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hashcat/src/hwmon.c

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123 KiB
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/**
* Author......: See docs/credits.txt
* License.....: MIT
*/
#include "common.h"
#include "types.h"
#include "memory.h"
#include "event.h"
#include "dynloader.h"
#include "shared.h"
#include "folder.h"
#include "hwmon.h"
// sysfs functions
static bool sysfs_init (hashcat_ctx_t *hashcat_ctx)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
SYSFS_PTR *sysfs = hwmon_ctx->hm_sysfs;
memset (sysfs, 0, sizeof (SYSFS_PTR));
char *path = hcmalloc (HCBUFSIZ_TINY);
snprintf (path, HCBUFSIZ_TINY - 1, "%s", SYS_BUS_PCI_DEVICES);
const bool r = hc_path_read (path);
hcfree (path);
return r;
}
static void sysfs_close (hashcat_ctx_t *hashcat_ctx)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
SYSFS_PTR *sysfs = hwmon_ctx->hm_sysfs;
if (sysfs)
{
hcfree (sysfs);
}
return;
}
static char *hm_SYSFS_get_syspath_device (hashcat_ctx_t *hashcat_ctx, const int device_id)
{
opencl_ctx_t *opencl_ctx = hashcat_ctx->opencl_ctx;
hc_device_param_t *device_param = &opencl_ctx->devices_param[device_id];
char *syspath;
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hc_asprintf (&syspath, "%s/0000:%02x:%02x.%01x", SYS_BUS_PCI_DEVICES, device_param->pcie_bus, device_param->pcie_device, device_param->pcie_function);
return syspath;
}
static char *hm_SYSFS_get_syspath_hwmon (hashcat_ctx_t *hashcat_ctx, const int device_id)
{
char *syspath = hm_SYSFS_get_syspath_device (hashcat_ctx, device_id);
if (syspath == NULL)
{
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event_log_error (hashcat_ctx, "hm_SYSFS_get_syspath_device() failed.");
return NULL;
}
char *hwmon = hcmalloc (HCBUFSIZ_TINY);
snprintf (hwmon, HCBUFSIZ_TINY - 1, "%s/hwmon", syspath);
char *hwmonN = first_file_in_directory (hwmon);
if (hwmonN == NULL)
{
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event_log_error (hashcat_ctx, "First_file_in_directory() failed.");
hcfree (syspath);
hcfree (hwmon);
hcfree (hwmonN);
return NULL;
}
snprintf (hwmon, HCBUFSIZ_TINY - 1, "%s/hwmon/%s", syspath, hwmonN);
hcfree (syspath);
hcfree (hwmonN);
return hwmon;
}
static int hm_SYSFS_get_fan_speed_current (hashcat_ctx_t *hashcat_ctx, const int device_id, int *val)
{
char *syspath = hm_SYSFS_get_syspath_hwmon (hashcat_ctx, device_id);
if (syspath == NULL) return -1;
char *path_cur = hcmalloc (HCBUFSIZ_TINY);
char *path_max = hcmalloc (HCBUFSIZ_TINY);
snprintf (path_cur, HCBUFSIZ_TINY - 1, "%s/pwm1", syspath);
snprintf (path_max, HCBUFSIZ_TINY - 1, "%s/pwm1_max", syspath);
hcfree (syspath);
FILE *fd_cur = fopen (path_cur, "r");
if (fd_cur == NULL)
{
event_log_error (hashcat_ctx, "%s: %s", path_cur, strerror (errno));
hcfree (path_cur);
hcfree (path_max);
return -1;
}
int pwm1_cur = 0;
if (fscanf (fd_cur, "%d", &pwm1_cur) != 1)
{
fclose (fd_cur);
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event_log_error (hashcat_ctx, "%s: unexpected data.", path_cur);
hcfree (path_cur);
hcfree (path_max);
return -1;
}
fclose (fd_cur);
FILE *fd_max = fopen (path_max, "r");
if (fd_max == NULL)
{
event_log_error (hashcat_ctx, "%s: %s", path_max, strerror (errno));
hcfree (path_cur);
hcfree (path_max);
return -1;
}
int pwm1_max = 0;
if (fscanf (fd_max, "%d", &pwm1_max) != 1)
{
fclose (fd_max);
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event_log_error (hashcat_ctx, "%s: unexpected data.", path_max);
hcfree (path_cur);
hcfree (path_max);
return -1;
}
fclose (fd_max);
if (pwm1_max == 0)
{
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event_log_error (hashcat_ctx, "%s: pwm1_max cannot be 0.", path_max);
hcfree (path_cur);
hcfree (path_max);
return -1;
}
const float p1 = (float) pwm1_max / 100.0f;
const float pwm1_percent = (float) pwm1_cur / p1;
*val = (int) pwm1_percent;
hcfree (path_cur);
hcfree (path_max);
return 0;
}
static int hm_SYSFS_set_fan_control (hashcat_ctx_t *hashcat_ctx, const int device_id, int val)
{
char *syspath = hm_SYSFS_get_syspath_hwmon (hashcat_ctx, device_id);
if (syspath == NULL) return -1;
char *path = hcmalloc (HCBUFSIZ_TINY);
snprintf (path, HCBUFSIZ_TINY - 1, "%s/pwm1_enable", syspath);
hcfree (syspath);
FILE *fd = fopen (path, "w");
if (fd == NULL)
{
event_log_error (hashcat_ctx, "%s: %s", path, strerror (errno));
hcfree (path);
return -1;
}
fprintf (fd, "%d", val);
fclose (fd);
hcfree (path);
return 0;
}
static int hm_SYSFS_set_fan_speed_target (hashcat_ctx_t *hashcat_ctx, const int device_id, int val)
{
char *syspath = hm_SYSFS_get_syspath_hwmon (hashcat_ctx, device_id);
if (syspath == NULL) return -1;
char *path = hcmalloc (HCBUFSIZ_TINY);
char *path_max = hcmalloc (HCBUFSIZ_TINY);
snprintf (path, HCBUFSIZ_TINY - 1, "%s/pwm1", syspath);
snprintf (path_max, HCBUFSIZ_TINY - 1, "%s/pwm1_max", syspath);
hcfree (syspath);
FILE *fd_max = fopen (path_max, "r");
if (fd_max == NULL)
{
event_log_error (hashcat_ctx, "%s: %s", path_max, strerror (errno));
hcfree (path);
hcfree (path_max);
return -1;
}
int pwm1_max = 0;
if (fscanf (fd_max, "%d", &pwm1_max) != 1)
{
fclose (fd_max);
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event_log_error (hashcat_ctx, "%s: unexpected data.", path_max);
hcfree (path);
hcfree (path_max);
return -1;
}
fclose (fd_max);
if (pwm1_max == 0)
{
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event_log_error (hashcat_ctx, "%s: pwm1_max cannot be 0.", path_max);
hcfree (path);
hcfree (path_max);
return -1;
}
const float p1 = (float) pwm1_max / 100.0f;
FILE *fd = fopen (path, "w");
if (fd == NULL)
{
event_log_error (hashcat_ctx, "%s: %s", path, strerror (errno));
hcfree (path);
hcfree (path_max);
return -1;
}
fprintf (fd, "%d", (int) ((float) val * p1));
fclose (fd);
hcfree (path);
hcfree (path_max);
return 0;
}
static int hm_SYSFS_get_temperature_current (hashcat_ctx_t *hashcat_ctx, const int device_id, int *val)
{
char *syspath = hm_SYSFS_get_syspath_hwmon (hashcat_ctx, device_id);
if (syspath == NULL) return -1;
char *path = hcmalloc (HCBUFSIZ_TINY);
snprintf (path, HCBUFSIZ_TINY - 1, "%s/temp1_input", syspath);
hcfree (syspath);
FILE *fd = fopen (path, "r");
if (fd == NULL)
{
event_log_error (hashcat_ctx, "%s: %s", path, strerror (errno));
hcfree (path);
return -1;
}
int temperature = 0;
if (fscanf (fd, "%d", &temperature) != 1)
{
fclose (fd);
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event_log_error (hashcat_ctx, "%s: unexpected data.", path);
hcfree (path);
return -1;
}
fclose (fd);
*val = temperature / 1000;
hcfree (path);
return 0;
}
static int hm_SYSFS_get_pp_dpm_sclk (hashcat_ctx_t *hashcat_ctx, const int device_id, int *val)
{
char *syspath = hm_SYSFS_get_syspath_device (hashcat_ctx, device_id);
if (syspath == NULL) return -1;
char *path = hcmalloc (HCBUFSIZ_TINY);
snprintf (path, HCBUFSIZ_TINY - 1, "%s/pp_dpm_sclk", syspath);
hcfree (syspath);
FILE *fd = fopen (path, "r");
if (fd == NULL)
{
event_log_error (hashcat_ctx, "%s: %s", path, strerror (errno));
hcfree (path);
return -1;
}
int clockfreq = 0;
while (!feof (fd))
{
char buf[HCBUFSIZ_TINY];
char *ptr = fgets (buf, sizeof (buf), fd);
if (ptr == NULL) continue;
size_t len = strlen (ptr);
if (len < 2) continue;
if (ptr[len - 2] != '*') continue;
int profile = 0;
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int rc = sscanf (ptr, "%d: %dMHz", &profile, &clockfreq);
if (rc == 2) break;
}
fclose (fd);
*val = clockfreq;
hcfree (path);
return 0;
}
static int hm_SYSFS_get_pp_dpm_mclk (hashcat_ctx_t *hashcat_ctx, const int device_id, int *val)
{
char *syspath = hm_SYSFS_get_syspath_device (hashcat_ctx, device_id);
if (syspath == NULL) return -1;
char *path = hcmalloc (HCBUFSIZ_TINY);
snprintf (path, HCBUFSIZ_TINY - 1, "%s/pp_dpm_mclk", syspath);
hcfree (syspath);
FILE *fd = fopen (path, "r");
if (fd == NULL)
{
event_log_error (hashcat_ctx, "%s: %s", path, strerror (errno));
hcfree (path);
return -1;
}
int clockfreq = 0;
while (!feof (fd))
{
char buf[HCBUFSIZ_TINY];
char *ptr = fgets (buf, sizeof (buf), fd);
if (ptr == NULL) continue;
size_t len = strlen (ptr);
if (len < 2) continue;
if (ptr[len - 2] != '*') continue;
int profile = 0;
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int rc = sscanf (ptr, "%d: %dMHz", &profile, &clockfreq);
if (rc == 2) break;
}
fclose (fd);
*val = clockfreq;
hcfree (path);
return 0;
}
static int hm_SYSFS_get_pp_dpm_pcie (hashcat_ctx_t *hashcat_ctx, const int device_id, int *val)
{
char *syspath = hm_SYSFS_get_syspath_device (hashcat_ctx, device_id);
if (syspath == NULL) return -1;
char *path = hcmalloc (HCBUFSIZ_TINY);
snprintf (path, HCBUFSIZ_TINY - 1, "%s/pp_dpm_pcie", syspath);
hcfree (syspath);
FILE *fd = fopen (path, "r");
if (fd == NULL)
{
event_log_error (hashcat_ctx, "%s: %s", path, strerror (errno));
hcfree (path);
return -1;
}
int lanes = 0;
while (!feof (fd))
{
char buf[HCBUFSIZ_TINY];
char *ptr = fgets (buf, sizeof (buf), fd);
if (ptr == NULL) continue;
size_t len = strlen (ptr);
if (len < 2) continue;
if (ptr[len - 2] != '*') continue;
int profile = 0;
float speed = 0;
int rc = sscanf (ptr, "%d: %fGB, x%d *", &profile, &speed, &lanes);
if (rc == 3) break;
}
fclose (fd);
*val = lanes;
hcfree (path);
return 0;
}
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static int hm_SYSFS_set_power_dpm_force_performance_level (hashcat_ctx_t *hashcat_ctx, const int device_id, const char *val)
{
char *syspath = hm_SYSFS_get_syspath_device (hashcat_ctx, device_id);
if (syspath == NULL) return -1;
char *path = hcmalloc (HCBUFSIZ_TINY);
snprintf (path, HCBUFSIZ_TINY - 1, "%s/power_dpm_force_performance_level", syspath);
hcfree (syspath);
FILE *fd = fopen (path, "w");
if (fd == NULL)
{
event_log_error (hashcat_ctx, "%s: %s", path, strerror (errno));
hcfree (path);
return -1;
}
fprintf (fd, "%s", val);
fclose (fd);
hcfree (path);
return 0;
}
// nvml functions
static int nvml_init (hashcat_ctx_t *hashcat_ctx)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
NVML_PTR *nvml = hwmon_ctx->hm_nvml;
memset (nvml, 0, sizeof (NVML_PTR));
#if defined (_WIN)
nvml->lib = hc_dlopen ("nvml.dll");
if (!nvml->lib)
{
DWORD BufferSize = 1024;
DWORD Type = REG_SZ;
char *Buffer = (char *) hcmalloc (BufferSize + 1);
HKEY hKey = 0;
if (RegOpenKeyExA (HKEY_LOCAL_MACHINE, "SOFTWARE\\NVIDIA Corporation\\Global\\NVSMI", 0, KEY_QUERY_VALUE, &hKey) == ERROR_SUCCESS)
{
if (RegQueryValueExA (hKey, "NVSMIPATH", NULL, &Type, (LPBYTE)Buffer, &BufferSize) == ERROR_SUCCESS)
{
Buffer[BufferSize] = 0;
}
else
{
//if (user_options->quiet == false)
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// event_log_error (hashcat_ctx, "NVML library load failed. Proceeding without NVML HWMon enabled.");
return -1;
}
RegCloseKey (hKey);
}
else
{
//if (user_options->quiet == false)
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// event_log_error (hashcat_ctx, "NVML library load failed. Proceeding without NVML HWMon enabled.");
return -1;
}
strcat (Buffer, "\\nvml.dll");
nvml->lib = hc_dlopen (Buffer);
hcfree (Buffer);
}
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#elif defined (__CYGWIN__)
nvml->lib = hc_dlopen("nvml.dll", RTLD_NOW);
if (!nvml->lib)
{
FILE *nvml_lib = fopen ("/proc/registry/HKEY_LOCAL_MACHINE/SOFTWARE/NVIDIA Corporation/Global/NVSMI/NVSMIPATH", "rb");
if (nvml_lib == NULL)
{
//if (user_options->quiet == false)
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// event_log_error (hashcat_ctx, "NVML library load failed: %m. Proceeding without NVML HWMon enabled.");
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return -1;
}
char *nvml_winpath, *nvml_cygpath;
nvml_winpath = (char *) hcmalloc (100);
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hc_fread (nvml_winpath, 100, 1, nvml_lib);
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fclose (nvml_lib);
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ssize_t size = cygwin_conv_path (CCP_WIN_A_TO_POSIX | CCP_PROC_CYGDRIVE, nvml_winpath, NULL, 0);
if (size > 0)
{
nvml_cygpath = (char *) hcmalloc (size + 9);
cygwin_conv_path (CCP_WIN_A_TO_POSIX | CCP_PROC_CYGDRIVE, nvml_winpath, nvml_cygpath, size);
}
else
{
//if (user_options->quiet == false)
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// event_log_error (hashcat_ctx, "Could not find NVML on this system. Proceeding without NVML HWMon enabled.");
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return -1;
}
strcat (nvml_cygpath, "/nvml.dll");
nvml->lib = hc_dlopen (nvml_cygpath, RTLD_NOW);
}
#elif defined (_POSIX)
nvml->lib = hc_dlopen ("libnvidia-ml.so", RTLD_NOW);
if (!nvml->lib)
{
nvml->lib = hc_dlopen ("libnvidia-ml.so.1", RTLD_NOW);
}
#endif
if (!nvml->lib)
{
//if (user_options->quiet == false)
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// event_log_error (hashcat_ctx, "NVML library load failed. Proceeding without NVML HWMon enabled.");
return -1;
}
HC_LOAD_FUNC(nvml, nvmlErrorString, NVML_ERROR_STRING, NVML, 0)
HC_LOAD_FUNC(nvml, nvmlInit, NVML_INIT, NVML, 0)
HC_LOAD_FUNC(nvml, nvmlShutdown, NVML_SHUTDOWN, NVML, 0)
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HC_LOAD_FUNC(nvml, nvmlDeviceGetCount, NVML_DEVICE_GET_COUNT, NVML, 0)
HC_LOAD_FUNC(nvml, nvmlDeviceGetName, NVML_DEVICE_GET_NAME, NVML, 0)
HC_LOAD_FUNC(nvml, nvmlDeviceGetHandleByIndex, NVML_DEVICE_GET_HANDLE_BY_INDEX, NVML, 0)
HC_LOAD_FUNC(nvml, nvmlDeviceGetTemperature, NVML_DEVICE_GET_TEMPERATURE, NVML, 0)
HC_LOAD_FUNC(nvml, nvmlDeviceGetFanSpeed, NVML_DEVICE_GET_FAN_SPEED, NVML, 0)
HC_LOAD_FUNC(nvml, nvmlDeviceGetPowerUsage, NVML_DEVICE_GET_POWER_USAGE, NVML, 0)
HC_LOAD_FUNC(nvml, nvmlDeviceGetUtilizationRates, NVML_DEVICE_GET_UTILIZATION_RATES, NVML, 0)
HC_LOAD_FUNC(nvml, nvmlDeviceGetClockInfo, NVML_DEVICE_GET_CLOCKINFO, NVML, 0)
HC_LOAD_FUNC(nvml, nvmlDeviceGetTemperatureThreshold, NVML_DEVICE_GET_THRESHOLD, NVML, 0)
HC_LOAD_FUNC(nvml, nvmlDeviceGetCurrPcieLinkGeneration, NVML_DEVICE_GET_CURRPCIELINKGENERATION, NVML, 0)
HC_LOAD_FUNC(nvml, nvmlDeviceGetCurrPcieLinkWidth, NVML_DEVICE_GET_CURRPCIELINKWIDTH, NVML, 0)
HC_LOAD_FUNC(nvml, nvmlDeviceGetCurrentClocksThrottleReasons, NVML_DEVICE_GET_CURRENTCLOCKSTHROTTLEREASONS, NVML, 0)
HC_LOAD_FUNC(nvml, nvmlDeviceGetSupportedClocksThrottleReasons, NVML_DEVICE_GET_SUPPORTEDCLOCKSTHROTTLEREASONS, NVML, 0)
HC_LOAD_FUNC(nvml, nvmlDeviceSetComputeMode, NVML_DEVICE_SET_COMPUTEMODE, NVML, 0)
HC_LOAD_FUNC(nvml, nvmlDeviceSetGpuOperationMode, NVML_DEVICE_SET_OPERATIONMODE, NVML, 0)
HC_LOAD_FUNC(nvml, nvmlDeviceGetPowerManagementLimitConstraints, NVML_DEVICE_GET_POWERMANAGEMENTLIMITCONSTRAINTS, NVML, 0)
HC_LOAD_FUNC(nvml, nvmlDeviceSetPowerManagementLimit, NVML_DEVICE_SET_POWERMANAGEMENTLIMIT, NVML, 0)
HC_LOAD_FUNC(nvml, nvmlDeviceGetPowerManagementLimit, NVML_DEVICE_GET_POWERMANAGEMENTLIMIT, NVML, 0)
HC_LOAD_FUNC(nvml, nvmlDeviceGetPciInfo, NVML_DEVICE_GET_PCIINFO, NVML, 0)
return 0;
}
static void nvml_close (hashcat_ctx_t *hashcat_ctx)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
NVML_PTR *nvml = hwmon_ctx->hm_nvml;
if (nvml)
{
if (nvml->lib)
hc_dlclose (nvml->lib);
hcfree (nvml);
}
}
static const char *hm_NVML_nvmlErrorString (NVML_PTR *nvml, const nvmlReturn_t nvml_rc)
{
return nvml->nvmlErrorString (nvml_rc);
}
static int hm_NVML_nvmlInit (hashcat_ctx_t *hashcat_ctx)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
NVML_PTR *nvml = hwmon_ctx->hm_nvml;
const nvmlReturn_t nvml_rc = nvml->nvmlInit ();
if (nvml_rc != NVML_SUCCESS)
{
const char *string = hm_NVML_nvmlErrorString (nvml, nvml_rc);
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event_log_error (hashcat_ctx, "nvmlInit(): %s", string);
return -1;
}
return 0;
}
static int hm_NVML_nvmlShutdown (hashcat_ctx_t *hashcat_ctx)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
NVML_PTR *nvml = hwmon_ctx->hm_nvml;
const nvmlReturn_t nvml_rc = nvml->nvmlShutdown ();
if (nvml_rc != NVML_SUCCESS)
{
const char *string = hm_NVML_nvmlErrorString (nvml, nvml_rc);
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event_log_error (hashcat_ctx, "nvmlShutdown(): %s", string);
return -1;
}
return 0;
}
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static int hm_NVML_nvmlDeviceGetCount (hashcat_ctx_t *hashcat_ctx, unsigned int *deviceCount)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
NVML_PTR *nvml = hwmon_ctx->hm_nvml;
const nvmlReturn_t nvml_rc = nvml->nvmlDeviceGetCount (deviceCount);
if (nvml_rc != NVML_SUCCESS)
{
const char *string = hm_NVML_nvmlErrorString (nvml, nvml_rc);
event_log_error (hashcat_ctx, "nvmlDeviceGetCount(): %s", string);
return -1;
}
return 0;
}
static int hm_NVML_nvmlDeviceGetHandleByIndex (hashcat_ctx_t *hashcat_ctx, unsigned int device_index, nvmlDevice_t *device)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
NVML_PTR *nvml = hwmon_ctx->hm_nvml;
const nvmlReturn_t nvml_rc = nvml->nvmlDeviceGetHandleByIndex (device_index, device);
if (nvml_rc != NVML_SUCCESS)
{
const char *string = hm_NVML_nvmlErrorString (nvml, nvml_rc);
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event_log_error (hashcat_ctx, "nvmlDeviceGetHandleByIndex(): %s", string);
return -1;
