thirdparty/rocksdb/tools/run_flash_bench.sh - nifi-minifi-cpp - Git at Google

 #!/usr/bin/env bash
 # REQUIRE: benchmark.sh exists in the current directory
 # After execution of this script, log files are generated in $output_dir.
 # report.txt provides a high level statistics

 # This should be run from the parent of the tools directory. The command line is:
 #   [$env_vars] tools/run_flash_bench.sh [list-of-threads]
 #
 # This runs a sequence of tests in the following sequence:
 #   step 1) load - bulkload, compact, fillseq, overwrite
 #   step 2) read-only for each number of threads
 #   step 3) read-write for each number of threads
 #   step 4) merge for each number of threads
 #
 # The list of threads is optional and when not set is equivalent to "24".
 # Were list-of-threads specified as "1 2 4" then the tests in steps 2, 3 and
 # 4 above would be repeated for 1, 2 and 4 threads. The tests in step 1 are
 # only run for 1 thread.

 # Test output is written to $OUTPUT_DIR, currently /tmp/output. The performance
 # summary is in $OUTPUT_DIR/report.txt. There is one file in $OUTPUT_DIR per
 # test and the tests are listed below.
 #
 # The environment variables are also optional. The variables are:
 #
 #   NKEYS         - number of key/value pairs to load
 #   BG_MBWRITEPERSEC - write rate limit in MB/second for tests in which
 #                   there is one thread doing writes and stats are
 #                   reported for read threads. "BG" stands for background.
 #                   If this is too large then the non-writer threads can get
 #                   starved. This is used for the "readwhile" tests.
 #   FG_MBWRITEPERSEC - write rate limit in MB/second for tests like overwrite
 #                   where stats are reported for the write threads.
 #   NSECONDS      - number of seconds for which to run each test in steps 2,
 #                   3 and 4. There are currently 15 tests in those steps and
 #                   they are repeated for each entry in list-of-threads so
 #                   this variable lets you control the total duration to
 #                   finish the benchmark.
 #   RANGE_LIMIT   - the number of rows to read per range query for tests that
 #                   do range queries.
 #   VAL_SIZE      - the length of the value in the key/value pairs loaded.
 #                   You can estimate the size of the test database from this,
 #                   NKEYS and the compression rate (--compression_ratio) set
 #                   in tools/benchmark.sh
 #   BLOCK_LENGTH  - value for db_bench --block_size
 #   CACHE_BYTES   - the size of the RocksDB block cache in bytes
 #   DATA_DIR      - directory in which to create database files
 #   LOG_DIR       - directory in which to create WAL files, may be the same
 #                   as DATA_DIR
 #   DO_SETUP      - when set to 0 then a backup of the database is copied from
 #                   $DATA_DIR.bak to $DATA_DIR and the load tests from step 1
 #                   The WAL directory is also copied from a backup if
 #                   DATA_DIR != LOG_DIR. This allows tests from steps 2, 3, 4
 #                   to be repeated faster.
 #   SAVE_SETUP    - saves a copy of the database at the end of step 1 to
 #                   $DATA_DIR.bak. When LOG_DIR != DATA_DIR then it is copied
 #                   to $LOG_DIR.bak.
 #   SKIP_LOW_PRI_TESTS - skip some of the tests which aren't crucial for getting
 #                   actionable benchmarking data (look for keywords "bulkload",
 #                   "sync=1", and "while merging").
 #

 # Size constants
 K=1024
 M=$((1024 * K))
 G=$((1024 * M))

 num_keys=${NKEYS:-$((1 * G))}
 # write rate for readwhile... tests
 bg_mbwps=${BG_MBWRITEPERSEC:-4}
 # write rate for tests other than readwhile, 0 means no limit
 fg_mbwps=${FG_MBWRITEPERSEC:-0}
 duration=${NSECONDS:-$((60 * 60))}
 nps=${RANGE_LIMIT:-10}
 vs=${VAL_SIZE:-400}
 cs=${CACHE_BYTES:-$(( 1 * G ))}
 bs=${BLOCK_LENGTH:-8192}

