2 * Copyright (c) KATO Takenori, 1997, 1998.
4 * All rights reserved. Unpublished rights reserved under the copyright
7 * Redistribution and use in source and binary forms, with or without
8 * modification, are permitted provided that the following conditions
11 * 1. Redistributions of source code must retain the above copyright
12 * notice, this list of conditions and the following disclaimer as
13 * the first lines of this file unmodified.
14 * 2. Redistributions in binary form must reproduce the above copyright
15 * notice, this list of conditions and the following disclaimer in the
16 * documentation and/or other materials provided with the distribution.
18 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
19 * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
20 * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
21 * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
22 * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
23 * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
24 * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
25 * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
26 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
27 * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
29 * $FreeBSD: src/sys/i386/i386/initcpu.c,v 1.19.2.9 2003/04/05 13:47:19 dwmalone Exp $
34 #include <sys/param.h>
35 #include <sys/kernel.h>
36 #include <sys/systm.h>
37 #include <sys/sysctl.h>
39 #include <machine/cputypes.h>
40 #include <machine/md_var.h>
41 #include <machine/specialreg.h>
43 void initializecpu(void);
44 #if defined(I586_CPU) && defined(CPU_WT_ALLOC)
45 void enable_K5_wt_alloc(void);
46 void enable_K6_wt_alloc(void);
47 void enable_K6_2_wt_alloc(void);
51 static void init_5x86(void);
52 static void init_bluelightning(void);
53 static void init_486dlc(void);
54 static void init_cy486dx(void);
55 #ifdef CPU_I486_ON_386
56 static void init_i486_on_386(void);
58 static void init_6x86(void);
62 static void init_6x86MX(void);
63 static void init_ppro(void);
64 static void init_mendocino(void);
67 static int hw_instruction_sse;
68 SYSCTL_INT(_hw, OID_AUTO, instruction_sse, CTLFLAG_RD,
69 &hw_instruction_sse, 0, "SIMD/MMX2 instructions available in CPU");
71 /* Must *NOT* be BSS or locore will bzero these after setting them */
72 int cpu = 0; /* Are we 386, 386sx, 486, etc? */
73 u_int cpu_feature = 0; /* Feature flags */
74 u_int cpu_feature2 = 0; /* Feature flags */
75 u_int amd_feature = 0; /* AMD feature flags */
76 u_int amd_feature2 = 0; /* AMD feature flags */
77 u_int amd_pminfo = 0; /* AMD advanced power management info */
78 u_int via_feature_rng = 0; /* VIA RNG features */
79 u_int via_feature_xcrypt = 0; /* VIA ACE features */
80 u_int cpu_high = 0; /* Highest arg to CPUID */
81 u_int cpu_id = 0; /* Stepping ID */
82 u_int cpu_procinfo = 0; /* HyperThreading Info / Brand Index / CLFUSH */
83 u_int cpu_procinfo2 = 0; /* Multicore info */
84 char cpu_vendor[20] = ""; /* CPU Origin code */
85 u_int cpu_vendor_id = 0; /* CPU vendor ID */
86 u_int cpu_clflush_line_size = 32; /* Default CLFLUSH line size */
89 * -1: automatic (enable on h/w, disable on VMs)
91 * 1: enable (where available)
93 static int hw_clflush_enable = -1;
95 SYSCTL_INT(_hw, OID_AUTO, clflush_enable, CTLFLAG_RD, &hw_clflush_enable, 0,
