MIPS: BMIPS: Add Whirlwind (BMIPS5200) initialization code

Linux kernel mirror (for testing) git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git

kernel os linux

Import bmips_5xxx_init.S from the stblinux-3.3 tree, and to make sure that this
would work nicely with a BMIPS multiplatform kernel (with BMIPS330, BMIPS43XX
and BMIPS5000 enabled), update soft_reset to check for the BMIPS5200 processor
id (PRID_IMP_BMIPS5200) and execute bmips_5xxx_init for these processors to
bring them online.

Tested on 7425, 7429 and 7435 with CPU hotplug. 7435 SMP still needs some
additional changes in the L1 interrupt area to work properly with interrupt
affinity.

Signed-off-by: Florian Fainelli <f.fainelli@gmail.com>
Cc: linux-mips@linux-mips.org
Cc: john@phrozen.org
Cc: cernekee@gmail.com
Cc: jon.fraser@broadcom.com
Cc: jaedon.shin@gmail.com
Cc: dragan.stancevic@gmail.com
Cc: jogo@openwrt.org
Patchwork: https://patchwork.linux-mips.org/patch/12377/
Signed-off-by: Ralf Baechle <ralf@linux-mips.org>

authored by

Florian Fainelli and committed by

Ralf Baechle 10 years ago 21b30c00 cbbda6e7

+792 -4

3 changed files

expand all

arch

mips

kernel

Makefile

bmips_5xxx_init.S

bmips_vec.S

+1 -1

arch/mips/kernel/Makefile

··· 44 44 45 45 obj-$(CONFIG_SMP) += smp.o 46 46 obj-$(CONFIG_SMP_UP) += smp-up.o 47 - obj-$(CONFIG_CPU_BMIPS) += smp-bmips.o bmips_vec.o 47 + obj-$(CONFIG_CPU_BMIPS) += smp-bmips.o bmips_vec.o bmips_5xxx_init.o 48 48 49 49 obj-$(CONFIG_MIPS_MT) += mips-mt.o 50 50 obj-$(CONFIG_MIPS_MT_FPAFF) += mips-mt-fpaff.o

