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cpu.c revision 1.78.4.3
      1  1.78.4.3      yamt /*	$NetBSD: cpu.c,v 1.78.4.3 2013/01/16 05:32:43 yamt Exp $	*/
      2       1.1      matt 
      3       1.1      matt /*
      4       1.1      matt  * Copyright (c) 1995 Mark Brinicombe.
      5       1.1      matt  * Copyright (c) 1995 Brini.
      6       1.1      matt  * All rights reserved.
      7       1.1      matt  *
      8       1.1      matt  * Redistribution and use in source and binary forms, with or without
      9       1.1      matt  * modification, are permitted provided that the following conditions
     10       1.1      matt  * are met:
     11       1.1      matt  * 1. Redistributions of source code must retain the above copyright
     12       1.1      matt  *    notice, this list of conditions and the following disclaimer.
     13       1.1      matt  * 2. Redistributions in binary form must reproduce the above copyright
     14       1.1      matt  *    notice, this list of conditions and the following disclaimer in the
     15       1.1      matt  *    documentation and/or other materials provided with the distribution.
     16       1.1      matt  * 3. All advertising materials mentioning features or use of this software
     17       1.1      matt  *    must display the following acknowledgement:
     18       1.1      matt  *	This product includes software developed by Brini.
     19       1.1      matt  * 4. The name of the company nor the name of the author may be used to
     20       1.1      matt  *    endorse or promote products derived from this software without specific
     21       1.1      matt  *    prior written permission.
     22       1.1      matt  *
     23       1.1      matt  * THIS SOFTWARE IS PROVIDED BY BRINI ``AS IS'' AND ANY EXPRESS OR IMPLIED
     24       1.1      matt  * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
     25       1.1      matt  * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
     26       1.1      matt  * IN NO EVENT SHALL BRINI OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT,
     27       1.1      matt  * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
     28       1.1      matt  * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
     29       1.1      matt  * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
     30       1.1      matt  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
     31       1.1      matt  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
     32       1.1      matt  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
     33       1.1      matt  * SUCH DAMAGE.
     34       1.1      matt  *
     35       1.1      matt  * RiscBSD kernel project
     36       1.1      matt  *
     37       1.1      matt  * cpu.c
     38       1.1      matt  *
     39      1.55       wiz  * Probing and configuration for the master CPU
     40       1.1      matt  *
     41       1.1      matt  * Created      : 10/10/95
     42       1.1      matt  */
     43       1.1      matt 
     44       1.1      matt #include "opt_armfpe.h"
     45      1.51    martin #include "opt_multiprocessor.h"
     46       1.1      matt 
     47       1.1      matt #include <sys/param.h>
     48      1.20     bjh21 
     49  1.78.4.3      yamt __KERNEL_RCSID(0, "$NetBSD: cpu.c,v 1.78.4.3 2013/01/16 05:32:43 yamt Exp $");
     50      1.20     bjh21 
     51       1.1      matt #include <sys/systm.h>
     52  1.78.4.2      yamt #include <sys/conf.h>
     53  1.78.4.2      yamt #include <sys/cpu.h>
     54       1.1      matt #include <sys/device.h>
     55  1.78.4.2      yamt #include <sys/kmem.h>
     56       1.1      matt #include <sys/proc.h>
     57  1.78.4.2      yamt 
     58       1.1      matt #include <uvm/uvm_extern.h>
     59      1.33   thorpej 
     60      1.33   thorpej #include <arm/cpuconf.h>
     61      1.10   thorpej #include <arm/undefined.h>
     62      1.10   thorpej 
     63      1.20     bjh21 char cpu_model[256];
     64       1.1      matt 
     65  1.78.4.2      yamt #ifdef MULTIPROCESSOR
     66  1.78.4.2      yamt volatile u_int arm_cpu_hatched = 0;
     67  1.78.4.2      yamt u_int arm_cpu_max = 0;
     68  1.78.4.2      yamt uint32_t arm_cpu_mbox __cacheline_aligned = 0;
     69  1.78.4.2      yamt uint32_t arm_cpu_marker __cacheline_aligned = 1;
     70  1.78.4.2      yamt #endif
     71  1.78.4.2      yamt 
     72       1.1      matt /* Prototypes */
     73  1.78.4.2      yamt void identify_arm_cpu(device_t dv, struct cpu_info *);
     74  1.78.4.2      yamt void identify_cortex_caches(device_t dv);
     75  1.78.4.2      yamt void identify_features(device_t dv);
     76       1.1      matt 
     77       1.1      matt /*
     78      1.25     bjh21  * Identify the master (boot) CPU
     79       1.1      matt  */
     80       1.1      matt 
     81       1.1      matt void
     82  1.78.4.2      yamt cpu_attach(device_t dv, cpuid_t id)
     83       1.1      matt {
     84  1.78.4.2      yamt 	const char * const xname = device_xname(dv);
     85  1.78.4.2      yamt 	struct cpu_info *ci;
     86      1.27   reinoud 
     87  1.78.4.2      yamt 	if (id == 0) {
     88  1.78.4.2      yamt 		ci = curcpu();