}
return 0;
}
/*
static int hm_NVML_nvmlDeviceGetName (hashcat_ctx_t *hashcat_ctx, nvmlDevice_t device, char *name, unsigned int length)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
NVML_PTR *nvml = hwmon_ctx->hm_nvml;
const nvmlReturn_t nvml_rc = nvml->nvmlDeviceGetName (device, name, length);
if (nvml_rc != NVML_SUCCESS)
{
const char *string = hm_NVML_nvmlErrorString (nvml, nvml_rc);
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event_log_error (hashcat_ctx, "nvmlDeviceGetName(): %s", string);
return -1;
}
return 0;
}
*/
static int hm_NVML_nvmlDeviceGetTemperature (hashcat_ctx_t *hashcat_ctx, nvmlDevice_t device, nvmlTemperatureSensors_t sensorType, unsigned int *temp)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
NVML_PTR *nvml = hwmon_ctx->hm_nvml;
const nvmlReturn_t nvml_rc = nvml->nvmlDeviceGetTemperature (device, sensorType, temp);
if (nvml_rc != NVML_SUCCESS)
{
const char *string = hm_NVML_nvmlErrorString (nvml, nvml_rc);
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event_log_error (hashcat_ctx, "nvmlDeviceGetTemperature(): %s", string);
return -1;
}
return 0;
}
static int hm_NVML_nvmlDeviceGetFanSpeed (hashcat_ctx_t *hashcat_ctx, nvmlDevice_t device, unsigned int *speed)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
NVML_PTR *nvml = hwmon_ctx->hm_nvml;
const nvmlReturn_t nvml_rc = nvml->nvmlDeviceGetFanSpeed (device, speed);
if (nvml_rc != NVML_SUCCESS)
{
const char *string = hm_NVML_nvmlErrorString (nvml, nvml_rc);
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event_log_error (hashcat_ctx, "nvmlDeviceGetFanSpeed(): %s", string);
return -1;
}
return 0;
}
/*
static int hm_NVML_nvmlDeviceGetPowerUsage (hashcat_ctx_t *hashcat_ctx, nvmlDevice_t device, unsigned int *power)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
NVML_PTR *nvml = hwmon_ctx->hm_nvml;
const nvmlReturn_t nvml_rc = nvml->nvmlDeviceGetPowerUsage (device, power);
if (nvml_rc != NVML_SUCCESS)
{
const char *string = hm_NVML_nvmlErrorString (nvml, nvml_rc);
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event_log_error (hashcat_ctx, "nvmlDeviceGetPowerUsage(): %s", string);
return -1;
}
return 0;
}
*/
static int hm_NVML_nvmlDeviceGetUtilizationRates (hashcat_ctx_t *hashcat_ctx, nvmlDevice_t device, nvmlUtilization_t *utilization)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
NVML_PTR *nvml = hwmon_ctx->hm_nvml;
const nvmlReturn_t nvml_rc = nvml->nvmlDeviceGetUtilizationRates (device, utilization);
if (nvml_rc != NVML_SUCCESS)
{
const char *string = hm_NVML_nvmlErrorString (nvml, nvml_rc);
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event_log_error (hashcat_ctx, "nvmlDeviceGetUtilizationRates(): %s", string);
return -1;
}
return 0;
}
static int hm_NVML_nvmlDeviceGetClockInfo (hashcat_ctx_t *hashcat_ctx, nvmlDevice_t device, nvmlClockType_t type, unsigned int *clockfreq)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
NVML_PTR *nvml = hwmon_ctx->hm_nvml;
const nvmlReturn_t nvml_rc = nvml->nvmlDeviceGetClockInfo (device, type, clockfreq);
if (nvml_rc != NVML_SUCCESS)
{
const char *string = hm_NVML_nvmlErrorString (nvml, nvml_rc);
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event_log_error (hashcat_ctx, "nvmlDeviceGetClockInfo(): %s", string);
return -1;
}
return 0;
}
static int hm_NVML_nvmlDeviceGetTemperatureThreshold (hashcat_ctx_t *hashcat_ctx, nvmlDevice_t device, nvmlTemperatureThresholds_t thresholdType, unsigned int *temp)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
NVML_PTR *nvml = hwmon_ctx->hm_nvml;
const nvmlReturn_t nvml_rc = nvml->nvmlDeviceGetTemperatureThreshold (device, thresholdType, temp);
if (nvml_rc != NVML_SUCCESS)
{
const char *string = hm_NVML_nvmlErrorString (nvml, nvml_rc);
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event_log_error (hashcat_ctx, "nvmlDeviceGetTemperatureThreshold(): %s", string);
return -1;
}
return 0;
}
/*
static int hm_NVML_nvmlDeviceGetCurrPcieLinkGeneration (hashcat_ctx_t *hashcat_ctx, nvmlDevice_t device, unsigned int *currLinkGen)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
NVML_PTR *nvml = hwmon_ctx->hm_nvml;
const nvmlReturn_t nvml_rc = nvml->nvmlDeviceGetCurrPcieLinkGeneration (device, currLinkGen);
if (nvml_rc != NVML_SUCCESS)
{
const char *string = hm_NVML_nvmlErrorString (nvml, nvml_rc);
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event_log_error (hashcat_ctx, "nvmlDeviceGetCurrPcieLinkGeneration(): %s", string);
return -1;
}
return 0;
}
*/
static int hm_NVML_nvmlDeviceGetCurrPcieLinkWidth (hashcat_ctx_t *hashcat_ctx, nvmlDevice_t device, unsigned int *currLinkWidth)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
NVML_PTR *nvml = hwmon_ctx->hm_nvml;
const nvmlReturn_t nvml_rc = nvml->nvmlDeviceGetCurrPcieLinkWidth (device, currLinkWidth);
if (nvml_rc != NVML_SUCCESS)
{
const char *string = hm_NVML_nvmlErrorString (nvml, nvml_rc);
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event_log_error (hashcat_ctx, "nvmlDeviceGetCurrPcieLinkWidth(): %s", string);
return -1;
}
return 0;
}
/*
static int hm_NVML_nvmlDeviceGetCurrentClocksThrottleReasons (hashcat_ctx_t *hashcat_ctx, nvmlDevice_t device, unsigned long long *clocksThrottleReasons)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
NVML_PTR *nvml = hwmon_ctx->hm_nvml;
const nvmlReturn_t nvml_rc = nvml->nvmlDeviceGetCurrentClocksThrottleReasons (device, clocksThrottleReasons);
if (nvml_rc != NVML_SUCCESS)
{
const char *string = hm_NVML_nvmlErrorString (nvml, nvml_rc);
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event_log_error (hashcat_ctx, "nvmlDeviceGetCurrentClocksThrottleReasons(): %s", string);
return -1;
}
return 0;
}
*/
/*
static int hm_NVML_nvmlDeviceGetSupportedClocksThrottleReasons (hashcat_ctx_t *hashcat_ctx, nvmlDevice_t device, unsigned long long *supportedClocksThrottleReasons)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
NVML_PTR *nvml = hwmon_ctx->hm_nvml;
const nvmlReturn_t nvml_rc = nvml->nvmlDeviceGetSupportedClocksThrottleReasons (device, supportedClocksThrottleReasons);
if (nvml_rc != NVML_SUCCESS)
{
const char *string = hm_NVML_nvmlErrorString (nvml, nvml_rc);
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event_log_error (hashcat_ctx, "nvmlDeviceGetSupportedClocksThrottleReasons(): %s", string);
return -1;
}
return 0;
}
*/
/*
static int hm_NVML_nvmlDeviceSetComputeMode (hashcat_ctx_t *hashcat_ctx, nvmlDevice_t device, nvmlComputeMode_t mode)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
NVML_PTR *nvml = hwmon_ctx->hm_nvml;
const nvmlReturn_t nvml_rc = nvml->nvmlDeviceSetComputeMode (device, mode);
if (nvml_rc != NVML_SUCCESS)
{
const char *string = hm_NVML_nvmlErrorString (nvml, nvml_rc);
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event_log_error (hashcat_ctx, "nvmlDeviceSetComputeMode(): %s", string);
return -1;
}
return 0;
}
*/
/*
static int hm_NVML_nvmlDeviceSetGpuOperationMode (hashcat_ctx_t *hashcat_ctx, nvmlDevice_t device, nvmlGpuOperationMode_t mode)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
NVML_PTR *nvml = hwmon_ctx->hm_nvml;
const nvmlReturn_t nvml_rc = nvml->nvmlDeviceSetGpuOperationMode (device, mode);
if (nvml_rc != NVML_SUCCESS)
{
const char *string = hm_NVML_nvmlErrorString (nvml, nvml_rc);
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event_log_error (hashcat_ctx, "nvmlDeviceSetGpuOperationMode(): %s", string);
return -1;
}
return 0;
}
*/
static int hm_NVML_nvmlDeviceGetPowerManagementLimitConstraints (hashcat_ctx_t *hashcat_ctx, nvmlDevice_t device, unsigned int *minLimit, unsigned int *maxLimit)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
NVML_PTR *nvml = hwmon_ctx->hm_nvml;
const nvmlReturn_t nvml_rc = nvml->nvmlDeviceGetPowerManagementLimitConstraints (device, minLimit, maxLimit);
if (nvml_rc != NVML_SUCCESS)
{
const char *string = hm_NVML_nvmlErrorString (nvml, nvml_rc);
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event_log_error (hashcat_ctx, "nvmlDeviceGetPowerManagementLimitConstraints(): %s", string);
return -1;
}
return 0;
}
static int hm_NVML_nvmlDeviceSetPowerManagementLimit (hashcat_ctx_t *hashcat_ctx, nvmlDevice_t device, unsigned int limit)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
NVML_PTR *nvml = hwmon_ctx->hm_nvml;
const nvmlReturn_t nvml_rc = nvml->nvmlDeviceSetPowerManagementLimit (device, limit);
if (nvml_rc != NVML_SUCCESS)
{
const char *string = hm_NVML_nvmlErrorString (nvml, nvml_rc);
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event_log_error (hashcat_ctx, "nvmlDeviceSetPowerManagementLimit(): %s", string);
return -1;
}
return 0;
}
static int hm_NVML_nvmlDeviceGetPowerManagementLimit (hashcat_ctx_t *hashcat_ctx, nvmlDevice_t device, unsigned int *limit)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
NVML_PTR *nvml = hwmon_ctx->hm_nvml;
const nvmlReturn_t nvml_rc = nvml->nvmlDeviceGetPowerManagementLimit (device, limit);
if (nvml_rc != NVML_SUCCESS)
{
const char *string = hm_NVML_nvmlErrorString (nvml, nvml_rc);
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event_log_error (hashcat_ctx, "nvmlDeviceGetPowerManagementLimit(): %s", string);
return -1;
}
return 0;
}
static int hm_NVML_nvmlDeviceGetPciInfo (hashcat_ctx_t *hashcat_ctx, nvmlDevice_t device, nvmlPciInfo_t *pci)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
NVML_PTR *nvml = hwmon_ctx->hm_nvml;
const nvmlReturn_t nvml_rc = nvml->nvmlDeviceGetPciInfo (device, pci);
if (nvml_rc != NVML_SUCCESS)
{
const char *string = hm_NVML_nvmlErrorString (nvml, nvml_rc);
event_log_error (hashcat_ctx, "nvmlDeviceGetPciInfo(): %s", string);
return -1;
}
return 0;
}
// nvapi functions
static int nvapi_init (hashcat_ctx_t *hashcat_ctx)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
NVAPI_PTR *nvapi = hwmon_ctx->hm_nvapi;
memset (nvapi, 0, sizeof (NVAPI_PTR));
#if defined (_WIN)
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#if defined (_WIN64)
nvapi->lib = hc_dlopen ("nvapi64.dll");
#else
nvapi->lib = hc_dlopen ("nvapi.dll");
#endif
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#else
#if defined (__CYGWIN__)
#if defined (__x86_x64__)
nvapi->lib = hc_dlopen ("nvapi64.dll", RTLD_NOW);
#else
nvapi->lib = hc_dlopen ("nvapi.dll", RTLD_NOW);
#endif
#else
nvapi->lib = hc_dlopen ("nvapi.so", RTLD_NOW); // uhm yes, but .. yeah
#endif
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#endif
if (!nvapi->lib)
{
//if (user_options->quiet == false)
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// event_log_error (hashcat_ctx, "Load of NVAPI library failed. Proceeding without NVAPI HWMon enabled.");
return -1;
}
HC_LOAD_FUNC(nvapi, nvapi_QueryInterface, NVAPI_QUERYINTERFACE, NVAPI, 0)
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HC_LOAD_ADDR(nvapi, NvAPI_Initialize, NVAPI_INITIALIZE, nvapi_QueryInterface, 0x0150E828u, NVAPI, 0)
HC_LOAD_ADDR(nvapi, NvAPI_Unload, NVAPI_UNLOAD, nvapi_QueryInterface, 0xD22BDD7Eu, NVAPI, 0)
HC_LOAD_ADDR(nvapi, NvAPI_GetErrorMessage, NVAPI_GETERRORMESSAGE, nvapi_QueryInterface, 0x6C2D048Cu, NVAPI, 0)
HC_LOAD_ADDR(nvapi, NvAPI_EnumPhysicalGPUs, NVAPI_ENUMPHYSICALGPUS, nvapi_QueryInterface, 0xE5AC921Fu, NVAPI, 0)
HC_LOAD_ADDR(nvapi, NvAPI_GPU_GetPerfPoliciesInfo, NVAPI_GPU_GETPERFPOLICIESINFO, nvapi_QueryInterface, 0x409D9841u, NVAPI, 0)
HC_LOAD_ADDR(nvapi, NvAPI_GPU_GetPerfPoliciesStatus, NVAPI_GPU_GETPERFPOLICIESSTATUS, nvapi_QueryInterface, 0x3D358A0Cu, NVAPI, 0)
HC_LOAD_ADDR(nvapi, NvAPI_GPU_SetCoolerLevels, NVAPI_GPU_SETCOOLERLEVELS, nvapi_QueryInterface, 0x891FA0AEu, NVAPI, 0)
HC_LOAD_ADDR(nvapi, NvAPI_GPU_GetBusId, NVAPI_GPU_GETBUSID, nvapi_QueryInterface, 0x1BE0B8E5u, NVAPI, 0)
HC_LOAD_ADDR(nvapi, NvAPI_GPU_GetBusSlotId, NVAPI_GPU_GETBUSSLOTID, nvapi_QueryInterface, 0x2A0A350Fu, NVAPI, 0)
return 0;
}
static void nvapi_close (hashcat_ctx_t *hashcat_ctx)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
NVAPI_PTR *nvapi = hwmon_ctx->hm_nvapi;
if (nvapi)
{
if (nvapi->lib)
hc_dlclose (nvapi->lib);
hcfree (nvapi);
}
}
static void hm_NvAPI_GetErrorMessage (NVAPI_PTR *nvapi, const NvAPI_Status NvAPI_rc, NvAPI_ShortString string)
{
nvapi->NvAPI_GetErrorMessage (NvAPI_rc, string);
}
static int hm_NvAPI_Initialize (hashcat_ctx_t *hashcat_ctx)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
NVAPI_PTR *nvapi = hwmon_ctx->hm_nvapi;
const NvAPI_Status NvAPI_rc = nvapi->NvAPI_Initialize ();
if (NvAPI_rc == NVAPI_LIBRARY_NOT_FOUND) return -1;
if (NvAPI_rc != NVAPI_OK)
{
NvAPI_ShortString string = { 0 };
hm_NvAPI_GetErrorMessage (nvapi, NvAPI_rc, string);
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event_log_error (hashcat_ctx, "NvAPI_Initialize(): %s", string);
return -1;
}
return 0;
}
static int hm_NvAPI_Unload (hashcat_ctx_t *hashcat_ctx)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
NVAPI_PTR *nvapi = hwmon_ctx->hm_nvapi;
const NvAPI_Status NvAPI_rc = nvapi->NvAPI_Unload ();
if (NvAPI_rc != NVAPI_OK)
{
NvAPI_ShortString string = { 0 };
hm_NvAPI_GetErrorMessage (nvapi, NvAPI_rc, string);
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event_log_error (hashcat_ctx, "NvAPI_Unload(): %s", string);
return -1;
}
return 0;
}
static int hm_NvAPI_EnumPhysicalGPUs (hashcat_ctx_t *hashcat_ctx, NvPhysicalGpuHandle nvGPUHandle[NVAPI_MAX_PHYSICAL_GPUS], NvU32 *pGpuCount)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
NVAPI_PTR *nvapi = hwmon_ctx->hm_nvapi;
const NvAPI_Status NvAPI_rc = nvapi->NvAPI_EnumPhysicalGPUs (nvGPUHandle, pGpuCount);
if (NvAPI_rc != NVAPI_OK)
{
NvAPI_ShortString string = { 0 };
hm_NvAPI_GetErrorMessage (nvapi, NvAPI_rc, string);
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event_log_error (hashcat_ctx, "NvAPI_EnumPhysicalGPUs(): %s", string);
return -1;
}
return 0;
}
static int hm_NvAPI_GPU_GetPerfPoliciesInfo (hashcat_ctx_t *hashcat_ctx, NvPhysicalGpuHandle hPhysicalGpu, NV_GPU_PERF_POLICIES_INFO_PARAMS_V1 *perfPolicies_info)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
NVAPI_PTR *nvapi = hwmon_ctx->hm_nvapi;
const NvAPI_Status NvAPI_rc = nvapi->NvAPI_GPU_GetPerfPoliciesInfo (hPhysicalGpu, perfPolicies_info);
if (NvAPI_rc != NVAPI_OK)
{
NvAPI_ShortString string = { 0 };
hm_NvAPI_GetErrorMessage (nvapi, NvAPI_rc, string);
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event_log_error (hashcat_ctx, "NvAPI_GPU_GetPerfPoliciesInfo(): %s", string);
return -1;
}
return 0;
}
static int hm_NvAPI_GPU_GetPerfPoliciesStatus (hashcat_ctx_t *hashcat_ctx, NvPhysicalGpuHandle hPhysicalGpu, NV_GPU_PERF_POLICIES_STATUS_PARAMS_V1 *perfPolicies_status)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
NVAPI_PTR *nvapi = hwmon_ctx->hm_nvapi;
const NvAPI_Status NvAPI_rc = nvapi->NvAPI_GPU_GetPerfPoliciesStatus (hPhysicalGpu, perfPolicies_status);
if (NvAPI_rc != NVAPI_OK)
{
NvAPI_ShortString string = { 0 };
hm_NvAPI_GetErrorMessage (nvapi, NvAPI_rc, string);
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event_log_error (hashcat_ctx, "NvAPI_GPU_GetPerfPoliciesStatus(): %s", string);
return -1;
}
return 0;
}
static int hm_NvAPI_GPU_SetCoolerLevels (hashcat_ctx_t *hashcat_ctx, NvPhysicalGpuHandle hPhysicalGpu, NvU32 coolerIndex, NV_GPU_COOLER_LEVELS *pCoolerLevels)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
NVAPI_PTR *nvapi = hwmon_ctx->hm_nvapi;
const NvAPI_Status NvAPI_rc = nvapi->NvAPI_GPU_SetCoolerLevels (hPhysicalGpu, coolerIndex, pCoolerLevels);
if (NvAPI_rc != NVAPI_OK)
{
NvAPI_ShortString string = { 0 };
hm_NvAPI_GetErrorMessage (nvapi, NvAPI_rc, string);
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event_log_error (hashcat_ctx, "NvAPI_GPU_SetCoolerLevels(): %s", string);
return -1;
}
return 0;
}
static int hm_NvAPI_GPU_GetBusId (hashcat_ctx_t *hashcat_ctx, NvPhysicalGpuHandle hPhysicalGpu, NvU32 *pBusId)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
NVAPI_PTR *nvapi = hwmon_ctx->hm_nvapi;
const NvAPI_Status NvAPI_rc = nvapi->NvAPI_GPU_GetBusId (hPhysicalGpu, pBusId);
if (NvAPI_rc != NVAPI_OK)
{
NvAPI_ShortString string = { 0 };
hm_NvAPI_GetErrorMessage (nvapi, NvAPI_rc, string);
event_log_error (hashcat_ctx, "NvAPI_GPU_GetBusId(): %s", string);
return -1;
}
return 0;
}
static int hm_NvAPI_GPU_GetBusSlotId (hashcat_ctx_t *hashcat_ctx, NvPhysicalGpuHandle hPhysicalGpu, NvU32 *pBusSlotId)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
NVAPI_PTR *nvapi = hwmon_ctx->hm_nvapi;
const NvAPI_Status NvAPI_rc = nvapi->NvAPI_GPU_GetBusSlotId (hPhysicalGpu, pBusSlotId);
if (NvAPI_rc != NVAPI_OK)
{
NvAPI_ShortString string = { 0 };
hm_NvAPI_GetErrorMessage (nvapi, NvAPI_rc, string);
event_log_error (hashcat_ctx, "NvAPI_GPU_GetBusSlotId(): %s", string);
return -1;
}
return 0;
}
/*
#if defined (__MINGW64__)
void __security_check_cookie (uintptr_t _StackCookie);
void __security_check_cookie (uintptr_t _StackCookie)
{
(void) _StackCookie;
}
void __GSHandlerCheck ();
void __GSHandlerCheck ()
{
}
#endif
*/
// xnvctrl functions
static int xnvctrl_init (hashcat_ctx_t *hashcat_ctx)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
XNVCTRL_PTR *xnvctrl = hwmon_ctx->hm_xnvctrl;
memset (xnvctrl, 0, sizeof (XNVCTRL_PTR));
#if defined (_WIN)
// unsupport platform?
