
nkeynes@955 | 358 | static int mmu_read_urc()
|
nkeynes@939 | 359 | {
|
nkeynes@952 | 360 | if( mmu_urc_overflow ) {
|
nkeynes@952 | 361 | if( mmu_urc >= 0x40 ) {
|
nkeynes@952 | 362 | mmu_urc_overflow = FALSE;
|
nkeynes@952 | 363 | mmu_urc -= 0x40;
|
nkeynes@952 | 364 | mmu_urc %= mmu_urb;
|
nkeynes@952 | 365 | }
|
nkeynes@952 | 366 | } else {
|
nkeynes@952 | 367 | mmu_urc %= mmu_urb;
|
nkeynes@952 | 368 | }
|
nkeynes@955 | 369 | return mmu_urc;
|
nkeynes@939 | 370 | }
|
nkeynes@939 | 371 |
|
nkeynes@939 | 372 | static void mmu_register_mem_region( uint32_t start, uint32_t end, mem_region_fn_t fn )
|
nkeynes@939 | 373 | {
|
nkeynes@939 | 374 | int count = (end - start) >> 12;
|
nkeynes@939 | 375 | mem_region_fn_t *ptr = &sh4_address_space[start>>12];
|
nkeynes@939 | 376 | while( count-- > 0 ) {
|
nkeynes@939 | 377 | *ptr++ = fn;
|
nkeynes@939 | 378 | }
|
nkeynes@939 | 379 | }
|
nkeynes@939 | 380 | static void mmu_register_user_mem_region( uint32_t start, uint32_t end, mem_region_fn_t fn )
|
nkeynes@939 | 381 | {
|
nkeynes@939 | 382 | int count = (end - start) >> 12;
|
nkeynes@939 | 383 | mem_region_fn_t *ptr = &sh4_user_address_space[start>>12];
|
nkeynes@939 | 384 | while( count-- > 0 ) {
|
nkeynes@939 | 385 | *ptr++ = fn;
|
nkeynes@939 | 386 | }
|
nkeynes@939 | 387 | }
|
nkeynes@939 | 388 |
|
nkeynes@939 | 389 | static gboolean mmu_ext_page_remapped( sh4addr_t page, mem_region_fn_t fn, void *user_data )
|
nkeynes@939 | 390 | {
|
nkeynes@980 | 391 | unsigned int i;
|
nkeynes@939 | 392 | if( (MMIO_READ(MMU,MMUCR)) & MMUCR_AT ) {
|
nkeynes@939 | 393 | /* TLB on */
|
nkeynes@939 | 394 | sh4_address_space[(page|0x80000000)>>12] = fn; /* Direct map to P1 and P2 */
|
nkeynes@939 | 395 | sh4_address_space[(page|0xA0000000)>>12] = fn;
|
nkeynes@939 | 396 | /* Scan UTLB and update any direct-referencing entries */
|
nkeynes@939 | 397 | } else {
|
nkeynes@939 | 398 | /* Direct map to U0, P0, P1, P2, P3 */
|
nkeynes@939 | 399 | for( i=0; i<= 0xC0000000; i+= 0x20000000 ) {
|
nkeynes@939 | 400 | sh4_address_space[(page|i)>>12] = fn;
|
nkeynes@939 | 401 | }
|
nkeynes@939 | 402 | for( i=0; i < 0x80000000; i+= 0x20000000 ) {
|
nkeynes@939 | 403 | sh4_user_address_space[(page|i)>>12] = fn;
|
nkeynes@939 | 404 | }
|
nkeynes@939 | 405 | }
|
nkeynes@963 | 406 | return TRUE;
|
nkeynes@939 | 407 | }
|
nkeynes@939 | 408 |
|
nkeynes@939 | 409 | static void mmu_set_tlb_enabled( int tlb_on )
|
nkeynes@939 | 410 | {
|
nkeynes@939 | 411 | mem_region_fn_t *ptr, *uptr;
|
nkeynes@939 | 412 | int i;
|
nkeynes@939 | 413 |
|
nkeynes@946 | 414 | /* Reset the storequeue area */
|
nkeynes@946 | 415 |
|
nkeynes@939 | 416 | if( tlb_on ) {
|
nkeynes@939 | 417 | mmu_register_mem_region(0x00000000, 0x80000000, &mem_region_tlb_miss );
|
nkeynes@939 | 418 | mmu_register_mem_region(0xC0000000, 0xE0000000, &mem_region_tlb_miss );
|
nkeynes@939 | 419 | mmu_register_user_mem_region(0x00000000, 0x80000000, &mem_region_tlb_miss );
|
nkeynes@946 | 420 |
|
nkeynes@946 | 421 | /* Default SQ prefetch goes to TLB miss (?) */
|
nkeynes@946 | 422 | mmu_register_mem_region( 0xE0000000, 0xE4000000, &p4_region_storequeue_miss );
|
nkeynes@946 | 423 | mmu_register_user_mem_region( 0xE0000000, 0xE4000000, mmu_user_storequeue_regions->tlb_miss );
|
nkeynes@939 | 424 | mmu_utlb_register_all();
|
nkeynes@939 | 425 | } else {
|
nkeynes@939 | 426 | for( i=0, ptr = sh4_address_space; i<7; i++, ptr += LXDREAM_PAGE_TABLE_ENTRIES ) {
|
nkeynes@939 | 427 | memcpy( ptr, ext_address_space, sizeof(mem_region_fn_t) * LXDREAM_PAGE_TABLE_ENTRIES );
|
nkeynes@939 | 428 | }
|
nkeynes@939 | 429 | for( i=0, ptr = sh4_user_address_space; i<4; i++, ptr += LXDREAM_PAGE_TABLE_ENTRIES ) {
|
nkeynes@939 | 430 | memcpy( ptr, ext_address_space, sizeof(mem_region_fn_t) * LXDREAM_PAGE_TABLE_ENTRIES );
|
nkeynes@939 | 431 | }
|
nkeynes@946 | 432 |
|
nkeynes@946 | 433 | mmu_register_mem_region( 0xE0000000, 0xE4000000, &p4_region_storequeue );
|
nkeynes@946 | 434 | if( IS_STOREQUEUE_PROTECTED() ) {
|
nkeynes@946 | 435 | mmu_register_user_mem_region( 0xE0000000, 0xE4000000, &p4_region_storequeue_sqmd );
|
nkeynes@946 | 436 | } else {
|
nkeynes@946 | 437 | mmu_register_user_mem_region( 0xE0000000, 0xE4000000, &p4_region_storequeue );
|
nkeynes@946 | 438 | }
|
nkeynes@939 | 439 | }
|
nkeynes@946 | 440 |
|
nkeynes@939 | 441 | }
|
nkeynes@939 | 442 |
|
nkeynes@946 | 443 | /**
|
nkeynes@946 | 444 | * Flip the SQMD switch - this is rather expensive, so will need to be changed if
|
nkeynes@946 | 445 | * anything expects to do this frequently.
|
nkeynes@946 | 446 | */
|
nkeynes@946 | 447 | static void mmu_set_storequeue_protected( int protected, int tlb_on )
|
nkeynes@939 | 448 | {
|
nkeynes@946 | 449 | mem_region_fn_t nontlb_region;
|
nkeynes@946 | 450 | int i;
|
nkeynes@946 | 451 |
|
nkeynes@939 | 452 | if( protected ) {
|
nkeynes@946 | 453 | mmu_user_storequeue_regions = &mmu_default_regions[DEFAULT_STOREQUEUE_SQMD_REGIONS];
|
nkeynes@946 | 454 | nontlb_region = &p4_region_storequeue_sqmd;
|
nkeynes@939 | 455 | } else {
|
nkeynes@946 | 456 | mmu_user_storequeue_regions = &mmu_default_regions[DEFAULT_STOREQUEUE_REGIONS];
|
nkeynes@946 | 457 | nontlb_region = &p4_region_storequeue;
|
nkeynes@939 | 458 | }
|
nkeynes@946 | 459 |
|
nkeynes@946 | 460 | if( tlb_on ) {
|
nkeynes@946 | 461 | mmu_register_user_mem_region( 0xE0000000, 0xE4000000, mmu_user_storequeue_regions->tlb_miss );
|
nkeynes@946 | 462 | for( i=0; i<UTLB_ENTRY_COUNT; i++ ) {
|
nkeynes@946 | 463 | if( (mmu_utlb[i].vpn & 0xFC000000) == 0xE0000000 ) {
|
nkeynes@946 | 464 | mmu_utlb_insert_entry(i);
|
nkeynes@946 | 465 | }
|
nkeynes@946 | 466 | }
|
nkeynes@946 | 467 | } else {
|
nkeynes@946 | 468 | mmu_register_user_mem_region( 0xE0000000, 0xE4000000, nontlb_region );
|
nkeynes@946 | 469 | }
|
nkeynes@946 | 470 |
|
nkeynes@939 | 471 | }
|
nkeynes@939 | 472 |
|
nkeynes@939 | 473 | static void mmu_set_tlb_asid( uint32_t asid )
|
nkeynes@939 | 474 | {
|
nkeynes@1088 | 475 | if( IS_TLB_ENABLED() ) {
|
nkeynes@1088 | 476 | /* Scan for pages that need to be remapped */
|
nkeynes@1088 | 477 | int i;
|
nkeynes@1088 | 478 | if( IS_SV_ENABLED() ) {
|
nkeynes@1088 | 479 | for( i=0; i<UTLB_ENTRY_COUNT; i++ ) {
|
nkeynes@1088 | 480 | if( mmu_utlb[i].asid == mmu_asid &&
|
nkeynes@1088 | 481 | (mmu_utlb[i].flags & (TLB_VALID|TLB_SHARE)) == (TLB_VALID) ) {
|
nkeynes@1088 | 482 | // Matches old ASID - unmap out
|
nkeynes@1088 | 483 | if( !mmu_utlb_unmap_pages( FALSE, TRUE, mmu_utlb[i].vpn&mmu_utlb[i].mask,
|
nkeynes@1088 | 484 | get_tlb_size_pages(mmu_utlb[i].flags) ) )
|
nkeynes@1088 | 485 | mmu_utlb_remap_pages( FALSE, TRUE, i );
|
nkeynes@1088 | 486 | }
|
nkeynes@1088 | 487 | }
|
nkeynes@1088 | 488 | for( i=0; i<UTLB_ENTRY_COUNT; i++ ) {
|
nkeynes@1088 | 489 | if( mmu_utlb[i].asid == asid &&
|
nkeynes@1088 | 490 | (mmu_utlb[i].flags & (TLB_VALID|TLB_SHARE)) == (TLB_VALID) ) {
|
nkeynes@1088 | 491 | // Matches new ASID - map in
|
nkeynes@1088 | 492 | mmu_utlb_map_pages( NULL, mmu_utlb_pages[i].user_fn,
|
nkeynes@1088 | 493 | mmu_utlb[i].vpn&mmu_utlb[i].mask,
|
nkeynes@1088 | 494 | get_tlb_size_pages(mmu_utlb[i].flags) );
|
nkeynes@1088 | 495 | }
|
nkeynes@1088 | 496 | }
|
nkeynes@1088 | 497 | } else {
|
nkeynes@1088 | 498 | // Remap both Priv+user pages
|
nkeynes@1088 | 499 | for( i=0; i<UTLB_ENTRY_COUNT; i++ ) {
|
nkeynes@1088 | 500 | if( mmu_utlb[i].asid == mmu_asid &&
|
nkeynes@1088 | 501 | (mmu_utlb[i].flags & (TLB_VALID|TLB_SHARE)) == (TLB_VALID) ) {
|
nkeynes@1088 | 502 | if( !mmu_utlb_unmap_pages( TRUE, TRUE, mmu_utlb[i].vpn&mmu_utlb[i].mask,
|
nkeynes@1088 | 503 | get_tlb_size_pages(mmu_utlb[i].flags) ) )
|
nkeynes@1088 | 504 | mmu_utlb_remap_pages( TRUE, TRUE, i );
|
nkeynes@1088 | 505 | }
|
nkeynes@1088 | 506 | }
|
nkeynes@1088 | 507 | for( i=0; i<UTLB_ENTRY_COUNT; i++ ) {
|
nkeynes@1088 | 508 | if( mmu_utlb[i].asid == asid &&
|
nkeynes@1088 | 509 | (mmu_utlb[i].flags & (TLB_VALID|TLB_SHARE)) == (TLB_VALID) ) {
|
nkeynes@1088 | 510 | mmu_utlb_map_pages( &mmu_utlb_pages[i].fn, mmu_utlb_pages[i].user_fn,
|
nkeynes@1088 | 511 | mmu_utlb[i].vpn&mmu_utlb[i].mask,
|
nkeynes@1088 | 512 | get_tlb_size_pages(mmu_utlb[i].flags) );
|
nkeynes@1088 | 513 | }
|
nkeynes@971 | 514 | }
|
nkeynes@971 | 515 | }
|
nkeynes@1088 | 516 | sh4_icache.page_vma = -1; // invalidate icache as asid has changed
|
nkeynes@939 | 517 | }
|
nkeynes@939 | 518 | mmu_asid = asid;
|
nkeynes@939 | 519 | }
|
nkeynes@939 | 520 |
|
nkeynes@939 | 521 | static uint32_t get_tlb_size_mask( uint32_t flags )
|
nkeynes@939 | 522 | {
|
nkeynes@939 | 523 | switch( flags & TLB_SIZE_MASK ) {
|
nkeynes@939 | 524 | case TLB_SIZE_1K: return MASK_1K;
|
nkeynes@939 | 525 | case TLB_SIZE_4K: return MASK_4K;
|
nkeynes@939 | 526 | case TLB_SIZE_64K: return MASK_64K;
|
nkeynes@939 | 527 | case TLB_SIZE_1M: return MASK_1M;
|
nkeynes@939 | 528 | default: return 0; /* Unreachable */
|
nkeynes@939 | 529 | }
|
nkeynes@939 | 530 | }
|
nkeynes@939 | 531 | static uint32_t get_tlb_size_pages( uint32_t flags )
|
nkeynes@939 | 532 | {
|
nkeynes@939 | 533 | switch( flags & TLB_SIZE_MASK ) {
|
nkeynes@939 | 534 | case TLB_SIZE_1K: return 0;
|
nkeynes@939 | 535 | case TLB_SIZE_4K: return 1;
|
nkeynes@939 | 536 | case TLB_SIZE_64K: return 16;
|
nkeynes@939 | 537 | case TLB_SIZE_1M: return 256;
|
nkeynes@939 | 538 | default: return 0; /* Unreachable */
|
nkeynes@939 | 539 | }
|
nkeynes@939 | 540 | }
|
nkeynes@939 | 541 |
|
nkeynes@939 | 542 | /**
|
nkeynes@939 | 543 | * Add a new TLB entry mapping to the address space table. If any of the pages
|
nkeynes@939 | 544 | * are already mapped, they are mapped to the TLB multi-hit page instead.
