ctlreg.h revision 1.35
1 1.35 heas /* $NetBSD: ctlreg.h,v 1.35 2004/07/01 14:57:46 heas Exp $ */ 2 1.1 eeh 3 1.1 eeh /* 4 1.30 eeh * Copyright (c) 1996-2002 Eduardo Horvath 5 1.1 eeh * 6 1.1 eeh * Redistribution and use in source and binary forms, with or without 7 1.1 eeh * modification, are permitted provided that the following conditions 8 1.1 eeh * are met: 9 1.1 eeh * 1. Redistributions of source code must retain the above copyright 10 1.1 eeh * notice, this list of conditions and the following disclaimer. 11 1.11 eeh * 12 1.11 eeh * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND 13 1.1 eeh * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 14 1.1 eeh * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 15 1.11 eeh * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE 16 1.1 eeh * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 17 1.1 eeh * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 18 1.1 eeh * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 19 1.1 eeh * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 20 1.1 eeh * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 21 1.1 eeh * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 22 1.1 eeh * SUCH DAMAGE. 23 1.1 eeh * 24 1.1 eeh */ 25 1.1 eeh 26 1.33 petrov #ifndef _SPARC_CTLREG_H_ 27 1.33 petrov #define _SPARC_CTLREG_H_ 28 1.33 petrov 29 1.1 eeh /* 30 1.1 eeh * Sun 4u control registers. (includes address space definitions 31 1.1 eeh * and some registers in control space). 32 1.1 eeh */ 33 1.1 eeh 34 1.1 eeh /* 35 1.1 eeh * The Alternate address spaces. 36 1.1 eeh * 37 1.1 eeh * 0x00-0x7f are privileged 38 1.1 eeh * 0x80-0xff can be used by users 39 1.1 eeh */ 40 1.1 eeh 41 1.26 eeh #define ASI_LITTLE 0x08 /* This bit should make an ASI little endian */ 42 1.1 eeh 43 1.26 eeh #define ASI_NUCLEUS 0x04 /* [4u] kernel address space */ 44 1.26 eeh #define ASI_NUCLEUS_LITTLE 0x0c /* [4u] kernel address space, little endian */ 45 1.1 eeh 46 1.26 eeh #define ASI_AS_IF_USER_PRIMARY 0x10 /* [4u] primary user address space */ 47 1.26 eeh #define ASI_AS_IF_USER_SECONDARY 0x11 /* [4u] secondary user address space */ 48 1.1 eeh 49 1.26 eeh #define ASI_PHYS_CACHED 0x14 /* [4u] MMU bypass to main memory */ 50 1.26 eeh #define ASI_PHYS_NON_CACHED 0x15 /* [4u] MMU bypass to I/O location */ 51 1.26 eeh 52 1.26 eeh #define ASI_AS_IF_USER_PRIMARY_LITTLE 0x18 /* [4u] primary user address space, little endian */ 53 1.35 heas #define ASI_AS_IF_USER_SECONDARY_LITTLE 0x19 /* [4u] secondary user address space, little endian */ 54 1.26 eeh 55 1.26 eeh #define ASI_PHYS_CACHED_LITTLE 0x1c /* [4u] MMU bypass to main memory, little endian */ 56 1.26 eeh #define ASI_PHYS_NON_CACHED_LITTLE 0x1d /* [4u] MMU bypass to I/O location, little endian */ 57 1.26 eeh 58 1.26 eeh #define ASI_NUCLEUS_QUAD_LDD 0x24 /* [4u] use w/LDDA to load 128-bit item */ 59 1.26 eeh #define ASI_NUCLEUS_QUAD_LDD_LITTLE 0x2c /* [4u] use w/LDDA to load 128-bit item, little endian */ 60 1.26 eeh 61 1.26 eeh #define ASI_FLUSH_D_PAGE_PRIMARY 0x38 /* [4u] flush D-cache page using primary context */ 62 1.26 eeh #define ASI_FLUSH_D_PAGE_SECONDARY 0x39 /* [4u] flush D-cache page using secondary context */ 63 1.26 eeh #define ASI_FLUSH_D_CTX_PRIMARY 0x3a /* [4u] flush D-cache context using primary context */ 64 1.26 eeh #define ASI_FLUSH_D_CTX_SECONDARY 0x3b /* [4u] flush D-cache context using secondary context */ 65 1.26 eeh 66 1.26 eeh #define ASI_LSU_CONTROL_REGISTER 0x45 /* [4u] load/store unit control register */ 67 1.26 eeh 68 1.26 eeh #define ASI_DCACHE_DATA 0x46 /* [4u] diagnostic access to D-cache data RAM */ 69 1.26 eeh #define ASI_DCACHE_TAG 0x47 /* [4u] diagnostic access to D-cache tag RAM */ 70 1.26 eeh 71 1.26 eeh #define ASI_INTR_DISPATCH_STATUS 0x48 /* [4u] interrupt dispatch status register */ 72 1.26 eeh #define ASI_INTR_RECEIVE 0x49 /* [4u] interrupt receive status register */ 73 1.26 eeh #define ASI_MID_REG 0x4a /* [4u] hardware config and MID */ 74 1.26 eeh #define ASI_ERROR_EN_REG 0x4b /* [4u] asynchronous error enables */ 75 1.26 eeh #define ASI_AFSR 0x4c /* [4u] asynchronous fault status register */ 76 1.26 eeh #define ASI_AFAR 0x4d /* [4u] asynchronous fault address register */ 77 1.26 eeh 78 1.26 eeh #define ASI_ICACHE_DATA 0x66 /* [4u] diagnostic access to D-cache data RAM */ 79 1.26 eeh #define ASI_ICACHE_TAG 0x67 /* [4u] diagnostic access to D-cache tag RAM */ 80 1.26 eeh #define ASI_FLUSH_I_PAGE_PRIMARY 0x68 /* [4u] flush D-cache page using primary context */ 81 1.26 eeh #define ASI_FLUSH_I_PAGE_SECONDARY 0x69 /* [4u] flush D-cache page using secondary context */ 82 1.26 eeh #define ASI_FLUSH_I_CTX_PRIMARY 0x6a /* [4u] flush D-cache context using primary context */ 83 1.26 eeh #define ASI_FLUSH_I_CTX_SECONDARY 0x6b /* [4u] flush D-cache context using secondary context */ 84 1.26 eeh 85 1.26 eeh #define ASI_BLOCK_AS_IF_USER_PRIMARY 0x70 /* [4u] primary user address space, block loads/stores */ 86 1.26 eeh #define ASI_BLOCK_AS_IF_USER_SECONDARY 0x71 /* [4u] secondary user address space, block loads/stores */ 87 1.26 eeh 88 1.26 eeh #define ASI_ECACHE_DIAG 0x76 /* [4u] diag access to E-cache tag and data */ 89 1.26 eeh #define ASI_DATAPATH_ERR_REG_WRITE 0x77 /* [4u] ASI is reused */ 90 1.26 eeh 91 1.26 eeh #define ASI_BLOCK_AS_IF_USER_PRIMARY_LITTLE 0x78 /* [4u] primary user address space, block loads/stores */ 92 1.26 eeh #define ASI_BLOCK_AS_IF_USER_SECONDARY_LITTLE 0x79 /* [4u] secondary user address space, block loads/stores */ 93 1.26 eeh 94 1.26 eeh #define ASI_INTERRUPT_RECEIVE_DATA 0x7f /* [4u] interrupt receive data registers {0,1,2} */ 95 1.26 eeh #define ASI_DATAPATH_ERR_REG_READ 0x7f /* [4u] read access to datapath error registers (ASI reused) */ 96 1.26 eeh 97 1.26 eeh #define ASI_PRIMARY 0x80 /* [4u] primary address space */ 98 1.26 eeh #define ASI_SECONDARY 0x81 /* [4u] secondary address space */ 99 1.28 eeh #define ASI_PRIMARY_NOFAULT 0x82 /* [4u] primary address space, no fault */ 100 1.28 eeh #define ASI_SECONDARY_NOFAULT 0x83 /* [4u] secondary address space, no fault */ 101 1.26 eeh 102 1.26 eeh #define ASI_PRIMARY_LITTLE 0x88 /* [4u] primary address space, little endian */ 103 1.26 eeh #define ASI_SECONDARY_LITTLE 0x89 /* [4u] secondary address space, little