99 SYSCTL_UINT(_hw, OID_AUTO, via_feature_rng, CTLFLAG_RD,
100 &via_feature_rng, 0, "VIA C3/C7 RNG feature available in CPU");
101 SYSCTL_UINT(_hw, OID_AUTO, via_feature_xcrypt, CTLFLAG_RD,
102 &via_feature_xcrypt, 0, "VIA C3/C7 xcrypt feature available in CPU");
104 #ifndef CPU_DISABLE_SSE
105 u_int cpu_fxsr; /* SSE enabled */
113 init_bluelightning(void)
117 eflags = read_eflags();
120 load_cr0(rcr0() | CR0_CD | CR0_NW);
123 #ifdef CPU_BLUELIGHTNING_FPU_OP_CACHE
124 wrmsr(0x1000, 0x9c92LL); /* FP operand can be cacheable on Cyrix FPU */
126 wrmsr(0x1000, 0x1c92LL); /* Intel FPU */
128 /* Enables 13MB and 0-640KB cache. */
129 wrmsr(0x1001, (0xd0LL << 32) | 0x3ff);
130 #ifdef CPU_BLUELIGHTNING_3X
131 wrmsr(0x1002, 0x04000000LL); /* Enables triple-clock mode. */
133 wrmsr(0x1002, 0x03000000LL); /* Enables double-clock mode. */
136 /* Enable caching in CR0. */
137 load_cr0(rcr0() & ~(CR0_CD | CR0_NW)); /* CD = 0 and NW = 0 */
139 write_eflags(eflags);
143 * Cyrix 486SLC/DLC/SR/DR series
151 eflags = read_eflags();
155 ccr0 = read_cyrix_reg(CCR0);
156 #ifndef CYRIX_CACHE_WORKS
157 ccr0 |= CCR0_NC1 | CCR0_BARB;
158 write_cyrix_reg(CCR0, ccr0);
162 #ifndef CYRIX_CACHE_REALLY_WORKS
163 ccr0 |= CCR0_NC1 | CCR0_BARB;
167 #ifdef CPU_DIRECT_MAPPED_CACHE
168 ccr0 |= CCR0_CO; /* Direct mapped mode. */
170 write_cyrix_reg(CCR0, ccr0);
172 /* Clear non-cacheable region. */
173 write_cyrix_reg(NCR1+2, NCR_SIZE_0K);
174 write_cyrix_reg(NCR2+2, NCR_SIZE_0K);
175 write_cyrix_reg(NCR3+2, NCR_SIZE_0K);
176 write_cyrix_reg(NCR4+2, NCR_SIZE_0K);
178 write_cyrix_reg(0, 0); /* dummy write */
180 /* Enable caching in CR0. */
181 load_cr0(rcr0() & ~(CR0_CD | CR0_NW)); /* CD = 0 and NW = 0 */
183 #endif /* !CYRIX_CACHE_WORKS */
184 write_eflags(eflags);
189 * Cyrix 486S/DX series
197 eflags = read_eflags();
201 ccr2 = read_cyrix_reg(CCR2);
203 ccr2 |= CCR2_SUSP_HLT;
206 write_cyrix_reg(CCR2, ccr2);
207 write_eflags(eflags);
218 u_char ccr2, ccr3, ccr4, pcr0;
220 eflags = read_eflags();
223 load_cr0(rcr0() | CR0_CD | CR0_NW);
226 read_cyrix_reg(CCR3); /* dummy */
228 /* Initialize CCR2. */
229 ccr2 = read_cyrix_reg(CCR2);
232 ccr2 |= CCR2_SUSP_HLT;
234 ccr2 &= ~CCR2_SUSP_HLT;
237 write_cyrix_reg(CCR2, ccr2);
239 /* Initialize CCR4. */
240 ccr3 = read_cyrix_reg(CCR3);
241 write_cyrix_reg(CCR3, CCR3_MAPEN0);
243 ccr4 = read_cyrix_reg(CCR4);
246 #ifdef CPU_FASTER_5X86_FPU
247 ccr4 |= CCR4_FASTFPE;
249 ccr4 &= ~CCR4_FASTFPE;
251 ccr4 &= ~CCR4_IOMASK;
252 /********************************************************************
253 * WARNING: The "BIOS Writers Guide" mentions that I/O recovery time
254 * should be 0 for errata fix.
255 ********************************************************************/
257 ccr4 |= CPU_IORT & CCR4_IOMASK;
259 write_cyrix_reg(CCR4, ccr4);
261 /* Initialize PCR0. */
262 /****************************************************************
263 * WARNING: RSTK_EN and LOOP_EN could make your system unstable.
264 * BTB_EN might make your system unstable.
265 ****************************************************************/
266 pcr0 = read_cyrix_reg(PCR0);
283 /****************************************************************
284 * WARNING: if you use a memory mapped I/O device, don't use
285 * DISABLE_5X86_LSSER option, which may reorder memory mapped
287 * IF YOUR MOTHERBOARD HAS PCI BUS, DON'T DISABLE LSSER.
