diff --git a/06_generate_debian_console_root.sh b/06_generate_debian_console_root.sh index 12c5643..1e19e80 100755 --- a/06_generate_debian_console_root.sh +++ b/06_generate_debian_console_root.sh @@ -72,6 +72,14 @@ fi # setuid root ping+ping6 chmod u+s ./ignore/.root/usr/bin/ping ./ignore/.root/usr/bin/ping6 +mkdir -p ./ignore/.root/etc/beagleboard/gateware/ +mkdir -p ./ignore/.root/etc/microchip/ + +cp -v ./rootfs/etc/beagleboard/gateware/* ./ignore/.root/etc/beagleboard/gateware/ +cp -v ./rootfs/etc/microchip/* ./ignore/.root/etc/microchip/ +chmod +x ./ignore/.root/etc/beagleboard/gateware/change-gateware.sh +chmod +x ./ignore/.root/etc/microchip/update-gateware.sh + if [ -f ./deploy/.modules ] ; then version=$(cat ./deploy/.modules || true) if [ -f ./deploy/${version}-modules.tar.gz ] ; then diff --git a/patches/linux/mpfs_defconfig b/patches/linux/mpfs_defconfig index 0c2e6e9..97764b7 100644 --- a/patches/linux/mpfs_defconfig +++ b/patches/linux/mpfs_defconfig @@ -15,7 +15,7 @@ CONFIG_CC_HAS_ASM_GOTO_OUTPUT=y CONFIG_CC_HAS_ASM_GOTO_TIED_OUTPUT=y CONFIG_CC_HAS_ASM_INLINE=y CONFIG_CC_HAS_NO_PROFILE_FN_ATTR=y -CONFIG_PAHOLE_VERSION=0 +CONFIG_PAHOLE_VERSION=124 CONFIG_IRQ_WORK=y CONFIG_BUILDTIME_TABLE_SORT=y CONFIG_THREAD_INFO_IN_TASK=y diff --git a/rootfs/etc/beagleboard/gateware/change-gateware.sh b/rootfs/etc/beagleboard/gateware/change-gateware.sh new file mode 100644 index 0000000..4b7ffe9 --- /dev/null +++ b/rootfs/etc/beagleboard/gateware/change-gateware.sh @@ -0,0 +1,21 @@ +#!/bin/bash + +if [ -d $1 ] +then + echo "Changing gateware." + if [ -e $1/mpfs_bitstream.spi ] + then + if [ -e $1/mpfs_dtbo.spi ] + then + cp $1/mpfs_dtbo.spi /lib/firmware/mpfs_dtbo.spi + cp $1/mpfs_bitstream.spi /lib/firmware/mpfs_bitstream.spi + . /etc/microchip/update-gateware.sh + else + echo "No device tree overlay file found." + fi + else + echo "No gateware file found." + fi +else + echo "No directory found for this requested gateware." +fi diff --git a/rootfs/etc/microchip/mcp356x_read.py b/rootfs/etc/microchip/mcp356x_read.py new file mode 100644 index 0000000..d73787d --- /dev/null +++ b/rootfs/etc/microchip/mcp356x_read.py @@ -0,0 +1,322 @@ +#!/bin/env python3 + +# +# This script is intended to be run with python 3 +# + +import time +import os +import re +import subprocess +import functools + +voltage_raws = [] + +voltage_differential_raws = [] + +voltage_scales = [ "in_voltage-voltage_scale" ] + +hw_gain = [ "hardwaregain" ] + +hw_gain_available = [ hw_gain[0] + "_available" ] + +calib_bias = [ "calibbias" ] + +calib_bias_available = [ calib_bias[0] + "_available" ] + +calib_scale = [ "calibscale" ] + +calib_scale_available = [ calib_scale[0] + "_available" ] + +oversampling_ratio = [ "oversampling_ratio" ] + +oversampling_ratio_available = [ oversampling_ratio[0] + "_available" ] +temperature_raws = [ "in_temp_raw" ] + +temperature_scale = [ "in_temp_scale" ] + +DIR_PATH="/sys/bus/iio/devices/" +device = [] +mcp_devices = [] + +device2channels ={} + + +new_line = '\n' + +def mult(file1_name, file2_name): + global ABS_PATH + file1 = open(ABS_PATH+file1_name,'r') + val1 = int(file1.read()) + file1.close() + file2 = open(ABS_PATH+file2_name,'r') + val2 = float(file2.read()) + file2.close() + return (val1 * val2) + + +def print_attribute(file_name): + global ABS_PATH + attr_file = open(ABS_PATH + file_name,'r') + string = attr_file.read() + attr_file.close() + # clean the string for printing + string = string.replace("0000000", "") + return string + +def calculate_temperature(file1_name): + global ABS_PATH + + name_file = open(ABS_PATH + "name",'r') + device_name_string = name_file.read() + name_file.close() + + temperature = open(ABS_PATH+file1_name,'r') + temperature_val = int(temperature.read()) + temperature.close() + + if ( 'mcp3564\n' == device_name_string ): + return temperature_val * 4.0096 * 0.0001 * 2.4 - 269.13 + else: + return 0 + +def write_attribute(file_name, value): + global ABS_PATH + attr_file = open(ABS_PATH + file_name,'w') + attr_file.write(value) + attr_file.close() + return 0 + +def get_name(file_name): + global ABS_PATH + attr_file = open(file_name,'r') + string = attr_file.read() + attr_file.close() + return string + + + + +if not os.path.isdir(DIR_PATH): + print('IIO is not enabled') + exit() + +proc = subprocess.Popen("ls -1 " + DIR_PATH + "| grep device", shell=True, stdout=subprocess.PIPE, stderr=subprocess.PIPE) +stdout, stderr = proc.communicate() + +lines = stdout.decode('utf-8').split('\n') + +print('Search for devices:') +for line in lines: + path=DIR_PATH + line + if os.path.exists(path): + if os.path.exists(path + "/name"): + device_name= get_name(path + "/name") + + print('------------->', device_name) + + if re.search(r"mcp3[45]6[124][rR]", device_name): + device_index = re.findall(r'\d+', line) + if device_index: + mcp_devices.append(device_index[0]) + + # get voltage_raws* + proc_channels = subprocess.Popen("ls -1 " + path + "/ | grep in_voltage* | grep -v scale | grep -v \"-\"", shell=True, stdout=subprocess.PIPE, stderr=subprocess.PIPE) + stdout_channels, stderr_channels = proc_channels.communicate() + voltage_raws = stdout_channels.decode('utf-8').split('\n') + voltage_raws = voltage_raws[:-1] + + # get voltage_differential_raws + proc_channels = subprocess.Popen("ls -1 " + path + "/ | grep in_voltage* | grep -v scale | grep \"-\"", shell=True, stdout=subprocess.PIPE, stderr=subprocess.PIPE) + stdout_channels, stderr_channels = proc_channels.communicate() + voltage_differential_raws = stdout_channels.decode('utf-8').split('\n') + voltage_differential_raws = voltage_differential_raws[:-1] + + +for mcp_device in mcp_devices: + ABS_PATH = f'{DIR_PATH}iio:device{mcp_device}/' + + print('--------------------------------') + print('--------------------------------') + print('--------------------------------') + print(f'Device: {print_attribute("name")}') + print('--------------------------------') + + print(f'Available Voltage Oversampling Ratio:') + oversampling_ratio_string = print_attribute(oversampling_ratio_available[0]) + oversampling_ratio_list = oversampling_ratio_string.split() + print(f' {oversampling_ratio_string}') + + print('--------------------------------') + print(f'Current Voltage Oversampling Ratio: %s' % (print_attribute(oversampling_ratio[0]))) + print('--------------------------------') + + print(f'Available Voltage Hardware Gain:') + hw_gain_string = print_attribute(hw_gain_available[0]) + hw_gain_list = hw_gain_string.split() + print(f' {hw_gain_string}') + + print('--------------------------------') + print(f'Current Voltage Hardware Gain: %s' % (print_attribute(hw_gain[0]))) + print('--------------------------------') + + print(f'Available Voltage Calibration Bias {new_line} [ Low, Step, High ] {new_line} %s' % (print_attribute(calib_bias_available[0]).replace(" ", " "))) + + print('--------------------------------') + print(f'Current Voltage Calibration Bias: %s' % (print_attribute(calib_bias[0]))) + print('--------------------------------') + + print(f'Available Voltage Calibration Scale {new_line} [ Low, Step, High ] {new_line} %s' % (print_attribute(calib_scale_available[0]).replace(" ", " "))) + + print('--------------------------------') + print(f'Current Voltage Calibration Scale: %s' % (print_attribute(calib_scale[0]))) + print('--------------------------------') + + print('--------------------------------') + # Measured voltage in millivolts + # U = in2_raw * in_scale + + print('\n Voltage') + print('=========') + + print(f' Channel V mV') + for raw in voltage_raws: + # Voltage Scale is in mV + voltage_mv = mult(raw,voltage_scales[0]) + voltage = voltage_mv/1000 + print('---------------------------------------------------------------------') + print(f' {raw}: %2.4f | %5.6f' % (voltage, voltage_mv)) + + print('\n\n--------------------------------') + + + print('\n Differential Voltage') + print('======================') + + print(f' Channel V mV') + for raw in voltage_differential_raws: + # Voltage Scale is in mV + voltage_mv = mult(raw,voltage_scales[0]) + voltage = voltage_mv/1000 + print('---------------------------------------------------------------------') + print(f' {raw}: %8.4f | %15.6f' % (voltage, voltage_mv)) + + print('\n\n--------------------------------') + print('\n\n Temperature(',u'\xb0\x43','): %8.4f' % calculate_temperature(temperature_raws[0])) + print('\n\n--------------------------------') + + if os.geteuid()==0: + print('\n\n================================') + print ('Running as root.') + print('================================\n\n') + + # Testing Hardware Gain + current_hw_gain = print_attribute(hw_gain[0]) + print(f' Current Voltage Hardware Gain: x{current_hw_gain}') + + + print('\n================================') + print(f' Testing Hardware gain settings: {hw_gain_string}') + print('================================\n') + print('--------------------------------') + + for hw_gain_value in hw_gain_list: + print(f' {new_line} Set Voltage Hardware Gain: x{hw_gain_value}') + + write_attribute(hw_gain[0], hw_gain_value) + + print(f' Channel V mV') + voltage_mv = mult(voltage_differential_raws[0], voltage_scales[0]) + voltage = voltage_mv/1000 + print('---------------------------------------------------------------------') + print(f' {voltage_differential_raws[0]}: %2.4f | %5.6f -> Hw Gain: x%s' % (voltage, voltage_mv, print_attribute(hw_gain[0]))) + print('---------------------------------------------------------------------------------------------------------------------') + + # set back the Hardware Gain + write_attribute(hw_gain[0], current_hw_gain) + print('--------------------------------') + + # Testing Oversampling Ratio + current_oversampling_ratio = print_attribute(oversampling_ratio[0]) + print(f' Current Oversampling Ratio: x{current_oversampling_ratio}') + + print(f' {new_line}') + print('\n================================') + print(f' Testing Oversampling Ratio settings: {oversampling_ratio_string}') + print('================================\n') + print('--------------------------------') + + for oversampling_ratio_value in oversampling_ratio_list: + print(f' {new_line} Set Oversampling Ratio: x{oversampling_ratio_value}') + + write_attribute(oversampling_ratio[0], oversampling_ratio_value) + + print(f' Channel V mV') + voltage_mv = mult(voltage_differential_raws[0], voltage_scales[0]) + voltage = voltage_mv/1000 + print('---------------------------------------------------------------------') + print(f' {voltage_differential_raws[0]}: %2.4f | %5.6f -> Oversampling Ratio: x%s' % (voltage, voltage_mv, print_attribute(oversampling_ratio[0]))) + print('---------------------------------------------------------------------------------------------------------------------') + + # set back the Oversampling Ratio + write_attribute(oversampling_ratio[0], current_oversampling_ratio) + print('\n--------------------------------') + + # Testing Calibration BIAS + current_calib_bias = print_attribute(calib_bias[0]) + print(f'{new_line} Current Calibration BIAS: {current_calib_bias}') + + print('\n\n================================') + print(f' Testing Calibration Bias settings') + print('================================\n') + print('--------------------------------\n') + + calib_bias_value = "50000" + print(f' {new_line} Set Calibration BIAS: {calib_bias_value}') + + write_attribute(calib_bias[0], calib_bias_value) + + print(f' Channel