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Replaced dd w/ fio; Added fio/iperf3 binaries; Added 32-bit and IPv6 support

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Mason Rowe
2020-02-04 21:43:28 -05:00
parent a6ca7214aa
commit 2c74b1a9b6
12 changed files with 337 additions and 144 deletions
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yabs.sh
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@@ -1,21 +1,21 @@
#!/bin/bash
# Yet Another Bench Script by Mason Rowe
# Initial Oct 2019; Updated Jan 2020
# Initial Oct 2019; Updated Feb 2020
#
# Disclaimer: This project is a work in progress. Any errors or suggestions should be
# relayed to me via the GitHub project page linked below.
#
# Purpose: The purpose of this script is to quickly gauge the performance of a Linux-
# based server by benchmarking network performance via iperf3, CPU and
# overall system performance via Geekbench 4, and simple sequential disk
# performance via dd. The script is designed to not require any dependencies
# overall system performance via Geekbench 4, and sequential + random disk
# performance via fio. The script is designed to not require any dependencies
# - either compiled or installed - nor admin privileges to run.
#
echo -e '# ## ## ## ## ## ## ## ## ## ## ## ## ## ## ## ## ## #'
echo -e '# Yet-Another-Bench-Script #'
echo -e '# v2020-01-08 #'
echo -e '# v2020-02-04 #'
echo -e '# https://github.com/masonr/yet-another-bench-script #'
echo -e '# ## ## ## ## ## ## ## ## ## ## ## ## ## ## ## ## ## #'
@@ -25,6 +25,20 @@ date
# override locale to eliminate parsing errors (i.e. using commas a delimiters rather than periods)
export LC_ALL=C
# determine architecture of host
ARCH=$(uname -m)
if [[ $ARCH = *x86_64* ]]; then
# host is running a 64-bit kernel
ARCH="x64"
elif [[ $ARCH = *i?86* ]]; then
# host is running a 32-bit kernel
ARCH="x86"
else
# host is running a non-supported kernel
echo -e "Architecture not supported by YABS."
exit 1
fi
# gather basic system information (inc. CPU, AES-NI/virt status, RAM + swap + disk size)
echo -e
echo -e "Basic System Information:"
@@ -62,89 +76,204 @@ rm $DATE.test
mkdir -p $YABS_PATH
# flags to skip certain performance tests
SKIP_DISK=""
SKIP_FIO=""
SKIP_IPERF=""
SKIP_GEEKBENCH=""
# get any arguments that were passed to the script and set the associated skip flags (if applicable)
while getopts 'dig' flag; do
while getopts 'fdig' flag; do
case "${flag}" in
d) SKIP_DISK="True" ;;
f) SKIP_FIO="True" ;;
d) SKIP_FIO="True" ;;
i) SKIP_IPERF="True" ;;
g) SKIP_GEEKBENCH="True" ;;
*) exit 1 ;;
esac
done
# test if the host has IPv4/IPv6 connectivity
IPV4_CHECK=$(curl -s -4 -m 4 icanhazip.com 2> /dev/null)
IPV6_CHECK=$(curl -s -6 -m 4 icanhazip.com 2> /dev/null)
# format_speed
# Purpose: This method is a convienence function to format the output of the fio disk tests which
# always returns a result in KB/s. If result is >= 1 GB/s, use GB/s. If result is < 1 GB/s
# and >= 1 MB/s, then use MB/s. Otherwise, use KB/s.
# Parameters:
# 1. RAW - the raw disk speed result (in KB/s)
# Returns:
# Formatted disk speed in GB/s, MB/s, or KB/s
function format_speed {
RAW=$1 # disk speed in KB/s
RESULT=$RAW
local DENOM=1
local UNIT="KB/s"
# ensure raw value is not null, if it is, return blank
if [ -z "$RAW" ]; then
echo ""
return 0
fi
# check if disk speed >= 1 GB/s
if [ "$RAW" -ge 1000000 ]; then
DENOM=1000000
UNIT="GB/s"
# check if disk speed < 1 GB/s && >= 1 MB/s
elif [ "$RAW" -ge 1000 ]; then
DENOM=1000
UNIT="MB/s"
fi
# divide the raw result to get the corresponding formatted result (based on determined unit)
RESULT=$(awk -v a="$RESULT" -v b="$DENOM" 'BEGIN { print a / b }')
# shorten the formatted result to two decimal places (i.e. x.xx)
RESULT=$(echo $RESULT | awk -F. '{ printf "%0.2f",$1"."substr($2,1,2) }')
# concat formatted result value with units and return result
RESULT="$RESULT $UNIT"
