arm32_tlb.c revision 1.2.8.2
1 1.2.8.2 tls /*- 2 1.2.8.2 tls * Copyright (c) 2013 The NetBSD Foundation, Inc. 3 1.2.8.2 tls * All rights reserved. 4 1.2.8.2 tls * 5 1.2.8.2 tls * This code is derived from software contributed to The NetBSD Foundation 6 1.2.8.2 tls * by Matt Thomas of 3am Software Foundry. 7 1.2.8.2 tls * 8 1.2.8.2 tls * Redistribution and use in source and binary forms, with or without 9 1.2.8.2 tls * modification, are permitted provided that the following conditions 10 1.2.8.2 tls * are met: 11 1.2.8.2 tls * 1. Redistributions of source code must retain the above copyright 12 1.2.8.2 tls * notice, this list of conditions and the following disclaimer. 13 1.2.8.2 tls * 2. Redistributions in binary form must reproduce the above copyright 14 1.2.8.2 tls * notice, this list of conditions and the following disclaimer in the 15 1.2.8.2 tls * documentation and/or other materials provided with the distribution. 16 1.2.8.2 tls * 17 1.2.8.2 tls * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS 18 1.2.8.2 tls * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 19 1.2.8.2 tls * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 20 1.2.8.2 tls * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS 21 1.2.8.2 tls * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 22 1.2.8.2 tls * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 23 1.2.8.2 tls * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 24 1.2.8.2 tls * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 25 1.2.8.2 tls * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 26 1.2.8.2 tls * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 27 1.2.8.2 tls * POSSIBILITY OF SUCH DAMAGE. 28 1.2.8.2 tls */ 29 1.2.8.2 tls #include <sys/cdefs.h> 30 1.2.8.2 tls __KERNEL_RCSID(1, "$NetBSD: arm32_tlb.c,v 1.2.8.2 2014/08/20 00:02:45 tls Exp $"); 31 1.2.8.2 tls 32 1.2.8.2 tls #include <sys/param.h> 33 1.2.8.2 tls #include <sys/types.h> 34 1.2.8.2 tls 35 1.2.8.2 tls #include <uvm/uvm.h> 36 1.2.8.2 tls 37 1.2.8.2 tls #include <arm/locore.h> 38 1.2.8.2 tls 39 1.2.8.2 tls bool arm_has_tlbiasid_p; // CPU supports TLBIASID system coprocessor op 40 1.2.8.2 tls 41 1.2.8.2 tls tlb_asid_t 42 1.2.8.2 tls tlb_get_asid(void) 43 1.2.8.2 tls { 44 1.2.8.2 tls return armreg_contextidr_read() & 0xff; 45 1.2.8.2 tls } 46 1.2.8.2 tls 47 1.2.8.2 tls void 48 1.2.8.2 tls tlb_set_asid(tlb_asid_t asid) 49 1.2.8.2 tls { 50 1.2.8.2 tls arm_dsb(); 51 1.2.8.2 tls if (asid == 0) { 52 1.2.8.2 tls armreg_ttbcr_write(armreg_ttbcr_read() | TTBCR_S_PD0); 53 1.2.8.2 tls } 54 1.2.8.2 tls armreg_contextidr_write(asid); 55 1.2.8.2 tls arm_isb(); 56 1.2.8.2 tls } 57 1.2.8.2 tls 58 1.2.8.2 tls void 59 1.2.8.2 tls tlb_invalidate_all(void) 60 1.2.8.2 tls { 61 1.2.8.2 tls const bool vivt_icache_p = arm_pcache.icache_type == CACHE_TYPE_VIVT; 62 1.2.8.2 