 # If no command line arguments then run for 24 threads.
 if [[ $# -eq 0 ]]; then
   nthreads=( 24 )
 else
   nthreads=( "$@" )
 fi

 for num_thr in "${nthreads[@]}" ; do
   echo Will run for $num_thr threads
 done

 # Update these parameters before execution !!!
 db_dir=${DATA_DIR:-"/tmp/rocksdb/"}
 wal_dir=${LOG_DIR:-"/tmp/rocksdb/"}

 do_setup=${DO_SETUP:-1}
 save_setup=${SAVE_SETUP:-0}

 # By default we'll run all the tests. Set this to skip a set of tests which
 # aren't critical for getting key metrics.
 skip_low_pri_tests=${SKIP_LOW_PRI_TESTS:-0}

 if [[ $skip_low_pri_tests == 1 ]]; then
   echo "Skipping some non-critical tests because SKIP_LOW_PRI_TESTS is set."
 fi

 output_dir="${TMPDIR:-/tmp}/output"

 ARGS="\
 OUTPUT_DIR=$output_dir \
 NUM_KEYS=$num_keys \
 DB_DIR=$db_dir \
 WAL_DIR=$wal_dir \
 VALUE_SIZE=$vs \
 BLOCK_SIZE=$bs \
 CACHE_SIZE=$cs"

 mkdir -p $output_dir
 echo -e "ops/sec\tmb/sec\tSize-GB\tL0_GB\tSum_GB\tW-Amp\tW-MB/s\tusec/op\tp50\tp75\tp99\tp99.9\tp99.99\tUptime\tStall-time\tStall%\tTest" \
   > $output_dir/report.txt

 # Notes on test sequence:
 #   step 1) Setup database via sequential fill followed by overwrite to fragment it.
 #           Done without setting DURATION to make sure that overwrite does $num_keys writes
 #   step 2) read-only tests for all levels of concurrency requested
 #   step 3) non read-only tests for all levels of concurrency requested
 #   step 4) merge tests for all levels of concurrency requested. These must come last.

 ###### Setup the database

 if [[ $do_setup != 0 ]]; then
   echo Doing setup

   if [[ $skip_low_pri_tests != 1 ]]; then
     # Test 1: bulk load
     env $ARGS ./tools/benchmark.sh bulkload
   fi

   # Test 2a: sequential fill with large values to get peak ingest
   #          adjust NUM_KEYS given the use of larger values
   env $ARGS BLOCK_SIZE=$((1 * M)) VALUE_SIZE=$((32 * K)) NUM_KEYS=$(( num_keys / 64 )) \
        ./tools/benchmark.sh fillseq_disable_wal

   # Test 2b: sequential fill with the configured value size
   env $ARGS ./tools/benchmark.sh fillseq_disable_wal

   # Test 2c: same as 2a, but with WAL being enabled.
   env $ARGS BLOCK_SIZE=$((1 * M)) VALUE_SIZE=$((32 * K)) NUM_KEYS=$(( num_keys / 64 )) \
        ./tools/benchmark.sh fillseq_enable_wal

   # Test 2d: same as 2b, but with WAL being enabled.
   env $ARGS ./tools/benchmark.sh fillseq_enable_wal

   # Test 3: single-threaded overwrite
   env $ARGS NUM_THREADS=1 DB_BENCH_NO_SYNC=1 ./tools/benchmark.sh overwrite

 else
   echo Restoring from backup

   rm -rf $db_dir

   if [ ! -d ${db_dir}.bak ]; then
     echo Database backup does not exist at ${db_dir}.bak
     exit -1
   fi

   echo Restore database from ${db_dir}.bak
   cp -p -r ${db_dir}.bak $db_dir

   if [[ $db_dir != $wal_dir ]]; then
     rm -rf $wal_dir

     if [ ! -d ${wal_dir}.bak ]; then
       echo WAL backup does not exist at ${wal_dir}.bak
       exit -1
     fi

     echo Restore WAL from ${wal_dir}.bak
     cp -p -r ${wal_dir}.bak $wal_dir
   fi
 fi

 if [[ $save_setup != 0 ]]; then
   echo Save database to ${db_dir}.bak
   cp -p -r $db_dir ${db_dir}.bak

   if [[ $db_dir != $wal_dir ]]; then
     echo Save WAL to ${wal_dir}.bak
     cp -p -r $wal_dir ${wal_dir}.bak
   fi
 fi

 ###### Read-only tests

 for num_thr in "${nthreads[@]}" ; do
   # Test 4: random read
   env $ARGS DURATION=$duration NUM_THREADS=$num_thr ./tools/benchmark.sh readrandom