|
nkeynes@939 | 545 | * @return FALSE if a TLB multihit situation was detected, otherwise TRUE.
|
nkeynes@939 | 546 | */
|
nkeynes@939 | 547 | static gboolean mmu_utlb_map_pages( mem_region_fn_t priv_page, mem_region_fn_t user_page, sh4addr_t start_addr, int npages )
|
nkeynes@939 | 548 | {
|
nkeynes@939 | 549 | mem_region_fn_t *ptr = &sh4_address_space[start_addr >> 12];
|
nkeynes@939 | 550 | mem_region_fn_t *uptr = &sh4_user_address_space[start_addr >> 12];
|
nkeynes@946 | 551 | struct utlb_default_regions *privdefs = &mmu_default_regions[DEFAULT_REGIONS];
|
nkeynes@946 | 552 | struct utlb_default_regions *userdefs = privdefs;
|
nkeynes@946 | 553 |
|
nkeynes@939 | 554 | gboolean mapping_ok = TRUE;
|
nkeynes@939 | 555 | int i;
|
nkeynes@939 | 556 |
|
nkeynes@939 | 557 | if( (start_addr & 0xFC000000) == 0xE0000000 ) {
|
nkeynes@939 | 558 | /* Storequeue mapping */
|
nkeynes@946 | 559 | privdefs = &mmu_default_regions[DEFAULT_STOREQUEUE_REGIONS];
|
nkeynes@946 | 560 | userdefs = mmu_user_storequeue_regions;
|
nkeynes@939 | 561 | } else if( (start_addr & 0xE0000000) == 0xC0000000 ) {
|
nkeynes@939 | 562 | user_page = NULL; /* No user access to P3 region */
|
nkeynes@939 | 563 | } else if( start_addr >= 0x80000000 ) {
|
nkeynes@939 | 564 | return TRUE; // No mapping - legal but meaningless
|
nkeynes@939 | 565 | }
|
nkeynes@939 | 566 |
|
nkeynes@939 | 567 | if( npages == 0 ) {
|
nkeynes@939 | 568 | struct utlb_1k_entry *ent;
|
nkeynes@939 | 569 | int i, idx = (start_addr >> 10) & 0x03;
|
nkeynes@939 | 570 | if( IS_1K_PAGE_ENTRY(*ptr) ) {
|
nkeynes@939 | 571 | ent = (struct utlb_1k_entry *)*ptr;
|
nkeynes@939 | 572 | } else {
|
nkeynes@939 | 573 | ent = mmu_utlb_1k_alloc();
|
nkeynes@939 | 574 | /* New 1K struct - init to previous contents of region */
|
nkeynes@939 | 575 | for( i=0; i<4; i++ ) {
|
nkeynes@939 | 576 | ent->subpages[i] = *ptr;
|
nkeynes@939 | 577 | ent->user_subpages[i] = *uptr;
|
nkeynes@939 | 578 | }
|
nkeynes@939 | 579 | *ptr = &ent->fn;
|
nkeynes@939 | 580 | *uptr = &ent->user_fn;
|
nkeynes@939 | 581 | }
|
nkeynes@939 | 582 |
|
nkeynes@939 | 583 | if( priv_page != NULL ) {
|
nkeynes@946 | 584 | if( ent->subpages[idx] == privdefs->tlb_miss ) {
|
nkeynes@939 | 585 | ent->subpages[idx] = priv_page;
|
nkeynes@939 | 586 | } else {
|
nkeynes@939 | 587 | mapping_ok = FALSE;
|
nkeynes@946 | 588 | ent->subpages[idx] = privdefs->tlb_multihit;
|
nkeynes@939 | 589 | }
|
nkeynes@939 | 590 | }
|
nkeynes@939 | 591 | if( user_page != NULL ) {
|
nkeynes@946 | 592 | if( ent->user_subpages[idx] == userdefs->tlb_miss ) {
|
nkeynes@939 | 593 | ent->user_subpages[idx] = user_page;
|
nkeynes@939 | 594 | } else {
|
nkeynes@939 | 595 | mapping_ok = FALSE;
|
nkeynes@946 | 596 | ent->user_subpages[idx] = userdefs->tlb_multihit;
|
nkeynes@939 | 597 | }
|
nkeynes@939 | 598 | }
|
nkeynes@939 | 599 |
|
nkeynes@939 | 600 | } else {
|
nkeynes@943 | 601 | if( priv_page != NULL ) {
|
nkeynes@946 | 602 | /* Privileged mapping only */
|
nkeynes@946 | 603 | for( i=0; i<npages; i++ ) {
|
nkeynes@946 | 604 | if( *ptr == privdefs->tlb_miss ) {
|
nkeynes@946 | 605 | *ptr++ = priv_page;
|
nkeynes@946 | 606 | } else {
|
nkeynes@946 | 607 | mapping_ok = FALSE;
|
nkeynes@946 | 608 | *ptr++ = privdefs->tlb_multihit;
|
nkeynes@939 | 609 | }
|
nkeynes@939 | 610 | }
|
nkeynes@946 | 611 | }
|
nkeynes@946 | 612 | if( user_page != NULL ) {
|
nkeynes@943 | 613 | /* User mapping only (eg ASID change remap w/ SV=1) */
|
nkeynes@939 | 614 | for( i=0; i<npages; i++ ) {
|
nkeynes@946 | 615 | if( *uptr == userdefs->tlb_miss ) {
|
nkeynes@939 | 616 | *uptr++ = user_page;
|
nkeynes@939 | 617 | } else {
|
nkeynes@939 | 618 | mapping_ok = FALSE;
|
nkeynes@946 | 619 | *uptr++ = userdefs->tlb_multihit;
|
nkeynes@939 | 620 | }
|
nkeynes@939 | 621 | }
|
nkeynes@939 | 622 | }
|
nkeynes@939 | 623 | }
|
nkeynes@946 | 624 |
|
nkeynes@939 | 625 | return mapping_ok;
|
nkeynes@939 | 626 | }
|
nkeynes@939 | 627 |
|
nkeynes@939 | 628 | /**
|
nkeynes@943 | 629 | * Remap any pages within the region covered by entryNo, but not including
|
nkeynes@943 | 630 | * entryNo itself. This is used to reestablish pages that were previously
|
nkeynes@943 | 631 | * covered by a multi-hit exception region when one of the pages is removed.
|
nkeynes@943 | 632 | */
|
nkeynes@943 | 633 | static void mmu_utlb_remap_pages( gboolean remap_priv, gboolean remap_user, int entryNo )
|
nkeynes@943 | 634 | {
|
nkeynes@943 | 635 | int mask = mmu_utlb[entryNo].mask;
|
nkeynes@943 | 636 | uint32_t remap_addr = mmu_utlb[entryNo].vpn & mask;
|
nkeynes@943 | 637 | int i;
|
nkeynes@943 | 638 |
|
nkeynes@943 | 639 | for( i=0; i<UTLB_ENTRY_COUNT; i++ ) {
|
nkeynes@943 | 640 | if( i != entryNo && (mmu_utlb[i].vpn & mask) == remap_addr && (mmu_utlb[i].flags & TLB_VALID) ) {
|
nkeynes@943 | 641 | /* Overlapping region */
|
nkeynes@943 | 642 | mem_region_fn_t priv_page = (remap_priv ? &mmu_utlb_pages[i].fn : NULL);
|
nkeynes@943 | 643 | mem_region_fn_t user_page = (remap_priv ? mmu_utlb_pages[i].user_fn : NULL);
|
nkeynes@943 | 644 | uint32_t start_addr;
|
nkeynes@943 | 645 | int npages;
|
nkeynes@943 | 646 |
|
nkeynes@943 | 647 | if( mmu_utlb[i].mask >= mask ) {
|
nkeynes@943 | 648 | /* entry is no larger than the area we're replacing - map completely */
|
nkeynes@943 | 649 | start_addr = mmu_utlb[i].vpn & mmu_utlb[i].mask;
|
nkeynes@943 | 650 | npages = get_tlb_size_pages( mmu_utlb[i].flags );
|
nkeynes@943 | 651 | } else {
|
nkeynes@943 | 652 | /* Otherwise map subset - region covered by removed page */
|
nkeynes@943 | 653 | start_addr = remap_addr;
|
nkeynes@943 | 654 | npages = get_tlb_size_pages( mmu_utlb[entryNo].flags );
|
nkeynes@943 | 655 | }
|
nkeynes@943 | 656 |
|
nkeynes@943 | 657 | if( (mmu_utlb[i].flags & TLB_SHARE) || mmu_utlb[i].asid == mmu_asid ) {
|
nkeynes@943 | 658 | mmu_utlb_map_pages( priv_page, user_page, start_addr, npages );
|
nkeynes@943 | 659 | } else if( IS_SV_ENABLED() ) {
|
nkeynes@943 | 660 | mmu_utlb_map_pages( priv_page, NULL, start_addr, npages );
|
nkeynes@943 | 661 | }
|
nkeynes@943 | 662 |
|
nkeynes@943 | 663 | }
|
nkeynes@943 | 664 | }
|
nkeynes@943 | 665 | }
|
nkeynes@943 | 666 |
|
nkeynes@943 | 667 | /**
|
nkeynes@939 | 668 | * Remove a previous TLB mapping (replacing them with the TLB miss region).
|
nkeynes@939 | 669 | * @return FALSE if any pages were previously mapped to the TLB multihit page,
|
nkeynes@939 | 670 | * otherwise TRUE. In either case, all pages in the region are cleared to TLB miss.
