#!/bin/sh ####################################################################################### ## ## Raspberry Pi Agent script that allows to poll health data and model ## (temperature, voltage, frequency) ## ## Needed commands: vcgencmd ## ## Version 1.0 By: ## All In One - Dennis de Houx ## ####################################################################################### vcgencmd=`which vcgencmd` if [ $? -eq 0 ] then CLOCK_ARM=`vcgencmd measure_clock arm | cut -d '=' -f 2` CLOCK_CORE=`vcgencmd measure_clock core | cut -d '=' -f 2` CLOCK_H264=`vcgencmd measure_clock h264 | cut -d '=' -f 2` CLOCK_ISP=`vcgencmd measure_clock isp | cut -d '=' -f 2` CLOCK_V3D=`vcgencmd measure_clock v3d | cut -d '=' -f 2` CLOCK_UART=`vcgencmd measure_clock uart | cut -d '=' -f 2` CLOCK_PWM=`vcgencmd measure_clock pwm | cut -d '=' -f 2` CLOCK_EMMC=`vcgencmd measure_clock emmc | cut -d '=' -f 2` CLOCK_PIXEL=`vcgencmd measure_clock pixel | cut -d '=' -f 2` CLOCK_VEC=`vcgencmd measure_clock vec | cut -d '=' -f 2` CLOCK_HDMI=`vcgencmd measure_clock hdmi | cut -d '=' -f 2` CLOCK_DPI=`vcgencmd measure_clock dpi | cut -d '=' -f 2` VOLTS_CORE=`vcgencmd measure_volts core | cut -d '=' -f 2 | sed 's/V/ /'` VOLTS_SDRAMC=`vcgencmd measure_volts sdram_c | cut -d '=' -f 2 | sed 's/V//'` VOLTS_SDRAMI=`vcgencmd measure_volts sdram_i | cut -d '=' -f 2 | sed 's/V//'` VOLTS_SDRAMP=`vcgencmd measure_volts sdram_p | cut -d '=' -f 2 | sed 's/V//'` TEMP=`vcgencmd measure_temp | cut -d '=' -f 2 | sed "s/'C//" | sed "s/'F//"` MODEL=`tr -d '\0' < /sys/firmware/devicetree/base/model` if [ -z "$CLOCK_ARM" ]; then echo "<<>>" echo "clock-arm: 0" else echo "<<>>" echo "clock-arm: $CLOCK_ARM" fi if [ -z "$CLOCK_CORE" ]; then echo "clock-core: 0" else echo "clock-core: $CLOCK_CORE" fi if [ -z "$CLOCK_H264" ]; then echo "clock-h264: 0" else echo "clock-h264: $CLOCK_H264" fi if [ -z "$CLOCK_ISP" ]; then echo "clock-isp: 0" else echo "clock-isp: $CLOCK_ISP" fi if [ -z "$CLOCK_V3D" ]; then echo "clock-v3d: 0" else echo "clock-v3d: $CLOCK_V3D" fi if [ -z "$CLOCK_UART" ]; then echo "clock-uart: 0" else echo "clock-uart: $CLOCK_UART" fi if [ -z "$CLOCK_PWM" ]; then echo "clock-pwm: 0" else echo "clock-pwm: $CLOCK_PWM" fi if [ -z "$CLOCK_EMMC" ]; then echo "clock-emmc: 0" else echo "clock-emmc: $CLOCK_EMMC" fi if [ -z "$CLOCK_PIXEL" ]; then echo "clock-pixel: 0" else echo "clock-pixel: $CLOCK_PIXEL" fi if [ -z "$CLOCK_VEC" ]; then echo "clock-vec: 0" else echo "clock-vec: $CLOCK_VEC" fi if [ -z "$CLOCK_HDMI" ]; then echo "clock-hdmi: 0" else echo "clock-hdmi: $CLOCK_HDMI" fi if [ -z "$CLOCK_DPI" ]; then echo "clock-dpi: 0" else echo "clock-dpi: $CLOCK_DPI" fi if [ -z "$VOLTS_CORE" ]; then echo "volts-core: 0" else echo "volts-core: $VOLTS_CORE" fi if [ -z "$VOLTS_SDRAMC" ]; then echo "volts-sdramc: 0" else echo "volts-sdramc: $VOLTS_SDRAMC" fi if [ -z "$VOLTS_SDRAMI" ]; then echo "volts-sdrami: 0" else echo "volts-sdrami: $VOLTS_SDRAMI" fi if [ -z "$VOLTS_SDRAMP" ]; then echo "volts-sdramp: 0" else echo "volts-sdramp: $VOLTS_SDRAMP" fi if [ -z "$TEMP" ]; then echo "temp: 0" else echo "temp: $TEMP" fi if [ -z "$MODEL" ]; then echo "model: 0" else echo "model: $MODEL" fi fi