   # Test 5: random range scans
   env $ARGS DURATION=$duration NUM_THREADS=$num_thr NUM_NEXTS_PER_SEEK=$nps \
     ./tools/benchmark.sh fwdrange

   # Test 6: random reverse range scans
   env $ARGS DURATION=$duration NUM_THREADS=$num_thr NUM_NEXTS_PER_SEEK=$nps \
     ./tools/benchmark.sh revrange
 done

 ###### Non read-only tests

 for num_thr in "${nthreads[@]}" ; do
   # Test 7: overwrite with sync=0
   env $ARGS DURATION=$duration NUM_THREADS=$num_thr MB_WRITE_PER_SEC=$fg_mbwps \
     DB_BENCH_NO_SYNC=1 ./tools/benchmark.sh overwrite

   if [[ $skip_low_pri_tests != 1 ]]; then
     # Test 8: overwrite with sync=1
     env $ARGS DURATION=$duration NUM_THREADS=$num_thr MB_WRITE_PER_SEC=$fg_mbwps \
       ./tools/benchmark.sh overwrite
   fi

   # Test 9: random update with sync=0
   env $ARGS DURATION=$duration NUM_THREADS=$num_thr DB_BENCH_NO_SYNC=1 \
       ./tools/benchmark.sh updaterandom

   if [[ $skip_low_pri_tests != 1 ]]; then
     # Test 10: random update with sync=1
    env $ARGS DURATION=$duration NUM_THREADS=$num_thr ./tools/benchmark.sh updaterandom
   fi

   # Test 11: random read while writing
   env $ARGS DURATION=$duration NUM_THREADS=$num_thr MB_WRITE_PER_SEC=$bg_mbwps \
     DB_BENCH_NO_SYNC=1 ./tools/benchmark.sh readwhilewriting

   # Test 12: range scan while writing
   env $ARGS DURATION=$duration NUM_THREADS=$num_thr MB_WRITE_PER_SEC=$bg_mbwps \
     DB_BENCH_NO_SYNC=1 NUM_NEXTS_PER_SEEK=$nps ./tools/benchmark.sh fwdrangewhilewriting

   # Test 13: reverse range scan while writing
   env $ARGS DURATION=$duration NUM_THREADS=$num_thr MB_WRITE_PER_SEC=$bg_mbwps \
     DB_BENCH_NO_SYNC=1 NUM_NEXTS_PER_SEEK=$nps ./tools/benchmark.sh revrangewhilewriting
 done

 ###### Merge tests

 for num_thr in "${nthreads[@]}" ; do
   # Test 14: random merge with sync=0
   env $ARGS DURATION=$duration NUM_THREADS=$num_thr MB_WRITE_PER_SEC=$fg_mbwps \
     DB_BENCH_NO_SYNC=1 ./tools/benchmark.sh mergerandom

   if [[ $skip_low_pri_tests != 1 ]]; then
     # Test 15: random merge with sync=1
     env $ARGS DURATION=$duration NUM_THREADS=$num_thr MB_WRITE_PER_SEC=$fg_mbwps \
       ./tools/benchmark.sh mergerandom

     # Test 16: random read while merging
     env $ARGS DURATION=$duration NUM_THREADS=$num_thr MB_WRITE_PER_SEC=$bg_mbwps \
       DB_BENCH_NO_SYNC=1 ./tools/benchmark.sh readwhilemerging

     # Test 17: range scan while merging
     env $ARGS DURATION=$duration NUM_THREADS=$num_thr MB_WRITE_PER_SEC=$bg_mbwps \
       DB_BENCH_NO_SYNC=1 NUM_NEXTS_PER_SEEK=$nps ./tools/benchmark.sh fwdrangewhilemerging

     # Test 18: reverse range scan while merging
     env $ARGS DURATION=$duration NUM_THREADS=$num_thr MB_WRITE_PER_SEC=$bg_mbwps \
       DB_BENCH_NO_SYNC=1 NUM_NEXTS_PER_SEEK=$nps ./tools/benchmark.sh revrangewhilemerging
   fi
 done

