mirror of
https://github.com/Llewellynvdm/conky.git
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1162 lines
36 KiB
C++
1162 lines
36 KiB
C++
/*
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*
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* Conky, a system monitor, based on torsmo
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*
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* Any original torsmo code is licensed under the BSD license
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*
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* All code written since the fork of torsmo is licensed under the GPL
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*
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* Please see COPYING for details
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*
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* Copyright (c) 2008 Markus Meissner
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* Copyright (c) 2005-2019 Brenden Matthews, Philip Kovacs, et. al.
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* (see AUTHORS)
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* All rights reserved.
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*
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* This program is free software: you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation, either version 3 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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* You should have received a copy of the GNU General Public License
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* along with this program. If not, see <http://www.gnu.org/licenses/>.
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*
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*/
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/*
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*
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* Author:
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* Fonic <fonic.maxxim@live.com>
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*
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* Things to do:
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* - Move decoding of GPU/MEM freqs to print_nvidia_value() using QUERY_SPECIAL
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* so that all quirks are located there
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* - Implement nvs->print_type to allow control over how the value is printed
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* (int, float, temperature...)
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*
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* Showcase (conky.conf):
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* --==| NVIDIA | ==--
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* GPU ${nvidia gpufreq [target_id]}MHz (${nvidia gpufreqmin
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* [target_id]}-${nvidia gpufreqmax [target_id]}MHz) MEM ${nvidia memfreq
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* [target_id]}MHz (${nvidia memfreqmin [target_id]}-${nvidia memfreqmax
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* [target_id]}MHz) MTR ${nvidia mtrfreq [target_id]}MHz (${nvidia mtrfreqmin
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* [target_id]}-${nvidia mtrfreqmax [target_id]}MHz) PERF Level ${nvidia
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* perflevel [target_id]} (${nvidia perflevelmin [target_id]}-${nvidia
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* perflevelmax [target_id]}), Mode: ${nvidia perfmode [target_id]} VRAM
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* ${nvidia memutil [target_id]}% (${nvidia memused [target_id]}MB/${nvidia
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* memtotal [target_id]}MB) LOAD GPU ${nvidia gpuutil [target_id]}%, RAM
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* ${nvidia membwutil [target_id]}%, VIDEO ${nvidia videoutil [target_id]}%,
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* PCIe ${nvidia pcieutil [target_id]}% TEMP GPU ${nvidia gputemp
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* [target_id]}°C (${nvidia gputempthreshold [target_id]}°C max.), SYS ${nvidia
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* ambienttemp [target_id]}°C FAN ${nvidia fanspeed [target_id]} RPM
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* (${nvidia fanlevel [target_id]}%)
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*
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* Miscellaneous:
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* OPENGL ${nvidia imagequality [target_id]}
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* GPU ${nvidia modelname [target_id]}
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* DRIVER ${nvidia driverversion [target_id]}
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*
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* --==| NVIDIA Bars |==--
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* LOAD ${nvidiabar [height][,width] gpuutil [target_id]}
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* VRAM ${nvidiabar [height][,width] memutil [target_id]}
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* RAM ${nvidiabar [height][,width] membwutil [target_id]}
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* VIDEO ${nvidiabar [height][,width] videoutil [target_id]}
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* PCIe ${nvidiabar [height][,width] pcieutil [target_id]}
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* Fan ${nvidiabar [height][,width] fanlevel [target_id]}
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* TEMP ${nvidiabar [height][,width] gputemp [target_id]}
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*
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* --==| NVIDIA Gauge |==--
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* LOAD ${nvidiagauge [height][,width] gpuutil [target_id]}
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* VRAM ${nvidiagauge [height][,width] memutil [target_id]}
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* RAM ${nvidiagauge [height][,width] membwutil [target_id]}
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* VIDEO ${nvidiagauge [height][,width] videoutil [target_id]}
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* PCIe ${nvidiagauge [height][,width] pcieutil [target_id]}
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* Fan ${nvidiagauge [height][,width] fanlevel [target_id]}
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* TEMP ${nvidiagauge [height][,width] gputemp [target_id]}
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*
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* --==| NVIDIA Graph |==-- (target_id is not optional in this case)
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* LOAD ${nvidiagraph gpuutil [height][,width] [gradient color 1] [gradient
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* color 2] [scale] [-t] [-l] target_id} VRAM ${nvidiagraph memutil
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* [height][,width] [gradient color 1] [gradient color 2] [scale] [-t] [-l]
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* target_id} RAM ${nvidiagraph membwutil [height][,width] [gradient color 1]
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* [gradient color 2] [scale] [-t] [-l] target_id} VIDEO ${nvidiagraph videoutil
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* [height][,width] [gradient color 1] [gradient color 2] [scale] [-t] [-l]
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* target_id} PCIe ${nvidiagraph pcieutil [height][,width] [gradient color 1]
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* [gradient color 2] [scale] [-t] [-l] target_id} Fan ${nvidiagraph fanlevel
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* [height][,width] [gradient color 1] [gradient color 2] [scale] [-t] [-l]
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* target_id} TEMP ${nvidiagraph gputemp [height][,width] [gradient color 1]
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* [gradient color 2] [scale] [-t] [-l] target_id}
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*/
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#include "nvidia.h"
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#include <X11/Xlib.h>
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#include "NVCtrl/NVCtrl.h"
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#include "NVCtrl/NVCtrlLib.h"
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#include "conky.h"
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#include "logging.h"
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#include "temphelper.h"
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#include "x11.h"
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// Separators for nvidia string parsing
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// (sample: "perf=0, nvclock=324, nvclockmin=324, nvclockmax=324 ; perf=1,
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// nvclock=549, nvclockmin=549, nvclockmax=549")
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#define NV_KVPAIR_SEPARATORS ", ;"
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#define NV_KEYVAL_SEPARATORS "="
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// Module arguments
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const char *translate_module_argument[] = {
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"temp", // Temperatures
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"gputemp", "threshold", "gputempthreshold", "ambient", "ambienttemp",
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"gpufreq", // GPU frequency
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"gpufreqcur", "gpufreqmin", "gpufreqmax",
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"memfreq", // Memory frequency
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"memfreqcur", "memfreqmin", "memfreqmax",
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"mtrfreq", // Memory transfer rate frequency
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"mtrfreqcur", "mtrfreqmin", "mtrfreqmax",
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"perflevel", // Performance levels
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"perflevelcur", "perflevelmin", "perflevelmax", "perfmode",
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"gpuutil", // Load/utilization
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"membwutil", // NOTE: this is the memory _bandwidth_ utilization, not the
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// percentage of used/available memory!
