arm/arm32/cpu.c

1.3.4.7  jdolecek /*	$NetBSD: cpu.c,v 1.3.4.7 2002/10/10 18:31:44 jdolecek Exp $	*/
    1.1      matt
    1.1      matt /*
    1.1      matt  * Copyright (c) 1995 Mark Brinicombe.
    1.1      matt  * Copyright (c) 1995 Brini.
    1.1      matt  * All rights reserved.
    1.1      matt  *
    1.1      matt  * Redistribution and use in source and binary forms, with or without
    1.1      matt  * modification, are permitted provided that the following conditions
    1.1      matt  * are met:
    1.1      matt  * 1. Redistributions of source code must retain the above copyright
    1.1      matt  *    notice, this list of conditions and the following disclaimer.
    1.1      matt  * 2. Redistributions in binary form must reproduce the above copyright
    1.1      matt  *    notice, this list of conditions and the following disclaimer in the
    1.1      matt  *    documentation and/or other materials provided with the distribution.
    1.1      matt  * 3. All advertising materials mentioning features or use of this software
    1.1      matt  *    must display the following acknowledgement:
    1.1      matt  *	This product includes software developed by Brini.
    1.1      matt  * 4. The name of the company nor the name of the author may be used to
    1.1      matt  *    endorse or promote products derived from this software without specific
    1.1      matt  *    prior written permission.
    1.1      matt  *
    1.1      matt  * THIS SOFTWARE IS PROVIDED BY BRINI ``AS IS'' AND ANY EXPRESS OR IMPLIED
    1.1      matt  * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
    1.1      matt  * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
    1.1      matt  * IN NO EVENT SHALL BRINI OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT,
    1.1      matt  * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
    1.1      matt  * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
    1.1      matt  * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
    1.1      matt  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
    1.1      matt  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
    1.1      matt  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
    1.1      matt  * SUCH DAMAGE.
    1.1      matt  *
    1.1      matt  * RiscBSD kernel project
    1.1      matt  *
    1.1      matt  * cpu.c
    1.1      matt  *
    1.1      matt  * Probing and configuration for the master cpu
    1.1      matt  *
    1.1      matt  * Created      : 10/10/95
    1.1      matt  */
    1.1      matt
    1.1      matt #include "opt_armfpe.h"
    1.1      matt
    1.1      matt #include <sys/param.h>
1.3.4.4  jdolecek
1.3.4.7  jdolecek __KERNEL_RCSID(0, "$NetBSD: cpu.c,v 1.3.4.7 2002/10/10 18:31:44 jdolecek Exp $");
1.3.4.4  jdolecek
    1.1      matt #include <sys/systm.h>
    1.1      matt #include <sys/malloc.h>
    1.1      matt #include <sys/device.h>
    1.1      matt #include <sys/proc.h>
1.3.4.7  jdolecek #include <sys/conf.h>
    1.1      matt #include <uvm/uvm_extern.h>
    1.1      matt #include <machine/cpu.h>
1.3.4.5  jdolecek
1.3.4.5  jdolecek #include <arm/cpuconf.h>
1.3.4.2   thorpej #include <arm/undefined.h>
1.3.4.2   thorpej
    1.1      matt #ifdef ARMFPE
    1.1      matt #include <machine/bootconfig.h> /* For boot args */
1.3.4.2   thorpej #include <arm/fpe-arm/armfpe.h>
1.3.4.2   thorpej #endif
    1.1      matt
1.3.4.4  jdolecek char cpu_model[256];
    1.1      matt
    1.1      matt /* Prototypes */
1.3.4.4  jdolecek void identify_arm_cpu(struct device *dv, struct cpu_info *);