return -1;
#else
xnvctrl->lib_x11 = dlopen ("libX11.so", RTLD_LAZY);
if (xnvctrl->lib_x11 == NULL)
{
2017-04-02 07:50:06 +00:00
//event_log_error (hashcat_ctx, "Failed to load the X11 library: %s", dlerror());
//event_log_error (hashcat_ctx, "Please install the libx11-dev package.");
return -1;
}
xnvctrl->lib_xnvctrl = dlopen ("libXNVCtrl.so", RTLD_LAZY);
if (xnvctrl->lib_xnvctrl == NULL)
{
2017-04-02 07:50:06 +00:00
//event_log_error (hashcat_ctx, "Failed to load the XNVCTRL library: %s", dlerror());
//event_log_error (hashcat_ctx, "Please install the libxnvctrl-dev package.");
return -1;
}
HC_LOAD_FUNC2 (xnvctrl, XOpenDisplay, XOPENDISPLAY, lib_x11, X11, 0);
HC_LOAD_FUNC2 (xnvctrl, XCloseDisplay, XCLOSEDISPLAY, lib_x11, X11, 0);
HC_LOAD_FUNC2 (xnvctrl, XNVCTRLQueryTargetCount, XNVCTRLQUERYTARGETCOUNT, lib_xnvctrl, XNVCTRL, 0);
HC_LOAD_FUNC2 (xnvctrl, XNVCTRLQueryTargetAttribute, XNVCTRLQUERYTARGETATTRIBUTE, lib_xnvctrl, XNVCTRL, 0);
HC_LOAD_FUNC2 (xnvctrl, XNVCTRLSetTargetAttribute, XNVCTRLSETTARGETATTRIBUTE, lib_xnvctrl, XNVCTRL, 0);
return 0;
#endif
}
static void xnvctrl_close (hashcat_ctx_t *hashcat_ctx)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
XNVCTRL_PTR *xnvctrl = hwmon_ctx->hm_xnvctrl;
if (xnvctrl)
{
#if defined (_POSIX)
if (xnvctrl->lib_x11)
{
dlclose (xnvctrl->lib_x11);
}
if (xnvctrl->lib_xnvctrl)
{
dlclose (xnvctrl->lib_xnvctrl);
}
#endif
hcfree (xnvctrl);
}
}
static int hm_XNVCTRL_XOpenDisplay (hashcat_ctx_t *hashcat_ctx)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
XNVCTRL_PTR *xnvctrl = hwmon_ctx->hm_xnvctrl;
if (xnvctrl->XOpenDisplay == NULL) return -1;
void *dpy = xnvctrl->XOpenDisplay (NULL);
if (dpy == NULL)
{
2017-04-02 07:50:06 +00:00
event_log_error (hashcat_ctx, "XOpenDisplay() failed.");
return -1;
}
xnvctrl->dpy = dpy;
return 0;
}
static void hm_XNVCTRL_XCloseDisplay (hashcat_ctx_t *hashcat_ctx)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
XNVCTRL_PTR *xnvctrl = hwmon_ctx->hm_xnvctrl;
if (xnvctrl->XCloseDisplay == NULL) return;
if (xnvctrl->dpy == NULL) return;
xnvctrl->XCloseDisplay (xnvctrl->dpy);
}
static int hm_XNVCTRL_query_target_count (hashcat_ctx_t *hashcat_ctx, int *val)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
XNVCTRL_PTR *xnvctrl = hwmon_ctx->hm_xnvctrl;
if (xnvctrl->XNVCTRLQueryTargetCount == NULL) return -1;
if (xnvctrl->dpy == NULL) return -1;
const int rc = xnvctrl->XNVCTRLQueryTargetCount (xnvctrl->dpy, NV_CTRL_TARGET_TYPE_GPU, val);
if (rc == false)
{
2017-04-02 07:50:06 +00:00
event_log_error (hashcat_ctx, "%s", "XNVCTRLQueryTargetCount() failed.");
return -1;
}
return 0;
}
static int hm_XNVCTRL_get_fan_control (hashcat_ctx_t *hashcat_ctx, const int gpu, int *val)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
XNVCTRL_PTR *xnvctrl = hwmon_ctx->hm_xnvctrl;
if (xnvctrl->XNVCTRLQueryTargetAttribute == NULL) return -1;
if (xnvctrl->dpy == NULL) return -1;
const bool rc = xnvctrl->XNVCTRLQueryTargetAttribute (xnvctrl->dpy, NV_CTRL_TARGET_TYPE_GPU, gpu, 0, NV_CTRL_GPU_COOLER_MANUAL_CONTROL, val);
if (rc == false)
{
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event_log_error (hashcat_ctx, "XNVCTRLQueryTargetAttribute() failed.");
// help the user to fix the problem
2017-04-02 07:50:06 +00:00
event_log_warning (hashcat_ctx, "This error typically occurs when you did not set up NVidia Coolbits.");
event_log_warning (hashcat_ctx, "To fix, run this command:");
event_log_warning (hashcat_ctx, " sudo nvidia-xconfig --cool-bits=12");
event_log_warning (hashcat_ctx, "Do not forget to restart X afterwards.");
event_log_warning (hashcat_ctx, NULL);
return -1;
}
return 0;
}
static int hm_XNVCTRL_set_fan_control (hashcat_ctx_t *hashcat_ctx, const int gpu, int val)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
XNVCTRL_PTR *xnvctrl = hwmon_ctx->hm_xnvctrl;
if (xnvctrl->XNVCTRLSetTargetAttribute == NULL) return -1;
if (xnvctrl->dpy == NULL) return -1;
int cur;
int rc = hm_XNVCTRL_get_fan_control (hashcat_ctx, gpu, &cur);
if (rc == -1) return -1;
xnvctrl->XNVCTRLSetTargetAttribute (xnvctrl->dpy, NV_CTRL_TARGET_TYPE_GPU, gpu, 0, NV_CTRL_GPU_COOLER_MANUAL_CONTROL, val);
rc = hm_XNVCTRL_get_fan_control (hashcat_ctx, gpu, &cur);
if (rc == -1) return -1;
if (cur != val) return -1;
return 0;
}
/*
static int hm_XNVCTRL_get_core_threshold (hashcat_ctx_t *hashcat_ctx, const int gpu, int *val)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
XNVCTRL_PTR *xnvctrl = hwmon_ctx->hm_xnvctrl;
if (xnvctrl->XNVCTRLQueryTargetAttribute == NULL) return -1;
if (xnvctrl->dpy == NULL) return -1;
const bool rc = xnvctrl->XNVCTRLQueryTargetAttribute (xnvctrl->dpy, NV_CTRL_TARGET_TYPE_GPU, gpu, 0, NV_CTRL_GPU_CORE_THRESHOLD, val);
if (rc == false)
{
2017-04-02 07:50:06 +00:00
event_log_error (hashcat_ctx, "XNVCTRLQueryTargetAttribute(NV_CTRL_GPU_CORE_THRESHOLD) failed.");
return -1;
}
return 0;
}
*/
/*
static int hm_XNVCTRL_get_fan_speed_current (hashcat_ctx_t *hashcat_ctx, const int gpu, int *val)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
XNVCTRL_PTR *xnvctrl = hwmon_ctx->hm_xnvctrl;
if (xnvctrl->XNVCTRLQueryTargetAttribute == NULL) return -1;
if (xnvctrl->dpy == NULL) return -1;
const bool rc = xnvctrl->XNVCTRLQueryTargetAttribute (xnvctrl->dpy, NV_CTRL_TARGET_TYPE_COOLER, gpu, 0, NV_CTRL_THERMAL_COOLER_CURRENT_LEVEL, val);
if (rc == false)
{
2017-04-02 07:50:06 +00:00
event_log_error (hashcat_ctx, "XNVCTRLQueryTargetAttribute(NV_CTRL_THERMAL_COOLER_CURRENT_LEVEL) failed.");
return -1;
}
return 0;
}
*/
static int hm_XNVCTRL_get_fan_speed_target (hashcat_ctx_t *hashcat_ctx, const int gpu, int *val)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
XNVCTRL_PTR *xnvctrl = hwmon_ctx->hm_xnvctrl;
if (xnvctrl->XNVCTRLQueryTargetAttribute == NULL) return -1;
if (xnvctrl->dpy == NULL) return -1;
const int rc = xnvctrl->XNVCTRLQueryTargetAttribute (xnvctrl->dpy, NV_CTRL_TARGET_TYPE_COOLER, gpu, 0, NV_CTRL_THERMAL_COOLER_LEVEL, val);
if (rc == false)
{
2017-04-02 07:50:06 +00:00
event_log_error (hashcat_ctx, "%s", "XNVCTRLQueryTargetAttribute(NV_CTRL_THERMAL_COOLER_LEVEL) failed.");
return -1;
}
return 0;
}
static int hm_XNVCTRL_set_fan_speed_target (hashcat_ctx_t *hashcat_ctx, const int gpu, int val)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
XNVCTRL_PTR *xnvctrl = hwmon_ctx->hm_xnvctrl;
if (xnvctrl->XNVCTRLSetTargetAttribute == NULL) return -1;
if (xnvctrl->dpy == NULL) return -1;
int cur;
int rc = hm_XNVCTRL_get_fan_speed_target (hashcat_ctx, gpu, &cur);
if (rc == -1) return -1;
xnvctrl->XNVCTRLSetTargetAttribute (xnvctrl->dpy, NV_CTRL_TARGET_TYPE_COOLER, gpu, 0, NV_CTRL_THERMAL_COOLER_LEVEL, val);
rc = hm_XNVCTRL_get_fan_speed_target (hashcat_ctx, gpu, &cur);
if (rc == -1) return -1;
if (cur != val) return -1;
return 0;
}
static int hm_XNVCTRL_get_pci_bus (hashcat_ctx_t *hashcat_ctx, const int gpu, int *val)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
XNVCTRL_PTR *xnvctrl = hwmon_ctx->hm_xnvctrl;
if (xnvctrl->XNVCTRLQueryTargetAttribute == NULL) return -1;
if (xnvctrl->dpy == NULL) return -1;
const int rc = xnvctrl->XNVCTRLQueryTargetAttribute (xnvctrl->dpy, NV_CTRL_TARGET_TYPE_GPU, gpu, 0, NV_CTRL_PCI_BUS, val);
if (rc == false)
{
2017-04-02 07:50:06 +00:00
event_log_error (hashcat_ctx, "%s", "XNVCTRLQueryTargetAttribute(NV_CTRL_PCI_BUS) failed.");
return -1;
}
return 0;
}
static int hm_XNVCTRL_get_pci_device (hashcat_ctx_t *hashcat_ctx, const int gpu, int *val)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
XNVCTRL_PTR *xnvctrl = hwmon_ctx->hm_xnvctrl;
if (xnvctrl->XNVCTRLQueryTargetAttribute == NULL) return -1;
if (xnvctrl->dpy == NULL) return -1;
const int rc = xnvctrl->XNVCTRLQueryTargetAttribute (xnvctrl->dpy, NV_CTRL_TARGET_TYPE_GPU, gpu, 0, NV_CTRL_PCI_DEVICE, val);
if (rc == false)
{
2017-04-02 07:50:06 +00:00
event_log_error (hashcat_ctx, "%s", "XNVCTRLQueryTargetAttribute(NV_CTRL_PCI_DEVICE) failed.");
return -1;
}
return 0;
}
static int hm_XNVCTRL_get_pci_function (hashcat_ctx_t *hashcat_ctx, const int gpu, int *val)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
XNVCTRL_PTR *xnvctrl = hwmon_ctx->hm_xnvctrl;
if (xnvctrl->XNVCTRLQueryTargetAttribute == NULL) return -1;
if (xnvctrl->dpy == NULL) return -1;
const int rc = xnvctrl->XNVCTRLQueryTargetAttribute (xnvctrl->dpy, NV_CTRL_TARGET_TYPE_GPU, gpu, 0, NV_CTRL_PCI_FUNCTION, val);
if (rc == false)
{
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event_log_error (hashcat_ctx, "%s", "XNVCTRLQueryTargetAttribute(NV_CTRL_PCI_FUNCTION) failed.");
return -1;
}
return 0;
}
// ADL functions
static int adl_init (hashcat_ctx_t *hashcat_ctx)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
ADL_PTR *adl = hwmon_ctx->hm_adl;
memset (adl, 0, sizeof (ADL_PTR));
#if defined (_WIN)
adl->lib = hc_dlopen ("atiadlxx.dll");
if (!adl->lib)
{
adl->lib = hc_dlopen ("atiadlxy.dll");
}
2017-02-18 20:29:11 +00:00
#elif defined (__CYGWIN__)
adl->lib = hc_dlopen ("atiadlxx.dll", RTLD_NOW);
if (!adl->lib)
{
adl->lib = hc_dlopen ("atiadlxy.dll", RTLD_NOW);
}
#elif defined (_POSIX)
adl->lib = hc_dlopen ("libatiadlxx.so", RTLD_NOW);
#endif
if (!adl->lib)
{
//if (user_options->quiet == false)
2017-04-02 07:50:06 +00:00
// event_log_error (hashcat_ctx, "Load of ADL library failed. Proceeding without ADL HWMon enabled.");
return -1;
}
HC_LOAD_FUNC(adl, ADL_Main_Control_Destroy, ADL_MAIN_CONTROL_DESTROY, ADL, 0)
HC_LOAD_FUNC(adl, ADL_Main_Control_Create, ADL_MAIN_CONTROL_CREATE, ADL, 0)
HC_LOAD_FUNC(adl, ADL_Adapter_NumberOfAdapters_Get, ADL_ADAPTER_NUMBEROFADAPTERS_GET, ADL, 0)
HC_LOAD_FUNC(adl, ADL_Adapter_AdapterInfo_Get, ADL_ADAPTER_ADAPTERINFO_GET, ADL, 0)
HC_LOAD_FUNC(adl, ADL_Display_DisplayInfo_Get, ADL_DISPLAY_DISPLAYINFO_GET, ADL, 0)
HC_LOAD_FUNC(adl, ADL_Adapter_ID_Get, ADL_ADAPTER_ID_GET, ADL, 0)
HC_LOAD_FUNC(adl, ADL_Adapter_VideoBiosInfo_Get, ADL_ADAPTER_VIDEOBIOSINFO_GET, ADL, 0)
HC_LOAD_FUNC(adl, ADL_Overdrive5_ThermalDevices_Enum, ADL_OVERDRIVE5_THERMALDEVICES_ENUM, ADL, 0)
HC_LOAD_FUNC(adl, ADL_Overdrive5_Temperature_Get, ADL_OVERDRIVE5_TEMPERATURE_GET, ADL, 0)
HC_LOAD_FUNC(adl, ADL_Overdrive6_Temperature_Get, ADL_OVERDRIVE6_TEMPERATURE_GET, ADL, 0)
HC_LOAD_FUNC(adl, ADL_Overdrive5_CurrentActivity_Get, ADL_OVERDRIVE5_CURRENTACTIVITY_GET, ADL, 0)
HC_LOAD_FUNC(adl, ADL_Overdrive5_FanSpeedInfo_Get, ADL_OVERDRIVE5_FANSPEEDINFO_GET, ADL, 0)
HC_LOAD_FUNC(adl, ADL_Overdrive5_FanSpeed_Get, ADL_OVERDRIVE5_FANSPEED_GET, ADL, 0)
HC_LOAD_FUNC(adl, ADL_Overdrive6_FanSpeed_Get, ADL_OVERDRIVE6_FANSPEED_GET, ADL, 0)
HC_LOAD_FUNC(adl, ADL_Overdrive5_FanSpeed_Set, ADL_OVERDRIVE5_FANSPEED_SET, ADL, 0)
HC_LOAD_FUNC(adl, ADL_Overdrive6_FanSpeed_Set, ADL_OVERDRIVE6_FANSPEED_SET, ADL, 0)
HC_LOAD_FUNC(adl, ADL_Overdrive5_FanSpeedToDefault_Set, ADL_OVERDRIVE5_FANSPEEDTODEFAULT_SET, ADL, 0)
HC_LOAD_FUNC(adl, ADL_Overdrive5_ODParameters_Get, ADL_OVERDRIVE5_ODPARAMETERS_GET, ADL, 0)
HC_LOAD_FUNC(adl, ADL_Overdrive5_ODPerformanceLevels_Get, ADL_OVERDRIVE5_ODPERFORMANCELEVELS_GET, ADL, 0)
HC_LOAD_FUNC(adl, ADL_Overdrive5_ODPerformanceLevels_Set, ADL_OVERDRIVE5_ODPERFORMANCELEVELS_SET, ADL, 0)
HC_LOAD_FUNC(adl, ADL_Overdrive6_PowerControlInfo_Get, ADL_OVERDRIVE6_POWERCONTROLINFO_GET, ADL, 0)
HC_LOAD_FUNC(adl, ADL_Overdrive6_PowerControl_Get, ADL_OVERDRIVE6_POWERCONTROL_GET, ADL, 0)
HC_LOAD_FUNC(adl, ADL_Overdrive6_PowerControl_Set, ADL_OVERDRIVE6_POWERCONTROL_SET, ADL, 0)
HC_LOAD_FUNC(adl, ADL_Adapter_Active_Get, ADL_ADAPTER_ACTIVE_GET, ADL, 0)
//HC_LOAD_FUNC(adl, ADL_DisplayEnable_Set, ADL_DISPLAYENABLE_SET, ADL, 0)
HC_LOAD_FUNC(adl, ADL_Overdrive_Caps, ADL_OVERDRIVE_CAPS, ADL, 0)
HC_LOAD_FUNC(adl, ADL_Overdrive6_PowerControl_Caps, ADL_OVERDRIVE6_POWERCONTROL_CAPS, ADL, 0)
HC_LOAD_FUNC(adl, ADL_Overdrive6_Capabilities_Get, ADL_OVERDRIVE6_CAPABILITIES_GET, ADL, 0)
HC_LOAD_FUNC(adl, ADL_Overdrive6_StateInfo_Get, ADL_OVERDRIVE6_STATEINFO_GET, ADL, 0)
HC_LOAD_FUNC(adl, ADL_Overdrive6_CurrentStatus_Get, ADL_OVERDRIVE6_CURRENTSTATUS_GET, ADL, 0)
HC_LOAD_FUNC(adl, ADL_Overdrive6_State_Set, ADL_OVERDRIVE6_STATE_SET, ADL, 0)
HC_LOAD_FUNC(adl, ADL_Overdrive6_TargetTemperatureData_Get, ADL_OVERDRIVE6_TARGETTEMPERATUREDATA_GET, ADL, 0)
HC_LOAD_FUNC(adl, ADL_Overdrive6_TargetTemperatureRangeInfo_Get, ADL_OVERDRIVE6_TARGETTEMPERATURERANGEINFO_GET, ADL, 0)
HC_LOAD_FUNC(adl, ADL_Overdrive6_FanSpeed_Reset, ADL_OVERDRIVE6_FANSPEED_RESET, ADL, 0)
return 0;
}
static void adl_close (hashcat_ctx_t *hashcat_ctx)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
ADL_PTR *adl = hwmon_ctx->hm_adl;
if (adl)
{
if (adl->lib)
hc_dlclose (adl->lib);
hcfree (adl);
}
}
static int hm_ADL_Main_Control_Destroy (hashcat_ctx_t *hashcat_ctx)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
ADL_PTR *adl = hwmon_ctx->hm_adl;
const int ADL_rc = adl->ADL_Main_Control_Destroy ();
if (ADL_rc != ADL_OK)
{
2016-10-11 08:55:02 +00:00
event_log_error (hashcat_ctx, "ADL_Main_Control_Destroy(): %d", ADL_rc);
return -1;
}
return 0;
}
static int hm_ADL_Main_Control_Create (hashcat_ctx_t *hashcat_ctx, ADL_MAIN_MALLOC_CALLBACK callback, int iEnumConnectedAdapters)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
ADL_PTR *adl = hwmon_ctx->hm_adl;
const int ADL_rc = adl->ADL_Main_Control_Create (callback, iEnumConnectedAdapters);
if (ADL_rc != ADL_OK)
{
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event_log_error (hashcat_ctx, "ADL_Main_Control_Create(): %d", ADL_rc);
return -1;
}
return 0;
}
static int hm_ADL_Adapter_NumberOfAdapters_Get (hashcat_ctx_t *hashcat_ctx, int *lpNumAdapters)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
ADL_PTR *adl = hwmon_ctx->hm_adl;
const int ADL_rc = adl->ADL_Adapter_NumberOfAdapters_Get (lpNumAdapters);
if (ADL_rc != ADL_OK)
{
2016-10-11 08:55:02 +00:00
event_log_error (hashcat_ctx, "ADL_Adapter_NumberOfAdapters_Get(): %d", ADL_rc);
return -1;
}
return 0;
}
static int hm_ADL_Adapter_AdapterInfo_Get (hashcat_ctx_t *hashcat_ctx, LPAdapterInfo lpInfo, int iInputSize)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
ADL_PTR *adl = hwmon_ctx->hm_adl;
const int ADL_rc = adl->ADL_Adapter_AdapterInfo_Get (lpInfo, iInputSize);
if (ADL_rc != ADL_OK)
{
2016-10-11 08:55:02 +00:00
event_log_error (hashcat_ctx, "ADL_Adapter_AdapterInfo_Get(): %d", ADL_rc);
return -1;
}
return 0;
}
static int hm_ADL_Overdrive5_Temperature_Get (hashcat_ctx_t *hashcat_ctx, int iAdapterIndex, int iThermalControllerIndex, ADLTemperature *lpTemperature)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
ADL_PTR *adl = hwmon_ctx->hm_adl;
const int ADL_rc = adl->ADL_Overdrive5_Temperature_Get (iAdapterIndex, iThermalControllerIndex, lpTemperature);
if (ADL_rc != ADL_OK)
{
2016-10-11 08:55:02 +00:00
event_log_error (hashcat_ctx, "ADL_Overdrive5_Temperature_Get(): %d", ADL_rc);
return -1;
}
return 0;
}
static int hm_ADL_Overdrive6_Temperature_Get (hashcat_ctx_t *hashcat_ctx, int iAdapterIndex, int *iTemperature)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
ADL_PTR *adl = hwmon_ctx->hm_adl;