endian */ 104 1.28 eeh #define ASI_PRIMARY_NOFAULT_LITTLE 0x8a /* [4u] primary address space, no fault, little endian */ 105 1.28 eeh #define ASI_SECONDARY_NOFAULT_LITTLE 0x8b /* [4u] secondary address space, no fault, little endian */ 106 1.26 eeh 107 1.26 eeh #define ASI_PST8_PRIMARY 0xc0 /* [VIS] Eight 8-bit partial store, primary */ 108 1.26 eeh #define ASI_PST8_SECONDARY 0xc1 /* [VIS] Eight 8-bit partial store, secondary */ 109 1.26 eeh #define ASI_PST16_PRIMARY 0xc2 /* [VIS] Four 16-bit partial store, primary */ 110 1.26 eeh #define ASI_PST16_SECONDARY 0xc3 /* [VIS] Fout 16-bit partial store, secondary */ 111 1.26 eeh #define ASI_PST32_PRIMARY 0xc4 /* [VIS] Two 32-bit partial store, primary */ 112 1.26 eeh #define ASI_PST32_SECONDARY 0xc5 /* [VIS] Two 32-bit partial store, secondary */ 113 1.26 eeh 114 1.26 eeh #define ASI_PST8_PRIMARY_LITTLE 0xc8 /* [VIS] Eight 8-bit partial store, primary, little endian */ 115 1.26 eeh #define ASI_PST8_SECONDARY_LITTLE 0xc9 /* [VIS] Eight 8-bit partial store, secondary, little endian */ 116 1.26 eeh #define ASI_PST16_PRIMARY_LITTLE 0xca /* [VIS] Four 16-bit partial store, primary, little endian */ 117 1.26 eeh #define ASI_PST16_SECONDARY_LITTLE 0xcb /* [VIS] Fout 16-bit partial store, secondary, little endian */ 118 1.26 eeh #define ASI_PST32_PRIMARY_LITTLE 0xcc /* [VIS] Two 32-bit partial store, primary, little endian */ 119 1.26 eeh #define ASI_PST32_SECONDARY_LITTLE 0xcd /* [VIS] Two 32-bit partial store, secondary, little endian */ 120 1.26 eeh 121 1.26 eeh #define ASI_FL8_PRIMARY 0xd0 /* [VIS] One 8-bit load/store floating, primary */ 122 1.26 eeh #define ASI_FL8_SECONDARY 0xd1 /* [VIS] One 8-bit load/store floating, secondary */ 123 1.26 eeh #define ASI_FL16_PRIMARY 0xd2 /* [VIS] One 16-bit load/store floating, primary */ 124 1.26 eeh #define ASI_FL16_SECONDARY 0xd3 /* [VIS] One 16-bit load/store floating, secondary */ 125 1.26 eeh 126 1.26 eeh #define ASI_FL8_PRIMARY_LITTLE 0xd8 /* [VIS] One 8-bit load/store floating, primary, little endian */ 127 1.26 eeh #define ASI_FL8_SECONDARY_LITTLE 0xd9 /* [VIS] One 8-bit load/store floating, secondary, little endian */ 128 1.26 eeh #define ASI_FL16_PRIMARY_LITTLE 0xda /* [VIS] One 16-bit load/store floating, primary, little endian */ 129 1.26 eeh #define ASI_FL16_SECONDARY_LITTLE 0xdb /* [VIS] One 16-bit load/store floating, secondary, little endian */ 130 1.26 eeh 131 1.26 eeh #define ASI_BLOCK_COMMIT_PRIMARY 0xe0 /* [4u] block store with commit, primary */ 132 1.26 eeh #define ASI_BLOCK_COMMIT_SECONDARY 0xe1 /* [4u] block store with commit, secondary */ 133 1.26 eeh #define ASI_BLOCK_PRIMARY 0xf0 /* [4u] block load/store, primary */ 134 1.26 eeh #define ASI_BLOCK_SECONDARY 0xf1 /* [4u] block load/store, secondary */ 135 1.26 eeh #define ASI_BLOCK_PRIMARY_LITTLE 0xf8 /* [4u] block load/store, primary, little endian */ 136 1.26 eeh #define ASI_BLOCK_SECONDARY_LITTLE 0xf9 /* [4u] block load/store, secondary, little endian */ 137 1.1 eeh 138 1.1 eeh 139 1.1 eeh /* 140 1.1 eeh * These are the shorter names used by Solaris 141 1.1 eeh */ 142 1.1 eeh 143 1.26 eeh #define ASI_N ASI_NUCLEUS 144 1.26 eeh #define ASI_NL ASI_NUCLEUS_LITTLE 145 1.26 eeh #define ASI_AIUP ASI_AS_IF_USER_PRIMARY 146 1.26 eeh #define ASI_AIUS ASI_AS_IF_USER_SECONDARY 147 1.26 eeh #define ASI_AIUPL ASI_AS_IF_USER_PRIMARY_LITTLE 148 1.26 eeh #define ASI_AIUSL ASI_AS_IF_USER_SECONDARY_LITTLE 149 1.26 eeh #define ASI_P ASI_PRIMARY 150 1.26 eeh #define ASI_S ASI_SECONDARY 151 1.28 eeh #define ASI_PNF ASI_PRIMARY_NOFAULT 152 1.28 eeh #define ASI_SNF ASI_SECONDARY_NOFAULT 153 1.26 eeh #define ASI_PL ASI_PRIMARY_LITTLE 154 1.26 eeh #define ASI_SL ASI_SECONDARY_LITTLE 155 1.28 eeh #define ASI_PNFL ASI_PRIMARY_NOFAULT_LITTLE 156 1.28 eeh #define ASI_SNFL ASI_SECONDARY_NOFAULT_LITTLE 157 1.26 eeh #define ASI_FL8_P ASI_FL8_PRIMARY 158 1.26 eeh #define ASI_FL8_S ASI_FL8_SECONDARY 159 1.26 eeh #define ASI_FL16_P ASI_FL16_PRIMARY 160 1.26 eeh #define ASI_FL16_S ASI_FL16_SECONDARY 161 1.26 eeh #define ASI_FL8_PL ASI_FL8_PRIMARY_LITTLE 162 1.26 eeh #define ASI_FL8_SL ASI_FL8_SECONDARY_LITTLE 163 1.26 eeh #define ASI_FL16_PL ASI_FL16_PRIMARY_LITTLE 164 1.26 eeh #define ASI_FL16_SL ASI_FL16_SECONDARY_LITTLE 165 1.26 eeh #define ASI_BLK_AIUP ASI_BLOCK_AS_IF_USER_PRIMARY 166 1.26 eeh #define ASI_BLK_AIUPL ASI_BLOCK_AS_IF_USER_PRIMARY_LITTLE 167 1.26 eeh #define ASI_BLK_AIUS ASI_BLOCK_AS_IF_USER_SECONDARY 168 1.26 eeh #define ASI_BLK_AIUSL ASI_BLOCK_AS_IF_USER_SECONDARY_LITTLE 169 1.26 eeh #define ASI_BLK_COMMIT_P ASI_BLOCK_COMMIT_PRIMARY 170 1.26 eeh #define ASI_BLK_COMMIT_PRIMARY ASI_BLOCK_COMMIT_PRIMARY 171 1.26 eeh #define ASI_BLK_COMMIT_S ASI_BLOCK_COMMIT_SECONDARY 172 1.26 eeh #define ASI_BLK_COMMIT_SECONDARY ASI_BLOCK_COMMIT_SECONDARY 173 1.26 eeh #define ASI_BLK_P ASI_BLOCK_PRIMARY 174 1.26 eeh #define ASI_BLK_PL ASI_BLOCK_PRIMARY_LITTLE 175 1.26 eeh #define ASI_BLK_S ASI_BLOCK_SECONDARY 176 1.26 eeh #define ASI_BLK_SL ASI_BLOCK_SECONDARY_LITTLE 177 1.1 eeh 178 1.28 eeh /* Alternative spellings */ 179 1.28 eeh #define ASI_PRIMARY_NO_FAULT ASI_PRIMARY_NOFAULT 180 1.28 eeh #define ASI_PRIMARY_NO_FAULT_LITTLE ASI_PRIMARY_NOFAULT_LITTLE 181 1.28 eeh #define ASI_SECONDARY_NO_FAULT ASI_SECONDARY_NOFAULT 182 1.28 eeh #define ASI_SECONDARY_NO_FAULT_LITTLE ASI_SECONDARY_NOFAULT_LITTLE 183 1.28 eeh 184 1.29 eeh #define PHYS_ASI(x) (((x) | 0x09) == 0x1d) 185 1.26 eeh #define LITTLE_ASI(x) ((x) & ASI_LITTLE) 186 1.14 eeh 187 1.1 eeh /* 188 1.1 eeh * The following are 4u control registers 189 1.1 eeh */ 190 1.18 eeh 191 1.18 eeh /* Get the CPU's UPAID */ 192 1.18 eeh #define UPA_CR_MID(x) (((x)>>17)&0x1f) 193 1.18 eeh #define CPU_UPAID UPA_CR_MID(ldxa(0, ASI_MID_REG)) 194 1.1 eeh 195 1.1 eeh /* 196 1.1 eeh * [4u] MMU and Cache Control Register (MCCR) 197 1.1 eeh * use ASI = 0x45 198 1.1 eeh */ 199 1.26 eeh #define ASI_MCCR ASI_LSU_CONTROL_REGISTER 200 1.26 eeh #define MCCR 0x00 201 1.1 eeh 202 1.1 eeh /* MCCR Bits and their meanings */ 203 1.26 eeh #define MCCR_DMMU_EN 0x08 204 1.26 eeh #define MCCR_IMMU_EN 0x04 205 1.26 eeh #define MCCR_DCACHE_EN 0x02 206 1.26 eeh #define MCCR_ICACHE_EN 0x01 207 1.1 eeh 208 1.1 eeh 209 1.1 eeh /* 210 1.1 eeh * MMU control registers 211 1.1 eeh */ 212 1.1 eeh 213 1.1 eeh /* Choose an MMU */ 214 1.26 eeh #define ASI_DMMU 0x58 215 1.26 eeh #define ASI_IMMU 0x50 216 1.1 eeh 217 1.1 eeh /* Other assorted MMU ASIs */ 218 1.26 eeh #define ASI_IMMU_8KPTR 0x51 219 1.26 eeh #define ASI_IMMU_64KPTR 0x52 220 1.26 eeh #define ASI_IMMU_DATA_IN 0x54 221 1.26 eeh #define ASI_IMMU_TLB_DATA 0x55 222 1.26 eeh #define ASI_IMMU_TLB_TAG 0x56 223 1.26 eeh #define ASI_DMMU_8KPTR 0x59 224 1.26 eeh #define ASI_DMMU_64KPTR 0x5a 225 1.26 eeh #define ASI_DMMU_DATA_IN 0x5c 226 1.26 eeh #define ASI_DMMU_TLB_DATA 0x5d 227 1.26 eeh #define ASI_DMMU_TLB_TAG 0x5e 228 1.1 eeh 229 1.1 eeh /* 230 1.1 eeh * The following are the control registers 231 1.1 eeh * They work on both MMUs unless noted. 