288 ****************************************************************/
289 #ifdef CPU_DISABLE_5X86_LSSER
294 write_cyrix_reg(PCR0, pcr0);
297 write_cyrix_reg(CCR3, ccr3);
299 read_cyrix_reg(0x80); /* dummy */
301 /* Unlock NW bit in CR0. */
302 write_cyrix_reg(CCR2, read_cyrix_reg(CCR2) & ~CCR2_LOCK_NW);
303 load_cr0((rcr0() & ~CR0_CD) | CR0_NW); /* CD = 0, NW = 1 */
304 /* Lock NW bit in CR0. */
305 write_cyrix_reg(CCR2, read_cyrix_reg(CCR2) | CCR2_LOCK_NW);
307 write_eflags(eflags);
310 #ifdef CPU_I486_ON_386
312 * There are i486 based upgrade products for i386 machines.
313 * In this case, BIOS doesn't enables CPU cache.
316 init_i486_on_386(void)
320 eflags = read_eflags();
323 load_cr0(rcr0() & ~(CR0_CD | CR0_NW)); /* CD = 0, NW = 0 */
325 write_eflags(eflags);
332 * XXX - What should I do here? Please let me know.
340 eflags = read_eflags();
343 load_cr0(rcr0() | CR0_CD | CR0_NW);
346 /* Initialize CCR0. */
347 write_cyrix_reg(CCR0, read_cyrix_reg(CCR0) | CCR0_NC1);
349 /* Initialize CCR1. */
350 #ifdef CPU_CYRIX_NO_LOCK
351 write_cyrix_reg(CCR1, read_cyrix_reg(CCR1) | CCR1_NO_LOCK);
353 write_cyrix_reg(CCR1, read_cyrix_reg(CCR1) & ~CCR1_NO_LOCK);
356 /* Initialize CCR2. */
358 write_cyrix_reg(CCR2, read_cyrix_reg(CCR2) | CCR2_SUSP_HLT);
360 write_cyrix_reg(CCR2, read_cyrix_reg(CCR2) & ~CCR2_SUSP_HLT);
363 ccr3 = read_cyrix_reg(CCR3);
364 write_cyrix_reg(CCR3, CCR3_MAPEN0);
366 /* Initialize CCR4. */
367 ccr4 = read_cyrix_reg(CCR4);
369 ccr4 &= ~CCR4_IOMASK;
371 write_cyrix_reg(CCR4, ccr4 | (CPU_IORT & CCR4_IOMASK));
373 write_cyrix_reg(CCR4, ccr4 | 7);
376 /* Initialize CCR5. */
378 write_cyrix_reg(CCR5, read_cyrix_reg(CCR5) | CCR5_WT_ALLOC);
382 write_cyrix_reg(CCR3, ccr3);
384 /* Unlock NW bit in CR0. */
385 write_cyrix_reg(CCR2, read_cyrix_reg(CCR2) & ~CCR2_LOCK_NW);
388 * Earlier revision of the 6x86 CPU could crash the system if
389 * L1 cache is in write-back mode.
391 if ((cyrix_did & 0xff00) > 0x1600)
392 load_cr0(rcr0() & ~(CR0_CD | CR0_NW)); /* CD = 0 and NW = 0 */
394 /* Revision 2.6 and lower. */
395 #ifdef CYRIX_CACHE_REALLY_WORKS
396 load_cr0(rcr0() & ~(CR0_CD | CR0_NW)); /* CD = 0 and NW = 0 */
398 load_cr0((rcr0() & ~CR0_CD) | CR0_NW); /* CD = 0 and NW = 1 */
402 /* Lock NW bit in CR0. */
403 write_cyrix_reg(CCR2, read_cyrix_reg(CCR2) | CCR2_LOCK_NW);
405 write_eflags(eflags);
407 #endif /* I486_CPU */
411 * Cyrix 6x86MX (code-named M2)
413 * XXX - What should I do here? Please let me know.
