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数据库性能测试之sysbench工具的安装与用法详解

时间:2021-01-21 10:55:31 | 栏目:Mysql | 点击:

1.简介和安装

sysbench是一个开源的、模块化的、跨平台的多线程性能测试工具,可以用来进行CPU、内存、磁盘I/O、线程、数据库的性能测试。目前支持的数据库有MySQL、Oracle和PostgreSQL。

如果是编译安装,需要先安装好mysql的开发包(尽管编译错误时提示的是缺少Mysql库文件)。

yum -y install mysql-community-devel

tar xf 1.0.15.tar.gz
cd sysbench-1.0.15
./autogen.sh
./configure
make -j
make install

安装后,只有一个二进制文件sysbench,还提供了很多个lua脚本。

[root@s1 ~]# rpm -ql sysbench | grep 'bin\|lua' 
/usr/bin/sysbench
/usr/share/sysbench/bulk_insert.lua
/usr/share/sysbench/oltp_common.lua
/usr/share/sysbench/oltp_delete.lua
/usr/share/sysbench/oltp_insert.lua
/usr/share/sysbench/oltp_point_select.lua
/usr/share/sysbench/oltp_read_only.lua
/usr/share/sysbench/oltp_read_write.lua
/usr/share/sysbench/oltp_update_index.lua
/usr/share/sysbench/oltp_update_non_index.lua
/usr/share/sysbench/oltp_write_only.lua
/usr/share/sysbench/select_random_points.lua
/usr/share/sysbench/select_random_ranges.lua
/usr/share/sysbench/tests/include/inspect.lua
/usr/share/sysbench/tests/include/oltp_legacy/bulk_insert.lua
/usr/share/sysbench/tests/include/oltp_legacy/common.lua
/usr/share/sysbench/tests/include/oltp_legacy/delete.lua
/usr/share/sysbench/tests/include/oltp_legacy/insert.lua
/usr/share/sysbench/tests/include/oltp_legacy/oltp.lua
/usr/share/sysbench/tests/include/oltp_legacy/oltp_simple.lua
/usr/share/sysbench/tests/include/oltp_legacy/parallel_prepare.lua
/usr/share/sysbench/tests/include/oltp_legacy/select.lua
/usr/share/sysbench/tests/include/oltp_legacy/select_random_points.lua
/usr/share/sysbench/tests/include/oltp_legacy/select_random_ranges.lua
/usr/share/sysbench/tests/include/oltp_legacy/update_index.lua
/usr/share/sysbench/tests/include/oltp_legacy/update_non_index.lua

本文介绍的是新版本sysbench oltp lua脚本的用法(/usr/share/sysbench/*.lua),所以不涉及传统的lua(tests/include/oltp_legacy/*.lua),如果想要了解这些传统Lua脚本的用法,网上随便找。

2.sysbench使用方法

以下列出了sysbench对测试mysql时常用的选项。

[root@xuexi ~]# sysbench --help
Usage:
 sysbench [options]... [test_lua] [lua_options] [command]

Commands implemented by most tests: prepare run cleanup help

通用选项:以下中括号中的值表示默认值

  --threads=N                     指定线程数[1]
  --events=N                      限制最大请求数,0表示不限制[0]
  --time=N                        限制最长执行时间,0表示不限制[10]
                    --events和--time二者选一即可
  --forced-shutdown=STRING        达到最长执行时间后还需等待多久关闭sysbench
                                  off表示禁用该功能[off]
  --thread-stack-size=SIZE        每个线程使用的栈空间大小[64K]
  --rate=N                        平均事务处理速率,0表示不限制[0]
  --report-interval=N             每隔几秒报告一次结果,0表示禁用间隔报告[0]
  --config-file=FILENAME          从文件中读取命令行选项
  --tx-rate=N                     已废弃,是--rate的别名[0]
  --max-requests=N                已废弃,是--events的别名[0]
  --max-time=N                    已废弃,是--time的别名[0]
  --num-threads=N                 已废弃,是--threads的别名[1]

mysql相关选项:

  --mysql-host=[LIST,...]          MySQL server host [localhost]
  --mysql-port=[LIST,...]          MySQL server port [3306]
  --mysql-socket=[LIST,...]        MySQL socket
  --mysql-user=STRING              MySQL user [sbtest]
  --mysql-password=STRING          MySQL password []
  --mysql-db=STRING                MySQL database name [sbtest]
  --mysql-ignore-errors=[LIST,...] 要忽略的错误代码,值可为"all" [1213,1020,1205]