     89      1.23     bjh21 
     90  1.78.4.2      yamt 		/* Get the CPU ID from coprocessor 15 */
     91  1.78.4.2      yamt 
     92  1.78.4.2      yamt 		ci->ci_arm_cpuid = cpu_id();
     93  1.78.4.2      yamt 		ci->ci_arm_cputype = ci->ci_arm_cpuid & CPU_ID_CPU_MASK;
     94  1.78.4.2      yamt 		ci->ci_arm_cpurev = ci->ci_arm_cpuid & CPU_ID_REVISION_MASK;
     95  1.78.4.2      yamt 	} else {
     96  1.78.4.2      yamt #ifdef MULTIPROCESSOR
     97  1.78.4.2      yamt 		KASSERT(cpu_info[id] == NULL);
     98  1.78.4.2      yamt 		ci = kmem_zalloc(sizeof(*ci), KM_SLEEP);
     99  1.78.4.2      yamt 		KASSERT(ci != NULL);
    100  1.78.4.2      yamt 		ci->ci_cpl = IPL_HIGH;
    101  1.78.4.2      yamt 		ci->ci_cpuid = id;
    102  1.78.4.2      yamt 		ci->ci_data.cpu_core_id = id;
    103  1.78.4.2      yamt 		ci->ci_data.cpu_cc_freq = cpu_info_store.ci_data.cpu_cc_freq;
    104  1.78.4.2      yamt 		ci->ci_arm_cpuid = cpu_info_store.ci_arm_cpuid;
    105  1.78.4.2      yamt 		ci->ci_arm_cputype = cpu_info_store.ci_arm_cputype;
    106  1.78.4.2      yamt 		ci->ci_arm_cpurev = cpu_info_store.ci_arm_cpurev;
    107  1.78.4.2      yamt 		cpu_info[ci->ci_cpuid] = ci;
    108  1.78.4.2      yamt 		if ((arm_cpu_hatched & (1 << id)) == 0) {
    109  1.78.4.2      yamt 			ci->ci_dev = dv;
    110  1.78.4.2      yamt 			dv->dv_private = ci;
    111  1.78.4.2      yamt 			aprint_naive(": disabled\n");
    112  1.78.4.2      yamt 			aprint_normal(": disabled (unresponsive)\n");
    113  1.78.4.2      yamt 			return;
    114  1.78.4.2      yamt 		}
    115  1.78.4.2      yamt #else
    116  1.78.4.2      yamt 		aprint_naive(": disabled\n");
    117  1.78.4.2      yamt 		aprint_normal(": disabled (uniprocessor kernel)\n");
    118  1.78.4.2      yamt 		return;
    119  1.78.4.2      yamt #endif
    120  1.78.4.2      yamt 	}
    121       1.1      matt 
    122  1.78.4.2      yamt 	ci->ci_dev = dv;
    123  1.78.4.2      yamt 	dv->dv_private = ci;
    124       1.1      matt 
    125  1.78.4.2      yamt 	evcnt_attach_dynamic(&ci->ci_arm700bugcount, EVCNT_TYPE_MISC,
    126  1.78.4.2      yamt 	    NULL, xname, "arm700swibug");
    127       1.1      matt 
    128  1.78.4.2      yamt 	evcnt_attach_dynamic_nozero(&ci->ci_abt_evs[FAULT_WRTBUF_0], EVCNT_TYPE_TRAP,
    129  1.78.4.2      yamt 	    NULL, xname, "vector abort");
    130  1.78.4.2      yamt 	evcnt_attach_dynamic_nozero(&ci->ci_abt_evs[FAULT_WRTBUF_1], EVCNT_TYPE_TRAP,
    131  1.78.4.2      yamt 	    NULL, xname, "terminal abort");
    132  1.78.4.2      yamt 	evcnt_attach_dynamic_nozero(&ci->ci_abt_evs[FAULT_BUSERR_0], EVCNT_TYPE_TRAP,
    133  1.78.4.2      yamt 	    NULL, xname, "external linefetch abort (S)");
    134  1.78.4.2      yamt 	evcnt_attach_dynamic_nozero(&ci->ci_abt_evs[FAULT_BUSERR_1], EVCNT_TYPE_TRAP,
    135  1.78.4.2      yamt 	    NULL, xname, "external linefetch abort (P)");
    136  1.78.4.2      yamt 	evcnt_attach_dynamic_nozero(&ci->ci_abt_evs[FAULT_BUSERR_2], EVCNT_TYPE_TRAP,
    137  1.78.4.2      yamt 	    NULL, xname, "external non-linefetch abort (S)");
    138  1.78.4.2      yamt 	evcnt_attach_dynamic_nozero(&ci->ci_abt_evs[FAULT_BUSERR_3], EVCNT_TYPE_TRAP,
    139  1.78.4.2      yamt 	    NULL, xname, "external non-linefetch abort (P)");
    140  1.78.4.2      yamt 	evcnt_attach_dynamic_nozero(&ci->ci_abt_evs[FAULT_BUSTRNL1], EVCNT_TYPE_TRAP,
    141  1.78.4.2      yamt 	    NULL, xname, "external translation abort (L1)");
    142  1.78.4.2      yamt 	evcnt_attach_dynamic_nozero(&ci->ci_abt_evs[FAULT_BUSTRNL2], EVCNT_TYPE_TRAP,
    143  1.78.4.2      yamt 	    NULL, xname, "external translation abort (L2)");
    144  1.78.4.2      yamt 	evcnt_attach_dynamic_nozero(&ci->ci_abt_evs[FAULT_ALIGN_0], EVCNT_TYPE_TRAP,
    145  1.78.4.2      yamt 	    NULL, xname, "alignment abort (0)");
    146  1.78.4.2      yamt 	evcnt_attach_dynamic_nozero(&ci->ci_abt_evs[FAULT_ALIGN_1], EVCNT_TYPE_TRAP,
    147  1.78.4.2      yamt 	    NULL, xname, "alignment abort (1)");
    148  1.78.4.2      yamt 	evcnt_attach_dynamic_nozero(&ci->ci_abt_evs[FAULT_TRANS_S], EVCNT_TYPE_TRAP,
    149  1.78.4.2      yamt 	    NULL, xname, "translation abort (S)");
    150  1.78.4.2      yamt 	evcnt_attach_dynamic_nozero(&ci->ci_abt_evs[FAULT_TRANS_P], EVCNT_TYPE_TRAP,
    151  1.78.4.2      yamt 	    NULL, xname, "translation abort (P)");
    152  1.78.4.2      yamt 	evcnt_attach_dynamic_nozero(&ci->ci_abt_evs[FAULT_DOMAIN_S], EVCNT_TYPE_TRAP,
    153  1.78.4.2      yamt 	    NULL, xname, "domain abort (S)");
    154  1.78.4.2      yamt 	evcnt_attach_dynamic_nozero(&ci->ci_abt_evs[FAULT_DOMAIN_P], EVCNT_TYPE_TRAP,
    155  1.78.4.2      yamt 	    NULL, xname, "domain abort (P)");
    156  1.78.4.2      yamt 	evcnt_attach_dynamic_nozero(&ci->ci_abt_evs[FAULT_PERM_S], EVCNT_TYPE_TRAP,
    157  1.78.4.2      yamt 	    NULL, xname, "permission abort (S)");
    158  1.78.4.2      yamt 	evcnt_attach_dynamic_nozero(&ci->ci_abt_evs[FAULT_PERM_P], EVCNT_TYPE_TRAP,
    159  1.78.4.2      yamt 	    NULL, xname, "permission abort (P)");
    160       1.1      matt 
    161  1.78.4.2      yamt #ifdef MULTIPROCESSOR
    162  1.78.4.2      yamt 	/*
    163  1.78.4.2      yamt 	 * and we are done if this is a secondary processor.
