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如何进行sysbench测试

发表于:2025-01-30 作者:千家信息网编辑
千家信息网最后更新 2025年01月30日,如何进行sysbench测试,很多新手对此不是很清楚,为了帮助大家解决这个难题,下面小编将为大家详细讲解,有这方面需求的人可以来学习下,希望你能有所收获。sysbench支持以下几种测试模式:1、CP
千家信息网最后更新 2025年01月30日如何进行sysbench测试

如何进行sysbench测试,很多新手对此不是很清楚,为了帮助大家解决这个难题,下面小编将为大家详细讲解,有这方面需求的人可以来学习下,希望你能有所收获。

sysbench支持以下几种测试模式:

1、CPU运算性能

2、磁盘IO性能

3、调度程序性能

4、内存分配及传输速度

5、POSIX线程性能

6、数据库性能(OLTP基准测试)

sysbench版本:

[root@127-0-0-1 sysbench]# /u01/opt/sysbench/bin/sysbench --version

sysbench 1.1.0

CPU测试:

[root@127-0-0-1 sysbench]# /u01/opt/sysbench/bin/sysbench cpu --cpu-max-prime=10000 run

sysbench 1.1.0 (using bundled LuaJIT 2.1.0-beta3)

Running the test with following options:

Number of threads: 1

Initializing random number generator from current time

Prime numbers limit: 10000

Initializing worker threads...

Threads started!

CPU speed:

events per second: 658.31

Throughput:

events/s (eps): 658.3125

time elapsed: 10.0013s

total number of events: 6584

Latency (ms):

min: 1.44

avg: 1.52

max: 3.07

95th percentile: 1.52

sum: 9998.21

Threads fairness:

events (avg/stddev): 6584.0000/0.00

execution time (avg/stddev): 9.9982/0.00

线程测试:

[root@127-0-0-1 sysbench]# /u01/opt/sysbench/bin/sysbench threads help

sysbench 1.1.0 (using bundled LuaJIT 2.1.0-beta3)

threads options:

--thread-yields=N number of yields to do per request [1000] #每个请求要执行的收益效率[1000]

--thread-locks=N number of locks per thread [8] #每个线程的锁数[8]

[root@127-0-0-1 sysbench]# /u01/opt/sysbench/bin/sysbench threads --thread-yields=1000 --thread-locks=2 run

sysbench 1.1.0 (using bundled LuaJIT 2.1.0-beta3)

Running the test with following options:

Number of threads: 1

Initializing random number generator from current time

Initializing worker threads...

Threads started!

Throughput:

events/s (eps): 1349.6979

time elapsed: 10.0008s

total number of events: 13498

Latency (ms):

min: 0.73

avg: 0.74

max: 1.50

95th percentile: 0.74

sum: 9996.37

Threads fairness:

events (avg/stddev): 13498.0000/0.00

execution time (avg/stddev): 9.9964/0.00

磁盘IO测试:

[root@127-0-0-1 sysbench]# /u01/opt/sysbench/bin/sysbench fileio help

sysbench 1.1.0 (using bundled LuaJIT 2.1.0-beta3)

fileio options:

--file-num=N number of files to create [128] #代表生成文件的数量[128]

--file-block-size=N block size to use in all IO operations [16384] #在所有IO操作中使用的块大小 [16384]

--file-total-size=SIZE total size of files to create [2G] #要创建的文件的总大小 [2G]

--file-test-mode=STRING test mode {seqwr, seqrewr, seqrd, rndrd, rndwr, rndrw} #测试模式 {seqwr, seqrewr, seqrd, rndrd, rndwr, rndrw}

--file-io-mode=STRING file operations mode {sync,async,mmap} [sync] #文件操作模式 {sync,async,mmap} [sync]

--file-async-backlog=N number of asynchronous operatons to queue per thread [128] #每个线程要排队的异步操作数 [128]

--file-extra-flags=[LIST,...] list of additional flags to use to open files {sync,dsync,direct} [] #用于打开文件的附加标志列表 {sync,dsync,direct} []

--file-fsync-freq=N do fsync() after this number of requests (0 - don't use fsync()) [100] #执行fsync()函数的频率。fsync主要是同步磁盘文件,因为可能有系统和磁盘缓冲的关系。 0代表不使用fsync函数。默认值为100。