echo $RESULT
}
# format_iops
# Purpose: This method is a convienence function to format the output of the raw IOPS result
# Parameters:
# 1. RAW - the raw IOPS result
# Returns:
# Formatted IOPS (i.e. 8, 123, 1.7k, 275.9k, etc.)
function format_iops {
RAW=$1 # iops
RESULT=$RAW
# ensure raw value is not null, if it is, return blank
if [ -z "$RAW" ]; then
echo ""
return 0
fi
# check if IOPS speed > 1k
if [ "$RAW" -ge 1000 ]; then
# divide the raw result by 1k
RESULT=$(awk -v a="$RESULT" 'BEGIN { print a / 1000 }')
# shorten the formatted result to one decimal place (i.e. x.x)
RESULT=$(echo $RESULT | awk -F. '{ printf "%0.1f",$1"."substr($2,1,1) }')
RESULT="$RESULT"k
fi
echo $RESULT
}
# disk_test
# Purpose: This method is designed to test the disk performance of the host using the partition that the
# script is being run from using dd sequential speed tests and averaging the results.
# script is being run from using fio sequential and random read/write speed tests.
# Parameters:
# - (none)
function disk_test {
I=0
DISK_WRITE_TEST_RES=()
DISK_READ_TEST_RES=()
DISK_WRITE_TEST_AVG=0
DISK_READ_TEST_AVG=0
# run a quick test to generate the fio test file to be used by the actual tests
echo -en "Generating fio test file..."
$DISK_PATH/fio --name=setup --ioengine=libaio --rw=read --bs=4k --iodepth=64 --numjobs=2 --size=2G --runtime=1 --gtod_reduce=1 --filename=$DISK_PATH/test.fio --direct=1 --minimal &> /dev/null
echo -en "\r\033[0K"
# run the disk speed tests (write and read) thrice over
while [ $I -lt 3 ]
do
# write test using dd, "direct" flag is used to test direct I/O for data being stored to disk
DISK_WRITE_TEST=$(dd if=/dev/zero of=$DISK_PATH/$DATE.test bs=64k count=16k oflag=direct |& grep copied | awk '{ print $(NF-1) " " $(NF)}')
VAL=$(echo $DISK_WRITE_TEST | cut -d " " -f 1)
[[ "$DISK_WRITE_TEST" == *"GB"* ]] && VAL=$(awk -v a="$VAL" 'BEGIN { print a * 1000 }')
DISK_WRITE_TEST_RES+=( "$DISK_WRITE_TEST" )
DISK_WRITE_TEST_AVG=$(awk -v a="$DISK_WRITE_TEST_AVG" -v b="$VAL" 'BEGIN { print a + b }')
# read test using dd using the 1G file written during the write test
DISK_READ_TEST=$(dd if=$DISK_PATH/$DATE.test of=/dev/null bs=8k |& grep copied | awk '{ print $(NF-1) " " $(NF)}')
VAL=$(echo $DISK_READ_TEST | cut -d " " -f 1)
[[ "$DISK_READ_TEST" == *"GB"* ]] && VAL=$(awk -v a="$VAL" 'BEGIN { print a * 1000 }')
DISK_READ_TEST_RES+=( "$DISK_READ_TEST" )
DISK_READ_TEST_AVG=$(awk -v a="$DISK_READ_TEST_AVG" -v b="$VAL" 'BEGIN { print a + b }')
# run rand read/write mixed 4kb fio test
echo -en "Running fio random mixed read + write disk test with 4kb blocks..."