    1.1      matt
    1.1      matt /*
1.3.4.4  jdolecek  * Identify the master (boot) CPU
    1.1      matt  */
    1.1      matt
    1.1      matt void
1.3.4.4  jdolecek cpu_attach(struct device *dv)
    1.1      matt {
1.3.4.4  jdolecek 	int usearmfpe;
    1.1      matt
1.3.4.4  jdolecek 	usearmfpe = 1;	/* when compiled in, its enabled by default */
    1.1      matt
1.3.4.4  jdolecek 	curcpu()->ci_dev = dv;
    1.1      matt
1.3.4.4  jdolecek 	evcnt_attach_dynamic(&curcpu()->ci_arm700bugcount, EVCNT_TYPE_MISC,
1.3.4.4  jdolecek 	    NULL, dv->dv_xname, "arm700swibug");
1.3.4.4  jdolecek
    1.1      matt 	/* Get the cpu ID from coprocessor 15 */
    1.1      matt
1.3.4.4  jdolecek 	curcpu()->ci_cpuid = cpu_id();
1.3.4.5  jdolecek 	curcpu()->ci_cputype = curcpu()->ci_cpuid & CPU_ID_CPU_MASK;
1.3.4.5  jdolecek 	curcpu()->ci_cpurev = curcpu()->ci_cpuid & CPU_ID_REVISION_MASK;
    1.1      matt
1.3.4.4  jdolecek 	identify_arm_cpu(dv, curcpu());
    1.1      matt
1.3.4.5  jdolecek 	if (curcpu()->ci_cputype == CPU_ID_SA110 && curcpu()->ci_cpurev < 3) {
    1.1      matt 		printf("%s: SA-110 with bugged STM^ instruction\n",
    1.1      matt 		       dv->dv_xname);
    1.1      matt 	}
    1.1      matt
    1.1      matt #ifdef CPU_ARM8
1.3.4.4  jdolecek 	if ((curcpu()->ci_cpuid & CPU_ID_CPU_MASK) == CPU_ID_ARM810) {
    1.1      matt 		int clock = arm8_clock_config(0, 0);
    1.1      matt 		char *fclk;
    1.1      matt 		printf("%s: ARM810 cp15=%02x", dv->dv_xname, clock);
    1.1      matt 		printf(" clock:%s", (clock & 1) ? " dynamic" : "");
    1.1      matt 		printf("%s", (clock & 2) ? " sync" : "");
    1.1      matt 		switch ((clock >> 2) & 3) {
1.3.4.4  jdolecek 		case 0:
    1.1      matt 			fclk = "bus clock";
    1.1      matt 			break;
1.3.4.4  jdolecek 		case 1:
    1.1      matt 			fclk = "ref clock";
    1.1      matt 			break;
1.3.4.4  jdolecek 		case 3:
    1.1      matt 			fclk = "pll";
    1.1      matt 			break;
1.3.4.4  jdolecek 		default:
    1.1      matt 			fclk = "illegal";
    1.1      matt 			break;
    1.1      matt 		}
    1.1      matt 		printf(" fclk source=%s\n", fclk);
    1.1      matt  	}
    1.1      matt #endif
    1.1      matt
1.3.4.4  jdolecek #ifdef ARMFPE
    1.1      matt 	/*
    1.1      matt 	 * Ok now we test for an FPA
    1.1      matt 	 * At this point no floating point emulator has been installed.
    1.1      matt 	 * This means any FP instruction will cause undefined exception.
    1.1      matt 	 * We install a temporay coproc 1 handler which will modify
    1.1      matt 	 * undefined_test if it is called.
    1.1      matt 	 * We then try to read the FP status register. If undefined_test
    1.1      matt 	 * has been decremented then the instruction was not handled by
    1.1      matt 	 * an FPA so we know the FPA is missing. If undefined_test is
    1.1      matt 	 * still 1 then we know the instruction was handled by an FPA.
    1.1      matt 	 * We then remove our test handler and look at the
    1.1      matt 	 * FP status register for identification.
    1.1      matt 	 */
    1.1      matt
1.3.4.4  jdolecek 	/*
1.3.4.4  jdolecek 	 * Ok if ARMFPE is defined and the boot options request the
1.3.4.4  jdolecek 	 * ARM FPE then it will be installed as the FPE.
1.3.4.4  jdolecek 	 * This is just while I work on integrating the new FPE.
1.3.4.4  jdolecek 	 * It means the new FPE gets installed if compiled int (ARMFPE
1.3.4.4  jdolecek 	 * defined) and also gives me a on/off option when I boot in
1.3.4.4  jdolecek 	 * case the new FPE is causing panics.