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"videoutil", "pcieutil",
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"mem", // RAM statistics
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"memused", "memfree", "memavail", "memmax", "memtotal", "memutil",
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"memperc",
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"fanspeed", // Fan/cooler
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"fanlevel",
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"imagequality", // Miscellaneous
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"modelname", "driverversion"};
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// Enum for module arguments
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typedef enum _ARG_ID {
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ARG_TEMP,
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ARG_GPU_TEMP,
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ARG_THRESHOLD,
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ARG_GPU_TEMP_THRESHOLD,
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ARG_AMBIENT,
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ARG_AMBIENT_TEMP,
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ARG_GPU_FREQ,
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ARG_GPU_FREQ_CUR,
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ARG_GPU_FREQ_MIN,
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ARG_GPU_FREQ_MAX,
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ARG_MEM_FREQ,
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ARG_MEM_FREQ_CUR,
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ARG_MEM_FREQ_MIN,
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ARG_MEM_FREQ_MAX,
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ARG_MTR_FREQ,
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ARG_MTR_FREQ_CUR,
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ARG_MTR_FREQ_MIN,
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ARG_MTR_FREQ_MAX,
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ARG_PERF_LEVEL,
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ARG_PERF_LEVEL_CUR,
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ARG_PERF_LEVEL_MIN,
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ARG_PERF_LEVEL_MAX,
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ARG_PERF_MODE,
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ARG_GPU_UTIL,
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ARG_MEM_BW_UTIL,
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ARG_VIDEO_UTIL,
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ARG_PCIE_UTIL,
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ARG_MEM,
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ARG_MEM_USED,
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ARG_MEM_FREE,
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ARG_MEM_AVAIL,
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ARG_MEM_MAX,
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ARG_MEM_TOTAL,
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ARG_MEM_UTIL,
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ARG_MEM_PERC,
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ARG_FAN_SPEED,
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ARG_FAN_LEVEL,
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ARG_IMAGEQUALITY,
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ARG_MODEL_NAME,
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ARG_DRIVER_VERSION,
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ARG_UNKNOWN
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} ARG_ID;
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// Nvidia query targets
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const int translate_nvidia_target[] = {
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NV_CTRL_TARGET_TYPE_X_SCREEN,
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NV_CTRL_TARGET_TYPE_GPU,
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NV_CTRL_TARGET_TYPE_FRAMELOCK,
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NV_CTRL_TARGET_TYPE_VCSC,
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NV_CTRL_TARGET_TYPE_GVI,
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NV_CTRL_TARGET_TYPE_COOLER,
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NV_CTRL_TARGET_TYPE_THERMAL_SENSOR,
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NV_CTRL_TARGET_TYPE_3D_VISION_PRO_TRANSCEIVER,
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NV_CTRL_TARGET_TYPE_DISPLAY,
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};
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// Enum for nvidia query targets
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typedef enum _TARGET_ID {
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TARGET_SCREEN,
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TARGET_GPU,
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TARGET_FRAMELOCK,
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TARGET_VCSC,
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TARGET_GVI,
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TARGET_COOLER,
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TARGET_THERMAL,
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TARGET_3DVISION,
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TARGET_DISPLAY
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} TARGET_ID;
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// Nvidia query attributes
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const int translate_nvidia_attribute[] = {
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NV_CTRL_GPU_CORE_TEMPERATURE,
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NV_CTRL_GPU_CORE_THRESHOLD,
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NV_CTRL_AMBIENT_TEMPERATURE,
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NV_CTRL_GPU_CURRENT_CLOCK_FREQS,
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NV_CTRL_GPU_CURRENT_CLOCK_FREQS,
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NV_CTRL_STRING_PERFORMANCE_MODES,
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NV_CTRL_STRING_GPU_CURRENT_CLOCK_FREQS,
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NV_CTRL_GPU_POWER_MIZER_MODE,
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NV_CTRL_STRING_GPU_UTILIZATION,
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NV_CTRL_USED_DEDICATED_GPU_MEMORY,
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0,
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NV_CTRL_TOTAL_DEDICATED_GPU_MEMORY, // NOTE: NV_CTRL_TOTAL_GPU_MEMORY would
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// be better, but returns KB instead of
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// MB
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0,