+753

arch/mips/kernel/bmips_5xxx_init.S

··· 1 + 2 + /* 3 + * This file is subject to the terms and conditions of the GNU General Public 4 + * License. See the file "COPYING" in the main directory of this archive 5 + * for more details. 6 + * 7 + * Copyright (C) 2011-2012 by Broadcom Corporation 8 + * 9 + * Init for bmips 5000. 10 + * Used to init second core in dual core 5000's. 11 + */ 12 + 13 + #include <linux/init.h> 14 + 15 + #include <asm/asm.h> 16 + #include <asm/asmmacro.h> 17 + #include <asm/cacheops.h> 18 + #include <asm/regdef.h> 19 + #include <asm/mipsregs.h> 20 + #include <asm/stackframe.h> 21 + #include <asm/addrspace.h> 22 + #include <asm/hazards.h> 23 + #include <asm/bmips.h> 24 + 25 + #ifdef CONFIG_CPU_BMIPS5000 26 + 27 + 28 + #define cacheop(kva, size, linesize, op) \ 29 + .set noreorder ; \ 30 + addu t1, kva, size ; \ 31 + subu t2, linesize, 1 ; \ 32 + not t2 ; \ 33 + and t0, kva, t2 ; \ 34 + addiu t1, t1, -1 ; \ 35 + and t1, t2 ; \ 36 + 9: cache op, 0(t0) ; \ 37 + bne t0, t1, 9b ; \ 38 + addu t0, linesize ; \ 39 + .set reorder ; 40 + 41 + 42 + 43 + #define IS_SHIFT 22 44 + #define IL_SHIFT 19 45 + #define IA_SHIFT 16 46 + #define DS_SHIFT 13 47 + #define DL_SHIFT 10 48 + #define DA_SHIFT 7 49 + #define IS_MASK 7 50 + #define IL_MASK 7 51 + #define IA_MASK 7 52 + #define DS_MASK 7 53 + #define DL_MASK 7 54 + #define DA_MASK 7 55 + #define ICE_MASK 0x80000000 56 + #define DCE_MASK 0x40000000 57 + 58 + #define CP0_BRCM_CONFIG0 $22, 0 59 + #define CP0_BRCM_MODE $22, 1 60 + #define CP0_CONFIG_K0_MASK 7 61 + 62 + #define CP0_ICACHE_TAG_LO $28 63 + #define CP0_ICACHE_DATA_LO $28, 1 64 + #define CP0_DCACHE_TAG_LO $28, 2 65 + #define CP0_D_SEC_CACHE_DATA_LO $28, 3 66 + #define CP0_ICACHE_TAG_HI $29 67 + #define CP0_ICACHE_DATA_HI $29, 1 68 + #define CP0_DCACHE_TAG_HI $29, 2 69 + 70 + #define CP0_BRCM_MODE_Luc_MASK (1 << 11) 71 + #define CP0_BRCM_CONFIG0_CWF_MASK (1 << 20) 72 + #define CP0_BRCM_CONFIG0_TSE_MASK (1 << 19) 73 + #define CP0_BRCM_MODE_SET_MASK (1 << 7) 74 + #define CP0_BRCM_MODE_ClkRATIO_MASK (7 << 4) 75 + #define CP0_BRCM_MODE_BrPRED_MASK (3 << 24) 76 + #define CP0_BRCM_MODE_BrPRED_SHIFT 24 77 + #define CP0_BRCM_MODE_BrHIST_MASK (0x1f << 20) 78 + #define CP0_BRCM_MODE_BrHIST_SHIFT 20 79 + 80 + /* ZSC L2 Cache Register Access Register Definitions */ 81 + #define BRCM_ZSC_ALL_REGS_SELECT 0x7 << 24 82 + 83 + #define BRCM_ZSC_CONFIG_REG 0 << 3 84 + #define BRCM_ZSC_REQ_BUFFER_REG 2 << 3 85 + #define BRCM_ZSC_RBUS_ADDR_MAPPING_REG0 4 << 3 86 + #define BRCM_ZSC_RBUS_ADDR_MAPPING_REG1 6 << 3 87 + #define BRCM_ZSC_RBUS_ADDR_MAPPING_REG2 8 << 3 88 + 89 + #define BRCM_ZSC_SCB0_ADDR_MAPPING_REG0 0xa << 3 90 + #define BRCM_ZSC_SCB0_ADDR_MAPPING_REG1 0xc << 3 91 + 92 + #define BRCM_ZSC_SCB1_ADDR_MAPPING_REG0 0xe << 3 93 + #define BRCM_ZSC_SCB1_ADDR_MAPPING_REG1 0x10 << 3 94 + 95 + #define BRCM_ZSC_CONFIG_LMB1En 1 << (15) 96 + #define BRCM_ZSC_CONFIG_LMB0En 1 << (14) 97 + 98 + /* branch predition values */ 99 + 100 + #define BRCM_BrPRED_ALL_TAKEN (0x0) 101 + #define BRCM_BrPRED_ALL_NOT_TAKEN (0x1) 102 + #define BRCM_BrPRED_BHT_ENABLE (0x2) 103 + #define BRCM_BrPRED_PREDICT_BACKWARD (0x3) 104 + 105 + 106 + 107 + .align 2 108 + /* 109 + * Function: size_i_cache 110 + * Arguments: None 111 + * Returns: v0 = i cache size, v1 = I cache line size 112 + * Description: compute the I-cache size and I-cache line size 113 + * Trashes: v0, v1, a0, t0 114 + * 115 + * pseudo code: 116 + * 117 + */ 118 + 119 + LEAF(size_i_cache) 120 + .set noreorder 121 + 122 + mfc0 a0, CP0_CONFIG, 1 123 + move t0, a0 124 + 125 + /* 126 + * Determine sets per way: IS 127 + * 128 + * This field contains the number of sets (i.e., indices) per way of 129 + * the instruction cache: 130 + * i) 0x0: 64, ii) 0x1: 128, iii) 0x2: 256, iv) 0x3: 512, v) 0x4: 1k 131 + * vi) 0x5 - 0x7: Reserved. 