    164  1.78.4.2      yamt 	 */
    165  1.78.4.2      yamt 	if (!CPU_IS_PRIMARY(ci)) {
    166  1.78.4.2      yamt 		aprint_naive(": %s\n", cpu_model);
    167  1.78.4.2      yamt 		aprint_normal(": %s\n", cpu_model);
    168  1.78.4.2      yamt 		mi_cpu_attach(ci);
    169  1.78.4.2      yamt 		return;
    170  1.78.4.2      yamt 	}
    171  1.78.4.2      yamt #endif
    172  1.78.4.2      yamt 
    173  1.78.4.2      yamt 	identify_arm_cpu(dv, ci);
    174  1.78.4.2      yamt 
    175  1.78.4.2      yamt #ifdef CPU_STRONGARM
    176  1.78.4.2      yamt 	if (ci->ci_arm_cputype == CPU_ID_SA110 &&
    177  1.78.4.2      yamt 	    ci->ci_arm_cpurev < 3) {
    178  1.78.4.2      yamt 		aprint_normal_dev(dv, "SA-110 with bugged STM^ instruction\n");
    179       1.1      matt 	}
    180  1.78.4.2      yamt #endif
    181       1.1      matt 
    182       1.1      matt #ifdef CPU_ARM8
    183  1.78.4.2      yamt 	if ((ci->ci_arm_cpuid & CPU_ID_CPU_MASK) == CPU_ID_ARM810) {
    184       1.1      matt 		int clock = arm8_clock_config(0, 0);
    185       1.1      matt 		char *fclk;
    186  1.78.4.2      yamt 		aprint_normal_dev(dv, "ARM810 cp15=%02x", clock);
    187      1.49   thorpej 		aprint_normal(" clock:%s", (clock & 1) ? " dynamic" : "");
    188      1.49   thorpej 		aprint_normal("%s", (clock & 2) ? " sync" : "");
    189       1.1      matt 		switch ((clock >> 2) & 3) {
    190      1.15     bjh21 		case 0:
    191       1.1      matt 			fclk = "bus clock";
    192       1.1      matt 			break;
    193      1.15     bjh21 		case 1:
    194       1.1      matt 			fclk = "ref clock";
    195       1.1      matt 			break;
    196      1.15     bjh21 		case 3:
    197       1.1      matt 			fclk = "pll";
    198       1.1      matt 			break;
    199      1.15     bjh21 		default:
    200       1.1      matt 			fclk = "illegal";
    201       1.1      matt 			break;
    202       1.1      matt 		}
    203      1.49   thorpej 		aprint_normal(" fclk source=%s\n", fclk);
    204       1.1      matt  	}
    205       1.1      matt #endif
    206       1.1      matt 
    207  1.78.4.2      yamt 	vfp_attach();		/* XXX SMP */
    208       1.1      matt }
    209       1.1      matt 
    210      1.19     bjh21 enum cpu_class {
    211      1.19     bjh21 	CPU_CLASS_NONE,
    212      1.19     bjh21 	CPU_CLASS_ARM2,
    213      1.19     bjh21 	CPU_CLASS_ARM2AS,
    214      1.19     bjh21 	CPU_CLASS_ARM3,
    215      1.19     bjh21 	CPU_CLASS_ARM6,
    216      1.19     bjh21 	CPU_CLASS_ARM7,
    217      1.19     bjh21 	CPU_CLASS_ARM7TDMI,
    218      1.19     bjh21 	CPU_CLASS_ARM8,
    219      1.19     bjh21 	CPU_CLASS_ARM9TDMI,
    220      1.19     bjh21 	CPU_CLASS_ARM9ES,
    221      1.64  christos 	CPU_CLASS_ARM9EJS,
    222      1.53  rearnsha 	CPU_CLASS_ARM10E,
    223      1.57  rearnsha 	CPU_CLASS_ARM10EJ,
    224      1.19     bjh21 	CPU_CLASS_SA1,
    225      1.58  rearnsha 	CPU_CLASS_XSCALE,
    226      1.70      matt 	CPU_CLASS_ARM11J,
    227      1.70      matt 	CPU_CLASS_ARMV4,
    228      1.74      matt 	CPU_CLASS_CORTEX,
    229      1.19     bjh21 };
    230      1.19     bjh21 
    231      1.42     bjh21 static const char * const generic_steppings[16] = {
    232      1.14     bjh21 	"rev 0",	"rev 1",	"rev 2",	"rev 3",
    233      1.14     bjh21 	"rev 4",	"rev 5",	"rev 6",	"rev 7",
    234      1.14     bjh21 	"rev 8",	"rev 9",	"rev 10",	"rev 11",
    235      1.14     bjh21 	"rev 12",	"rev 13",	"rev 14",	"rev 15",
    236      1.14     bjh21 };
    237      1.14     bjh21 
    238      1.68      matt static const char * const pN_steppings[16] = {
    239      1.68      matt 	"*p0",	"*p1",	"*p2",	"*p3",	"*p4",	"*p5",	"*p6",	"*p7",
    240      1.68      matt 	"*p8",	"*p9",	"*p10",	"*p11",	"*p12",	"*p13",	"*p14",	"*p15",
    241      1.68      matt };
    242      1.68      matt 
    243      1.42     bjh21 static const char * const sa110_steppings[16] = {
    244      1.14     bjh21 	"rev 0",	"step J",	"step K",	"step S",
    245      1.14     bjh21 	"step T",	"rev 5",	"rev 6",	"rev 7",
    246      1.14     bjh21 	"rev 8",	"rev 9",	"rev 10",	"rev 11",
    247      1.14     bjh21 	"rev 12",	"rev 13",	"rev 14",	"rev 15",
    248      1.14     bjh21 };
    249      1.14     bjh21 
    250      1.42     bjh21 static const char * const sa1100_steppings[16] = {
    251      1.14     bjh21 	"rev 0",	"step B",	"step C",	"rev 3",
    252      1.14     bjh21 	"rev 4",	"rev 5",	"rev 6",	"rev 7",
    253      1.14     bjh21 	"step D",	"step E",	"rev 10"	"step G",
    254      1.14     bjh21 	"rev 12",	"rev 13",	"rev 14",	"rev 15",
    255      1.14     bjh21 };
    256      1.14     bjh21 
    257      1.42     bjh21 static const char * const sa1110_steppings[16] = {
    258      1.14     bjh21 	"step A-0",	"rev 1",	"rev 2",	"rev 3",
    259      1.14     bjh21 	"step B-0",	"step B-1",	"step B-2",	"step B-3",
    260      1.14     bjh21 	"step B-4",	"step B-5",	"rev 10",	"rev 11",
    261      1.14     bjh21 	"rev 12",	"rev 13",	"rev 14",	"rev 15",
    262      1.13   thorpej };
    263      1.13   thorpej 
    264      1.42     bjh21 static const char * const ixp12x0_steppings[16] = {
    265      1.37    ichiro 	"(IXP1200 step A)",		"(IXP1200 step B)",
    266      1.37    ichiro 	"rev 2",			"(IXP1200 step C)",
    267      1.37    ichiro 	"(IXP1200 step D)",		"(IXP1240/1250 step A)",
    268      1.37    ichiro 	"(IXP1240 step B)",		"(IXP1250 step B)",
    269      1.36   thorpej 	"rev 8",	"rev 9",	"rev 10",	"rev 11",
    270      1.36   thorpej 	"rev 12",	"rev 13",	"rev 14",	"rev 15",
    271      1.36   thorpej };
    272      1.36   thorpej 
    273      1.42     bjh21 static const char * const xscale_steppings[16] = {
    274      1.14     bjh21 	"step A-0",	"step A-1",	"step B-0",	"step C-0",
    275      1.40    briggs 	"step D-0",	"rev 5",	"rev 6",	"rev 7",
    276      1.40    briggs 	"rev 8",	"rev 9",	"rev 10",	"rev 11",
    277      1.40    briggs 	"rev 12",	"rev 13",	"rev 14",	"rev 15",
    278      1.40    briggs };
    279      1.40    briggs 
    280      1.42     bjh21 static const char * const i80321_steppings[16] = {
    281      1.40    briggs 	"step A-0",	"step B-0",	"rev 2",	"rev 3",
    282      1.14     bjh21 	"rev 4",	"rev 5",	"rev 6",	"rev 7",
    283      1.14     bjh21 	"rev 8",	"rev 9",	"rev 10",	"rev 11",
    284      1.14     bjh21 	"rev 12",	"rev 13",	"rev 14",	"rev 15",
    285      1.13   thorpej };
    286      1.13   thorpej 
    287      1.60    nonaka static const char * const i80219_steppings[16] = {
    288      1.60    nonaka 	"step A-0",	"rev 1",	"rev 2",	"rev 3",
    289      1.60    nonaka 	"rev 4",	"rev 5",	"rev 6",	"rev 7",
    290      1.60    nonaka 	"rev 8",	"rev 9",	"rev 10",	"rev 11",
    291      1.60    nonaka 	"rev 12",	"rev 13",	"rev 14",	"rev 15",
    292      1.60    nonaka };
    293      1.60    nonaka 
    294      1.56       bsh /* Steppings for PXA2[15]0 */
    295      1.42     bjh21 static const char * const pxa2x0_steppings[16] = {
    296      1.35   thorpej 	"step A-0",	"step A-1",	"step B-0",	"step B-1",
    297      1.48       rjs 	"step B-2",	"step C-0",	"rev 6",	"rev 7",
    298      1.35   thorpej 	"rev 8",	"rev 9",	"rev 10",	"rev 11",
    299      1.35   thorpej 	"rev 12",	"rev 13",	"rev 14",	"rev 15",
    300      1.35   thorpej };
    301      1.35   thorpej 
    302      1.56       bsh /* Steppings for PXA255/26x.
