oprofile-0.9.7/libop/op_cpu_type.c - nest-learning-thermostat/5.1/oprofile - Git at Google

 /**
  * @file op_cpu_type.c
  * CPU type determination
  *
  * @remark Copyright 2002 OProfile authors
  * @remark Read the file COPYING
  *
  * @author John Levon
  * @author Philippe Elie
  */

 #include <stdio.h>
 #include <stdlib.h>
 #include <string.h>

 #include "op_cpu_type.h"
 #include "op_hw_specific.h"

 struct cpu_descr {
 	char const * pretty;
 	char const * name;
 	op_cpu cpu;
 	unsigned int nr_counters;
 };

 static struct cpu_descr const cpu_descrs[MAX_CPU_TYPE] = {
 	{ "Pentium Pro", "i386/ppro", CPU_PPRO, 2 },
 	{ "PII", "i386/pii", CPU_PII, 2 },
 	{ "PIII", "i386/piii", CPU_PIII, 2 },
 	{ "Athlon", "i386/athlon", CPU_ATHLON, 4 },
 	{ "CPU with timer interrupt", "timer", CPU_TIMER_INT, 1 },
 	{ "CPU with RTC device", "rtc", CPU_RTC, 1 },
 	{ "P4 / Xeon", "i386/p4", CPU_P4, 8 },
 	{ "IA64", "ia64/ia64", CPU_IA64, 4 },
 	{ "Itanium", "ia64/itanium", CPU_IA64_1, 4 },
 	{ "Itanium 2", "ia64/itanium2", CPU_IA64_2, 4 },
 	{ "AMD64 processors", "x86-64/hammer", CPU_HAMMER, 4 },
 	{ "P4 / Xeon with 2 hyper-threads", "i386/p4-ht", CPU_P4_HT2, 4 },
 	{ "Alpha EV4", "alpha/ev4", CPU_AXP_EV4, 2 },
 	{ "Alpha EV5", "alpha/ev5", CPU_AXP_EV5, 3 },
 	{ "Alpha PCA56", "alpha/pca56", CPU_AXP_PCA56, 3 },
 	{ "Alpha EV6", "alpha/ev6", CPU_AXP_EV6, 2 },
 	{ "Alpha EV67", "alpha/ev67", CPU_AXP_EV67, 20 },
 	{ "Pentium M (P6 core)", "i386/p6_mobile", CPU_P6_MOBILE, 2 },
 	{ "ARM/XScale PMU1", "arm/xscale1", CPU_ARM_XSCALE1, 3 },
 	{ "ARM/XScale PMU2", "arm/xscale2", CPU_ARM_XSCALE2, 5 },
 	{ "ppc64 POWER4", "ppc64/power4", CPU_PPC64_POWER4, 8 },
 	{ "ppc64 POWER5", "ppc64/power5", CPU_PPC64_POWER5, 6 },
 	{ "ppc64 POWER5+", "ppc64/power5+", CPU_PPC64_POWER5p, 6 },
 	{ "ppc64 970", "ppc64/970", CPU_PPC64_970, 8 },
 	{ "MIPS 20K", "mips/20K", CPU_MIPS_20K, 1},
 	{ "MIPS 24K", "mips/24K", CPU_MIPS_24K, 2},
 	{ "MIPS 25K", "mips/25K", CPU_MIPS_25K, 2},
 	{ "MIPS 34K", "mips/34K", CPU_MIPS_34K, 2},
 	{ "MIPS 5K", "mips/5K", CPU_MIPS_5K, 2},
 	{ "MIPS R10000", "mips/r10000", CPU_MIPS_R10000, 2 },
 	{ "MIPS R12000", "mips/r12000", CPU_MIPS_R12000, 4 },
 	{ "QED RM7000", "mips/rm7000", CPU_MIPS_RM7000, 1 },