 ###### Universal compaction tests.

 # Use a single thread to reduce the variability in the benchmark.
 env $ARGS COMPACTION_TEST=1 NUM_THREADS=1 ./tools/benchmark.sh universal_compaction

 if [[ $skip_low_pri_tests != 1 ]]; then
   echo bulkload > $output_dir/report2.txt
   head -1 $output_dir/report.txt >> $output_dir/report2.txt
   grep bulkload $output_dir/report.txt >> $output_dir/report2.txt
 fi

 echo fillseq_wal_disabled >> $output_dir/report2.txt
 head -1 $output_dir/report.txt >> $output_dir/report2.txt
 grep fillseq.wal_disabled $output_dir/report.txt >> $output_dir/report2.txt

 echo fillseq_wal_enabled >> $output_dir/report2.txt
 head -1 $output_dir/report.txt >> $output_dir/report2.txt
 grep fillseq.wal_enabled $output_dir/report.txt >> $output_dir/report2.txt

 echo overwrite sync=0 >> $output_dir/report2.txt
 head -1 $output_dir/report.txt >> $output_dir/report2.txt
 grep overwrite $output_dir/report.txt | grep \.s0  >> $output_dir/report2.txt

 if [[ $skip_low_pri_tests != 1 ]]; then
   echo overwrite sync=1 >> $output_dir/report2.txt
   head -1 $output_dir/report.txt >> $output_dir/report2.txt
   grep overwrite $output_dir/report.txt | grep \.s1  >> $output_dir/report2.txt
 fi

 echo updaterandom sync=0 >> $output_dir/report2.txt
 head -1 $output_dir/report.txt >> $output_dir/report2.txt
 grep updaterandom $output_dir/report.txt | grep \.s0 >> $output_dir/report2.txt

 if [[ $skip_low_pri_tests != 1 ]]; then
   echo updaterandom sync=1 >> $output_dir/report2.txt
   head -1 $output_dir/report.txt >> $output_dir/report2.txt
   grep updaterandom $output_dir/report.txt | grep \.s1 >> $output_dir/report2.txt
 fi

 echo mergerandom sync=0 >> $output_dir/report2.txt
 head -1 $output_dir/report.txt >> $output_dir/report2.txt
 grep mergerandom $output_dir/report.txt | grep \.s0 >> $output_dir/report2.txt

 if [[ $skip_low_pri_tests != 1 ]]; then
   echo mergerandom sync=1 >> $output_dir/report2.txt
   head -1 $output_dir/report.txt >> $output_dir/report2.txt
   grep mergerandom $output_dir/report.txt | grep \.s1 >> $output_dir/report2.txt
 fi

 echo readrandom >> $output_dir/report2.txt
 head -1 $output_dir/report.txt >> $output_dir/report2.txt
 grep readrandom $output_dir/report.txt  >> $output_dir/report2.txt

 echo fwdrange >> $output_dir/report2.txt
 head -1 $output_dir/report.txt >> $output_dir/report2.txt
 grep fwdrange\.t $output_dir/report.txt >> $output_dir/report2.txt

 echo revrange >> $output_dir/report2.txt
 head -1 $output_dir/report.txt >> $output_dir/report2.txt
 grep revrange\.t $output_dir/report.txt >> $output_dir/report2.txt

 echo readwhile >> $output_dir/report2.txt >> $output_dir/report2.txt
 head -1 $output_dir/report.txt >> $output_dir/report2.txt
 grep readwhilewriting $output_dir/report.txt >> $output_dir/report2.txt

 if [[ $skip_low_pri_tests != 1 ]]; then
   echo readwhile >> $output_dir/report2.txt
   head -1 $output_dir/report.txt >> $output_dir/report2.txt
   grep readwhilemerging $output_dir/report.txt >> $output_dir/report2.txt
 fi

 echo fwdreadwhilewriting >> $output_dir/report2.txt
 head -1 $output_dir/report.txt >> $output_dir/report2.txt
 grep fwdrangewhilewriting $output_dir/report.txt >> $output_dir/report2.txt

 if [[ $skip_low_pri_tests != 1 ]]; then
   echo fwdreadwhilemerging >> $output_dir/report2.txt
   head -1 $output_dir/report.txt >> $output_dir/report2.txt
   grep fwdrangewhilemerg $output_dir/report.txt >> $output_dir/report2.txt
 fi

 echo revreadwhilewriting >> $output_dir/report2.txt
 head -1 $output_dir/report.txt >> $output_dir/report2.txt
 grep revrangewhilewriting $output_dir/report.txt >> $output_dir/report2.txt

 if [[ $skip_low_pri_tests != 1 ]]; then
   echo revreadwhilemerging >> $output_dir/report2.txt
   head -1 $output_dir/report.txt >> $output_dir/report2.txt
   grep revrangewhilemerg $output_dir/report.txt >> $output_dir/report2.txt
 fi

 cat $output_dir/report2.txt
	#!/usr/bin/env bash
	# REQUIRE: benchmark.sh exists in the current directory
	# After execution of this script, log files are generated in $output_dir.
	# report.txt provides a high level statistics