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NV_CTRL_THERMAL_COOLER_SPEED,
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NV_CTRL_THERMAL_COOLER_LEVEL,
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NV_CTRL_GPU_CURRENT_PERFORMANCE_LEVEL,
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NV_CTRL_IMAGE_SETTINGS,
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NV_CTRL_STRING_PRODUCT_NAME,
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NV_CTRL_STRING_NVIDIA_DRIVER_VERSION,
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};
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// Enum for nvidia query attributes
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typedef enum _ATTR_ID {
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ATTR_GPU_TEMP,
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ATTR_GPU_TEMP_THRESHOLD,
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ATTR_AMBIENT_TEMP,
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ATTR_GPU_FREQ,
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ATTR_MEM_FREQ,
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ATTR_PERFMODES_STRING,
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ATTR_FREQS_STRING,
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ATTR_PERF_MODE,
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ATTR_UTILS_STRING,
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ATTR_MEM_USED,
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ATTR_MEM_FREE,
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ATTR_MEM_TOTAL,
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ATTR_MEM_UTIL,
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ATTR_FAN_SPEED,
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ATTR_FAN_LEVEL,
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ATTR_PERF_LEVEL,
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ATTR_IMAGE_QUALITY,
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ATTR_MODEL_NAME,
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ATTR_DRIVER_VERSION,
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} ATTR_ID;
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// Enum for query type
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typedef enum _QUERY_ID {
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QUERY_VALUE,
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QUERY_STRING,
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QUERY_STRING_VALUE,
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QUERY_SPECIAL
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} QUERY_ID;
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// Enum for string token search mode
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typedef enum _SEARCH_ID {
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SEARCH_FIRST,
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SEARCH_LAST,
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SEARCH_MIN,
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SEARCH_MAX
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} SEARCH_ID;
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// Translate special_type into command string
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const char *translate_nvidia_special_type[] = {
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"nvidia", // NONSPECIAL
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"", // HORIZONTAL_LINE
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"", // STIPPLED_HR
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"nvidiabar", // BAR
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"", // FG
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"", // BG
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"", // OUTLINE
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"", // ALIGNR
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"", // ALIGNC
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"nvidiagague", // GAUGE
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"nvidiagraph", // GRAPH
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"", // OFFSET
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"", // VOFFSET
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"", // SAVE_COORDINATES
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"", // FONT
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"", // GOTO
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"" // TAB
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};
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// Global struct to keep track of queries
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class nvidia_s {
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public:
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nvidia_s()
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: command(0),
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arg(0),
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query(QUERY_VALUE),
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target(TARGET_SCREEN),
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attribute(ATTR_GPU_TEMP),
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token(0),
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search(SEARCH_FIRST),
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target_id(0) {}
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const char *command;
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const char *arg;
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QUERY_ID query;
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TARGET_ID target;
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ATTR_ID attribute;
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char *token;
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SEARCH_ID search;
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// added new field for GPU id
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int target_id;
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};
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// Cache by value
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struct nvidia_c_value {
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int memtotal = -1;
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int gputempthreshold = -1;
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};
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// Cache by string
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struct nvidia_c_string {
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int nvclockmin = -1;
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int nvclockmax = -1;
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int memclockmin = -1;
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int memclockmax = -1;
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int memTransferRatemin = -1;