132 + */ 133 + 134 + srl a0, a0, IS_SHIFT 135 + and a0, a0, IS_MASK 136 + 137 + /* sets per way = (64<<IS) */ 138 + 139 + li v0, 0x40 140 + sllv v0, v0, a0 141 + 142 + /* 143 + * Determine line size 144 + * 145 + * This field contains the line size of the instruction cache: 146 + * i) 0x0: No I-cache present, i) 0x3: 16 bytes, ii) 0x4: 32 bytes, iii) 147 + * 0x5: 64 bytes, iv) the rest: Reserved. 148 + */ 149 + 150 + move a0, t0 151 + 152 + srl a0, a0, IL_SHIFT 153 + and a0, a0, IL_MASK 154 + 155 + beqz a0, no_i_cache 156 + nop 157 + 158 + /* line size = 2 ^ (IL+1) */ 159 + 160 + addi a0, a0, 1 161 + li v1, 1 162 + sll v1, v1, a0 163 + 164 + /* v0 now have sets per way, multiply it by line size now 165 + * that will give the set size 166 + */ 167 + 168 + sll v0, v0, a0 169 + 170 + /* 171 + * Determine set associativity 172 + * 173 + * This field contains the set associativity of the instruction cache. 174 + * i) 0x0: Direct mapped, ii) 0x1: 2-way, iii) 0x2: 3-way, iv) 0x3: 175 + * 4-way, v) 0x4 - 0x7: Reserved. 176 + */ 177 + 178 + move a0, t0 179 + 180 + srl a0, a0, IA_SHIFT 181 + and a0, a0, IA_MASK 182 + addi a0, a0, 0x1 183 + 184 + /* v0 has the set size, multiply it by 185 + * set associativiy, to get the cache size 186 + */ 187 + 188 + multu v0, a0 /*multu is interlocked, so no need to insert nops */ 189 + mflo v0 190 + b 1f 191 + nop 192 + 193 + no_i_cache: 194 + move v0, zero 195 + move v1, zero 196 + 1: 197 + jr ra 198 + nop 199 + .set reorder 200 + 201 + END(size_i_cache) 202 + 203 + /* 204 + * Function: size_d_cache 205 + * Arguments: None 206 + * Returns: v0 = d cache size, v1 = d cache line size 207 + * Description: compute the D-cache size and D-cache line size. 208 + * Trashes: v0, v1, a0, t0 209 + * 210 + */ 211 + 212 + LEAF(size_d_cache) 213 + .set noreorder 214 + 215 + mfc0 a0, CP0_CONFIG, 1 216 + move t0, a0 217 + 218 + /* 219 + * Determine sets per way: IS 220 + * 221 + * This field contains the number of sets (i.e., indices) per way of 222 + * the instruction cache: 223 + * i) 0x0: 64, ii) 0x1: 128, iii) 0x2: 256, iv) 0x3: 512, v) 0x4: 1k 224 + * vi) 0x5 - 0x7: Reserved. 225 + */ 226 + 227 + srl a0, a0, DS_SHIFT 228 + and a0, a0, DS_MASK 229 + 230 + /* sets per way = (64<<IS) */ 231 + 232 + li v0, 0x40 233 + sllv v0, v0, a0 234 + 235 + /* 236 + * Determine line size 237 + * 238 + * This field contains the line size of the instruction cache: 239 + * i) 0x0: No I-cache present, i) 0x3: 16 bytes, ii) 0x4: 32 bytes, iii) 240 + * 0x5: 64 bytes, iv) the rest: Reserved. 241 + */ 242 + move a0, t0 243 + 244 + srl a0, a0, DL_SHIFT 245 + and a0, a0, DL_MASK 246 + 247 + beqz a0, no_d_cache 248 + nop 249 + 250 + /* line size = 2 ^ (IL+1) */ 251 + 252 + addi a0, a0, 1 253 + li v1, 1 254 + sll v1, v1, a0 255 + 256 + /* v0 now have sets per way, multiply it by line size now 257 + * that will give the set size 258 + */ 259 + 260 + sll v0, v0, a0 261 + 262 + /* determine set associativity 263 + * 264 + * This field contains the set associativity of the instruction cache. 