Compiled-in tests:
  fileio - File I/O test
  cpu - CPU performance test
  memory - Memory functions speed test
  threads - Threads subsystem performance test
  mutex - Mutex performance test

其中,command部分有4类:prepare run cleanup和help:

test_lua是想要使用的lua脚本,如果是rpm包安装的sysbench,则这些脚本都是/usr/share/sysbench目录下。对于一般的数据库测试,只需使用和oltp有关的lua脚本就足够。

options和lua_options是不同的,options是sysbench的选项,lua_options是lua脚本的选项,lua_options应该要放在test_lua的后面(非必需,但建议)。

例如,要查看oltp_common.lua的用法,可以:

sysbench /usr/share/sysbench/oltp_common.lua help

3.准备测试数据

首先创建sysbench所需数据库sbtest(这是sysbench默认使用的库名,必须创建测试库)。

mysqladmin -h127.0.0.1 -uroot -pP@ssword1! -P3306 create sbtest;

然后,准备测试所用的表,这些测试表放在测试库sbtest中。这里使用的lua脚本为/usr/share/sysbench/oltp_common.lua。

sysbench --mysql-host=127.0.0.1 \
   --mysql-port=3306 \
   --mysql-user=root \
   --mysql-password=P@ssword1! \
   /usr/share/sysbench/oltp_common.lua \
   --tables=10 \
   --table_size=100000 \
   prepare

其中--tables=10表示创建10个测试表,--table_size=100000表示每个表中插入10W行数据,prepare表示这是准备数的过程。

mysql> show tables from sbtest;
+------------------+
| Tables_in_sbtest |
+------------------+
| sbtest1   |
| sbtest10   |
| sbtest2   |
| sbtest3   |
| sbtest4   |
| sbtest5   |
| sbtest6   |
| sbtest7   |
| sbtest8   |
| sbtest9   |
+------------------+

mysql> select count(*) from sbtest.sbtest1;
+----------+
| count(*) |
+----------+
| 100000 |
+----------+

如果想要清除这10个表,可使用cleanup命令。

sysbench --mysql-host=127.0.0.1 \
   --mysql-port=3306 \
   --mysql-user=root \
   --mysql-password=P@ssword1! \
   /usr/share/sysbench/oltp_common.lua \
   --tables=10 \
   cleanup

4.数据库测试和结果分析

稍微修改下之前准备数据的语句,就可以拿来测试了。

需要注意的是,之前使用的lua脚本为oltp_common.lua,它是一个通用脚本,是被其它lua脚本调用的,它不能直接拿来测试。

所以,我这里用oltp_read_write.lua脚本来做读、写测试。还有很多其它类型的测试,比如只读测试、只写测试、删除测试、大批量插入测试等等。可找到对应的lua脚本进行调用即可。

sysbench --threads=4 \
   --time=20 \
   --report-interval=5 \
   --mysql-host=127.0.0.1 \
   --mysql-port=3306 \
   --mysql-user=root \
   --mysql-password=P@ssword1! \
   /usr/share/sysbench/oltp_read_write.lua \
   --tables=10 \
   --table_size=100000 \
   run

以下是测试返回的结果:

Initializing worker threads...

Threads started!


####以下是每5秒返回一次的结果,统计的指标包括:
#### 线程数、tps(每秒事务数)、qps(每秒查询数)、
#### 每秒的读/写/其它次数、延迟、每秒错误数、每秒重连次数
[ 5s ] thds: 4 tps: 130.16 qps: 2606.30 (r/w/o: 1824.51/520.66/261.13) lat (ms,95%): 104.84 err/s: 0.00 reconn/s: 0.00
[ 10s ] thds: 4 tps: 126.74 qps: 2539.17 (r/w/o: 1778.17/507.52/253.47) lat (ms,95%): 108.68 err/s: 0.00 reconn/s: 0.00
[ 15s ] thds: 4 tps: 136.54 qps: 2736.34 (r/w/o: 1915.25/548.01/273.07) lat (ms,95%): 102.97 err/s: 0.00 reconn/s: 0.00
[ 20s ] thds: 4 tps: 107.44 qps: 2148.65 (r/w/o: 1505.60/428.17/214.89) lat (ms,95%): 132.49 err/s: 0.00 reconn/s: 0.00

SQL statistics:
    queries performed:
        read:          35098   # 执行的读操作数量
        write:         10028   # 执行的写操作数量
        other:         5014    # 执行的其它操作数量
        total:         50140
    transactions:      2507   (124.29 per sec.)    # 执行事务的平均速率
    queries:           50140  (2485.82 per sec.)   # 平均每秒能执行多少次查询
    ignored errors:    0      (0.00 per sec.)
    reconnects:        0      (0.00 per sec.)