232 1.1 eeh * 233 1.1 eeh * Register contents are defined later on individual registers. 234 1.1 eeh */ 235 1.26 eeh #define TSB_TAG_TARGET 0x0 236 1.26 eeh #define TLB_DATA_IN 0x0 237 1.26 eeh #define CTX_PRIMARY 0x08 /* primary context -- DMMU only */ 238 1.26 eeh #define CTX_SECONDARY 0x10 /* secondary context -- DMMU only */ 239 1.26 eeh #define SFSR 0x18 240 1.26 eeh #define SFAR 0x20 /* fault address -- DMMU only */ 241 1.26 eeh #define TSB 0x28 242 1.26 eeh #define TLB_TAG_ACCESS 0x30 243 1.26 eeh #define VIRTUAL_WATCHPOINT 0x38 244 1.26 eeh #define PHYSICAL_WATCHPOINT 0x40 245 1.1 eeh 246 1.1 eeh /* Tag Target bits */ 247 1.26 eeh #define TAG_TARGET_VA_MASK 0x03ffffffffffffffffLL 248 1.26 eeh #define TAG_TARGET_VA(x) (((x)<<22)&TAG_TARGET_VA_MASK) 249 1.26 eeh #define TAG_TARGET_CONTEXT(x) ((x)>>48) 250 1.26 eeh #define TAG_TARGET(c,v) ((((uint64_t)c)<<48)|(((uint64_t)v)&TAG_TARGET_VA_MASK)) 251 1.1 eeh 252 1.1 eeh /* SFSR bits for both D_SFSR and I_SFSR */ 253 1.26 eeh #define SFSR_ASI(x) ((x)>>16) 254 1.26 eeh #define SFSR_FT_VA_OOR_2 0x02000 /* IMMU: jumpl or return to unsupportd VA */ 255 1.26 eeh #define SFSR_FT_VA_OOR_1 0x01000 /* fault at unsupported VA */ 256 1.26 eeh #define SFSR_FT_NFO 0x00800 /* DMMU: Access to page marked NFO */ 257 1.26 eeh #define SFSR_ILL_ASI 0x00400 /* DMMU: Illegal (unsupported) ASI */ 258 1.26 eeh #define SFSR_FT_IO_ATOMIC 0x00200 /* DMMU: Atomic access to noncacheable page */ 259 1.26 eeh #define SFSR_FT_ILL_NF 0x00100 /* DMMU: NF load or flush to page marked E (has side effects) */ 260 1.26 eeh #define SFSR_FT_PRIV 0x00080 /* Privilege violation */ 261 1.26 eeh #define SFSR_FT_E 0x00040 /* DMUU: value of E bit associated address */ 262 1.26 eeh #define SFSR_CTXT(x) (((x)>>4)&0x3) 263 1.26 eeh #define SFSR_CTXT_IS_PRIM(x) (SFSR_CTXT(x)==0x00) 264 1.26 eeh #define SFSR_CTXT_IS_SECOND(x) (SFSR_CTXT(x)==0x01) 265 1.26 eeh #define SFSR_CTXT_IS_NUCLEUS(x) (SFSR_CTXT(x)==0x02) 266 1.26 eeh #define SFSR_PRIV 0x00008 /* value of PSTATE.PRIV for faulting access */ 267 1.26 eeh #define SFSR_W 0x00004 /* DMMU: attempted write */ 268 1.26 eeh #define SFSR_OW 0x00002 /* Overwrite; prev vault was still valid */ 269 1.26 eeh #define SFSR_FV 0x00001 /* Fault is valid */ 270 1.33 petrov #define SFSR_FT (SFSR_FT_VA_OOR_2|SFSR_FT_VA_OOR_1|SFSR_FT_NFO| \ 271 1.33 petrov SFSR_ILL_ASI|SFSR_FT_IO_ATOMIC|SFSR_FT_ILL_NF|SFSR_FT_PRIV) 272 1.1 eeh 273 1.26 eeh #define SFSR_BITS "\177\20" \ 274 1.33 petrov "f\20\30ASI\0" "b\16VAT\0" "b\15VAD\0" "b\14NFO\0" "b\13ASI\0" "b\12A\0" \ 275 1.33 petrov "b\11NF\0" "b\10PRIV\0" "b\7E\0" "b\6NUCLEUS\0" "b\5SECONDCTX\0" "b\4PRIV\0" \ 276 1.33 petrov "b\3W\0" "b\2OW\0" "b\1FV\0" 277 1.3 eeh 278 1.3 eeh /* ASFR bits */ 279 1.26 eeh #define ASFR_ME 0x100000000LL 280 1.26 eeh #define ASFR_PRIV 0x080000000LL 281 1.26 eeh #define ASFR_ISAP 0x040000000LL 282 1.26 eeh #define ASFR_ETP 0x020000000LL 283 1.26 eeh #define ASFR_IVUE 0x010000000LL 284 1.26 eeh #define ASFR_TO 0x008000000LL 285 1.26 eeh #define ASFR_BERR 0x004000000LL 286 1.26 eeh #define ASFR_LDP 0x002000000LL 287 1.26 eeh #define ASFR_CP 0x001000000LL 288 1.26 eeh #define ASFR_WP 0x000800000LL 289 1.26 eeh #define ASFR_EDP 0x000400000LL 290 1.26 eeh #define ASFR_UE 0x000200000LL 291 1.26 eeh #define ASFR_CE 0x000100000LL 292 1.26 eeh #define ASFR_ETS 0x0000f0000LL 293 1.26 eeh #define ASFT_P_SYND 0x00000ffffLL 294 1.3 eeh 295 1.26 eeh #define AFSR_BITS "\177\20" \ 296 1.3 eeh "b\40ME\0" "b\37PRIV\0" "b\36ISAP\0" "b\35ETP\0" \ 297 1.3 eeh "b\34IVUE\0" "b\33TO\0" "b\32BERR\0" "b\31LDP\0" \ 298 1.3 eeh "b\30CP\0" "b\27WP\0" "b\26EDP\0" "b\25UE\0" \ 299 1.3 eeh "b\24CE\0" "f\20\4ETS\0" "f\0\20P_SYND\0" 300 1.3 eeh 301 1.1 eeh /* 302 1.1 eeh * Here's the spitfire TSB control register bits. 303 1.1 eeh * 304 1.1 eeh * Each TSB entry is 16-bytes wide. The TSB must be size aligned 305 1.1 eeh */ 306 1.26 eeh #define TSB_SIZE_512 0x0 /* 8kB, etc. */ 307 1.26 eeh #define TSB_SIZE_1K 0x01 308 1.26 eeh #define TSB_SIZE_2K 0x02 309 1.26 eeh #define TSB_SIZE_4K 0x03 310 1.1 eeh #define TSB_SIZE_8K 0x04 311 1.26 eeh #define TSB_SIZE_16K 0x05 312 1.26 eeh #define TSB_SIZE_32K 0x06 313 1.26 eeh #define TSB_SIZE_64K 0x07 314 1.26 eeh #define TSB_SPLIT 0x1000 315 1.26 eeh #define TSB_BASE 0xffffffffffffe000 316 1.1 eeh 317 1.1 eeh /* TLB Tag Access bits */ 318 1.26 eeh #define TLB_TAG_ACCESS_VA 0xffffffffffffe000 319 1.26 eeh #define TLB_TAG_ACCESS_CTX 0x0000000000001fff 320 1.1 eeh 321 1.1 eeh /* 322 1.1 eeh * TLB demap registers. TTEs are defined in v9pte.h 323 1.1 eeh * 324 1.1 eeh * Use the address space to select between IMMU and DMMU. 325 1.1 eeh * The address of the register selects which context register 326 1.1 eeh * to read the ASI from. 327 1.1 eeh * 328 1.1 eeh * The data stored in the register is interpreted as the VA to 329 1.1 eeh * use. The DEMAP_CTX_<> registers ignore the address and demap the 330 1.1 eeh * entire ASI. 331 1.1 eeh * 332 1.1 eeh */ 333 1.26 eeh #define ASI_IMMU_DEMAP 0x57 /* [4u] IMMU TLB demap */ 334 1.26 eeh #define ASI_DMMU_DEMAP 0x5f /* [4u] IMMU TLB demap */ 335 1.1 eeh 336 1.26 eeh #define DEMAP_PAGE_NUCLEUS ((0x02)<<4) /* Demap page from kernel AS */ 337 1.26 eeh #define DEMAP_PAGE_PRIMARY ((0x00)<<4) /* Demap a page from primary CTXT */ 338 1.26 eeh #define DEMAP_PAGE_SECONDARY ((0x01)<<4) /* Demap page from secondary CTXT (DMMU only) */ 339 1.26 eeh #define DEMAP_CTX_NUCLEUS ((0x06)<<4) /* Demap all of kernel CTXT */ 340 1.26 eeh #define DEMAP_CTX_PRIMARY ((0x04)<<4) /* Demap all of primary CTXT */ 341 1.26 eeh #define DEMAP_CTX_SECONDARY ((0x05)<<4) /* Demap all of secondary CTXT */ 342 1.1 eeh 343 1.1 eeh /* 344 1.1 eeh * Interrupt registers. This really gets hairy. 