--file-fsync-all[=on|off] do fsync() after each write operation [off] #每执行完一次写操作,就执行一次fsync。默认为off。

--file-fsync-end[=on|off] do fsync() at the end of test [on] #在测试结束时执行fsync函数。默认为on。

--file-fsync-mode=STRING which method to use for synchronization {fsync, fdatasync} [fsync] #文件同步函数的选择,同样是和API相关的参数,由于多个操作系统对于fdatasync支持不同,因此不建议使用fdatasync。默认为fsync。

--file-merged-requests=N merge at most this number of IO requests if possible (0 - don't merge) [0] #大多情况下,合并可能的IO的请求数,默认为0。

--file-rw-ratio=N reads/writes ratio for combined test [1.5] # 测试时的读写比例,默认时为1.5,即可3:2。

/u01/opt/sysbench/bin/sysbench fileio --threads=16 --file-total-size=2G --file-test-mode=rndrw prepare #准备

/u01/opt/sysbench/bin/sysbench fileio --threads=16 --file-total-size=2G --file-fsync-freq=0 --file-test-mode=rndrw run #运行

/u01/opt/sysbench/bin/sysbench fileio --threads=16 --file-total-size=2G --file-test-mode=rndrw cleanup #清理

[root@127-0-0-1 yoon]# /u01/opt/sysbench/bin/sysbench fileio --threads=16 --file-total-size=2G --file-fsync-freq=0 --file-test-mode=rndrw run

sysbench 1.1.0 (using bundled LuaJIT 2.1.0-beta3)

Running the test with following options:

Number of threads: 16

Initializing random number generator from current time

Extra file open flags: (none)

128 files, 16MiB each

2GiB total file size

Block size 16KiB

Number of IO requests: 0

Read/Write ratio for combined random IO test: 1.50

Calling fsync() at the end of test, Enabled.

Using synchronous I/O mode

Doing random r/w test

Initializing worker threads...

Threads started!

Throughput:

read: IOPS=383594.04 5993.66 MiB/s (6284.80 MB/s)

write: IOPS=255729.12 3995.77 MiB/s (4189.87 MB/s)

fsync: IOPS=122.71

Latency (ms):

min: 0.00

avg: 0.01

max: 1.73

95th percentile: 0.03

sum: 144444.71

内存测试:

[root@127-0-0-1 yoon]# /u01/opt/sysbench/bin/sysbench memory help

sysbench 1.1.0 (using bundled LuaJIT 2.1.0-beta3)

memory options:

--memory-block-size=SIZE size of memory block for test [1K] #测试内存块的大小 [1K]

--memory-total-size=SIZE total size of data to transfer [100G] #要传输的数据的总大小100G]

--memory-scope=STRING memory access scope {global,local} [global] #内存访问范围 {global,local} [global]

--memory-hugetlb[=on|off] allocate memory from HugeTLB pool [off] #从内存池中分配内存[off]

--memory-oper=STRING type of memory operations {read, write, none} [write] #存储操作类型 {read, write, none} [write]

--memory-access-mode=STRING memory access mode {seq,rnd} [seq] #存储器存取方式 {seq,rnd} [seq]

[root@127-0-0-1 yoon]# /u01/opt/sysbench/bin/sysbench memory --memory-total-size=10G --memory-block-size=8K run

sysbench 1.1.0 (using bundled LuaJIT 2.1.0-beta3)

Running the test with following options:

Number of threads: 1

Initializing random number generator from current time

Running memory speed test with the following options:

block size: 8KiB

total size: 10240MiB

operation: write

scope: global

Initializing worker threads...

Threads started!

Total operations: 1310720 (1077326.35 per second)

10240.00 MiB transferred (8416.61 MiB/sec)

Throughput:

events/s (eps): 1077326.3489

time elapsed: 1.2166s

total number of events: 1310720

Latency (ms):

min: 0.00

avg: 0.00

max: 0.02

95th percentile: 0.00

sum: 893.01

Threads fairness:

events (avg/stddev): 1310720.0000/0.00

execution time (avg/stddev): 0.8930/0.00

OLTP测试:

[root@127-0-0-1 sysbench]# ls

bulk_insert.lua oltp_delete.lua oltp_point_select.lua oltp_read_write.lua oltp_update_non_index.lua prepare.log select_random_ranges.lua

oltp_common.lua oltp_insert.lua oltp_read_only.lua oltp_update_index.lua oltp_write_only.lua select_random_points.lua tests