    303      1.56       bsh  * rev 5: PXA26x B0, rev 6: PXA255 A0
    304      1.56       bsh  */
    305      1.56       bsh static const char * const pxa255_steppings[16] = {
    306      1.56       bsh 	"rev 0",	"rev 1",	"rev 2",	"step A-0",
    307      1.56       bsh 	"rev 4",	"step B-0",	"step A-0",	"rev 7",
    308      1.56       bsh 	"rev 8",	"rev 9",	"rev 10",	"rev 11",
    309      1.56       bsh 	"rev 12",	"rev 13",	"rev 14",	"rev 15",
    310      1.56       bsh };
    311      1.56       bsh 
    312      1.59       bsh /* Stepping for PXA27x */
    313      1.59       bsh static const char * const pxa27x_steppings[16] = {
    314      1.59       bsh 	"step A-0",	"step A-1",	"step B-0",	"step B-1",
    315      1.59       bsh 	"step C-0",	"rev 5",	"rev 6",	"rev 7",
    316      1.59       bsh 	"rev 8",	"rev 9",	"rev 10",	"rev 11",
    317      1.59       bsh 	"rev 12",	"rev 13",	"rev 14",	"rev 15",
    318      1.59       bsh };
    319      1.59       bsh 
    320      1.50    ichiro static const char * const ixp425_steppings[16] = {
    321      1.50    ichiro 	"step 0",	"rev 1",	"rev 2",	"rev 3",
    322      1.50    ichiro 	"rev 4",	"rev 5",	"rev 6",	"rev 7",
    323      1.50    ichiro 	"rev 8",	"rev 9",	"rev 10",	"rev 11",
    324      1.50    ichiro 	"rev 12",	"rev 13",	"rev 14",	"rev 15",
    325      1.50    ichiro };
    326      1.50    ichiro 
    327       1.1      matt struct cpuidtab {
    328  1.78.4.3      yamt 	uint32_t	cpuid;
    329       1.1      matt 	enum		cpu_class cpu_class;
    330      1.72       mrg 	const char	*cpu_classname;
    331      1.42     bjh21 	const char * const *cpu_steppings;
    332       1.1      matt };
    333       1.1      matt 
    334       1.1      matt const struct cpuidtab cpuids[] = {
    335      1.13   thorpej 	{ CPU_ID_ARM2,		CPU_CLASS_ARM2,		"ARM2",
    336      1.13   thorpej 	  generic_steppings },
    337      1.13   thorpej 	{ CPU_ID_ARM250,	CPU_CLASS_ARM2AS,	"ARM250",
    338      1.13   thorpej 	  generic_steppings },
    339      1.13   thorpej 
    340      1.13   thorpej 	{ CPU_ID_ARM3,		CPU_CLASS_ARM3,		"ARM3",
    341      1.13   thorpej 	  generic_steppings },
    342      1.13   thorpej 
    343      1.13   thorpej 	{ CPU_ID_ARM600,	CPU_CLASS_ARM6,		"ARM600",
    344      1.13   thorpej 	  generic_steppings },
    345      1.13   thorpej 	{ CPU_ID_ARM610,	CPU_CLASS_ARM6,		"ARM610",
    346      1.13   thorpej 	  generic_steppings },
    347      1.13   thorpej 	{ CPU_ID_ARM620,	CPU_CLASS_ARM6,		"ARM620",
    348      1.13   thorpej 	  generic_steppings },
    349      1.13   thorpej 
    350      1.13   thorpej 	{ CPU_ID_ARM700,	CPU_CLASS_ARM7,		"ARM700",
    351      1.13   thorpej 	  generic_steppings },
    352      1.13   thorpej 	{ CPU_ID_ARM710,	CPU_CLASS_ARM7,		"ARM710",
    353      1.13   thorpej 	  generic_steppings },
    354      1.13   thorpej 	{ CPU_ID_ARM7500,	CPU_CLASS_ARM7,		"ARM7500",
    355      1.13   thorpej 	  generic_steppings },
    356      1.13   thorpej 	{ CPU_ID_ARM710A,	CPU_CLASS_ARM7,		"ARM710a",
    357      1.13   thorpej 	  generic_steppings },
    358      1.13   thorpej 	{ CPU_ID_ARM7500FE,	CPU_CLASS_ARM7,		"ARM7500FE",
    359      1.13   thorpej 	  generic_steppings },
    360      1.13   thorpej 	{ CPU_ID_ARM710T,	CPU_CLASS_ARM7TDMI,	"ARM710T",
    361      1.13   thorpej 	  generic_steppings },
    362      1.13   thorpej 	{ CPU_ID_ARM720T,	CPU_CLASS_ARM7TDMI,	"ARM720T",
    363      1.13   thorpej 	  generic_steppings },
    364      1.13   thorpej 	{ CPU_ID_ARM740T8K,	CPU_CLASS_ARM7TDMI, "ARM740T (8 KB cache)",
    365      1.13   thorpej 	  generic_steppings },
    366      1.13   thorpej 	{ CPU_ID_ARM740T4K,	CPU_CLASS_ARM7TDMI, "ARM740T (4 KB cache)",
    367      1.13   thorpej 	  generic_steppings },
    368      1.13   thorpej 
    369      1.13   thorpej 	{ CPU_ID_ARM810,	CPU_CLASS_ARM8,		"ARM810",
    370      1.13   thorpej 	  generic_steppings },
    371      1.13   thorpej 
    372      1.13   thorpej 	{ CPU_ID_ARM920T,	CPU_CLASS_ARM9TDMI,	"ARM920T",
    373      1.13   thorpej 	  generic_steppings },
    374      1.13   thorpej 	{ CPU_ID_ARM922T,	CPU_CLASS_ARM9TDMI,	"ARM922T",
    375      1.13   thorpej 	  generic_steppings },
    376      1.64  christos 	{ CPU_ID_ARM926EJS,	CPU_CLASS_ARM9EJS,	"ARM926EJ-S",
    377      1.64  christos 	  generic_steppings },
    378      1.13   thorpej 	{ CPU_ID_ARM940T,	CPU_CLASS_ARM9TDMI,	"ARM940T",
    379      1.13   thorpej 	  generic_steppings },
    380      1.13   thorpej 	{ CPU_ID_ARM946ES,	CPU_CLASS_ARM9ES,	"ARM946E-S",
    381      1.13   thorpej 	  generic_steppings },
    382      1.13   thorpej 	{ CPU_ID_ARM966ES,	CPU_CLASS_ARM9ES,	"ARM966E-S",
    383      1.13   thorpej 	  generic_steppings },
    384      1.13   thorpej 	{ CPU_ID_ARM966ESR1,	CPU_CLASS_ARM9ES,	"ARM966E-S",
    385      1.52   mycroft 	  generic_steppings },
    386      1.52   mycroft 	{ CPU_ID_TI925T,	CPU_CLASS_ARM9TDMI,	"TI ARM925T",
    387      1.13   thorpej 	  generic_steppings },
    388      1.77  kiyohara 	{ CPU_ID_MV88SV131,	CPU_CLASS_ARM9ES,	"Sheeva 88SV131",
    389      1.77  kiyohara 	  generic_steppings },
    390      1.77  kiyohara 	{ CPU_ID_MV88FR571_VD,	CPU_CLASS_ARM9ES,	"Sheeva 88FR571-vd",