345 1.1 eeh */ 346 1.1 eeh 347 1.1 eeh /* IRSR -- Interrupt Receive Status Ragister */ 348 1.26 eeh #define ASI_IRSR 0x49 349 1.26 eeh #define IRSR 0x00 350 1.26 eeh #define IRSR_BUSY 0x020 351 1.26 eeh #define IRSR_MID(x) (x&0x1f) 352 1.1 eeh 353 1.1 eeh /* IRDR -- Interrupt Receive Data Registers */ 354 1.26 eeh #define ASI_IRDR 0x7f 355 1.26 eeh #define IRDR_0H 0x40 356 1.26 eeh #define IRDR_0L 0x48 /* unimplemented */ 357 1.26 eeh #define IRDR_1H 0x50 358 1.26 eeh #define IRDR_1L 0x58 /* unimplemented */ 359 1.26 eeh #define IRDR_2H 0x60 360 1.26 eeh #define IRDR_2L 0x68 /* unimplemented */ 361 1.26 eeh #define IRDR_3H 0x70 /* unimplemented */ 362 1.26 eeh #define IRDR_3L 0x78 /* unimplemented */ 363 1.1 eeh 364 1.1 eeh /* SOFTINT ASRs */ 365 1.26 eeh #define SET_SOFTINT %asr20 /* Sets these bits */ 366 1.26 eeh #define CLEAR_SOFTINT %asr21 /* Clears these bits */ 367 1.26 eeh #define SOFTINT %asr22 /* Reads the register */ 368 1.26 eeh #define TICK_CMPR %asr23 369 1.1 eeh 370 1.1 eeh #define TICK_INT 0x01 /* level-14 clock tick */ 371 1.26 eeh #define SOFTINT1 (0x1<<1) 372 1.26 eeh #define SOFTINT2 (0x1<<2) 373 1.26 eeh #define SOFTINT3 (0x1<<3) 374 1.26 eeh #define SOFTINT4 (0x1<<4) 375 1.26 eeh #define SOFTINT5 (0x1<<5) 376 1.26 eeh #define SOFTINT6 (0x1<<6) 377 1.26 eeh #define SOFTINT7 (0x1<<7) 378 1.26 eeh #define SOFTINT8 (0x1<<8) 379 1.26 eeh #define SOFTINT9 (0x1<<9) 380 1.26 eeh #define SOFTINT10 (0x1<<10) 381 1.26 eeh #define SOFTINT11 (0x1<<11) 382 1.26 eeh #define SOFTINT12 (0x1<<12) 383 1.26 eeh #define SOFTINT13 (0x1<<13) 384 1.26 eeh #define SOFTINT14 (0x1<<14) 385 1.26 eeh #define SOFTINT15 (0x1<<15) 386 1.1 eeh 387 1.1 eeh /* Interrupt Dispatch -- usually reserved for cross-calls */ 388 1.26 eeh #define ASR_IDSR 0x48 /* Interrupt dispatch status reg */ 389 1.26 eeh #define IDSR 0x00 390 1.26 eeh #define IDSR_NACK 0x02 391 1.26 eeh #define IDSR_BUSY 0x01 392 1.26 eeh 393 1.26 eeh #define ASI_INTERRUPT_DISPATCH 0x77 /* [4u] spitfire interrupt dispatch regs */ 394 1.31 chs 395 1.31 chs /* Interrupt delivery initiation */ 396 1.31 chs #define IDCR(x) ((((uint64_t)(x)) << 14) | 0x70) 397 1.31 chs 398 1.31 chs #define IDDR_0H 0x40 /* Store data to send in these regs */ 399 1.26 eeh #define IDDR_0L 0x48 /* unimplemented */ 400 1.26 eeh #define IDDR_1H 0x50 401 1.26 eeh #define IDDR_1L 0x58 /* unimplemented */ 402 1.26 eeh #define IDDR_2H 0x60 403 1.26 eeh #define IDDR_2L 0x68 /* unimplemented */ 404 1.26 eeh #define IDDR_3H 0x70 /* unimplemented */ 405 1.26 eeh #define IDDR_3L 0x78 /* unimplemented */ 406 1.1 eeh 407 1.1 eeh /* 408 1.1 eeh * Error registers 409 1.1 eeh */ 410 1.1 eeh 411 1.1 eeh /* Since we won't try to fix async errs, we don't care about the bits in the regs */ 412 1.26 eeh #define ASI_AFAR 0x4d /* Asynchronous fault address register */ 413 1.26 eeh #define AFAR 0x00 414 1.26 eeh #define ASI_AFSR 0x4c /* Asynchronous fault status register */ 415 1.26 eeh #define AFSR 0x00 416 1.26 eeh 417 1.26 eeh #define ASI_P_EER 0x4b /* Error enable register */ 418 1.26 eeh #define P_EER 0x00 419 1.26 eeh #define P_EER_ISAPEN 0x04 /* Enable fatal on ISAP */ 420 1.26 eeh #define P_EER_NCEEN 0x02 /* Enable trap on uncorrectable errs */ 421 1.26 eeh #define P_EER_CEEN 0x01 /* Enable trap on correctable errs */ 422 1.26 eeh 423 1.26 eeh #define ASI_DATAPATH_READ 0x7f /* Read the regs */ 424 1.26 eeh #define ASI_DATAPATH_WRITE 0x77 /* Write to the regs */ 425 1.26 eeh #define P_DPER_0 0x00 /* Datapath err reg 0 */ 426 1.26 eeh #define P_DPER_1 0x18 /* Datapath err reg 1 */ 427 1.26 eeh #define P_DCR_0 0x20 /* Datapath control reg 0 */ 428 1.26 eeh #define P_DCR_1 0x38 /* Datapath control reg 0 */ 429 1.1 eeh 430 1.2 eeh 431 1.2 eeh /* From sparc64/asm.h which I think I'll deprecate since it makes bus.h a pain. */ 432 1.2 eeh 433 1.21 eeh #ifndef _LOCORE 434 1.1 eeh /* 435 1.2 eeh * GCC __asm constructs for doing assembly stuff. 436 1.1 eeh */ 437 1.2 eeh 438 1.2 eeh /* 439 1.2 eeh * ``Routines'' to load and store from/to alternate address space. 440 1.2 eeh * The location can be a variable, the asi value (address space indicator) 441 1.2 eeh * must be a constant. 442 1.1 eeh * 443 1.2 eeh * N.B.: You can put as many special functions here as you like, since 444 1.2 eeh * they cost no kernel space or time if they are not used. 445 1.1 eeh * 446 1.2 eeh * These were static inline functions, but gcc screws up the constraints 447 1.2 eeh * on the address space identifiers (the "n"umeric value part) because 448 1.2 eeh * it inlines too late, so we have to use the funny valued-macro syntax. 449 1.2 eeh */ 450 1.6 eeh 451 1.20 eeh /* 452 1.20 eeh * Apparently the definition of bypass ASIs is that they all use the 453 1.20 eeh * D$ so we need to flush the D$ to make sure we don't get data pollution. 454 1.20 eeh */ 455 1.6 eeh 456 1.21 eeh #ifdef __arch64__ 457 1.21 eeh static __inline__ u_char 458 1.21 eeh lduba(paddr_t loc, int asi) 459 1.21 eeh { 460 1.21 eeh register unsigned int _lduba_v; 461 1.21 eeh 462 1.33 petrov __asm __volatile( 463 1.33 petrov "wr %2,%%g0,%%asi; " 464 1.33 petrov "lduba [%1]%%asi,%0; " 465 1.33 petrov "wr %%g0, 0x82, %%asi" 466 1.33 petrov : "=r" (_lduba_v) 467 1.33 petrov : "r" ((unsigned long)(loc)), "r" (asi)); 468 1.21 eeh return (_lduba_v); 469 1.21 eeh } 470 1.21 eeh #else 471 1.21 eeh static __inline__ u_char 472 1.21 eeh lduba(paddr_t loc, int asi) 473 1.21 eeh { 474 1.21 eeh register unsigned int _lduba_v, _loc_hi, _pstate; 475 1.21 eeh 476 1.21 eeh _loc_hi = (((u_int64_t)loc)>>32); 477 1.21 eeh if (PHYS_ASI(asi)) { 478 1.33 petrov __asm __volatile( 479 1.33 petrov "wr %4,%%g0,%%asi; " 480 1.33 petrov "sllx %3,32,%0; " 481 1.33 petrov "rdpr %%pstate,%1; " 482 1.33 petrov "or %0,%2,%0; " 483 1.33 petrov "wrpr %1,8,%%pstate; " 484 1.33 petrov "membar #Sync; " 485 1.33 petrov "lduba [%0]%%asi,%0; " 486 1.33 petrov "wrpr %1,0,%%pstate; " 487 1.33 petrov "membar #Sync; " 488 1.33 petrov "wr %%g0, 0x82, %%asi " 489 1.33 petrov : "=&r" (_lduba_v), "=&r" (_pstate) 490 1.33 petrov : "r" ((unsigned