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int memTransferRatemax = -1;
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int perfmin = -1;
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int perfmax = -1;
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};
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static Display *nvdisplay = nullptr;
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// Maximum number of GPU connected:
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// For cache default value: choosed a model of direct access to array instead of
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// list for speed improvement value based on the incoming quad Naples tech
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// having 256 PCIe lanes available
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const int MAXNUMGPU = 64;
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namespace {
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class nvidia_display_setting
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: public conky::simple_config_setting<std::string> {
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typedef conky::simple_config_setting<std::string> Base;
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protected:
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virtual void lua_setter(lua::state &l, bool init);
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virtual void cleanup(lua::state &l);
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public:
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nvidia_display_setting() : Base("nvidia_display", std::string(), false) {}
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};
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void nvidia_display_setting::lua_setter(lua::state &l, bool init) {
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lua::stack_sentry s(l, -2);
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Base::lua_setter(l, init);
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std::string str = do_convert(l, -1).first;
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if (!str.empty()) {
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nvdisplay = XOpenDisplay(str.c_str());
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if (nvdisplay == nullptr) {
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CRIT_ERR(nullptr, NULL, "can't open nvidia display: %s",
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XDisplayName(str.c_str()));
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}
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}
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++s;
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} // namespace
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void nvidia_display_setting::cleanup(lua::state &l) {
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lua::stack_sentry s(l, -1);
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if (nvdisplay && nvdisplay != display) {
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XCloseDisplay(nvdisplay);
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nvdisplay = nullptr;
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}
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l.pop();
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}
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nvidia_display_setting nvidia_display;
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} // namespace
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// Evaluate module parameters and prepare query
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int set_nvidia_query(struct text_object *obj, const char *arg,
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unsigned int special_type) {
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nvidia_s *nvs;
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int aid;
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int ilen;
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// Initialize global struct
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nvs = new nvidia_s();
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obj->data.opaque = nvs;
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// Added new parameter parsing GPU_ID as 0,1,2,..
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// if no GPU_ID parameter then default to 0
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nvs->target_id = 0;
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char *strbuf = strdup(arg);
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char *p = strrchr(strbuf, ' ');
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if (p && *(p + 1)) {
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nvs->target_id = atoi(p + 1);
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if ((nvs->target_id > 0) || !strcmp(p + 1, "0")) {
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ilen = strlen(strbuf);
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ilen = ilen - strlen(p);
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strbuf[ilen] = 0;
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arg = strbuf;
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}
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}
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// If the value is negative it is set to 0
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if (nvs->target_id < 0) nvs->target_id = 0;
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// Extract arguments for nvidiabar, etc, and run set_nvidia_query
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switch (special_type) {
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case BAR:
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arg = scan_bar(obj, arg, 100);
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break;
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case GRAPH:
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arg = scan_graph(obj, arg, 100);
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break;
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case GAUGE:
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arg = scan_gauge(obj, arg, 100);
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break;
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default:
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break;
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}
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// Return error if no argument
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// (sometimes scan_graph gets excited and eats the whole string!
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if (!arg) {
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free_and_zero(strbuf);