    391      1.77  kiyohara 	  generic_steppings },
    392      1.13   thorpej 
    393      1.53  rearnsha 	{ CPU_ID_ARM1020E,	CPU_CLASS_ARM10E,	"ARM1020E",
    394      1.53  rearnsha 	  generic_steppings },
    395      1.53  rearnsha 	{ CPU_ID_ARM1022ES,	CPU_CLASS_ARM10E,	"ARM1022E-S",
    396      1.53  rearnsha 	  generic_steppings },
    397      1.57  rearnsha 	{ CPU_ID_ARM1026EJS,	CPU_CLASS_ARM10EJ,	"ARM1026EJ-S",
    398      1.57  rearnsha 	  generic_steppings },
    399      1.53  rearnsha 
    400      1.13   thorpej 	{ CPU_ID_SA110,		CPU_CLASS_SA1,		"SA-110",
    401      1.14     bjh21 	  sa110_steppings },
    402      1.13   thorpej 	{ CPU_ID_SA1100,	CPU_CLASS_SA1,		"SA-1100",
    403      1.14     bjh21 	  sa1100_steppings },
    404      1.13   thorpej 	{ CPU_ID_SA1110,	CPU_CLASS_SA1,		"SA-1110",
    405      1.14     bjh21 	  sa1110_steppings },
    406      1.36   thorpej 
    407      1.36   thorpej 	{ CPU_ID_IXP1200,	CPU_CLASS_SA1,		"IXP1200",
    408      1.37    ichiro 	  ixp12x0_steppings },
    409      1.13   thorpej 
    410      1.32   thorpej 	{ CPU_ID_80200,		CPU_CLASS_XSCALE,	"i80200",
    411      1.32   thorpej 	  xscale_steppings },
    412      1.32   thorpej 
    413      1.38   thorpej 	{ CPU_ID_80321_400,	CPU_CLASS_XSCALE,	"i80321 400MHz",
    414      1.40    briggs 	  i80321_steppings },
    415      1.38   thorpej 	{ CPU_ID_80321_600,	CPU_CLASS_XSCALE,	"i80321 600MHz",
    416      1.40    briggs 	  i80321_steppings },
    417      1.40    briggs 	{ CPU_ID_80321_400_B0,	CPU_CLASS_XSCALE,	"i80321 400MHz",
    418      1.40    briggs 	  i80321_steppings },
    419      1.40    briggs 	{ CPU_ID_80321_600_B0,	CPU_CLASS_XSCALE,	"i80321 600MHz",
    420      1.40    briggs 	  i80321_steppings },
    421      1.13   thorpej 
    422      1.60    nonaka 	{ CPU_ID_80219_400,	CPU_CLASS_XSCALE,	"i80219 400MHz",
    423      1.60    nonaka 	  i80219_steppings },
    424      1.60    nonaka 	{ CPU_ID_80219_600,	CPU_CLASS_XSCALE,	"i80219 600MHz",
    425      1.60    nonaka 	  i80219_steppings },
    426      1.60    nonaka 
    427      1.59       bsh 	{ CPU_ID_PXA27X,	CPU_CLASS_XSCALE,	"PXA27x",
    428      1.59       bsh 	  pxa27x_steppings },
    429      1.48       rjs 	{ CPU_ID_PXA250A,	CPU_CLASS_XSCALE,	"PXA250",
    430      1.48       rjs 	  pxa2x0_steppings },
    431      1.48       rjs 	{ CPU_ID_PXA210A,	CPU_CLASS_XSCALE,	"PXA210",
    432      1.48       rjs 	  pxa2x0_steppings },
    433      1.48       rjs 	{ CPU_ID_PXA250B,	CPU_CLASS_XSCALE,	"PXA250",
    434      1.39    ichiro 	  pxa2x0_steppings },
    435      1.48       rjs 	{ CPU_ID_PXA210B,	CPU_CLASS_XSCALE,	"PXA210",
    436      1.39    ichiro 	  pxa2x0_steppings },
    437      1.56       bsh 	{ CPU_ID_PXA250C, 	CPU_CLASS_XSCALE,	"PXA255/26x",
    438      1.56       bsh 	  pxa255_steppings },
    439      1.48       rjs 	{ CPU_ID_PXA210C, 	CPU_CLASS_XSCALE,	"PXA210",
    440      1.35   thorpej 	  pxa2x0_steppings },
    441      1.35   thorpej 
    442      1.50    ichiro 	{ CPU_ID_IXP425_533,	CPU_CLASS_XSCALE,	"IXP425 533MHz",
    443      1.50    ichiro 	  ixp425_steppings },
    444      1.50    ichiro 	{ CPU_ID_IXP425_400,	CPU_CLASS_XSCALE,	"IXP425 400MHz",
    445      1.50    ichiro 	  ixp425_steppings },
    446      1.50    ichiro 	{ CPU_ID_IXP425_266,	CPU_CLASS_XSCALE,	"IXP425 266MHz",
    447      1.50    ichiro 	  ixp425_steppings },
    448      1.50    ichiro 
    449      1.68      matt 	{ CPU_ID_ARM1136JS,	CPU_CLASS_ARM11J,	"ARM1136J-S r0",
    450      1.68      matt 	  pN_steppings },
    451      1.68      matt 	{ CPU_ID_ARM1136JSR1,	CPU_CLASS_ARM11J,	"ARM1136J-S r1",
    452      1.68      matt 	  pN_steppings },
    453  1.78.4.1      yamt #if 0
    454  1.78.4.1      yamt 	/* The ARM1156T2-S only has a memory protection unit */
    455  1.78.4.1      yamt 	{ CPU_ID_ARM1156T2S,	CPU_CLASS_ARM11J,	"ARM1156T2-S r0",
    456  1.78.4.1      yamt 	  pN_steppings },
    457  1.78.4.1      yamt #endif
    458  1.78.4.1      yamt 	{ CPU_ID_ARM1176JZS,	CPU_CLASS_ARM11J,	"ARM1176JZ-S r0",
    459      1.68      matt 	  pN_steppings },
    460      1.74      matt 
    461      1.78       bsh 	{ CPU_ID_ARM11MPCORE,	CPU_CLASS_ARM11J, 	"ARM11 MPCore",
    462      1.78       bsh 	  generic_steppings },
    463      1.78       bsh 
    464  1.78.4.2      yamt 	{ CPU_ID_CORTEXA5R0,	CPU_CLASS_CORTEX,	"Cortex-A5 r0",
    465  1.78.4.2      yamt 	  pN_steppings },
    466      1.74      matt 	{ CPU_ID_CORTEXA8R1,	CPU_CLASS_CORTEX,	"Cortex-A8 r1",
    467      1.74      matt 	  pN_steppings },
    468      1.74      matt 	{ CPU_ID_CORTEXA8R2,	CPU_CLASS_CORTEX,	"Cortex-A8 r2",
    469      1.74      matt 	  pN_steppings },
    470      1.74      matt 	{ CPU_ID_CORTEXA8R3,	CPU_CLASS_CORTEX,	"Cortex-A8 r3",
    471      1.69      matt 	  pN_steppings },
    472  1.78.4.2      yamt 	{ CPU_ID_CORTEXA9R2,	CPU_CLASS_CORTEX,	"Cortex-A9 r2",
    473  1.78.4.2      yamt 	  pN_steppings },
    474  1.78.4.2      yamt 	{ CPU_ID_CORTEXA9R3,	CPU_CLASS_CORTEX,	"Cortex-A9 r3",
    475  1.78.4.2      yamt 	  pN_steppings },
    476  1.78.4.2      yamt 	{ CPU_ID_CORTEXA9R4,	CPU_CLASS_CORTEX,	"Cortex-A9 r4",
    477      1.69      matt 	  pN_steppings },
    478  1.78.4.2      yamt 	{ CPU_ID_CORTEXA15R2,	CPU_CLASS_CORTEX,	"Cortex-A15 r2",