1.3.4.4  jdolecek 	 */
    1.1      matt
    1.1      matt
1.3.4.4  jdolecek 	if (boot_args)
1.3.4.4  jdolecek 		get_bootconf_option(boot_args, "armfpe",
1.3.4.4  jdolecek 		    BOOTOPT_TYPE_BOOLEAN, &usearmfpe);
1.3.4.4  jdolecek 	if (usearmfpe)
1.3.4.4  jdolecek 		initialise_arm_fpe();
    1.1      matt #endif
    1.1      matt }
    1.1      matt
1.3.4.4  jdolecek enum cpu_class {
1.3.4.4  jdolecek 	CPU_CLASS_NONE,
1.3.4.4  jdolecek 	CPU_CLASS_ARM2,
1.3.4.4  jdolecek 	CPU_CLASS_ARM2AS,
1.3.4.4  jdolecek 	CPU_CLASS_ARM3,
1.3.4.4  jdolecek 	CPU_CLASS_ARM6,
1.3.4.4  jdolecek 	CPU_CLASS_ARM7,
1.3.4.4  jdolecek 	CPU_CLASS_ARM7TDMI,
1.3.4.4  jdolecek 	CPU_CLASS_ARM8,
1.3.4.4  jdolecek 	CPU_CLASS_ARM9TDMI,
1.3.4.4  jdolecek 	CPU_CLASS_ARM9ES,
1.3.4.4  jdolecek 	CPU_CLASS_SA1,
1.3.4.4  jdolecek 	CPU_CLASS_XSCALE,
1.3.4.5  jdolecek 	CPU_CLASS_ARM10E
1.3.4.4  jdolecek };
1.3.4.4  jdolecek
1.3.4.7  jdolecek static const char * const generic_steppings[16] = {
1.3.4.3  jdolecek 	"rev 0",	"rev 1",	"rev 2",	"rev 3",
1.3.4.3  jdolecek 	"rev 4",	"rev 5",	"rev 6",	"rev 7",
1.3.4.3  jdolecek 	"rev 8",	"rev 9",	"rev 10",	"rev 11",
1.3.4.3  jdolecek 	"rev 12",	"rev 13",	"rev 14",	"rev 15",
1.3.4.3  jdolecek };
1.3.4.3  jdolecek
1.3.4.7  jdolecek static const char * const sa110_steppings[16] = {
1.3.4.3  jdolecek 	"rev 0",	"step J",	"step K",	"step S",
1.3.4.3  jdolecek 	"step T",	"rev 5",	"rev 6",	"rev 7",
1.3.4.3  jdolecek 	"rev 8",	"rev 9",	"rev 10",	"rev 11",
1.3.4.3  jdolecek 	"rev 12",	"rev 13",	"rev 14",	"rev 15",
1.3.4.3  jdolecek };
1.3.4.3  jdolecek
1.3.4.7  jdolecek static const char * const sa1100_steppings[16] = {
1.3.4.3  jdolecek 	"rev 0",	"step B",	"step C",	"rev 3",
1.3.4.3  jdolecek 	"rev 4",	"rev 5",	"rev 6",	"rev 7",
1.3.4.3  jdolecek 	"step D",	"step E",	"rev 10"	"step G",
1.3.4.3  jdolecek 	"rev 12",	"rev 13",	"rev 14",	"rev 15",
1.3.4.3  jdolecek };
1.3.4.3  jdolecek
1.3.4.7  jdolecek static const char * const sa1110_steppings[16] = {
1.3.4.3  jdolecek 	"step A-0",	"rev 1",	"rev 2",	"rev 3",
1.3.4.3  jdolecek 	"step B-0",	"step B-1",	"step B-2",	"step B-3",
1.3.4.3  jdolecek 	"step B-4",	"step B-5",	"rev 10",	"rev 11",
1.3.4.3  jdolecek 	"rev 12",	"rev 13",	"rev 14",	"rev 15",
1.3.4.3  jdolecek };
1.3.4.3  jdolecek
1.3.4.7  jdolecek static const char * const ixp12x0_steppings[16] = {
1.3.4.5  jdolecek 	"(IXP1200 step A)",		"(IXP1200 step B)",
1.3.4.5  jdolecek 	"rev 2",			"(IXP1200 step C)",
