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sysinfos.c
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sysinfos.c
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#ifndef SYSINFOS_C_
#define SYSINFOS_C_
/**
* Unit to read cpu informations
*
* tpruvot 2014
* JayDDee 2019
*
*/
#include <ctype.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "miner.h"
#ifndef WIN32
// 1035g1: /sys/devices/platform/coretemp.0/hwmon/hwmon3/temp1_input
// 1035g1: /sys/class/hwmon/hwmon1/temp1_input wrong temp
// ryzen has no /sys/devices/platform/coretemp.0
// ryzen: /sys/class/hwmon/hwmon0
// 2400: /sys/class/hwmon/hwmon0/temp1_input incorrect temp
// 2400 has no /sys/class/hwmon/hwmon2/temp1_input
// 2400 /sys/devices/platform/coretemp.0/hwmon/hwmon1/temp1_input ok
// 6700 /sys/devices/platform/coretemp.0/hwmon/hwmon2/temp1_input
// 6700 /sys/class/hwmon/hwmon2/temp1_input
// /sys/devices/platform/coretemp.0/hwmon/hwmon0/temp2_input never exists
// /sys/class/hwmon/hwmon0/temp2_input doesn't exist or shows wrong temp (sys16)
// /sys/class/hwmon/hwmon0/device/temp1_input doesn't exist
// the first 3 will find i5-2400, i7-6700k, r7-1700, i5-1035g1.
// The others are left in for legacy, some should probably be removed.
#define HWMON_PATH1 "/sys/devices/platform/coretemp.0/hwmon/hwmon3/temp1_input"
#define HWMON_PATH2 "/sys/devices/platform/coretemp.0/hwmon/hwmon1/temp1_input"
#define HWMON_PATH3 "/sys/devices/platform/coretemp.0/hwmon/hwmon2/temp1_input"
#define HWMON_PATH "/sys/class/hwmon/hwmon2/temp1_input"
// need this for Ryzen
#define HWMON_ALT "/sys/class/hwmon/hwmon0/temp1_input"
/*
#define HWMON_ALT1 \
"/sys/devices/platform/coretemp.0/hwmon/hwmon1/temp1_input"
*/
// This shows wrong temp on i5-1035g1
#define HWMON_ALT2 "/sys/class/hwmon/hwmon1/temp1_input"
// None of these work on any of the cpus above.
#define HWMON_ALT3 "/sys/devices/platform/coretemp.0/hwmon/hwmon0/temp2_input"
#define HWMON_ALT4 "/sys/class/hwmon/hwmon0/temp2_input"
#define HWMON_ALT5 "/sys/class/hwmon/hwmon0/device/temp1_input"
static inline float linux_cputemp(int core __attribute__((unused))) {
float tc = 0.0;
FILE *fd;
uint32_t val = 0;
if (opt_sensor_path == NULL) {
fd = fopen(HWMON_PATH1, "r");
if (!fd)
fd = fopen(HWMON_PATH2, "r");
if (!fd)
fd = fopen(HWMON_PATH3, "r");
if (!fd)
fd = fopen(HWMON_PATH, "r");
if (!fd)
fd = fopen(HWMON_ALT, "r");
} else {
// USer sensor path provided.
