1 /* $NetBSD: cpufunc.h,v 1.29 2003/09/06 09:08:35 rearnsha Exp $ */ 2 3 /*- 4 * Copyright (c) 1997 Mark Brinicombe. 5 * Copyright (c) 1997 Causality Limited 6 * All rights reserved. 7 * 8 * Redistribution and use in source and binary forms, with or without 9 * modification, are permitted provided that the following conditions 10 * are met: 11 * 1. Redistributions of source code must retain the above copyright 12 * notice, this list of conditions and the following disclaimer. 13 * 2. Redistributions in binary form must reproduce the above copyright 14 * notice, this list of conditions and the following disclaimer in the 15 * documentation and/or other materials provided with the distribution. 16 * 3. All advertising materials mentioning features or use of this software 17 * must display the following acknowledgement: 18 * This product includes software developed by Causality Limited. 19 * 4. The name of Causality Limited may not be used to endorse or promote 20 * products derived from this software without specific prior written 21 * permission. 22 * 23 * THIS SOFTWARE IS PROVIDED BY CAUSALITY LIMITED ``AS IS'' AND ANY EXPRESS 24 * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED 25 * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE 26 * DISCLAIMED. IN NO EVENT SHALL CAUSALITY LIMITED BE LIABLE FOR ANY DIRECT, 27 * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES 28 * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR 29 * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 30 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 31 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 32 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 33 * SUCH DAMAGE. 34 * 35 * RiscBSD kernel project 36 * 37 * cpufunc.h 38 * 39 * Prototypes for cpu, mmu and tlb related functions. 40 * 41 * $FreeBSD$ 42 */ 43 44 #ifndef _MACHINE_CPUFUNC_H_ 45 #define _MACHINE_CPUFUNC_H_ 46 47 #ifdef _KERNEL 48 49 #include <sys/types.h> 50 #include <machine/armreg.h> 51 #include <machine/cpuconf.h> 52 53 static __inline void 54 breakpoint(void) 55 { 56 __asm(".word 0xe7ffffff"); 57 } 58 59 struct cpu_functions { 60 61 /* CPU functions */ 62 63 u_int (*cf_id) (void); 64 void (*cf_cpwait) (void); 65 66 /* MMU functions */ 67 68 u_int (*cf_control) (u_int bic, u_int eor); 69 void (*cf_domains) (u_int domains); 70 void (*cf_setttb) (u_int ttb); 71 u_int (*cf_faultstatus) (void); 72 u_int (*cf_faultaddress) (void); 73 74 /* TLB functions */ 75 76 void (*cf_tlb_flushID) (void); 77 void (*cf_tlb_flushID_SE) (u_int va); 78 void (*cf_tlb_flushI) (void); 79 void (*cf_tlb_flushI_SE) (u_int va); 80 void (*cf_tlb_flushD) (void); 81 void (*cf_tlb_flushD_SE) (u_int va); 82 83 /* 84 * Cache operations: 85 * 86 * We define the following primitives: 87 * 88 * icache_sync_all Synchronize I-cache 89 * icache_sync_range Synchronize I-cache range 90 * 91 * dcache_wbinv_all Write-back and Invalidate D-cache 92 * dcache_wbinv_range Write-back and Invalidate D-cache range 93 * dcache_inv_range Invalidate D-cache range 94 * dcache_wb_range Write-back D-cache range 95 * 96 * idcache_wbinv_all Write-back and Invalidate D-cache, 97 * Invalidate I-cache 98 * idcache_wbinv_range Write-back and Invalidate D-cache, 99 * Invalidate I-cache range 100 * 101 * Note that the ARM term for "write-back" is "clean". We use 102 * the term "write-back" since it's a more common way to describe 103 * the operation. 