DISK_RW4_TEST=$(timeout 35 $DISK_PATH/fio --name=rand_rw_4k --ioengine=libaio --rw=randrw --rwmixread=50 --bs=4k --iodepth=64 --numjobs=2 --size=2G --runtime=30 --gtod_reduce=1 --direct=1 --filename=$DISK_PATH/test.fio --group_reporting --minimal 2> /dev/null | grep rand_rw_4k)
DISK_RW4_IOPS_R=$(echo $DISK_RW4_TEST | awk -F';' '{print $8}')
DISK_RW4_IOPS_W=$(echo $DISK_RW4_TEST | awk -F';' '{print $49}')
DISK_RW4_IOPS=$(format_iops $(awk -v a="$DISK_RW4_IOPS_R" -v b="$DISK_RW4_IOPS_W" 'BEGIN { print a + b }'))
DISK_RW4_IOPS_R=$(format_iops $DISK_RW4_IOPS_R)
DISK_RW4_IOPS_W=$(format_iops $DISK_RW4_IOPS_W)
DISK_RW4_TEST_R=$(echo $DISK_RW4_TEST | awk -F';' '{print $7}')
DISK_RW4_TEST_W=$(echo $DISK_RW4_TEST | awk -F';' '{print $48}')
DISK_RW4_TEST=$(format_speed $(awk -v a="$DISK_RW4_TEST_R" -v b="$DISK_RW4_TEST_W" 'BEGIN { print a + b }'))
DISK_RW4_TEST_R=$(format_speed $DISK_RW4_TEST_R)
DISK_RW4_TEST_W=$(format_speed $DISK_RW4_TEST_W)
echo -en "\r\033[0K"
I=$(( $I + 1 ))
done
# calculate the write and read speed averages using the results from the three runs
DISK_WRITE_TEST_AVG=$(awk -v a="$DISK_WRITE_TEST_AVG" 'BEGIN { print a / 3 }')
DISK_READ_TEST_AVG=$(awk -v a="$DISK_READ_TEST_AVG" 'BEGIN { print a / 3 }')
# run rand read/write mixed 64kb fio test
echo -en "Running fio random mixed read + write disk test with 64kb blocks..."
DISK_RW64_TEST=$(timeout 35 $DISK_PATH/fio --name=rand_rw_64k --ioengine=libaio --rw=randrw --rwmixread=50 --bs=64k --iodepth=64 --numjobs=2 --size=2G --runtime=30 --gtod_reduce=1 --direct=1 --filename=$DISK_PATH/test.fio --group_reporting --minimal 2> /dev/null | grep rand_rw_64k)
DISK_RW64_IOPS_R=$(echo $DISK_RW64_TEST | awk -F';' '{print $8}')
DISK_RW64_IOPS_W=$(echo $DISK_RW64_TEST | awk -F';' '{print $49}')
DISK_RW64_IOPS=$(format_iops $(awk -v a="$DISK_RW64_IOPS_R" -v b="$DISK_RW64_IOPS_W" 'BEGIN { print a + b }'))
DISK_RW64_IOPS_R=$(format_iops $DISK_RW64_IOPS_R)
DISK_RW64_IOPS_W=$(format_iops $DISK_RW64_IOPS_W)
DISK_RW64_TEST_R=$(echo $DISK_RW64_TEST | awk -F';' '{print $7}')
DISK_RW64_TEST_W=$(echo $DISK_RW64_TEST | awk -F';' '{print $48}')
DISK_RW64_TEST=$(format_speed $(awk -v a="$DISK_RW64_TEST_R" -v b="$DISK_RW64_TEST_W" 'BEGIN { print a + b }'))
DISK_RW64_TEST_R=$(format_speed $DISK_RW64_TEST_R)
DISK_RW64_TEST_W=$(format_speed $DISK_RW64_TEST_W)
echo -en "\r\033[0K"
# run rand read/write mixed 512kb fio test
echo -en "Running fio random mixed read + write disk test with 512kb blocks..."