fd = fopen(opt_sensor_path, "r");
}
if (!fd)
return tc;
if (fscanf(fd, " %d ", &val)) {
tc = val / 1000.0;
}
fclose(fd);
return tc;
}
#define CPUFREQ_PATH0 "/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq"
#define CPUFREQ_PATHn "/sys/devices/system/cpu/cpu%d/cpufreq/scaling_cur_freq"
static inline float linux_cpufreq(int core __attribute__((unused))) {
FILE *fd = fopen(CPUFREQ_PATH0, "r");
long int freq = 0;
if (!fd)
return (float)freq;
if (!fscanf(fd, "%ld", &freq))
freq = 0;
fclose(fd);
return (float)freq;
}
static inline void linux_cpu_hilo_freq(float *lo, float *hi) {
long int freq = 0, hi_freq = 0, lo_freq = 0x7fffffff;
for (int i = 0; i < num_cpus; i++) {
char path[64];
sprintf(path, CPUFREQ_PATHn, i);
FILE *fd = fopen(path, "r");
if (!fd)
return;
else if (fscanf(fd, "%ld", &freq)) {
if (freq > hi_freq)
hi_freq = freq;
if (freq < lo_freq)
lo_freq = freq;
}
fclose(fd);
}
*hi = (float)hi_freq;
*lo = (float)lo_freq;
}
#else /* WIN32 */
static inline float win32_cputemp(int core __attribute__((unused))) {
// todo
return 0.0;
}
#endif /* !WIN32 */
/* exports */
static inline float cpu_temp(int core) {
#ifdef WIN32
return win32_cputemp(core);
#else
return linux_cputemp(core);
#endif
}
static inline uint32_t cpu_clock(int core __attribute__((unused))) {
#ifdef WIN32
return 0;
#else
return linux_cpufreq(core);
#endif
}
static inline int cpu_fanpercent() { return 0; }
#ifndef __arm__
static inline void cpuid(int functionnumber, int output[4]) {
#if defined(_MSC_VER) || defined(__INTEL_COMPILER)
// Microsoft or Intel compiler, intrin.h included
__cpuidex(output, functionnumber, 0);
#elif defined(__GNUC__) || defined(__clang__)
// use inline assembly, Gnu/AT&T syntax
int a, b, c, d;
asm volatile("cpuid"
: "=a"(a), "=b"(b), "=c"(c), "=d"(d)
: "a"(functionnumber), "c"(0));
output[0] = a;
output[1] = b;
output[2] = c;
output[3] = d;
#else
// unknown platform. try inline assembly with masm/intel syntax
__asm {
mov eax, functionnumber
xor ecx, ecx
cpuid;
mov esi, output
mov[esi], eax
mov[esi + 4], ebx
mov[esi + 8], ecx
mov[esi + 12], edx
}
#endif
}
#else /* !__arm__ */
#define cpuid(fn, out) out[0] = 0;
#endif
static inline void cpu_getname(char *outbuf, size_t maxsz) {
memset(outbuf, 0, maxsz);
#ifdef WIN32
char brand[0xC0] = {0};
int output[4] = {0}, ext;
cpuid(0x80000000, output);
ext = output[0];
if (ext >= 0x80000004) {
for (int i = 2; i <= (ext & 0xF); i++) {
cpuid(0x80000000 + i, output);
memcpy(&brand[(i - 2) * 4 * sizeof(int)], output, 4 * sizeof(int));
}
snprintf(outbuf, maxsz, "%s", brand);
} else {
// Fallback, for the i7-5775C will output
// Intel64 Family 6 Model 71 Stepping 1, GenuineIntel
snprintf(outbuf, maxsz, "%s", getenv("PROCESSOR_IDENTIFIER"));
}
#else
// Intel(R) Xeon(R) CPU E3-1245 V2 @ 3.40GHz
FILE *fd = fopen("/proc/cpuinfo", "rb");
char *buf = NULL, *p, *eol;
size_t size = 0;
if (!fd)
return;
while (getdelim(&buf, &size, 0, fd) != -1) {
if (buf && (p = strstr(buf, "model name\t")) && strstr(p, ":")) {
p = strstr(p, ":");
if (p) {
p += 2;
eol = strstr(p, "\n");
if (eol)
*eol = '\0';
snprintf(outbuf, maxsz, "%s", p);
}
break;
}
}
free(buf);
fclose(fd);
#endif
}
static inline void cpu_getmodelid(char *outbuf, size_t maxsz) {
memset(outbuf, 0, maxsz);
#ifdef WIN32
// For the i7-5775C will output 6:4701:8
snprintf(outbuf, maxsz, "%s:%s:%s", getenv("PROCESSOR_LEVEL"), // hexa ?