|
nkeynes@939 | 671 | */
|
nkeynes@943 | 672 | static gboolean mmu_utlb_unmap_pages( gboolean unmap_priv, gboolean unmap_user, sh4addr_t start_addr, int npages )
|
nkeynes@939 | 673 | {
|
nkeynes@939 | 674 | mem_region_fn_t *ptr = &sh4_address_space[start_addr >> 12];
|
nkeynes@939 | 675 | mem_region_fn_t *uptr = &sh4_user_address_space[start_addr >> 12];
|
nkeynes@946 | 676 | struct utlb_default_regions *privdefs = &mmu_default_regions[DEFAULT_REGIONS];
|
nkeynes@946 | 677 | struct utlb_default_regions *userdefs = privdefs;
|
nkeynes@946 | 678 |
|
nkeynes@939 | 679 | gboolean unmapping_ok = TRUE;
|
nkeynes@939 | 680 | int i;
|
nkeynes@939 | 681 |
|
nkeynes@939 | 682 | if( (start_addr & 0xFC000000) == 0xE0000000 ) {
|
nkeynes@939 | 683 | /* Storequeue mapping */
|
nkeynes@946 | 684 | privdefs = &mmu_default_regions[DEFAULT_STOREQUEUE_REGIONS];
|
nkeynes@946 | 685 | userdefs = mmu_user_storequeue_regions;
|
nkeynes@939 | 686 | } else if( (start_addr & 0xE0000000) == 0xC0000000 ) {
|
nkeynes@939 | 687 | unmap_user = FALSE;
|
nkeynes@939 | 688 | } else if( start_addr >= 0x80000000 ) {
|
nkeynes@939 | 689 | return TRUE; // No mapping - legal but meaningless
|
nkeynes@939 | 690 | }
|
nkeynes@939 | 691 |
|
nkeynes@939 | 692 | if( npages == 0 ) { // 1K page
|
nkeynes@939 | 693 | assert( IS_1K_PAGE_ENTRY( *ptr ) );
|
nkeynes@939 | 694 | struct utlb_1k_entry *ent = (struct utlb_1k_entry *)*ptr;
|
nkeynes@939 | 695 | int i, idx = (start_addr >> 10) & 0x03, mergeable=1;
|
nkeynes@946 | 696 | if( ent->subpages[idx] == privdefs->tlb_multihit ) {
|
nkeynes@939 | 697 | unmapping_ok = FALSE;
|
nkeynes@939 | 698 | }
|
nkeynes@943 | 699 | if( unmap_priv )
|
nkeynes@946 | 700 | ent->subpages[idx] = privdefs->tlb_miss;
|
nkeynes@943 | 701 | if( unmap_user )
|
nkeynes@946 | 702 | ent->user_subpages[idx] = userdefs->tlb_miss;
|
nkeynes@939 | 703 |
|
nkeynes@939 | 704 | /* If all 4 subpages have the same content, merge them together and
|
nkeynes@939 | 705 | * release the 1K entry
|
nkeynes@939 | 706 | */
|
nkeynes@939 | 707 | mem_region_fn_t priv_page = ent->subpages[0];
|
nkeynes@939 | 708 | mem_region_fn_t user_page = ent->user_subpages[0];
|
nkeynes@939 | 709 | for( i=1; i<4; i++ ) {
|
nkeynes@939 | 710 | if( priv_page != ent->subpages[i] || user_page != ent->user_subpages[i] ) {
|
nkeynes@939 | 711 | mergeable = 0;
|
nkeynes@939 | 712 | break;
|
nkeynes@939 | 713 | }
|
nkeynes@939 | 714 | }
|
nkeynes@939 | 715 | if( mergeable ) {
|
nkeynes@939 | 716 | mmu_utlb_1k_free(ent);
|
nkeynes@939 | 717 | *ptr = priv_page;
|
nkeynes@939 | 718 | *uptr = user_page;
|
nkeynes@939 | 719 | }
|
nkeynes@939 | 720 | } else {
|
nkeynes@943 | 721 | if( unmap_priv ) {
|
nkeynes@946 | 722 | /* Privileged (un)mapping */
|
nkeynes@939 | 723 | for( i=0; i<npages; i++ ) {
|
nkeynes@946 | 724 | if( *ptr == privdefs->tlb_multihit ) {
|
nkeynes@939 | 725 | unmapping_ok = FALSE;
|
nkeynes@939 | 726 | }
|
nkeynes@946 | 727 | *ptr++ = privdefs->tlb_miss;
|
nkeynes@946 | 728 | }
|
nkeynes@946 | 729 | }
|
nkeynes@946 | 730 | if( unmap_user ) {
|
nkeynes@946 | 731 | /* User (un)mapping */
|
nkeynes@946 | 732 | for( i=0; i<npages; i++ ) {
|
nkeynes@946 | 733 | if( *uptr == userdefs->tlb_multihit ) {
|
nkeynes@946 | 734 | unmapping_ok = FALSE;
|
nkeynes@946 | 735 | }
|
nkeynes@946 | 736 | *uptr++ = userdefs->tlb_miss;
|
nkeynes@943 | 737 | }
|
nkeynes@939 | 738 | }
|
nkeynes@939 | 739 | }
|
nkeynes@943 | 740 |
|
nkeynes@939 | 741 | return unmapping_ok;
|
nkeynes@939 | 742 | }
|
nkeynes@939 | 743 |
|
nkeynes@939 | 744 | static void mmu_utlb_insert_entry( int entry )
|
nkeynes@939 | 745 | {
|
nkeynes@939 | 746 | struct utlb_entry *ent = &mmu_utlb[entry];
|
nkeynes@939 | 747 | mem_region_fn_t page = &mmu_utlb_pages[entry].fn;
|
nkeynes@939 | 748 | mem_region_fn_t upage;
|
nkeynes@939 | 749 | sh4addr_t start_addr = ent->vpn & ent->mask;
|
nkeynes@939 | 750 | int npages = get_tlb_size_pages(ent->flags);
|
nkeynes@939 | 751 |
|
nkeynes@946 | 752 | if( (start_addr & 0xFC000000) == 0xE0000000 ) {
|
nkeynes@946 | 753 | /* Store queue mappings are a bit different - normal access is fixed to
|
nkeynes@946 | 754 | * the store queue register block, and we only map prefetches through
|
nkeynes@946 | 755 | * the TLB
|
nkeynes@946 | 756 | */
|
nkeynes@946 | 757 | mmu_utlb_init_storequeue_vtable( ent, &mmu_utlb_pages[entry] );
|
nkeynes@946 | 758 |
|
nkeynes@946 | 759 | if( (ent->flags & TLB_USERMODE) == 0 ) {
|
nkeynes@946 | 760 | upage = mmu_user_storequeue_regions->tlb_prot;
|
nkeynes@946 | 761 | } else if( IS_STOREQUEUE_PROTECTED() ) {
|
nkeynes@946 | 762 | upage = &p4_region_storequeue_sqmd;
|
nkeynes@946 | 763 | } else {
|
nkeynes@946 | 764 | upage = page;
|
nkeynes@946 | 765 | }
|
nkeynes@946 | 766 |
|
nkeynes@946 | 767 | } else {
|
nkeynes@946 | 768 |
|
nkeynes@946 | 769 | if( (ent->flags & TLB_USERMODE) == 0 ) {
|
nkeynes@946 | 770 | upage = &mem_region_tlb_protected;
|
nkeynes@946 | 771 | } else {
|
nkeynes@946 | 772 | upage = page;
|
nkeynes@946 | 773 | }
|
nkeynes@946 | 774 |
|
nkeynes@946 | 775 | if( (ent->flags & TLB_WRITABLE) == 0 ) {
|
nkeynes@946 | 776 | page->write_long = (mem_write_fn_t)tlb_protected_write;
|
nkeynes@946 | 777 | page->write_word = (mem_write_fn_t)tlb_protected_write;
|
nkeynes@946 | 778 | page->write_byte = (mem_write_fn_t)tlb_protected_write;
|
nkeynes@946 | 779 | page->write_burst = (mem_write_burst_fn_t)tlb_protected_write;
|
nkeynes@975 | 780 | page->read_byte_for_write = (mem_read_fn_t)tlb_protected_read_for_write;
|
nkeynes@946 | 781 | mmu_utlb_init_vtable( ent, &mmu_utlb_pages[entry], FALSE );
|
nkeynes@946 | 782 | } else if( (ent->flags & TLB_DIRTY) == 0 ) {
|
nkeynes@946 | 783 | page->write_long = (mem_write_fn_t)tlb_initial_write;
|
nkeynes@946 | 784 | page->write_word = (mem_write_fn_t)tlb_initial_write;
|
nkeynes@946 | 785 | page->write_byte = (mem_write_fn_t)tlb_initial_write;
|
nkeynes@946 | 786 | page->write_burst = (mem_write_burst_fn_t)tlb_initial_write;
|
nkeynes@975 | 787 | page->read_byte_for_write = (mem_read_fn_t)tlb_initial_read_for_write;
|
nkeynes@946 | 788 | mmu_utlb_init_vtable( ent, &mmu_utlb_pages[entry], FALSE );
|
nkeynes@946 | 789 | } else {
|
nkeynes@946 | 790 | mmu_utlb_init_vtable( ent, &mmu_utlb_pages[entry], TRUE );
|
nkeynes@946 | 791 | }
|
nkeynes@939 | 792 | }
|
nkeynes@946 | 793 |
|
nkeynes@939 | 794 | mmu_utlb_pages[entry].user_fn = upage;
|
nkeynes@939 | 795 |
|
nkeynes@939 | 796 | /* Is page visible? */
|
nkeynes@939 | 797 | if( (ent->flags & TLB_SHARE) || ent->asid == mmu_asid ) {
|
nkeynes@939 | 798 | mmu_utlb_map_pages( page, upage, start_addr, npages );
|
nkeynes@939 | 799 | } else if( IS_SV_ENABLED() ) {
|
nkeynes@939 | 800 | mmu_utlb_map_pages( page, NULL, start_addr, npages );
|
nkeynes@939 | 801 | }
|
nkeynes@939 | 802 | }
|
nkeynes@939 | 803 |
|
nkeynes@939 | 804 | static void mmu_utlb_remove_entry( int entry )
|
nkeynes@939 | 805 | {
|
nkeynes@939 | 806 | int i, j;
|
nkeynes@939 | 807 | struct utlb_entry *ent = &mmu_utlb[entry];
|
nkeynes@939 | 808 | sh4addr_t start_addr = ent->vpn&ent->mask;
|
nkeynes@939 | 809 | mem_region_fn_t *ptr = &sh4_address_space[start_addr >> 12];
|
nkeynes@939 | 810 | mem_region_fn_t *uptr = &sh4_user_address_space[start_addr >> 12];
|
nkeynes@939 | 811 | gboolean unmap_user;
|
nkeynes@939 | 812 | int npages = get_tlb_size_pages(ent->flags);
|
nkeynes@939 | 813 |
|
nkeynes@939 | 814 | if( (ent->flags & TLB_SHARE) || ent->asid == mmu_asid ) {
|
nkeynes@939 | 815 | unmap_user = TRUE;
|
nkeynes@939 | 816 | } else if( IS_SV_ENABLED() ) {
|
nkeynes@939 | 817 | unmap_user = FALSE;
|
nkeynes@939 | 818 | } else {
|
nkeynes@939 | 819 | return; // Not mapped
|
nkeynes@939 | 820 | }
|
nkeynes@939 | 821 |
|
nkeynes@943 | 822 | gboolean clean_unmap = mmu_utlb_unmap_pages( TRUE, unmap_user, start_addr, npages );
|
nkeynes@939 | 823 |
|
nkeynes@939 | 824 | if( !clean_unmap ) {
|
nkeynes@943 | 825 | mmu_utlb_remap_pages( TRUE, unmap_user, entry );
|
nkeynes@939 | 826 | }
|
nkeynes@939 | 827 | }
|
nkeynes@939 | 828 |
|
nkeynes@939 | 829 | static void mmu_utlb_register_all()
|
nkeynes@939 | 830 | {
|
nkeynes@939 | 831 | int i;
|
nkeynes@939 | 832 | for( i=0; i<UTLB_ENTRY_COUNT; i++ ) {
|
nkeynes@939 | 833 | if( mmu_utlb[i].flags & TLB_VALID )
|
nkeynes@939 | 834 | mmu_utlb_insert_entry( i );
|
nkeynes@939 | 835 | }
|
nkeynes@939 | 836 | }
|
nkeynes@939 | 837 |
|
nkeynes@550 | 838 | static void mmu_invalidate_tlb()
|
nkeynes@550 | 839 | {
|
nkeynes@550 | 840 | int i;
|
nkeynes@550 | 841 | for( i=0; i<ITLB_ENTRY_COUNT; i++ ) {
|
nkeynes@736 | 842 | mmu_itlb[i].flags &= (~TLB_VALID);
|
nkeynes@550 | 843 | }
|
nkeynes@939 | 844 | if( IS_TLB_ENABLED() ) {
|
nkeynes@939 | 845 | for( i=0; i<UTLB_ENTRY_COUNT; i++ ) {
|
nkeynes@939 | 846 | if( mmu_utlb[i].flags & TLB_VALID ) {
|
nkeynes@939 | 847 | mmu_utlb_remove_entry( i );
|
nkeynes@939 | 848 | }
|
nkeynes@939 | 849 | }
|
nkeynes@939 | 850 | }
|
nkeynes@550 | 851 | for( i=0; i<UTLB_ENTRY_COUNT; i++ ) {
|
nkeynes@736 | 852 | mmu_utlb[i].flags &= (~TLB_VALID);
|
nkeynes@550 | 853 | }
|
nkeynes@550 | 854 | }
|
nkeynes@550 | 855 |
|
nkeynes@586 | 856 | /******************************************************************************/
|
nkeynes@586 | 857 | /* MMU TLB address translation */
|
nkeynes@586 | 858 | /******************************************************************************/
|
nkeynes@586 | 859 |
|
nkeynes@586 | 860 | /**
|
nkeynes@939 | 861 | * Translate a 32-bit address into a UTLB entry number. Does not check for
|
nkeynes@939 | 862 | * page protection etc.