V mV') + voltage_mv = mult(voltage_differential_raws[0], voltage_scales[0]) + voltage = voltage_mv/1000 + print('---------------------------------------------------------------------') + print(f' {voltage_differential_raws[0]}: %2.4f | %5.6f -> Calibration BIAS: %s' % (voltage, voltage_mv, print_attribute(calib_bias[0]))) + print('---------------------------------------------------------------------------------------------------------------------') + + # set back the Calibration Bias + write_attribute(calib_bias[0], "0") + print('\n--------------------------------') + + # Testing Calibration Scale + calib_scale_x1_gain = 8388608 + + current_calib_scale = print_attribute(calib_scale[0]) + print(f'{new_line} Current Calibration Scale: {int(current_calib_scale)/calib_scale_x1_gain}') + + print('\n\n================================') + print(f' Testing Calibration Scale settings') + print('================================\n') + print('--------------------------------') + + calib_scale_value = 4194304; + print(f' {new_line} Set Calibration Scale: {calib_scale_value/calib_scale_x1_gain}') + + write_attribute(calib_scale[0], str(calib_scale_value)) + + print(f' Channel V mV') + voltage_mv = mult(voltage_differential_raws[0], voltage_scales[0]) + voltage = voltage_mv/1000 + print('---------------------------------------------------------------------') + calib_scale_string = print_attribute(calib_scale[0]) + calib_scale_int = int(calib_scale_string) + print(f' {voltage_differential_raws[0]}: %2.4f | %5.6f -> Calibration Scale: x%2.6f' % (voltage, voltage_mv, calib_scale_int/calib_scale_x1_gain)) + print('*********************************************************************************************************************') + print('*********************************************************************************************************************') + print('*********************************************************************************************************************') + + # set back the Calibration Scale + write_attribute(calib_scale[0], str(calib_scale_x1_gain)) + + else: + print ('User is not root.\n') + print ('Changing the user configurable settings must by done by root user.\n') \ No newline at end of file diff --git a/rootfs/etc/microchip/update-gateware.sh b/rootfs/etc/microchip/update-gateware.sh new file mode 100644 index 0000000..f65daf6 --- /dev/null +++ b/rootfs/etc/microchip/update-gateware.sh @@ -0,0 +1,36 @@ +#!/bin/bash +echo "================================================================================" +echo "| FPGA Gateware Update |" +echo "| |" +echo "| Please ensure that the mpfs_bitstream.spi file containing the gateware |" +echo "| update has been copied to directory /lib/firmware. |" +echo "| |" +echo "| !!! This will take a couple of minutes. !!! |" +echo "| |" +echo "| Give the system a few minutes to reboot itself |" +echo "| after Linux has shutdown. |" +echo "| |" +echo "================================================================================" + +read -rsp $'Press any key to continue...\n' -n1 key + +mount -t debugfs none /sys/kernel/debug + +# Trash exisitng device tree overlay in case the rest of the process fails: +mtd_debug erase /dev/mtd0 0x0 0x10000 + +# Write device tree overlay +dtbo_ls=$(ls -l /lib/firmware/mpfs_dtbo.spi) +dtbo_size=$(echo $dtbo_ls | cut -d " " -f 5) + +mtd_debug write /dev/mtd0 0x400 $dtbo_size /lib/firmware/mpfs_dtbo.spi > /dev/zero + +# Fake the presence of a golden image for now. +mtd_debug write /dev/mtd0 0 4 /dev/zero > /dev/zero + +# Initiate FPGA update. +echo 1 > /sys/kernel/debug/fpga/microchip_exec_update + +# Reboot Linux for the gateware update to take effect. +# FPGA reprogramming takes places between Linux shut-down and HSS restarting the board. +reboot