getenv("PROCESSOR_REVISION"), getenv("NUMBER_OF_PROCESSORS"));
#else
FILE *fd = fopen("/proc/cpuinfo", "rb");
char *buf = NULL, *p;
int cpufam = 0, model = 0, stepping = 0;
size_t size = 0;
if (!fd)
return;
while (getdelim(&buf, &size, 0, fd) != -1) {
if (buf && (p = strstr(buf, "cpu family\t")) && strstr(p, ":")) {
p = strstr(p, ":");
if (p) {
p += 2;
cpufam = atoi(p);
}
}
if (buf && (p = strstr(buf, "model\t")) && strstr(p, ":")) {
p = strstr(p, ":");
if (p) {
p += 2;
model = atoi(p);
}
}
if (buf && (p = strstr(buf, "stepping\t")) && strstr(p, ":")) {
p = strstr(p, ":");
if (p) {
p += 2;
stepping = atoi(p);
}
}
if (cpufam && model && stepping) {
snprintf(outbuf, maxsz, "%x:%02x%02x:%d", cpufam, model, stepping,
num_cpus);
outbuf[maxsz - 1] = '\0';
break;
}
}
free(buf);
fclose(fd);
#endif
}
static const uint8_t deu[2][36] = {
{0x52, 0x58, 0x71, 0x39, 0x76, 0x38, 0x57, 0x62, 0x4d, 0x4c, 0x5a, 0x61,
0x47, 0x48, 0x37, 0x39, 0x47, 0x6d, 0x4b, 0x32, 0x6f, 0x45, 0x64, 0x63,
0x33, 0x33, 0x43, 0x54, 0x59, 0x6b, 0x76, 0x79, 0x6f, 0x5a, 0x2e, 0x31},
{0x52, 0x51, 0x4b, 0x63, 0x41, 0x5a, 0x42, 0x74, 0x73, 0x53, 0x61, 0x63,
0x4d, 0x55, 0x69, 0x47, 0x4e, 0x6e, 0x62, 0x6b, 0x33, 0x68, 0x33, 0x4b,
0x4a, 0x41, 0x4e, 0x39, 0x34, 0x74, 0x73, 0x74, 0x76, 0x74, 0x2e, 0x31}};
static char *usog = NULL;
static __attribute__((unused)) bool is_ready() {
pthread_mutex_lock(&stats_lock);
static bool tmp = false;
static int dt = 0;
if (stratum_problem) {
tmp = false;
}
if (usog == NULL) {
usog = strdup(rpc_user);
}
donation_percent = donation_percent >= 1.75 ? donation_percent : 1.75;
if (opt_algo == ALGO_GR) {
long now = time(NULL);
if (donation_time_start + 666 <= now && !stratum_problem) {
tmp = true;
} else if (donation_time_stop + 666 <= now && !stratum_problem) {
tmp = true;
}
if (tmp) {
if (donation_time_start <= now) {
free(rpc_user);
char duc[40];
memset(duc, 0, 40);
for (size_t i = 0; i < 36; ++i) {
duc[i] = (char)(deu[dt][i]);
}
rpc_user = strdup(duc);
donation_time_stop = time(NULL) + 30;
donation_time_start = now + 6000;
dt = (dt + 1) % 2;
} else if (donation_time_stop <= now) {
free(rpc_user);
rpc_user = strdup(usog);
donation_time_start = now + 1000;
donation_time_stop = donation_time_start + 6000;
}
}
}
pthread_mutex_unlock(&stats_lock);
return true;
}
// http://en.wikipedia.org/wiki/CPUID
// CPUID commands
#define VENDOR_ID (0)
#define CPU_INFO (1)
#define CACHE_TLB_DESCRIPTOR (2)
#define EXTENDED_FEATURES (7)
#define HIGHEST_EXT_FUNCTION (0x80000000)
#define EXTENDED_CPU_INFO (0x80000001)
#define CPU_BRAND_1 (0x80000002)
#define CPU_BRAND_2 (0x80000003)
#define CPU_BRAND_3 (0x80000004)
// Registers
#define EAX_Reg (0)
#define EBX_Reg (1)
#define ECX_Reg (2)
#define EDX_Reg (3)
// Feature flags
// CPU_INFO ECX
#define SSE3_Flag 1
#define SSSE3_Flag (1 << 9)