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return 1;
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}
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||
|
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// Translate parameter to id
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for (aid = 0; aid < ARG_UNKNOWN; aid++) {
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if (strcmp(arg, translate_module_argument[aid]) == 0) break;
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}
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// free the string buffer after arg is not anymore needed
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||
if (strbuf != nullptr) free_and_zero(strbuf);
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|
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// Save pointers to the arg and command strings for debugging and printing
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nvs->arg = translate_module_argument[aid];
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nvs->command = translate_nvidia_special_type[special_type];
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// Evaluate parameter
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switch (aid) {
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case ARG_TEMP: // GPU temperature
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case ARG_GPU_TEMP:
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nvs->query = QUERY_VALUE;
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nvs->target = TARGET_GPU;
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nvs->attribute = ATTR_GPU_TEMP;
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break;
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case ARG_THRESHOLD: // GPU temperature threshold
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case ARG_GPU_TEMP_THRESHOLD:
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nvs->query = QUERY_VALUE;
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nvs->target = TARGET_GPU;
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nvs->attribute = ATTR_GPU_TEMP_THRESHOLD;
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break;
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case ARG_AMBIENT: // Ambient temperature
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case ARG_AMBIENT_TEMP:
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nvs->query = QUERY_VALUE;
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nvs->target = TARGET_GPU;
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nvs->attribute = ATTR_AMBIENT_TEMP;
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break;
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case ARG_GPU_FREQ: // Current GPU clock
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||
case ARG_GPU_FREQ_CUR:
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nvs->query = QUERY_VALUE;
|
||
nvs->target = TARGET_GPU;
|
||
nvs->attribute = ATTR_GPU_FREQ;
|
||
break;
|
||
case ARG_GPU_FREQ_MIN: // Minimum GPU clock
|
||
nvs->query = QUERY_STRING_VALUE;
|
||
nvs->target = TARGET_GPU;
|
||
nvs->attribute = ATTR_PERFMODES_STRING;
|
||
nvs->token = (char *)"nvclockmin";
|
||
nvs->search = SEARCH_MIN;
|
||
break;
|
||
case ARG_GPU_FREQ_MAX: // Maximum GPU clock
|
||
nvs->query = QUERY_STRING_VALUE;
|
||
nvs->target = TARGET_GPU;
|
||
nvs->attribute = ATTR_PERFMODES_STRING;
|
||
nvs->token = (char *)"nvclockmax";
|
||
nvs->search = SEARCH_MAX;
|
||
break;
|
||
|
||
case ARG_MEM_FREQ: // Current memory clock
|
||
case ARG_MEM_FREQ_CUR:
|
||
nvs->query = QUERY_VALUE;
|
||
nvs->target = TARGET_GPU;
|
||
nvs->attribute = ATTR_MEM_FREQ;
|
||
break;
|
||
case ARG_MEM_FREQ_MIN: // Minimum memory clock
|
||
nvs->query = QUERY_STRING_VALUE;
|
||
nvs->target = TARGET_GPU;
|
||
nvs->attribute = ATTR_PERFMODES_STRING;
|
||
nvs->token = (char *)"memclockmin";
|
||
nvs->search = SEARCH_MIN;
|
||
break;
|
||
case ARG_MEM_FREQ_MAX: // Maximum memory clock
|
||
nvs->query = QUERY_STRING_VALUE;
|
||
nvs->target = TARGET_GPU;
|
||
nvs->attribute = ATTR_PERFMODES_STRING;
|
||
nvs->token = (char *)"memclockmax";
|
||
nvs->search = SEARCH_MAX;
|
||
break;
|
||
|
||
case ARG_MTR_FREQ: // Current memory transfer rate clock
|
||
case ARG_MTR_FREQ_CUR:
|
||
nvs->query = QUERY_STRING_VALUE;
|
||
nvs->target = TARGET_GPU;
|
||
nvs->attribute = ATTR_FREQS_STRING;
|
||
nvs->token = (char *)"memTransferRate";
|
||
nvs->search = SEARCH_FIRST;
|
||
break;
|
||
case ARG_MTR_FREQ_MIN: // Minimum memory transfer rate clock
|
||
nvs->query = QUERY_STRING_VALUE;
|
||
nvs->target = TARGET_GPU;
|
||
nvs->attribute = ATTR_PERFMODES_STRING;
|
||
nvs->token = (char *)"memTransferRatemin";
|
||
nvs->search = SEARCH_MIN;
|
||
break;
|
||
case ARG_MTR_FREQ_MAX: // Maximum memory transfer rate clock
|
||
nvs->query = QUERY_STRING_VALUE;
|
||
nvs->target = TARGET_GPU;
|
||
nvs->attribute = ATTR_PERFMODES_STRING;
|
||
nvs->token = (char *)"memTransferRatemax";
|
||
nvs->search = SEARCH_MAX;
|
||
break;
|
||
|
||
case ARG_PERF_LEVEL: // Current performance level
|
||
case ARG_PERF_LEVEL_CUR:
|
||
nvs->query = QUERY_VALUE;
|
||
nvs->target = TARGET_GPU;
|
||
nvs->attribute = ATTR_PERF_LEVEL;
|
||
break;
|
||
case ARG_PERF_LEVEL_MIN: // Lowest performance level
|
||
nvs->query = QUERY_STRING_VALUE;
|
||
nvs->target = TARGET_GPU;
|
||
nvs->attribute = ATTR_PERFMODES_STRING;
|
||
nvs->token = (char *)"perf";
|
||
nvs->search = SEARCH_MIN;
|
||
break;
|
||
case ARG_PERF_LEVEL_MAX: // Highest performance level
|
||
nvs->query = QUERY_STRING_VALUE;
|
||
nvs->target = TARGET_GPU;
|
||
nvs->attribute = ATTR_PERFMODES_STRING;
|
||
nvs->token = (char *)"perf";
|
||
nvs->search = SEARCH_MAX;
|
||
break;
|
||
case ARG_PERF_MODE: // Performance mode
|
||
nvs->query = QUERY_SPECIAL;
|
||
nvs->target = TARGET_GPU;
|
||
nvs->attribute = ATTR_PERF_MODE;
|
||
break;
|
||
|
||
case ARG_GPU_UTIL: // GPU utilization %
|
||
nvs->query = QUERY_STRING_VALUE;
|
||
nvs->target = TARGET_GPU;
|
||
nvs->attribute = ATTR_UTILS_STRING;
|
||
nvs->token = (char *)"graphics";
|
||
nvs->search = SEARCH_FIRST;
|
||
break;
|
||
case ARG_MEM_BW_UTIL: // Memory bandwidth utilization %
|
||
nvs->query = QUERY_STRING_VALUE;
|
||
nvs->target = TARGET_GPU;
|
||
nvs->attribute = ATTR_UTILS_STRING;
|
||
nvs->token = (char *)"memory";
|
||
nvs->search = SEARCH_FIRST;
|
||
break;
|
||
case ARG_VIDEO_UTIL: // Video engine utilization %
|
||
nvs->query = QUERY_STRING_VALUE;
|
||
nvs->target = TARGET_GPU;
|
||
nvs->attribute = ATTR_UTILS_STRING;
|
||
nvs->token = (char *)"video";
|
||
nvs->search = SEARCH_FIRST;
|
||
break;
|
||
case ARG_PCIE_UTIL: // PCIe bandwidth utilization %
|
||
nvs->query = QUERY_STRING_VALUE;
|
||
nvs->target = TARGET_GPU;
|
||
nvs->attribute = ATTR_UTILS_STRING;
|
||
nvs->token = (char *)"PCIe";
|
||
nvs->search = SEARCH_FIRST;
|
||
break;
|
||
|
||
case ARG_MEM: // Amount of used memory
|
||
case ARG_MEM_USED:
|