|
nkeynes@939 | 863 | * @return the entryNo if found, -1 if not found, and -2 for a multi-hit.
|
nkeynes@586 | 864 | */
|
nkeynes@939 | 865 | int mmu_utlb_entry_for_vpn( uint32_t vpn )
|
nkeynes@939 | 866 | {
|
nkeynes@973 | 867 | mmu_urc++;
|
nkeynes@939 | 868 | mem_region_fn_t fn = sh4_address_space[vpn>>12];
|
nkeynes@939 | 869 | if( fn >= &mmu_utlb_pages[0].fn && fn < &mmu_utlb_pages[UTLB_ENTRY_COUNT].fn ) {
|
nkeynes@939 | 870 | return ((struct utlb_page_entry *)fn) - &mmu_utlb_pages[0];
|
nkeynes@973 | 871 | } else if( fn >= &mmu_utlb_1k_pages[0].fn && fn < &mmu_utlb_1k_pages[UTLB_ENTRY_COUNT].fn ) {
|
nkeynes@973 | 872 | struct utlb_1k_entry *ent = (struct utlb_1k_entry *)fn;
|
nkeynes@973 | 873 | fn = ent->subpages[(vpn>>10)&0x03];
|
nkeynes@973 | 874 | if( fn >= &mmu_utlb_pages[0].fn && fn < &mmu_utlb_pages[UTLB_ENTRY_COUNT].fn ) {
|
nkeynes@973 | 875 | return ((struct utlb_page_entry *)fn) - &mmu_utlb_pages[0];
|
nkeynes@973 | 876 | }
|
nkeynes@980 | 877 | }
|
nkeynes@980 | 878 | if( fn == &mem_region_tlb_multihit ) {
|
nkeynes@939 | 879 | return -2;
|
nkeynes@939 | 880 | } else {
|
nkeynes@939 | 881 | return -1;
|
nkeynes@939 | 882 | }
|
nkeynes@939 | 883 | }
|
nkeynes@939 | 884 |
|
nkeynes@586 | 885 |
|
nkeynes@586 | 886 | /**
|
nkeynes@586 | 887 | * Perform the actual utlb lookup w/ asid matching.
|
nkeynes@586 | 888 | * Possible utcomes are:
|
nkeynes@586 | 889 | * 0..63 Single match - good, return entry found
|
nkeynes@586 | 890 | * -1 No match - raise a tlb data miss exception
|
nkeynes@586 | 891 | * -2 Multiple matches - raise a multi-hit exception (reset)
|
nkeynes@586 | 892 | * @param vpn virtual address to resolve
|
nkeynes@586 | 893 | * @return the resultant UTLB entry, or an error.
|
nkeynes@586 | 894 | */
|
nkeynes@586 | 895 | static inline int mmu_utlb_lookup_vpn_asid( uint32_t vpn )
|
nkeynes@586 | 896 | {
|
nkeynes@586 | 897 | int result = -1;
|
nkeynes@586 | 898 | unsigned int i;
|
nkeynes@586 | 899 |
|
nkeynes@586 | 900 | mmu_urc++;
|
nkeynes@586 | 901 | if( mmu_urc == mmu_urb || mmu_urc == 0x40 ) {
|
nkeynes@736 | 902 | mmu_urc = 0;
|
nkeynes@586 | 903 | }
|
nkeynes@586 | 904 |
|
nkeynes@586 | 905 | for( i = 0; i < UTLB_ENTRY_COUNT; i++ ) {
|
nkeynes@736 | 906 | if( (mmu_utlb[i].flags & TLB_VALID) &&
|
nkeynes@826 | 907 | ((mmu_utlb[i].flags & TLB_SHARE) || mmu_asid == mmu_utlb[i].asid) &&
|
nkeynes@736 | 908 | ((mmu_utlb[i].vpn ^ vpn) & mmu_utlb[i].mask) == 0 ) {
|
nkeynes@736 | 909 | if( result != -1 ) {
|
nkeynes@736 | 910 | return -2;
|
nkeynes@736 | 911 | }
|
nkeynes@736 | 912 | result = i;
|
nkeynes@736 | 913 | }
|
nkeynes@586 | 914 | }
|
nkeynes@586 | 915 | return result;
|
nkeynes@586 | 916 | }
|
nkeynes@586 | 917 |
|
nkeynes@586 | 918 | /**
|
nkeynes@586 | 919 | * Perform the actual utlb lookup matching on vpn only
|
nkeynes@586 | 920 | * Possible utcomes are:
|
nkeynes@586 | 921 | * 0..63 Single match - good, return entry found
|
nkeynes@586 | 922 | * -1 No match - raise a tlb data miss exception
|
nkeynes@586 | 923 | * -2 Multiple matches - raise a multi-hit exception (reset)
|
nkeynes@586 | 924 | * @param vpn virtual address to resolve
|
nkeynes@586 | 925 | * @return the resultant UTLB entry, or an error.
|
nkeynes@586 | 926 | */
|
nkeynes@586 | 927 | static inline int mmu_utlb_lookup_vpn( uint32_t vpn )
|
nkeynes@586 | 928 | {
|
nkeynes@586 | 929 | int result = -1;
|
nkeynes@586 | 930 | unsigned int i;
|
nkeynes@586 | 931 |
|
nkeynes@586 | 932 | mmu_urc++;
|
nkeynes@586 | 933 | if( mmu_urc == mmu_urb || mmu_urc == 0x40 ) {
|
nkeynes@736 | 934 | mmu_urc = 0;
|
nkeynes@586 | 935 | }
|
nkeynes@586 | 936 |
|
nkeynes@586 | 937 | for( i = 0; i < UTLB_ENTRY_COUNT; i++ ) {
|
nkeynes@736 | 938 | if( (mmu_utlb[i].flags & TLB_VALID) &&
|
nkeynes@736 | 939 | ((mmu_utlb[i].vpn ^ vpn) & mmu_utlb[i].mask) == 0 ) {
|
nkeynes@736 | 940 | if( result != -1 ) {
|
nkeynes@736 | 941 | return -2;
|
nkeynes@736 | 942 | }
|
nkeynes@736 | 943 | result = i;
|
nkeynes@736 | 944 | }
|
nkeynes@586 | 945 | }
|
nkeynes@586 | 946 |
|
nkeynes@586 | 947 | return result;
|
nkeynes@586 | 948 | }
|
nkeynes@586 | 949 |
|
nkeynes@586 | 950 | /**
|
nkeynes@586 | 951 | * Update the ITLB by replacing the LRU entry with the specified UTLB entry.
|
nkeynes@586 | 952 | * @return the number (0-3) of the replaced entry.
|
nkeynes@586 | 953 | */
|
nkeynes@586 | 954 | static int inline mmu_itlb_update_from_utlb( int entryNo )
|
nkeynes@586 | 955 | {
|
nkeynes@586 | 956 | int replace;
|
nkeynes@586 | 957 | /* Determine entry to replace based on lrui */
|
nkeynes@586 | 958 | if( (mmu_lrui & 0x38) == 0x38 ) {
|
nkeynes@736 | 959 | replace = 0;
|
nkeynes@736 | 960 | mmu_lrui = mmu_lrui & 0x07;
|
nkeynes@586 | 961 | } else if( (mmu_lrui & 0x26) == 0x06 ) {
|
nkeynes@736 | 962 | replace = 1;
|
nkeynes@736 | 963 | mmu_lrui = (mmu_lrui & 0x19) | 0x20;
|
nkeynes@586 | 964 | } else if( (mmu_lrui & 0x15) == 0x01 ) {
|
nkeynes@736 | 965 | replace = 2;
|
nkeynes@736 | 966 | mmu_lrui = (mmu_lrui & 0x3E) | 0x14;
|
nkeynes@586 | 967 | } else { // Note - gets invalid entries too
|
nkeynes@736 | 968 | replace = 3;
|
nkeynes@736 | 969 | mmu_lrui = (mmu_lrui | 0x0B);
|
nkeynes@826 | 970 | }
|
nkeynes@586 | 971 |
|
nkeynes@586 | 972 | mmu_itlb[replace].vpn = mmu_utlb[entryNo].vpn;
|
nkeynes@586 | 973 | mmu_itlb[replace].mask = mmu_utlb[entryNo].mask;
|
nkeynes@586 | 974 | mmu_itlb[replace].ppn = mmu_utlb[entryNo].ppn;
|
nkeynes@586 | 975 | mmu_itlb[replace].asid = mmu_utlb[entryNo].asid;
|
nkeynes@586 | 976 | mmu_itlb[replace].flags = mmu_utlb[entryNo].flags & 0x01DA;
|
nkeynes@586 | 977 | return replace;
|
nkeynes@586 | 978 | }
|
nkeynes@586 | 979 |
|
nkeynes@586 | 980 | /**
|
nkeynes@586 | 981 | * Perform the actual itlb lookup w/ asid protection
|
nkeynes@586 | 982 | * Possible utcomes are:
|
nkeynes@586 | 983 | * 0..63 Single match - good, return entry found
|
nkeynes@586 | 984 | * -1 No match - raise a tlb data miss exception
|
nkeynes@586 | 985 | * -2 Multiple matches - raise a multi-hit exception (reset)
|
nkeynes@586 | 986 | * @param vpn virtual address to resolve
|
nkeynes@586 | 987 | * @return the resultant ITLB entry, or an error.
