######################################################################
# customize per survey
-# the SG device to measure
-dev=/dev/sg6
+# the SCSI devices to measure
+scsidevs="/dev/sde /dev/sdh"
# result file prefix
# NB ensure the path exists if it includes subdirs
rslt=/tmp/sg_dd_rslt
# what to do (read or write)
-action=write
+actions="write read"
-# total size (MBytes)
+# total size per device (MBytes)
# NB bigger than device cache is good
size=8192
rszlo=1024
rszhi=1024
-# Concurrent regions
+# Concurrent regions per device
crglo=1
-crghi=4
+crghi=128
-# total numbers of threads to share between concurrent regions
+# threads to share between concurrent regions per device
# NB survey skips over #thr < #regions
thrlo=1
-thrhi=1024
+thrhi=128
#####################################################################
# disk block size (Bytes)
bs=512
-if [ $action = read ]; then
- f1="if=$dev"
- f2="of=/dev/null"
- skip=skip
-else
- f1="if=/dev/zero"
- f2="of=$dev"
- skip=seek
-fi
+# max # threads per individual sgp_dd instance
+SG_MAX_QUEUE=16
+
+i=0
+devs=()
+for d in $scsidevs; do
+ devs[$i]=`sg_map | awk "{if ($ 2 == \"$d\") print $ 1}"`
+ if [ -z "$devs[$i]" ]; then
+ echo "Can't find SG device for $d"
+ exit 1
+ fi
+ i=$((i+1))
+done
+ndevs=${#devs[@]}
start=`date +%F@%R`
rsltf=${rslt}_${start}.summary
echo -n > $rsltf
workf=${rslt}_${start}.detail
echo -n > $workf
+tmpf=${rslt}_${start}.tmp
print_summary () {
if [ "$1" = "-n" ]; then
for ((rsz=$rszlo;rsz<=$rszhi;rsz*=2)); do
for ((crg=$crglo;crg<=$crghi;crg*=2)); do
for ((thr=$thrlo;thr<=$thrhi;thr*=2)); do
- if ((thr < crg)); then
+ if ((thr < crg || thr/crg > SG_MAX_QUEUE)); then
continue
fi
# compute parameters
actual_rsz=$((bpt*bs/1024))
actual_size=$((bs*count*crg/1024))
str=`printf 'total_size %8dK rsz %4d crg %5d thr %3d ' \
- $actual_size $actual_rsz $crg $thr`
+ $((actual_size*ndevs)) $actual_rsz $((crg*ndevs)) $((thr*ndevs))`
echo "==============> $str" >> $workf
print_summary -n "$str"
freemem=`awk < /proc/meminfo '/^MemTotal:/ {printf "%d\n", $2}'`
- if (((actual_rsz * thr /crg + 64) * crg > freemem)); then
+ if (((actual_rsz*thr/crg + 64)*crg*ndevs > freemem)); then
print_summary "ENOMEM"
continue
fi
- # start test
- t0=`date +%s.%N`
- for ((i=0;i<crg;i++)); do
- sgp_dd 2> ${rslt}_tmp${i} \
- $f1 $f2 ${skip}=$((1024+i*blocks)) \
- thr=$((thr/crg)) count=$count bs=$bs bpt=$bpt time=1&
- done
- wait
- t1=`date +%s.%N`
- # collect all results in 1 file
- rfile=${rslt}_thr${thr}_crg${crg}_rsz${rsz}
- echo > $rfile
- ok=0
- for ((i=0;i<crg;i++)); do
- rtmp=${rslt}_tmp${i}
- if grep 'time to transfer data' $rtmp > /dev/null 2>&1; then
- ok=$((ok + 1))
+ for action in $actions; do
+ print_summary -n "$action "
+ echo "=====> $action" >> $workf
+ # start test
+ t0=`date +%s.%N`
+ for ((i=0;i<ndevs;i++)); do
+ dev=${devs[i]}
+ if [ $action = read ]; then
+ inf="if=$dev"
+ outf="of=/dev/null"
+ skip=skip
+ else
+ inf="if=/dev/zero"
+ outf="of=$dev"
+ skip=seek
+ fi
+ for ((j=0;j<crg;j++)); do
+ sgp_dd 2> ${tmpf}_${i}_${j} \
+ $inf $outf ${skip}=$((1024+j*blocks)) \
+ thr=$((thr/crg)) count=$count bs=$bs bpt=$bpt time=1&
+ done
+ done
+ wait
+ t1=`date +%s.%N`
+ # collect all results in 1 file
+ echo > $tmpf
+ ok=0
+ for ((i=0;i<ndevs;i++)); do
+ for ((j=0;j<crg;j++)); do
+ rtmp=${tmpf}_${i}_${j}
+ if grep 'time to transfer data' $rtmp > /dev/null 2>&1; then
+ ok=$((ok + 1))
+ fi
+ cat ${rtmp} >> $tmpf
+ cat ${rtmp} >> $workf
+ rm ${rtmp}
+ done
+ done
+ if ((ok != ndevs*crg)); then
+ print_summary -n "$((ndevs*crg - ok)) failed "
+ else
+ # compute MB/sec from elapsed
+ bw=`awk "BEGIN {printf \"%7.2f MB/s\", $actual_size / (( $t1 - $t0 ) * 1024); exit}"`
+ # compute MB/sec from nregions*slowest
+ check=`awk < $tmpf \
+ '/time to transfer data/ {mb=$8/1.048576; if (n == 0 || mb < min) min = mb; n++}\
+ END {printf "%3d x %6.2f = %7.2f MB/s", n, min, min * n}'`
+ print_summary -n "$bw $check "
fi
- cat ${rslt}_tmp${i} >> $rfile
- cat ${rslt}_tmp${i} >> $workf
- rm ${rslt}_tmp${i}
+ rm $tmpf
done
- if [ $ok -ne $crg ]; then
- print_summary `printf "failed %d" $((crg - ok))`
- else
- # compute MB/sec from elapsed
- bw=`awk "BEGIN {printf \"%6.2f MB/s\", $actual_size / (( $t1 - $t0 ) * 1024); exit}"`
- # compute MB/sec from nregions*slowest
- check=`awk < $rfile \
- '/time to transfer data/ {mb=$8/1.048576; if (n == 0 || mb < min) min = mb; n++}\
- END {printf "%3d x %6.2f = %6.2f MB/s", n, min, min * n}'`
- print_summary "$bw $check"
- fi
- rm $rfile
+ print_summary ""
done
done
-done
+done
\ No newline at end of file