	# This should be run from the parent of the tools directory. The command line is:
	# [$env_vars] tools/run_flash_bench.sh [list-of-threads]
	#
	# This runs a sequence of tests in the following sequence:
	# step 1) load - bulkload, compact, fillseq, overwrite
	# step 2) read-only for each number of threads
	# step 3) read-write for each number of threads
	# step 4) merge for each number of threads
	#
	# The list of threads is optional and when not set is equivalent to "24".
	# Were list-of-threads specified as "1 2 4" then the tests in steps 2, 3 and
	# 4 above would be repeated for 1, 2 and 4 threads. The tests in step 1 are
	# only run for 1 thread.

	# Test output is written to $OUTPUT_DIR, currently /tmp/output. The performance
	# summary is in $OUTPUT_DIR/report.txt. There is one file in $OUTPUT_DIR per
	# test and the tests are listed below.
	#
	# The environment variables are also optional. The variables are:
	#
	# NKEYS - number of key/value pairs to load
	# BG_MBWRITEPERSEC - write rate limit in MB/second for tests in which
	# there is one thread doing writes and stats are
	# reported for read threads. "BG" stands for background.
	# If this is too large then the non-writer threads can get
	# starved. This is used for the "readwhile" tests.
	# FG_MBWRITEPERSEC - write rate limit in MB/second for tests like overwrite
	# where stats are reported for the write threads.
	# NSECONDS - number of seconds for which to run each test in steps 2,
	# 3 and 4. There are currently 15 tests in those steps and
	# they are repeated for each entry in list-of-threads so
	# this variable lets you control the total duration to
	# finish the benchmark.
	# RANGE_LIMIT - the number of rows to read per range query for tests that
	# do range queries.
	# VAL_SIZE - the length of the value in the key/value pairs loaded.
	# You can estimate the size of the test database from this,
	# NKEYS and the compression rate (--compression_ratio) set
	# in tools/benchmark.sh
	# BLOCK_LENGTH - value for db_bench --block_size
	# CACHE_BYTES - the size of the RocksDB block cache in bytes
	# DATA_DIR - directory in which to create database files
	# LOG_DIR - directory in which to create WAL files, may be the same
	# as DATA_DIR
	# DO_SETUP - when set to 0 then a backup of the database is copied from
	# $DATA_DIR.bak to $DATA_DIR and the load tests from step 1
	# The WAL directory is also copied from a backup if
	# DATA_DIR != LOG_DIR. This allows tests from steps 2, 3, 4
	# to be repeated faster.
	# SAVE_SETUP - saves a copy of the database at the end of step 1 to
	# $DATA_DIR.bak. When LOG_DIR != DATA_DIR then it is copied
	# to $LOG_DIR.bak.
	# SKIP_LOW_PRI_TESTS - skip some of the tests which aren't crucial for getting
	# actionable benchmarking data (look for keywords "bulkload",
	# "sync=1", and "while merging").
	#

	# Size constants
	K=1024
	M=$((1024 * K))
	G=$((1024 * M))

	num_keys=${NKEYS:-$((1 * G))}
	# write rate for readwhile... tests
	bg_mbwps=${BG_MBWRITEPERSEC:-4}
	# write rate for tests other than readwhile, 0 means no limit
	fg_mbwps=${FG_MBWRITEPERSEC:-0}
	duration=${NSECONDS:-$((60 * 60))}
	nps=${RANGE_LIMIT:-10}
	vs=${VAL_SIZE:-400}
	cs=${CACHE_BYTES:-$(( 1 * G ))}
	bs=${BLOCK_LENGTH:-8192}

