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helper_functions.c
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helper_functions.c
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/* This file is modified from source available at http://www.kernel.org/pub/linux/utils/cpu/msr-tools/
for Model specific cpu registers
Modified to take i7 into account by Abhishek Jaiantilal abhishek.jaiantilal@colorado.edu
// Information about i7's MSR in
// http://download.intel.com/design/processor/applnots/320354.pdf
// Appendix B of http://www.intel.com/Assets/PDF/manual/253669.pdf
//about rdmsr
#ident "$Id: rdmsr.c,v 1.4 2004/07/20 15:54:59 hpa Exp $"
----------------------------------------------------------------------- *
*
* Copyright 2000 Transmeta Corporation - All Rights Reserved
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor,
* Boston, MA 02110-1301, USA;
* either version 2 of the License, or (at your option) any later
* version; incorporated herein by reference.
*
* ----------------------------------------------------------------------- */
#include <memory.h>
#include <errno.h>
#include <stdio.h>
#include <fcntl.h>
#include <unistd.h>
#include <stdlib.h>
#include <getopt.h>
#include <inttypes.h>
#include <sys/types.h>
#include <sys/time.h>
#include <time.h>
#include <assert.h>
#include <math.h>
#include "i7z.h"
//#define ULLONG_MAX 18446744073709551615
extern struct program_options prog_options;
bool E7_mp_present=false;
/////////////////////////////////////////READ TEMPERATURE////////////////////////////////////////////
#define IA32_THERM_STATUS 0x19C
#define IA32_TEMPERATURE_TARGET 0x1a2
#define IA32_PACKAGE_THERM_STATUS 0x1b1
int Get_Bits_Value(unsigned long val,int highbit, int lowbit){
unsigned long data = val;
int bits = highbit - lowbit + 1;
if(bits<64){
data >>= lowbit;
data &= (1ULL<<bits) - 1;
}
return(data);
}
// a nice document to read is 322683.pdf from intel
int Read_Thermal_Status_CPU(int cpu_num){
int error_indx;
unsigned long val= get_msr_value(cpu_num,IA32_THERM_STATUS,63,0,&error_indx);
int digital_readout = Get_Bits_Value(val,23,16);
bool thermal_status = Get_Bits_Value(val,32,31);
val= get_msr_value(cpu_num,IA32_TEMPERATURE_TARGET,63,0,&error_indx);
int PROCHOT_temp = Get_Bits_Value(val,23,16);
//temperature is prochot - digital readout
if (thermal_status)
return(PROCHOT_temp - digital_readout);
else
return(-1);
}
#define MSR_PERF_STATUS 0x198
float Read_Voltage_CPU(int cpu_num){
int error_indx;
unsigned long val = get_msr_value(cpu_num,MSR_PERF_STATUS,47,32,&error_indx);
return (float)val / (float)(1 << 13);
}
///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
void
print_family_info (struct family_info *proc_info)
{
//print CPU info
printf ("i7z DEBUG: Stepping %x\n", proc_info->stepping);
printf ("i7z DEBUG: Model %x\n", proc_info->model);
printf ("i7z DEBUG: Family %x\n", proc_info->family);
printf ("i7z DEBUG: Processor Type %x\n", proc_info->processor_type);
printf ("i7z DEBUG: Extended Model %x\n", proc_info->extended_model);
// printf(" Extended Family %x\n", (short int*)(&proc_info->extended_family));
// printf(" Extended Family %d\n", proc_info->extended_family);
}
static inline void cpuid (unsigned int info, unsigned int *eax, unsigned int *ebx,
unsigned int *ecx, unsigned int *edx)
{
unsigned int _eax = info, _ebx, _ecx, _edx;