DISK_RW512_TEST=$(timeout 35 $DISK_PATH/fio --name=rand_rw_512k --ioengine=libaio --rw=randrw --rwmixread=50 --bs=512k --iodepth=64 --numjobs=2 --size=2G --runtime=30 --gtod_reduce=1 --direct=1 --filename=$DISK_PATH/test.fio --group_reporting --minimal 2> /dev/null | grep rand_rw_512k)
DISK_RW512_IOPS_R=$(echo $DISK_RW512_TEST | awk -F';' '{print $8}')
DISK_RW512_IOPS_W=$(echo $DISK_RW512_TEST | awk -F';' '{print $49}')
DISK_RW512_IOPS=$(format_iops $(awk -v a="$DISK_RW512_IOPS_R" -v b="$DISK_RW512_IOPS_W" 'BEGIN { print a + b }'))
DISK_RW512_IOPS_R=$(format_iops $DISK_RW512_IOPS_R)
DISK_RW512_IOPS_W=$(format_iops $DISK_RW512_IOPS_W)
DISK_RW512_TEST_R=$(echo $DISK_RW512_TEST | awk -F';' '{print $7}')
DISK_RW512_TEST_W=$(echo $DISK_RW512_TEST | awk -F';' '{print $48}')
DISK_RW512_TEST=$(format_speed $(awk -v a="$DISK_RW512_TEST_R" -v b="$DISK_RW512_TEST_W" 'BEGIN { print a + b }'))
DISK_RW512_TEST_R=$(format_speed $DISK_RW512_TEST_R)
DISK_RW512_TEST_W=$(format_speed $DISK_RW512_TEST_W)
echo -en "\r\033[0K"
# run rand read/write mixed 1mb fio test
echo -en "Running fio random mixed read + write disk test with 1mb blocks..."
DISK_RW1M_TEST=$(timeout 35 $DISK_PATH/fio --name=rand_rw_1m --ioengine=libaio --rw=randrw --rwmixread=50 --bs=1m --iodepth=64 --numjobs=2 --size=2G --runtime=30 --gtod_reduce=1 --direct=1 --filename=$DISK_PATH/test.fio --group_reporting --minimal 2> /dev/null | grep rand_rw_1m)
DISK_RW1M_IOPS_R=$(echo $DISK_RW1M_TEST | awk -F';' '{print $8}')
DISK_RW1M_IOPS_W=$(echo $DISK_RW1M_TEST | awk -F';' '{print $49}')
DISK_RW1M_IOPS=$(format_iops $(awk -v a="$DISK_RW1M_IOPS_R" -v b="$DISK_RW1M_IOPS_W" 'BEGIN { print a + b }'))
DISK_RW1M_IOPS_R=$(format_iops $DISK_RW1M_IOPS_R)
DISK_RW1M_IOPS_W=$(format_iops $DISK_RW1M_IOPS_W)
DISK_RW1M_TEST_R=$(echo $DISK_RW1M_TEST | awk -F';' '{print $7}')
DISK_RW1M_TEST_W=$(echo $DISK_RW1M_TEST | awk -F';' '{print $48}')
DISK_RW1M_TEST=$(format_speed $(awk -v a="$DISK_RW1M_TEST_R" -v b="$DISK_RW1M_TEST_W" 'BEGIN { print a + b }'))
DISK_RW1M_TEST_R=$(format_speed $DISK_RW1M_TEST_R)
DISK_RW1M_TEST_W=$(format_speed $DISK_RW1M_TEST_W)
echo -en "\r\033[0K"
}
# if the skip disk flag was set, skip the disk performance test, otherwise test disk performance
if [ -z "$SKIP_DISK" ]; then
echo -en "\nPerforming disk performance test. This may take a couple minutes to complete..."
if [ -z "$SKIP_FIO" ]; then
echo -en "\nPreparing system for disk tests..."
# create temp directory to store disk write/read test files
DISK_PATH=$YABS_PATH/disk
mkdir -p $DISK_PATH
# download fio binary
if [ ! -z "$IPV4_CHECK" ]; then # if IPv4 is enabled
curl -s https://raw.githubusercontent.com/masonr/yet-another-bench-script/master/bin/fio_$ARCH -o $DISK_PATH/fio
else # no IPv4, use IPv6 - below is necessary since raw.githubusercontent.com has no AAAA record
curl -s -k -g --header 'Host: raw.githubusercontent.com' https://[2a04:4e42::133]/masonr/yet-another-bench-script/master/bin/fio_$ARCH -o $DISK_PATH/fio
fi
chmod +x $DISK_PATH/fio
echo -en "\r\033[0K"
# execute disk performance test
disk_test
# format the speed averages by converting to GB/s if > 1000 MB/s
if [ $(echo $DISK_WRITE_TEST_AVG | cut -d "." -f 1) -ge 1000 ]; then
DISK_WRITE_TEST_AVG=$(awk -v a="$DISK_WRITE_TEST_AVG" 'BEGIN { print a / 1000 }')
DISK_WRITE_TEST_UNIT="GB/s"
else
DISK_WRITE_TEST_UNIT="MB/s"
if [ -z "$DISK_RW4_TEST" ]; then # fio was killed or returned an error
echo -e "fio disk speed tests failed. Run manually to determine cause."