421 eflags = read_eflags();
424 load_cr0(rcr0() | CR0_CD | CR0_NW);
427 /* Initialize CCR0. */
428 write_cyrix_reg(CCR0, read_cyrix_reg(CCR0) | CCR0_NC1);
430 /* Initialize CCR1. */
431 #ifdef CPU_CYRIX_NO_LOCK
432 write_cyrix_reg(CCR1, read_cyrix_reg(CCR1) | CCR1_NO_LOCK);
434 write_cyrix_reg(CCR1, read_cyrix_reg(CCR1) & ~CCR1_NO_LOCK);
437 /* Initialize CCR2. */
439 write_cyrix_reg(CCR2, read_cyrix_reg(CCR2) | CCR2_SUSP_HLT);
441 write_cyrix_reg(CCR2, read_cyrix_reg(CCR2) & ~CCR2_SUSP_HLT);
444 ccr3 = read_cyrix_reg(CCR3);
445 write_cyrix_reg(CCR3, CCR3_MAPEN0);
447 /* Initialize CCR4. */
448 ccr4 = read_cyrix_reg(CCR4);
449 ccr4 &= ~CCR4_IOMASK;
451 write_cyrix_reg(CCR4, ccr4 | (CPU_IORT & CCR4_IOMASK));
453 write_cyrix_reg(CCR4, ccr4 | 7);
456 /* Initialize CCR5. */
458 write_cyrix_reg(CCR5, read_cyrix_reg(CCR5) | CCR5_WT_ALLOC);
462 write_cyrix_reg(CCR3, ccr3);
464 /* Unlock NW bit in CR0. */
465 write_cyrix_reg(CCR2, read_cyrix_reg(CCR2) & ~CCR2_LOCK_NW);
467 load_cr0(rcr0() & ~(CR0_CD | CR0_NW)); /* CD = 0 and NW = 0 */
469 /* Lock NW bit in CR0. */
470 write_cyrix_reg(CCR2, read_cyrix_reg(CCR2) | CCR2_LOCK_NW);
472 write_eflags(eflags);
482 * Local APIC should be diabled in UP kernel.
484 apicbase = rdmsr(0x1b);
485 apicbase &= ~0x800LL;
486 wrmsr(0x1b, apicbase);
491 * Initialize BBL_CR_CTL3 (Control register 3: used to configure the
497 #ifdef CPU_PPRO2CELERON
499 u_int64_t bbl_cr_ctl3;
501 eflags = read_eflags();
504 load_cr0(rcr0() | CR0_CD | CR0_NW);
507 bbl_cr_ctl3 = rdmsr(0x11e);
509 /* If the L2 cache is configured, do nothing. */
510 if (!(bbl_cr_ctl3 & 1)) {
511 bbl_cr_ctl3 = 0x134052bLL;
513 /* Set L2 Cache Latency (Default: 5). */
514 #ifdef CPU_CELERON_L2_LATENCY
515 #if CPU_L2_LATENCY > 15
516 #error invalid CPU_L2_LATENCY.
518 bbl_cr_ctl3 |= CPU_L2_LATENCY << 1;
520 bbl_cr_ctl3 |= 5 << 1;
522 wrmsr(0x11e, bbl_cr_ctl3);
525 load_cr0(rcr0() & ~(CR0_CD | CR0_NW));
526 write_eflags(eflags);
527 #endif /* CPU_PPRO2CELERON */
531 * Initialize special VIA C3/C7 features
539 do_cpuid(0xc0000000, regs);
541 if (val >= 0xc0000001) {
542 do_cpuid(0xc0000001, regs);
547 /* Enable RNG if present and disabled */
548 if (val & VIA_CPUID_HAS_RNG) {
549 if (!(val & VIA_CPUID_DO_RNG)) {
550 msreg = rdmsr(0x110B);
552 wrmsr(0x110B, msreg);
554 via_feature_rng = VIA_HAS_RNG;
556 /* Enable AES engine if present and disabled */
557 if (val & VIA_CPUID_HAS_ACE) {
558 if (!(val & VIA_CPUID_DO_ACE)) {
559 msreg = rdmsr(0x1107);
560 msreg |= (0x01 << 28);
561 wrmsr(0x1107, msreg);
563 via_feature_xcrypt |= VIA_HAS_AES;
565 /* Enable ACE2 engine if present and disabled */
566 if (val & VIA_CPUID_HAS_ACE2) {
567 if (!(val & VIA_CPUID_DO_ACE2)) {
568 msreg = rdmsr(0x1107);
569 msreg |= (0x01 << 28);
570 wrmsr(0x1107, msreg);
572 via_feature_xcrypt |= VIA_HAS_AESCTR;
574 /* Enable SHA engine if present and disabled */
575 if (val & VIA_CPUID_HAS_PHE) {
576 if (!(val & VIA_CPUID_DO_PHE)) {
577 msreg = rdmsr(0x1107);
578 msreg |= (0x01 << 28/**/);
579 wrmsr(0x1107, msreg);
581 via_feature_xcrypt |= VIA_HAS_SHA;
583 /* Enable MM engine if present and disabled */
584 if (val & VIA_CPUID_HAS_PMM) {
585 if (!(val & VIA_CPUID_DO_PMM)) {
586 msreg = rdmsr(0x1107);
587 msreg |= (0x01 << 28/**/);
588 wrmsr(0x1107, msreg);
590 via_feature_xcrypt |= VIA_HAS_MM;
594 #endif /* I686_CPU */
597 * Initialize CR4 (Control register 4) to enable SSE instructions.