1.3.4.5  jdolecek 	"(IXP1200 step D)",		"(IXP1240/1250 step A)",
1.3.4.5  jdolecek 	"(IXP1240 step B)",		"(IXP1250 step B)",
1.3.4.5  jdolecek 	"rev 8",	"rev 9",	"rev 10",	"rev 11",
1.3.4.5  jdolecek 	"rev 12",	"rev 13",	"rev 14",	"rev 15",
1.3.4.5  jdolecek };
1.3.4.5  jdolecek
1.3.4.7  jdolecek static const char * const xscale_steppings[16] = {
1.3.4.3  jdolecek 	"step A-0",	"step A-1",	"step B-0",	"step C-0",
1.3.4.6  jdolecek 	"step D-0",	"rev 5",	"rev 6",	"rev 7",
1.3.4.6  jdolecek 	"rev 8",	"rev 9",	"rev 10",	"rev 11",
1.3.4.6  jdolecek 	"rev 12",	"rev 13",	"rev 14",	"rev 15",
1.3.4.6  jdolecek };
1.3.4.6  jdolecek
1.3.4.7  jdolecek static const char * const i80321_steppings[16] = {
1.3.4.6  jdolecek 	"step A-0",	"step B-0",	"rev 2",	"rev 3",
1.3.4.3  jdolecek 	"rev 4",	"rev 5",	"rev 6",	"rev 7",
1.3.4.3  jdolecek 	"rev 8",	"rev 9",	"rev 10",	"rev 11",
1.3.4.3  jdolecek 	"rev 12",	"rev 13",	"rev 14",	"rev 15",
1.3.4.3  jdolecek };
1.3.4.3  jdolecek
1.3.4.7  jdolecek static const char * const pxa2x0_steppings[16] = {
1.3.4.5  jdolecek 	"step A-0",	"step A-1",	"step B-0",	"step B-1",
1.3.4.5  jdolecek 	"rev 4",	"rev 5",	"rev 6",	"rev 7",
1.3.4.5  jdolecek 	"rev 8",	"rev 9",	"rev 10",	"rev 11",
1.3.4.5  jdolecek 	"rev 12",	"rev 13",	"rev 14",	"rev 15",
1.3.4.5  jdolecek };
1.3.4.5  jdolecek
    1.1      matt struct cpuidtab {
    1.1      matt 	u_int32_t	cpuid;
    1.1      matt 	enum		cpu_class cpu_class;
1.3.4.2   thorpej 	const char	*cpu_name;
1.3.4.7  jdolecek 	const char * const *cpu_steppings;
    1.1      matt };
    1.1      matt
    1.1      matt const struct cpuidtab cpuids[] = {
1.3.4.3  jdolecek 	{ CPU_ID_ARM2,		CPU_CLASS_ARM2,		"ARM2",
1.3.4.3  jdolecek 	  generic_steppings },
1.3.4.3  jdolecek 	{ CPU_ID_ARM250,	CPU_CLASS_ARM2AS,	"ARM250",
1.3.4.3  jdolecek 	  generic_steppings },
1.3.4.3  jdolecek
1.3.4.3  jdolecek 	{ CPU_ID_ARM3,		CPU_CLASS_ARM3,		"ARM3",
1.3.4.3  jdolecek 	  generic_steppings },
1.3.4.3  jdolecek
1.3.4.3  jdolecek 	{ CPU_ID_ARM600,	CPU_CLASS_ARM6,		"ARM600",
1.3.4.3  jdolecek 	  generic_steppings },
1.3.4.3  jdolecek 	{ CPU_ID_ARM610,	CPU_CLASS_ARM6,		"ARM610",
1.3.4.3  jdolecek 	  generic_steppings },
1.3.4.3  jdolecek 	{ CPU_ID_ARM620,	CPU_CLASS_ARM6,		"ARM620",
1.3.4.3  jdolecek 	  generic_steppings },
1.3.4.3  jdolecek
1.3.4.3  jdolecek 	{ CPU_ID_ARM700,	CPU_CLASS_ARM7,		"ARM700",
1.3.4.3  jdolecek 	  generic_steppings },
1.3.4.3  jdolecek 	{ CPU_ID_ARM710,	CPU_CLASS_ARM7,		"ARM710",