 	{ "PMC-Sierra RM9000", "mips/rm9000", CPU_MIPS_RM9000, 2 },
 	{ "Sibyte SB1", "mips/sb1", CPU_MIPS_SB1, 4 },
 	{ "NEC VR5432", "mips/vr5432", CPU_MIPS_VR5432, 2 },
 	{ "NEC VR5500", "mips/vr5500", CPU_MIPS_VR5500, 2 },
 	{ "e500", "ppc/e500", CPU_PPC_E500, 4 },
 	{ "e500v2", "ppc/e500v2", CPU_PPC_E500_2, 4 },
 	{ "Core Solo / Duo", "i386/core", CPU_CORE, 2 },
 	{ "PowerPC G4", "ppc/7450",  CPU_PPC_7450, 6 },
 	{ "Core 2", "i386/core_2", CPU_CORE_2, 2 },
 	{ "ppc64 POWER6", "ppc64/power6", CPU_PPC64_POWER6, 4 },
 	{ "ppc64 970MP", "ppc64/970MP", CPU_PPC64_970MP, 8 },
 	{ "ppc64 Cell Broadband Engine", "ppc64/cell-be", CPU_PPC64_CELL, 8 },
 	{ "AMD64 family10", "x86-64/family10", CPU_FAMILY10, 4 },
 	{ "ppc64 PA6T", "ppc64/pa6t", CPU_PPC64_PA6T, 6 },
 	{ "ARM 11MPCore", "arm/mpcore", CPU_ARM_MPCORE, 2 },
 	{ "ARM V6 PMU", "arm/armv6", CPU_ARM_V6, 3 },
 	{ "ppc64 POWER5++", "ppc64/power5++", CPU_PPC64_POWER5pp, 6 },
 	{ "e300", "ppc/e300", CPU_PPC_E300, 4 },
 	{ "AVR32", "avr32", CPU_AVR32, 3 },
 	{ "ARM Cortex-A8", "arm/armv7", CPU_ARM_V7, 5 },
  	{ "Intel Architectural Perfmon", "i386/arch_perfmon", CPU_ARCH_PERFMON, 0},
 	{ "AMD64 family11h", "x86-64/family11h", CPU_FAMILY11H, 4 },
 	{ "ppc64 POWER7", "ppc64/power7", CPU_PPC64_POWER7, 6 },
 	{ "ppc64 compat version 1", "ppc64/ibm-compat-v1", CPU_PPC64_IBM_COMPAT_V1, 4 },
    	{ "Intel Core/i7", "i386/core_i7", CPU_CORE_I7, 4 },
    	{ "Intel Atom", "i386/atom", CPU_ATOM, 2 },
 	{ "Loongson2", "mips/loongson2", CPU_MIPS_LOONGSON2, 2 },
 	{ "Intel Nehalem microarchitecture", "i386/nehalem", CPU_NEHALEM, 4 },
 	{ "ARM Cortex-A9", "arm/armv7-ca9", CPU_ARM_V7_CA9, 7 },
 	{ "MIPS 74K", "mips/74K", CPU_MIPS_74K, 4},
 	{ "MIPS 1004K", "mips/1004K", CPU_MIPS_1004K, 2},
 	{ "AMD64 family12h", "x86-64/family12h", CPU_FAMILY12H, 4 },
 	{ "AMD64 family14h", "x86-64/family14h", CPU_FAMILY14H, 4 },
 	{ "AMD64 family15h", "x86-64/family15h", CPU_FAMILY15H, 6 },
 	{ "Intel Westmere microarchitecture", "i386/westmere", CPU_WESTMERE, 4 },
 	{ "ARMv7 Scorpion", "arm/armv7-scorpion", CPU_ARM_SCORPION, 5 },
 	{ "ARMv7 ScorpionMP", "arm/armv7-scorpionmp", CPU_ARM_SCORPIONMP, 5 },
 	{ "Intel Sandy Bridge microarchitecture", "i386/sandybridge", CPU_SANDYBRIDGE, 8 },
 };