long)(loc)), "r" (_loc_hi), "r" (asi)); 491 1.33 petrov } else { 492 1.33 petrov __asm __volatile( 493 1.34 martin "wr %3,%%g0,%%asi; " 494 1.33 petrov "sllx %2,32,%0; " 495 1.33 petrov "or %0,%1,%0; " 496 1.33 petrov "lduba [%0]%%asi,%0; " 497 1.33 petrov "wr %%g0, 0x82, %%asi " 498 1.33 petrov : "=&r" (_lduba_v) 499 1.33 petrov : "r" ((unsigned long)(loc)), "r" (_loc_hi), "r" (asi)); 500 1.21 eeh } 501 1.21 eeh return (_lduba_v); 502 1.21 eeh } 503 1.21 eeh #endif 504 1.21 eeh 505 1.21 eeh #ifdef __arch64__ 506 1.21 eeh /* load half-word from alternate address space */ 507 1.21 eeh static __inline__ u_short 508 1.21 eeh lduha(paddr_t loc, int asi) 509 1.21 eeh { 510 1.21 eeh register unsigned int _lduha_v; 511 1.21 eeh 512 1.33 petrov __asm __volatile( 513 1.33 petrov "wr %2,%%g0,%%asi; " 514 1.33 petrov "lduha [%1]%%asi,%0; " 515 1.33 petrov "wr %%g0, 0x82, %%asi " 516 1.33 petrov : "=r" (_lduha_v) 517 1.33 petrov : "r" ((unsigned long)(loc)), "r" (asi)); 518 1.21 eeh return (_lduha_v); 519 1.21 eeh } 520 1.21 eeh #else 521 1.21 eeh /* load half-word from alternate address space */ 522 1.21 eeh static __inline__ u_short 523 1.21 eeh lduha(paddr_t loc, int asi) { 524 1.21 eeh register unsigned int _lduha_v, _loc_hi, _pstate; 525 1.21 eeh 526 1.21 eeh _loc_hi = (((u_int64_t)loc)>>32); 527 1.21 eeh 528 1.21 eeh if (PHYS_ASI(asi)) { 529 1.33 petrov __asm __volatile( 530 1.33 petrov "wr %4,%%g0,%%asi; " 531 1.33 petrov "sllx %3,32,%0; " 532 1.33 petrov "rdpr %%pstate,%1; " 533 1.33 petrov "wrpr %1,8,%%pstate; " 534 1.33 petrov "or %0,%2,%0; " 535 1.33 petrov "membar #Sync; " 536 1.33 petrov "lduha [%0]%%asi,%0; " 537 1.33 petrov "wrpr %1,0,%%pstate; " 538 1.33 petrov "membar #Sync; " 539 1.33 petrov "wr %%g0, 0x82, %%asi " 540 1.33 petrov : "=&r" (_lduha_v), "=&r" (_pstate) 541 1.33 petrov : "r" ((unsigned long)(loc)), "r" (_loc_hi), "r" (asi)); 542 1.33 petrov } else { 543 1.33 petrov __asm __volatile( 544 1.33 petrov "wr %3,%%g0,%%asi; " 545 1.33 petrov "sllx %2,32,%0; " 546 1.33 petrov "or %0,%1,%0; " 547 1.33 petrov "lduha [%0]%%asi,%0; " 548 1.33 petrov "wr %%g0, 0x82, %%asi " 549 1.33 petrov : "=&r" (_lduha_v) 550 1.33 petrov : "r" ((unsigned long)(loc)), "r" (_loc_hi), "r" (asi)); 551 1.21 eeh } 552 1.21 eeh return (_lduha_v); 553 1.21 eeh } 554 1.21 eeh #endif 555 1.21 eeh 556 1.21 eeh 557 1.21 eeh #ifdef __arch64__ 558 1.21 eeh /* load unsigned int from alternate address space */ 559 1.21 eeh static __inline__ u_int 560 1.21 eeh lda(paddr_t loc, int asi) 561 1.21 eeh { 562 1.21 eeh register unsigned int _lda_v; 563 1.21 eeh 564 1.33 petrov __asm __volatile( 565 1.33 petrov "wr %2,%%g0,%%asi; " 566 1.33 petrov "lda [%1]%%asi,%0 " 567 1.33 petrov : "=r" (_lda_v) 568 1.33 petrov : "r" ((unsigned long)(loc)), "r" (asi)); 569 1.21 eeh return (_lda_v); 570 1.21 eeh } 571 1.21 eeh 572 1.21 eeh /* load signed int from alternate address space */ 573 1.21 eeh static __inline__ int 574 1.21 eeh ldswa(paddr_t loc, int asi) 575 1.21 eeh { 576 1.21 eeh register int _lda_v; 577 1.21 eeh 578 1.33 petrov __asm __volatile( 579 1.33 petrov "wr %2,%%g0,%%asi; " 580 1.33 petrov "ldswa [%1]%%asi,%0; " 581 1.33 petrov "wr %%g0, 0x82, %%asi " 582 1.33 petrov : "=r" (_lda_v) 583 1.33 petrov : "r" ((unsigned long)(loc)), "r" (asi)); 584 1.21 eeh return (_lda_v); 585 1.21 eeh } 586 1.21 eeh #else /* __arch64__ */ 587 1.21 eeh /* load unsigned int from alternate address space */ 588 1.21 eeh static __inline__ u_int 589 1.21 eeh lda(paddr_t loc, int asi) 590 1.21 eeh { 591 1.21 eeh register unsigned int _lda_v, _loc_hi, _pstate; 592 1.21 eeh 593 1.21 eeh _loc_hi = (((u_int64_t)loc)>>32); 594 1.21 eeh if (PHYS_ASI(asi)) { 595 1.33 petrov __asm __volatile( 596 1.33 petrov "wr %4,%%g0,%%asi; " 597 1.33 petrov "rdpr %%pstate,%1; " 598 1.33 petrov "sllx %3,32,%0; " 599 1.33 petrov "wrpr %1,8,%%pstate; " 600 1.33 petrov "or %0,%2,%0; " 601 1.33 petrov "membar #Sync; " 602 1.33 petrov "lda [%0]%%asi,%0; " 603 1.33 petrov "wrpr %1,0,%%pstate; " 604 1.33 petrov "membar #Sync; " 605 1.33 petrov "wr %%g0, 0x82, %%asi " 606 1.33 petrov : "=&r" (_lda_v), "=&r" (_pstate) 607 1.33 petrov : "r" ((unsigned long)(loc)), "r" (_loc_hi), "r" (asi)); 608 1.33 petrov } else { 609 1.33 petrov __asm __volatile( 610 1.33 petrov "wr %3,%%g0,%%asi; " 611 1.33 petrov "sllx %2,32,%0; " 612 1.33 petrov "or %0,%1,%0; " 613 1.33 petrov "lda [%0]%%asi,%0; " 614 1.33 petrov "wr %%g0, 0x82, %%asi " 615 1.33 petrov : "=&r" (_lda_v) 616 1.33 petrov : "r" ((unsigned long)(loc)), "r" (_loc_hi), "r" (asi)); 617 1.21 eeh } 618 1.21 eeh return (_lda_v); 619 1.21 eeh } 620 1.21 eeh 621 1.21 eeh /* load signed int from alternate address space */ 622 1.21 eeh static __inline__ int 623 1.21 eeh ldswa(paddr_t loc, int asi) 624 1.21 eeh { 625 1.21 eeh register int _lda_v, _loc_hi, _pstate; 626 1.21 eeh 627 1.21 eeh _loc_hi = (((u_int64_t)loc)>>32); 628 1.21 eeh if (PHYS_ASI(asi)) { 629 1.33 petrov __asm __volatile( 630 1.33 petrov "wr %4,%%g0,%%asi; " 631 1.33 petrov "rdpr %%pstate,%1; " 632 1.33 petrov "wrpr %1,8,%%pstate; " 633 1.33 petrov "sllx %3,32,%0; " 634 1.33 petrov " or %0,%2,%0; " 635 1.33 petrov "membar #Sync; " 636 1.33 petrov "ldswa [%0]%%asi,%0; " 637 1.33 petrov "wrpr %1,0,%%pstate; " 638 1.33 petrov "membar #Sync; " 639 1.33 petrov "wr %%g0, 0x82, %%asi " 640 1.33 petrov : "=&r" (_lda_v), "=&r" (_pstate) 641 1.33 petrov : "r" ((unsigned long)(loc)), "r" (_loc_hi), "r" (asi)); 642 1.33 petrov } else { 643 1.33 petrov __asm __volatile( 644 1.33 petrov "wr %3,%%g0,%%asi; " 645 1.33 petrov "sllx %2,32,%0; " 646 1.33 petrov "or %0,%1,%0; " 647 1.33 petrov "ldswa [%0]%%asi,%0; " 648 1.33 petrov "wr %%g0, 0x82, %%asi " 649 1.33 petrov : "=&r" (_lda_v) 650 1.33 petrov : "r" ((unsigned long)(loc)), "r" (_loc_hi), "r" (asi)); 651 1.21 eeh } 652 1.21 eeh return (_lda_v); 653 1.21 eeh } 654 1.21 eeh #endif /* __arch64__ */ 655 1.21 eeh 656 1.21 eeh #ifdef __arch64__ 657 1.21 eeh /* load 64-bit int from alternate address space -- these should never be used */ 658 1.21 eeh static __inline__ u_int64_t 659 1.21 eeh ldda(paddr_t loc, int asi) 660 1.21 eeh { 661 1.21 eeh register long long _lda_v; 662 1.21 eeh 663 1.33 petrov __asm __volatile( 664 1.33 petrov "wr %2,%%g0,%%asi; " 665 1.33 petrov "ldda [%1]%%asi,%0; " 