General statistics:
    total time:                  20.1694s     # 总消耗时间
    total number of events:      2507         # 总请求数量(读、写、其它)

Latency (ms):
         min:                            2.32
         avg:                           32.13
         max:                          575.78
         95th percentile:              118.92    # 采样计算的平均延迟
         sum:                        80554.96

Threads fairness:
    events (avg/stddev):           626.7500/2.49
    execution time (avg/stddev):   20.1387/0.04

5.cpu/io/内存等测试

sysbench内置了几个测试指标。

Compiled-in tests:
  fileio - File I/O test
  cpu - CPU performance test
  memory - Memory functions speed test
  threads - Threads subsystem performance test
  mutex - Mutex performance test

可直接help输出测试方法。例如,fileio测试。

[root@xuexi ~]# sysbench fileio help
sysbench 1.0.15 (using bundled LuaJIT 2.1.0-beta2)

fileio options:
 --file-num=N     number of files to create [128]
 --file-block-size=N   block size to use in all IO operations [16384]
 --file-total-size=SIZE  total size of files to create [2G]
 --file-test-mode=STRING  test mode {seqwr, seqrewr, seqrd, rndrd, rndwr, rndrw}
 --file-io-mode=STRING   file operations mode {sync,async,mmap} [sync]
 --file-async-backlog=N  number of asynchronous operatons to queue per thread [128]
 --file-extra-flags=[LIST,...] list of additional flags to use to open files {sync,dsync,direct} []
 --file-fsync-freq=N   do fsync() after this number of requests (0 - don't use fsync()) [100]
 --file-fsync-all[=on|off]  do fsync() after each write operation [off]
 --file-fsync-end[=on|off]  do fsync() at the end of test [on]
 --file-fsync-mode=STRING  which method to use for synchronization {fsync, fdatasync} [fsync]
 --file-merged-requests=N  merge at most this number of IO requests if possible (0 - don't merge) [0]
 --file-rw-ratio=N    reads/writes ratio for combined test [1.5]

例如,创建5个文件,总共1G,每个文件大概200M。

sysbench fileio --file-num=5 --file-total-size=1G prepare

[root@xuexi ~]# ls -lh test*
-rw------- 1 root root 205M Jul 8 12:15 test_file.0
-rw------- 1 root root 205M Jul 8 12:15 test_file.1
-rw------- 1 root root 205M Jul 8 12:15 test_file.2
-rw------- 1 root root 205M Jul 8 12:15 test_file.3
-rw------- 1 root root 205M Jul 8 12:15 test_file.4

然后,运行测试。

sysbench --events=5000 \
   --threads=16 \
   fileio \
   --file-num=5 \
   --file-total-size=G \
   --file-test-mode=rndrw \
   --file-fsync-freq=0 \
   --file-block-size=16384 \
   run

结果:

File operations:
    reads/s:                      98.67
    writes/s:                     66.85
    fsyncs/s:                     6.26

Throughput:     # 吞吐量
    read, MiB/s:                  1.54  # 表示读的带宽
    written, MiB/s:               1.04  # 表示读的带宽

General statistics:
    total time:                   12.7426s
    total number of events:       2117

Latency (ms):
         min:                          0.00
         avg:                         86.66
         max:                       2919.41
         95th percentile:            646.19
         sum:                     183460.80

Threads fairness:
    events (avg/stddev):          132.3125/24.19
    execution time (avg/stddev):  11.4663/1.09

再比例cpu性能测试:

[root@xuexi ~]# sysbench cpu --threads=40 --events=10000 --cpu-max-prime=20000 run
sysbench 1.0.15 (using bundled LuaJIT 2.1.0-beta2)

Running the test with following options:
Number of threads: 40
Initializing random number generator from current time


Prime numbers limit: 20000

Initializing worker threads...

Threads started!

CPU speed:
 events per second: 2127.81

General statistics:
 total time:       4.986s
 total number of events:    10000

Latency (ms):
   min:         1.72
   avg:         18.16
   max:         302.17
   5th percentile:      110.66
   sum:        181628.49

Threads fairness:
 events (avg/stddev):   250.0000/30.81
 execution time (avg/stddev): 4.5407/0.10

总结

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