602 #ifndef CPU_DISABLE_SSE
603 if ((cpu_feature & CPUID_SSE) && (cpu_feature & CPUID_FXSR)) {
604 load_cr4(rcr4() | CR4_FXSR | CR4_XMM);
605 cpu_fxsr = hw_instruction_sse = 1;
615 #ifdef CPU_ATHLON_SSE_HACK
617 * Sometimes the BIOS doesn't enable SSE instructions.
618 * According to AMD document 20734, the mobile
619 * Duron, the (mobile) Athlon 4 and the Athlon MP
620 * support SSE. These correspond to cpu_id 0x66X
623 if ((cpu_feature & CPUID_XMM) == 0 &&
624 ((cpu_id & ~0xf) == 0x660 ||
625 (cpu_id & ~0xf) == 0x670 ||
626 (cpu_id & ~0xf) == 0x680)) {
628 wrmsr(0xC0010015, rdmsr(0xC0010015) & ~0x08000);
630 cpu_feature = regs[3];
634 #endif /* I686_CPU */
642 init_bluelightning();
653 #ifdef CPU_I486_ON_386
661 #endif /* I486_CPU */
667 if (cpu_vendor_id == CPU_VENDOR_INTEL) {
668 switch (cpu_id & 0xff0) {
676 } else if (cpu_vendor_id == CPU_VENDOR_AMD) {
678 } else if (cpu_vendor_id == CPU_VENDOR_CENTAUR) {
679 switch (cpu_id & 0xff0) {
681 if ((cpu_id & 0xf) < 3)
700 if (cpu_feature2 & CPUID2_VMM)
703 TUNABLE_INT_FETCH("hw.clflush_enable", &hw_clflush_enable);
704 if (cpu_feature & CPUID_CLFSH) {
705 cpu_clflush_line_size = ((cpu_procinfo >> 8) & 0xff) * 8;
707 if (hw_clflush_enable == 0 ||
708 ((hw_clflush_enable == -1) && vmm_guest))
709 cpu_feature &= ~CPUID_CLFSH;
714 #if defined(I586_CPU) && defined(CPU_WT_ALLOC)
716 * Enable write allocate feature of AMD processors.
717 * Following two functions require the Maxmem variable being set.
720 enable_K5_wt_alloc(void)
725 * Write allocate is supported only on models 1, 2, and 3, with
726 * a stepping of 4 or greater.
728 if (((cpu_id & 0xf0) > 0) && ((cpu_id & 0x0f) > 3)) {
730 msr = rdmsr(0x83); /* HWCR */
731 wrmsr(0x83, msr & !(0x10));
734 * We have to tell the chip where the top of memory is,
735 * since video cards could have frame bufferes there,
736 * memory-mapped I/O could be there, etc.
742 msr |= AMD_WT_ALLOC_TME | AMD_WT_ALLOC_FRE;
745 * There is no way to know wheter 15-16M hole exists or not.
746 * Therefore, we disable write allocate for this range.
748 wrmsr(0x86, 0x0ff00f0);
749 msr |= AMD_WT_ALLOC_PRE;
753 wrmsr(0x83, msr|0x10); /* enable write allocate */
760 enable_K6_wt_alloc(void)
766 eflags = read_eflags();
770 #ifdef CPU_DISABLE_CACHE
772 * Certain K6-2 box becomes unstable when write allocation is
776 * The AMD-K6 processer provides the 64-bit Test Register 12(TR12),
777 * but only the Cache Inhibit(CI) (bit 3 of TR12) is suppported.