265 + * i) 0x0: Direct mapped, ii) 0x1: 2-way, iii) 0x2: 3-way, iv) 0x3: 266 + * 4-way, v) 0x4 - 0x7: Reserved. 267 + */ 268 + 269 + move a0, t0 270 + 271 + srl a0, a0, DA_SHIFT 272 + and a0, a0, DA_MASK 273 + addi a0, a0, 0x1 274 + 275 + /* v0 has the set size, multiply it by 276 + * set associativiy, to get the cache size 277 + */ 278 + 279 + multu v0, a0 /*multu is interlocked, so no need to insert nops */ 280 + mflo v0 281 + 282 + b 1f 283 + nop 284 + 285 + no_d_cache: 286 + move v0, zero 287 + move v1, zero 288 + 1: 289 + jr ra 290 + nop 291 + .set reorder 292 + 293 + END(size_d_cache) 294 + 295 + 296 + /* 297 + * Function: enable_ID 298 + * Arguments: None 299 + * Returns: None 300 + * Description: Enable I and D caches, initialize I and D-caches, also set 301 + * hardware delay for d-cache (TP0). 302 + * Trashes: t0 303 + * 304 + */ 305 + .global enable_ID 306 + .ent enable_ID 307 + .set noreorder 308 + enable_ID: 309 + mfc0 t0, CP0_BRCM_CONFIG0 310 + or t0, t0, (ICE_MASK | DCE_MASK) 311 + mtc0 t0, CP0_BRCM_CONFIG0 312 + jr ra 313 + nop 314 + 315 + .end enable_ID 316 + .set reorder 317 + 318 + 319 + /* 320 + * Function: l1_init 321 + * Arguments: None 322 + * Returns: None 323 + * Description: Enable I and D caches, and initialize I and D-caches 324 + * Trashes: a0, v0, v1, t0, t1, t2, t8 325 + * 326 + */ 327 + .globl l1_init 328 + .ent l1_init 329 + .set noreorder 330 + l1_init: 331 + 332 + /* save return address */ 333 + move t8, ra 334 + 335 + 336 + /* initialize I and D cache Data and Tag registers. */ 337 + mtc0 zero, CP0_ICACHE_TAG_LO 338 + mtc0 zero, CP0_ICACHE_TAG_HI 339 + mtc0 zero, CP0_ICACHE_DATA_LO 340 + mtc0 zero, CP0_ICACHE_DATA_HI 341 + mtc0 zero, CP0_DCACHE_TAG_LO 342 + mtc0 zero, CP0_DCACHE_TAG_HI 343 + 344 + /* Enable Caches before Clearing. If the caches are disabled 345 + * then the cache operations to clear the cache will be ignored 346 + */ 347 + 348 + jal enable_ID 349 + nop 350 + 351 + jal size_i_cache /* v0 = i-cache size, v1 = i-cache line size */ 352 + nop 353 + 354 + /* run uncached in kseg 1 */ 355 + la k0, 1f 356 + lui k1, 0x2000 357 + or k0, k1, k0 358 + jr k0 359 + nop 360 + 1: 361 + 362 + /* 363 + * set K0 cache mode 364 + */ 365 + 366 + mfc0 t0, CP0_CONFIG 367 + and t0, t0, ~CP0_CONFIG_K0_MASK 368 + or t0, t0, 3 /* Write Back mode */ 369 + mtc0 t0, CP0_CONFIG 370 + 371 + /* 372 + * Initialize instruction cache. 373 + */ 374 + 375 + li a0, KSEG0 376 + cacheop(a0, v0, v1, Index_Store_Tag_I) 377 + 378 + /* 379 + * Now we can run from I-$, kseg 0 380 + */ 381 + la k0, 1f 382 + lui k1, 0x2000 383 + or k0, k1, k0 384 + xor k0, k1, k0 385 + jr k0 386 + nop 387 + 1: 388 + /* 389 + * Initialize data cache. 390 + */ 391 + 392 + jal size_d_cache /* v0 = d-cache size, v1 = d-cache line size */ 393 + nop 394 + 395 + 396 + li a0, KSEG0 397 + cacheop(a0, v0, v1, Index_Store_Tag_D) 398 + 399 + jr t8 400 + nop 401 + 402 + .end l1_init 403 + .set reorder 404 + 405 + 406 + /* 407 + * Function: set_other_config 408 + * Arguments: none 409 + * Returns: None 410 + * Description: initialize other remainder configuration to defaults. 