 static size_t const nr_cpu_descrs = sizeof(cpu_descrs) / sizeof(struct cpu_descr);

 int op_cpu_variations(op_cpu cpu_type)
 {
 	switch (cpu_type) {
 	case  CPU_ARCH_PERFMON:
 		return 1;
 	default:
 		return 0;
 	}
 }


 op_cpu op_cpu_base_type(op_cpu cpu_type)
 {
 	/* All the processors that support CPU_ARCH_PERFMON */
 	switch (cpu_type) {
 	case CPU_CORE_2:
 	case CPU_CORE_I7:
 	case CPU_ATOM:
 	case CPU_NEHALEM:
 	case CPU_WESTMERE:
 	case CPU_SANDYBRIDGE:
 		return CPU_ARCH_PERFMON;
 	default:
 		/* assume processor in a class by itself */
 		return cpu_type;
 	}
 }

 op_cpu op_get_cpu_type(void)
 {
 	int cpu_type = CPU_NO_GOOD;
 	char str[100];
 	FILE * fp;

 	fp = fopen("/proc/sys/dev/oprofile/cpu_type", "r");
 	if (!fp) {
 		/* Try 2.6's oprofilefs one instead. */
 		fp = fopen("/dev/oprofile/cpu_type", "r");
 		if (!fp) {
 			fprintf(stderr, "Unable to open cpu_type file for reading\n");
 			fprintf(stderr, "Make sure you have done opcontrol --init\n");
 			return cpu_type;
 		}
 	}

 	if (!fgets(str, 99, fp)) {
 		fprintf(stderr, "Could not read cpu type.\n");
 		fclose(fp);
 		return cpu_type;
 	}

 	cpu_type = op_get_cpu_number(str);

 	if (op_cpu_variations(cpu_type))
 		cpu_type = op_cpu_specific_type(cpu_type);

 	fclose(fp);

 	return cpu_type;
 }


 op_cpu op_get_cpu_number(char const * cpu_string)
 {
 	int cpu_type = CPU_NO_GOOD;
 	size_t i;

 	for (i = 0; i < nr_cpu_descrs; ++i) {
 		if (!strcmp(cpu_descrs[i].name, cpu_string)) {
 			cpu_type = cpu_descrs[i].cpu;
 			break;
 		}
 	}

 	/* Attempt to convert into a number */
 	if (cpu_type == CPU_NO_GOOD)
 		sscanf(cpu_string, "%d\n", &cpu_type);

 	if (cpu_type <= CPU_NO_GOOD || cpu_type >= MAX_CPU_TYPE)
 		cpu_type = CPU_NO_GOOD;

 	return cpu_type;
 }


 char const * op_get_cpu_type_str(op_cpu cpu_type)
 {
 	if (cpu_type <= CPU_NO_GOOD || cpu_type >= MAX_CPU_TYPE)
 		return "invalid cpu type";

 	return cpu_descrs[cpu_type].pretty;
 }


 char const * op_get_cpu_name(op_cpu cpu_type)
 {
 	if (cpu_type <= CPU_NO_GOOD || cpu_type >= MAX_CPU_TYPE)
 		return "invalid cpu type";

 	return cpu_descrs[cpu_type].name;
 }


 int op_get_nr_counters(op_cpu cpu_type)
 {
 	int cnt;

 	if (cpu_type <= CPU_NO_GOOD || cpu_type >= MAX_CPU_TYPE)
 		return 0;

 	cnt = arch_num_counters(cpu_type);
 	if (cnt >= 0)
 		return cnt;

 	return cpu_descrs[cpu_type].nr_counters;
 }
	/**
	* @file op_cpu_type.c
	* CPU type determination
	*
	* @remark Copyright 2002 OProfile authors
	* @remark Read the file COPYING
	*
	* @author John Levon
	* @author Philippe Elie
	*/

	#include <stdio.h>
	#include <stdlib.h>
	#include <string.h>

	#include "op_cpu_type.h"
	#include "op_hw_specific.h"

	struct cpu_descr {
	char const * pretty;
	char const * name;
	op_cpu cpu;
	unsigned int nr_counters;
	};