    479  1.78.4.2      yamt 	  pN_steppings },
    480  1.78.4.2      yamt 	{ CPU_ID_CORTEXA15R3,	CPU_CLASS_CORTEX,	"Cortex-A15 r3",
    481      1.73  jmcneill 	  pN_steppings },
    482      1.58  rearnsha 
    483      1.70      matt 	{ CPU_ID_FA526,		CPU_CLASS_ARMV4,	"FA526",
    484      1.70      matt 	  generic_steppings },
    485      1.70      matt 
    486      1.13   thorpej 	{ 0, CPU_CLASS_NONE, NULL, NULL }
    487       1.1      matt };
    488       1.1      matt 
    489       1.1      matt struct cpu_classtab {
    490       1.9   thorpej 	const char	*class_name;
    491       1.9   thorpej 	const char	*class_option;
    492       1.1      matt };
    493       1.1      matt 
    494       1.1      matt const struct cpu_classtab cpu_classes[] = {
    495      1.74      matt 	[CPU_CLASS_NONE] =	{ "unknown",	NULL },
    496      1.74      matt 	[CPU_CLASS_ARM2] =	{ "ARM2",	"CPU_ARM2" },
    497      1.74      matt 	[CPU_CLASS_ARM2AS] =	{ "ARM2as",	"CPU_ARM250" },
    498      1.74      matt 	[CPU_CLASS_ARM3] =	{ "ARM3",	"CPU_ARM3" },
    499      1.74      matt 	[CPU_CLASS_ARM6] =	{ "ARM6",	"CPU_ARM6" },
    500      1.74      matt 	[CPU_CLASS_ARM7] =	{ "ARM7",	"CPU_ARM7" },
    501      1.74      matt 	[CPU_CLASS_ARM7TDMI] =	{ "ARM7TDMI",	"CPU_ARM7TDMI" },
    502      1.74      matt 	[CPU_CLASS_ARM8] =	{ "ARM8",	"CPU_ARM8" },
    503      1.74      matt 	[CPU_CLASS_ARM9TDMI] =	{ "ARM9TDMI",	NULL },
    504      1.74      matt 	[CPU_CLASS_ARM9ES] =	{ "ARM9E-S",	"CPU_ARM9E" },
    505      1.74      matt 	[CPU_CLASS_ARM9EJS] =	{ "ARM9EJ-S",	"CPU_ARM9E" },
    506      1.74      matt 	[CPU_CLASS_ARM10E] =	{ "ARM10E",	"CPU_ARM10" },
    507      1.74      matt 	[CPU_CLASS_ARM10EJ] =	{ "ARM10EJ",	"CPU_ARM10" },
    508      1.74      matt 	[CPU_CLASS_SA1] =	{ "SA-1",	"CPU_SA110" },
    509      1.74      matt 	[CPU_CLASS_XSCALE] =	{ "XScale",	"CPU_XSCALE_..." },
    510      1.74      matt 	[CPU_CLASS_ARM11J] =	{ "ARM11J",	"CPU_ARM11" },
    511      1.74      matt 	[CPU_CLASS_ARMV4] =	{ "ARMv4",	"CPU_ARMV4" },
    512      1.75      matt 	[CPU_CLASS_CORTEX] =	{ "Cortex",	"CPU_CORTEX" },
    513       1.1      matt };
    514       1.1      matt 
    515       1.1      matt /*
    516      1.47       wiz  * Report the type of the specified arm processor. This uses the generic and
    517      1.55       wiz  * arm specific information in the CPU structure to identify the processor.
    518      1.55       wiz  * The remaining fields in the CPU structure are filled in appropriately.
    519       1.1      matt  */
    520       1.1      matt 
    521      1.42     bjh21 static const char * const wtnames[] = {
    522      1.12   thorpej 	"write-through",
    523      1.12   thorpej 	"write-back",
    524      1.12   thorpej 	"write-back",
    525      1.12   thorpej 	"**unknown 3**",
    526      1.12   thorpej 	"**unknown 4**",
    527      1.12   thorpej 	"write-back-locking",		/* XXX XScale-specific? */
    528      1.12   thorpej 	"write-back-locking-A",
    529      1.12   thorpej 	"write-back-locking-B",
    530      1.12   thorpej 	"**unknown 8**",
    531      1.12   thorpej 	"**unknown 9**",
    532      1.12   thorpej 	"**unknown 10**",
    533      1.12   thorpej 	"**unknown 11**",
    534      1.12   thorpej 	"**unknown 12**",
    535      1.12   thorpej 	"**unknown 13**",
    536      1.57  rearnsha 	"write-back-locking-C",
    537  1.78.4.2      yamt 	"write-back-locking-D",
    538      1.12   thorpej };
    539      1.12   thorpej 
    540  1.78.4.2      yamt static void
    541  1.78.4.2      yamt print_cache_info(device_t dv, struct arm_cache_info *info, u_int level)
    542  1.78.4.2      yamt {
    543  1.78.4.2      yamt 	if (info->cache_unified) {
    544  1.78.4.2      yamt 		aprint_normal_dev(dv, "%dKB/%dB %d-way %s L%u Unified cache\n",
    545  1.78.4.2      yamt 		    info->dcache_size / 1024,
    546  1.78.4.2      yamt 		    info->dcache_line_size, info->dcache_ways,
    547  1.78.4.2      yamt 		    wtnames[info->cache_type], level + 1);
    548  1.78.4.2      yamt 	} else {
    549  1.78.4.2      yamt 		aprint_normal_dev(dv, "%dKB/%dB %d-way L%u Instruction cache\n",
    550  1.78.4.2      yamt 		    info->icache_size / 1024,
    551  1.78.4.2      yamt 		    info->icache_line_size, info->icache_ways, level + 1);
    552  1.78.4.2      yamt 		aprint_normal_dev(dv, "%dKB/%dB %d-way %s L%u Data cache\n",
    553  1.78.4.2      yamt 		    info->dcache_size / 1024,
    554  1.78.4.2      yamt 		    info->dcache_line_size, info->dcache_ways,
    555  1.78.4.2      yamt 		    wtnames[info->cache_type], level + 1);
    556  1.78.4.2      yamt 	}
    557  1.78.4.2      yamt }
    558  1.78.4.2      yamt 
    559       1.1      matt void
    560  1.78.4.2      yamt identify_arm_cpu(device_t dv, struct cpu_info *ci)
    561       1.1      matt {
    562      1.54     chris 	enum cpu_class cpu_class = CPU_CLASS_NONE;
    563  1.78.4.2      yamt 	const u_int cpuid = ci->ci_arm_cpuid;
    564  1.78.4.2      yamt 	const char * const xname = device_xname(dv);
    565      1.68      matt 	const char *steppingstr;
    566  1.78.4.2      yamt 	int i;
    567       1.1      matt 
    568       1.1      matt 	if (cpuid == 0) {