asm volatile ("mov %%ebx, %%edi;" // save ebx (for PIC)
"cpuid;"
"mov %%ebx, %%esi;" // pass to caller
"mov %%edi, %%ebx;" // restore ebx
:"+a" (_eax), "=S" (_ebx), "=c" (_ecx), "=d" (_edx)
: /* inputs: eax is handled above */
:"edi" /* clobbers: we hit edi directly */);
if (eax) *eax = _eax;
if (ebx) *ebx = _ebx;
if (ecx) *ecx = _ecx;
if (edx) *edx = _edx;
}
static inline void get_vendor (char *vendor_string)
{
//get vendor name
unsigned int a, b, c, d;
cpuid (0, &a, &b, &c, &d);
memcpy (vendor_string, &b, 4);
memcpy (&vendor_string[4], &d, 4);
memcpy (&vendor_string[8], &c, 4);
vendor_string[12] = '\0';
// printf("Vendor %s\n",vendor_string);
}
int turbo_status ()
{
//turbo state flag
unsigned int eax;
cpuid (6, &eax, NULL, NULL, NULL);
//printf("eax %d\n",(eax&0x2)>>1);
return ((eax & 0x2) >> 1);
}
static inline void get_familyinformation (struct family_info *proc_info)
{
//get info about CPU
unsigned int b;
cpuid (1, &b, NULL, NULL, NULL);
// printf ("eax %x\n", b);
proc_info->stepping = b & 0x0000000F; //bits 3:0
proc_info->model = (b & 0x000000F0) >> 4; //bits 7:4
proc_info->family = (b & 0x00000F00) >> 8; //bits 11:8
proc_info->processor_type = (b & 0x00007000) >> 12; //bits 13:12
proc_info->extended_model = (b & 0x000F0000) >> 16; //bits 19:16
proc_info->extended_family = (b & 0x0FF00000) >> 20; //bits 27:20
}
double estimate_MHz ()
{
//copied blantantly from http://www.cs.helsinki.fi/linux/linux-kernel/2001-37/0256.html
/*
* $Id: MHz.c,v 1.4 2001/05/21 18:58:01 davej Exp $
* This file is part of x86info.
* (C) 2001 Dave Jones.
*
* Licensed under the terms of the GNU GPL License version 2.
*
* Estimate CPU MHz routine by Andrea Arcangeli <andrea@suse.de>
* Small changes by David Sterba <sterd9am@ss1000.ms.mff.cuni.cz>
*
*/
struct timezone tz;
struct timeval tvstart, tvstop;
unsigned long long int cycles[2]; /* must be 64 bit */
unsigned long long int microseconds; /* total time taken */
memset (&tz, 0, sizeof (tz));
/* get this function in cached memory */
gettimeofday (&tvstart, &tz);
cycles[0] = rdtsc ();
gettimeofday (&tvstart, &tz);
/* we don't trust that this is any specific length of time */
/*1 sec will cause rdtsc to overlap multiple times perhaps. 100msecs is a good spot */
usleep (10000);
cycles[1] = rdtsc ();
gettimeofday (&tvstop, &tz);
microseconds = ((tvstop.tv_sec - tvstart.tv_sec) * 1000000) +
(tvstop.tv_usec - tvstart.tv_usec);
unsigned long long int elapsed = 0;
if (cycles[1] < cycles[0])
{
//printf("c0 = %llu c1 = %llu",cycles[0],cycles[1]);
elapsed = UINT32_MAX - cycles[0];
elapsed = elapsed + cycles[1];
//printf("c0 = %llu c1 = %llu max = %llu elapsed=%llu\n",cycles[0], cycles[1], UINT32_MAX,elapsed);
}
else
{
elapsed = cycles[1] - cycles[0];
//printf("\nc0 = %llu c1 = %llu elapsed=%llu\n",cycles[0], cycles[1],elapsed);
}
double mhz = elapsed / microseconds;
//printf("%llg MHz processor (estimate). diff cycles=%llu microseconds=%llu \n", mhz, elapsed, microseconds);
//printf("%g elapsed %llu microseconds %llu\n",mhz, elapsed, microseconds);
return (mhz);
}
/* Number of decimal digits for a certain number of bits */
/* (int) ceil(log(2^n)/log(10)) */
int decdigits[] = {
1, 1, 1, 1, 2, 2, 2, 3, 3, 3, 4, 4, 4, 4, 5, 5,
5, 6, 6, 6, 7, 7, 7, 7, 8, 8, 8, 9, 9, 9, 10, 10,
10, 10, 11, 11, 11, 12, 12, 12, 13, 13, 13, 13, 14, 14, 14, 15,
15, 15, 16, 16, 16, 16, 17, 17, 17, 18, 18, 18, 19, 19, 19, 19,