	# If no command line arguments then run for 24 threads.
	if [[ $# -eq 0 ]]; then
	nthreads=( 24 )
	else
	nthreads=( "$@" )
	fi

	for num_thr in "${nthreads[@]}" ; do
	echo Will run for $num_thr threads
	done

	# Update these parameters before execution !!!
	db_dir=${DATA_DIR:-"/tmp/rocksdb/"}
	wal_dir=${LOG_DIR:-"/tmp/rocksdb/"}

	do_setup=${DO_SETUP:-1}
	save_setup=${SAVE_SETUP:-0}

	# By default we'll run all the tests. Set this to skip a set of tests which
	# aren't critical for getting key metrics.
	skip_low_pri_tests=${SKIP_LOW_PRI_TESTS:-0}

	if [[ $skip_low_pri_tests == 1 ]]; then
	echo "Skipping some non-critical tests because SKIP_LOW_PRI_TESTS is set."
	fi

	output_dir="${TMPDIR:-/tmp}/output"

	ARGS="\
	OUTPUT_DIR=$output_dir \
	NUM_KEYS=$num_keys \
	DB_DIR=$db_dir \
	WAL_DIR=$wal_dir \
	VALUE_SIZE=$vs \
	BLOCK_SIZE=$bs \
	CACHE_SIZE=$cs"

	mkdir -p $output_dir
	echo -e "ops/sec\tmb/sec\tSize-GB\tL0_GB\tSum_GB\tW-Amp\tW-MB/s\tusec/op\tp50\tp75\tp99\tp99.9\tp99.99\tUptime\tStall-time\tStall%\tTest" \
	> $output_dir/report.txt

	# Notes on test sequence:
	# step 1) Setup database via sequential fill followed by overwrite to fragment it.
	# Done without setting DURATION to make sure that overwrite does $num_keys writes
	# step 2) read-only tests for all levels of concurrency requested
	# step 3) non read-only tests for all levels of concurrency requested
	# step 4) merge tests for all levels of concurrency requested. These must come last.

	###### Setup the database

	if [[ $do_setup != 0 ]]; then
	echo Doing setup

	if [[ $skip_low_pri_tests != 1 ]]; then
	# Test 1: bulk load
	env $ARGS ./tools/benchmark.sh bulkload
	fi

	# Test 2a: sequential fill with large values to get peak ingest
	# adjust NUM_KEYS given the use of larger values
	env $ARGS BLOCK_SIZE=$((1 * M)) VALUE_SIZE=$((32 * K)) NUM_KEYS=$(( num_keys / 64 )) \
	./tools/benchmark.sh fillseq_disable_wal

	# Test 2b: sequential fill with the configured value size
	env $ARGS ./tools/benchmark.sh fillseq_disable_wal

	# Test 2c: same as 2a, but with WAL being enabled.
	env $ARGS BLOCK_SIZE=$((1 * M)) VALUE_SIZE=$((32 * K)) NUM_KEYS=$(( num_keys / 64 )) \
	./tools/benchmark.sh fillseq_enable_wal

	# Test 2d: same as 2b, but with WAL being enabled.
	env $ARGS ./tools/benchmark.sh fillseq_enable_wal

	# Test 3: single-threaded overwrite
	env $ARGS NUM_THREADS=1 DB_BENCH_NO_SYNC=1 ./tools/benchmark.sh overwrite

	else
	echo Restoring from backup

	rm -rf $db_dir

	if [ ! -d ${db_dir}.bak ]; then
	echo Database backup does not exist at ${db_dir}.bak
	exit -1
	fi

	echo Restore database from ${db_dir}.bak
	cp -p -r ${db_dir}.bak $db_dir

	if [[ $db_dir != $wal_dir ]]; then
	rm -rf $wal_dir

	if [ ! -d ${wal_dir}.bak ]; then
	echo WAL backup does not exist at ${wal_dir}.bak
	exit -1
	fi

	echo Restore WAL from ${wal_dir}.bak
	cp -p -r ${wal_dir}.bak $wal_dir
	fi
	fi

	if [[ $save_setup != 0 ]]; then
	echo Save database to ${db_dir}.bak
	cp -p -r $db_dir ${db_dir}.bak

	if [[ $db_dir != $wal_dir ]]; then
	echo Save WAL to ${wal_dir}.bak
	cp -p -r $wal_dir ${wal_dir}.bak
	fi
	fi

	###### Read-only tests

	for num_thr in "${nthreads[@]}" ; do
	# Test 4: random read
	env $ARGS DURATION=$duration NUM_THREADS=$num_thr ./tools/benchmark.sh readrandom

	# Test 5: random range scans
	env $ARGS DURATION=$duration NUM_THREADS=$num_thr NUM_NEXTS_PER_SEEK=$nps \
	./tools/benchmark.sh fwdrange