tls arm_dsb(); 63 1.2.8.2 tls armreg_tlbiall_write(0); 64 1.2.8.2 tls arm_isb(); 65 1.2.8.2 tls if (__predict_false(vivt_icache_p)) { 66 1.2.8.2 tls if (arm_has_tlbiasid_p) { 67 1.2.8.2 tls armreg_icialluis_write(0); 68 1.2.8.2 tls } else { 69 1.2.8.2 tls armreg_iciallu_write(0); 70 1.2.8.2 tls } 71 1.2.8.2 tls } 72 1.2.8.2 tls arm_isb(); 73 1.2.8.2 tls } 74 1.2.8.2 tls 75 1.2.8.2 tls void 76 1.2.8.2 tls tlb_invalidate_globals(void) 77 1.2.8.2 tls { 78 1.2.8.2 tls tlb_invalidate_all(); 79 1.2.8.2 tls } 80 1.2.8.2 tls 81 1.2.8.2 tls void 82 1.2.8.2 tls tlb_invalidate_asids(tlb_asid_t lo, tlb_asid_t hi) 83 1.2.8.2 tls { 84 1.2.8.2 tls const bool vivt_icache_p = arm_pcache.icache_type == CACHE_TYPE_VIVT; 85 1.2.8.2 tls arm_dsb(); 86 1.2.8.2 tls if (arm_has_tlbiasid_p) { 87 1.2.8.2 tls for (; lo <= hi; lo++) { 88 1.2.8.2 tls armreg_tlbiasid_write(lo); 89 1.2.8.2 tls } 90 1.2.8.2 tls arm_isb(); 91 1.2.8.2 tls if (__predict_false(vivt_icache_p)) { 92 1.2.8.2 tls armreg_icialluis_write(0); 93 1.2.8.2 tls } 94 1.2.8.2 tls } else { 95 1.2.8.2 tls armreg_tlbiall_write(0); 96 1.2.8.2 tls arm_isb(); 97 1.2.8.2 tls if (__predict_false(vivt_icache_p)) { 98 1.2.8.2 tls armreg_iciallu_write(0); 99 1.2.8.2 tls } 100 1.2.8.2 tls } 101 1.2.8.2 tls arm_isb(); 102 1.2.8.2 tls } 103 1.2.8.2 tls 104 1.2.8.2 tls void 105 1.2.8.2 tls tlb_invalidate_addr(vaddr_t va, tlb_asid_t asid) 106 1.2.8.2 tls { 107 1.2.8.2 tls arm_dsb(); 108 1.2.8.2 tls va = trunc_page(va) | asid; 109 1.2.8.2 tls for (vaddr_t eva = va + PAGE_SIZE; va < eva; va += L2_S_SIZE) { 110 1.2.8.2 tls armreg_tlbimva_write(va); 111 1.2.8.2 tls //armreg_tlbiall_write(asid); 112 1.2.8.2 tls } 113 1.2.8.2 tls arm_isb(); 114 1.2.8.2 tls } 115 1.2.8.2 tls 116 1.2.8.2 tls bool 117 1.2.8.2 tls tlb_update_addr(vaddr_t va, tlb_asid_t asid, pt_entry_t pte, bool insert_p) 118 1.2.8.2 tls { 119 1.2.8.2 tls tlb_invalidate_addr(va, asid); 120 1.2.8.2 tls return true; 121 1.2.8.2 tls } 122 1.2.8.2 tls 123 1.2.8.2 tls #if !defined(MULTIPROCESSOR) && defined(CPU_CORTEXA5) 124 1.2.8.2 tls static u_int 125 1.2.8.2 tls tlb_cortex_a5_record_asids(u_long *mapp) 126 1.2.8.2 tls { 127 1.2.8.2 tls u_int nasids = 0; 128 1.2.8.2 tls for (size_t va_index = 0; va_index < 63; va_index++) { 129 1.2.8.2 tls for (size_t way = 0; way < 2; way++) { 130 1.2.8.2 tls armreg_tlbdataop_write( 131 1.2.8.2 tls __SHIFTIN(way, ARM_TLBDATAOP_WAY) 132 1.2.8.2 tls | __SHIFTIN(va_index, ARM_A5_TLBDATAOP_INDEX)); 133 1.2.8.2 tls arm_isb(); 134 1.2.8.2 tls const uint64_t d = ((uint64_t) armreg_tlbdata1_read()) 135 1.2.8.2 tls | armreg_tlbdata0_read(); 136 1.2.8.2 tls if (!(d & ARM_TLBDATA_VALID) 137 1.2.8.2 tls || !