104 * 105 * There are some rules that must be followed: 106 * 107 * ID-cache Invalidate All: 108 * Unlike other functions, this one must never write back. 109 * It is used to intialize the MMU when it is in an unknown 110 * state (such as when it may have lines tagged as valid 111 * that belong to a previous set of mappings). 112 * 113 * I-cache Synch (all or range): 114 * The goal is to synchronize the instruction stream, 115 * so you may beed to write-back dirty D-cache blocks 116 * first. If a range is requested, and you can't 117 * synchronize just a range, you have to hit the whole 118 * thing. 119 * 120 * D-cache Write-Back and Invalidate range: 121 * If you can't WB-Inv a range, you must WB-Inv the 122 * entire D-cache. 123 * 124 * D-cache Invalidate: 125 * If you can't Inv the D-cache, you must Write-Back 126 * and Invalidate. Code that uses this operation 127 * MUST NOT assume that the D-cache will not be written 128 * back to memory. 129 * 130 * D-cache Write-Back: 131 * If you can't Write-back without doing an Inv, 132 * that's fine. Then treat this as a WB-Inv. 133 * Skipping the invalidate is merely an optimization. 134 * 135 * All operations: 136 * Valid virtual addresses must be passed to each 137 * cache operation. 138 */ 139 void (*cf_icache_sync_all) (void); 140 void (*cf_icache_sync_range) (vm_offset_t, vm_size_t); 141 142 void (*cf_dcache_wbinv_all) (void); 143 void (*cf_dcache_wbinv_range) (vm_offset_t, vm_size_t); 144 void (*cf_dcache_inv_range) (vm_offset_t, vm_size_t); 145 void (*cf_dcache_wb_range) (vm_offset_t, vm_size_t); 146 147 void (*cf_idcache_inv_all) (void); 148 void (*cf_idcache_wbinv_all) (void); 149 void (*cf_idcache_wbinv_range) (vm_offset_t, vm_size_t); 150 void (*cf_l2cache_wbinv_all) (void); 151 void (*cf_l2cache_wbinv_range) (vm_offset_t, vm_size_t); 152 void (*cf_l2cache_inv_range) (vm_offset_t, vm_size_t); 153 void (*cf_l2cache_wb_range) (vm_offset_t, vm_size_t); 154 void (*cf_l2cache_drain_writebuf) (void); 155 156 /* Other functions */ 157 158 void (*cf_flush_prefetchbuf) (void); 159 void (*cf_drain_writebuf) (void); 160 void (*cf_flush_brnchtgt_C) (void); 161 void (*cf_flush_brnchtgt_E) (u_int va); 162 163 void (*cf_sleep) (int mode); 164 165 /* Soft functions */ 166 167 int (*cf_dataabt_fixup) (void *arg); 168 int (*cf_prefetchabt_fixup) (void *arg); 169 170 void (*cf_context_switch) (void); 171 172 void (*cf_setup) (void); 173 }; 174 175 extern struct cpu_functions cpufuncs; 176 extern u_int cputype; 177 178 #define cpu_ident() cpufuncs.cf_id() 179 #define cpu_cpwait() cpufuncs.cf_cpwait() 180 181 #define cpu_control(c, e) cpufuncs.cf_control(c, e) 182 #define cpu_domains(d) cpufuncs.cf_domains(d) 183 #define cpu_setttb(t) cpufuncs.cf_setttb(t) 184 #define cpu_faultstatus() cpufuncs.cf_faultstatus() 185 #define cpu_faultaddress() cpufuncs.cf_faultaddress() 186 187 #ifndef SMP 188 189 #define cpu_tlb_flushID() cpufuncs.cf_tlb_flushID() 190 #define cpu_tlb_flushID_SE(e) cpufuncs.cf_tlb_flushID_SE(e) 191 #define cpu_tlb_flushI() cpufuncs.cf_tlb_flushI() 192 #define cpu_tlb_flushI_SE(e) cpufuncs.cf_tlb_flushI_SE(e) 193 #define cpu_tlb_flushD() cpufuncs.cf_tlb_flushD() 194 #define cpu_tlb_flushD_SE(e) cpufuncs.cf_tlb_flushD_SE(e) 195 196 #else 197 void tlb_broadcast(int); 198 199 #if defined(CPU_CORTEXA) || defined(CPU_MV_PJ4B) || defined(CPU_KRAIT) 