	static struct cpu_descr const cpu_descrs[MAX_CPU_TYPE] = {
	{ "Pentium Pro", "i386/ppro", CPU_PPRO, 2 },
	{ "PII", "i386/pii", CPU_PII, 2 },
	{ "PIII", "i386/piii", CPU_PIII, 2 },
	{ "Athlon", "i386/athlon", CPU_ATHLON, 4 },
	{ "CPU with timer interrupt", "timer", CPU_TIMER_INT, 1 },
	{ "CPU with RTC device", "rtc", CPU_RTC, 1 },
	{ "P4 / Xeon", "i386/p4", CPU_P4, 8 },
	{ "IA64", "ia64/ia64", CPU_IA64, 4 },
	{ "Itanium", "ia64/itanium", CPU_IA64_1, 4 },
	{ "Itanium 2", "ia64/itanium2", CPU_IA64_2, 4 },
	{ "AMD64 processors", "x86-64/hammer", CPU_HAMMER, 4 },
	{ "P4 / Xeon with 2 hyper-threads", "i386/p4-ht", CPU_P4_HT2, 4 },
	{ "Alpha EV4", "alpha/ev4", CPU_AXP_EV4, 2 },
	{ "Alpha EV5", "alpha/ev5", CPU_AXP_EV5, 3 },
	{ "Alpha PCA56", "alpha/pca56", CPU_AXP_PCA56, 3 },
	{ "Alpha EV6", "alpha/ev6", CPU_AXP_EV6, 2 },
	{ "Alpha EV67", "alpha/ev67", CPU_AXP_EV67, 20 },
	{ "Pentium M (P6 core)", "i386/p6_mobile", CPU_P6_MOBILE, 2 },
	{ "ARM/XScale PMU1", "arm/xscale1", CPU_ARM_XSCALE1, 3 },
	{ "ARM/XScale PMU2", "arm/xscale2", CPU_ARM_XSCALE2, 5 },
	{ "ppc64 POWER4", "ppc64/power4", CPU_PPC64_POWER4, 8 },
	{ "ppc64 POWER5", "ppc64/power5", CPU_PPC64_POWER5, 6 },
	{ "ppc64 POWER5+", "ppc64/power5+", CPU_PPC64_POWER5p, 6 },
	{ "ppc64 970", "ppc64/970", CPU_PPC64_970, 8 },
	{ "MIPS 20K", "mips/20K", CPU_MIPS_20K, 1},
	{ "MIPS 24K", "mips/24K", CPU_MIPS_24K, 2},
	{ "MIPS 25K", "mips/25K", CPU_MIPS_25K, 2},
	{ "MIPS 34K", "mips/34K", CPU_MIPS_34K, 2},
	{ "MIPS 5K", "mips/5K", CPU_MIPS_5K, 2},
	{ "MIPS R10000", "mips/r10000", CPU_MIPS_R10000, 2 },
	{ "MIPS R12000", "mips/r12000", CPU_MIPS_R12000, 4 },
	{ "QED RM7000", "mips/rm7000", CPU_MIPS_RM7000, 1 },
	{ "PMC-Sierra RM9000", "mips/rm9000", CPU_MIPS_RM9000, 2 },
	{ "Sibyte SB1", "mips/sb1", CPU_MIPS_SB1, 4 },
	{ "NEC VR5432", "mips/vr5432", CPU_MIPS_VR5432, 2 },
	{ "NEC VR5500", "mips/vr5500", CPU_MIPS_VR5500, 2 },
	{ "e500", "ppc/e500", CPU_PPC_E500, 4 },
	{ "e500v2", "ppc/e500v2", CPU_PPC_E500_2, 4 },
	{ "Core Solo / Duo", "i386/core", CPU_CORE, 2 },
	{ "PowerPC G4", "ppc/7450", CPU_PPC_7450, 6 },
	{ "Core 2", "i386/core_2", CPU_CORE_2, 2 },
	{ "ppc64 POWER6", "ppc64/power6", CPU_PPC64_POWER6, 4 },
	{ "ppc64 970MP", "ppc64/970MP", CPU_PPC64_970MP, 8 },
	{ "ppc64 Cell Broadband Engine", "ppc64/cell-be", CPU_PPC64_CELL, 8 },
	{ "AMD64 family10", "x86-64/family10", CPU_FAMILY10, 4 },
	{ "ppc64 PA6T", "ppc64/pa6t", CPU_PPC64_PA6T, 6 },
	{ "ARM 11MPCore", "arm/mpcore", CPU_ARM_MPCORE, 2 },
	{ "ARM V6 PMU", "arm/armv6", CPU_ARM_V6, 3 },
	{ "ppc64 POWER5++", "ppc64/power5++", CPU_PPC64_POWER5pp, 6 },
	{ "e300", "ppc/e300", CPU_PPC_E300, 4 },
	{ "AVR32", "avr32", CPU_AVR32, 3 },
	{ "ARM Cortex-A8", "arm/armv7", CPU_ARM_V7, 5 },
	{ "Intel Architectural Perfmon", "i386/arch_perfmon", CPU_ARCH_PERFMON, 0},
	{ "AMD64 family11h", "x86-64/family11h", CPU_FAMILY11H, 4 },
	{ "ppc64 POWER7", "ppc64/power7", CPU_PPC64_POWER7, 6 },
	{ "ppc64 compat version 1", "ppc64/ibm-compat-v1", CPU_PPC64_IBM_COMPAT_V1, 4 },
	{ "Intel Core/i7", "i386/core_i7", CPU_CORE_I7, 4 },
	{ "Intel Atom", "i386/atom", CPU_ATOM, 2 },
	{ "Loongson2", "mips/loongson2", CPU_MIPS_LOONGSON2, 2 },
	{ "Intel Nehalem microarchitecture", "i386/nehalem", CPU_NEHALEM, 4 },
	{ "ARM Cortex-A9", "arm/armv7-ca9", CPU_ARM_V7_CA9, 7 },
	{ "MIPS 74K", "mips/74K", CPU_MIPS_74K, 4},
	{ "MIPS 1004K", "mips/1004K", CPU_MIPS_1004K, 2},
	{ "AMD64 family12h", "x86-64/family12h", CPU_FAMILY12H, 4 },
	{ "AMD64 family14h", "x86-64/family14h", CPU_FAMILY14H, 4 },
	{ "AMD64 family15h", "x86-64/family15h", CPU_FAMILY15H, 6 },
	{ "Intel Westmere microarchitecture", "i386/westmere", CPU_WESTMERE, 4 },
	{ "ARMv7 Scorpion", "arm/armv7-scorpion", CPU_ARM_SCORPION, 5 },
	{ "ARMv7 ScorpionMP", "arm/armv7-scorpionmp", CPU_ARM_SCORPIONMP, 5 },
	{ "Intel Sandy Bridge microarchitecture", "i386/sandybridge", CPU_SANDYBRIDGE, 8 },
	};