20
};
#define mo_hex 0x01
#define mo_dec 0x02
#define mo_oct 0x03
#define mo_raw 0x04
#define mo_uns 0x05
#define mo_chx 0x06
#define mo_mask 0x0f
#define mo_fill 0x40
#define mo_c 0x80
const char *program;
uint64_t get_msr_value (int cpu, uint32_t reg, unsigned int highbit,
unsigned int lowbit, int* error_indx)
{
uint64_t data;
int fd;
// char *pat;
// int width;
char msr_file_name[64];
int bits;
*error_indx =0;
sprintf (msr_file_name, "/dev/cpu/%d/msr", cpu);
fd = open (msr_file_name, O_RDONLY);
if (fd < 0)
{
if (errno == ENXIO)
{
//fprintf (stderr, "rdmsr: No CPU %d\n", cpu);
*error_indx = 1;
return 1;
} else if (errno == EIO) {
//fprintf (stderr, "rdmsr: CPU %d doesn't support MSRs\n", cpu);
*error_indx = 1;
return 1;
} else {
//perror ("rdmsr:open");
*error_indx = 1;
return 1;
//exit (127);
}
}
if (pread (fd, &data, sizeof data, reg) != sizeof data)
{
perror ("rdmsr:pread");
exit (127);
}
close (fd);
bits = highbit - lowbit + 1;
if (bits < 64)
{
/* Show only part of register */
data >>= lowbit;
data &= (1ULL << bits) - 1;
}
/* Make sure we get sign correct */
if (data & (1ULL << (bits - 1)))
{
data &= ~(1ULL << (bits - 1));
data = -data;
}
*error_indx = 0;
return (data);
}
uint64_t set_msr_value (int cpu, uint32_t reg, uint64_t data)
{
int fd;
char msr_file_name[64];
sprintf (msr_file_name, "/dev/cpu/%d/msr", cpu);
fd = open (msr_file_name, O_WRONLY);
if (fd < 0)
{
if (errno == ENXIO)
{
fprintf (stderr, "wrmsr: No CPU %d\n", cpu);
exit (2);
} else if (errno == EIO) {
fprintf (stderr, "wrmsr: CPU %d doesn't support MSRs\n", cpu);
exit (3);
} else {
perror ("wrmsr:open");
exit (127);
}
}
if (pwrite (fd, &data, sizeof data, reg) != sizeof data)
{
perror ("wrmsr:pwrite");
exit (127);
}
close(fd);
return(1);
}
#ifdef USE_INTEL_CPUID
void get_CPUs_info (unsigned int *num_Logical_OS,
unsigned int *num_Logical_process,
unsigned int *num_Processor_Core,
unsigned int *num_Physical_Socket);
#endif
//Below code
/* ----------------------------------------------------------------------- *
*
* Copyright 2010 Abhishek Jaiantilal
*
* Under GPL v2
*
* ----------------------------------------------------------------------- */
void Print_Version_Information()
{
printf ("i7z DEBUG: i7z version: %s\n",i7z_VERSION_INFO);
}
//sets whether its nehalem or sandy bridge
void Print_Information_Processor(bool* nehalem, bool* sandy_bridge, bool* ivy_bridge, bool* haswell)
{
struct family_info proc_info;
char vendor_string[13];
memset(vendor_string,0,13);
get_vendor (vendor_string);
vendor_string[12] = '\0';
//look at the blurb below for why strcmp is done byte by byte
/*
bool equal_string = true;
char const* genuine_intel_str = "GenuineIntel";
int i;
for(i=0; i<12;i++) {
if (vendor_string[i] != genuine_intel_str[i])
equal_string = false;
}
*/
// somehow using strcmp or strncmp is crashing the app when using -O2, -O3 with gcc-4.7
// (strncmp (vendor_string, "GenuineIntel",12) == 0)
// (strcmp (vendor_string, "GenuineIntel",12) == 0)
if (strcmp (vendor_string, "GenuineIntel") == 0) {
//if (equal_string) {
printf ("i7z DEBUG: Found Intel Processor\n");
} else {
printf
("this was designed to be an intel proc utility. You can perhaps mod it for your machine?\n");
exit (1);
}
get_familyinformation (&proc_info);
print_family_info (&proc_info);
//printf("%x %x",proc_info.extended_model,proc_info.family);