    569      1.49   thorpej 		aprint_error("Processor failed probe - no CPU ID\n");
    570       1.1      matt 		return;
    571       1.1      matt 	}
    572       1.1      matt 
    573       1.1      matt 	for (i = 0; cpuids[i].cpuid != 0; i++)
    574       1.1      matt 		if (cpuids[i].cpuid == (cpuid & CPU_ID_CPU_MASK)) {
    575      1.19     bjh21 			cpu_class = cpuids[i].cpu_class;
    576      1.68      matt 			steppingstr = cpuids[i].cpu_steppings[cpuid &
    577  1.78.4.3      yamt 			    CPU_ID_REVISION_MASK];
    578  1.78.4.3      yamt 			snprintf(cpu_model, sizeof(cpu_model),
    579  1.78.4.3      yamt 			    "%s%s%s (%s core)", cpuids[i].cpu_classname,
    580      1.68      matt 			    steppingstr[0] == '*' ? "" : " ",
    581      1.68      matt 			    &steppingstr[steppingstr[0] == '*'],
    582      1.19     bjh21 			    cpu_classes[cpu_class].class_name);
    583       1.1      matt 			break;
    584       1.1      matt 		}
    585       1.1      matt 
    586       1.1      matt 	if (cpuids[i].cpuid == 0)
    587  1.78.4.3      yamt 		snprintf(cpu_model, sizeof(cpu_model),
    588  1.78.4.3      yamt 		    "unknown CPU (ID = 0x%x)", cpuid);
    589       1.1      matt 
    590  1.78.4.2      yamt 	if (ci->ci_data.cpu_cc_freq != 0) {
    591  1.78.4.2      yamt 		char freqbuf[8];
    592  1.78.4.2      yamt 		humanize_number(freqbuf, sizeof(freqbuf), ci->ci_data.cpu_cc_freq,
    593  1.78.4.2      yamt 		    "Hz", 1000);
    594  1.78.4.2      yamt 
    595  1.78.4.2      yamt 		aprint_naive(": %s %s\n", freqbuf, cpu_model);
    596  1.78.4.2      yamt 		aprint_normal(": %s %s\n", freqbuf, cpu_model);
    597  1.78.4.2      yamt 	} else {
    598  1.78.4.2      yamt 		aprint_naive(": %s\n", cpu_model);
    599  1.78.4.2      yamt 		aprint_normal(": %s\n", cpu_model);
    600  1.78.4.2      yamt 	}
    601      1.29     bjh21 
    602  1.78.4.2      yamt 	aprint_normal("%s:", xname);
    603      1.29     bjh21 
    604      1.19     bjh21 	switch (cpu_class) {
    605       1.1      matt 	case CPU_CLASS_ARM6:
    606       1.1      matt 	case CPU_CLASS_ARM7:
    607       1.3     chris 	case CPU_CLASS_ARM7TDMI:
    608       1.1      matt 	case CPU_CLASS_ARM8:
    609      1.18     bjh21 		if ((ci->ci_ctrl & CPU_CONTROL_IDC_ENABLE) == 0)
    610      1.49   thorpej 			aprint_normal(" IDC disabled");
    611       1.1      matt 		else
    612      1.49   thorpej 			aprint_normal(" IDC enabled");
    613       1.1      matt 		break;
    614       1.6  rearnsha 	case CPU_CLASS_ARM9TDMI:
    615      1.64  christos 	case CPU_CLASS_ARM9ES:
    616      1.64  christos 	case CPU_CLASS_ARM9EJS:
    617      1.53  rearnsha 	case CPU_CLASS_ARM10E:
    618      1.57  rearnsha 	case CPU_CLASS_ARM10EJ:
    619       1.1      matt 	case CPU_CLASS_SA1:
    620       1.4      matt 	case CPU_CLASS_XSCALE:
    621      1.58  rearnsha 	case CPU_CLASS_ARM11J:
    622      1.71      matt 	case CPU_CLASS_ARMV4:
    623      1.74      matt 	case CPU_CLASS_CORTEX:
    624      1.18     bjh21 		if ((ci->ci_ctrl & CPU_CONTROL_DC_ENABLE) == 0)
    625      1.49   thorpej 			aprint_normal(" DC disabled");
    626       1.1      matt 		else
    627      1.49   thorpej 			aprint_normal(" DC enabled");
    628      1.18     bjh21 		if ((ci->ci_ctrl & CPU_CONTROL_IC_ENABLE) == 0)
    629      1.49   thorpej 			aprint_normal(" IC disabled");
    630       1.1      matt 		else
    631      1.49   thorpej 			aprint_normal(" IC enabled");
    632       1.1      matt 		break;
    633      1.19     bjh21 	default:
    634      1.19     bjh21 		break;
    635       1.1      matt 	}
    636      1.18     bjh21 	if ((ci->ci_ctrl & CPU_CONTROL_WBUF_ENABLE) == 0)
    637      1.49   thorpej 		aprint_normal(" WB disabled");
    638       1.1      matt 	else
    639      1.49   thorpej 		aprint_normal(" WB enabled");
    640       1.1      matt 
    641      1.18     bjh21 	if (ci->ci_ctrl & CPU_CONTROL_LABT_ENABLE)
    642      1.49   thorpej 		aprint_normal(" LABT");
    643       1.1      matt 	else
    644      1.49   thorpej 		aprint_normal(" EABT");
    645       1.1      matt 
    646      1.18     bjh21 	if (ci->ci_ctrl & CPU_CONTROL_BPRD_ENABLE)
    647      1.49   thorpej 		aprint_normal(" branch prediction enabled");
    648       1.1      matt 
    649      1.49   thorpej 	aprint_normal("\n");
    650       1.1      matt 
    651  1.78.4.2      yamt #if defined(CPU_CORTEX)
    652  1.78.4.2      yamt 	if (CPU_ID_CORTEX_P(cpuid)) {
    653  1.78.4.2      yamt 		identify_features(dv);
    654  1.78.4.2      yamt 	}
    655  1.78.4.2      yamt #endif
    656      1.12   thorpej 	/* Print cache info. */
    657  1.78.4.2      yamt 	if (arm_pcache.icache_line_size != 0 || arm_pcache.dcache_line_size != 0) {
    658  1.78.4.2      yamt 		print_cache_info(dv, &arm_pcache, 0);
    659  1.78.4.2      yamt 	}
    660  1.78.4.2      yamt 	if (arm_scache.icache_line_size != 0 || arm_scache.dcache_line_size != 0) {
    661  1.78.4.2      yamt 		print_cache_info(dv, &arm_scache, 1);
    662      1.12   thorpej 	}
    663      1.12   thorpej 
    664       1.1      matt 
    665      1.19     bjh21 	switch (cpu_class) {
    666       1.1      matt #ifdef CPU_ARM2
    667       1.1      matt 	case CPU_CLASS_ARM2:
    668       1.1      matt #endif