const int ADL_rc = adl->ADL_Overdrive6_Temperature_Get (iAdapterIndex, iTemperature);
if (ADL_rc != ADL_OK)
{
2016-10-11 08:55:02 +00:00
event_log_error (hashcat_ctx, "ADL_Overdrive6_Temperature_Get(): %d", ADL_rc);
return -1;
}
return 0;
}
static int hm_ADL_Overdrive_CurrentActivity_Get (hashcat_ctx_t *hashcat_ctx, int iAdapterIndex, ADLPMActivity *lpActivity)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
ADL_PTR *adl = hwmon_ctx->hm_adl;
const int ADL_rc = adl->ADL_Overdrive5_CurrentActivity_Get (iAdapterIndex, lpActivity);
if (ADL_rc != ADL_OK)
{
2016-10-11 08:55:02 +00:00
event_log_error (hashcat_ctx, "ADL_Overdrive5_CurrentActivity_Get(): %d", ADL_rc);
return -1;
}
return 0;
}
static int hm_ADL_Overdrive5_FanSpeed_Get (hashcat_ctx_t *hashcat_ctx, int iAdapterIndex, int iThermalControllerIndex, ADLFanSpeedValue *lpFanSpeedValue)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
ADL_PTR *adl = hwmon_ctx->hm_adl;
const int ADL_rc = adl->ADL_Overdrive5_FanSpeed_Get (iAdapterIndex, iThermalControllerIndex, lpFanSpeedValue);
if ((ADL_rc != ADL_OK) && (ADL_rc != ADL_ERR_NOT_SUPPORTED)) // exception allowed only here
{
2016-10-11 08:55:02 +00:00
event_log_error (hashcat_ctx, "ADL_Overdrive5_FanSpeed_Get(): %d", ADL_rc);
return -1;
}
return 0;
}
static int hm_ADL_Overdrive6_FanSpeed_Get (hashcat_ctx_t *hashcat_ctx, int iAdapterIndex, ADLOD6FanSpeedInfo *lpFanSpeedInfo)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
ADL_PTR *adl = hwmon_ctx->hm_adl;
const int ADL_rc = adl->ADL_Overdrive6_FanSpeed_Get (iAdapterIndex, lpFanSpeedInfo);
if ((ADL_rc != ADL_OK) && (ADL_rc != ADL_ERR_NOT_SUPPORTED)) // exception allowed only here
{
2016-10-11 08:55:02 +00:00
event_log_error (hashcat_ctx, "ADL_Overdrive6_FanSpeed_Get(): %d", ADL_rc);
return -1;
}
return 0;
}
static int hm_ADL_Overdrive5_FanSpeed_Set (hashcat_ctx_t *hashcat_ctx, int iAdapterIndex, int iThermalControllerIndex, ADLFanSpeedValue *lpFanSpeedValue)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
ADL_PTR *adl = hwmon_ctx->hm_adl;
const int ADL_rc = adl->ADL_Overdrive5_FanSpeed_Set (iAdapterIndex, iThermalControllerIndex, lpFanSpeedValue);
if ((ADL_rc != ADL_OK) && (ADL_rc != ADL_ERR_NOT_SUPPORTED)) // exception allowed only here
{
2016-10-11 08:55:02 +00:00
event_log_error (hashcat_ctx, "ADL_Overdrive5_FanSpeed_Set(): %d", ADL_rc);
return -1;
}
return 0;
}
static int hm_ADL_Overdrive6_FanSpeed_Set (hashcat_ctx_t *hashcat_ctx, int iAdapterIndex, ADLOD6FanSpeedValue *lpFanSpeedValue)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
ADL_PTR *adl = hwmon_ctx->hm_adl;
const int ADL_rc = adl->ADL_Overdrive6_FanSpeed_Set (iAdapterIndex, lpFanSpeedValue);
if ((ADL_rc != ADL_OK) && (ADL_rc != ADL_ERR_NOT_SUPPORTED)) // exception allowed only here
{
2016-10-11 08:55:02 +00:00
event_log_error (hashcat_ctx, "ADL_Overdrive6_FanSpeed_Set(): %d", ADL_rc);
return -1;
}
return 0;
}
static int hm_ADL_Overdrive5_FanSpeedToDefault_Set (hashcat_ctx_t *hashcat_ctx, int iAdapterIndex, int iThermalControllerIndex)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
ADL_PTR *adl = hwmon_ctx->hm_adl;
const int ADL_rc = adl->ADL_Overdrive5_FanSpeedToDefault_Set (iAdapterIndex, iThermalControllerIndex);
if ((ADL_rc != ADL_OK) && (ADL_rc != ADL_ERR_NOT_SUPPORTED)) // exception allowed only here
{
2016-10-11 08:55:02 +00:00
event_log_error (hashcat_ctx, "ADL_Overdrive5_FanSpeedToDefault_Set(): %d", ADL_rc);
return -1;
}
return 0;
}
static int hm_ADL_Overdrive_PowerControlInfo_Get (hashcat_ctx_t *hashcat_ctx, int iAdapterIndex, ADLOD6PowerControlInfo *powertune)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
ADL_PTR *adl = hwmon_ctx->hm_adl;
const int ADL_rc = adl->ADL_Overdrive6_PowerControlInfo_Get (iAdapterIndex, powertune);
if (ADL_rc != ADL_OK)
{
2016-10-11 08:55:02 +00:00
event_log_error (hashcat_ctx, "ADL_Overdrive6_PowerControlInfo_Get(): %d", ADL_rc);
return -1;
}
return 0;
}
static int hm_ADL_Overdrive_PowerControl_Get (hashcat_ctx_t *hashcat_ctx, int iAdapterIndex, int *iCurrentValue)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
ADL_PTR *adl = hwmon_ctx->hm_adl;
int default_value = 0;
const int ADL_rc = adl->ADL_Overdrive6_PowerControl_Get (iAdapterIndex, iCurrentValue, &default_value);
if (ADL_rc != ADL_OK)
{
2016-10-11 08:55:02 +00:00
event_log_error (hashcat_ctx, "ADL_Overdrive6_PowerControl_Get(): %d", ADL_rc);
return -1;
}
return 0;
}
static int hm_ADL_Overdrive_PowerControl_Set (hashcat_ctx_t *hashcat_ctx, int iAdapterIndex, int level)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
ADL_PTR *adl = hwmon_ctx->hm_adl;
ADLOD6PowerControlInfo powertune = {0, 0, 0, 0, 0};
const int hm_rc = hm_ADL_Overdrive_PowerControlInfo_Get (hashcat_ctx, iAdapterIndex, &powertune);
if (hm_rc == -1) return -1;
int min = powertune.iMinValue;
int max = powertune.iMaxValue;
int step = powertune.iStepValue;
if (level < min || level > max)
{
2017-04-02 07:50:06 +00:00
event_log_error (hashcat_ctx, "ADL PowerControl level invalid.");
return -1;
}
if (step == 0)
{
2017-04-02 07:50:06 +00:00
event_log_error (hashcat_ctx, "ADL PowerControl step invalid.");
return -1;
}
if (level % step != 0)
{
2017-04-02 07:50:06 +00:00
event_log_error (hashcat_ctx, "ADL PowerControl step invalid.");
return -1;
}
const int ADL_rc = adl->ADL_Overdrive6_PowerControl_Set (iAdapterIndex, level);
if (ADL_rc != ADL_OK)
{
2016-10-11 08:55:02 +00:00
event_log_error (hashcat_ctx, "ADL_Overdrive6_PowerControl_Set(): %d", ADL_rc);
return -1;
}
return 0;
}
static int hm_ADL_Overdrive_Caps (hashcat_ctx_t *hashcat_ctx, int iAdapterIndex, int *od_supported, int *od_enabled, int *od_version)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
ADL_PTR *adl = hwmon_ctx->hm_adl;
const int ADL_rc = adl->ADL_Overdrive_Caps (iAdapterIndex, od_supported, od_enabled, od_version);
if (ADL_rc != ADL_OK)
{
2016-10-11 08:55:02 +00:00
event_log_error (hashcat_ctx, "ADL_Overdrive_Caps(): %d", ADL_rc);
return -1;
}
return 0;
}
static int hm_ADL_Overdrive6_PowerControl_Caps (hashcat_ctx_t *hashcat_ctx, int iAdapterIndex, int *lpSupported)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
ADL_PTR *adl = hwmon_ctx->hm_adl;
const int ADL_rc = adl->ADL_Overdrive6_PowerControl_Caps (iAdapterIndex, lpSupported);
if (ADL_rc != ADL_OK)
{
2016-10-11 08:55:02 +00:00
event_log_error (hashcat_ctx, "ADL_Overdrive6_PowerControl_Caps(): %d", ADL_rc);
return -1;
}
return 0;
}
static int hm_ADL_Overdrive_Capabilities_Get (hashcat_ctx_t *hashcat_ctx, int iAdapterIndex, ADLOD6Capabilities *caps)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
ADL_PTR *adl = hwmon_ctx->hm_adl;
const int ADL_rc = adl->ADL_Overdrive6_Capabilities_Get (iAdapterIndex, caps);
if (ADL_rc != ADL_OK)
{
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event_log_error (hashcat_ctx, "ADL_Overdrive6_Capabilities_Get(): %d", ADL_rc);
return -1;
}
return 0;
}
static int hm_ADL_Overdrive_StateInfo_Get (hashcat_ctx_t *hashcat_ctx, int iAdapterIndex, int type, ADLOD6MemClockState *state)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
ADL_PTR *adl = hwmon_ctx->hm_adl;
const int ADL_rc = adl->ADL_Overdrive6_StateInfo_Get (iAdapterIndex, type, state);
if (ADL_rc == ADL_OK)
{
// check if clocks are okay with step sizes
// if not run a little hack: adjust the clocks to nearest clock size (clock down just a little bit)
ADLOD6Capabilities caps;
const int hm_rc = hm_ADL_Overdrive_Capabilities_Get (hashcat_ctx, iAdapterIndex, &caps);
if (hm_rc == -1) return -1;
if (state->state.aLevels[0].iEngineClock % caps.sEngineClockRange.iStep != 0)
{
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event_log_error (hashcat_ctx, "ADL engine step size invalid for performance level 1.");
//state->state.aLevels[0].iEngineClock -= state->state.aLevels[0].iEngineClock % caps.sEngineClockRange.iStep;
return -1;
}
if (state->state.aLevels[1].iEngineClock % caps.sEngineClockRange.iStep != 0)
{
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event_log_error (hashcat_ctx, "ADL engine step size invalid for performance level 2.");
//state->state.aLevels[1].iEngineClock -= state->state.aLevels[1].iEngineClock % caps.sEngineClockRange.iStep;
return -1;
}
if (state->state.aLevels[0].iMemoryClock % caps.sMemoryClockRange.iStep != 0)
{
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event_log_error (hashcat_ctx, "ADL memory step size invalid for performance level 1.");
//state->state.aLevels[0].iMemoryClock -= state->state.aLevels[0].iMemoryClock % caps.sMemoryClockRange.iStep;
return -1;
}
if (state->state.aLevels[1].iMemoryClock % caps.sMemoryClockRange.iStep != 0)
{
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event_log_error (hashcat_ctx, "ADL memory step size invalid for performance level 2.");
//state->state.aLevels[1].iMemoryClock -= state->state.aLevels[1].iMemoryClock % caps.sMemoryClockRange.iStep;
return -1;
}
}
else
{
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event_log_error (hashcat_ctx, "ADL_Overdrive6_StateInfo_Get(): %d", ADL_rc);
return -1;
}
return 0;
}
static int hm_ADL_Overdrive_State_Set (hashcat_ctx_t *hashcat_ctx, int iAdapterIndex, int type, ADLOD6StateInfo *state)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
ADL_PTR *adl = hwmon_ctx->hm_adl;
// sanity checks
ADLOD6Capabilities caps;
const int hm_rc = hm_ADL_Overdrive_Capabilities_Get (hashcat_ctx, iAdapterIndex, &caps);
if (hm_rc == -1) return -1;
if (state->aLevels[0].iEngineClock < caps.sEngineClockRange.iMin || state->aLevels[1].iEngineClock > caps.sEngineClockRange.iMax)
{
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event_log_error (hashcat_ctx, "ADL engine clock outside valid range.");
return -1;
}
if (state->aLevels[1].iEngineClock % caps.sEngineClockRange.iStep != 0)
{
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event_log_error (hashcat_ctx, "ADL engine step size invalid.");
return -1;
}
if (state->aLevels[0].iMemoryClock < caps.sMemoryClockRange.iMin || state->aLevels[1].iMemoryClock > caps.sMemoryClockRange.iMax)
{
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event_log_error (hashcat_ctx, "ADL memory clock outside valid range.");
return -1;
}
if (state->aLevels[1].iMemoryClock % caps.sMemoryClockRange.iStep != 0)
{
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event_log_error (hashcat_ctx, "ADL memory step size invalid.");
return -1;
}
const int ADL_rc = adl->ADL_Overdrive6_State_Set (iAdapterIndex, type, state);
if (ADL_rc != ADL_OK)
{
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event_log_error (hashcat_ctx, "ADL_Overdrive6_State_Set(): %d", ADL_rc);
return -1;
}
return 0;
}
static int hm_ADL_Overdrive6_TargetTemperatureData_Get (hashcat_ctx_t *hashcat_ctx, int iAdapterIndex, int *cur_temp, int *default_temp)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
ADL_PTR *adl = hwmon_ctx->hm_adl;
const int ADL_rc = adl->ADL_Overdrive6_TargetTemperatureData_Get (iAdapterIndex, cur_temp, default_temp);
if (ADL_rc != ADL_OK)
{
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event_log_error (hashcat_ctx, "ADL_Overdrive6_TargetTemperatureData_Get(): %d", ADL_rc);
return -1;
}
return 0;
}
static int hm_ADL_Overdrive6_FanSpeed_Reset (hashcat_ctx_t *hashcat_ctx, int iAdapterIndex)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
ADL_PTR *adl = hwmon_ctx->hm_adl;
const int ADL_rc = adl->ADL_Overdrive6_FanSpeed_Reset (iAdapterIndex);
if (ADL_rc != ADL_OK)
{
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event_log_error (hashcat_ctx, "ADL_Overdrive6_FanSpeed_Reset(): %d", ADL_rc);
return -1;
}
return 0;
}
// general functions
static int get_adapters_num_adl (hashcat_ctx_t *hashcat_ctx, int *iNumberAdapters)
{
const int hm_rc = hm_ADL_Adapter_NumberOfAdapters_Get (hashcat_ctx, iNumberAdapters);
if (hm_rc == -1) return -1;
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if (iNumberAdapters == NULL)
{
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event_log_error (hashcat_ctx, "No ADL adapters found.");
return -1;
}
return 0;
}
static int hm_get_adapter_index_nvapi (hashcat_ctx_t *hashcat_ctx, HM_ADAPTER_NVAPI *nvapiGPUHandle)
{
NvU32 pGpuCount;
if (hm_NvAPI_EnumPhysicalGPUs (hashcat_ctx, nvapiGPUHandle, &pGpuCount) == -1) return 0;
if (pGpuCount == 0)
{
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event_log_error (hashcat_ctx, "No NvAPI adapters found.");
return 0;
}
return (pGpuCount);
}
static int hm_get_adapter_index_nvml (hashcat_ctx_t *hashcat_ctx, HM_ADAPTER_NVML *nvmlGPUHandle)
{
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unsigned int deviceCount = 0;
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hm_NVML_nvmlDeviceGetCount (hashcat_ctx, &deviceCount);
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if (deviceCount == 0)
{
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event_log_error (hashcat_ctx, "No NVML adapters found.");
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return 0;
}
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for (u32 i = 0; i < deviceCount; i++)
{
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if (hm_NVML_nvmlDeviceGetHandleByIndex (hashcat_ctx, i, &nvmlGPUHandle[i]) == -1) break;
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// can be used to determine if the device by index matches the cuda device by index
// char name[100]; memset (name, 0, sizeof (name));
// hm_NVML_nvmlDeviceGetName (hashcat_ctx, nvGPUHandle[i], name, sizeof (name) - 1);
}
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return (deviceCount);
}
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int hm_get_threshold_slowdown_with_device_id (hashcat_ctx_t *hashcat_ctx, const u32 device_id)
{
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hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
opencl_ctx_t *opencl_ctx = hashcat_ctx->opencl_ctx;
if (hwmon_ctx->enabled == false) return -1;
if (hwmon_ctx->hm_device[device_id].threshold_slowdown_get_supported == false) return -1;
if ((opencl_ctx->devices_param[device_id].device_type & CL_DEVICE_TYPE_GPU) == 0) return -1;
if (opencl_ctx->devices_param[device_id].device_vendor_id == VENDOR_ID_AMD)
{
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if (hwmon_ctx->hm_adl)
{
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if (hwmon_ctx->hm_device[device_id].od_version == 5)
{
}
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else if (hwmon_ctx->hm_device[device_id].od_version == 6)
{
int CurrentValue = 0;
int DefaultValue = 0;
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if (hm_ADL_Overdrive6_TargetTemperatureData_Get (hashcat_ctx, hwmon_ctx->hm_device[device_id].adl, &CurrentValue, &DefaultValue) == -1)
{
hwmon_ctx->hm_device[device_id].threshold_slowdown_get_supported = false;
return -1;
}
// the return value has never been tested since hm_ADL_Overdrive6_TargetTemperatureData_Get() never worked on any system. expect problems.