666 1.33 petrov "wr %%g0, 0x82, %%asi " 667 1.33 petrov : "=r" (_lda_v) 668 1.33 petrov : "r" ((unsigned long)(loc)), "r" (asi)); 669 1.21 eeh return (_lda_v); 670 1.21 eeh } 671 1.21 eeh #else 672 1.21 eeh /* load 64-bit int from alternate address space */ 673 1.21 eeh static __inline__ u_int64_t 674 1.21 eeh ldda(paddr_t loc, int asi) 675 1.21 eeh { 676 1.21 eeh register long long _lda_v, _loc_hi, _pstate; 677 1.21 eeh 678 1.21 eeh _loc_hi = (((u_int64_t)loc)>>32); 679 1.21 eeh if (PHYS_ASI(asi)) { 680 1.33 petrov __asm __volatile( 681 1.33 petrov "wr %4,%%g0,%%asi; " 682 1.33 petrov "rdpr %%pstate,%1; " 683 1.33 petrov "wrpr %1,8,%%pstate; " 684 1.33 petrov "sllx %3,32,%0; " 685 1.33 petrov "or %0,%2,%0; " 686 1.33 petrov "membar #Sync; " 687 1.33 petrov "ldda [%0]%%asi,%0; " 688 1.33 petrov "wrpr %1,0,%%pstate; " 689 1.33 petrov "membar #Sync; " 690 1.33 petrov "wr %%g0, 0x82, %%asi " 691 1.33 petrov : "=&r" (_lda_v), "=&r" (_pstate) 692 1.33 petrov : "r" ((unsigned long)(loc)), "r" (_loc_hi), "r" (asi)); 693 1.33 petrov } else { 694 1.33 petrov __asm __volatile( 695 1.33 petrov "wr %3,%%g0,%%asi; " 696 1.33 petrov "sllx %2,32,%0; " 697 1.33 petrov " or %0,%1,%0; " 698 1.33 petrov "ldda [%0]%%asi,%0; " 699 1.33 petrov "wr %%g0, 0x82, %%asi " 700 1.33 petrov : "=&r" (_lda_v) 701 1.33 petrov : "r" ((unsigned long)(loc)), "r" (_loc_hi), "r" (asi)); 702 1.21 eeh } 703 1.21 eeh return (_lda_v); 704 1.21 eeh } 705 1.21 eeh #endif 706 1.21 eeh 707 1.21 eeh 708 1.21 eeh #ifdef __arch64__ 709 1.21 eeh /* native load 64-bit int from alternate address space w/64-bit compiler*/ 710 1.21 eeh static __inline__ u_int64_t 711 1.21 eeh ldxa(paddr_t loc, int asi) 712 1.21 eeh { 713 1.21 eeh register unsigned long _lda_v; 714 1.21 eeh 715 1.33 petrov __asm __volatile( 716 1.33 petrov "wr %2,%%g0,%%asi; " 717 1.33 petrov "ldxa [%1]%%asi,%0; " 718 1.33 petrov "wr %%g0, 0x82, %%asi " 719 1.33 petrov : "=r" (_lda_v) 720 1.33 petrov : "r" ((unsigned long)(loc)), "r" (asi)); 721 1.21 eeh return (_lda_v); 722 1.21 eeh } 723 1.21 eeh #else 724 1.21 eeh /* native load 64-bit int from alternate address space w/32-bit compiler*/ 725 1.21 eeh static __inline__ u_int64_t 726 1.21 eeh ldxa(paddr_t loc, int asi) 727 1.21 eeh { 728 1.21 eeh register unsigned long _ldxa_lo, _ldxa_hi, _loc_hi; 729 1.21 eeh 730 1.21 eeh _loc_hi = (((u_int64_t)loc)>>32); 731 1.21 eeh if (PHYS_ASI(asi)) { 732 1.33 petrov __asm __volatile( 733 1.33 petrov "wr %4,%%g0,%%asi; " 734 1.33 petrov "rdpr %%pstate,%1; " 735 1.33 petrov "sllx %3,32,%0; " 736 1.33 petrov "wrpr %1,8,%%pstate; " 737 1.33 petrov "or %0, %2, %0; " 738 1.33 petrov "membar #Sync; " 739 1.33 petrov "ldxa [%0]%%asi,%0; " 740 1.33 petrov "wrpr %1,0,%%pstate; " 741 1.33 petrov "membar #Sync; " 742 1.33 petrov "srlx %0, 32, %1; " 743 1.33 petrov "srl %0, 0, %0; " 744 1.33 petrov "wr %%g0, 0x82, %%asi " 745 1.33 petrov : "=&r" (_ldxa_lo), "=&r" (_ldxa_hi) 746 1.33 petrov : "r" ((unsigned long)(loc)), "r" (_loc_hi), "r" (asi)); 747 1.33 petrov } else { 748 1.33 petrov __asm __volatile( 749 1.33 petrov "wr %4,%%g0,%%asi; " 750 1.33 petrov "sllx %3,32,%0; " 751 1.33 petrov "or %0,%2,%0; " 752 1.33 petrov "ldxa [%0]%%asi,%0; " 753 1.33 petrov "srlx %0,32,%1; " 754 1.33 petrov "srl %0, 0, %0; " 755 1.33 petrov "wr %%g0, 0x82, %%asi " 756 1.33 petrov : "=&r" (_ldxa_lo), "=&r" (_ldxa_hi) 757 1.33 petrov : "r" ((unsigned long)(loc)), "r" (_loc_hi), "r" (asi)); 758 1.21 eeh } 759 1.21 eeh return ((((int64_t)_ldxa_hi)<<32)|_ldxa_lo); 760 1.21 eeh } 761 1.21 eeh #endif 762 1.21 eeh 763 1.21 eeh /* store byte to alternate address space */ 764 1.21 eeh #ifdef __arch64__ 765 1.21 eeh static __inline__ void 766 1.21 eeh stba(paddr_t loc, int asi, u_char value) 767 1.21 eeh { 768 1.33 petrov __asm __volatile( 769 1.33 petrov "wr %2, %%g0, %%asi; " 770 1.33 petrov "stba %0, [%1]%%asi; " 771 1.33 petrov "wr %%g0, 0x82, %%asi " 772 1.33 petrov : : "r" ((int)(value)), "r" ((unsigned long)(loc)), "r" (asi)); 773 1.21 eeh } 774 1.21 eeh #else 775 1.21 eeh static __inline__ void 776 1.21 eeh stba(paddr_t loc, int asi, u_char value) 777 1.21 eeh { 778 1.21 eeh register int _loc_hi, _pstate; 779 1.21 eeh 780 1.21 eeh _loc_hi = (((u_int64_t)loc)>>32); 781 1.21 eeh if (PHYS_ASI(asi)) { 782 1.33 petrov __asm __volatile( 783 1.33 petrov "wr %5,%%g0,%%asi; " 784 1.33 petrov "sllx %4,32,%0; " 785 1.33 petrov "rdpr %%pstate,%1; " 786 1.33 petrov "or %3,%0,%0; " 787 1.33 petrov "wrpr %1,8,%%pstate; " 788 1.33 petrov "stba %2,[%0]%%asi; " 789 1.33 petrov "wrpr %1,0,%%pstate; " 790 1.33 petrov "membar #Sync; " 791 1.33 petrov "wr %%g0, 0x82, %%asi " 792 1.33 petrov : "=&r" (_loc_hi), "=&r" (_pstate) 793 1.33 petrov : "r" ((int)(value)), "r" ((unsigned long)(loc)), "r" (_loc_hi), "r" (asi)); 794 1.33 petrov } else { 795 1.33 petrov __asm __volatile( 796 1.33 petrov "wr %4,%%g0,%%asi; " 797 1.33 petrov "sllx %3,32,%0; " 798 1.33 petrov "or %2,%0,%0; " 799 1.33 petrov "stba %1,[%0]%%asi; " 800 1.33 petrov "wr %%g0, 0x82, %%asi " 801 1.33 petrov : "=&r" (_loc_hi) 802 1.33 petrov : "r" ((int)(value)), "r" ((unsigned long)(loc)), "r" (_loc_hi), "r" (asi)); 803 1.21 eeh } 804 1.21 eeh } 805 1.21 eeh #endif 806 1.21 eeh 807 1.21 eeh /* store half-word to alternate address space */ 808 1.21 eeh #ifdef __arch64__ 809 1.21 eeh static __inline__ void 810 1.21 eeh stha(paddr_t loc, int asi, u_short value) 811 1.21 eeh { 812 1.33 petrov __asm __volatile( 813 1.33 petrov "wr %2,%%g0,%%asi; " 814 1.33 petrov "stha %0,[%1]%%asi; " 815 1.33 petrov "wr %%g0, 0x82, %%asi " 816 1.33 petrov : : "r" ((int)(value)), "r" ((unsigned long)(loc)), 817 1.30 eeh "r" (asi) : "memory"); 818 1.21 eeh } 819 1.21 eeh #else 820 1.21 eeh static __inline__ void 821 1.21 eeh stha(paddr_t loc, int asi, u_short value) 822 1.21 eeh { 823 1.21 eeh register int _loc_hi, _pstate; 824 1.21 eeh 825 1.21 eeh _loc_hi = (((u_int64_t)loc)>>32); 826 1.21 eeh if (PHYS_ASI(asi)) { 827 1.33 petrov __asm __volatile( 828 1.33 petrov "wr %5,%%g0,%%asi; " 829 1.33 petrov "sllx %4,32,%0; " 830 1.33 petrov "rdpr %%pstate,%1; " 831 1.33 petrov "or %3,%0,%0; " 832 1.33 petrov "wrpr %1,8,%%pstate; " 833 1.33 petrov "stha %2,[%0]%%asi; " 834 1.33 petrov "wrpr %1,0,%%pstate; " 835 1.33 petrov "membar #Sync; " 836 1.33 