1.3.4.3  jdolecek 	  generic_steppings },
1.3.4.3  jdolecek 	{ CPU_ID_ARM7500,	CPU_CLASS_ARM7,		"ARM7500",
1.3.4.3  jdolecek 	  generic_steppings },
1.3.4.3  jdolecek 	{ CPU_ID_ARM710A,	CPU_CLASS_ARM7,		"ARM710a",
1.3.4.3  jdolecek 	  generic_steppings },
1.3.4.3  jdolecek 	{ CPU_ID_ARM7500FE,	CPU_CLASS_ARM7,		"ARM7500FE",
1.3.4.3  jdolecek 	  generic_steppings },
1.3.4.3  jdolecek 	{ CPU_ID_ARM710T,	CPU_CLASS_ARM7TDMI,	"ARM710T",
1.3.4.3  jdolecek 	  generic_steppings },
1.3.4.3  jdolecek 	{ CPU_ID_ARM720T,	CPU_CLASS_ARM7TDMI,	"ARM720T",
1.3.4.3  jdolecek 	  generic_steppings },
1.3.4.3  jdolecek 	{ CPU_ID_ARM740T8K,	CPU_CLASS_ARM7TDMI, "ARM740T (8 KB cache)",
1.3.4.3  jdolecek 	  generic_steppings },
1.3.4.3  jdolecek 	{ CPU_ID_ARM740T4K,	CPU_CLASS_ARM7TDMI, "ARM740T (4 KB cache)",
1.3.4.3  jdolecek 	  generic_steppings },
1.3.4.3  jdolecek
1.3.4.3  jdolecek 	{ CPU_ID_ARM810,	CPU_CLASS_ARM8,		"ARM810",
1.3.4.3  jdolecek 	  generic_steppings },
1.3.4.3  jdolecek
1.3.4.3  jdolecek 	{ CPU_ID_ARM920T,	CPU_CLASS_ARM9TDMI,	"ARM920T",
1.3.4.3  jdolecek 	  generic_steppings },
1.3.4.3  jdolecek 	{ CPU_ID_ARM922T,	CPU_CLASS_ARM9TDMI,	"ARM922T",
1.3.4.3  jdolecek 	  generic_steppings },
1.3.4.3  jdolecek 	{ CPU_ID_ARM940T,	CPU_CLASS_ARM9TDMI,	"ARM940T",
1.3.4.3  jdolecek 	  generic_steppings },
1.3.4.3  jdolecek 	{ CPU_ID_ARM946ES,	CPU_CLASS_ARM9ES,	"ARM946E-S",
1.3.4.3  jdolecek 	  generic_steppings },
1.3.4.3  jdolecek 	{ CPU_ID_ARM966ES,	CPU_CLASS_ARM9ES,	"ARM966E-S",
1.3.4.3  jdolecek 	  generic_steppings },
1.3.4.3  jdolecek 	{ CPU_ID_ARM966ESR1,	CPU_CLASS_ARM9ES,	"ARM966E-S",
1.3.4.3  jdolecek 	  generic_steppings },
1.3.4.3  jdolecek
1.3.4.3  jdolecek 	{ CPU_ID_SA110,		CPU_CLASS_SA1,		"SA-110",
1.3.4.3  jdolecek 	  sa110_steppings },
1.3.4.3  jdolecek 	{ CPU_ID_SA1100,	CPU_CLASS_SA1,		"SA-1100",
1.3.4.3  jdolecek 	  sa1100_steppings },
1.3.4.3  jdolecek 	{ CPU_ID_SA1110,	CPU_CLASS_SA1,		"SA-1110",
1.3.4.3  jdolecek 	  sa1110_steppings },
1.3.4.3  jdolecek
1.3.4.5  jdolecek 	{ CPU_ID_IXP1200,	CPU_CLASS_SA1,		"IXP1200",
1.3.4.5  jdolecek 	  ixp12x0_steppings },
1.3.4.5  jdolecek
1.3.4.5  jdolecek 	{ CPU_ID_80200,		CPU_CLASS_XSCALE,	"i80200",
1.3.4.5  jdolecek 	  xscale_steppings },
1.3.4.5  jdolecek
1.3.4.5  jdolecek 	{ CPU_ID_80321_400,	CPU_CLASS_XSCALE,	"i80321 400MHz",
1.3.4.6  jdolecek 	  i80321_steppings },
1.3.4.5  jdolecek 	{ CPU_ID_80321_600,	CPU_CLASS_XSCALE,	"i80321 600MHz",