return DefaultValue;
}
}
}
if (opencl_ctx->devices_param[device_id].device_vendor_id == VENDOR_ID_NV)
{
if (hwmon_ctx->hm_nvml)
{
int target = 0;
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if (hm_NVML_nvmlDeviceGetTemperatureThreshold (hashcat_ctx, hwmon_ctx->hm_device[device_id].nvml, NVML_TEMPERATURE_THRESHOLD_SLOWDOWN, (unsigned int *) &target) == -1)
{
hwmon_ctx->hm_device[device_id].threshold_slowdown_get_supported = false;
return -1;
}
return target;
}
}
hwmon_ctx->hm_device[device_id].threshold_slowdown_get_supported = false;
return -1;
}
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int hm_get_threshold_shutdown_with_device_id (hashcat_ctx_t *hashcat_ctx, const u32 device_id)
{
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hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
opencl_ctx_t *opencl_ctx = hashcat_ctx->opencl_ctx;
if (hwmon_ctx->enabled == false) return -1;
if (hwmon_ctx->hm_device[device_id].threshold_shutdown_get_supported == false) return -1;
if ((opencl_ctx->devices_param[device_id].device_type & CL_DEVICE_TYPE_GPU) == 0) return -1;
if (opencl_ctx->devices_param[device_id].device_vendor_id == VENDOR_ID_AMD)
{
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if (hwmon_ctx->hm_adl)
{
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if (hwmon_ctx->hm_device[device_id].od_version == 5)
{
}
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else if (hwmon_ctx->hm_device[device_id].od_version == 6)
{
}
}
}
if (opencl_ctx->devices_param[device_id].device_vendor_id == VENDOR_ID_NV)
{
if (hwmon_ctx->hm_nvml)
{
int target = 0;
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if (hm_NVML_nvmlDeviceGetTemperatureThreshold (hashcat_ctx, hwmon_ctx->hm_device[device_id].nvml, NVML_TEMPERATURE_THRESHOLD_SHUTDOWN, (unsigned int *) &target) == -1)
{
hwmon_ctx->hm_device[device_id].threshold_shutdown_get_supported = false;
return -1;
}
return target;
}
}
hwmon_ctx->hm_device[device_id].threshold_shutdown_get_supported = false;
return -1;
}
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int hm_get_temperature_with_device_id (hashcat_ctx_t *hashcat_ctx, const u32 device_id)
{
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hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
opencl_ctx_t *opencl_ctx = hashcat_ctx->opencl_ctx;
if (hwmon_ctx->enabled == false) return -1;
if (hwmon_ctx->hm_device[device_id].temperature_get_supported == false) return -1;
if ((opencl_ctx->devices_param[device_id].device_type & CL_DEVICE_TYPE_GPU) == 0) return -1;
if (opencl_ctx->devices_param[device_id].device_vendor_id == VENDOR_ID_AMD)
{
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if (hwmon_ctx->hm_adl)
{
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if (hwmon_ctx->hm_device[device_id].od_version == 5)
{
ADLTemperature Temperature;
Temperature.iSize = sizeof (ADLTemperature);
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if (hm_ADL_Overdrive5_Temperature_Get (hashcat_ctx, hwmon_ctx->hm_device[device_id].adl, 0, &Temperature) == -1)
{
hwmon_ctx->hm_device[device_id].temperature_get_supported = false;
return -1;
}
return Temperature.iTemperature / 1000;
}
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else if (hwmon_ctx->hm_device[device_id].od_version == 6)
{
int Temperature = 0;
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if (hm_ADL_Overdrive6_Temperature_Get (hashcat_ctx, hwmon_ctx->hm_device[device_id].adl, &Temperature) == -1)
{
hwmon_ctx->hm_device[device_id].temperature_get_supported = false;
return -1;
}
return Temperature / 1000;
}
}
if (hwmon_ctx->hm_sysfs)
{
int temperature = 0;
2016-11-21 16:15:55 +00:00
if (hm_SYSFS_get_temperature_current (hashcat_ctx, device_id, &temperature) == -1)
{
hwmon_ctx->hm_device[device_id].temperature_get_supported = false;
return -1;
}
return temperature;
}
}
if (opencl_ctx->devices_param[device_id].device_vendor_id == VENDOR_ID_NV)
{
if (hwmon_ctx->hm_nvml)
{
int temperature = 0;
2016-11-21 16:15:55 +00:00
if (hm_NVML_nvmlDeviceGetTemperature (hashcat_ctx, hwmon_ctx->hm_device[device_id].nvml, NVML_TEMPERATURE_GPU, (u32 *) &temperature) == -1)
{
hwmon_ctx->hm_device[device_id].temperature_get_supported = false;
return -1;
}
return temperature;
}
}
hwmon_ctx->hm_device[device_id].temperature_get_supported = false;
return -1;
}
2016-10-06 09:10:00 +00:00
int hm_get_fanpolicy_with_device_id (hashcat_ctx_t *hashcat_ctx, const u32 device_id)
{
2016-10-06 09:10:00 +00:00
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
opencl_ctx_t *opencl_ctx = hashcat_ctx->opencl_ctx;
if (hwmon_ctx->enabled == false) return -1;
if (hwmon_ctx->hm_device[device_id].fanpolicy_get_supported == false) return -1;
if ((opencl_ctx->devices_param[device_id].device_type & CL_DEVICE_TYPE_GPU) == 0) return -1;
if (opencl_ctx->devices_param[device_id].device_vendor_id == VENDOR_ID_AMD)
{
if (hwmon_ctx->hm_adl)
{
if (hwmon_ctx->hm_device[device_id].od_version == 5)
{
ADLFanSpeedValue lpFanSpeedValue;
memset (&lpFanSpeedValue, 0, sizeof (lpFanSpeedValue));
lpFanSpeedValue.iSize = sizeof (lpFanSpeedValue);
lpFanSpeedValue.iSpeedType = ADL_DL_FANCTRL_SPEED_TYPE_PERCENT;
2016-11-21 16:15:55 +00:00
if (hm_ADL_Overdrive5_FanSpeed_Get (hashcat_ctx, hwmon_ctx->hm_device[device_id].adl, 0, &lpFanSpeedValue) == -1)
{
hwmon_ctx->hm_device[device_id].fanpolicy_get_supported = false;
2016-11-22 16:54:29 +00:00
hwmon_ctx->hm_device[device_id].fanspeed_get_supported = false;
2016-11-21 16:15:55 +00:00
return -1;
}
return (lpFanSpeedValue.iFanSpeed & ADL_DL_FANCTRL_FLAG_USER_DEFINED_SPEED) ? 0 : 1;
}
else // od_version == 6
{
return 1;
}
}
if (hwmon_ctx->hm_sysfs)
{
return 1;
}
}
if (opencl_ctx->devices_param[device_id].device_vendor_id == VENDOR_ID_NV)
{
return 1;
}
hwmon_ctx->hm_device[device_id].fanpolicy_get_supported = false;
2016-11-22 16:54:29 +00:00
hwmon_ctx->hm_device[device_id].fanspeed_get_supported = false;
return -1;
}
2016-10-06 09:10:00 +00:00
int hm_get_fanspeed_with_device_id (hashcat_ctx_t *hashcat_ctx, const u32 device_id)
{
2016-10-06 09:10:00 +00:00
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
opencl_ctx_t *opencl_ctx = hashcat_ctx->opencl_ctx;
if (hwmon_ctx->enabled == false) return -1;
if (hwmon_ctx->hm_device[device_id].fanspeed_get_supported == false) return -1;
if ((opencl_ctx->devices_param[device_id].device_type & CL_DEVICE_TYPE_GPU) == 0) return -1;
if (opencl_ctx->devices_param[device_id].device_vendor_id == VENDOR_ID_AMD)
{
if (hwmon_ctx->hm_adl)
{
if (hwmon_ctx->hm_device[device_id].od_version == 5)
{
ADLFanSpeedValue lpFanSpeedValue;
memset (&lpFanSpeedValue, 0, sizeof (lpFanSpeedValue));
lpFanSpeedValue.iSize = sizeof (lpFanSpeedValue);
lpFanSpeedValue.iSpeedType = ADL_DL_FANCTRL_SPEED_TYPE_PERCENT;
lpFanSpeedValue.iFlags = ADL_DL_FANCTRL_FLAG_USER_DEFINED_SPEED;
2016-11-21 16:15:55 +00:00
if (hm_ADL_Overdrive5_FanSpeed_Get (hashcat_ctx, hwmon_ctx->hm_device[device_id].adl, 0, &lpFanSpeedValue) == -1)
{
hwmon_ctx->hm_device[device_id].fanspeed_get_supported = false;
return -1;
}
return lpFanSpeedValue.iFanSpeed;
}
else // od_version == 6
{
ADLOD6FanSpeedInfo faninfo;
memset (&faninfo, 0, sizeof (faninfo));
2016-11-21 16:15:55 +00:00
if (hm_ADL_Overdrive6_FanSpeed_Get (hashcat_ctx, hwmon_ctx->hm_device[device_id].adl, &faninfo) == -1)
{
hwmon_ctx->hm_device[device_id].fanspeed_get_supported = false;
return -1;
}
return faninfo.iFanSpeedPercent;
}
}
if (hwmon_ctx->hm_sysfs)
{
int speed = 0;
2016-11-21 16:15:55 +00:00
if (hm_SYSFS_get_fan_speed_current (hashcat_ctx, device_id, &speed) == -1)
{
hwmon_ctx->hm_device[device_id].fanspeed_get_supported = false;
return -1;
}
return speed;
}
}
if (opencl_ctx->devices_param[device_id].device_vendor_id == VENDOR_ID_NV)
{
if (hwmon_ctx->hm_nvml)
{
int speed = 0;
2016-11-21 16:15:55 +00:00
if (hm_NVML_nvmlDeviceGetFanSpeed (hashcat_ctx, hwmon_ctx->hm_device[device_id].nvml, (u32 *) &speed) == -1)
{
hwmon_ctx->hm_device[device_id].fanspeed_get_supported = false;
return -1;
}
return speed;
}
}
hwmon_ctx->hm_device[device_id].fanspeed_get_supported = false;
return -1;
}
2016-10-06 09:10:00 +00:00
int hm_get_buslanes_with_device_id (hashcat_ctx_t *hashcat_ctx, const u32 device_id)
{
2016-10-06 09:10:00 +00:00
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
opencl_ctx_t *opencl_ctx = hashcat_ctx->opencl_ctx;
if (hwmon_ctx->enabled == false) return -1;
if (hwmon_ctx->hm_device[device_id].buslanes_get_supported == false) return -1;
if ((opencl_ctx->devices_param[device_id].device_type & CL_DEVICE_TYPE_GPU) == 0) return -1;
if (opencl_ctx->devices_param[device_id].device_vendor_id == VENDOR_ID_AMD)
{
2016-09-28 20:28:44 +00:00
if (hwmon_ctx->hm_adl)
{
ADLPMActivity PMActivity;
PMActivity.iSize = sizeof (ADLPMActivity);
2016-11-21 16:15:55 +00:00
if (hm_ADL_Overdrive_CurrentActivity_Get (hashcat_ctx, hwmon_ctx->hm_device[device_id].adl, &PMActivity) == -1)
{
hwmon_ctx->hm_device[device_id].buslanes_get_supported = false;
return -1;
}
return PMActivity.iCurrentBusLanes;
}
if (hwmon_ctx->hm_sysfs)
{
int lanes;
2016-11-21 16:15:55 +00:00
if (hm_SYSFS_get_pp_dpm_pcie (hashcat_ctx, device_id, &lanes) == -1)
{
hwmon_ctx->hm_device[device_id].buslanes_get_supported = false;
return -1;
}
return lanes;
}
}
if (opencl_ctx->devices_param[device_id].device_vendor_id == VENDOR_ID_NV)
{
if (hwmon_ctx->hm_nvml)
{
unsigned int currLinkWidth;
2016-11-21 16:15:55 +00:00
if (hm_NVML_nvmlDeviceGetCurrPcieLinkWidth (hashcat_ctx, hwmon_ctx->hm_device[device_id].nvml, &currLinkWidth) == -1)
{
hwmon_ctx->hm_device[device_id].buslanes_get_supported = false;
return -1;
}
return currLinkWidth;
}
}
hwmon_ctx->hm_device[device_id].buslanes_get_supported = false;
return -1;
}
2016-10-06 09:10:00 +00:00
int hm_get_utilization_with_device_id (hashcat_ctx_t *hashcat_ctx, const u32 device_id)
{
2016-10-06 09:10:00 +00:00
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
opencl_ctx_t *opencl_ctx = hashcat_ctx->opencl_ctx;
if (hwmon_ctx->enabled == false) return -1;
if (hwmon_ctx->hm_device[device_id].utilization_get_supported == false) return -1;
if ((opencl_ctx->devices_param[device_id].device_type & CL_DEVICE_TYPE_GPU) == 0) return -1;
if (opencl_ctx->devices_param[device_id].device_vendor_id == VENDOR_ID_AMD)
{
2016-09-28 20:28:44 +00:00
if (hwmon_ctx->hm_adl)
{
ADLPMActivity PMActivity;
PMActivity.iSize = sizeof (ADLPMActivity);
2016-11-21 16:15:55 +00:00
if (hm_ADL_Overdrive_CurrentActivity_Get (hashcat_ctx, hwmon_ctx->hm_device[device_id].adl, &PMActivity) == -1)
{
hwmon_ctx->hm_device[device_id].utilization_get_supported = false;
return -1;
}
return PMActivity.iActivityPercent;
}
}
if (opencl_ctx->devices_param[device_id].device_vendor_id == VENDOR_ID_NV)
{
if (hwmon_ctx->hm_nvml)
{
nvmlUtilization_t utilization;
2016-11-21 16:15:55 +00:00
if (hm_NVML_nvmlDeviceGetUtilizationRates (hashcat_ctx, hwmon_ctx->hm_device[device_id].nvml, &utilization) == -1)
{
hwmon_ctx->hm_device[device_id].utilization_get_supported = false;
return -1;
}
return utilization.gpu;
}
}
hwmon_ctx->hm_device[device_id].utilization_get_supported = false;
return -1;
}
2016-10-06 09:10:00 +00:00
int hm_get_memoryspeed_with_device_id (hashcat_ctx_t *hashcat_ctx, const u32 device_id)
{
2016-10-06 09:10:00 +00:00
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
opencl_ctx_t *opencl_ctx = hashcat_ctx->opencl_ctx;
if (hwmon_ctx->enabled == false) return -1;
if (hwmon_ctx->hm_device[device_id].memoryspeed_get_supported == false) return -1;
if ((opencl_ctx->devices_param[device_id].device_type & CL_DEVICE_TYPE_GPU) == 0) return -1;
if (opencl_ctx->devices_param[device_id].device_vendor_id == VENDOR_ID_AMD)
{
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if (hwmon_ctx->hm_adl)
{
ADLPMActivity PMActivity;
PMActivity.iSize = sizeof (ADLPMActivity);
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if (hm_ADL_Overdrive_CurrentActivity_Get (hashcat_ctx, hwmon_ctx->hm_device[device_id].adl, &PMActivity) == -1)
{
hwmon_ctx->hm_device[device_id].memoryspeed_get_supported = false;
return -1;
}
return PMActivity.iMemoryClock / 100;
}
if (hwmon_ctx->hm_sysfs)
{
int clockfreq;
if (hm_SYSFS_get_pp_dpm_mclk (hashcat_ctx, device_id, &clockfreq) == -1)
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{
hwmon_ctx->hm_device[device_id].memoryspeed_get_supported = false;
return -1;
}
return clockfreq;
}
}
if (opencl_ctx->devices_param[device_id].device_vendor_id == VENDOR_ID_NV)
{
if (hwmon_ctx->hm_nvml)
{
unsigned int clockfreq;
if (hm_NVML_nvmlDeviceGetClockInfo (hashcat_ctx, hwmon_ctx->hm_device[device_id].nvml, NVML_CLOCK_MEM, &clockfreq) == -1)
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{
hwmon_ctx->hm_device[device_id].memoryspeed_get_supported = false;
return -1;
}
return clockfreq;
}
}
hwmon_ctx->hm_device[device_id].memoryspeed_get_supported = false;
return -1;
}
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int hm_get_corespeed_with_device_id (hashcat_ctx_t *hashcat_ctx, const u32 device_id)
{
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hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
opencl_ctx_t *opencl_ctx = hashcat_ctx->opencl_ctx;
if (hwmon_ctx->enabled == false) return -1;
if (hwmon_ctx->hm_device[device_id].corespeed_get_supported == false) return -1;
if ((opencl_ctx->devices_param[device_id].device_type & CL_DEVICE_TYPE_GPU) == 0) return -1;
if (opencl_ctx->devices_param[device_id].device_vendor_id == VENDOR_ID_AMD)
{
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if (hwmon_ctx->hm_adl)
{
ADLPMActivity PMActivity;
PMActivity.iSize = sizeof (ADLPMActivity);
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if (hm_ADL_Overdrive_CurrentActivity_Get (hashcat_ctx, hwmon_ctx->hm_device[device_id].adl, &PMActivity) == -1)
{
hwmon_ctx->hm_device[device_id].corespeed_get_supported = false;
return -1;
}
return PMActivity.iEngineClock / 100;
}
if (hwmon_ctx->hm_sysfs)
{
int clockfreq;
if (hm_SYSFS_get_pp_dpm_sclk (hashcat_ctx, device_id, &clockfreq) == -1)
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{
hwmon_ctx->hm_device[device_id].corespeed_get_supported = false;
return -1;
}
return clockfreq;
}
}
if (opencl_ctx->devices_param[device_id].device_vendor_id == VENDOR_ID_NV)
{
if (hwmon_ctx->hm_nvml)
{
unsigned int clockfreq;
if (hm_NVML_nvmlDeviceGetClockInfo (hashcat_ctx, hwmon_ctx->hm_device[device_id].nvml, NVML_CLOCK_SM, &clockfreq) == -1)
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{
hwmon_ctx->hm_device[device_id].corespeed_get_supported = false;
return -1;
}
return clockfreq;
}
}
hwmon_ctx->hm_device[device_id].corespeed_get_supported = false;
return -1;
}
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int hm_get_throttle_with_device_id (hashcat_ctx_t *hashcat_ctx, const u32 device_id)
{
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hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
opencl_ctx_t *opencl_ctx = hashcat_ctx->opencl_ctx;
if (hwmon_ctx->enabled == false) return -1;
if (hwmon_ctx->hm_device[device_id].throttle_get_supported == false) return -1;
if ((opencl_ctx->devices_param[device_id].device_type & CL_DEVICE_TYPE_GPU) == 0) return -1;
if (opencl_ctx->devices_param[device_id].device_vendor_id == VENDOR_ID_AMD)
{
}
if (opencl_ctx->devices_param[device_id].device_vendor_id == VENDOR_ID_NV)
{
if (hwmon_ctx->hm_nvml)
{
/* this is triggered by mask generator, too. therefore useless
unsigned long long clocksThrottleReasons = 0;
unsigned long long supportedThrottleReasons = 0;
if (hm_NVML_nvmlDeviceGetCurrentClocksThrottleReasons (hashcat_ctx, hwmon_ctx->hm_device[device_id].nvml, &clocksThrottleReasons) == -1) return -1;
if (hm_NVML_nvmlDeviceGetSupportedClocksThrottleReasons (hashcat_ctx, hwmon_ctx->hm_device[device_id].nvml, &supportedThrottleReasons) == -1) return -1;
clocksThrottleReasons &= supportedThrottleReasons;
clocksThrottleReasons &= ~nvmlClocksThrottleReasonGpuIdle;
clocksThrottleReasons &= ~nvmlClocksThrottleReasonApplicationsClocksSetting;
clocksThrottleReasons &= ~nvmlClocksThrottleReasonUnknown;
if (opencl_ctx->kernel_power_final)
{
clocksThrottleReasons &= ~nvmlClocksThrottleReasonHwSlowdown;
}
return (clocksThrottleReasons != nvmlClocksThrottleReasonNone);
*/
}
if (hwmon_ctx->hm_nvapi)
{
NV_GPU_PERF_POLICIES_INFO_PARAMS_V1 perfPolicies_info;
NV_GPU_PERF_POLICIES_STATUS_PARAMS_V1 perfPolicies_status;