//check if its nehalem or exit
//Info from page 641 of Intel Manual 3B
//Extended model and Model can help determine the right cpu
//furthermore from pdf 241618.pdf from intel
//page 24, got the following info
//extended model is either 0x1 or 0x2
//check on model number as follows
//extended model, model no - processor type
//0x1, 0xA - i7, 45nm
//0x1, 0xE - i7, i5, Xeon, 45nm
//0x2, 0xE - Xeon MP, 45nm //e.g. x75xx processors
//0x2, 0xF - Xeon MP, 32nm //e.g. e7-48xx processors
//0x2, 0xC - i7, Xeon, 32nm
//0x2, 0x5 - i3, i5, i7 mobile processors, 32nm
//0x2, 0xA - i7, 32nm
//0x3, 0xA - i7, 22nm
//http://ark.intel.com/SSPECQDF.aspx
//http://software.intel.com/en-us/articles/intel-processor-identification-with-cpuid-model-and-family-numbers/
printf("i7z DEBUG: msr = Model Specific Register\n");
if (proc_info.family >= 0x6)
{
if (proc_info.extended_model == 0x1)
{
switch (proc_info.model)
{
case 0xA:
printf ("i7z DEBUG: Detected a nehalem (i7) - 45nm\n");
break;
case 0xE:
case 0xF:
printf ("i7z DEBUG: Detected a nehalem (i7/i5/Xeon) - 45nm\n");
break;
default:
printf ("i7z DEBUG: Unknown processor, not exactly based on Nehalem\n");
//exit (1);
}
*nehalem = true;
*sandy_bridge = false;
*ivy_bridge = false;
*haswell = true;
} else if (proc_info.extended_model == 0x2) {
switch (proc_info.model)
{
case 0xE:
printf ("i7z DEBUG: Detected a Xeon MP - 45nm (7500, 6500 series)\n");
*nehalem = true;
*sandy_bridge = false;
*ivy_bridge = false;
*haswell = false;
break;
case 0xF:
printf ("i7z DEBUG: Detected a Xeon MP - 32nm (E7 series)\n");
*nehalem = true;
*sandy_bridge = false;
*ivy_bridge = false;
*haswell = false;
E7_mp_present = true;
break;
case 0xC:
*nehalem = true;
*sandy_bridge = false;
*ivy_bridge = false;
*haswell = false;
printf ("i7z DEBUG: Detected an i7/Xeon - 32 nm (westmere)\n");
break;
case 0x5:
*nehalem = true;
*sandy_bridge = false;
*ivy_bridge = false;
*haswell = false;
printf ("i7z DEBUG: Detected an i3/i5/i7 - 32nm (westmere - 1st generation core)\n");
break;
case 0xD:
*nehalem = false;
*sandy_bridge = true;
*ivy_bridge = false;
*haswell = false;
printf ("i7z DEBUG: Detected an i7 - 32nm (haven't seen this version around, do write to me with the model number)\n");
break;
}
} else if (proc_info.extended_model == 0x3) {
switch (proc_info.model)
{
case 0xA:
printf ("i7z DEBUG: Detected an i7 - 22nm (ivy bridge) \n");
*nehalem = false;
*sandy_bridge = false;
*ivy_bridge = true;
*haswell = false;
break;
case 0xC:
printf ("i7z DEBUG: Detected an i7 - 22nm (haswell)\n");
*nehalem = false;
*sandy_bridge = false;
*ivy_bridge = false;
*haswell = true;
break;
default:
printf("i7z DEBUG: detected a newer model of ivy bridge processor\n");
sleep(5);
}
} else {
printf ("i7z DEBUG: Unknown processor, not exactly based on Nehalem, Sandy bridge or Ivy Bridge\n");
//exit (1);
}
} else {
printf ("i7z DEBUG: Unknown processor, not exactly based on Nehalem\n");
printf ("If you are using an AMD processor, I highly recommend TurionPowerControl http://code.google.com/p/turionpowercontrol/\n");
exit (1);
}
}
void Test_Or_Make_MSR_DEVICE_FILES()
{
//test if the msr file exists
if (access ("/dev/cpu/0/msr", F_OK) == 0)
{
printf ("i7z DEBUG: msr device files exist /dev/cpu/*/msr\n");
if (access ("/dev/cpu/0/msr", W_OK) == 0)
{
//a system mght have been set with msr allowable to be written
//by a normal user so...