778 * All other bits in TR12 have no effect on the processer's operation.
779 * The I/O Trap Restart function (bit 9 of TR12) is always enabled
782 wrmsr(0x0000000e, (u_int64_t)0x0008);
784 /* Don't assume that memory size is aligned with 4M. */
786 size = ((Maxmem >> 8) + 3) >> 2;
790 /* Limit is 508M bytes. */
793 whcr = (rdmsr(0xc0000082) & ~(0x7fLL << 1)) | (size << 1);
795 #if defined(NO_MEMORY_HOLE)
796 if (whcr & (0x7fLL << 1))
800 * There is no way to know wheter 15-16M hole exists or not.
801 * Therefore, we disable write allocate for this range.
805 wrmsr(0x0c0000082, whcr);
807 write_eflags(eflags);
811 enable_K6_2_wt_alloc(void)
817 eflags = read_eflags();
821 #ifdef CPU_DISABLE_CACHE
823 * Certain K6-2 box becomes unstable when write allocation is
827 * The AMD-K6 processer provides the 64-bit Test Register 12(TR12),
828 * but only the Cache Inhibit(CI) (bit 3 of TR12) is suppported.
829 * All other bits in TR12 have no effect on the processer's operation.
830 * The I/O Trap Restart function (bit 9 of TR12) is always enabled
833 wrmsr(0x0000000e, (u_int64_t)0x0008);
835 /* Don't assume that memory size is aligned with 4M. */
837 size = ((Maxmem >> 8) + 3) >> 2;
841 /* Limit is 4092M bytes. */
844 whcr = (rdmsr(0xc0000082) & ~(0x3ffLL << 22)) | (size << 22);
846 #if defined(NO_MEMORY_HOLE)
847 if (whcr & (0x3ffLL << 22))
851 * There is no way to know wheter 15-16M hole exists or not.
852 * Therefore, we disable write allocate for this range.
854 whcr &= ~(1LL << 16);
856 wrmsr(0x0c0000082, whcr);
858 write_eflags(eflags);
860 #endif /* I585_CPU && CPU_WT_ALLOC */
866 DB_SHOW_COMMAND(cyrixreg, cyrixreg)
870 u_char ccr1, ccr2, ccr3;
871 u_char ccr0 = 0, ccr4 = 0, ccr5 = 0, pcr0 = 0;
874 if (cpu_vendor_id == CPU_VENDOR_CYRIX) {
875 eflags = read_eflags();
879 if ((cpu != CPU_M1SC) && (cpu != CPU_CY486DX)) {
880 ccr0 = read_cyrix_reg(CCR0);
882 ccr1 = read_cyrix_reg(CCR1);
883 ccr2 = read_cyrix_reg(CCR2);
884 ccr3 = read_cyrix_reg(CCR3);
885 if ((cpu == CPU_M1SC) || (cpu == CPU_M1) || (cpu == CPU_M2)) {
886 write_cyrix_reg(CCR3, CCR3_MAPEN0);
887 ccr4 = read_cyrix_reg(CCR4);
888 if ((cpu == CPU_M1) || (cpu == CPU_M2))
889 ccr5 = read_cyrix_reg(CCR5);
891 pcr0 = read_cyrix_reg(PCR0);
892 write_cyrix_reg(CCR3, ccr3); /* Restore CCR3. */
894 write_eflags(eflags);
896 if ((cpu != CPU_M1SC) && (cpu != CPU_CY486DX))
897 kprintf("CCR0=%x, ", (u_int)ccr0);
899 kprintf("CCR1=%x, CCR2=%x, CCR3=%x",
900 (u_int)ccr1, (u_int)ccr2, (u_int)ccr3);
901 if ((cpu == CPU_M1SC) || (cpu == CPU_M1) || (cpu == CPU_M2)) {
902 kprintf(", CCR4=%x, ", (u_int)ccr4);
904 kprintf("PCR0=%x\n", pcr0);
906 kprintf("CCR5=%x\n", ccr5);
909 kprintf("CR0=%x\n", cr0);