memset (&perfPolicies_info, 0, sizeof (NV_GPU_PERF_POLICIES_INFO_PARAMS_V1));
memset (&perfPolicies_status, 0, sizeof (NV_GPU_PERF_POLICIES_STATUS_PARAMS_V1));
perfPolicies_info.version = MAKE_NVAPI_VERSION (NV_GPU_PERF_POLICIES_INFO_PARAMS_V1, 1);
perfPolicies_status.version = MAKE_NVAPI_VERSION (NV_GPU_PERF_POLICIES_STATUS_PARAMS_V1, 1);
hm_NvAPI_GPU_GetPerfPoliciesInfo (hashcat_ctx, hwmon_ctx->hm_device[device_id].nvapi, &perfPolicies_info);
perfPolicies_status.info_value = perfPolicies_info.info_value;
hm_NvAPI_GPU_GetPerfPoliciesStatus (hashcat_ctx, hwmon_ctx->hm_device[device_id].nvapi, &perfPolicies_status);
return perfPolicies_status.throttle & 2;
}
}
hwmon_ctx->hm_device[device_id].throttle_get_supported = false;
return -1;
}
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int hm_set_fanspeed_with_device_id_adl (hashcat_ctx_t *hashcat_ctx, const u32 device_id, const int fanspeed, const int fanpolicy)
{
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hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
if (hwmon_ctx->enabled == false) return -1;
if (hwmon_ctx->hm_device[device_id].fanspeed_set_supported == false) return -1;
if (hwmon_ctx->hm_adl)
{
if (fanpolicy == 1)
{
if (hwmon_ctx->hm_device[device_id].od_version == 5)
{
ADLFanSpeedValue lpFanSpeedValue;
memset (&lpFanSpeedValue, 0, sizeof (lpFanSpeedValue));
lpFanSpeedValue.iSize = sizeof (lpFanSpeedValue);
lpFanSpeedValue.iSpeedType = ADL_DL_FANCTRL_SPEED_TYPE_PERCENT;
lpFanSpeedValue.iFlags = ADL_DL_FANCTRL_FLAG_USER_DEFINED_SPEED;
lpFanSpeedValue.iFanSpeed = fanspeed;
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if (hm_ADL_Overdrive5_FanSpeed_Set (hashcat_ctx, hwmon_ctx->hm_device[device_id].adl, 0, &lpFanSpeedValue) == -1)
{
hwmon_ctx->hm_device[device_id].fanspeed_set_supported = false;
return -1;
}
return 0;
}
else // od_version == 6
{
ADLOD6FanSpeedValue fan_speed_value;
memset (&fan_speed_value, 0, sizeof (fan_speed_value));
fan_speed_value.iSpeedType = ADL_OD6_FANSPEED_TYPE_PERCENT;
fan_speed_value.iFanSpeed = fanspeed;
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if (hm_ADL_Overdrive6_FanSpeed_Set (hashcat_ctx, hwmon_ctx->hm_device[device_id].adl, &fan_speed_value) == -1)
{
hwmon_ctx->hm_device[device_id].fanspeed_set_supported = false;
return -1;
}
return 0;
}
}
else
{
if (hwmon_ctx->hm_device[device_id].od_version == 5)
{
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if (hm_ADL_Overdrive5_FanSpeedToDefault_Set (hashcat_ctx, hwmon_ctx->hm_device[device_id].adl, 0) == -1)
{
hwmon_ctx->hm_device[device_id].fanspeed_set_supported = false;
return -1;
}
return 0;
}
else // od_version == 6
{
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if (hm_ADL_Overdrive6_FanSpeed_Reset (hashcat_ctx, hwmon_ctx->hm_device[device_id].adl) == -1)
{
hwmon_ctx->hm_device[device_id].fanspeed_set_supported = false;
return -1;
}
return 0;
}
}
}
hwmon_ctx->hm_device[device_id].fanspeed_set_supported = false;
return -1;
}
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int hm_set_fanspeed_with_device_id_nvapi (hashcat_ctx_t *hashcat_ctx, const u32 device_id, const int fanspeed, const int fanpolicy)
{
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hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
if (hwmon_ctx->enabled == false) return -1;
if (hwmon_ctx->hm_device[device_id].fanspeed_set_supported == false) return -1;
if (hwmon_ctx->hm_nvapi)
{
if (fanpolicy == 1)
{
NV_GPU_COOLER_LEVELS CoolerLevels;
memset (&CoolerLevels, 0, sizeof (NV_GPU_COOLER_LEVELS));
CoolerLevels.Version = GPU_COOLER_LEVELS_VER | sizeof (NV_GPU_COOLER_LEVELS);
CoolerLevels.Levels[0].Level = fanspeed;
CoolerLevels.Levels[0].Policy = 1;
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if (hm_NvAPI_GPU_SetCoolerLevels (hashcat_ctx, hwmon_ctx->hm_device[device_id].nvapi, 0, &CoolerLevels) == -1)
{
hwmon_ctx->hm_device[device_id].fanspeed_set_supported = false;
return -1;
}
return 0;
}
else
{
NV_GPU_COOLER_LEVELS CoolerLevels;
memset (&CoolerLevels, 0, sizeof (NV_GPU_COOLER_LEVELS));
CoolerLevels.Version = GPU_COOLER_LEVELS_VER | sizeof (NV_GPU_COOLER_LEVELS);
CoolerLevels.Levels[0].Level = 100;
CoolerLevels.Levels[0].Policy = 0x20;
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if (hm_NvAPI_GPU_SetCoolerLevels (hashcat_ctx, hwmon_ctx->hm_device[device_id].nvapi, 0, &CoolerLevels) == -1)
{
hwmon_ctx->hm_device[device_id].fanspeed_set_supported = false;
return -1;
}
return 0;
}
}
hwmon_ctx->hm_device[device_id].fanspeed_set_supported = false;
return -1;
}
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int hm_set_fanspeed_with_device_id_xnvctrl (hashcat_ctx_t *hashcat_ctx, const u32 device_id, const int fanspeed)
{
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hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
if (hwmon_ctx->enabled == false) return -1;
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if (hwmon_ctx->hm_device[device_id].fanspeed_set_supported == false) return -1;
if (hwmon_ctx->hm_xnvctrl)
{
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if (hm_XNVCTRL_set_fan_speed_target (hashcat_ctx, hwmon_ctx->hm_device[device_id].xnvctrl, fanspeed) == -1)
{
hwmon_ctx->hm_device[device_id].fanspeed_set_supported = false;
return -1;
}
return 0;
}
hwmon_ctx->hm_device[device_id].fanspeed_set_supported = false;
return -1;
}
int hm_set_fanspeed_with_device_id_sysfs (hashcat_ctx_t *hashcat_ctx, const u32 device_id, const int fanspeed)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
if (hwmon_ctx->enabled == false) return -1;
if (hwmon_ctx->hm_device[device_id].fanspeed_set_supported == false) return -1;
if (hwmon_ctx->hm_sysfs)
{
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if (hm_SYSFS_set_fan_speed_target (hashcat_ctx, device_id, fanspeed) == -1)
{
hwmon_ctx->hm_device[device_id].fanspeed_set_supported = false;
return -1;
}
return 0;
}
hwmon_ctx->hm_device[device_id].fanspeed_set_supported = false;
return -1;
}
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static int hm_set_fanctrl_with_device_id_xnvctrl (hashcat_ctx_t *hashcat_ctx, const u32 device_id, const int val)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
if (hwmon_ctx->enabled == false) return -1;
if (hwmon_ctx->hm_device[device_id].fanpolicy_set_supported == false) return -1;
if (hwmon_ctx->hm_xnvctrl)
{
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if (hm_XNVCTRL_set_fan_control (hashcat_ctx, hwmon_ctx->hm_device[device_id].xnvctrl, val) == -1)
{
hwmon_ctx->hm_device[device_id].fanpolicy_set_supported = false;
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hwmon_ctx->hm_device[device_id].fanspeed_set_supported = false;
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return -1;
}
return 0;
}
hwmon_ctx->hm_device[device_id].fanpolicy_set_supported = false;
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hwmon_ctx->hm_device[device_id].fanspeed_set_supported = false;
return -1;
}
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static int hm_set_fanctrl_with_device_id_sysfs (hashcat_ctx_t *hashcat_ctx, const u32 device_id, const int val)
{
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
if (hwmon_ctx->enabled == false) return -1;
if (hwmon_ctx->hm_device[device_id].fanpolicy_set_supported == false) return -1;
if (hwmon_ctx->hm_sysfs)
{
2016-11-21 16:15:55 +00:00
if (hm_SYSFS_set_fan_control (hashcat_ctx, device_id, val) == -1)
{
hwmon_ctx->hm_device[device_id].fanpolicy_set_supported = false;
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hwmon_ctx->hm_device[device_id].fanspeed_set_supported = false;
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return -1;
}
return 0;
}
hwmon_ctx->hm_device[device_id].fanpolicy_set_supported = false;
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hwmon_ctx->hm_device[device_id].fanspeed_set_supported = false;
return -1;
}
2016-10-06 09:10:00 +00:00
int hwmon_ctx_init (hashcat_ctx_t *hashcat_ctx)
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{
2016-10-06 09:10:00 +00:00
hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
opencl_ctx_t *opencl_ctx = hashcat_ctx->opencl_ctx;
user_options_t *user_options = hashcat_ctx->user_options;
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hwmon_ctx->enabled = false;
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if (user_options->keyspace == true) return 0;
if (user_options->left == true) return 0;
if (user_options->opencl_info == true) return 0;
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if (user_options->show == true) return 0;
if (user_options->stdout_flag == true) return 0;
if (user_options->usage == true) return 0;
if (user_options->version == true) return 0;
if (user_options->gpu_temp_disable == true) return 0;
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hwmon_ctx->hm_device = (hm_attrs_t *) hccalloc (DEVICES_MAX, sizeof (hm_attrs_t));
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2016-09-28 20:28:44 +00:00
/**
* Initialize shared libraries
*/
hm_attrs_t *hm_adapters_adl = (hm_attrs_t *) hccalloc (DEVICES_MAX, sizeof (hm_attrs_t));
hm_attrs_t *hm_adapters_nvapi = (hm_attrs_t *) hccalloc (DEVICES_MAX, sizeof (hm_attrs_t));
hm_attrs_t *hm_adapters_nvml = (hm_attrs_t *) hccalloc (DEVICES_MAX, sizeof (hm_attrs_t));
hm_attrs_t *hm_adapters_xnvctrl = (hm_attrs_t *) hccalloc (DEVICES_MAX, sizeof (hm_attrs_t));
hm_attrs_t *hm_adapters_sysfs = (hm_attrs_t *) hccalloc (DEVICES_MAX, sizeof (hm_attrs_t));
#define FREE_ADAPTERS \
{ \
hcfree (hm_adapters_adl); \
hcfree (hm_adapters_nvapi); \
hcfree (hm_adapters_nvml); \
hcfree (hm_adapters_xnvctrl); \
hcfree (hm_adapters_sysfs); \
}
if (opencl_ctx->need_nvml == true)
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{
hwmon_ctx->hm_nvml = (NVML_PTR *) hcmalloc (sizeof (NVML_PTR));
if (nvml_init (hashcat_ctx) == -1)
{
hcfree (hwmon_ctx->hm_nvml);
hwmon_ctx->hm_nvml = NULL;
}
}
if ((opencl_ctx->need_nvapi == true) && (hwmon_ctx->hm_nvml)) // nvapi can't work alone, we need nvml, too
{
hwmon_ctx->hm_nvapi = (NVAPI_PTR *) hcmalloc (sizeof (NVAPI_PTR));
if (nvapi_init (hashcat_ctx) == -1)
{
hcfree (hwmon_ctx->hm_nvapi);
hwmon_ctx->hm_nvapi = NULL;
}
}
if ((opencl_ctx->need_xnvctrl == true) && (hwmon_ctx->hm_nvml)) // xnvctrl can't work alone, we need nvml, too
{
hwmon_ctx->hm_xnvctrl = (XNVCTRL_PTR *) hcmalloc (sizeof (XNVCTRL_PTR));
if (xnvctrl_init (hashcat_ctx) == -1)
{
hcfree (hwmon_ctx->hm_xnvctrl);
hwmon_ctx->hm_xnvctrl = NULL;
}
}
if (opencl_ctx->need_adl == true)
{
hwmon_ctx->hm_adl = (ADL_PTR *) hcmalloc (sizeof (ADL_PTR));
if (adl_init (hashcat_ctx) == -1)
{
hcfree (hwmon_ctx->hm_adl);
hwmon_ctx->hm_adl = NULL;
}
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}
if (opencl_ctx->need_sysfs == true)
{
hwmon_ctx->hm_sysfs = (SYSFS_PTR *) hcmalloc (sizeof (SYSFS_PTR));
if (sysfs_init (hashcat_ctx) == false)
{
hcfree (hwmon_ctx->hm_sysfs);
hwmon_ctx->hm_sysfs = NULL;
}
// also if there's ADL, we don't need sysfs
if (hwmon_ctx->hm_adl)
{
hcfree (hwmon_ctx->hm_sysfs);
hwmon_ctx->hm_sysfs = NULL;
}
}
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if (hwmon_ctx->hm_nvml)
{
if (hm_NVML_nvmlInit (hashcat_ctx) == 0)
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{
HM_ADAPTER_NVML *nvmlGPUHandle = (HM_ADAPTER_NVML *) hccalloc (DEVICES_MAX, sizeof (HM_ADAPTER_NVML));
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int tmp_in = hm_get_adapter_index_nvml (hashcat_ctx, nvmlGPUHandle);
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for (u32 device_id = 0; device_id < opencl_ctx->devices_cnt; device_id++)
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{
hc_device_param_t *device_param = &opencl_ctx->devices_param[device_id];
if (device_param->skipped == true) continue;
if ((device_param->device_type & CL_DEVICE_TYPE_GPU) == 0) continue;
if (device_param->device_vendor_id != VENDOR_ID_NV) continue;
for (int i = 0; i < tmp_in; i++)
{
nvmlPciInfo_t pci;
int rc = hm_NVML_nvmlDeviceGetPciInfo (hashcat_ctx, nvmlGPUHandle[i], &pci);
if (rc == -1) continue;
if ((device_param->pcie_bus == pci.bus)
&& (device_param->pcie_device == (pci.device >> 3))
&& (device_param->pcie_function == (pci.device & 7)))
{
const u32 platform_devices_id = device_param->platform_devices_id;
hm_adapters_nvml[platform_devices_id].nvml = nvmlGPUHandle[i];
hm_adapters_nvml[platform_devices_id].buslanes_get_supported = true;
hm_adapters_nvml[platform_devices_id].corespeed_get_supported = true;
hm_adapters_nvml[platform_devices_id].fanspeed_get_supported = true;
hm_adapters_nvml[platform_devices_id].memoryspeed_get_supported = true;
hm_adapters_nvml[platform_devices_id].temperature_get_supported = true;
hm_adapters_nvml[platform_devices_id].threshold_shutdown_get_supported = true;
hm_adapters_nvml[platform_devices_id].threshold_slowdown_get_supported = true;
hm_adapters_nvml[platform_devices_id].utilization_get_supported = true;
}
}
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}
hcfree (nvmlGPUHandle);
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}
}
if (hwmon_ctx->hm_nvapi)
{
if (hm_NvAPI_Initialize (hashcat_ctx) == 0)
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{
HM_ADAPTER_NVAPI *nvGPUHandle = (HM_ADAPTER_NVAPI *) hccalloc (NVAPI_MAX_PHYSICAL_GPUS, sizeof (HM_ADAPTER_NVAPI));
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int tmp_in = hm_get_adapter_index_nvapi (hashcat_ctx, nvGPUHandle);
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for (u32 device_id = 0; device_id < opencl_ctx->devices_cnt; device_id++)
2016-09-28 20:28:44 +00:00
{
hc_device_param_t *device_param = &opencl_ctx->devices_param[device_id];
if (device_param->skipped == true) continue;
if ((device_param->device_type & CL_DEVICE_TYPE_GPU) == 0) continue;
if (device_param->device_vendor_id != VENDOR_ID_NV) continue;
for (int i = 0; i < tmp_in; i++)
{
NvU32 BusId = 0;
NvU32 BusSlotId = 0;
int rc1 = hm_NvAPI_GPU_GetBusId (hashcat_ctx, nvGPUHandle[i], &BusId);
if (rc1 == -1) continue;
int rc2 = hm_NvAPI_GPU_GetBusSlotId (hashcat_ctx, nvGPUHandle[i], &BusSlotId);
if (rc2 == -1) continue;
if ((device_param->pcie_bus == BusId)
&& (device_param->pcie_device == (BusSlotId >> 3))
&& (device_param->pcie_function == (BusSlotId & 7)))
{
const u32 platform_devices_id = device_param->platform_devices_id;
hm_adapters_nvapi[platform_devices_id].nvapi = nvGPUHandle[i];
hm_adapters_nvapi[platform_devices_id].fanspeed_set_supported = true;
hm_adapters_nvapi[platform_devices_id].fanpolicy_get_supported = true;
hm_adapters_nvapi[platform_devices_id].fanpolicy_set_supported = true;
hm_adapters_nvapi[platform_devices_id].throttle_get_supported = true;
}
}
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}
hcfree (nvGPUHandle);
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}
}
if (hwmon_ctx->hm_xnvctrl)
{
if (hm_XNVCTRL_XOpenDisplay (hashcat_ctx) == 0)
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{
int tmp_in = 0;
hm_XNVCTRL_query_target_count (hashcat_ctx, &tmp_in);
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for (u32 device_id = 0; device_id < opencl_ctx->devices_cnt; device_id++)
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{
hc_device_param_t *device_param = &opencl_ctx->devices_param[device_id];
if ((device_param->device_type & CL_DEVICE_TYPE_GPU) == 0) continue;
if (device_param->device_vendor_id != VENDOR_ID_NV) continue;
for (int i = 0; i < tmp_in; i++)
{
int pci_bus = 0;
int pci_device = 0;
int pci_function = 0;
const int rc1 = hm_XNVCTRL_get_pci_bus (hashcat_ctx, i, &pci_bus);
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if (rc1 == -1) continue;
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const int rc2 = hm_XNVCTRL_get_pci_device (hashcat_ctx, i, &pci_device);
if (rc2 == -1) continue;
const int rc3 = hm_XNVCTRL_get_pci_function (hashcat_ctx, i, &pci_function);
if (rc3 == -1) continue;
if ((device_param->pcie_bus == pci_bus)
&& (device_param->pcie_device == pci_device)
&& (device_param->pcie_function == pci_function))
{
const u32 platform_devices_id = device_param->platform_devices_id;
hm_adapters_xnvctrl[platform_devices_id].xnvctrl = i;
hm_adapters_xnvctrl[platform_devices_id].fanspeed_get_supported = true;
hm_adapters_xnvctrl[platform_devices_id].fanspeed_set_supported = true;
hm_adapters_xnvctrl[platform_devices_id].fanpolicy_get_supported = true;
hm_adapters_xnvctrl[platform_devices_id].fanpolicy_set_supported = true;
}
}