200 #define TLB_BROADCAST /* No need to explicitely send an IPI */ 201 #else 202 #define TLB_BROADCAST tlb_broadcast(7) 203 #endif 204 205 #define cpu_tlb_flushID() do { \ 206 cpufuncs.cf_tlb_flushID(); \ 207 TLB_BROADCAST; \ 208 } while(0) 209 210 #define cpu_tlb_flushID_SE(e) do { \ 211 cpufuncs.cf_tlb_flushID_SE(e); \ 212 TLB_BROADCAST; \ 213 } while(0) 214 215 216 #define cpu_tlb_flushI() do { \ 217 cpufuncs.cf_tlb_flushI(); \ 218 TLB_BROADCAST; \ 219 } while(0) 220 221 222 #define cpu_tlb_flushI_SE(e) do { \ 223 cpufuncs.cf_tlb_flushI_SE(e); \ 224 TLB_BROADCAST; \ 225 } while(0) 226 227 228 #define cpu_tlb_flushD() do { \ 229 cpufuncs.cf_tlb_flushD(); \ 230 TLB_BROADCAST; \ 231 } while(0) 232 233 234 #define cpu_tlb_flushD_SE(e) do { \ 235 cpufuncs.cf_tlb_flushD_SE(e); \ 236 TLB_BROADCAST; \ 237 } while(0) 238 239 #endif 240 241 #define cpu_icache_sync_all() cpufuncs.cf_icache_sync_all() 242 #define cpu_icache_sync_range(a, s) cpufuncs.cf_icache_sync_range((a), (s)) 243 244 #define cpu_dcache_wbinv_all() cpufuncs.cf_dcache_wbinv_all() 245 #define cpu_dcache_wbinv_range(a, s) cpufuncs.cf_dcache_wbinv_range((a), (s)) 246 #define cpu_dcache_inv_range(a, s) cpufuncs.cf_dcache_inv_range((a), (s)) 247 #define cpu_dcache_wb_range(a, s) cpufuncs.cf_dcache_wb_range((a), (s)) 248 249 #define cpu_idcache_inv_all() cpufuncs.cf_idcache_inv_all() 250 #define cpu_idcache_wbinv_all() cpufuncs.cf_idcache_wbinv_all() 251 #define cpu_idcache_wbinv_range(a, s) cpufuncs.cf_idcache_wbinv_range((a), (s)) 252 #define cpu_l2cache_wbinv_all() cpufuncs.cf_l2cache_wbinv_all() 253 #define cpu_l2cache_wb_range(a, s) cpufuncs.cf_l2cache_wb_range((a), (s)) 254 #define cpu_l2cache_inv_range(a, s) cpufuncs.cf_l2cache_inv_range((a), (s)) 255 #define cpu_l2cache_wbinv_range(a, s) cpufuncs.cf_l2cache_wbinv_range((a), (s)) 256 #define cpu_l2cache_drain_writebuf() cpufuncs.cf_l2cache_drain_writebuf() 257 258 #define cpu_flush_prefetchbuf() cpufuncs.cf_flush_prefetchbuf() 259 #define cpu_drain_writebuf() cpufuncs.cf_drain_writebuf() 260 #define cpu_flush_brnchtgt_C() cpufuncs.cf_flush_brnchtgt_C() 261 #define cpu_flush_brnchtgt_E(e) cpufuncs.cf_flush_brnchtgt_E(e) 262 263 #define cpu_sleep(m) cpufuncs.cf_sleep(m) 264 265 #define cpu_dataabt_fixup(a) cpufuncs.cf_dataabt_fixup(a) 266 #define cpu_prefetchabt_fixup(a) cpufuncs.cf_prefetchabt_fixup(a) 267 #define ABORT_FIXUP_OK 0 /* fixup succeeded */ 268 #define ABORT_FIXUP_FAILED 1 /* fixup failed */ 269 #define ABORT_FIXUP_RETURN 2 /* abort handler should return */ 270 271 #define cpu_setup() cpufuncs.cf_setup() 272 273 int set_cpufuncs (void); 274 #define ARCHITECTURE_NOT_PRESENT 1 /* known but not configured */ 275 #define ARCHITECTURE_NOT_SUPPORTED 2 /* not known */ 276 277 void cpufunc_nullop (void); 278 int cpufunc_null_fixup (void *); 279 int early_abort_fixup (void *); 280 int late_abort_fixup (void *); 281 u_int cpufunc_id (void); 282 u_int cpufunc_cpuid (void); 283 u_int cpufunc_control (u_int clear, u_int bic); 284 void cpufunc_domains (u_int domains); 285 u_int cpufunc_faultstatus (void); 286 u_int cpufunc_faultaddress (void); 287 u_int cpu_pfr (int); 288 289 #if defined(CPU_FA526) 290 void fa526_setup (void); 291 void fa526_setttb (u_int ttb); 292 void fa526_context_switch (void); 293 void fa526_cpu_sleep (int); 294 void fa526_tlb_flushI_SE (u_int); 295 void fa526_tlb_flushID_SE (u_int); 296 void fa526_flush_prefetchbuf (void); 297 void fa526_flush_brnchtgt_E (u_int); 298 299 void fa526_icache_sync_all (void); 300 void fa526_icache_sync_range(vm_offset_t start, vm_size_t end); 301 void fa526_dcache_wbinv_all (void); 302 void fa526_dcache_wbinv_range(vm_offset_t start, vm_size_t end); 303 void fa526_dcache_inv_range (vm_offset_t start, vm_size_t end); 304 void fa526_dcache_wb_range (vm_offset_t start, vm_size_t end); 305 void fa526_idcache_wbinv_all(void); 306 void fa526_idcache_wbinv_range(vm_offset_t start, vm_size_t end); 307 #endif 308 309 310 #ifdef CPU_ARM9 311 void arm9_setttb (u_int); 312 313 void arm9_tlb_flushID_SE (u_int va); 314 315 void arm9_icache_sync_all (void); 316 void arm9_icache_sync_range (vm_offset_t, vm_size_t); 317 318 void arm9_dcache_wbinv_all (void); 319 void arm9_dcache_wbinv_range (vm_offset_t, vm_size_t); 320 void arm9_dcache_inv_range (vm_offset_t, vm_size_t); 321 void arm9_dcache_wb_range (vm_offset_t, vm_size_t); 322 323 void arm9_idcache_wbinv_all (void); 324 void arm9_idcache_wbinv_range (vm_offset_t, vm_size_t); 325 326 void arm9_context_switch (void); 327 328 void arm9_setup (void); 329 330 extern unsigned arm9_dcache_sets_max; 331 extern unsigned arm9_dcache_sets_inc; 332 extern unsigned arm9_dcache_index_max; 333 extern unsigned arm9_dcache_index_inc; 334 #endif 335 336 #if defined(CPU_ARM9E) 337 void arm10_tlb_flushID_SE (u_int); 338 void arm10_tlb_flushI_SE (u_int); 339 340 void arm10_context_switch (void); 341 342 void arm10_setup (void); 343 344 u_int sheeva_control_ext (u_int, u_int); 345 void sheeva_cpu_sleep (int); 346 void sheeva_setttb (u_int); 347 void sheeva_dcache_wbinv_range (vm_offset_t, vm_size_t); 348 void sheeva_dcache_inv_range (vm_offset_t, vm_size_t); 349 void sheeva_dcache_wb_range (vm_offset_t, vm_size_t); 350 void sheeva_idcache_wbinv_range (vm_offset_t, vm_size_t); 351 352 void sheeva_l2cache_wbinv_range (vm_offset_t, vm_size_t); 353 void sheeva_l2cache_inv_range (vm_offset_t, vm_size_t); 354 void sheeva_l2cache_wb_range (vm_offset_t, vm_size_t); 355 void sheeva_l2cache_wbinv_all (void); 356 #endif 357 358 #if defined(CPU_MV_PJ4B) 359 void armv6_idcache_wbinv_all (void); 360 #endif 361 #if defined(CPU_MV_PJ4B) || defined(CPU_CORTEXA) || defined(CPU_KRAIT) 362 void armv7_setttb (u_int); 363 void armv7_tlb_flushID (void); 364 void armv7_tlb_flushID_SE (u_int); 365 void armv7_icache_sync_all (void); 366 void armv7_icache_sync_range (vm_offset_t, vm_size_t); 367 void armv7_idcache_wbinv_range (vm_offset_t, vm_size_t); 368 void armv7_idcache_inv_all (void); 369 void armv7_dcache_wbinv_all (void); 370 void armv7_idcache_wbinv_all (void); 371 void armv7_dcache_wbinv_range (vm_offset_t, vm_size_t); 372 void armv7_dcache_inv_range (vm_offset_t, vm_size_t); 373 void armv7_dcache_wb_range (vm_offset_t, vm_size_t); 374 void armv7_cpu_sleep (int); 375 void armv7_setup (void); 376 void armv7_context_switch (void); 377 void armv7_drain_writebuf (void); 378 void armv7_sev (void); 379 u_int armv7_auxctrl (u_int, u_int); 380 381 void armadaxp_idcache_wbinv_all (void); 382 383 void cortexa_setup (void); 384 #endif 385 #if defined(CPU_MV_PJ4B) 386 void pj4b_config (void); 387 void pj4bv7_setup (void); 388 #endif 389 390 #if defined(CPU_ARM1176) 391 void arm11_tlb_flushID (void); 392 void arm11_tlb_flushID_SE (u_int); 393 void arm11_tlb_flushI (void); 394 void arm11_tlb_flushI_SE (u_int); 395 void arm11_tlb_flushD (void); 396 void arm11_tlb_flushD_SE (u_int va); 397 398 void arm11_context_switch (void); 399 400 void arm11_drain_writebuf (void); 401 402 void armv6_dcache_wbinv_range (vm_offset_t, vm_size_t); 403 void armv6_dcache_inv_range (vm_offset_t, vm_size_t); 404 void armv6_dcache_wb_range (vm_offset_t, vm_size_t); 405 406 void armv6_idcache_inv_all (void); 407 408 void arm11x6_setttb (u_int); 409 void arm11x6_idcache_wbinv_all (void); 410 void arm11x6_dcache_wbinv_all (void); 411 void arm11x6_icache_sync_all (void); 412 void arm11x6_flush_prefetchbuf (void); 413 void arm11x6_icache_sync_range (vm_offset_t, vm_size_t); 414 void arm11x6_idcache_wbinv_range (vm_offset_t, vm_size_t); 415 void arm11x6_setup (void); 416 void arm11x6_sleep (int); /* no ref. for errata */ 417 #endif 418 419 #if defined(CPU_ARM9E) 420 void armv5_ec_setttb(u_int); 421 422 void armv5_ec_icache_sync_all(void); 423 void armv5_ec_icache_sync_range(vm_offset_t, vm_size_t); 424 425 void armv5_ec_dcache_wbinv_all(void); 426 void armv5_ec_dcache_wbinv_range(vm_offset_t, vm_size_t); 427 void armv5_ec_dcache_inv_range(vm_offset_t, vm_size_t); 428 void armv5_ec_dcache_wb_range(vm_offset_t, vm_size_t); 429 430 void armv5_ec_idcache_wbinv_all(void); 431 void armv5_ec_idcache_wbinv_range(vm_offset_t, vm_size_t); 432 #endif 433 434 #if defined(CPU_ARM9) || defined(CPU_ARM9E) || \ 435 defined(CPU_XSCALE_80321) || \ 436 defined(CPU_FA526) || \ 437 defined(CPU_XSCALE_PXA2X0) || defined(CPU_XSCALE_IXP425) || \ 438 defined(CPU_XSCALE_80219) || defined(CPU_XSCALE_81342) 439 440 void armv4_tlb_flushID (void); 441 void armv4_tlb_flushI (void); 442 void armv4_tlb_flushD (void); 443 void armv4_tlb_flushD_SE (u_int va); 444 445 void armv4_drain_writebuf (void); 446 void armv4_idcache_inv_all (void); 447 #endif 448 449 #if defined(CPU_XSCALE_80321) || \ 450 defined(CPU_XSCALE_PXA2X0) || defined(CPU_XSCALE_IXP425) || \ 451 defined(CPU_XSCALE_80219) || defined(CPU_XSCALE_81342) 452 void xscale_cpwait (void); 453 454 void xscale_cpu_sleep (int mode); 455 456 u_int xscale_control (u_int clear, u_int bic); 457 458 void xscale_setttb (u_int ttb); 459 460 void xscale_tlb_flushID_SE (u_int va); 461 462 void xscale_cache_flushID (void); 463 void xscale_cache_flushI (void); 464 void xscale_cache_flushD (void); 465 void xscale_cache_flushD_SE (u_int entry); 466 467 void xscale_cache_cleanID (void); 468 void xscale_cache_cleanD (void); 469 void xscale_cache_cleanD_E (u_int entry); 470 471 void xscale_cache_clean_minidata (void); 472 473 void xscale_cache_purgeID (void); 474 void xscale_cache_purgeID_E (u_int entry); 475 void xscale_cache_purgeD (void); 476 void xscale_cache_purgeD_E (u_int entry); 477 478 void xscale_cache_syncI (void); 479 void xscale_cache_cleanID_rng (vm_offset_t start, vm_size_t end); 480 void xscale_cache_cleanD_rng (vm_offset_t start, vm_size_t end); 481 void xscale_cache_purgeID_rng (vm_offset_t start, vm_size_t end); 482 void xscale_cache_purgeD_rng (vm_offset_t start, vm_size_t end); 483 void xscale_cache_syncI_rng (vm_offset_t start, vm_size_t end); 484 void xscale_cache_flushD_rng (vm_offset_t start, vm_size_t end); 485 486 void xscale_context_switch (void); 487 488 void xscale_setup (void); 489 #endif /* CPU_XSCALE_80321 || CPU_XSCALE_PXA2X0 || CPU_XSCALE_IXP425 490 CPU_XSCALE_80219 */ 491 