||
nvs->query = QUERY_VALUE;
|
||
nvs->target = TARGET_GPU;
|
||
nvs->attribute = ATTR_MEM_USED;
|
||
break;
|
||
case ARG_MEM_FREE: // Amount of free memory
|
||
case ARG_MEM_AVAIL:
|
||
nvs->query = QUERY_SPECIAL;
|
||
nvs->target = TARGET_GPU;
|
||
nvs->attribute = ATTR_MEM_FREE;
|
||
break;
|
||
case ARG_MEM_MAX: // Total amount of memory
|
||
case ARG_MEM_TOTAL:
|
||
nvs->query = QUERY_VALUE;
|
||
nvs->target = TARGET_GPU;
|
||
nvs->attribute = ATTR_MEM_TOTAL;
|
||
break;
|
||
case ARG_MEM_UTIL: // Memory utilization %
|
||
case ARG_MEM_PERC:
|
||
nvs->query = QUERY_SPECIAL;
|
||
nvs->target = TARGET_GPU;
|
||
nvs->attribute = ATTR_MEM_UTIL;
|
||
break;
|
||
|
||
case ARG_FAN_SPEED: // Fan speed
|
||
nvs->query = QUERY_VALUE;
|
||
nvs->target = TARGET_COOLER;
|
||
nvs->attribute = ATTR_FAN_SPEED;
|
||
break;
|
||
case ARG_FAN_LEVEL: // Fan level %
|
||
nvs->query = QUERY_VALUE;
|
||
nvs->target = TARGET_COOLER;
|
||
nvs->attribute = ATTR_FAN_LEVEL;
|
||
break;
|
||
|
||
case ARG_IMAGEQUALITY: // Image quality
|
||
nvs->query = QUERY_VALUE;
|
||
nvs->target = TARGET_SCREEN;
|
||
nvs->attribute = ATTR_IMAGE_QUALITY;
|
||
break;
|
||
|
||
case ARG_MODEL_NAME:
|
||
nvs->query = QUERY_STRING;
|
||
nvs->target = TARGET_GPU;
|
||
nvs->attribute = ATTR_MODEL_NAME;
|
||
break;
|
||
|
||
case ARG_DRIVER_VERSION:
|
||
nvs->query = QUERY_STRING;
|
||
nvs->target = TARGET_GPU;
|
||
nvs->attribute = ATTR_DRIVER_VERSION;
|
||
break;
|
||
|
||
default: // Unknown/invalid argument
|
||
// Error printed by core.cc
|
||
return 1;
|
||
}
|
||
return 0;
|
||
}
|
||
|
||
// Return the amount of targets present or raise error)
|
||
static inline int get_nvidia_target_count(Display *dpy, TARGET_ID tid) {
|
||
int num_tgts;
|
||
if (!XNVCTRLQueryTargetCount(dpy, translate_nvidia_target[tid], &num_tgts)) {
|
||
num_tgts = -1;
|
||
}
|
||
|
||
if (num_tgts < 1 && tid == TARGET_GPU) {
|
||
// Print error and exit if there's no NVIDIA's GPU
|
||
NORM_ERR(nullptr, NULL,
|
||
"%s:"
|
||
"\n Trying to query Nvidia target failed (using the "
|
||
"proprietary drivers)."
|
||
"\n Are you sure they are installed correctly and a "
|
||
"Nvidia GPU is in use?"
|
||
"\n (display: %d,Nvidia target_count: %d)",
|
||
__func__, dpy, num_tgts);
|
||
}
|
||
|
||
return num_tgts;
|
||
}
|
||
|
||
static int cache_nvidia_value(TARGET_ID tid, ATTR_ID aid, Display *dpy,
|
||
int *value, int gid, const char *arg) {
|
||
static nvidia_c_value ac_value[MAXNUMGPU];
|
||
|
||
if (aid == ATTR_MEM_TOTAL) {
|
||
if (ac_value[gid].memtotal < 0) {
|
||
if (!dpy || !XNVCTRLQueryTargetAttribute(
|
||
dpy, translate_nvidia_target[tid], gid, 0,
|
||
translate_nvidia_attribute[aid], value)) {
|
||
NORM_ERR(
|
||
"%s: Something went wrong running nvidia query (arg: %s tid: %d, "
|
||
"aid: %d)",
|
||
__func__, arg, tid, aid);
|
||
return -1;
|
||
}
|
||
ac_value[gid].memtotal = *value;
|
||
} else {
|
||
*value = ac_value[gid].memtotal;
|
||
}
|
||
} else if (aid == ATTR_GPU_TEMP_THRESHOLD) {
|
||
if (ac_value[gid].gputempthreshold < 0) {
|
||
if (!dpy || !XNVCTRLQueryTargetAttribute(
|
||
dpy, translate_nvidia_target[tid], gid, 0,
|
||
translate_nvidia_attribute[aid], value)) {
|
||
NORM_ERR(
|
||
"%s: Something went wrong running nvidia query (arg: %s, tid: "
|
||
"%d, aid: %d)",
|
||
__func__, arg, tid, aid);
|
||
return -1;
|
||
}
|
||
ac_value[gid].gputempthreshold = *value;
|
||
} else {
|
||
*value = ac_value[gid].gputempthreshold;
|
||
}
|
||
}
|
||
|
||
return 0;
|
||
}
|
||
|
||
// Retrieve attribute value via nvidia interface
|
||
static int get_nvidia_value(TARGET_ID tid, ATTR_ID aid, int gid,
|
||
const char *arg) {
|
||
Display *dpy = nvdisplay ? nvdisplay : display;
|
||
int value;
|
||
|
||
// Check if the aid is cacheable
|
||
if (aid == ATTR_MEM_TOTAL || aid == ATTR_GPU_TEMP_THRESHOLD) {
|
||
if (cache_nvidia_value(tid, aid, dpy, &value, gid, arg)) { return -1; }
|
||
// If not, then query it
|
||
} else {
|
||
if (!dpy ||
|
||
!XNVCTRLQueryTargetAttribute(dpy, translate_nvidia_target[tid], gid, 0,
|
||
translate_nvidia_attribute[aid], &value)) {
|
||
NORM_ERR(
|
||
"%s: Something went wrong running nvidia query (arg: %s, tid: %d, "
|
||
"aid: %d)",
|
||
__func__, arg, tid, aid);
|
||
return -1;
|
||
}
|
||
}
|
||
|
||
// Unpack clock values (see NVCtrl.h for details)
|
||
if (aid == ATTR_GPU_FREQ) return value >> 16;
|
||
if (aid == ATTR_MEM_FREQ) return value & 0xFFFF;
|
||
|
||
// Return value
|
||
return value;
|
||
}
|
||
|
||
// Retrieve attribute string via nvidia interface
|
||
static char *get_nvidia_string(TARGET_ID tid, ATTR_ID aid, int gid,
|
||
const char *arg) {
|
||
Display *dpy = nvdisplay ? nvdisplay : display;
|
||
char *str;
|
||
|
||
// Query nvidia interface
|
||
if (!dpy || !XNVCTRLQueryTargetStringAttribute(
|
||
dpy, translate_nvidia_target[tid], gid, 0,
|
||
translate_nvidia_attribute[aid], &str)) {
|
||
NORM_ERR(
|
||
"%s: Something went wrong running nvidia string query (arg, tid: %d, "
|
||
"aid: "
|
||
"%d, GPU %d)",
|
||
__func__, arg, tid, aid, gid);
|
||
return nullptr;
|
||
}
|
||
return str;
|
||
}
|
||
|
||
void cache_nvidia_string_value_update(nvidia_c_string *ac_string, char *token,
|
||
SEARCH_ID search, int *value, int gid) {
|
||
if (strcmp(token, (char *)"nvclockmin") == 0 &&
|
||
ac_string[gid].nvclockmin < 0) {
|
||
ac_string[gid].nvclockmin = *value;
|
||
} else if (strcmp(token, (char *)"nvclockmax") == 0 &&
|
||
ac_string[gid].nvclockmax < 0) {
|
||
ac_string[gid].nvclockmax = *value;
|
||
} else if (strcmp(token, (char *)"memclockmin") == 0 &&
|
||
ac_string[gid].memclockmin < 0) {
|
||
ac_string[gid].memclockmin = *value;
|
||
} else if (strcmp(token, (char *)"memclockmax") == 0 &&
|
||
ac_string[gid].memclockmax < 0) {
|
||
ac_string[gid].memclockmax = *value;
|
||
} else if (strcmp(token, (char *)"memTransferRatemin") == 0 &&
|
||
ac_string[gid].memTransferRatemin < 0) {
|
||
ac_string[gid].memTransferRatemin = *value;
|
||
} else if (strcmp(token, (char *)"memTransferRatemax") == 0 &&
|
||
ac_string[gid].memTransferRatemax < 0) {
|
||
ac_string[gid].memTransferRatemax = *value;
|
||
|
||
} else if (strcmp(token, (char *)"perf") == 0 &&
|
||
ac_string[gid].memTransferRatemax < 0) {
|
||
if (search == SEARCH_MIN) {
|
||
ac_string[gid].perfmin = *value;
|
||
} else if (search == SEARCH_MAX) {
|
||
ac_string[gid].perfmax = *value;
|
||
}
|
||
}
|
||
}
|
||
|
||
void cache_nvidia_string_value_noupdate(nvidia_c_string *ac_string, char *token,
|
||
SEARCH_ID search, int *value, int gid) {
|
||
if (strcmp(token, (char *)"nvclockmin") == 0) {
|
||
*value = ac_string[gid].nvclockmin;
|
||
} else if (strcmp(token, (char *)"nvclockmax") == 0) {
|
||
*value = ac_string[gid].nvclockmax;
|
||
} else if (strcmp(token, (char *)"memclockmin") == 0) {
|
||
*value = ac_string[gid].memclockmin;
|
||
} else if (strcmp(token, (char *)"memclockmax") == 0) {
|
||
*value = ac_string[gid].memclockmax;
|
||
} else if (strcmp(token, (char *)"memTransferRatemin") == 0) {