(d & ARM_V5_TLBDATA_nG)) 138 1.2.8.2 tls continue; 139 1.2.8.2 tls 140 1.2.8.2 tls const tlb_asid_t asid = __SHIFTOUT(d, 141 1.2.8.2 tls ARM_V5_TLBDATA_ASID); 142 1.2.8.2 tls const u_long mask = 1L << (asid & 31); 143 1.2.8.2 tls const size_t idx = asid >> 5; 144 1.2.8.2 tls if (mapp[idx] & mask) 145 1.2.8.2 tls continue; 146 1.2.8.2 tls 147 1.2.8.2 tls mapp[idx] |= mask; 148 1.2.8.2 tls nasids++; 149 1.2.8.2 tls } 150 1.2.8.2 tls } 151 1.2.8.2 tls return nasids; 152 1.2.8.2 tls } 153 1.2.8.2 tls #endif 154 1.2.8.2 tls 155 1.2.8.2 tls #if !defined(MULTIPROCESSOR) && defined(CPU_CORTEXA7) 156 1.2.8.2 tls static u_int 157 1.2.8.2 tls tlb_cortex_a7_record_asids(u_long *mapp) 158 1.2.8.2 tls { 159 1.2.8.2 tls u_int nasids = 0; 160 1.2.8.2 tls for (size_t va_index = 0; va_index < 128; va_index++) { 161 1.2.8.2 tls for (size_t way = 0; way < 2; way++) { 162 1.2.8.2 tls armreg_tlbdataop_write( 163 1.2.8.2 tls __SHIFTIN(way, ARM_TLBDATAOP_WAY) 164 1.2.8.2 tls | __SHIFTIN(va_index, ARM_A7_TLBDATAOP_INDEX)); 165 1.2.8.2 tls arm_isb(); 166 1.2.8.2 tls const uint32_t d0 = armreg_tlbdata0_read(); 167 1.2.8.2 tls const uint32_t d1 = armreg_tlbdata1_read(); 168 1.2.8.2 tls if (!(d0 & ARM_TLBDATA_VALID) 169 1.2.8.2 tls || !(d1 & ARM_A7_TLBDATA1_nG)) 170 1.2.8.2 tls continue; 171 1.2.8.2 tls 172 1.2.8.2 tls const uint64_t d01 = ((uint64_t) d1)|d0; 173 1.2.8.2 tls const tlb_asid_t asid = __SHIFTOUT(d01, 174 1.2.8.2 tls ARM_A7_TLBDATA01_ASID); 175 1.2.8.2 tls const u_long mask = 1L << (asid & 31); 176 1.2.8.2 tls const size_t idx = asid >> 5; 177 1.2.8.2 tls if (mapp[idx] & mask) 178 1.2.8.2 tls continue; 179 1.2.8.2 tls 180 1.2.8.2 tls mapp[idx] |= mask; 181 1.2.8.2 tls nasids++; 182 1.2.8.2 tls } 183 1.2.8.2 tls } 184 1.2.8.2 tls return nasids; 185 1.2.8.2 tls } 186 1.2.8.2 tls #endif 187 1.2.8.2 tls 188 1.2.8.2 tls u_int 189 1.2.8.2 tls tlb_record_asids(u_long *mapp) 190 1.2.8.2 tls { 191 1.2.8.2 tls #ifndef MULTIPROCESSOR 192 1.2.8.2 tls #ifdef CPU_CORTEXA5 193 1.2.8.2 tls if (CPU_ID_CORTEX_A5_P(curcpu()->ci_arm_cpuid)) 194 1.2.8.2 tls return tlb_cortex_a5_record_asids(mapp); 195 1.2.8.2 tls #endif 196 1.2.8.2 tls #ifdef CPU_CORTEXA7 197 1.2.8.2 tls if (CPU_ID_CORTEX_A7_P(curcpu()->ci_arm_cpuid)) 198 1.2.8.2 tls return tlb_cortex_a7_record_asids(mapp); 199 1.2.8.2 tls #endif 200 1.2.8.2 tls #endif /* MULTIPROCESSOR */ 201 1.2.8.2 tls #ifdef DIAGNOSTIC 202 1.2.8.2 tls mapp[0] = 0xfffffffe; 203 1.2.8.2 tls mapp[1] = 0xffffffff; 204 1.2.8.2 tls mapp[2] = 0xffffffff; 205 1.2.8.2 tls mapp[3] = 0xffffffff; 206 1.2.8.2 tls mapp[4] = 0xffffffff; 207 1.2.8.2 tls mapp[5] = 0xffffffff; 208 1.2.8.2 tls mapp[6] = 0xffffffff; 209 1.2.8.2 tls mapp[7] = 0xffffffff; 210 1.2.8.2 tls #endif 211 1.2.8.2 tls return 255; 212 1.2.8.2 tls } 213 1.2.8.2 tls 214 1.2.8.2 tls void 215 1.2.8.2 tls tlb_walk(void *ctx, bool (*func)(void *, vaddr_t, tlb_asid_t, pt_entry_t)) 216 1.2.8.2 tls { 217 1.2.8.2 tls /* no way to view the TLB */ 218 1.2.8.2 tls } 219
Indexes created Wed Oct 15 16:09:53 GMT 2025