else # fio tests completed sucessfully, print results
# print disk speed test results
echo -e "fio Disk Speed Tests (Mixed R/W 50/50):"
echo -e "---------------------------------"
printf "%-10s | %-11s %8s | %-11s %8s\n" "Block Size" "4kb" "(IOPS)" "64kb" "(IOPS)"
printf "%-10s | %-11s %8s | %-11s %8s\n" " ------" "---" "---- " "----" "---- "
printf "%-10s | %-11s %8s | %-11s %8s\n" "Read" "$DISK_RW4_TEST_R" "($DISK_RW4_IOPS_R)" "$DISK_RW64_TEST_R" "($DISK_RW64_IOPS_R)"
printf "%-10s | %-11s %8s | %-11s %8s\n" "Write" "$DISK_RW4_TEST_W" "($DISK_RW4_IOPS_W)" "$DISK_RW64_TEST_W" "($DISK_RW64_IOPS_W)"
printf "%-10s | %-11s %8s | %-11s %8s\n" "Total" "$DISK_RW4_TEST" "($DISK_RW4_IOPS)" "$DISK_RW64_TEST" "($DISK_RW64_IOPS)"
printf "%-10s | %-20s | %-20s\n"
printf "%-10s | %-11s %8s | %-11s %8s\n" "Block Size" "512kb" "(IOPS)" "1mb" "(IOPS)"
printf "%-10s | %-11s %8s | %-11s %8s\n" " ------" "-----" "---- " "---" "---- "
printf "%-10s | %-11s %8s | %-11s %8s\n" "Read" "$DISK_RW512_TEST_R" "($DISK_RW512_IOPS_R)" "$DISK_RW1M_TEST_R" "($DISK_RW1M_IOPS_R)"
printf "%-10s | %-11s %8s | %-11s %8s\n" "Write" "$DISK_RW512_TEST_W" "($DISK_RW512_IOPS_W)" "$DISK_RW1M_TEST_W" "($DISK_RW1M_IOPS_W)"
printf "%-10s | %-11s %8s | %-11s %8s\n" "Total" "$DISK_RW512_TEST" "($DISK_RW512_IOPS)" "$DISK_RW1M_TEST" "($DISK_RW1M_IOPS)"
fi
if [ $(echo $DISK_READ_TEST_AVG | cut -d "." -f 1) -ge 1000 ]; then
DISK_READ_TEST_AVG=$(awk -v a="$DISK_READ_TEST_AVG" 'BEGIN { print a / 1000 }')
DISK_READ_TEST_UNIT="GB/s"
else
DISK_READ_TEST_UNIT="MB/s"
fi
# print dd sequential disk speed test results
echo -en "\r\033[0K"
echo -e "dd Sequential Disk Speed Tests:"
echo -e "---------------------------------"
printf "%-6s | %-6s %-4s | %-6s %-4s | %-6s %-4s | %-6s %-4s\n" "" "Test 1" "" "Test 2" "" "Test 3" "" "Avg" ""
printf "%-6s | %-6s %-4s | %-6s %-4s | %-6s %-4s | %-6s %-4s\n"
printf "%-6s | %-11s | %-11s | %-11s | %-6.2f %-4s\n" "Write" "${DISK_WRITE_TEST_RES[0]}" "${DISK_WRITE_TEST_RES[1]}" "${DISK_WRITE_TEST_RES[2]}" "${DISK_WRITE_TEST_AVG}" "${DISK_WRITE_TEST_UNIT}"
printf "%-6s | %-11s | %-11s | %-11s | %-6.2f %-4s\n" "Read" "${DISK_READ_TEST_RES[0]}" "${DISK_READ_TEST_RES[1]}" "${DISK_READ_TEST_RES[2]}" "${DISK_READ_TEST_AVG}" "${DISK_READ_TEST_UNIT}"
fi
# iperf_test
@@ -173,7 +302,7 @@ function iperf_test {
# run the iperf test sending data from the host to the iperf server; includes
# a timeout of 15s in case the iperf server is not responding; uses 8 parallel
# threads for the network test
IPERF_RUN_SEND="$(LD_LIBRARY_PATH=$IPERF_PATH timeout 15 $IPERF_PATH/iperf3 $FLAGS -c $URL -p $PORT -P 8)"
IPERF_RUN_SEND="$(timeout 15 $IPERF_PATH/iperf3 $FLAGS -c $URL -p $PORT -P 8 2> /dev/null)"
# check if iperf exited cleanly and did not return an error
if [[ "$IPERF_RUN_SEND" == *"receiver"* && "$IPERF_RUN_SEND" != *"error"* ]]; then