	# Test 6: random reverse range scans
	env $ARGS DURATION=$duration NUM_THREADS=$num_thr NUM_NEXTS_PER_SEEK=$nps \
	./tools/benchmark.sh revrange
	done

	###### Non read-only tests

	for num_thr in "${nthreads[@]}" ; do
	# Test 7: overwrite with sync=0
	env $ARGS DURATION=$duration NUM_THREADS=$num_thr MB_WRITE_PER_SEC=$fg_mbwps \
	DB_BENCH_NO_SYNC=1 ./tools/benchmark.sh overwrite

	if [[ $skip_low_pri_tests != 1 ]]; then
	# Test 8: overwrite with sync=1
	env $ARGS DURATION=$duration NUM_THREADS=$num_thr MB_WRITE_PER_SEC=$fg_mbwps \
	./tools/benchmark.sh overwrite
	fi

	# Test 9: random update with sync=0
	env $ARGS DURATION=$duration NUM_THREADS=$num_thr DB_BENCH_NO_SYNC=1 \
	./tools/benchmark.sh updaterandom

	if [[ $skip_low_pri_tests != 1 ]]; then
	# Test 10: random update with sync=1
	env $ARGS DURATION=$duration NUM_THREADS=$num_thr ./tools/benchmark.sh updaterandom
	fi

	# Test 11: random read while writing
	env $ARGS DURATION=$duration NUM_THREADS=$num_thr MB_WRITE_PER_SEC=$bg_mbwps \
	DB_BENCH_NO_SYNC=1 ./tools/benchmark.sh readwhilewriting

	# Test 12: range scan while writing
	env $ARGS DURATION=$duration NUM_THREADS=$num_thr MB_WRITE_PER_SEC=$bg_mbwps \
	DB_BENCH_NO_SYNC=1 NUM_NEXTS_PER_SEEK=$nps ./tools/benchmark.sh fwdrangewhilewriting

	# Test 13: reverse range scan while writing
	env $ARGS DURATION=$duration NUM_THREADS=$num_thr MB_WRITE_PER_SEC=$bg_mbwps \
	DB_BENCH_NO_SYNC=1 NUM_NEXTS_PER_SEEK=$nps ./tools/benchmark.sh revrangewhilewriting
	done

	###### Merge tests

	for num_thr in "${nthreads[@]}" ; do
	# Test 14: random merge with sync=0
	env $ARGS DURATION=$duration NUM_THREADS=$num_thr MB_WRITE_PER_SEC=$fg_mbwps \
	DB_BENCH_NO_SYNC=1 ./tools/benchmark.sh mergerandom

	if [[ $skip_low_pri_tests != 1 ]]; then
	# Test 15: random merge with sync=1
	env $ARGS DURATION=$duration NUM_THREADS=$num_thr MB_WRITE_PER_SEC=$fg_mbwps \
	./tools/benchmark.sh mergerandom

	# Test 16: random read while merging
	env $ARGS DURATION=$duration NUM_THREADS=$num_thr MB_WRITE_PER_SEC=$bg_mbwps \
	DB_BENCH_NO_SYNC=1 ./tools/benchmark.sh readwhilemerging

	# Test 17: range scan while merging
	env $ARGS DURATION=$duration NUM_THREADS=$num_thr MB_WRITE_PER_SEC=$bg_mbwps \
	DB_BENCH_NO_SYNC=1 NUM_NEXTS_PER_SEEK=$nps ./tools/benchmark.sh fwdrangewhilemerging

	# Test 18: reverse range scan while merging
	env $ARGS DURATION=$duration NUM_THREADS=$num_thr MB_WRITE_PER_SEC=$bg_mbwps \
	DB_BENCH_NO_SYNC=1 NUM_NEXTS_PER_SEEK=$nps ./tools/benchmark.sh revrangewhilemerging
	fi
	done