1.3.4.6  jdolecek 	  i80321_steppings },
1.3.4.6  jdolecek 	{ CPU_ID_80321_400_B0,	CPU_CLASS_XSCALE,	"i80321 400MHz",
1.3.4.6  jdolecek 	  i80321_steppings },
1.3.4.6  jdolecek 	{ CPU_ID_80321_600_B0,	CPU_CLASS_XSCALE,	"i80321 600MHz",
1.3.4.6  jdolecek 	  i80321_steppings },
1.3.4.5  jdolecek
1.3.4.6  jdolecek 	{ CPU_ID_PXA250A,	CPU_CLASS_XSCALE,	"PXA250(1st ver core)",
1.3.4.6  jdolecek 	  pxa2x0_steppings },
1.3.4.6  jdolecek 	{ CPU_ID_PXA210A,	CPU_CLASS_XSCALE,	"PXA210(1st ver core)",
1.3.4.6  jdolecek 	  pxa2x0_steppings },
1.3.4.6  jdolecek 	{ CPU_ID_PXA250B,	CPU_CLASS_XSCALE,	"PXA250(3rd ver core)",
1.3.4.6  jdolecek 	  pxa2x0_steppings },
1.3.4.6  jdolecek 	{ CPU_ID_PXA210B,	CPU_CLASS_XSCALE,	"PXA210(3rd ver core)",
1.3.4.5  jdolecek 	  pxa2x0_steppings },
1.3.4.5  jdolecek
1.3.4.5  jdolecek 	{ CPU_ID_ARM1022ES,	CPU_CLASS_ARM10E,	"ARM1022ES",
1.3.4.5  jdolecek 	  generic_steppings },
1.3.4.3  jdolecek
1.3.4.3  jdolecek 	{ 0, CPU_CLASS_NONE, NULL, NULL }
    1.1      matt };
    1.1      matt
    1.1      matt struct cpu_classtab {
1.3.4.2   thorpej 	const char	*class_name;
1.3.4.2   thorpej 	const char	*class_option;
    1.1      matt };
    1.1      matt
    1.1      matt const struct cpu_classtab cpu_classes[] = {
1.3.4.2   thorpej 	{ "unknown",	NULL },			/* CPU_CLASS_NONE */
1.3.4.2   thorpej 	{ "ARM2",	"CPU_ARM2" },		/* CPU_CLASS_ARM2 */
1.3.4.2   thorpej 	{ "ARM2as",	"CPU_ARM250" },		/* CPU_CLASS_ARM2AS */
1.3.4.2   thorpej 	{ "ARM3",	"CPU_ARM3" },		/* CPU_CLASS_ARM3 */
1.3.4.2   thorpej 	{ "ARM6",	"CPU_ARM6" },		/* CPU_CLASS_ARM6 */
1.3.4.2   thorpej 	{ "ARM7",	"CPU_ARM7" },		/* CPU_CLASS_ARM7 */
1.3.4.2   thorpej 	{ "ARM7TDMI",	"CPU_ARM7TDMI" },	/* CPU_CLASS_ARM7TDMI */
1.3.4.2   thorpej 	{ "ARM8",	"CPU_ARM8" },		/* CPU_CLASS_ARM8 */
1.3.4.2   thorpej 	{ "ARM9TDMI",	NULL },			/* CPU_CLASS_ARM9TDMI */
1.3.4.2   thorpej 	{ "ARM9E-S",	NULL },			/* CPU_CLASS_ARM9ES */
1.3.4.2   thorpej 	{ "SA-1",	"CPU_SA110" },		/* CPU_CLASS_SA1 */
1.3.4.5  jdolecek 	{ "XScale",	"CPU_XSCALE_..." },	/* CPU_CLASS_XSCALE */
1.3.4.5  jdolecek 	{ "ARM10E",	NULL },			/* CPU_CLASS_ARM10E */
    1.1      matt };
    1.1      matt
    1.1      matt /*
    1.1      matt  * Report the type of the specifed arm processor. This uses the generic and
    1.1      matt  * arm specific information in the cpu structure to identify the processor.
    1.1      matt  * The remaining fields in the cpu structure are filled in appropriately.