# test did not result in an error, parse speed result
@@ -201,7 +330,7 @@ function iperf_test {
# run the iperf test recieving data from the iperf server to the host; includes
# a timeout of 15s in case the iperf server is not responding; uses 8 parallel
# threads for the network test
IPERF_RUN_RECV="$(LD_LIBRARY_PATH=$IPERF_PATH timeout 15 $IPERF_PATH/iperf3 $FLAGS -c $URL -p $PORT -P 8 -R)"
IPERF_RUN_RECV="$(timeout 15 $IPERF_PATH/iperf3 $FLAGS -c $URL -p $PORT -P 8 -R 2> /dev/null)"
# check if iperf exited cleanly and did not return an error
if [[ "$IPERF_RUN_RECV" == *"receiver"* && "$IPERF_RUN_RECV" != *"error"* ]]; then
# test did not result in an error, parse speed result
@@ -248,8 +377,8 @@ function launch_iperf {
IPERF_RECVRESULT_VAL=$(echo $IPERF_RECVRESULT | awk '{ print $6 }')
IPERF_RECVRESULT_UNIT=$(echo $IPERF_RECVRESULT | awk '{ print $7 }')
# if the results are blank, then the server is "busy" and being overutilized
[[ -z $IPERF_SENDRESULT_VAL || "$IPERF_SENDRESULT_VAL" == *"0.00"* ]] && IPERF_SENDRESULT_VAL="busy"
[[ -z $IPERF_RECVRESULT_VAL || "$IPERF_RECVRESULT_VAL" == *"0.00"* ]] && IPERF_RECVRESULT_VAL="busy"
[[ -z $IPERF_SENDRESULT_VAL || "$IPERF_SENDRESULT_VAL" == *"0.00"* ]] && IPERF_SENDRESULT_VAL="busy" && IPERF_SENDRESULT_UNIT=""
[[ -z $IPERF_RECVRESULT_VAL || "$IPERF_RECVRESULT_VAL" == *"0.00"* ]] && IPERF_RECVRESULT_VAL="busy" && IPERF_RECVRESULT_UNIT=""
# print the speed results for the iperf location currently being evaluated
printf "%-25s | %-25s | %-15s | %-15s\n" "${IPERF_LOCS[i*5+2]}" "${IPERF_LOCS[i*5+3]}" "$IPERF_SENDRESULT_VAL $IPERF_SENDRESULT_UNIT" "$IPERF_RECVRESULT_VAL $IPERF_RECVRESULT_UNIT"
fi
@@ -258,18 +387,20 @@ function launch_iperf {
# if the skip iperf flag was set, skip the network performance test, otherwise test network performance
if [ -z "$SKIP_IPERF" ]; then
# create a temp directory to house the required iperf binary and library
IPERF_PATH=$YABS_PATH/iperf
mkdir -p $IPERF_PATH
# download the publicly available iperf files from project's official source (iperf.fr)
curl -s -o $IPERF_PATH/libiperf.so.0 https://iperf.fr/download/ubuntu/libiperf.so.0_3.1.3 > /dev/null
curl -s -o $IPERF_PATH/iperf3 https://iperf.fr/download/ubuntu/iperf3_3.1.3 > /dev/null
# download iperf3 binary
if [ ! -z "$IPV4_CHECK" ]; then # if IPv4 is enabled
curl -s https://raw.githubusercontent.com/masonr/yet-another-bench-script/master/bin/iperf3_$ARCH -o $IPERF_PATH/iperf3
else # no IPv4, use IPv6 - below is necessary since raw.githubusercontent.com has no AAAA record
curl -s -k -g --header 'Host: raw.githubusercontent.com' https://[2a04:4e42::133]/masonr/yet-another-bench-script/master/bin/iperf3_$ARCH -o $IPERF_PATH/iperf3
fi
chmod +x $IPERF_PATH/iperf3
# test if the host has IPv4/IPv6 connectivity
IPV4_CHECK=$(curl -s -4 -m 4 icanhazip.com 2> /dev/null)
IPV6_CHECK=$(curl -s -6 -m 4 icanhazip.com 2> /dev/null)