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}
}
}
if (hwmon_ctx->hm_adl)
{
if (hm_ADL_Main_Control_Create (hashcat_ctx, ADL_Main_Memory_Alloc, 0) == 0)
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{
// total number of adapters
int tmp_in;
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if (get_adapters_num_adl (hashcat_ctx, &tmp_in) == -1)
{
FREE_ADAPTERS;
return -1;
}
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// adapter info
LPAdapterInfo lpAdapterInfo = (LPAdapterInfo) hccalloc (tmp_in, sizeof (AdapterInfo));
const int rc_adapter_info_adl = hm_ADL_Adapter_AdapterInfo_Get (hashcat_ctx, lpAdapterInfo, tmp_in * sizeof (AdapterInfo));
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if (rc_adapter_info_adl == -1)
{
FREE_ADAPTERS;
return -1;
}
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for (u32 device_id = 0; device_id < opencl_ctx->devices_cnt; device_id++)
{
hc_device_param_t *device_param = &opencl_ctx->devices_param[device_id];
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if (device_param->skipped == true) continue;
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if ((device_param->device_type & CL_DEVICE_TYPE_GPU) == 0) continue;
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if (device_param->device_vendor_id != VENDOR_ID_AMD) continue;
for (int i = 0; i < tmp_in; i++)
{
if ((device_param->pcie_bus == lpAdapterInfo[i].iBusNumber)
&& (device_param->pcie_device == (lpAdapterInfo[i].iDeviceNumber >> 3))
&& (device_param->pcie_function == (lpAdapterInfo[i].iDeviceNumber & 7)))
{
const u32 platform_devices_id = device_param->platform_devices_id;
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int od_supported = 0;
int od_enabled = 0;
int od_version = 0;
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hm_ADL_Overdrive_Caps (hashcat_ctx, lpAdapterInfo[i].iAdapterIndex, &od_supported, &od_enabled, &od_version);
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hm_adapters_adl[platform_devices_id].od_version = od_version;
hm_adapters_adl[platform_devices_id].adl = lpAdapterInfo[i].iAdapterIndex;
hm_adapters_adl[platform_devices_id].buslanes_get_supported = true;
hm_adapters_adl[platform_devices_id].corespeed_get_supported = true;
hm_adapters_adl[platform_devices_id].fanspeed_get_supported = true;
hm_adapters_adl[platform_devices_id].fanspeed_set_supported = true;
hm_adapters_adl[platform_devices_id].fanpolicy_get_supported = true;
hm_adapters_adl[platform_devices_id].fanpolicy_set_supported = true;
hm_adapters_adl[platform_devices_id].memoryspeed_get_supported = true;
hm_adapters_adl[platform_devices_id].temperature_get_supported = true;
hm_adapters_adl[platform_devices_id].threshold_slowdown_get_supported = true;
hm_adapters_adl[platform_devices_id].utilization_get_supported = true;
}
}
}
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hcfree (lpAdapterInfo);
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}
}
if (hwmon_ctx->hm_sysfs)
{
if (1)
{
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int hm_adapters_id = 0;
for (u32 device_id = 0; device_id < opencl_ctx->devices_cnt; device_id++)
{
hc_device_param_t *device_param = &opencl_ctx->devices_param[device_id];
if ((device_param->device_type & CL_DEVICE_TYPE_GPU) == 0) continue;
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hm_adapters_sysfs[hm_adapters_id].sysfs = device_id;
hm_adapters_sysfs[hm_adapters_id].buslanes_get_supported = true;
hm_adapters_sysfs[hm_adapters_id].corespeed_get_supported = true;
hm_adapters_sysfs[hm_adapters_id].fanspeed_get_supported = true;
hm_adapters_sysfs[hm_adapters_id].fanspeed_set_supported = true;
hm_adapters_sysfs[hm_adapters_id].fanpolicy_get_supported = true;
hm_adapters_sysfs[hm_adapters_id].fanpolicy_set_supported = true;
hm_adapters_sysfs[hm_adapters_id].memoryspeed_get_supported = true;
hm_adapters_sysfs[hm_adapters_id].temperature_get_supported = true;
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hm_adapters_id++;
}
}
}
if (hwmon_ctx->hm_adl == NULL && hwmon_ctx->hm_nvml == NULL && hwmon_ctx->hm_xnvctrl == NULL && hwmon_ctx->hm_sysfs == NULL)
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{
FREE_ADAPTERS;
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return 0;
}
/**
* looks like we have some manageable device
*/
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hwmon_ctx->enabled = true;
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/**
* save buffer required for later restores
*/
hwmon_ctx->od_clock_mem_status = (ADLOD6MemClockState *) hccalloc (opencl_ctx->devices_cnt, sizeof (ADLOD6MemClockState));
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hwmon_ctx->od_power_control_status = (int *) hccalloc (opencl_ctx->devices_cnt, sizeof (int));
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hwmon_ctx->nvml_power_limit = (unsigned int *) hccalloc (opencl_ctx->devices_cnt, sizeof (unsigned int));
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/**
* HM devices: copy
*/
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for (u32 device_id = 0; device_id < opencl_ctx->devices_cnt; device_id++)
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{
hc_device_param_t *device_param = &opencl_ctx->devices_param[device_id];
if (device_param->skipped == true) continue;
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if ((device_param->device_type & CL_DEVICE_TYPE_GPU) == 0) continue;
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const u32 platform_devices_id = device_param->platform_devices_id;
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if (device_param->device_vendor_id == VENDOR_ID_AMD)
{
hwmon_ctx->hm_device[device_id].adl = hm_adapters_adl[platform_devices_id].adl;
hwmon_ctx->hm_device[device_id].sysfs = hm_adapters_sysfs[platform_devices_id].sysfs;
hwmon_ctx->hm_device[device_id].nvapi = 0;
hwmon_ctx->hm_device[device_id].nvml = 0;
hwmon_ctx->hm_device[device_id].xnvctrl = 0;
hwmon_ctx->hm_device[device_id].od_version = 0;
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if (hwmon_ctx->hm_adl)
{
hwmon_ctx->hm_device[device_id].od_version = hm_adapters_adl[platform_devices_id].od_version;
hwmon_ctx->hm_device[device_id].buslanes_get_supported |= hm_adapters_adl[platform_devices_id].buslanes_get_supported;
hwmon_ctx->hm_device[device_id].corespeed_get_supported |= hm_adapters_adl[platform_devices_id].corespeed_get_supported;
hwmon_ctx->hm_device[device_id].fanspeed_get_supported |= hm_adapters_adl[platform_devices_id].fanspeed_get_supported;
hwmon_ctx->hm_device[device_id].fanspeed_set_supported |= hm_adapters_adl[platform_devices_id].fanspeed_set_supported;
hwmon_ctx->hm_device[device_id].fanpolicy_get_supported |= hm_adapters_adl[platform_devices_id].fanpolicy_get_supported;
hwmon_ctx->hm_device[device_id].fanpolicy_set_supported |= hm_adapters_adl[platform_devices_id].fanpolicy_set_supported;
hwmon_ctx->hm_device[device_id].memoryspeed_get_supported |= hm_adapters_adl[platform_devices_id].memoryspeed_get_supported;
hwmon_ctx->hm_device[device_id].temperature_get_supported |= hm_adapters_adl[platform_devices_id].temperature_get_supported;
hwmon_ctx->hm_device[device_id].threshold_shutdown_get_supported |= hm_adapters_adl[platform_devices_id].threshold_shutdown_get_supported;
hwmon_ctx->hm_device[device_id].threshold_slowdown_get_supported |= hm_adapters_adl[platform_devices_id].threshold_slowdown_get_supported;
hwmon_ctx->hm_device[device_id].throttle_get_supported |= hm_adapters_adl[platform_devices_id].throttle_get_supported;
hwmon_ctx->hm_device[device_id].utilization_get_supported |= hm_adapters_adl[platform_devices_id].utilization_get_supported;
}
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if (hwmon_ctx->hm_sysfs)
{
hwmon_ctx->hm_device[device_id].buslanes_get_supported |= hm_adapters_sysfs[platform_devices_id].buslanes_get_supported;
hwmon_ctx->hm_device[device_id].corespeed_get_supported |= hm_adapters_sysfs[platform_devices_id].corespeed_get_supported;
hwmon_ctx->hm_device[device_id].fanspeed_get_supported |= hm_adapters_sysfs[platform_devices_id].fanspeed_get_supported;
hwmon_ctx->hm_device[device_id].fanspeed_set_supported |= hm_adapters_sysfs[platform_devices_id].fanspeed_set_supported;
hwmon_ctx->hm_device[device_id].fanpolicy_get_supported |= hm_adapters_sysfs[platform_devices_id].fanpolicy_get_supported;
hwmon_ctx->hm_device[device_id].fanpolicy_set_supported |= hm_adapters_sysfs[platform_devices_id].fanpolicy_set_supported;
hwmon_ctx->hm_device[device_id].memoryspeed_get_supported |= hm_adapters_sysfs[platform_devices_id].memoryspeed_get_supported;
hwmon_ctx->hm_device[device_id].temperature_get_supported |= hm_adapters_sysfs[platform_devices_id].temperature_get_supported;
hwmon_ctx->hm_device[device_id].threshold_shutdown_get_supported |= hm_adapters_sysfs[platform_devices_id].threshold_shutdown_get_supported;
hwmon_ctx->hm_device[device_id].threshold_slowdown_get_supported |= hm_adapters_sysfs[platform_devices_id].threshold_slowdown_get_supported;
hwmon_ctx->hm_device[device_id].throttle_get_supported |= hm_adapters_sysfs[platform_devices_id].throttle_get_supported;
hwmon_ctx->hm_device[device_id].utilization_get_supported |= hm_adapters_sysfs[platform_devices_id].utilization_get_supported;
}
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}
if (device_param->device_vendor_id == VENDOR_ID_NV)
{
hwmon_ctx->hm_device[device_id].adl = 0;
hwmon_ctx->hm_device[device_id].sysfs = 0;
hwmon_ctx->hm_device[device_id].nvapi = hm_adapters_nvapi[platform_devices_id].nvapi;
hwmon_ctx->hm_device[device_id].nvml = hm_adapters_nvml[platform_devices_id].nvml;
hwmon_ctx->hm_device[device_id].xnvctrl = hm_adapters_xnvctrl[platform_devices_id].xnvctrl;
hwmon_ctx->hm_device[device_id].od_version = 0;
if (hwmon_ctx->hm_nvml)
{
hwmon_ctx->hm_device[device_id].buslanes_get_supported |= hm_adapters_nvml[platform_devices_id].buslanes_get_supported;
hwmon_ctx->hm_device[device_id].corespeed_get_supported |= hm_adapters_nvml[platform_devices_id].corespeed_get_supported;
hwmon_ctx->hm_device[device_id].fanspeed_get_supported |= hm_adapters_nvml[platform_devices_id].fanspeed_get_supported;
hwmon_ctx->hm_device[device_id].fanspeed_set_supported |= hm_adapters_nvml[platform_devices_id].fanspeed_set_supported;
hwmon_ctx->hm_device[device_id].fanpolicy_get_supported |= hm_adapters_nvml[platform_devices_id].fanpolicy_get_supported;
hwmon_ctx->hm_device[device_id].fanpolicy_set_supported |= hm_adapters_nvml[platform_devices_id].fanpolicy_set_supported;
hwmon_ctx->hm_device[device_id].memoryspeed_get_supported |= hm_adapters_nvml[platform_devices_id].memoryspeed_get_supported;
hwmon_ctx->hm_device[device_id].temperature_get_supported |= hm_adapters_nvml[platform_devices_id].temperature_get_supported;
hwmon_ctx->hm_device[device_id].threshold_shutdown_get_supported |= hm_adapters_nvml[platform_devices_id].threshold_shutdown_get_supported;
hwmon_ctx->hm_device[device_id].threshold_slowdown_get_supported |= hm_adapters_nvml[platform_devices_id].threshold_slowdown_get_supported;
hwmon_ctx->hm_device[device_id].throttle_get_supported |= hm_adapters_nvml[platform_devices_id].throttle_get_supported;
hwmon_ctx->hm_device[device_id].utilization_get_supported |= hm_adapters_nvml[platform_devices_id].utilization_get_supported;
}
if (hwmon_ctx->hm_nvapi)
{
hwmon_ctx->hm_device[device_id].buslanes_get_supported |= hm_adapters_nvapi[platform_devices_id].buslanes_get_supported;
hwmon_ctx->hm_device[device_id].corespeed_get_supported |= hm_adapters_nvapi[platform_devices_id].corespeed_get_supported;
hwmon_ctx->hm_device[device_id].fanspeed_get_supported |= hm_adapters_nvapi[platform_devices_id].fanspeed_get_supported;
hwmon_ctx->hm_device[device_id].fanspeed_set_supported |= hm_adapters_nvapi[platform_devices_id].fanspeed_set_supported;
hwmon_ctx->hm_device[device_id].fanpolicy_get_supported |= hm_adapters_nvapi[platform_devices_id].fanpolicy_get_supported;
hwmon_ctx->hm_device[device_id].fanpolicy_set_supported |= hm_adapters_nvapi[platform_devices_id].fanpolicy_set_supported;
hwmon_ctx->hm_device[device_id].memoryspeed_get_supported |= hm_adapters_nvapi[platform_devices_id].memoryspeed_get_supported;
hwmon_ctx->hm_device[device_id].temperature_get_supported |= hm_adapters_nvapi[platform_devices_id].temperature_get_supported;
hwmon_ctx->hm_device[device_id].threshold_shutdown_get_supported |= hm_adapters_nvapi[platform_devices_id].threshold_shutdown_get_supported;
hwmon_ctx->hm_device[device_id].threshold_slowdown_get_supported |= hm_adapters_nvapi[platform_devices_id].threshold_slowdown_get_supported;
hwmon_ctx->hm_device[device_id].throttle_get_supported |= hm_adapters_nvapi[platform_devices_id].throttle_get_supported;
hwmon_ctx->hm_device[device_id].utilization_get_supported |= hm_adapters_nvapi[platform_devices_id].utilization_get_supported;
}
if (hwmon_ctx->hm_xnvctrl)
{
hwmon_ctx->hm_device[device_id].buslanes_get_supported |= hm_adapters_xnvctrl[platform_devices_id].buslanes_get_supported;
hwmon_ctx->hm_device[device_id].corespeed_get_supported |= hm_adapters_xnvctrl[platform_devices_id].corespeed_get_supported;
hwmon_ctx->hm_device[device_id].fanspeed_get_supported |= hm_adapters_xnvctrl[platform_devices_id].fanspeed_get_supported;
hwmon_ctx->hm_device[device_id].fanspeed_set_supported |= hm_adapters_xnvctrl[platform_devices_id].fanspeed_set_supported;
hwmon_ctx->hm_device[device_id].fanpolicy_get_supported |= hm_adapters_xnvctrl[platform_devices_id].fanpolicy_get_supported;
hwmon_ctx->hm_device[device_id].fanpolicy_set_supported |= hm_adapters_xnvctrl[platform_devices_id].fanpolicy_set_supported;
hwmon_ctx->hm_device[device_id].memoryspeed_get_supported |= hm_adapters_xnvctrl[platform_devices_id].memoryspeed_get_supported;
hwmon_ctx->hm_device[device_id].temperature_get_supported |= hm_adapters_xnvctrl[platform_devices_id].temperature_get_supported;
hwmon_ctx->hm_device[device_id].threshold_shutdown_get_supported |= hm_adapters_xnvctrl[platform_devices_id].threshold_shutdown_get_supported;
hwmon_ctx->hm_device[device_id].threshold_slowdown_get_supported |= hm_adapters_xnvctrl[platform_devices_id].threshold_slowdown_get_supported;
hwmon_ctx->hm_device[device_id].throttle_get_supported |= hm_adapters_xnvctrl[platform_devices_id].throttle_get_supported;
hwmon_ctx->hm_device[device_id].utilization_get_supported |= hm_adapters_xnvctrl[platform_devices_id].utilization_get_supported;
}
2016-09-28 20:28:44 +00:00
}
// by calling the different functions here this will disable them in case they will error out
// this will also reduce the error itself printed to the user to a single print on startup
hm_get_buslanes_with_device_id (hashcat_ctx, device_id);
hm_get_corespeed_with_device_id (hashcat_ctx, device_id);
hm_get_fanpolicy_with_device_id (hashcat_ctx, device_id);
hm_get_fanspeed_with_device_id (hashcat_ctx, device_id);
hm_get_memoryspeed_with_device_id (hashcat_ctx, device_id);
hm_get_temperature_with_device_id (hashcat_ctx, device_id);
hm_get_threshold_shutdown_with_device_id (hashcat_ctx, device_id);
hm_get_threshold_slowdown_with_device_id (hashcat_ctx, device_id);
hm_get_throttle_with_device_id (hashcat_ctx, device_id);
hm_get_utilization_with_device_id (hashcat_ctx, device_id);
2016-09-28 20:28:44 +00:00
}
FREE_ADAPTERS;
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/**
* powertune on user request
*/
if (user_options->powertune_enable == true)
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{
for (u32 device_id = 0; device_id < opencl_ctx->devices_cnt; device_id++)
{
hc_device_param_t *device_param = &opencl_ctx->devices_param[device_id];
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if (device_param->skipped == true) continue;
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2016-11-14 12:05:40 +00:00
if ((opencl_ctx->devices_param[device_id].device_type & CL_DEVICE_TYPE_GPU) == 0) continue;
if (opencl_ctx->devices_param[device_id].device_vendor_id == VENDOR_ID_AMD)
2016-09-28 20:28:44 +00:00
{
if (hwmon_ctx->hm_adl)
{
/**
* Temporary fix:
* with AMD r9 295x cards it seems that we need to set the powertune value just AFTER the ocl init stuff
* otherwise after hc_clCreateContext () etc, powertune value was set back to "normal" and cards unfortunately
* were not working @ full speed (setting hm_ADL_Overdrive_PowerControl_Set () here seems to fix the problem)
* Driver / ADL bug?