|
||
*value = ac_string[gid].memTransferRatemin;
|
||
} else if (strcmp(token, (char *)"memTransferRatemax") == 0) {
|
||
*value = ac_string[gid].memTransferRatemax;
|
||
|
||
} else if (strcmp(token, (char *)"perf") == 0) {
|
||
if (search == SEARCH_MIN) {
|
||
*value = ac_string[gid].perfmin;
|
||
} else if (search == SEARCH_MAX) {
|
||
*value = ac_string[gid].perfmax;
|
||
}
|
||
}
|
||
}
|
||
|
||
static int cache_nvidia_string_value(TARGET_ID tid, ATTR_ID aid, char *token,
|
||
SEARCH_ID search, int *value, int update,
|
||
int gid) {
|
||
static nvidia_c_string ac_string[MAXNUMGPU];
|
||
(void)tid;
|
||
(void)aid;
|
||
|
||
if (update) {
|
||
cache_nvidia_string_value_update(ac_string, token, search, value, gid);
|
||
} else {
|
||
cache_nvidia_string_value_noupdate(ac_string, token, search, value, gid);
|
||
}
|
||
|
||
return 0;
|
||
}
|
||
|
||
// Retrieve token value from nvidia string
|
||
static int get_nvidia_string_value(TARGET_ID tid, ATTR_ID aid, char *token,
|
||
SEARCH_ID search, int gid, const char *arg) {
|
||
char *str;
|
||
char *kvp;
|
||
char *key;
|
||
char *val;
|
||
char *saveptr1;
|
||
char *saveptr2;
|
||
int temp;
|
||
int value = -1;
|
||
|
||
// Checks if the value is cacheable and is already loaded
|
||
cache_nvidia_string_value(tid, aid, token, search, &value, 0, gid);
|
||
if (value != -1) { return value; }
|
||
|
||
// Get string via nvidia interface
|
||
str = get_nvidia_string(tid, aid, gid, arg);
|
||
|
||
// Split string into 'key=value' substrings, split substring
|
||
// into key and value, from value, check if token was found,
|
||
// convert value to int, evaluate value according to specified
|
||
// token search mode
|
||
kvp = strtok_r(str, NV_KVPAIR_SEPARATORS, &saveptr1);
|
||
while (kvp) {
|
||
key = strtok_r(kvp, NV_KEYVAL_SEPARATORS, &saveptr2);
|
||
val = strtok_r(nullptr, NV_KEYVAL_SEPARATORS, &saveptr2);
|
||
if (key && val && (strcmp(token, key) == 0)) {
|
||
temp = (int)strtol(val, nullptr, 0);
|
||
if (search == SEARCH_FIRST) {
|
||
value = temp;
|
||
break;
|
||
} else if (search == SEARCH_LAST) {
|
||
value = temp;
|
||
} else if (search == SEARCH_MIN) {
|
||
if ((value == -1) || (temp < value)) value = temp;
|
||
} else if (search == SEARCH_MAX) {
|
||
if (temp > value) value = temp;
|
||
} else {
|
||
value = -1;
|
||
break;
|
||
}
|
||
}
|
||
kvp = strtok_r(nullptr, NV_KVPAIR_SEPARATORS, &saveptr1);
|
||
}
|
||
|
||
// This call updated the cache for the cacheable values
|
||
cache_nvidia_string_value(tid, aid, token, search, &value, 1, gid);
|
||
|
||
// Free string, return value
|
||
free_and_zero(str);
|
||
return value;
|
||
}
|
||
|
||
bool validate_target_id(Display *dpy, int target_id, ATTR_ID attribute) {
|
||
// num_GPU and num_COOLER calculated only once based on the physical target
|
||
static int num_GPU = get_nvidia_target_count(dpy, TARGET_GPU) - 1;
|
||
static int num_COOLER = get_nvidia_target_count(dpy, TARGET_COOLER) - 1;
|
||
|
||
if (target_id < 0) return false;
|
||
switch (attribute) {
|
||
case ATTR_FAN_LEVEL:
|
||
case ATTR_FAN_SPEED:
|
||
if (target_id > num_COOLER) return false;
|
||
break;
|
||
default:
|
||
if (target_id > num_GPU) return false;
|
||
break;
|
||
}
|
||
return true;
|
||
}
|
||
|
||
// Perform query and print result
|
||
void print_nvidia_value(struct text_object *obj, char *p,
|
||
unsigned int p_max_size) {
|
||
nvidia_s *nvs = static_cast<nvidia_s *>(obj->data.opaque);
|
||
int value;
|
||
int temp1;
|
||
int temp2;
|
||
int result;
|
||
char *str;
|
||
int event_base;
|
||
int error_base;
|
||
|
||
Display *dpy = nvdisplay ? nvdisplay : display;
|
||
|
||
if (!dpy) {
|
||
NORM_ERR("%s: no display set (try setting nvidia_display)", __func__);
|
||
return;
|
||
}
|
||
|
||
if (!XNVCTRLQueryExtension(dpy, &event_base, &error_base)) {
|
||
NORM_ERR("%s: NV-CONTROL X extension not present", __func__);
|
||
return;
|
||
}
|
||
|
||
// Assume failure
|
||
value = -1;
|
||
str = nullptr;
|
||
|
||
// Perform query if the query exists and isnt stupid
|
||
if (nvs != nullptr &&
|
||
validate_target_id(dpy, nvs->target_id, nvs->attribute)) {
|
||
// Execute switch by query type
|
||
switch (nvs->query) {
|
||
case QUERY_VALUE:
|
||
value = get_nvidia_value(nvs->target, nvs->attribute, nvs->target_id,
|
||
nvs->arg);
|
||
break;
|
||
case QUERY_STRING:
|
||
str = get_nvidia_string(nvs->target, nvs->attribute, nvs->target_id,
|
||
nvs->arg);
|
||
break;
|
||
case QUERY_STRING_VALUE:
|
||
value = get_nvidia_string_value(nvs->target, nvs->attribute, nvs->token,
|
||
nvs->search, nvs->target_id, nvs->arg);
|
||
break;
|
||
case QUERY_SPECIAL:
|
||
switch (nvs->attribute) {
|
||
case ATTR_PERF_MODE:
|
||
temp1 = get_nvidia_value(nvs->target, nvs->attribute,
|
||
nvs->target_id, nvs->arg);
|
||
switch (temp1) {
|
||
case NV_CTRL_GPU_POWER_MIZER_MODE_ADAPTIVE:
|
||
result = asprintf(&str, "Adaptive");
|
||
break;
|
||
case NV_CTRL_GPU_POWER_MIZER_MODE_PREFER_MAXIMUM_PERFORMANCE:
|
||
result = asprintf(&str, "Max. Perf.");
|
||
break;
|
||
case NV_CTRL_GPU_POWER_MIZER_MODE_AUTO:
|
||
result = asprintf(&str, "Auto");
|
||
break;
|
||
case NV_CTRL_GPU_POWER_MIZER_MODE_PREFER_CONSISTENT_PERFORMANCE:
|
||
result = asprintf(&str, "Consistent");
|
||
break;
|
||
default:
|
||
result = asprintf(&str, "Unknown (%d)", value);
|
||
break;
|
||
}
|
||
if (result < 0) { str = nullptr; }
|
||
break;
|
||
case ATTR_MEM_FREE:
|
||
temp1 = get_nvidia_value(nvs->target, ATTR_MEM_USED, nvs->target_id,
|
||
nvs->arg);
|
||
temp2 = get_nvidia_value(nvs->target, ATTR_MEM_TOTAL,
|
||
nvs->target_id, nvs->arg);
|
||
value = temp2 - temp1;
|
||
break;
|
||
case ATTR_MEM_UTIL:
|
||
temp1 = get_nvidia_value(nvs->target, ATTR_MEM_USED, nvs->target_id,
|
||
nvs->arg);
|
||
temp2 = get_nvidia_value(nvs->target, ATTR_MEM_TOTAL,
|
||
nvs->target_id, nvs->arg);
|
||
value = ((float)temp1 * 100 / (float)temp2) + 0.5;
|
||
break;
|
||
default:
|
||
break;
|
||
}
|
||
break;
|
||
default:
|
||
break;
|
||
}
|
||
}
|
||
|
||
// Print result
|
||
if (value != -1) {
|
||
snprintf(p, p_max_size, "%d", value);
|
||
} else if (str != nullptr) {
|
||
snprintf(p, p_max_size, "%s", str);
|
||
free_and_zero(str);
|
||
} else {
|
||
snprintf(p, p_max_size, "%s", "N/A");
|
||
}
|
||
}
|
||
|
||
double get_nvidia_barval(struct text_object *obj) {
|
||
nvidia_s *nvs = static_cast<nvidia_s *>(obj->data.opaque);
|
||
int temp1;
|
||
int temp2;
|
||
double value;
|
||
int event_base;
|
||
int error_base;
|
||
|
||
Display *dpy = nvdisplay ? nvdisplay : display;
|
||
|
||
if (!dpy) {
|
||
NORM_ERR("%s: no display set (try setting nvidia_display)", __func__);
|
||
return 0;
|
||
}
|
||
|
||
if (!XNVCTRLQueryExtension(dpy, &event_base, &error_base)) {
|
||
NORM_ERR("%s: NV-CONTROL X extension not present", __func__);
|
||
return 0;
|
||
}
|
||
|
||
// Assume failure
|
||
value = 0;
|
||
|
||
// Convert query_result to a percentage using ((val-min)÷(max-min)×100)+0.5 if
|
||
// needed.