# array containing all currently available iperf3 public servers to use for the network test
# format: "1" "2" "3" "4" "5" \
# 1. domain name of the iperf server
@@ -281,12 +412,10 @@ if [ -z "$SKIP_IPERF" ]; then
"bouygues.iperf.fr" "5200-5209" "Bouygues Telecom" "Paris, FR (10G)" "IPv4|IPv6" \
"ping.online.net" "5200-5209" "Online.net" "Paris, FR (10G)" "IPv4" \
"ping6.online.net" "5200-5209" "Online.net" "Paris, FR (10G)" "IPv6" \
"speedtest.serverius.net" "5002-5002" "Severius" "The Netherlands (10G)" "IPv4|IPv6" \
"iperf.worldstream.nl" "5201-5201" "Worldstream" "The Netherlands (10G)" "IPv4|IPv6" \
"speedtest.wtnet.de" "5200-5209" "wilhelm.tel" "Hamburg, DE (10G)" "IPv4|IPv6" \
"iperf.biznetnetworks.com" "5201-5203" "Biznet" "Bogor, Indonesia (1G)" "IPv4" \
"speedtest.hostkey.ru" "5200-5203" "Hostkey" "Moscow, RU (1G)" "IPv4" \
"mirror.square-r00t.net" "5201-5201" "Vultr" "Piscataway, NJ, US (1G)" "IPv4|IPv6" \
"iperf3.velocityonline.net" "5201-5210" "Velocity Online" "Tallahassee, FL, US (10G)" "IPv4" \
"iperf.airstreamcomm.net" "5201-5205" "Airstream Communications" "Eau Claire, WI, US (10G)" "IPv4|IPv6" \
"iperf.he.net" "5201-5201" "Hurricane Electric" "Fremont, CA, US (10G)" "IPv4|IPv6" \
@@ -309,15 +438,27 @@ if [ -z "$SKIP_GEEKBENCH" ]; then
# create a temp directory to house all geekbench files
GEEKBENCH_PATH=$YABS_PATH/geekbench
mkdir -p $GEEKBENCH_PATH
# download the latest Geekbench 4 tarball and extract to geekbench temp directory
curl -s http://cdn.geekbench.com/Geekbench-4.3.3-Linux.tar.gz | tar xz --strip-components=1 -C $GEEKBENCH_PATH &>/dev/null
# run the Geekbench 4 test and grep the test results URL given at the end of the test
GEEKBENCH_TEST=$($GEEKBENCH_PATH/geekbench4 2>/dev/null | grep "https://browser")
if [[ "$ARCH" == *"x86"* ]]; then
# run the Geekbench 4 test and grep the test results URL given at the end of the test
GEEKBENCH_TEST=$($GEEKBENCH_PATH/geekbench_x86_32 2>/dev/null | grep "https://browser")
else
# run the Geekbench 4 test and grep the test results URL given at the end of the test
GEEKBENCH_TEST=$($GEEKBENCH_PATH/geekbench4 2>/dev/null | grep "https://browser")
fi
# ensure the test ran successfully
if [ -z "$GEEKBENCH_TEST" ]; then
# if the Geekbench 4 test failed for any reason, exit cleanly and print error message
echo -e "\r\033[0KGeekbench 4 test failed. Run manually to determine cause."
if [ -z "$IPV4_CHECK" ]; then
# Geekbench 4 test failed to download because host lacks IPv4 (cdn.geekbench.com = IPv4 only)
echo -e "\r\033[0KGeekbench releases can only be downloaded over IPv4. FTP the Geekbench files and run manually."
else
# if the Geekbench 4 test failed for any reason, exit cleanly and print error message
echo -e "\r\033[0KGeekbench 4 test failed. Run manually to determine cause."
fi
else
# if the Geekbench 4 test succeeded, parse the test results URL
GEEKBENCH_URL=$(echo -e $GEEKBENCH_TEST | head -1)