|
nkeynes@586 | 988 | */
|
nkeynes@586 | 989 | static inline int mmu_itlb_lookup_vpn_asid( uint32_t vpn )
|
nkeynes@586 | 990 | {
|
nkeynes@586 | 991 | int result = -1;
|
nkeynes@586 | 992 | unsigned int i;
|
nkeynes@586 | 993 |
|
nkeynes@586 | 994 | for( i = 0; i < ITLB_ENTRY_COUNT; i++ ) {
|
nkeynes@736 | 995 | if( (mmu_itlb[i].flags & TLB_VALID) &&
|
nkeynes@826 | 996 | ((mmu_itlb[i].flags & TLB_SHARE) || mmu_asid == mmu_itlb[i].asid) &&
|
nkeynes@736 | 997 | ((mmu_itlb[i].vpn ^ vpn) & mmu_itlb[i].mask) == 0 ) {
|
nkeynes@736 | 998 | if( result != -1 ) {
|
nkeynes@736 | 999 | return -2;
|
nkeynes@736 | 1000 | }
|
nkeynes@736 | 1001 | result = i;
|
nkeynes@736 | 1002 | }
|
nkeynes@586 | 1003 | }
|
nkeynes@586 | 1004 |
|
nkeynes@586 | 1005 | if( result == -1 ) {
|
nkeynes@939 | 1006 | int utlbEntry = mmu_utlb_entry_for_vpn( vpn );
|
nkeynes@736 | 1007 | if( utlbEntry < 0 ) {
|
nkeynes@736 | 1008 | return utlbEntry;
|
nkeynes@736 | 1009 | } else {
|
nkeynes@736 | 1010 | return mmu_itlb_update_from_utlb( utlbEntry );
|
nkeynes@736 | 1011 | }
|
nkeynes@586 | 1012 | }
|
nkeynes@586 | 1013 |
|
nkeynes@586 | 1014 | switch( result ) {
|
nkeynes@586 | 1015 | case 0: mmu_lrui = (mmu_lrui & 0x07); break;
|
nkeynes@586 | 1016 | case 1: mmu_lrui = (mmu_lrui & 0x19) | 0x20; break;
|
nkeynes@586 | 1017 | case 2: mmu_lrui = (mmu_lrui & 0x3E) | 0x14; break;
|
nkeynes@586 | 1018 | case 3: mmu_lrui = (mmu_lrui | 0x0B); break;
|
nkeynes@586 | 1019 | }
|
nkeynes@736 | 1020 |
|
nkeynes@586 | 1021 | return result;
|
nkeynes@586 | 1022 | }
|
nkeynes@586 | 1023 |
|
nkeynes@586 | 1024 | /**
|
nkeynes@586 | 1025 | * Perform the actual itlb lookup on vpn only
|
nkeynes@586 | 1026 | * Possible utcomes are:
|
nkeynes@586 | 1027 | * 0..63 Single match - good, return entry found
|
nkeynes@586 | 1028 | * -1 No match - raise a tlb data miss exception
|
nkeynes@586 | 1029 | * -2 Multiple matches - raise a multi-hit exception (reset)
|
nkeynes@586 | 1030 | * @param vpn virtual address to resolve
|
nkeynes@586 | 1031 | * @return the resultant ITLB entry, or an error.
|
nkeynes@586 | 1032 | */
|
nkeynes@586 | 1033 | static inline int mmu_itlb_lookup_vpn( uint32_t vpn )
|
nkeynes@586 | 1034 | {
|
nkeynes@586 | 1035 | int result = -1;
|
nkeynes@586 | 1036 | unsigned int i;
|
nkeynes@586 | 1037 |
|
nkeynes@586 | 1038 | for( i = 0; i < ITLB_ENTRY_COUNT; i++ ) {
|
nkeynes@736 | 1039 | if( (mmu_itlb[i].flags & TLB_VALID) &&
|
nkeynes@736 | 1040 | ((mmu_itlb[i].vpn ^ vpn) & mmu_itlb[i].mask) == 0 ) {
|
nkeynes@736 | 1041 | if( result != -1 ) {
|
nkeynes@736 | 1042 | return -2;
|
nkeynes@736 | 1043 | }
|
nkeynes@736 | 1044 | result = i;
|
nkeynes@736 | 1045 | }
|
nkeynes@586 | 1046 | }
|
nkeynes@586 | 1047 |
|
nkeynes@586 | 1048 | if( result == -1 ) {
|
nkeynes@736 | 1049 | int utlbEntry = mmu_utlb_lookup_vpn( vpn );
|
nkeynes@736 | 1050 | if( utlbEntry < 0 ) {
|
nkeynes@736 | 1051 | return utlbEntry;
|
nkeynes@736 | 1052 | } else {
|
nkeynes@736 | 1053 | return mmu_itlb_update_from_utlb( utlbEntry );
|
nkeynes@736 | 1054 | }
|
nkeynes@586 | 1055 | }
|
nkeynes@586 | 1056 |
|
nkeynes@586 | 1057 | switch( result ) {
|
nkeynes@586 | 1058 | case 0: mmu_lrui = (mmu_lrui & 0x07); break;
|
nkeynes@586 | 1059 | case 1: mmu_lrui = (mmu_lrui & 0x19) | 0x20; break;
|
nkeynes@586 | 1060 | case 2: mmu_lrui = (mmu_lrui & 0x3E) | 0x14; break;
|
nkeynes@586 | 1061 | case 3: mmu_lrui = (mmu_lrui | 0x0B); break;
|
nkeynes@586 | 1062 | }
|
nkeynes@736 | 1063 |
|
nkeynes@586 | 1064 | return result;
|
nkeynes@586 | 1065 | }
|
nkeynes@927 | 1066 |
|
nkeynes@586 | 1067 | /**
|
nkeynes@586 | 1068 | * Update the icache for an untranslated address
|
nkeynes@586 | 1069 | */
|
nkeynes@905 | 1070 | static inline void mmu_update_icache_phys( sh4addr_t addr )
|
nkeynes@586 | 1071 | {
|
nkeynes@586 | 1072 | if( (addr & 0x1C000000) == 0x0C000000 ) {
|
nkeynes@736 | 1073 | /* Main ram */
|
nkeynes@736 | 1074 | sh4_icache.page_vma = addr & 0xFF000000;
|
nkeynes@736 | 1075 | sh4_icache.page_ppa = 0x0C000000;
|
nkeynes@736 | 1076 | sh4_icache.mask = 0xFF000000;
|
nkeynes@934 | 1077 | sh4_icache.page = dc_main_ram;
|
nkeynes@586 | 1078 | } else if( (addr & 0x1FE00000) == 0 ) {
|
nkeynes@736 | 1079 | /* BIOS ROM */
|
nkeynes@736 | 1080 | sh4_icache.page_vma = addr & 0xFFE00000;
|
nkeynes@736 | 1081 | sh4_icache.page_ppa = 0;
|
nkeynes@736 | 1082 | sh4_icache.mask = 0xFFE00000;
|
nkeynes@934 | 1083 | sh4_icache.page = dc_boot_rom;
|
nkeynes@586 | 1084 | } else {
|
nkeynes@736 | 1085 | /* not supported */
|
nkeynes@736 | 1086 | sh4_icache.page_vma = -1;
|
nkeynes@586 | 1087 | }
|
nkeynes@586 | 1088 | }
|
nkeynes@586 | 1089 |
|
nkeynes@586 | 1090 | /**
|
nkeynes@586 | 1091 | * Update the sh4_icache structure to describe the page(s) containing the
|
nkeynes@586 | 1092 | * given vma. If the address does not reference a RAM/ROM region, the icache
|
nkeynes@586 | 1093 | * will be invalidated instead.
|
nkeynes@586 | 1094 | * If AT is on, this method will raise TLB exceptions normally
|
nkeynes@586 | 1095 | * (hence this method should only be used immediately prior to execution of
|
nkeynes@586 | 1096 | * code), and otherwise will set the icache according to the matching TLB entry.
|
nkeynes@586 | 1097 | * If AT is off, this method will set the entire referenced RAM/ROM region in
|
nkeynes@586 | 1098 | * the icache.
|
nkeynes@586 | 1099 | * @return TRUE if the update completed (successfully or otherwise), FALSE
|
nkeynes@586 | 1100 | * if an exception was raised.
|
nkeynes@586 | 1101 | */
|
nkeynes@905 | 1102 | gboolean FASTCALL mmu_update_icache( sh4vma_t addr )
|
nkeynes@586 | 1103 | {
|
nkeynes@586 | 1104 | int entryNo;
|
nkeynes@586 | 1105 | if( IS_SH4_PRIVMODE() ) {
|
nkeynes@736 | 1106 | if( addr & 0x80000000 ) {
|
nkeynes@736 | 1107 | if( addr < 0xC0000000 ) {
|
nkeynes@736 | 1108 | /* P1, P2 and P4 regions are pass-through (no translation) */
|
nkeynes@736 | 1109 | mmu_update_icache_phys(addr);
|
nkeynes@736 | 1110 | return TRUE;
|
nkeynes@736 | 1111 | } else if( addr >= 0xE0000000 && addr < 0xFFFFFF00 ) {
|
nkeynes@939 | 1112 | RAISE_MEM_ERROR(EXC_DATA_ADDR_READ, addr);
|
nkeynes@736 | 1113 | return FALSE;
|
nkeynes@736 | 1114 | }
|
nkeynes@736 | 1115 | }
|
nkeynes@586 | 1116 |
|
nkeynes@736 | 1117 | uint32_t mmucr = MMIO_READ(MMU,MMUCR);
|
nkeynes@736 | 1118 | if( (mmucr & MMUCR_AT) == 0 ) {
|
nkeynes@736 | 1119 | mmu_update_icache_phys(addr);
|
nkeynes@736 | 1120 | return TRUE;
|
nkeynes@736 | 1121 | }
|
nkeynes@736 | 1122 |
|
nkeynes@826 | 1123 | if( (mmucr & MMUCR_SV) == 0 )
|
nkeynes@807 | 1124 | entryNo = mmu_itlb_lookup_vpn_asid( addr );
|
nkeynes@807 | 1125 | else
|
nkeynes@807 | 1126 | entryNo = mmu_itlb_lookup_vpn( addr );
|
nkeynes@586 | 1127 | } else {
|
nkeynes@736 | 1128 | if( addr & 0x80000000 ) {
|
nkeynes@939 | 1129 | RAISE_MEM_ERROR(EXC_DATA_ADDR_READ, addr);
|
nkeynes@736 | 1130 | return FALSE;
|
nkeynes@736 | 1131 | }
|
nkeynes@586 | 1132 |
|
nkeynes@736 | 1133 | uint32_t mmucr = MMIO_READ(MMU,MMUCR);
|
nkeynes@736 | 1134 | if( (mmucr & MMUCR_AT) == 0 ) {
|
nkeynes@736 | 1135 | mmu_update_icache_phys(addr);
|
nkeynes@736 | 1136 | return TRUE;
|
nkeynes@736 | 1137 | }
|
nkeynes@736 | 1138 |
|
nkeynes@807 | 1139 | entryNo = mmu_itlb_lookup_vpn_asid( addr );
|
nkeynes@807 | 1140 |
|
nkeynes@736 | 1141 | if( entryNo != -1 && (mmu_itlb[entryNo].flags & TLB_USERMODE) == 0 ) {
|
nkeynes@939 | 1142 | RAISE_MEM_ERROR(EXC_TLB_PROT_READ, addr);
|
nkeynes@736 | 1143 | return FALSE;
|
nkeynes@736 | 1144 | }
|
nkeynes@586 | 1145 | }
|
nkeynes@586 | 1146 |
|
nkeynes@586 | 1147 | switch(entryNo) {
|
nkeynes@586 | 1148 | case -1:
|
nkeynes@939 | 1149 | RAISE_TLB_ERROR(EXC_TLB_MISS_READ, addr);
|
nkeynes@736 | 1150 | return FALSE;
|
nkeynes@586 | 1151 | case -2:
|
nkeynes@939 | 1152 | RAISE_TLB_MULTIHIT_ERROR(addr);
|
nkeynes@736 | 1153 | return FALSE;
|
nkeynes@586 | 1154 | default:
|
nkeynes@736 | 1155 | sh4_icache.page_ppa = mmu_itlb[entryNo].ppn & mmu_itlb[entryNo].mask;
|
nkeynes@736 | 1156 | sh4_icache.page = mem_get_region( sh4_icache.page_ppa );
|
nkeynes@736 | 1157 | if( sh4_icache.page == NULL ) {
|
nkeynes@736 | 1158 | sh4_icache.page_vma = -1;
|
nkeynes@736 | 1159 | } else {
|
nkeynes@736 | 1160 | sh4_icache.page_vma = mmu_itlb[entryNo].vpn & mmu_itlb[entryNo].mask;
|
nkeynes@736 | 1161 | sh4_icache.mask = mmu_itlb[entryNo].mask;
|
nkeynes@736 | 1162 | }
|
nkeynes@736 | 1163 | return TRUE;
|
nkeynes@586 | 1164 | }
|
nkeynes@586 | 1165 | }
|
nkeynes@586 | 1166 |
|
nkeynes@597 | 1167 | /**
|
nkeynes@826 | 1168 | * Translate address for disassembly purposes (ie performs an instruction
|
nkeynes@597 | 1169 | * lookup) - does not raise exceptions or modify any state, and ignores
|
nkeynes@597 | 1170 | * protection bits. Returns the translated address, or MMU_VMA_ERROR
|
nkeynes@826 | 1171 | * on translation failure.