    1.1      matt  */
    1.1      matt
1.3.4.7  jdolecek static const char * const wtnames[] = {
1.3.4.2   thorpej 	"write-through",
1.3.4.2   thorpej 	"write-back",
1.3.4.2   thorpej 	"write-back",
1.3.4.2   thorpej 	"**unknown 3**",
1.3.4.2   thorpej 	"**unknown 4**",
1.3.4.2   thorpej 	"write-back-locking",		/* XXX XScale-specific? */
1.3.4.2   thorpej 	"write-back-locking-A",
1.3.4.2   thorpej 	"write-back-locking-B",
1.3.4.2   thorpej 	"**unknown 8**",
1.3.4.2   thorpej 	"**unknown 9**",
1.3.4.2   thorpej 	"**unknown 10**",
1.3.4.2   thorpej 	"**unknown 11**",
1.3.4.2   thorpej 	"**unknown 12**",
1.3.4.2   thorpej 	"**unknown 13**",
1.3.4.2   thorpej 	"**unknown 14**",
1.3.4.2   thorpej 	"**unknown 15**",
1.3.4.2   thorpej };
1.3.4.2   thorpej
    1.1      matt void
1.3.4.4  jdolecek identify_arm_cpu(struct device *dv, struct cpu_info *ci)
    1.1      matt {
    1.1      matt 	u_int cpuid;
1.3.4.4  jdolecek 	enum cpu_class cpu_class;
    1.1      matt 	int i;
    1.1      matt
1.3.4.4  jdolecek 	cpuid = ci->ci_cpuid;
    1.1      matt
    1.1      matt 	if (cpuid == 0) {
    1.1      matt 		printf("Processor failed probe - no CPU ID\n");
    1.1      matt 		return;
    1.1      matt 	}
    1.1      matt
    1.1      matt 	for (i = 0; cpuids[i].cpuid != 0; i++)
    1.1      matt 		if (cpuids[i].cpuid == (cpuid & CPU_ID_CPU_MASK)) {
1.3.4.4  jdolecek 			cpu_class = cpuids[i].cpu_class;
1.3.4.4  jdolecek 			sprintf(cpu_model, "%s %s (%s core)",
1.3.4.3  jdolecek 			    cpuids[i].cpu_name,
1.3.4.3  jdolecek 			    cpuids[i].cpu_steppings[cpuid &
1.3.4.3  jdolecek 						    CPU_ID_REVISION_MASK],
1.3.4.4  jdolecek 			    cpu_classes[cpu_class].class_name);
    1.1      matt 			break;
    1.1      matt 		}
    1.1      matt
    1.1      matt 	if (cpuids[i].cpuid == 0)
1.3.4.4  jdolecek 		sprintf(cpu_model, "unknown CPU (ID = 0x%x)", cpuid);
    1.1      matt
1.3.4.5  jdolecek 	printf(": %s\n", cpu_model);
1.3.4.5  jdolecek
1.3.4.5  jdolecek 	printf("%s:", dv->dv_xname);
1.3.4.5  jdolecek
1.3.4.4  jdolecek 	switch (cpu_class) {
    1.1      matt 	case CPU_CLASS_ARM6:
    1.1      matt 	case CPU_CLASS_ARM7:
    1.3     chris 	case CPU_CLASS_ARM7TDMI:
    1.1      matt 	case CPU_CLASS_ARM8:
1.3.4.4  jdolecek 		if ((ci->ci_ctrl & CPU_CONTROL_IDC_ENABLE) == 0)
1.3.4.5  jdolecek 			printf(" IDC disabled");
    1.1      matt 		else
1.3.4.5  jdolecek 			printf(" IDC enabled");
    1.1      matt 		break;
1.3.4.2   thorpej 	case CPU_CLASS_ARM9TDMI:
    1.1      matt 	case CPU_CLASS_SA1:
1.3.4.1   thorpej 	case CPU_CLASS_XSCALE:
1.3.4.4  jdolecek 		if ((ci->ci_ctrl & CPU_CONTROL_DC_ENABLE) == 0)
1.3.4.5  jdolecek 			printf(" DC disabled");
    1.1      matt 		else
1.3.4.5  jdolecek 			printf(" DC enabled");
1.3.4.4  jdolecek 		if ((ci->ci_ctrl & CPU_CONTROL_IC_ENABLE) == 0)
1.3.4.5  jdolecek 			printf(" IC disabled");
    1.1      matt 		else
1.3.4.5  jdolecek 			printf(" IC enabled");
1.3.4.4  jdolecek 		break;
1.3.4.4  jdolecek 	default:
    1.1      matt 		break;
    1.1      matt 	}
1.3.4.4  jdolecek 	if ((ci->ci_ctrl & CPU_CONTROL_WBUF_ENABLE) == 0)
1.3.4.5  jdolecek 		printf(" WB disabled");
    1.1      matt 	else
1.3.4.5  jdolecek 		printf(" WB enabled");
    1.1      matt
1.3.4.4  jdolecek 	if (ci->ci_ctrl & CPU_CONTROL_LABT_ENABLE)
1.3.4.5  jdolecek 		printf(" LABT");