//Do nothing.
printf ("i7z DEBUG: You have write permissions to msr device files\n");
} else {
printf ("i7z DEBUG: You DO NOT have write permissions to msr device files\n");
printf ("i7z DEBUG: A solution is to run this program as root\n");
exit (1);
}
} else {
printf ("i7z DEBUG: msr device files DO NOT exist, trying out a makedev script\n");
if (geteuid () == 0)
{
//Try the Makedev script
//sourced from MAKEDEV-cpuid-msr script in msr-tools
system ("msr_major=202; \
cpuid_major=203; \
n=0; \
while [ $n -lt 16 ]; do \
mkdir -m 0755 -p /dev/cpu/$n; \
mknod /dev/cpu/$n/msr -m 0600 c $msr_major $n; \
mknod /dev/cpu/$n/cpuid -m 0444 c $cpuid_major $n; \
n=`expr $n + 1`; \
done; \
");
printf ("i7z DEBUG: modprobbing for msr\n");
system ("modprobe msr");
} else {
printf ("i7z DEBUG: You DO NOT have root privileges, mknod to create device entries won't work out\n");
printf ("i7z DEBUG: A solution is to run this program as root\n");
exit (1);
}
}
}
double cpufreq_info()
{
//CPUINFO is wrong for i7 but correct for the number of physical and logical cores present
//If Hyperthreading is enabled then, multiple logical processors will share a common CORE ID
//http://www.redhat.com/magazine/022aug06/departments/tips_tricks/
system
("cat /proc/cpuinfo |grep MHz|sed 's/cpu\\sMHz\\s*:\\s//'|tail -n 1 > /tmp/cpufreq.txt");
//Open the parsed cpufreq file and obtain the cpufreq from /proc/cpuinfo
FILE *tmp_file;
tmp_file = fopen ("/tmp/cpufreq.txt", "r");
char tmp_str[30];
fgets (tmp_str, 30, tmp_file);
fclose (tmp_file);
return atof(tmp_str);
}
int check_and_return_processor(char*strinfo)
{
char *t1;
if (strstr(strinfo,"processor") !=NULL) {
strtok(strinfo,":");
t1 = strtok(NULL, " ");
return(atoi(t1));
} else {
return(-1);
}
}
int check_and_return_physical_id(char*strinfo)
{
char *t1;
if (strstr(strinfo,"physical id") !=NULL) {
strtok(strinfo,":");
t1 = strtok(NULL, " ");
return(atoi(t1));
} else {
return(-1);
}
}
int check_and_return_core_id(char*strinfo)
{
char *t1;
if (strstr(strinfo,"core id") !=NULL) {
strtok(strinfo,":");
t1 = strtok(NULL, " ");
return(atoi(t1));
} else {
return(-1);
}
}
void construct_sibling_list(struct cpu_heirarchy_info* chi)
{
int i,j,core_id,socket_id;
for (i=0;i< chi->max_online_cpu ;i++) {
assert(i < MAX_HI_PROCESSORS);
chi->sibling_num[i]=-1;
}
chi->HT=false;
for (i=0;i< chi->max_online_cpu ;i++) {
assert(i < MAX_HI_PROCESSORS);
core_id = chi->coreid_num[i];
socket_id = chi->package_num[i];
for (j=i+1;j< chi->max_online_cpu ;j++) {
assert(j < MAX_HI_PROCESSORS);
if (chi->coreid_num[j] == core_id && chi->package_num[j] == socket_id) {
chi->sibling_num[j] = i;
chi->sibling_num[i] = j;
chi->display_cores[i] = 1;
chi->display_cores[j] = -1;
chi->HT=true;
continue;
}
}
}
//for cores that donot have a sibling put in 1
for (i=0;i< chi->max_online_cpu ;i++) {
assert(i < MAX_HI_PROCESSORS);
if (chi->sibling_num[i] ==-1)
chi->display_cores[i] = 1;
}
}
void construct_socket_information(struct cpu_heirarchy_info* chi,
struct cpu_socket_info* socket_0,struct cpu_socket_info* socket_1,
int socket_0_num, int socket_1_num)
{
int i;
socket_0->max_cpu=0;
socket_0->num_physical_cores=0;
socket_0->num_logical_cores=0;
socket_1->max_cpu=0;
socket_1->num_physical_cores=0;
socket_1->num_logical_cores=0;