|
nkeynes@597 | 1172 | */
|
nkeynes@905 | 1173 | sh4addr_t FASTCALL mmu_vma_to_phys_disasm( sh4vma_t vma )
|
nkeynes@597 | 1174 | {
|
nkeynes@597 | 1175 | if( vma & 0x80000000 ) {
|
nkeynes@736 | 1176 | if( vma < 0xC0000000 ) {
|
nkeynes@736 | 1177 | /* P1, P2 and P4 regions are pass-through (no translation) */
|
nkeynes@736 | 1178 | return VMA_TO_EXT_ADDR(vma);
|
nkeynes@736 | 1179 | } else if( vma >= 0xE0000000 && vma < 0xFFFFFF00 ) {
|
nkeynes@736 | 1180 | /* Not translatable */
|
nkeynes@736 | 1181 | return MMU_VMA_ERROR;
|
nkeynes@736 | 1182 | }
|
nkeynes@597 | 1183 | }
|
nkeynes@597 | 1184 |
|
nkeynes@597 | 1185 | uint32_t mmucr = MMIO_READ(MMU,MMUCR);
|
nkeynes@597 | 1186 | if( (mmucr & MMUCR_AT) == 0 ) {
|
nkeynes@736 | 1187 | return VMA_TO_EXT_ADDR(vma);
|
nkeynes@597 | 1188 | }
|
nkeynes@736 | 1189 |
|
nkeynes@597 | 1190 | int entryNo = mmu_itlb_lookup_vpn( vma );
|
nkeynes@597 | 1191 | if( entryNo == -2 ) {
|
nkeynes@736 | 1192 | entryNo = mmu_itlb_lookup_vpn_asid( vma );
|
nkeynes@597 | 1193 | }
|
nkeynes@597 | 1194 | if( entryNo < 0 ) {
|
nkeynes@736 | 1195 | return MMU_VMA_ERROR;
|
nkeynes@597 | 1196 | } else {
|
nkeynes@826 | 1197 | return (mmu_itlb[entryNo].ppn & mmu_itlb[entryNo].mask) |
|
nkeynes@826 | 1198 | (vma & (~mmu_itlb[entryNo].mask));
|
nkeynes@597 | 1199 | }
|
nkeynes@597 | 1200 | }
|
nkeynes@597 | 1201 |
|
nkeynes@939 | 1202 | /********************** TLB Direct-Access Regions ***************************/
|
nkeynes@939 | 1203 | #ifdef HAVE_FRAME_ADDRESS
|
nkeynes@968 | 1204 | #define EXCEPTION_EXIT() do{ *(((void **)__builtin_frame_address(0))+1) = exc; } while(0)
|
nkeynes@939 | 1205 | #else
|
nkeynes@939 | 1206 | #define EXCEPTION_EXIT() sh4_core_exit(CORE_EXIT_EXCEPTION)
|
nkeynes@939 | 1207 | #endif
|
nkeynes@939 | 1208 |
|
nkeynes@939 | 1209 |
|
nkeynes@939 | 1210 | #define ITLB_ENTRY(addr) ((addr>>7)&0x03)
|
nkeynes@939 | 1211 |
|
nkeynes@939 | 1212 | int32_t FASTCALL mmu_itlb_addr_read( sh4addr_t addr )
|
nkeynes@939 | 1213 | {
|
nkeynes@939 | 1214 | struct itlb_entry *ent = &mmu_itlb[ITLB_ENTRY(addr)];
|
nkeynes@939 | 1215 | return ent->vpn | ent->asid | (ent->flags & TLB_VALID);
|
nkeynes@939 | 1216 | }
|
nkeynes@939 | 1217 |
|
nkeynes@939 | 1218 | void FASTCALL mmu_itlb_addr_write( sh4addr_t addr, uint32_t val )
|
nkeynes@939 | 1219 | {
|
nkeynes@939 | 1220 | struct itlb_entry *ent = &mmu_itlb[ITLB_ENTRY(addr)];
|
nkeynes@939 | 1221 | ent->vpn = val & 0xFFFFFC00;
|
nkeynes@939 | 1222 | ent->asid = val & 0x000000FF;
|
nkeynes@939 | 1223 | ent->flags = (ent->flags & ~(TLB_VALID)) | (val&TLB_VALID);
|
nkeynes@939 | 1224 | }
|
nkeynes@939 | 1225 |
|
nkeynes@939 | 1226 | int32_t FASTCALL mmu_itlb_data_read( sh4addr_t addr )
|
nkeynes@939 | 1227 | {
|
nkeynes@939 | 1228 | struct itlb_entry *ent = &mmu_itlb[ITLB_ENTRY(addr)];
|
nkeynes@939 | 1229 | return (ent->ppn & 0x1FFFFC00) | ent->flags;
|
nkeynes@939 | 1230 | }
|
nkeynes@939 | 1231 |
|
nkeynes@939 | 1232 | void FASTCALL mmu_itlb_data_write( sh4addr_t addr, uint32_t val )
|
nkeynes@939 | 1233 | {
|
nkeynes@939 | 1234 | struct itlb_entry *ent = &mmu_itlb[ITLB_ENTRY(addr)];
|
nkeynes@939 | 1235 | ent->ppn = val & 0x1FFFFC00;
|
nkeynes@939 | 1236 | ent->flags = val & 0x00001DA;
|
nkeynes@939 | 1237 | ent->mask = get_tlb_size_mask(val);
|
nkeynes@939 | 1238 | if( ent->ppn >= 0x1C000000 )
|
nkeynes@939 | 1239 | ent->ppn |= 0xE0000000;
|
nkeynes@939 | 1240 | }
|
nkeynes@939 | 1241 |
|
nkeynes@939 | 1242 | #define UTLB_ENTRY(addr) ((addr>>8)&0x3F)
|
nkeynes@939 | 1243 | #define UTLB_ASSOC(addr) (addr&0x80)
|
nkeynes@939 | 1244 | #define UTLB_DATA2(addr) (addr&0x00800000)
|
nkeynes@939 | 1245 |
|
nkeynes@939 | 1246 | int32_t FASTCALL mmu_utlb_addr_read( sh4addr_t addr )
|
nkeynes@939 | 1247 | {
|
nkeynes@939 | 1248 | struct utlb_entry *ent = &mmu_utlb[UTLB_ENTRY(addr)];
|
nkeynes@939 | 1249 | return ent->vpn | ent->asid | (ent->flags & TLB_VALID) |
|
nkeynes@939 | 1250 | ((ent->flags & TLB_DIRTY)<<7);
|
nkeynes@939 | 1251 | }
|
nkeynes@939 | 1252 | int32_t FASTCALL mmu_utlb_data_read( sh4addr_t addr )
|
nkeynes@939 | 1253 | {
|
nkeynes@939 | 1254 | struct utlb_entry *ent = &mmu_utlb[UTLB_ENTRY(addr)];
|
nkeynes@939 | 1255 | if( UTLB_DATA2(addr) ) {
|
nkeynes@939 | 1256 | return ent->pcmcia;
|
nkeynes@939 | 1257 | } else {
|
nkeynes@939 | 1258 | return (ent->ppn&0x1FFFFC00) | ent->flags;
|
nkeynes@939 | 1259 | }
|
nkeynes@939 | 1260 | }
|
nkeynes@939 | 1261 |
|
nkeynes@939 | 1262 | /**
|
nkeynes@939 | 1263 | * Find a UTLB entry for the associative TLB write - same as the normal
|
nkeynes@939 | 1264 | * lookup but ignores the valid bit.
|
nkeynes@939 | 1265 | */
|
nkeynes@939 | 1266 | static inline int mmu_utlb_lookup_assoc( uint32_t vpn, uint32_t asid )
|
nkeynes@939 | 1267 | {
|
nkeynes@939 | 1268 | int result = -1;
|
nkeynes@939 | 1269 | unsigned int i;
|
nkeynes@939 | 1270 | for( i = 0; i < UTLB_ENTRY_COUNT; i++ ) {
|
nkeynes@939 | 1271 | if( (mmu_utlb[i].flags & TLB_VALID) &&
|
nkeynes@939 | 1272 | ((mmu_utlb[i].flags & TLB_SHARE) || asid == mmu_utlb[i].asid) &&
|
nkeynes@939 | 1273 | ((mmu_utlb[i].vpn ^ vpn) & mmu_utlb[i].mask) == 0 ) {
|
nkeynes@939 | 1274 | if( result != -1 ) {
|
nkeynes@939 | 1275 | fprintf( stderr, "TLB Multi hit: %d %d\n", result, i );
|
nkeynes@939 | 1276 | return -2;
|
nkeynes@939 | 1277 | }
|
nkeynes@939 | 1278 | result = i;
|
nkeynes@939 | 1279 | }
|
nkeynes@939 | 1280 | }
|
nkeynes@939 | 1281 | return result;
|
nkeynes@939 | 1282 | }
|
nkeynes@939 | 1283 |
|
nkeynes@939 | 1284 | /**
|
nkeynes@939 | 1285 | * Find a ITLB entry for the associative TLB write - same as the normal
|
nkeynes@939 | 1286 | * lookup but ignores the valid bit.