    669       1.1      matt #ifdef CPU_ARM250
    670       1.1      matt 	case CPU_CLASS_ARM2AS:
    671       1.1      matt #endif
    672       1.1      matt #ifdef CPU_ARM3
    673       1.1      matt 	case CPU_CLASS_ARM3:
    674       1.1      matt #endif
    675       1.1      matt #ifdef CPU_ARM6
    676       1.1      matt 	case CPU_CLASS_ARM6:
    677       1.1      matt #endif
    678       1.1      matt #ifdef CPU_ARM7
    679       1.1      matt 	case CPU_CLASS_ARM7:
    680       1.1      matt #endif
    681       1.3     chris #ifdef CPU_ARM7TDMI
    682       1.3     chris 	case CPU_CLASS_ARM7TDMI:
    683       1.3     chris #endif
    684       1.1      matt #ifdef CPU_ARM8
    685       1.1      matt 	case CPU_CLASS_ARM8:
    686       1.6  rearnsha #endif
    687       1.6  rearnsha #ifdef CPU_ARM9
    688       1.6  rearnsha 	case CPU_CLASS_ARM9TDMI:
    689      1.53  rearnsha #endif
    690      1.77  kiyohara #if defined(CPU_ARM9E) || defined(CPU_SHEEVA)
    691      1.64  christos 	case CPU_CLASS_ARM9ES:
    692      1.64  christos 	case CPU_CLASS_ARM9EJS:
    693      1.64  christos #endif
    694      1.53  rearnsha #ifdef CPU_ARM10
    695      1.53  rearnsha 	case CPU_CLASS_ARM10E:
    696      1.57  rearnsha 	case CPU_CLASS_ARM10EJ:
    697       1.1      matt #endif
    698      1.37    ichiro #if defined(CPU_SA110) || defined(CPU_SA1100) || \
    699      1.37    ichiro     defined(CPU_SA1110) || defined(CPU_IXP12X0)
    700       1.1      matt 	case CPU_CLASS_SA1:
    701       1.4      matt #endif
    702      1.35   thorpej #if defined(CPU_XSCALE_80200) || defined(CPU_XSCALE_80321) || \
    703      1.59       bsh     defined(__CPU_XSCALE_PXA2XX) || defined(CPU_XSCALE_IXP425)
    704       1.4      matt 	case CPU_CLASS_XSCALE:
    705       1.1      matt #endif
    706      1.68      matt #if defined(CPU_ARM11)
    707      1.58  rearnsha 	case CPU_CLASS_ARM11J:
    708      1.76      matt #endif
    709      1.76      matt #if defined(CPU_CORTEX)
    710      1.74      matt 	case CPU_CLASS_CORTEX:
    711      1.58  rearnsha #endif
    712      1.71      matt #if defined(CPU_FA526)
    713      1.71      matt 	case CPU_CLASS_ARMV4:
    714      1.71      matt #endif
    715       1.1      matt 		break;
    716       1.1      matt 	default:
    717  1.78.4.2      yamt 		if (cpu_classes[cpu_class].class_option == NULL) {
    718  1.78.4.2      yamt 			aprint_error_dev(dv, "%s does not fully support this CPU.\n",
    719  1.78.4.2      yamt 			     ostype);
    720  1.78.4.2      yamt 		} else {
    721  1.78.4.2      yamt 			aprint_error_dev(dv, "This kernel does not fully support "
    722  1.78.4.2      yamt 			       "this CPU.\n");
    723  1.78.4.2      yamt 			aprint_normal_dev(dv, "Recompile with \"options %s\" to "
    724  1.78.4.2      yamt 			       "correct this.\n", cpu_classes[cpu_class].class_option);
    725       1.1      matt 		}
    726       1.1      matt 		break;
    727       1.1      matt 	}
    728      1.43     bjh21 }
    729       1.1      matt 
    730  1.78.4.2      yamt #if defined(CPU_CORTEX)
    731  1.78.4.2      yamt void
    732  1.78.4.2      yamt identify_features(device_t dv)
    733  1.78.4.2      yamt {
    734  1.78.4.2      yamt 	uint32_t isar0 = armreg_isar0_read();
    735  1.78.4.2      yamt 	uint32_t isar1 = armreg_isar1_read();
    736  1.78.4.2      yamt 	uint32_t isar2 = armreg_isar2_read();
    737  1.78.4.2      yamt 	uint32_t isar3 = armreg_isar3_read();
    738  1.78.4.2      yamt 	uint32_t isar4 = armreg_isar4_read();
    739  1.78.4.2      yamt 	uint32_t isar5 = armreg_isar5_read();
    740  1.78.4.2      yamt 
    741  1.78.4.2      yamt 	uint32_t mmfr0 = armreg_mmfr0_read();
    742  1.78.4.2      yamt 	uint32_t mmfr1 = armreg_mmfr1_read();
    743  1.78.4.2      yamt 	uint32_t mmfr2 = armreg_mmfr2_read();
    744  1.78.4.2      yamt 	uint32_t mmfr3 = armreg_mmfr3_read();
    745  1.78.4.2      yamt 
    746  1.78.4.2      yamt 	if (__SHIFTOUT(mmfr3, __BITS(23,20))) {
    747  1.78.4.2      yamt 		/*
    748  1.78.4.2      yamt 		 * Updates to the translation tables do not require a clean
    749  1.78.4.2      yamt 		 * to the point of unification to ensure visibility by subsequent
    750  1.78.4.2      yamt 		 * translation table walks.
    751  1.78.4.2      yamt 		 */
    752  1.78.4.2      yamt 		pmap_needs_pte_sync = 0;
    753  1.78.4.2      yamt 	}
    754  1.78.4.2      yamt 
    755  1.78.4.2      yamt 	uint32_t pfr0 = armreg_pfr0_read();
    756  1.78.4.2      yamt 	uint32_t pfr1 = armreg_pfr1_read();
    757  1.78.4.2      yamt 
    758  1.78.4.2      yamt 	aprint_verbose_dev(dv,
    759  1.78.4.2      yamt 	    "isar: [0]=%#x [1]=%#x [2]=%#x [3]=%#x, [4]=%#x, [5]=%#x\n",
    760  1.78.4.2      yamt 	    isar0, isar1, isar2, isar3, isar4, isar5);
    761  1.78.4.2      yamt 	aprint_verbose_dev(dv,
    762  1.78.4.2      yamt 	    "mmfr: [0]=%#x [1]=%#x [2]=%#x [3]=%#x\n",
    763  1.78.4.2      yamt 	    mmfr0, mmfr1, mmfr2, mmfr3);
    764  1.78.4.2      yamt 	aprint_verbose_dev(dv,
    765  1.78.4.2      yamt 	    "pfr: [0]=%#x [1]=%#x\n",
    766  1.78.4.2      yamt 	    pfr0, pfr1);
    767  1.78.4.2      yamt }
    768  1.78.4.2      yamt #endif /* CPU_CORTEX */
    769