411 + * Trashes: t0, t1 412 + * 413 + * pseudo code: 414 + * 415 + */ 416 + LEAF(set_other_config) 417 + .set noreorder 418 + 419 + /* enable Bus error for I-fetch */ 420 + mfc0 t0, CP0_CACHEERR, 0 421 + li t1, 0x4 422 + or t0, t1 423 + mtc0 t0, CP0_CACHEERR, 0 424 + 425 + /* enable Bus error for Load */ 426 + mfc0 t0, CP0_CACHEERR, 1 427 + li t1, 0x4 428 + or t0, t1 429 + mtc0 t0, CP0_CACHEERR, 1 430 + 431 + /* enable Bus Error for Store */ 432 + mfc0 t0, CP0_CACHEERR, 2 433 + li t1, 0x4 434 + or t0, t1 435 + mtc0 t0, CP0_CACHEERR, 2 436 + 437 + jr ra 438 + nop 439 + .set reorder 440 + END(set_other_config) 441 + 442 + /* 443 + * Function: set_branch_pred 444 + * Arguments: none 445 + * Returns: None 446 + * Description: 447 + * Trashes: t0, t1 448 + * 449 + * pseudo code: 450 + * 451 + */ 452 + 453 + LEAF(set_branch_pred) 454 + .set noreorder 455 + mfc0 t0, CP0_BRCM_MODE 456 + li t1, ~(CP0_BRCM_MODE_BrPRED_MASK | CP0_BRCM_MODE_BrHIST_MASK ) 457 + and t0, t0, t1 458 + 459 + /* enable Branch prediction */ 460 + li t1, BRCM_BrPRED_BHT_ENABLE 461 + sll t1, CP0_BRCM_MODE_BrPRED_SHIFT 462 + or t0, t0, t1 463 + 464 + /* set history count to 8 */ 465 + li t1, 8 466 + sll t1, CP0_BRCM_MODE_BrHIST_SHIFT 467 + or t0, t0, t1 468 + 469 + mtc0 t0, CP0_BRCM_MODE 470 + jr ra 471 + nop 472 + .set reorder 473 + END(set_branch_pred) 474 + 475 + 476 + /* 477 + * Function: set_luc 478 + * Arguments: set link uncached. 479 + * Returns: None 480 + * Description: 481 + * Trashes: t0, t1 482 + * 483 + */ 484 + LEAF(set_luc) 485 + .set noreorder 486 + mfc0 t0, CP0_BRCM_MODE 487 + li t1, ~(CP0_BRCM_MODE_Luc_MASK) 488 + and t0, t0, t1 489 + 490 + /* set Luc */ 491 + ori t0, t0, CP0_BRCM_MODE_Luc_MASK 492 + 493 + mtc0 t0, CP0_BRCM_MODE 494 + jr ra 495 + nop 496 + .set reorder 497 + END(set_luc) 498 + 499 + /* 500 + * Function: set_cwf_tse 501 + * Arguments: set CWF and TSE bits 502 + * Returns: None 503 + * Description: 504 + * Trashes: t0, t1 505 + * 506 + */ 507 + LEAF(set_cwf_tse) 508 + .set noreorder 509 + mfc0 t0, CP0_BRCM_CONFIG0 510 + li t1, (CP0_BRCM_CONFIG0_CWF_MASK | CP0_BRCM_CONFIG0_TSE_MASK) 511 + or t0, t0, t1 512 + 513 + mtc0 t0, CP0_BRCM_CONFIG0 514 + jr ra 515 + nop 516 + .set reorder 517 + END(set_cwf_tse) 518 + 519 + /* 520 + * Function: set_clock_ratio 521 + * Arguments: set clock ratio specified by a0 522 + * Returns: None 523 + * Description: 524 + * Trashes: v0, v1, a0, a1 525 + * 526 + * pseudo code: 527 + * 528 + */ 529 + LEAF(set_clock_ratio) 530 + .set noreorder 531 + 532 + mfc0 t0, CP0_BRCM_MODE 533 + li t1, ~(CP0_BRCM_MODE_SET_MASK | CP0_BRCM_MODE_ClkRATIO_MASK) 534 + and t0, t0, t1 535 + li t1, CP0_BRCM_MODE_SET_MASK 536 + or t0, t0, t1 537 + or t0, t0, a0 538 + mtc0 t0, CP0_BRCM_MODE 539 + jr ra 540 + nop 541 + .set reorder 542 + END(set_clock_ratio) 543 + /* 544 + * Function: set_zephyr 545 + * Arguments: None 546 + * Returns: None 547 + * Description: Set any zephyr bits 548 + * Trashes: t0 & t1 549 + * 550 + */ 551 + LEAF(set_zephyr) 552 + .set noreorder 553 + 554 + /* enable read/write of CP0 #22 sel. 8 */ 555 + li t0, 0x5a455048 556 + .word 0x4088b00f /* mtc0 t0, $22, 15 */ 557 + 558 + .word 0x4008b008 /* mfc0 t0, $22, 8 */ 559 + li t1, 0x09008000 /* turn off pref, jtb */ 560 + or t0, t0, t1 561 + .word 0x4088b008 /* mtc0 t0, $22, 8 */ 562 + sync 563 + 564 + /* disable read/write of CP0 #22 sel 8 */ 565 + li t0, 0x0 566 + .word 0x4088b00f /* mtc0 t0, $22, 15 */ 567 + 568 + 569 + jr ra 570 + nop 571 + .set reorder 572 + 573 + END(set_zephyr) 574 + 575 + 576 + /* 577 + * Function: set_llmb 578 + * Arguments: a0=0 disable llmb, a0=1 enables llmb 579 + * Returns: None 580 + * Description: 581 + * Trashes: t0, t1, t2 582 + * 583 + * pseudo code: 584 + * 585 + */ 586 + LEAF(set_llmb) 587 + .set noreorder 588 + 589 + li t2, 0x90000000 | BRCM_ZSC_ALL_REGS_SELECT | BRCM_ZSC_CONFIG_REG 590 + sync 591 + cache 0x7, 0x0(t2) 592 + sync 593 + mfc0 t0, CP0_D_SEC_CACHE_DATA_LO 594 + li t1, ~(BRCM_ZSC_CONFIG_LMB1En | BRCM_ZSC_CONFIG_LMB0En) 595 + and t0, t0, t1 596 + 597 + beqz a0, svlmb 598 + nop 599 + 600 + enable_lmb: 601 + li t1, (BRCM_ZSC_CONFIG_LMB1En | BRCM_ZSC_CONFIG_LMB0En) 602 + or t0, t0, t1 603 + 604 + svlmb: 605 + mtc0 t0, CP0_D_SEC_CACHE_DATA_LO 606 + sync 607 + cache 0xb, 0x0(t2) 608 + sync 609 + 610 + jr ra 611 + nop 612 + .set reorder 613 + 614 + END(set_llmb) 615 + /* 616 + * Function: core_init 617 + * Arguments: none 618 + * Returns: None 619 + * Description: initialize core related configuration 620 + * Trashes: v0,v1,a0,a1,t8 621 + * 622 + * pseudo code: 623 + * 624 + */ 625 + .globl core_init 626 + .ent core_init 627 + .set noreorder 628 + core_init: 629 + move t8, ra 630 + 631 + /* set Zephyr bits. */ 632 + bal set_zephyr 633 + nop 634 + 635 + #if ENABLE_FPU==1 636 + /* initialize the Floating point unit (both TPs) */ 637 + bal init_fpu 638 + nop 639 + #endif 640 + 641 + /* set low latency memory bus */ 642 + li a0, 1 643 + bal set_llmb 644 + nop 645 + 646 + /* set branch prediction (TP0 only) */ 647 + bal set_branch_pred 648 + nop 649 + 650 + /* set link uncached */ 651 + bal set_luc 652 + nop 653 + 654 + /* set CWF and TSE */ 655 + bal set_cwf_tse 656 + nop 657 + 658 + /* 659 + *set clock ratio by setting 1 to 'set' 660 + * and 0 to ClkRatio, (TP0 only) 661 + */ 662 + li a0, 0 663 + bal set_clock_ratio 664 + nop 665 + 666 + /* set other configuration to defaults */ 667 + bal set_other_config 668 + nop 669 + 670 + move ra, t8 671 + jr ra 672 + nop 673 + 674 + .set reorder 675 + .end core_init 676 + 677 + /* 678 + * Function: clear_jump_target_buffer 679 + * Arguments: None 680 + * Returns: None 681 + * Description: 682 + * Trashes: t0, t1, t2 683 + * 684 + */ 685 + #define RESET_CALL_RETURN_STACK_THIS_THREAD (0x06<<16) 686 + #define RESET_JUMP_TARGET_BUFFER_THIS_THREAD (0x04<<16) 687 + #define JTB_CS_CNTL_MASK (0xFF<<16) 688 + 689 + .globl clear_jump_target_buffer 690 + .ent clear_jump_target_buffer 691 + .set noreorder 692 + clear_jump_target_buffer: 693 + 694 + mfc0 t0, $22, 2 695 + nop 696 + nop 697 + 698 + li t1, ~JTB_CS_CNTL_MASK 699 + and t0, t0, t1 700 + li t2, RESET_CALL_RETURN_STACK_THIS_THREAD 701 + or t0, t0, t2 702 + mtc0 t0, $22, 2 703 + nop 704 + nop 705 + 706 + and t0, t0, t1 707 + li t2, RESET_JUMP_TARGET_BUFFER_THIS_THREAD 708 + or t0, t0, t2 709 + mtc0 t0, $22, 2 710 + nop 711 + nop 712 + jr ra 713 + nop 714 + 715 + .end clear_jump_target_buffer 716 + .set reorder 717 + /* 718 + * Function: bmips_cache_init 719 + * Arguments: None 720 + * Returns: None 721 + * Description: Enable I and D caches, and initialize I and D-caches 722 + * Trashes: v0, v1, t0, t1, t2, t5, t7, t8 723 + * 724 + */ 725 + .globl bmips_5xxx_init 726 + .ent bmips_5xxx_init 727 + .set noreorder 728 + bmips_5xxx_init: 729 + 730 + /* save return address and A0 */ 731 + move t7, ra 732 + move t5, a0 733 + 734 + jal l1_init 735 + nop 736 + 737 + jal core_init 738 + nop 739 + 740 + jal clear_jump_target_buffer 741 + nop 742 + 743 + mtc0 zero, CP0_CAUSE 744 + 745 + move a0, t5 746 + jr t7 747 + nop 748 + 749 + .end bmips_5xxx_init 750 + .set reorder 751 + 752 + 753 + #endif