|
nkeynes@939 | 1287 | */
|
nkeynes@939 | 1288 | static inline int mmu_itlb_lookup_assoc( uint32_t vpn, uint32_t asid )
|
nkeynes@939 | 1289 | {
|
nkeynes@939 | 1290 | int result = -1;
|
nkeynes@939 | 1291 | unsigned int i;
|
nkeynes@939 | 1292 | for( i = 0; i < ITLB_ENTRY_COUNT; i++ ) {
|
nkeynes@939 | 1293 | if( (mmu_itlb[i].flags & TLB_VALID) &&
|
nkeynes@939 | 1294 | ((mmu_itlb[i].flags & TLB_SHARE) || asid == mmu_itlb[i].asid) &&
|
nkeynes@939 | 1295 | ((mmu_itlb[i].vpn ^ vpn) & mmu_itlb[i].mask) == 0 ) {
|
nkeynes@939 | 1296 | if( result != -1 ) {
|
nkeynes@939 | 1297 | return -2;
|
nkeynes@939 | 1298 | }
|
nkeynes@939 | 1299 | result = i;
|
nkeynes@939 | 1300 | }
|
nkeynes@939 | 1301 | }
|
nkeynes@939 | 1302 | return result;
|
nkeynes@939 | 1303 | }
|
nkeynes@939 | 1304 |
|
nkeynes@939 | 1305 | void FASTCALL mmu_utlb_addr_write( sh4addr_t addr, uint32_t val, void *exc )
|
nkeynes@939 | 1306 | {
|
nkeynes@939 | 1307 | if( UTLB_ASSOC(addr) ) {
|
nkeynes@939 | 1308 | int utlb = mmu_utlb_lookup_assoc( val, mmu_asid );
|
nkeynes@939 | 1309 | if( utlb >= 0 ) {
|
nkeynes@939 | 1310 | struct utlb_entry *ent = &mmu_utlb[utlb];
|
nkeynes@939 | 1311 | uint32_t old_flags = ent->flags;
|
nkeynes@939 | 1312 | ent->flags = ent->flags & ~(TLB_DIRTY|TLB_VALID);
|
nkeynes@939 | 1313 | ent->flags |= (val & TLB_VALID);
|
nkeynes@939 | 1314 | ent->flags |= ((val & 0x200)>>7);
|
nkeynes@1090 | 1315 | if( IS_TLB_ENABLED() && ((old_flags^ent->flags) & (TLB_VALID|TLB_DIRTY)) != 0 ) {
|
nkeynes@939 | 1316 | if( old_flags & TLB_VALID )
|
nkeynes@939 | 1317 | mmu_utlb_remove_entry( utlb );
|
nkeynes@939 | 1318 | if( ent->flags & TLB_VALID )
|
nkeynes@939 | 1319 | mmu_utlb_insert_entry( utlb );
|
nkeynes@939 | 1320 | }
|
nkeynes@939 | 1321 | }
|
nkeynes@939 | 1322 |
|
nkeynes@939 | 1323 | int itlb = mmu_itlb_lookup_assoc( val, mmu_asid );
|
nkeynes@939 | 1324 | if( itlb >= 0 ) {
|
nkeynes@939 | 1325 | struct itlb_entry *ent = &mmu_itlb[itlb];
|
nkeynes@939 | 1326 | ent->flags = (ent->flags & (~TLB_VALID)) | (val & TLB_VALID);
|
nkeynes@939 | 1327 | }
|
nkeynes@939 | 1328 |
|
nkeynes@939 | 1329 | if( itlb == -2 || utlb == -2 ) {
|
nkeynes@1090 | 1330 | RAISE_TLB_MULTIHIT_ERROR(addr); /* FIXME: should this only be raised if TLB is enabled? */
|
nkeynes@939 | 1331 | EXCEPTION_EXIT();
|
nkeynes@939 | 1332 | return;
|
nkeynes@939 | 1333 | }
|
nkeynes@939 | 1334 | } else {
|
nkeynes@939 | 1335 | struct utlb_entry *ent = &mmu_utlb[UTLB_ENTRY(addr)];
|
nkeynes@1090 | 1336 | if( IS_TLB_ENABLED() && ent->flags & TLB_VALID )
|
nkeynes@939 | 1337 | mmu_utlb_remove_entry( UTLB_ENTRY(addr) );
|
nkeynes@939 | 1338 | ent->vpn = (val & 0xFFFFFC00);
|
nkeynes@939 | 1339 | ent->asid = (val & 0xFF);
|
nkeynes@939 | 1340 | ent->flags = (ent->flags & ~(TLB_DIRTY|TLB_VALID));
|
nkeynes@939 | 1341 | ent->flags |= (val & TLB_VALID);
|
nkeynes@939 | 1342 | ent->flags |= ((val & 0x200)>>7);
|
nkeynes@1090 | 1343 | if( IS_TLB_ENABLED() && ent->flags & TLB_VALID )
|
nkeynes@939 | 1344 | mmu_utlb_insert_entry( UTLB_ENTRY(addr) );
|
nkeynes@939 | 1345 | }
|
nkeynes@939 | 1346 | }
|
nkeynes@939 | 1347 |
|
nkeynes@939 | 1348 | void FASTCALL mmu_utlb_data_write( sh4addr_t addr, uint32_t val )
|
nkeynes@939 | 1349 | {
|
nkeynes@939 | 1350 | struct utlb_entry *ent = &mmu_utlb[UTLB_ENTRY(addr)];
|
nkeynes@939 | 1351 | if( UTLB_DATA2(addr) ) {
|
nkeynes@939 | 1352 | ent->pcmcia = val & 0x0000000F;
|
nkeynes@939 | 1353 | } else {
|
nkeynes@1090 | 1354 | if( IS_TLB_ENABLED() && ent->flags & TLB_VALID )
|
nkeynes@939 | 1355 | mmu_utlb_remove_entry( UTLB_ENTRY(addr) );
|
nkeynes@939 | 1356 | ent->ppn = (val & 0x1FFFFC00);
|
nkeynes@939 | 1357 | ent->flags = (val & 0x000001FF);
|
nkeynes@939 | 1358 | ent->mask = get_tlb_size_mask(val);
|
nkeynes@1090 | 1359 | if( IS_TLB_ENABLED() && ent->flags & TLB_VALID )
|
nkeynes@939 | 1360 | mmu_utlb_insert_entry( UTLB_ENTRY(addr) );
|
nkeynes@939 | 1361 | }
|
nkeynes@939 | 1362 | }
|
nkeynes@939 | 1363 |
|
nkeynes@939 | 1364 | struct mem_region_fn p4_region_itlb_addr = {
|
nkeynes@939 | 1365 | mmu_itlb_addr_read, mmu_itlb_addr_write,
|
nkeynes@939 | 1366 | mmu_itlb_addr_read, mmu_itlb_addr_write,
|
nkeynes@939 | 1367 | mmu_itlb_addr_read, mmu_itlb_addr_write,
|
nkeynes@946 | 1368 | unmapped_read_burst, unmapped_write_burst,
|
nkeynes@975 | 1369 | unmapped_prefetch, mmu_itlb_addr_read };
|
nkeynes@939 | 1370 | struct mem_region_fn p4_region_itlb_data = {
|
nkeynes@939 | 1371 | mmu_itlb_data_read, mmu_itlb_data_write,
|
nkeynes@939 | 1372 | mmu_itlb_data_read, mmu_itlb_data_write,
|
nkeynes@939 | 1373 | mmu_itlb_data_read, mmu_itlb_data_write,
|
nkeynes@946 | 1374 | unmapped_read_burst, unmapped_write_burst,
|
nkeynes@975 | 1375 | unmapped_prefetch, mmu_itlb_data_read };
|
nkeynes@939 | 1376 | struct mem_region_fn p4_region_utlb_addr = {
|
nkeynes@939 | 1377 | mmu_utlb_addr_read, (mem_write_fn_t)mmu_utlb_addr_write,
|
nkeynes@939 | 1378 | mmu_utlb_addr_read, (mem_write_fn_t)mmu_utlb_addr_write,
|
nkeynes@939 | 1379 | mmu_utlb_addr_read, (mem_write_fn_t)mmu_utlb_addr_write,
|
nkeynes@946 | 1380 | unmapped_read_burst, unmapped_write_burst,
|
nkeynes@975 | 1381 | unmapped_prefetch, mmu_utlb_addr_read };
|
nkeynes@939 | 1382 | struct mem_region_fn p4_region_utlb_data = {
|
nkeynes@939 | 1383 | mmu_utlb_data_read, mmu_utlb_data_write,
|
nkeynes@939 | 1384 | mmu_utlb_data_read, mmu_utlb_data_write,
|
nkeynes@939 | 1385 | mmu_utlb_data_read, mmu_utlb_data_write,
|
nkeynes@946 | 1386 | unmapped_read_burst, unmapped_write_burst,
|
nkeynes@975 | 1387 | unmapped_prefetch, mmu_utlb_data_read };
|
nkeynes@939 | 1388 |
|
nkeynes@939 | 1389 | /********************** Error regions **************************/
|
nkeynes@939 | 1390 |
|
nkeynes@939 | 1391 | static void FASTCALL address_error_read( sh4addr_t addr, void *exc )
|
nkeynes@939 | 1392 | {
|
nkeynes@939 | 1393 | RAISE_MEM_ERROR(EXC_DATA_ADDR_READ, addr);
|
nkeynes@939 | 1394 | EXCEPTION_EXIT();
|
nkeynes@939 | 1395 | }
|
nkeynes@939 | 1396 |
|
nkeynes@975 | 1397 | static void FASTCALL address_error_read_for_write( sh4addr_t addr, void *exc )
|
nkeynes@975 | 1398 | {
|
nkeynes@975 | 1399 | RAISE_MEM_ERROR(EXC_DATA_ADDR_WRITE, addr);
|
nkeynes@975 | 1400 | EXCEPTION_EXIT();
|
nkeynes@975 | 1401 | }
|
nkeynes@975 | 1402 |
|
nkeynes@939 | 1403 | static void FASTCALL address_error_read_burst( unsigned char *dest, sh4addr_t addr, void *exc )
|
nkeynes@939 | 1404 | {
|
nkeynes@939 | 1405 | RAISE_MEM_ERROR(EXC_DATA_ADDR_READ, addr);
|
nkeynes@939 | 1406 | EXCEPTION_EXIT();
|
nkeynes@939 | 1407 | }
|
nkeynes@939 | 1408 |
|
nkeynes@939 | 1409 | static void FASTCALL address_error_write( sh4addr_t addr, uint32_t val, void *exc )
|
nkeynes@939 | 1410 | {
|
nkeynes@939 | 1411 | RAISE_MEM_ERROR(EXC_DATA_ADDR_WRITE, addr);
|
nkeynes@939 | 1412 | EXCEPTION_EXIT();
|
nkeynes@939 | 1413 | }
|
nkeynes@939 | 1414 |
|
nkeynes@939 | 1415 | static void FASTCALL tlb_miss_read( sh4addr_t addr, void *exc )
|
nkeynes@939 | 1416 | {
|
nkeynes@973 | 1417 | mmu_urc++;
|
nkeynes@939 | 1418 | RAISE_TLB_ERROR(EXC_TLB_MISS_READ, addr);
|
nkeynes@939 | 1419 | EXCEPTION_EXIT();
|
nkeynes@939 | 1420 | }
|
nkeynes@939 | 1421 |
|
nkeynes@975 | 1422 | static void FASTCALL tlb_miss_read_for_write( sh4addr_t addr, void *exc )
|
nkeynes@975 | 1423 | {
|
nkeynes@975 | 1424 | mmu_urc++;
|
nkeynes@975 | 1425 | RAISE_TLB_ERROR(EXC_TLB_MISS_WRITE, addr);
|
nkeynes@975 | 1426 | EXCEPTION_EXIT();
|
nkeynes@975 | 1427 | }
|
nkeynes@975 | 1428 |
|
nkeynes@939 | 1429 | static void FASTCALL tlb_miss_read_burst( unsigned char *dest, sh4addr_t addr, void *exc )
|
nkeynes@939 | 1430 | {
|
nkeynes@973 | 1431 | mmu_urc++;
|
nkeynes@939 | 1432 | RAISE_TLB_ERROR(EXC_TLB_MISS_READ, addr);
|
nkeynes@939 | 1433 | EXCEPTION_EXIT();
|
nkeynes@939 | 1434 | }
|
nkeynes@939 | 1435 |
|
nkeynes@939 | 1436 | static void FASTCALL tlb_miss_write( sh4addr_t addr, uint32_t val, void *exc )
|
nkeynes@939 | 1437 | {
|
nkeynes@973 | 1438 | mmu_urc++;
|
nkeynes@939 | 1439 | RAISE_TLB_ERROR(EXC_TLB_MISS_WRITE, addr);
|
nkeynes@939 | 1440 | EXCEPTION_EXIT();
|
nkeynes@975 | 1441 | }
|
nkeynes@939 | 1442 |
|
nkeynes@939 | 1443 | static int32_t FASTCALL tlb_protected_read( sh4addr_t addr, void *exc )
|
nkeynes@939 | 1444 | {
|
nkeynes@973 | 1445 | mmu_urc++;
|
nkeynes@939 | 1446 | RAISE_MEM_ERROR(EXC_TLB_PROT_READ, addr);
|
nkeynes@939 | 1447 | EXCEPTION_EXIT();
|
nkeynes@968 | 1448 | return 0;
|
nkeynes@953 | 1449 | }
|
nkeynes@953 | 1450 |
|
nkeynes@975 | 1451 | static int32_t FASTCALL tlb_protected_read_for_write( sh4addr_t addr, void *exc )
|
nkeynes@975 | 1452 | {
|
nkeynes@975 | 1453 | mmu_urc++;
|
nkeynes@975 | 1454 | RAISE_MEM_ERROR(EXC_TLB_PROT_WRITE, addr);
|
nkeynes@975 | 1455 | EXCEPTION_EXIT();
|
nkeynes@975 | 1456 | return 0;
|
nkeynes@939 | 1457 | }
|
nkeynes@939 | 1458 |
|
nkeynes@939 | 1459 | static int32_t FASTCALL tlb_protected_read_burst( unsigned char *dest, sh4addr_t addr, void *exc )
|
nkeynes@939 | 1460 | {
|
nkeynes@973 | 1461 | mmu_urc++;
|
nkeynes@939 | 1462 | RAISE_MEM_ERROR(EXC_TLB_PROT_READ, addr);
|
nkeynes@939 | 1463 | EXCEPTION_EXIT();
|
nkeynes@968 | 1464 | return 0;
|
nkeynes@939 | 1465 | }
|
nkeynes@939 | 1466 |
|
nkeynes@939 | 1467 | static void FASTCALL tlb_protected_write( sh4addr_t addr, uint32_t val, void *exc )
|
nkeynes@939 | 1468 | {
|
nkeynes@973 | 1469 | mmu_urc++;
|
nkeynes@939 | 1470 | RAISE_MEM_ERROR(EXC_TLB_PROT_WRITE, addr);
|
nkeynes@939 | 1471 | EXCEPTION_EXIT();
|
nkeynes@939 | 1472 | }
|
nkeynes@939 | 1473 |
|
nkeynes@939 | 1474 | static void FASTCALL tlb_initial_write( sh4addr_t addr, uint32_t val, void *exc )
|
nkeynes@939 | 1475 | {
|
nkeynes@973 | 1476 | mmu_urc++;
|
nkeynes@939 | 1477 | RAISE_MEM_ERROR(EXC_INIT_PAGE_WRITE, addr);
|
nkeynes@939 | 1478 | EXCEPTION_EXIT();
|
nkeynes@939 | 1479 | }
|
nkeynes@975 | 1480 |
|
nkeynes@975 | 1481 | static int32_t FASTCALL tlb_initial_read_for_write( sh4addr_t addr, void *exc )