petrov "wr %%g0, 0x82, %%asi " 837 1.33 petrov : "=&r" (_loc_hi), "=&r" (_pstate) 838 1.33 petrov : "r" ((int)(value)), "r" ((unsigned long)(loc)), "r" (_loc_hi), "r" (asi) 839 1.33 petrov : "memory"); 840 1.33 petrov } else { 841 1.33 petrov __asm __volatile( 842 1.33 petrov "wr %4,%%g0,%%asi; " 843 1.33 petrov "sllx %3,32,%0; " 844 1.33 petrov "or %2,%0,%0; " 845 1.33 petrov "stha %1,[%0]%%asi; " 846 1.33 petrov "wr %%g0, 0x82, %%asi " 847 1.33 petrov : "=&r" (_loc_hi) 848 1.33 petrov : "r" ((int)(value)), "r" ((unsigned long)(loc)), "r" (_loc_hi), "r" (asi) 849 1.33 petrov : "memory"); 850 1.21 eeh } 851 1.21 eeh } 852 1.21 eeh #endif 853 1.21 eeh 854 1.21 eeh 855 1.21 eeh /* store int to alternate address space */ 856 1.21 eeh #ifdef __arch64__ 857 1.21 eeh static __inline__ void 858 1.21 eeh sta(paddr_t loc, int asi, u_int value) 859 1.21 eeh { 860 1.33 petrov __asm __volatile( 861 1.33 petrov "wr %2,%%g0,%%asi; " 862 1.33 petrov "sta %0,[%1]%%asi; " 863 1.33 petrov "wr %%g0, 0x82, %%asi " 864 1.33 petrov : : "r" ((int)(value)), "r" ((unsigned long)(loc)), 865 1.30 eeh "r" (asi) : "memory"); 866 1.21 eeh } 867 1.21 eeh #else 868 1.21 eeh static __inline__ void 869 1.21 eeh sta(paddr_t loc, int asi, u_int value) 870 1.21 eeh { 871 1.21 eeh register int _loc_hi, _pstate; 872 1.21 eeh 873 1.21 eeh _loc_hi = (((u_int64_t)loc)>>32); 874 1.21 eeh if (PHYS_ASI(asi)) { 875 1.33 petrov __asm __volatile( 876 1.33 petrov "wr %5,%%g0,%%asi; " 877 1.33 petrov "sllx %4,32,%0; " 878 1.33 petrov "rdpr %%pstate,%1; " 879 1.33 petrov "or %3,%0,%0; " 880 1.33 petrov "wrpr %1,8,%%pstate; " 881 1.33 petrov "sta %2,[%0]%%asi; " 882 1.33 petrov "wrpr %1,0,%%pstate; " 883 1.33 petrov "membar #Sync; " 884 1.33 petrov "wr %%g0, 0x82, %%asi " 885 1.33 petrov : "=&r" (_loc_hi), "=&r" (_pstate) 886 1.33 petrov : "r" ((int)(value)), "r" ((unsigned long)(loc)), "r" (_loc_hi), "r" (asi) 887 1.33 petrov : "memory"); 888 1.33 petrov } else { 889 1.33 petrov __asm __volatile( 890 1.33 petrov "wr %4,%%g0,%%asi; " 891 1.33 petrov "sllx %3,32,%0; " 892 1.33 petrov "or %2,%0,%0; " 893 1.33 petrov "sta %1,[%0]%%asi; " 894 1.33 petrov "wr %%g0, 0x82, %%asi " 895 1.33 petrov : "=&r" (_loc_hi) 896 1.33 petrov : "r" ((int)(value)), "r" ((unsigned long)(loc)), "r" (_loc_hi), "r" (asi) 897 1.33 petrov : "memory"); 898 1.21 eeh } 899 1.21 eeh } 900 1.21 eeh #endif 901 1.21 eeh 902 1.21 eeh /* store 64-bit int to alternate address space */ 903 1.21 eeh #ifdef __arch64__ 904 1.21 eeh static __inline__ void 905 1.21 eeh stda(paddr_t loc, int asi, u_int64_t value) 906 1.21 eeh { 907 1.33 petrov __asm __volatile( 908 1.33 petrov "wr %2,%%g0,%%asi; " 909 1.33 petrov "stda %0,[%1]%%asi; " 910 1.33 petrov "wr %%g0, 0x82, %%asi " 911 1.33 petrov : : "r" ((long long)(value)), "r" ((unsigned long)(loc)), "r" (asi) 912 1.33 petrov : "memory"); 913 1.21 eeh } 914 1.21 eeh #else 915 1.21 eeh static __inline__ void 916 1.21 eeh stda(paddr_t loc, int asi, u_int64_t value) 917 1.21 eeh { 918 1.21 eeh register int _loc_hi, _pstate; 919 1.21 eeh 920 1.21 eeh _loc_hi = (((u_int64_t)loc)>>32); 921 1.21 eeh if (PHYS_ASI(asi)) { 922 1.33 petrov __asm __volatile( 923 1.33 petrov "wr %5,%%g0,%%asi; " 924 1.33 petrov "sllx %4,32,%0; " 925 1.33 petrov "rdpr %%pstate,%1; " 926 1.33 petrov "or %3,%0,%0; " 927 1.33 petrov "wrpr %1,8,%%pstate; " 928 1.33 petrov "stda %2,[%0]%%asi; " 929 1.33 petrov "wrpr %1,0,%%pstate; " 930 1.33 petrov "membar #Sync; " 931 1.33 petrov "wr %%g0, 0x82, %%asi " 932 1.33 petrov : "=&r" (_loc_hi), "=&r" (_pstate) 933 1.33 petrov : "r" ((long long)(value)), "r" ((unsigned long)(loc)), 934 1.33 petrov "r" (_loc_hi), "r" (asi) 935 1.33 petrov : "memory"); 936 1.33 petrov } else { 937 1.33 petrov __asm __volatile( 938 1.33 petrov "wr %4,%%g0,%%asi; " 939 1.33 petrov "sllx %3,32,%0; " 940 1.33 petrov "or %2,%0,%0; " 941 1.33 petrov "stda %1,[%0]%%asi; " 942 1.33 petrov "wr %%g0, 0x82, %%asi " 943 1.33 petrov : "=&r" (_loc_hi) 944 1.33 petrov : "r" ((long long)(value)), "r" ((unsigned long)(loc)), 945 1.33 petrov "r" (_loc_hi), "r" (asi) 946 1.33 petrov : "memory"); 947 1.21 eeh } 948 1.21 eeh } 949 1.21 eeh #endif 950 1.21 eeh 951 1.21 eeh #ifdef __arch64__ 952 1.21 eeh /* native store 64-bit int to alternate address space w/64-bit compiler*/ 953 1.21 eeh static __inline__ void 954 1.21 eeh stxa(paddr_t loc, int asi, u_int64_t value) 955 1.21 eeh { 956 1.33 petrov __asm __volatile( 957 1.33 petrov "wr %2,%%g0,%%asi; " 958 1.33 petrov "stxa %0,[%1]%%asi; " 959 1.33 petrov "wr %%g0, 0x82, %%asi " 960 1.33 petrov : : "r" ((unsigned long)(value)), 961 1.33 petrov "r" ((unsigned long)(loc)), "r" (asi) 962 1.33 petrov : "memory"); 963 1.21 eeh } 964 1.21 eeh #else 965 1.21 eeh /* native store 64-bit int to alternate address space w/32-bit compiler*/ 966 1.21 eeh static __inline__ void 967 1.21 eeh stxa(paddr_t loc, int asi, u_int64_t value) 968 1.21 eeh { 969 1.21 eeh int _stxa_lo, _stxa_hi, _loc_hi; 970 1.21 eeh 971 1.21 eeh _stxa_lo = value; 972 1.21 eeh _stxa_hi = ((u_int64_t)value)>>32; 973 1.32 nakayama _loc_hi = (((u_int64_t)loc)>>32); 974 1.21 eeh 975 1.21 eeh if (PHYS_ASI(asi)) { 976 1.33 petrov __asm __volatile( 977 1.33 petrov "wr %7,%%g0,%%asi; " 978 1.33 petrov "sllx %4,32,%1; " 979 1.33 petrov "sllx %6,32,%0; " 980 1.33 petrov "or %1,%3,%1; " 981 1.33 petrov "rdpr %%pstate,%2; " 982 1.33 petrov "or %0,%5,%0; " 983 1.33 petrov "wrpr %2,8,%%pstate; " 984 1.33 petrov "stxa %1,[%0]%%asi; " 985 1.33 petrov "wrpr %2,0,%%pstate; " 986 1.33 petrov "membar #Sync; " 987 1.33 petrov "wr %%g0, 0x82, %%asi " 988 1.33 petrov : "=&r" (_loc_hi), "=&r" (_stxa_hi), "=&r" ((int)(_stxa_lo)) 989 1.33 petrov : "r" ((int)(_stxa_lo)), "r" ((int)(_stxa_hi)), 990 1.33 petrov "r" ((unsigned long)(loc)), "r" (_loc_hi), "r" (asi) 991 1.33 petrov : "memory"); 992 1.33 petrov } else { 993 1.33 petrov __asm __volatile( 994 1.33 petrov "wr %6,%%g0,%%asi; " 995 1.33 petrov "sllx %3,32,%1; " 996 1.33 petrov "sllx %5,32,%0; " 997 1.33 petrov "or %1,%2,%1; " 998 1.33 petrov "or %0,%4,%0; " 999 1.33 petrov "stxa %1,[%0]%%asi; " 1000 1.33 petrov "wr %%g0, 0x82, %%asi " 1001 1.33 petrov : "=&r" (_loc_hi), "=&r" (_stxa_hi) 1002 1.33 petrov : "r" ((int)(_stxa_lo)), "r" ((int)(_stxa_hi)), 1003 1.33 petrov "r" ((unsigned long)(loc)), "r" (_loc_hi), "r" (asi) 1004 1.33 petrov : "memory"); 1005 1.21 eeh } 1006 1.21 eeh } 1007 1.21 eeh #endif 1008 1.21 eeh 1009 1.24 fvdl #if 0 1010 1.23 eeh #ifdef __arch64__ 1011 1.23 eeh /* native store 64-bit int to alternate address space w/64-bit compiler*/ 1012 1.23 eeh static __inline__ u_int64_t 1013 1.23 eeh casxa(paddr_t loc, int asi, u_int64_t value, u_int64_t oldvalue) 1014 1.23 eeh { 1015 1.33 petrov __asm __volatile( 1016 1.33 petrov "wr %3,%%g0,%%asi; " 1017 1.33 petrov "casxa [%1]%%asi,%2,%0; " 1018 1.33 petrov "wr %%g0, 0x82, %%asi " 1019 1.33 petrov : "+r" (value) 1020 1.33 petrov : "r" ((unsigned long)(loc)), "r" (oldvalue), "r" (asi) 1021 1.33 petrov : "memory"); 1022 1.23 eeh return (value); 1023 1.23 eeh } 1024 1.23 eeh #else 1025 1.23 eeh /* native store 64-bit int to alternate address space w/32-bit compiler*/ 1026 1.23 eeh static __inline__ u_int64_t 1027 1.23 eeh casxa(paddr_t loc, int asi, u_int64_t value, u_int64_t oldvalue) 1028 1.23 eeh { 1029 1.23 eeh int _casxa_lo, _casxa_hi, _loc_hi, _oval_hi; 1030 1.23 eeh 1031 1.23 eeh _casxa_lo = value; 1032 1.23 eeh _casxa_hi = ((u_int64_t)value)>>32; 1033 1.23 eeh _oval_hi = ((u_int64_t)oldvalue)>>32; 1034 1.32 nakayama _loc_hi = (((u_int64_t)loc)>>32); 1035 1.23 eeh 1036 1.25 eeh #ifdef __notyet 1037 1.25 eeh /* 1038 1.25 eeh * gcc cannot handle this since it thinks it has >10 asm operands. 1039 1.25 eeh */ 1040 1.23 eeh if (PHYS_ASI(asi)) { 1041 1.33 petrov __asm __volatile( 1042 1.33 petrov "wr %6,%%g0,%%asi; " 1043 1.33 petrov "sllx %1,32,%1; " 1044 1.33 petrov "rdpr %%pstate,%2; " 1045 1.33 petrov "sllx %0,32,%0; " 1046 1.33 petrov "or %1,%2,%1; " 1047 1.33 petrov "sllx %3,32,%3; " 1048 1.33 petrov "or %0,%4,%0; " 1049 1.33 petrov "or %3,%5,%3; " 1050 1.33 petrov "wrpr %2,8,%%pstate; " 1051 1.33 petrov "casxa [%0]%%asi,%3,%1; " 1052 1.33 petrov "wrpr %2,0,%%pstate; " 1053 1.33 petrov "andn %0,0x1f,%3; " 1054 1.33 petrov "membar #Sync; " 1055 1.33 petrov "sll %1,0,%2; " 1056 1.33 petrov "srax %1,32,%1; " 1057 1.33 petrov "wr %%g0, 0x82, %%asi " 1058 1.33 petrov : "+r" (_loc_hi), "+r" (_casxa_hi), "+r" (_casxa_lo), "+r" (_oval_hi) 1059 1.33 petrov : "r" ((unsigned long)(loc)), "r" ((unsigned int)(oldvalue)), 1060 1.33 petrov "r" (asi) 1061 1.33 petrov : "memory"); 1062 1.33 petrov } else { 1063 1.33 petrov __asm __volatile( 1064 1.33 petrov "wr %7,%%g0,%%asi; " 1065 1.33 petrov "sllx %1,32,%1; " 1066 1.33 petrov "sllx %5,32,%0; " 1067 1.33 petrov "or %1,%2,%1; " 1068 1.33 petrov "sllx %3,32,%2; " 1069 1.33 petrov "or %0,%4,%0; " 1070 1.33 petrov "or %2,%4,%2; " 1071 1.33 petrov "casxa [%0]%%asi,%2,%1; " 1072 1.33 petrov "sll %1,0,%2; " 1073 1.33 petrov "srax %o1,32,%o1; " 1074 1.33 petrov "wr %%g0, 0x82, %%asi " 1075 1.33 petrov : "=&r" (_loc_hi), "+r" (_casxa_hi), "+r" (_casxa_lo) 1076 1.33 petrov : "r" ((int)(_oval_hi)), "r" ((int)(oldvalue)), 1077 1.23 eeh "r" ((unsigned long)(loc)), "r" (_loc_hi), 1078 1.33 petrov "r" (asi) 1079 1.33 petrov : "memory"); 1080 1.23 eeh } 1081 1.25 eeh #endif 1082 1.25 eeh return (((u_int64_t)_casxa_hi<<32)|(u_int64_t)_casxa_lo); 1083 1.23 eeh } 1084 1.23 eeh #endif 1085 1.24 fvdl #endif /* 0 */ 1086 1.23 eeh 1087 1.2 eeh /* flush address from data cache */ 1088 1.26 eeh #define flush(loc) ({ \ 1089 1.2 eeh __asm __volatile("flush %0" : : \ 1090 1.16 eeh "r" ((unsigned long)(loc))); \ 1091 1.2 eeh }) 1092 1.2 eeh 1093 1.6 eeh /* Flush a D$ line */ 1094 1.6 eeh #if 0 1095 1.26 eeh #define flushline(loc) ({ \ 1096 1.6 eeh stxa(((paddr_t)loc)&(~0x1f), (ASI_DCACHE_TAG), 0); \ 1097 1.6 eeh membar_sync(); \ 1098 1.6 eeh }) 1099 1.6 eeh #endif 1100 1.6 eeh 1101 1.6 eeh /* The following two enable or disable the dcache in the LSU control register */ 1102 1.26 eeh #define dcenable() ({ \ 1103 1.6 eeh int res; \ 1104 1.6 eeh __asm __volatile("ldxa [%%g0] %1,%0; or %0,%2,%0; stxa %0,[%%g0] %1; membar #Sync" \ 1105 1.6 eeh : "r" (res) : "n" (ASI_MCCR), "n" (MCCR_DCACHE_EN)); \ 1106 1.6 eeh }) 1107 1.26 eeh #define dcdisable() ({ \ 1108 1.6 eeh int res; \ 1109 1.6 eeh __asm __volatile("ldxa [%%g0] %1,%0; andn %0,%2,%0; stxa %0,[%%g0] %1; membar #Sync" \ 1110 1.6 eeh : "r" (res) : "n" (ASI_MCCR), "n" (MCCR_DCACHE_EN)); \ 1111 1.6 eeh }) 1112 1.6 eeh 1113 1.6 eeh /* 1114 1.6 eeh * SPARC V9 memory barrier instructions. 1115 1.6 eeh */ 1116 1.6 eeh /* Make all stores complete before next store */ 1117 1.26 eeh #define membar_storestore() __asm __volatile("membar #StoreStore" : :) 1118 1.6 eeh /* Make all loads complete before next store */ 1119 1.26 eeh #define membar_loadstore() __asm __volatile("membar #LoadStore" : :) 1120 1.6 eeh /* Make all stores complete before next load */ 1121 1.26 eeh #define membar_storeload() __asm __volatile("membar #StoreLoad" : :) 1122 1.6 eeh /* Make all loads complete before next load */ 1123 1.26 eeh #define membar_loadload() __asm __volatile("membar #LoadLoad" : :) 1124 1.6 eeh /* Complete all outstanding memory operations and exceptions */ 1125 1.26 eeh #define membar_sync() __asm __volatile("membar #Sync" : :) 1126 1.6 eeh /* Complete all outstanding memory operations */ 1127 1.26 eeh #define membar_memissue() __asm __volatile("membar #MemIssue" : :) 1128 1.6 eeh /* Complete all outstanding stores before any new loads */ 1129 1.26 eeh #define membar_lookaside() __asm __volatile("membar #Lookaside" : :) 1130 1.2 eeh 1131 1.5 mrg #ifdef __arch64__ 1132 1.2 eeh /* read 64-bit %tick register */ 1133 1.2 eeh #define tick() ({ \ 1134 1.3 eeh register u_long _tick_tmp; \ 1135 1.2 eeh __asm __volatile("rdpr %%tick, %0" : "=r" (_tick_tmp) :); \ 1136 1.2 eeh _tick_tmp; \ 1137 1.2 eeh }) 1138 1.2 eeh #else 1139 1.9 eeh /* read 64-bit %tick register on 32-bit system */ 1140 1.2 eeh #define tick() ({ \ 1141 1.25 eeh register u_int _tick_hi = 0, _tick_lo = 0; \ 1142 1.25 eeh __asm __volatile("rdpr %%tick, %0; srl %0,0,%1; srlx %0,32,%0 " \ 1143 1.10 eeh : "=r" (_tick_hi), "=r" (_tick_lo) : ); \ 1144 1.10 eeh (((u_int64_t)_tick_hi)<<32)|((u_int64_t)_tick_lo); \ 1145 1.2 eeh }) 1146 1.1 eeh #endif 1147 1.2 eeh 1148 1.12 mrg extern void next_tick __P((long)); 1149 1.9 eeh #endif 1150 1.33 petrov 1151 1.33 petrov #endif /* _SPARC_CTLREG_H_ */ 1152
Indexes created Mon Sep 29 21:09:56 GMT 2025