for (i=0;i< chi->max_online_cpu ;i++) {
assert(i < MAX_HI_PROCESSORS);
if (chi->display_cores[i]!=-1) {
if (chi->package_num[i]==socket_0_num) {
assert(socket_0->max_cpu < MAX_SK_PROCESSORS);
socket_0->processor_num[socket_0->max_cpu]=chi->processor_num[i];
socket_0->max_cpu++;
socket_0->num_physical_cores++;
socket_0->num_logical_cores++;
}
if (chi->package_num[i]==socket_1_num) {
assert(socket_1->max_cpu < MAX_SK_PROCESSORS);
socket_1->processor_num[socket_1->max_cpu]=chi->processor_num[i];
socket_1->max_cpu++;
socket_1->num_physical_cores++;
socket_1->num_logical_cores++;
}
} else {
if (chi->package_num[i]==socket_0_num) {
socket_0->num_logical_cores++;
}
if (chi->package_num[i]==socket_1_num) {
socket_1->num_logical_cores++;
}
}
}
}
void print_socket_information(struct cpu_socket_info* socket)
{
int i;
char socket_list[200]="";
for (i=0;i< socket->max_cpu ;i++) {
assert(i < MAX_SK_PROCESSORS);
if (socket->processor_num[i]!=-1) {
sprintf(socket_list,"%s%d,",socket_list,socket->processor_num[i]);
}
}
printf("Socket-%d [num of cpus %d physical %d logical %d] %s\n",socket->socket_num,socket->max_cpu,socket->num_physical_cores,socket->num_logical_cores,socket_list);
}
void construct_CPU_Heirarchy_info(struct cpu_heirarchy_info* chi)
{
FILE *fp = fopen("/proc/cpuinfo","r");
char strinfo[200];
int processor_num, physicalid_num, coreid_num;
int it_processor_num=-1, it_physicalid_num=-1, it_coreid_num=-1;
int tmp_processor_num, tmp_physicalid_num, tmp_coreid_num;
int old_processor_num=-1;
memset(chi, 0, sizeof(*chi));
if (fp!=NULL) {
while ( fgets(strinfo,200,fp) != NULL) {
// printf(strinfo);
tmp_processor_num = check_and_return_processor(strinfo);
tmp_physicalid_num = check_and_return_physical_id(strinfo);
tmp_coreid_num = check_and_return_core_id(strinfo);
if (tmp_processor_num != -1) {
it_processor_num++;
processor_num = tmp_processor_num;
assert(it_processor_num < MAX_HI_PROCESSORS);
chi->processor_num[it_processor_num] = processor_num;
}
if (tmp_physicalid_num != -1) {
it_physicalid_num++;
physicalid_num = tmp_physicalid_num;
assert(it_physicalid_num < MAX_HI_PROCESSORS);
chi->package_num[it_physicalid_num] = physicalid_num;
}
if (tmp_coreid_num != -1) {
it_coreid_num++;
coreid_num = tmp_coreid_num;
assert(it_coreid_num < MAX_HI_PROCESSORS);
chi->coreid_num[it_coreid_num] = coreid_num;
}
if (processor_num != old_processor_num) {
old_processor_num = processor_num;
}
}
}
chi->max_online_cpu = it_processor_num+1;
fclose(fp);
}
void print_CPU_Heirarchy(struct cpu_heirarchy_info chi)
{
int i;
printf("\n------------------------------\n--[core id]--- Other information\n-------------------------------------\n");
for (i=0;i < chi.max_online_cpu;i++) {
assert(i < MAX_HI_PROCESSORS);
printf("--[%d] Processor number %d\n",i,chi.processor_num[i]);
printf("--[%d] Socket number/Hyperthreaded Sibling number %d,%d\n",i,chi.package_num[i],chi.sibling_num[i]);
printf("--[%d] Core id number %d\n",i,chi.coreid_num[i]);
printf("--[%d] Display core in i7z Tool: %s\n\n",i,(chi.display_cores[i]==1)?"Yes":"No");
}
}
int in_core_list(int ii,int* core_list)
{
int i;
int in=0;
for (i=0;i<8;i++) {
if (ii == core_list[i]) {
in=1;
break;
}
}
return(in);
}
bool file_exists(char* filename)
{
if (access(filename, F_OK) == 0)
{
return true;
} else {
return false;
}
}