|
nkeynes@975 | 1482 | {
|
nkeynes@975 | 1483 | mmu_urc++;
|
nkeynes@975 | 1484 | RAISE_MEM_ERROR(EXC_INIT_PAGE_WRITE, addr);
|
nkeynes@975 | 1485 | EXCEPTION_EXIT();
|
nkeynes@975 | 1486 | return 0;
|
nkeynes@975 | 1487 | }
|
nkeynes@939 | 1488 |
|
nkeynes@939 | 1489 | static int32_t FASTCALL tlb_multi_hit_read( sh4addr_t addr, void *exc )
|
nkeynes@939 | 1490 | {
|
nkeynes@951 | 1491 | sh4_raise_tlb_multihit(addr);
|
nkeynes@939 | 1492 | EXCEPTION_EXIT();
|
nkeynes@968 | 1493 | return 0;
|
nkeynes@939 | 1494 | }
|
nkeynes@939 | 1495 |
|
nkeynes@939 | 1496 | static int32_t FASTCALL tlb_multi_hit_read_burst( unsigned char *dest, sh4addr_t addr, void *exc )
|
nkeynes@939 | 1497 | {
|
nkeynes@951 | 1498 | sh4_raise_tlb_multihit(addr);
|
nkeynes@939 | 1499 | EXCEPTION_EXIT();
|
nkeynes@968 | 1500 | return 0;
|
nkeynes@939 | 1501 | }
|
nkeynes@939 | 1502 | static void FASTCALL tlb_multi_hit_write( sh4addr_t addr, uint32_t val, void *exc )
|
nkeynes@939 | 1503 | {
|
nkeynes@951 | 1504 | sh4_raise_tlb_multihit(addr);
|
nkeynes@939 | 1505 | EXCEPTION_EXIT();
|
nkeynes@939 | 1506 | }
|
nkeynes@939 | 1507 |
|
nkeynes@939 | 1508 | /**
|
nkeynes@939 | 1509 | * Note: Per sec 4.6.4 of the SH7750 manual, SQ
|
nkeynes@939 | 1510 | */
|
nkeynes@939 | 1511 | struct mem_region_fn mem_region_address_error = {
|
nkeynes@939 | 1512 | (mem_read_fn_t)address_error_read, (mem_write_fn_t)address_error_write,
|
nkeynes@939 | 1513 | (mem_read_fn_t)address_error_read, (mem_write_fn_t)address_error_write,
|
nkeynes@939 | 1514 | (mem_read_fn_t)address_error_read, (mem_write_fn_t)address_error_write,
|
nkeynes@946 | 1515 | (mem_read_burst_fn_t)address_error_read_burst, (mem_write_burst_fn_t)address_error_write,
|
nkeynes@975 | 1516 | unmapped_prefetch, (mem_read_fn_t)address_error_read_for_write };
|
nkeynes@939 | 1517 |
|
nkeynes@939 | 1518 | struct mem_region_fn mem_region_tlb_miss = {
|
nkeynes@939 | 1519 | (mem_read_fn_t)tlb_miss_read, (mem_write_fn_t)tlb_miss_write,
|
nkeynes@939 | 1520 | (mem_read_fn_t)tlb_miss_read, (mem_write_fn_t)tlb_miss_write,
|
nkeynes@939 | 1521 | (mem_read_fn_t)tlb_miss_read, (mem_write_fn_t)tlb_miss_write,
|
nkeynes@946 | 1522 | (mem_read_burst_fn_t)tlb_miss_read_burst, (mem_write_burst_fn_t)tlb_miss_write,
|
nkeynes@975 | 1523 | unmapped_prefetch, (mem_read_fn_t)tlb_miss_read_for_write };
|
nkeynes@939 | 1524 |
|
nkeynes@946 | 1525 | struct mem_region_fn mem_region_tlb_protected = {
|
nkeynes@939 | 1526 | (mem_read_fn_t)tlb_protected_read, (mem_write_fn_t)tlb_protected_write,
|
nkeynes@939 | 1527 | (mem_read_fn_t)tlb_protected_read, (mem_write_fn_t)tlb_protected_write,
|
nkeynes@939 | 1528 | (mem_read_fn_t)tlb_protected_read, (mem_write_fn_t)tlb_protected_write,
|
nkeynes@946 | 1529 | (mem_read_burst_fn_t)tlb_protected_read_burst, (mem_write_burst_fn_t)tlb_protected_write,
|
nkeynes@975 | 1530 | unmapped_prefetch, (mem_read_fn_t)tlb_protected_read_for_write };
|
nkeynes@939 | 1531 |
|
nkeynes@939 | 1532 | struct mem_region_fn mem_region_tlb_multihit = {
|
nkeynes@939 | 1533 | (mem_read_fn_t)tlb_multi_hit_read, (mem_write_fn_t)tlb_multi_hit_write,
|
nkeynes@939 | 1534 | (mem_read_fn_t)tlb_multi_hit_read, (mem_write_fn_t)tlb_multi_hit_write,
|
nkeynes@939 | 1535 | (mem_read_fn_t)tlb_multi_hit_read, (mem_write_fn_t)tlb_multi_hit_write,
|
nkeynes@946 | 1536 | (mem_read_burst_fn_t)tlb_multi_hit_read_burst, (mem_write_burst_fn_t)tlb_multi_hit_write,
|
nkeynes@975 | 1537 | (mem_prefetch_fn_t)tlb_multi_hit_read, (mem_read_fn_t)tlb_multi_hit_read };
|
nkeynes@939 | 1538 |
|
nkeynes@946 | 1539 |
|
nkeynes@946 | 1540 | /* Store-queue regions */
|
nkeynes@946 | 1541 | /* These are a bit of a pain - the first 8 fields are controlled by SQMD, while
|
nkeynes@946 | 1542 | * the final (prefetch) is controlled by the actual TLB settings (plus SQMD in
|
nkeynes@946 | 1543 | * some cases), in contrast to the ordinary fields above.
|
nkeynes@946 | 1544 | *
|
nkeynes@946 | 1545 | * There is probably a simpler way to do this.
|
nkeynes@946 | 1546 | */
|
nkeynes@946 | 1547 |
|
nkeynes@946 | 1548 | struct mem_region_fn p4_region_storequeue = {
|
nkeynes@946 | 1549 | ccn_storequeue_read_long, ccn_storequeue_write_long,
|
nkeynes@946 | 1550 | unmapped_read_long, unmapped_write_long, /* TESTME: Officially only long access is supported */
|
nkeynes@946 | 1551 | unmapped_read_long, unmapped_write_long,
|
nkeynes@946 | 1552 | unmapped_read_burst, unmapped_write_burst,
|
nkeynes@975 | 1553 | ccn_storequeue_prefetch, unmapped_read_long };
|
nkeynes@946 | 1554 |
|
nkeynes@946 | 1555 | struct mem_region_fn p4_region_storequeue_miss = {
|
nkeynes@946 | 1556 | ccn_storequeue_read_long, ccn_storequeue_write_long,
|
nkeynes@946 | 1557 | unmapped_read_long, unmapped_write_long, /* TESTME: Officially only long access is supported */
|
nkeynes@946 | 1558 | unmapped_read_long, unmapped_write_long,
|
nkeynes@946 | 1559 | unmapped_read_burst, unmapped_write_burst,
|
nkeynes@975 | 1560 | (mem_prefetch_fn_t)tlb_miss_read, unmapped_read_long };
|
nkeynes@946 | 1561 |
|
nkeynes@946 | 1562 | struct mem_region_fn p4_region_storequeue_multihit = {
|
nkeynes@946 | 1563 | ccn_storequeue_read_long, ccn_storequeue_write_long,
|
nkeynes@946 | 1564 | unmapped_read_long, unmapped_write_long, /* TESTME: Officially only long access is supported */
|
nkeynes@946 | 1565 | unmapped_read_long, unmapped_write_long,
|
nkeynes@946 | 1566 | unmapped_read_burst, unmapped_write_burst,
|
nkeynes@975 | 1567 | (mem_prefetch_fn_t)tlb_multi_hit_read, unmapped_read_long };
|
nkeynes@946 | 1568 |
|
nkeynes@946 | 1569 | struct mem_region_fn p4_region_storequeue_protected = {
|
nkeynes@946 | 1570 | ccn_storequeue_read_long, ccn_storequeue_write_long,
|
nkeynes@946 | 1571 | unmapped_read_long, unmapped_write_long,
|
nkeynes@946 | 1572 | unmapped_read_long, unmapped_write_long,
|
nkeynes@946 | 1573 | unmapped_read_burst, unmapped_write_burst,
|
nkeynes@975 | 1574 | (mem_prefetch_fn_t)tlb_protected_read, unmapped_read_long };
|
nkeynes@946 | 1575 |
|
nkeynes@946 | 1576 | struct mem_region_fn p4_region_storequeue_sqmd = {
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nkeynes@946 | 1577 | (mem_read_fn_t)address_error_read, (mem_write_fn_t)address_error_write,
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nkeynes@946 | 1578 | (mem_read_fn_t)address_error_read, (mem_write_fn_t)address_error_write,
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nkeynes@946 | 1579 | (mem_read_fn_t)address_error_read, (mem_write_fn_t)address_error_write,
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nkeynes@946 | 1580 | (mem_read_burst_fn_t)address_error_read_burst, (mem_write_burst_fn_t)address_error_write,
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nkeynes@975 | 1581 | (mem_prefetch_fn_t)address_error_read, (mem_read_fn_t)address_error_read_for_write };
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nkeynes@939 | 1582 |
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nkeynes@946 | 1583 | struct mem_region_fn p4_region_storequeue_sqmd_miss = {
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nkeynes@946 | 1584 | (mem_read_fn_t)address_error_read, (mem_write_fn_t)address_error_write,
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nkeynes@946 | 1585 | (mem_read_fn_t)address_error_read, (mem_write_fn_t)address_error_write,
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nkeynes@946 | 1586 | (mem_read_fn_t)address_error_read, (mem_write_fn_t)address_error_write,
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nkeynes@946 | 1587 | (mem_read_burst_fn_t)address_error_read_burst, (mem_write_burst_fn_t)address_error_write,
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nkeynes@975 | 1588 | (mem_prefetch_fn_t)tlb_miss_read, (mem_read_fn_t)address_error_read_for_write };
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nkeynes@946 | 1589 |
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nkeynes@946 | 1590 | struct mem_region_fn p4_region_storequeue_sqmd_multihit = {
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nkeynes@946 | 1591 | (mem_read_fn_t)address_error_read, (mem_write_fn_t)address_error_write,
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nkeynes@946 | 1592 | (mem_read_fn_t)address_error_read, (mem_write_fn_t)address_error_write,
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nkeynes@946 | 1593 | (mem_read_fn_t)address_error_read, (mem_write_fn_t)address_error_write,
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nkeynes@946 | 1594 | (mem_read_burst_fn_t)address_error_read_burst, (mem_write_burst_fn_t)address_error_write,
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nkeynes@975 | 1595 | (mem_prefetch_fn_t)tlb_multi_hit_read, (mem_read_fn_t)address_error_read_for_write };
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nkeynes@946 | 1596 |
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nkeynes@946 | 1597 | struct mem_region_fn p4_region_storequeue_sqmd_protected = {
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nkeynes@946 | 1598 | (mem_read_fn_t)address_error_read, (mem_write_fn_t)address_error_write,
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nkeynes@946 | 1599 | (mem_read_fn_t)address_error_read, (mem_write_fn_t)address_error_write,
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nkeynes@946 | 1600 | (mem_read_fn_t)address_error_read, (mem_write_fn_t)address_error_write,
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nkeynes@946 | 1601 | (mem_read_burst_fn_t)address_error_read_burst, (mem_write_burst_fn_t)address_error_write,
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nkeynes@975 | 1602 | (mem_prefetch_fn_t)tlb_protected_read, (mem_read_fn_t)address_error_read_for_write };
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nkeynes@946 | 1603 |
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