|
||
if (nvs != nullptr &&
|
||
validate_target_id(dpy, nvs->target_id, nvs->attribute)) {
|
||
switch (nvs->attribute) {
|
||
case ATTR_UTILS_STRING: // one of the percentage utils (gpuutil,
|
||
// membwutil, videoutil and pcieutil)
|
||
value =
|
||
get_nvidia_string_value(nvs->target, ATTR_UTILS_STRING, nvs->token,
|
||
nvs->search, nvs->target_id, nvs->arg);
|
||
break;
|
||
case ATTR_MEM_UTIL: // memutil
|
||
case ATTR_MEM_USED:
|
||
temp1 = get_nvidia_value(nvs->target, ATTR_MEM_USED, nvs->target_id,
|
||
nvs->arg);
|
||
temp2 = get_nvidia_value(nvs->target, ATTR_MEM_TOTAL, nvs->target_id,
|
||
nvs->arg);
|
||
value = ((float)temp1 * 100 / (float)temp2) + 0.5;
|
||
break;
|
||
case ATTR_MEM_FREE: // memfree
|
||
temp1 = get_nvidia_value(nvs->target, ATTR_MEM_USED, nvs->target_id,
|
||
nvs->arg);
|
||
temp2 = get_nvidia_value(nvs->target, ATTR_MEM_TOTAL, nvs->target_id,
|
||
nvs->arg);
|
||
value = temp2 - temp1;
|
||
break;
|
||
case ATTR_FAN_SPEED: // fanspeed: Warn user we are using fanlevel
|
||
NORM_ERR(
|
||
"%s: invalid argument specified: '%s' (using 'fanlevel' instead).",
|
||
nvs->command, nvs->arg);
|
||
/* falls through */
|
||
case ATTR_FAN_LEVEL: // fanlevel
|
||
value = get_nvidia_value(nvs->target, ATTR_FAN_LEVEL, nvs->target_id,
|
||
nvs->arg);
|
||
break;
|
||
case ATTR_GPU_TEMP: // gputemp (calculate out of gputempthreshold)
|
||
temp1 = get_nvidia_value(nvs->target, ATTR_GPU_TEMP, nvs->target_id,
|
||
nvs->arg);
|
||
temp2 = get_nvidia_value(nvs->target, ATTR_GPU_TEMP_THRESHOLD,
|
||
nvs->target_id, nvs->arg);
|
||
value = ((float)temp1 * 100 / (float)temp2) + 0.5;
|
||
break;
|
||
case ATTR_AMBIENT_TEMP: // ambienttemp (calculate out of gputempthreshold
|
||
// for consistency)
|
||
temp1 = get_nvidia_value(nvs->target, ATTR_AMBIENT_TEMP, nvs->target_id,
|
||
nvs->arg);
|
||
temp2 = get_nvidia_value(nvs->target, ATTR_GPU_TEMP_THRESHOLD,
|
||
nvs->target_id, nvs->arg);
|
||
value = ((float)temp1 * 100 / (float)temp2) + 0.5;
|
||
break;
|
||
case ATTR_GPU_FREQ: // gpufreq (calculate out of gpufreqmax)
|
||
temp1 = get_nvidia_value(nvs->target, ATTR_GPU_FREQ, nvs->target_id,
|
||
nvs->arg);
|
||
temp2 = get_nvidia_string_value(nvs->target, ATTR_PERFMODES_STRING,
|
||
(char *)"nvclockmax", SEARCH_MAX,
|
||
nvs->target_id, nvs->arg);
|
||
value = ((float)temp1 * 100 / (float)temp2) + 0.5;
|
||
break;
|
||
case ATTR_MEM_FREQ: // memfreq (calculate out of memfreqmax)
|
||
temp1 = get_nvidia_value(nvs->target, ATTR_MEM_FREQ, nvs->target_id,
|
||
nvs->arg);
|
||
temp2 = get_nvidia_string_value(nvs->target, ATTR_PERFMODES_STRING,
|
||
(char *)"memclockmax", SEARCH_MAX,
|
||
nvs->target_id, nvs->arg);
|
||
value = ((float)temp1 * 100 / (float)temp2) + 0.5;
|
||
break;
|
||
case ATTR_FREQS_STRING: // mtrfreq (calculate out of memfreqmax)
|
||
if (strcmp(nvs->token, "memTransferRate") != 0) {
|
||
// Just in case error for silly devs
|
||
CRIT_ERR(nullptr, NULL,
|
||
"%s: attribute is 'ATTR_FREQS_STRING' but token is not "
|
||
"\"memTransferRate\" (arg: '%s')",
|
||
nvs->command, nvs->arg);
|
||
return 0;
|
||
}
|
||
temp1 =
|
||
get_nvidia_string_value(nvs->target, ATTR_FREQS_STRING, nvs->token,
|
||
SEARCH_MAX, nvs->target_id, nvs->arg);
|
||
temp2 = get_nvidia_string_value(nvs->target, ATTR_PERFMODES_STRING,
|
||
(char *)"memTransferRatemax",
|
||
SEARCH_MAX, nvs->target_id, nvs->arg);
|
||
if (temp2 > temp1) temp1 = temp2; // extra safe here
|
||
value = ((float)temp1 * 100 / (float)temp2) + 0.5;
|
||
break;
|
||
case ATTR_IMAGE_QUALITY: // imagequality
|
||
value = get_nvidia_value(nvs->target, ATTR_IMAGE_QUALITY,
|
||
nvs->target_id, nvs->arg);
|
||
break;
|
||
|
||
default: // Throw error if unsupported args are used
|
||
CRIT_ERR(nullptr, NULL, "%s: invalid argument specified: '%s'",
|
||
nvs->command, nvs->arg);
|
||
}
|
||
}
|
||
|
||
// Return the percentage
|
||
return value;
|
||
}
|
||
|
||
// Cleanup
|
||
void free_nvidia(struct text_object *obj) {
|
||
nvidia_s *nvs = static_cast<nvidia_s *>(obj->data.opaque);
|
||
delete nvs;
|
||
obj->data.opaque = nullptr;
|
||
}
|