    1.1      matt 	else
1.3.4.5  jdolecek 		printf(" EABT");
    1.1      matt
1.3.4.4  jdolecek 	if (ci->ci_ctrl & CPU_CONTROL_BPRD_ENABLE)
1.3.4.5  jdolecek 		printf(" branch prediction enabled");
    1.1      matt
1.3.4.5  jdolecek 	printf("\n");
    1.1      matt
1.3.4.2   thorpej 	/* Print cache info. */
1.3.4.2   thorpej 	if (arm_picache_line_size == 0 && arm_pdcache_line_size == 0)
1.3.4.2   thorpej 		goto skip_pcache;
1.3.4.2   thorpej
1.3.4.2   thorpej 	if (arm_pcache_unified) {
1.3.4.2   thorpej 		printf("%s: %dKB/%dB %d-way %s unified cache\n",
1.3.4.2   thorpej 		    dv->dv_xname, arm_pdcache_size / 1024,
1.3.4.2   thorpej 		    arm_pdcache_line_size, arm_pdcache_ways,
1.3.4.2   thorpej 		    wtnames[arm_pcache_type]);
1.3.4.2   thorpej 	} else {
1.3.4.2   thorpej 		printf("%s: %dKB/%dB %d-way Instruction cache\n",
1.3.4.2   thorpej 		    dv->dv_xname, arm_picache_size / 1024,
1.3.4.2   thorpej 		    arm_picache_line_size, arm_picache_ways);
1.3.4.2   thorpej 		printf("%s: %dKB/%dB %d-way %s Data cache\n",
1.3.4.2   thorpej 		    dv->dv_xname, arm_pdcache_size / 1024,
1.3.4.2   thorpej 		    arm_pdcache_line_size, arm_pdcache_ways,
1.3.4.2   thorpej 		    wtnames[arm_pcache_type]);
1.3.4.2   thorpej 	}
1.3.4.2   thorpej
1.3.4.2   thorpej  skip_pcache:
1.3.4.2   thorpej
1.3.4.4  jdolecek 	switch (cpu_class) {
    1.1      matt #ifdef CPU_ARM2
    1.1      matt 	case CPU_CLASS_ARM2:
    1.1      matt #endif
    1.1      matt #ifdef CPU_ARM250
    1.1      matt 	case CPU_CLASS_ARM2AS:
    1.1      matt #endif
    1.1      matt #ifdef CPU_ARM3
    1.1      matt 	case CPU_CLASS_ARM3:
    1.1      matt #endif
    1.1      matt #ifdef CPU_ARM6
    1.1      matt 	case CPU_CLASS_ARM6:
    1.1      matt #endif
    1.1      matt #ifdef CPU_ARM7
    1.1      matt 	case CPU_CLASS_ARM7:
    1.1      matt #endif
    1.3     chris #ifdef CPU_ARM7TDMI
    1.3     chris 	case CPU_CLASS_ARM7TDMI:
    1.3     chris #endif
    1.1      matt #ifdef CPU_ARM8
    1.1      matt 	case CPU_CLASS_ARM8:
1.3.4.2   thorpej #endif
1.3.4.2   thorpej #ifdef CPU_ARM9
1.3.4.2   thorpej 	case CPU_CLASS_ARM9TDMI:
    1.1      matt #endif
1.3.4.5  jdolecek #if defined(CPU_SA110) || defined(CPU_SA1100) || \
1.3.4.5  jdolecek     defined(CPU_SA1110) || defined(CPU_IXP12X0)
    1.1      matt 	case CPU_CLASS_SA1:
1.3.4.1   thorpej #endif
1.3.4.5  jdolecek #if defined(CPU_XSCALE_80200) || defined(CPU_XSCALE_80321) || \
1.3.4.5  jdolecek     defined(CPU_XSCALE_PXA2X0)
1.3.4.1   thorpej 	case CPU_CLASS_XSCALE:
    1.1      matt #endif
    1.1      matt 		break;
    1.1      matt 	default:
1.3.4.4  jdolecek 		if (cpu_classes[cpu_class].class_option != NULL)
    1.1      matt 			printf("%s: %s does not fully support this CPU."
    1.1      matt 			       "\n", dv->dv_xname, ostype);
    1.1      matt 		else {
    1.1      matt 			printf("%s: This kernel does not fully support "
    1.1      matt 			       "this CPU.\n", dv->dv_xname);
    1.1      matt 			printf("%s: Recompile with \"options %s\" to "
    1.1      matt 			       "correct this.\n", dv->dv_xname,
1.3.4.4  jdolecek 			       cpu_classes[cpu_class].class_option);
    1.1      matt 		}
    1.1      matt 		break;
    1.1      matt 	}
    1.1      matt
    1.1      matt }
    1.1      matt
    1.1      matt /* End of cpu.c */