	###### Universal compaction tests.

	# Use a single thread to reduce the variability in the benchmark.
	env $ARGS COMPACTION_TEST=1 NUM_THREADS=1 ./tools/benchmark.sh universal_compaction

	if [[ $skip_low_pri_tests != 1 ]]; then
	echo bulkload > $output_dir/report2.txt
	head -1 $output_dir/report.txt >> $output_dir/report2.txt
	grep bulkload $output_dir/report.txt >> $output_dir/report2.txt
	fi

	echo fillseq_wal_disabled >> $output_dir/report2.txt
	head -1 $output_dir/report.txt >> $output_dir/report2.txt
	grep fillseq.wal_disabled $output_dir/report.txt >> $output_dir/report2.txt

	echo fillseq_wal_enabled >> $output_dir/report2.txt
	head -1 $output_dir/report.txt >> $output_dir/report2.txt
	grep fillseq.wal_enabled $output_dir/report.txt >> $output_dir/report2.txt

	echo overwrite sync=0 >> $output_dir/report2.txt
	head -1 $output_dir/report.txt >> $output_dir/report2.txt
	grep overwrite $output_dir/report.txt \| grep \.s0 >> $output_dir/report2.txt

	if [[ $skip_low_pri_tests != 1 ]]; then
	echo overwrite sync=1 >> $output_dir/report2.txt
	head -1 $output_dir/report.txt >> $output_dir/report2.txt
	grep overwrite $output_dir/report.txt \| grep \.s1 >> $output_dir/report2.txt
	fi

	echo updaterandom sync=0 >> $output_dir/report2.txt
	head -1 $output_dir/report.txt >> $output_dir/report2.txt
	grep updaterandom $output_dir/report.txt \| grep \.s0 >> $output_dir/report2.txt

	if [[ $skip_low_pri_tests != 1 ]]; then
	echo updaterandom sync=1 >> $output_dir/report2.txt
	head -1 $output_dir/report.txt >> $output_dir/report2.txt
	grep updaterandom $output_dir/report.txt \| grep \.s1 >> $output_dir/report2.txt
	fi

	echo mergerandom sync=0 >> $output_dir/report2.txt
	head -1 $output_dir/report.txt >> $output_dir/report2.txt
	grep mergerandom $output_dir/report.txt \| grep \.s0 >> $output_dir/report2.txt

	if [[ $skip_low_pri_tests != 1 ]]; then
	echo mergerandom sync=1 >> $output_dir/report2.txt
	head -1 $output_dir/report.txt >> $output_dir/report2.txt
	grep mergerandom $output_dir/report.txt \| grep \.s1 >> $output_dir/report2.txt
	fi

	echo readrandom >> $output_dir/report2.txt
	head -1 $output_dir/report.txt >> $output_dir/report2.txt
	grep readrandom $output_dir/report.txt >> $output_dir/report2.txt

	echo fwdrange >> $output_dir/report2.txt
	head -1 $output_dir/report.txt >> $output_dir/report2.txt
	grep fwdrange\.t $output_dir/report.txt >> $output_dir/report2.txt

	echo revrange >> $output_dir/report2.txt
	head -1 $output_dir/report.txt >> $output_dir/report2.txt
	grep revrange\.t $output_dir/report.txt >> $output_dir/report2.txt

	echo readwhile >> $output_dir/report2.txt >> $output_dir/report2.txt
	head -1 $output_dir/report.txt >> $output_dir/report2.txt
	grep readwhilewriting $output_dir/report.txt >> $output_dir/report2.txt

	if [[ $skip_low_pri_tests != 1 ]]; then
	echo readwhile >> $output_dir/report2.txt
	head -1 $output_dir/report.txt >> $output_dir/report2.txt
	grep readwhilemerging $output_dir/report.txt >> $output_dir/report2.txt
	fi

	echo fwdreadwhilewriting >> $output_dir/report2.txt
	head -1 $output_dir/report.txt >> $output_dir/report2.txt
	grep fwdrangewhilewriting $output_dir/report.txt >> $output_dir/report2.txt

	if [[ $skip_low_pri_tests != 1 ]]; then
	echo fwdreadwhilemerging >> $output_dir/report2.txt
	head -1 $output_dir/report.txt >> $output_dir/report2.txt
	grep fwdrangewhilemerg $output_dir/report.txt >> $output_dir/report2.txt
	fi

	echo revreadwhilewriting >> $output_dir/report2.txt
	head -1 $output_dir/report.txt >> $output_dir/report2.txt
	grep revrangewhilewriting $output_dir/report.txt >> $output_dir/report2.txt

	if [[ $skip_low_pri_tests != 1 ]]; then
	echo revreadwhilemerging >> $output_dir/report2.txt
	head -1 $output_dir/report.txt >> $output_dir/report2.txt
	grep revrangewhilemerg $output_dir/report.txt >> $output_dir/report2.txt
	fi

	cat $output_dir/report2.txt