/u01/opt/sysbench/bin/sysbench /u01/opt/sysbench/share/sysbench/oltp_common.lua --mysql-host=127.0.0.1 --mysql-port=3306 --mysql-user=root --mysql-password='root@01.com' --mysql-db=sbtest --table-size=5000000 --threads=10 --report-interval=10 prepare

[root@127-0-0-1 sysbench]# /u01/opt/sysbench/bin/sysbench /u01/opt/sysbench/share/sysbench/oltp_read_write.lua --mysql-host=127.0.0.1 --mysql-port=3306 --mysql-user=root --mysql-password='root@01.com' --mysql-db=sbtest --table-size=5000000 --threads=10 --report-interval=10 --time=120 run

sysbench 1.1.0 (using bundled LuaJIT 2.1.0-beta3)

Running the test with following options:

Number of threads: 10

Report intermediate results every 10 second(s)

Initializing random number generator from current time

Initializing worker threads...

Threads started!

[ 10s ] thds: 10 tps: 824.26 qps: 16498.17 (r/w/o: 11550.29/3298.36/1649.53) lat (ms,95%): 16.71 err/s: 0.00 reconn/s: 0.00

[ 20s ] thds: 10 tps: 938.90 qps: 18778.84 (r/w/o: 13146.36/3754.69/1877.79) lat (ms,95%): 13.95 err/s: 0.00 reconn/s: 0.00

[ 30s ] thds: 10 tps: 969.19 qps: 19383.22 (r/w/o: 13568.10/3876.74/1938.37) lat (ms,95%): 13.70 err/s: 0.00 reconn/s: 0.00

[ 40s ] thds: 10 tps: 1003.32 qps: 20061.71 (r/w/o: 14042.19/4012.88/2006.64) lat (ms,95%): 13.22 err/s: 0.00 reconn/s: 0.00

[ 50s ] thds: 10 tps: 1011.57 qps: 20236.34 (r/w/o: 14166.91/4046.29/2023.14) lat (ms,95%): 13.22 err/s: 0.00 reconn/s: 0.00

[ 60s ] thds: 10 tps: 1115.50 qps: 22309.32 (r/w/o: 15615.94/4462.38/2230.99) lat (ms,95%): 11.87 err/s: 0.00 reconn/s: 0.00

[ 70s ] thds: 10 tps: 1064.13 qps: 21283.06 (r/w/o: 14898.46/4256.33/2128.27) lat (ms,95%): 12.30 err/s: 0.00 reconn/s: 0.00

[ 80s ] thds: 10 tps: 1030.00 qps: 20599.45 (r/w/o: 14419.27/4120.19/2060.00) lat (ms,95%): 12.52 err/s: 0.00 reconn/s: 0.00

[ 90s ] thds: 10 tps: 1056.32 qps: 21127.75 (r/w/o: 14790.22/4224.89/2112.65) lat (ms,95%): 12.30 err/s: 0.00 reconn/s: 0.00

[ 100s ] thds: 10 tps: 1097.38 qps: 21946.72 (r/w/o: 15362.43/4389.52/2194.76) lat (ms,95%): 12.30 err/s: 0.00 reconn/s: 0.00

[ 110s ] thds: 10 tps: 1147.39 qps: 22948.97 (r/w/o: 16063.71/4590.47/2294.79) lat (ms,95%): 11.87 err/s: 0.00 reconn/s: 0.00

[ 120s ] thds: 10 tps: 1110.00 qps: 22200.00 (r/w/o: 15540.00/4440.00/2220.00) lat (ms,95%): 12.08 err/s: 0.00 reconn/s: 0.00

SQL statistics:

queries performed:

read: 1731702

write: 494772

other: 247386

total: 2473860

transactions: 123693 (1030.70 per sec.)

queries: 2473860 (20614.02 per sec.)

ignored errors: 0 (0.00 per sec.)

reconnects: 0 (0.00 per sec.)

Throughput:

events/s (eps): 1030.7010

time elapsed: 120.0086s

total number of events: 123693

Latency (ms):

min: 4.32

avg: 9.70

max: 185.38

95th percentile: 13.22

sum: 1199649.68

Threads fairness:

events (avg/stddev): 12369.3000/304.67

execution time (avg/stddev): 119.9650/0.00

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