492 #ifdef CPU_XSCALE_81342 493 494 void xscalec3_l2cache_purge (void); 495 void xscalec3_cache_purgeID (void); 496 void xscalec3_cache_purgeD (void); 497 void xscalec3_cache_cleanID (void); 498 void xscalec3_cache_cleanD (void); 499 void xscalec3_cache_syncI (void); 500 501 void xscalec3_cache_purgeID_rng (vm_offset_t start, vm_size_t end); 502 void xscalec3_cache_purgeD_rng (vm_offset_t start, vm_size_t end); 503 void xscalec3_cache_cleanID_rng (vm_offset_t start, vm_size_t end); 504 void xscalec3_cache_cleanD_rng (vm_offset_t start, vm_size_t end); 505 void xscalec3_cache_syncI_rng (vm_offset_t start, vm_size_t end); 506 507 void xscalec3_l2cache_flush_rng (vm_offset_t, vm_size_t); 508 void xscalec3_l2cache_clean_rng (vm_offset_t start, vm_size_t end); 509 void xscalec3_l2cache_purge_rng (vm_offset_t start, vm_size_t end); 510 511 512 void xscalec3_setttb (u_int ttb); 513 void xscalec3_context_switch (void); 514 515 #endif /* CPU_XSCALE_81342 */ 516 517 #define setttb cpu_setttb 518 #define drain_writebuf cpu_drain_writebuf 519 520 /* 521 * Macros for manipulating CPU interrupts 522 */ 523 #if __ARM_ARCH < 6 524 #define __ARM_INTR_BITS (PSR_I | PSR_F) 525 #else 526 #define __ARM_INTR_BITS (PSR_I | PSR_F | PSR_A) 527 #endif 528 529 static __inline uint32_t 530 __set_cpsr(uint32_t bic, uint32_t eor) 531 { 532 uint32_t tmp, ret; 533 534 __asm __volatile( 535 "mrs %0, cpsr\n" /* Get the CPSR */ 536 "bic %1, %0, %2\n" /* Clear bits */ 537 "eor %1, %1, %3\n" /* XOR bits */ 538 "msr cpsr_xc, %1\n" /* Set the CPSR */ 539 : "=&r" (ret), "=&r" (tmp) 540 : "r" (bic), "r" (eor) : "memory"); 541 542 return ret; 543 } 544 545 static __inline uint32_t 546 disable_interrupts(uint32_t mask) 547 { 548 549 return (__set_cpsr(mask & __ARM_INTR_BITS, mask & __ARM_INTR_BITS)); 550 } 551 552 static __inline uint32_t 553 enable_interrupts(uint32_t mask) 554 { 555 556 return (__set_cpsr(mask & __ARM_INTR_BITS, 0)); 557 } 558 559 static __inline uint32_t 560 restore_interrupts(uint32_t old_cpsr) 561 { 562 563 return (__set_cpsr(__ARM_INTR_BITS, old_cpsr & __ARM_INTR_BITS)); 564 } 565 566 static __inline register_t 567 intr_disable(void) 568 { 569 570 return (disable_interrupts(PSR_I | PSR_F)); 571 } 572 573 static __inline void 574 intr_restore(register_t s) 575 { 576 577 restore_interrupts(s); 578 } 579 #undef __ARM_INTR_BITS 580 581 /* 582 * Functions to manipulate cpu r13 583 * (in arm/arm32/setstack.S) 584 */ 585 586 void set_stackptr (u_int mode, u_int address); 587 u_int get_stackptr (u_int mode); 588 589 /* 590 * Miscellany 591 */ 592 593 int get_pc_str_offset (void); 594 595 /* 596 * CPU functions from locore.S 597 */ 598 599 void cpu_reset (void) __attribute__((__noreturn__)); 600 601 /* 602 * Cache info variables. 603 */ 604 605 /* PRIMARY CACHE VARIABLES */ 606 extern int arm_picache_size; 607 extern int arm_picache_line_size; 608 extern int arm_picache_ways; 609 610 extern int arm_pdcache_size; /* and unified */ 611 extern int arm_pdcache_line_size; 612 extern int arm_pdcache_ways; 613 614 extern int arm_pcache_type; 615 extern int arm_pcache_unified; 616 617 extern int arm_dcache_align; 618 extern int arm_dcache_align_mask; 619 620 extern u_int arm_cache_level; 621 extern u_int arm_cache_loc; 622 extern u_int arm_cache_type[14]; 623 624 #endif /* _KERNEL */ 625 #endif /* _MACHINE_CPUFUNC_H_ */ 626 627 /* End of cpufunc.h */ 628