*/
if (hwmon_ctx->hm_device[device_id].od_version == 6)
{
int ADL_rc;
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// check powertune capabilities first, if not available then skip device
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int powertune_supported = 0;
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ADL_rc = hm_ADL_Overdrive6_PowerControl_Caps (hashcat_ctx, hwmon_ctx->hm_device[device_id].adl, &powertune_supported);
if (ADL_rc == ADL_ERR)
{
2017-04-02 07:50:06 +00:00
event_log_error (hashcat_ctx, "Failed to get ADL PowerControl capabilities.");
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return -1;
}
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// first backup current value, we will restore it later
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if (powertune_supported != 0)
{
// powercontrol settings
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ADLOD6PowerControlInfo powertune = {0, 0, 0, 0, 0};
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ADL_rc = hm_ADL_Overdrive_PowerControlInfo_Get (hashcat_ctx, hwmon_ctx->hm_device[device_id].adl, &powertune);
if (ADL_rc == ADL_ERR)
{
2017-04-02 07:50:06 +00:00
event_log_error (hashcat_ctx, "Failed to get current ADL PowerControl values.");
return -1;
}
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ADL_rc = hm_ADL_Overdrive_PowerControl_Get (hashcat_ctx, hwmon_ctx->hm_device[device_id].adl, &hwmon_ctx->od_power_control_status[device_id]);
if (ADL_rc == ADL_ERR)
{
2017-04-02 07:50:06 +00:00
event_log_error (hashcat_ctx, "Failed to get current ADL PowerControl values.");
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return -1;
}
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ADL_rc = hm_ADL_Overdrive_PowerControl_Set (hashcat_ctx, hwmon_ctx->hm_device[device_id].adl, powertune.iMaxValue);
if (ADL_rc == ADL_ERR)
{
2017-04-02 07:50:06 +00:00
event_log_error (hashcat_ctx, "Failed to set new ADL PowerControl values.");
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return -1;
}
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// clocks
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memset (&hwmon_ctx->od_clock_mem_status[device_id], 0, sizeof (ADLOD6MemClockState));
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hwmon_ctx->od_clock_mem_status[device_id].state.iNumberOfPerformanceLevels = 2;
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ADL_rc = hm_ADL_Overdrive_StateInfo_Get (hashcat_ctx, hwmon_ctx->hm_device[device_id].adl, ADL_OD6_GETSTATEINFO_CUSTOM_PERFORMANCE, &hwmon_ctx->od_clock_mem_status[device_id]);
if (ADL_rc == ADL_ERR)
{
2017-04-02 07:50:06 +00:00
event_log_error (hashcat_ctx, "Failed to get ADL memory and engine clock frequency.");
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return -1;
}
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// Query capabilities only to see if profiles were not "damaged", if so output a warning but do accept the users profile settings
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ADLOD6Capabilities caps = {0, 0, 0, {0, 0, 0}, {0, 0, 0}, 0, 0};
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ADL_rc = hm_ADL_Overdrive_Capabilities_Get (hashcat_ctx, hwmon_ctx->hm_device[device_id].adl, &caps);
if (ADL_rc == ADL_ERR)
{
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event_log_error (hashcat_ctx, "Failed to get ADL device capabilities.");
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return -1;
}
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int engine_clock_max = (int) (0.6666f * caps.sEngineClockRange.iMax);
int memory_clock_max = (int) (0.6250f * caps.sMemoryClockRange.iMax);
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int warning_trigger_engine = (int) (0.25f * engine_clock_max);
int warning_trigger_memory = (int) (0.25f * memory_clock_max);
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int engine_clock_profile_max = hwmon_ctx->od_clock_mem_status[device_id].state.aLevels[1].iEngineClock;
int memory_clock_profile_max = hwmon_ctx->od_clock_mem_status[device_id].state.aLevels[1].iMemoryClock;
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// warning if profile has too low max values
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if ((engine_clock_max - engine_clock_profile_max) > warning_trigger_engine)
{
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event_log_error (hashcat_ctx, "Custom profile has low maximum engine clock value. Expect reduced performance.");
}
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if ((memory_clock_max - memory_clock_profile_max) > warning_trigger_memory)
{
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event_log_error (hashcat_ctx, "Custom profile has low maximum memory clock value. Expect reduced performance.");
}
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ADLOD6StateInfo *performance_state = (ADLOD6StateInfo*) hccalloc (1, sizeof (ADLOD6StateInfo) + sizeof (ADLOD6PerformanceLevel));
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performance_state->iNumberOfPerformanceLevels = 2;
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performance_state->aLevels[0].iEngineClock = engine_clock_profile_max;
performance_state->aLevels[1].iEngineClock = engine_clock_profile_max;
performance_state->aLevels[0].iMemoryClock = memory_clock_profile_max;
performance_state->aLevels[1].iMemoryClock = memory_clock_profile_max;
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ADL_rc = hm_ADL_Overdrive_State_Set (hashcat_ctx, hwmon_ctx->hm_device[device_id].adl, ADL_OD6_SETSTATE_PERFORMANCE, performance_state);
if (ADL_rc == ADL_ERR)
{
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event_log_error (hashcat_ctx, "Failed to set ADL performance state.");
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return -1;
}
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hcfree (performance_state);
}
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// set powertune value only
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if (powertune_supported != 0)
{
// powertune set
ADLOD6PowerControlInfo powertune = {0, 0, 0, 0, 0};
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ADL_rc = hm_ADL_Overdrive_PowerControlInfo_Get (hashcat_ctx, hwmon_ctx->hm_device[device_id].adl, &powertune);
if (ADL_rc == ADL_ERR)
{
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event_log_error (hashcat_ctx, "Failed to get current ADL PowerControl settings.");
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return -1;
}
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ADL_rc = hm_ADL_Overdrive_PowerControl_Set (hashcat_ctx, hwmon_ctx->hm_device[device_id].adl, powertune.iMaxValue);
if (ADL_rc == ADL_ERR)
{
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event_log_error (hashcat_ctx, "Failed to set new ADL PowerControl values.");
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return -1;
}
}
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}
}
if (hwmon_ctx->hm_sysfs)
{
hm_SYSFS_set_power_dpm_force_performance_level (hashcat_ctx, device_id, "high");
}
}
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if (opencl_ctx->devices_param[device_id].device_vendor_id == VENDOR_ID_NV)
{
// first backup current value, we will restore it later
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unsigned int limit;
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bool powertune_supported = false;
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if (hm_NVML_nvmlDeviceGetPowerManagementLimit (hashcat_ctx, hwmon_ctx->hm_device[device_id].nvml, &limit) == NVML_SUCCESS)
{
powertune_supported = true;
}
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// if backup worked, activate the maximum allowed
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if (powertune_supported == true)
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{
unsigned int minLimit;
unsigned int maxLimit;
if (hm_NVML_nvmlDeviceGetPowerManagementLimitConstraints (hashcat_ctx, hwmon_ctx->hm_device[device_id].nvml, &minLimit, &maxLimit) == NVML_SUCCESS)
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{
if (maxLimit > 0)
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{
if (hm_NVML_nvmlDeviceSetPowerManagementLimit (hashcat_ctx, hwmon_ctx->hm_device[device_id].nvml, maxLimit) == NVML_SUCCESS)
{
// now we can be sure we need to reset later
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hwmon_ctx->nvml_power_limit[device_id] = limit;
}
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}
}
}
}
}
}
/**
* Store initial fanspeed if gpu_temp_retain is enabled
*/
if (user_options->gpu_temp_retain > 0)
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{
bool one_success = false;
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for (u32 device_id = 0; device_id < opencl_ctx->devices_cnt; device_id++)
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{
hc_device_param_t *device_param = &opencl_ctx->devices_param[device_id];
if (device_param->skipped == true) continue;
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if ((opencl_ctx->devices_param[device_id].device_type & CL_DEVICE_TYPE_GPU) == 0) continue;
if (hwmon_ctx->hm_device[device_id].fanspeed_get_supported == false) continue;
if (hwmon_ctx->hm_device[device_id].fanspeed_set_supported == false) continue;
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const int fanspeed = hm_get_fanspeed_with_device_id (hashcat_ctx, device_id);
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if (fanspeed == -1) continue;
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if (device_param->device_vendor_id == VENDOR_ID_AMD)
{
if (hwmon_ctx->hm_adl)
{
hm_set_fanspeed_with_device_id_adl (hashcat_ctx, device_id, fanspeed, 1);
}
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if (hwmon_ctx->hm_sysfs)
{
hm_set_fanctrl_with_device_id_sysfs (hashcat_ctx, device_id, 1);
hm_set_fanspeed_with_device_id_sysfs (hashcat_ctx, device_id, fanspeed);
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}
}
else if (device_param->device_vendor_id == VENDOR_ID_NV)
{
if (hwmon_ctx->hm_xnvctrl)
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{
hm_set_fanctrl_with_device_id_xnvctrl (hashcat_ctx, device_id, NV_CTRL_GPU_COOLER_MANUAL_CONTROL_TRUE);
hm_set_fanspeed_with_device_id_xnvctrl (hashcat_ctx, device_id, fanspeed);
}
if (hwmon_ctx->hm_nvapi)
{
hm_set_fanspeed_with_device_id_nvapi (hashcat_ctx, device_id, fanspeed, 1);
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}
}
if ((hwmon_ctx->hm_device[device_id].fanpolicy_set_supported == true) && (hwmon_ctx->hm_device[device_id].fanspeed_set_supported == true)) one_success = true;
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}
if (one_success == false) user_options->gpu_temp_retain = 0;
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}
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return 0;
}
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void hwmon_ctx_destroy (hashcat_ctx_t *hashcat_ctx)
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{
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hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx;
opencl_ctx_t *opencl_ctx = hashcat_ctx->opencl_ctx;
user_options_t *user_options = hashcat_ctx->user_options;
if (hwmon_ctx->enabled == false) return;
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// reset default fan speed
if (user_options->gpu_temp_retain > 0)
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{
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for (u32 device_id = 0; device_id < opencl_ctx->devices_cnt; device_id++)
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{
hc_device_param_t *device_param = &opencl_ctx->devices_param[device_id];
if (device_param->skipped == true) continue;
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if ((opencl_ctx->devices_param[device_id].device_type & CL_DEVICE_TYPE_GPU) == 0) continue;
if (hwmon_ctx->hm_device[device_id].fanspeed_get_supported == false) continue;
if (hwmon_ctx->hm_device[device_id].fanspeed_set_supported == false) continue;
int rc = -1;
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if (device_param->device_vendor_id == VENDOR_ID_AMD)
{
if (hwmon_ctx->hm_adl)
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{
rc = hm_set_fanspeed_with_device_id_adl (hashcat_ctx, device_id, 100, 0);
}
if (hwmon_ctx->hm_sysfs)
{
rc = hm_set_fanctrl_with_device_id_sysfs (hashcat_ctx, device_id, 2);
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}
}
else if (device_param->device_vendor_id == VENDOR_ID_NV)
{
if (hwmon_ctx->hm_xnvctrl)
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{
rc = hm_set_fanctrl_with_device_id_xnvctrl (hashcat_ctx, device_id, NV_CTRL_GPU_COOLER_MANUAL_CONTROL_FALSE);
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}
if (hwmon_ctx->hm_nvapi)
{
rc = hm_set_fanspeed_with_device_id_nvapi (hashcat_ctx, device_id, 100, 0);
}
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}
if (rc == -1) event_log_error (hashcat_ctx, "Failed to restore default fan speed and policy for device #%u", device_id + 1);
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}
}
// reset power tuning
if (user_options->powertune_enable == true)
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{
for (u32 device_id = 0; device_id < opencl_ctx->devices_cnt; device_id++)
{
hc_device_param_t *device_param = &opencl_ctx->devices_param[device_id];
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if (device_param->skipped == true) continue;
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if ((opencl_ctx->devices_param[device_id].device_type & CL_DEVICE_TYPE_GPU) == 0) continue;
if (opencl_ctx->devices_param[device_id].device_vendor_id == VENDOR_ID_AMD)
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{
if (hwmon_ctx->hm_adl)
{
if (hwmon_ctx->hm_device[device_id].od_version == 6)
{
// check powertune capabilities first, if not available then skip device
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int powertune_supported = 0;
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if ((hm_ADL_Overdrive6_PowerControl_Caps (hashcat_ctx, hwmon_ctx->hm_device[device_id].adl, &powertune_supported)) == -1)
{
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//event_log_error (hashcat_ctx, "Failed to get ADL PowerControl capabilities.");
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continue;
}
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if (powertune_supported != 0)
{
// powercontrol settings
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if ((hm_ADL_Overdrive_PowerControl_Set (hashcat_ctx, hwmon_ctx->hm_device[device_id].adl, hwmon_ctx->od_power_control_status[device_id])) == -1)
{
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//event_log_error (hashcat_ctx, "Failed to restore the ADL PowerControl values.");
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continue;
}
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// clocks
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ADLOD6StateInfo *performance_state = (ADLOD6StateInfo*) hccalloc (1, sizeof (ADLOD6StateInfo) + sizeof (ADLOD6PerformanceLevel));
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performance_state->iNumberOfPerformanceLevels = 2;
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performance_state->aLevels[0].iEngineClock = hwmon_ctx->od_clock_mem_status[device_id].state.aLevels[0].iEngineClock;
performance_state->aLevels[1].iEngineClock = hwmon_ctx->od_clock_mem_status[device_id].state.aLevels[1].iEngineClock;
performance_state->aLevels[0].iMemoryClock = hwmon_ctx->od_clock_mem_status[device_id].state.aLevels[0].iMemoryClock;
performance_state->aLevels[1].iMemoryClock = hwmon_ctx->od_clock_mem_status[device_id].state.aLevels[1].iMemoryClock;
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if ((hm_ADL_Overdrive_State_Set (hashcat_ctx, hwmon_ctx->hm_device[device_id].adl, ADL_OD6_SETSTATE_PERFORMANCE, performance_state)) == -1)
{
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//event_log_error (hashcat_ctx, "Failed to restore ADL performance state.");
continue;
}
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hcfree (performance_state);
}
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}
}
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if (hwmon_ctx->hm_sysfs)
{
hm_SYSFS_set_power_dpm_force_performance_level (hashcat_ctx, device_id, "auto");
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}
}
if (opencl_ctx->devices_param[device_id].device_vendor_id == VENDOR_ID_NV)
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{
unsigned int power_limit = hwmon_ctx->nvml_power_limit[device_id];
if (power_limit > 0)
{
hm_NVML_nvmlDeviceSetPowerManagementLimit (hashcat_ctx, hwmon_ctx->hm_device[device_id].nvml, power_limit);
}
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}
}
}
// unload shared libraries
if (hwmon_ctx->hm_nvml)
{
hm_NVML_nvmlShutdown (hashcat_ctx);
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nvml_close (hashcat_ctx);
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}
if (hwmon_ctx->hm_nvapi)
{
hm_NvAPI_Unload (hashcat_ctx);
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nvapi_close (hashcat_ctx);
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}
if (hwmon_ctx->hm_xnvctrl)
{
hm_XNVCTRL_XCloseDisplay (hashcat_ctx);
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xnvctrl_close (hashcat_ctx);
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}
if (hwmon_ctx->hm_adl)
{
hm_ADL_Main_Control_Destroy (hashcat_ctx);
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adl_close (hashcat_ctx);
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}
if (hwmon_ctx->hm_sysfs)
{
sysfs_close (hashcat_ctx);
}
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// free memory
hcfree (hwmon_ctx->nvml_power_limit);
hcfree (hwmon_ctx->od_power_control_status);
hcfree (hwmon_ctx->od_clock_mem_status);
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hcfree (hwmon_ctx->hm_device);
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memset (hwmon_ctx, 0, sizeof (hwmon_ctx_t));
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}