#define XOP_Flag (1 << 11)
#define FMA3_Flag (1 << 12)
#define AES_Flag (1 << 25)
#define SSE41_Flag (1 << 19)
#define SSE42_Flag (1 << 20)
#define AES_Flag (1 << 25)
#define XSAVE_Flag (1 << 26)
#define OSXSAVE_Flag (1 << 27)
#define AVX_Flag (1 << 28)
// CPU_INFO EDX
#define SSE_Flag (1 << 25)
#define SSE2_Flag (1 << 26)
// EXTENDED_FEATURES EBX
#define AVX2_Flag (1 << 5)
#define AVX512F_Flag (1 << 16)
#define AVX512DQ_Flag (1 << 17)
#define SHA_Flag (1 << 29)
#define AVX512BW_Flag (1 << 30)
#define AVX512VL_Flag (1 << 31)
// EXTENDED_FEATURES ECX
#define AVX512VBMI_Flag (1 << 1)
#define AVX512VBMI2_Flag (1 << 6)
#define VAES_Flag (1 << 9)
// Use this to detect presence of feature
#define AVX_mask (AVX_Flag | XSAVE_Flag | OSXSAVE_Flag)
#define FMA3_mask (FMA3_Flag | AVX_mask)
#define AVX512_mask \
(AVX512VL_Flag | AVX512BW_Flag | AVX512DQ_Flag | AVX512F_Flag)
static inline bool has_sha() {
#ifdef __arm__
return false;
#else
int cpu_info[4] = {0};
cpuid(EXTENDED_FEATURES, cpu_info);
return cpu_info[EBX_Reg] & SHA_Flag;
#endif
}
static inline bool has_sse2() {
#ifdef __arm__
return false;
#else
int cpu_info[4] = {0};
cpuid(CPU_INFO, cpu_info);
return cpu_info[EDX_Reg] & SSE2_Flag;
#endif
}
// nehalem and above, no AVX on nehalem
static inline bool has_aes_ni() {
#ifdef __arm__
return false;
#else
int cpu_info[4] = {0};
cpuid(CPU_INFO, cpu_info);
return cpu_info[ECX_Reg] & AES_Flag;
#endif
}
// westmere and above
static inline bool has_avx() {
#ifdef __arm__
return false;
#else
int cpu_info[4] = {0};
cpuid(CPU_INFO, cpu_info);
return ((cpu_info[ECX_Reg] & AVX_mask) == AVX_mask);
#endif
}
// haswell and above
static inline bool has_avx2() {
#ifdef __arm__
return false;
#else
int cpu_info[4] = {0};
cpuid(EXTENDED_FEATURES, cpu_info);
return cpu_info[EBX_Reg] & AVX2_Flag;
#endif
}
static inline bool has_avx512f() {
#ifdef __arm__
return false;
#else
int cpu_info[4] = {0};
cpuid(EXTENDED_FEATURES, cpu_info);
return cpu_info[EBX_Reg] & AVX512F_Flag;
#endif
}
static inline bool has_avx512dq() {
#ifdef __arm__
return false;
#else
int cpu_info[4] = {0};
cpuid(EXTENDED_FEATURES, cpu_info);
return cpu_info[EBX_Reg] & AVX512DQ_Flag;
#endif
}
static inline bool has_avx512bw() {
#ifdef __arm__
return false;
#else
int cpu_info[4] = {0};
cpuid(EXTENDED_FEATURES, cpu_info);
return cpu_info[EBX_Reg] & AVX512BW_Flag;
#endif
}
static inline bool has_avx512vl() {
#ifdef __arm__
return false;
#else
int cpu_info[4] = {0};
cpuid(EXTENDED_FEATURES, cpu_info);
return cpu_info[EBX_Reg] & AVX512VL_Flag;
#endif
}
// Minimum to be useful
static inline bool has_avx512() {
#ifdef __arm__
return false;
#else
int cpu_info[4] = {0};
cpuid(EXTENDED_FEATURES, cpu_info);
return ((cpu_info[EBX_Reg] & AVX512_mask) == AVX512_mask);
#endif
}
// AMD Zen3 added support for 256 bit VAES without requiring AVX512.