+38 -3

arch/mips/kernel/bmips_vec.S

··· 88 88 li k1, (1 << 19) 89 89 mfc0 k0, CP0_STATUS 90 90 and k0, k1 91 - beqz k0, bmips_smp_entry 91 + beqz k0, soft_reset 92 92 93 93 #if defined(CONFIG_CPU_BMIPS5000) 94 94 mfc0 k0, CP0_PRID ··· 126 126 .set arch=r4000 127 127 eret 128 128 129 + #ifdef CONFIG_SMP 130 + soft_reset: 131 + 132 + #if defined(CONFIG_CPU_BMIPS5000) 133 + mfc0 k0, CP0_PRID 134 + andi k0, 0xff00 135 + li k1, PRID_IMP_BMIPS5200 136 + bne k0, k1, bmips_smp_entry 137 + 138 + /* if running on TP 1, jump to bmips_smp_entry */ 139 + mfc0 k0, $22 140 + li k1, (1 << 24) 141 + and k1, k0 142 + bnez k1, bmips_smp_entry 143 + nop 144 + 145 + /* 146 + * running on TP0, can not be core 0 (the boot core). 147 + * Check for soft reset. Indicates a warm boot 148 + */ 149 + mfc0 k0, $12 150 + li k1, (1 << 20) 151 + and k0, k1 152 + beqz k0, bmips_smp_entry 153 + 154 + /* 155 + * Warm boot. 156 + * Cache init is only done on TP0 157 + */ 158 + la k0, bmips_5xxx_init 159 + jalr k0 160 + nop 161 + 162 + b bmips_smp_entry 163 + nop 164 + #endif 165 + 129 166 /*********************************************************************** 130 167 * CPU1 reset vector (used for the initial boot only) 131 168 * This is still part of bmips_reset_nmi_vec(). 132 169 ***********************************************************************/ 133 - 134 - #ifdef CONFIG_SMP 135 170 136 171 bmips_smp_entry: 137 172