	static size_t const nr_cpu_descrs = sizeof(cpu_descrs) / sizeof(struct cpu_descr);

	int op_cpu_variations(op_cpu cpu_type)
	{
	switch (cpu_type) {
	case CPU_ARCH_PERFMON:
	return 1;
	default:
	return 0;
	}
	}


	op_cpu op_cpu_base_type(op_cpu cpu_type)
	{
	/* All the processors that support CPU_ARCH_PERFMON */
	switch (cpu_type) {
	case CPU_CORE_2:
	case CPU_CORE_I7:
	case CPU_ATOM:
	case CPU_NEHALEM:
	case CPU_WESTMERE:
	case CPU_SANDYBRIDGE:
	return CPU_ARCH_PERFMON;
	default:
	/* assume processor in a class by itself */
	return cpu_type;
	}
	}

	op_cpu op_get_cpu_type(void)
	{
	int cpu_type = CPU_NO_GOOD;
	char str[100];
	FILE * fp;

	fp = fopen("/proc/sys/dev/oprofile/cpu_type", "r");
	if (!fp) {
	/* Try 2.6's oprofilefs one instead. */
	fp = fopen("/dev/oprofile/cpu_type", "r");
	if (!fp) {
	fprintf(stderr, "Unable to open cpu_type file for reading\n");
	fprintf(stderr, "Make sure you have done opcontrol --init\n");
	return cpu_type;
	}
	}

	if (!fgets(str, 99, fp)) {
	fprintf(stderr, "Could not read cpu type.\n");
	fclose(fp);
	return cpu_type;
	}

	cpu_type = op_get_cpu_number(str);

	if (op_cpu_variations(cpu_type))
	cpu_type = op_cpu_specific_type(cpu_type);

	fclose(fp);

	return cpu_type;
	}


	op_cpu op_get_cpu_number(char const * cpu_string)
	{
	int cpu_type = CPU_NO_GOOD;
	size_t i;

	for (i = 0; i < nr_cpu_descrs; ++i) {
	if (!strcmp(cpu_descrs[i].name, cpu_string)) {
	cpu_type = cpu_descrs[i].cpu;
	break;
	}
	}

	/* Attempt to convert into a number */
	if (cpu_type == CPU_NO_GOOD)
	sscanf(cpu_string, "%d\n", &cpu_type);

	if (cpu_type <= CPU_NO_GOOD \|\| cpu_type >= MAX_CPU_TYPE)
	cpu_type = CPU_NO_GOOD;

	return cpu_type;
	}


	char const * op_get_cpu_type_str(op_cpu cpu_type)
	{
	if (cpu_type <= CPU_NO_GOOD \|\| cpu_type >= MAX_CPU_TYPE)
	return "invalid cpu type";

	return cpu_descrs[cpu_type].pretty;
	}


	char const * op_get_cpu_name(op_cpu cpu_type)
	{
	if (cpu_type <= CPU_NO_GOOD \|\| cpu_type >= MAX_CPU_TYPE)
	return "invalid cpu type";

	return cpu_descrs[cpu_type].name;
	}


	int op_get_nr_counters(op_cpu cpu_type)
	{
	int cnt;

	if (cpu_type <= CPU_NO_GOOD \|\| cpu_type >= MAX_CPU_TYPE)
	return 0;

	cnt = arch_num_counters(cpu_type);
	if (cnt >= 0)
	return cnt;

	return cpu_descrs[cpu_type].nr_counters;
	}