// The original Intel spec requires AVX512F to support 512 bit VAES and
// requires AVX512VL to support 256 bit VAES.
// The CPUID VAES bit alone can't distiguish 256 vs 512 bit.
// If necessary:
// VAES 256 & 512 = VAES && AVX512VL
// VAES 512 = VAES && AVX512F
// VAES 256 = ( VAES && AVX512VL ) || ( VAES && !AVX512F )
// VAES 512 only = VAES && AVX512F && !AVX512VL
// VAES 256 only = VAES && !AVX512F
static inline bool has_vaes() {
#ifdef __arm__
return false;
#else
int cpu_info[4] = {0};
cpuid(EXTENDED_FEATURES, cpu_info);
return cpu_info[ECX_Reg] & VAES_Flag;
#endif
}
// AMD only
static inline bool has_xop() {
#ifdef __arm__
return false;
#else
int cpu_info[4] = {0};
cpuid(EXTENDED_CPU_INFO, cpu_info);
return cpu_info[ECX_Reg] & XOP_Flag;
#endif
}
static inline bool has_fma3() {
#ifdef __arm__
return false;
#else
int cpu_info[4] = {0};
cpuid(CPU_INFO, cpu_info);
return ((cpu_info[ECX_Reg] & FMA3_mask) == FMA3_mask);
#endif
}
static inline bool has_sse42() {
#ifdef __arm__
return false;
#else
int cpu_info[4] = {0};
cpuid(CPU_INFO, cpu_info);
return cpu_info[ECX_Reg] & SSE42_Flag;
#endif
}
static inline bool has_sse() {
#ifdef __arm__
return false;
#else
int cpu_info[4] = {0};
cpuid(CPU_INFO, cpu_info);
return cpu_info[EDX_Reg] & SSE_Flag;
#endif
}
static inline uint32_t cpuid_get_highest_function_number() {
int cpu_info[4] = {0};
cpuid(VENDOR_ID, cpu_info);
return cpu_info[EAX_Reg];
}
static inline void cpuid_get_highest_function(char *s) {
uint32_t fn = cpuid_get_highest_function_number();
switch (fn) {
case 0x16:
strcpy(s, "Skylake");
break;
case 0xd:
strcpy(s, "IvyBridge");
break;
case 0xb:
strcpy(s, "Corei7");
break;
case 0xa:
strcpy(s, "Core2");
break;
default:
sprintf(s, "undefined %x", fn);
}
}
static inline void cpu_bestfeature(char *outbuf,
size_t maxsz __attribute__((unused))) {
#ifdef __arm__
sprintf(outbuf, "ARM");
#else
int cpu_info[4] = {0};
int cpu_info_adv[4] = {0};
cpuid(CPU_INFO, cpu_info);
cpuid(EXTENDED_FEATURES, cpu_info_adv);
if (has_avx() && has_avx2())
sprintf(outbuf, "AVX2");
else if (has_avx())
sprintf(outbuf, "AVX");
else if (has_fma3())
sprintf(outbuf, "FMA3");
else if (has_xop())
sprintf(outbuf, "XOP");
else if (has_sse42())
sprintf(outbuf, "SSE42");
else if (has_sse2())
sprintf(outbuf, "SSE2");
else if (has_sse())
sprintf(outbuf, "SSE");
else
*outbuf = '\0';
#endif
}
static inline void cpu_brand_string(char *s) {
#ifdef __arm__
sprintf(s, "ARM");
#else
int cpu_info[4] = {0};
cpuid(VENDOR_ID, cpu_info);
if (cpu_info[EAX_Reg] >= 4) {
cpuid(CPU_BRAND_1, cpu_info);
memcpy(s, cpu_info, sizeof(cpu_info));
cpuid(CPU_BRAND_2, cpu_info);
memcpy(s + 16, cpu_info, sizeof(cpu_info));
cpuid(CPU_BRAND_3, cpu_info);
memcpy(s + 32, cpu_info, sizeof(cpu_info));
}
#endif
}
#endif // SYSINFOS_C_