• [原] KVM 环境下MySQL性能对比


    KVM 环境下MySQL性能对比

    标签(空格分隔): Cloud2.0


    测试目的

    对比MySQL在物理机和KVM环境下性能情况

    压测标准

    压测遵循单一变量原则,所有的对比都是只改变一个变量的前提下完成

    测试方式

    以物理机MySQL为基准,分别做两次测试

    1. 测试IO相关参数(writethrough, innodb flush method)
    2. 测试CPU相关参数(NUMA Balancing)

    测试环境

    CPU:Intel(R) Xeon(R) CPU E5-2620 v2 @ 2.10GHz X 24
    MEM:48G
    Disk:SSD 1.3T
    System:Ubuntu 14.04.4 LTS
    Kernel:3.16.0-30-generic
    MySQL:mysql-5.5.31-linux2.6-x86_64
    Sysbench:0.4.12
    KVM:QEMU emulator version 2.0.0 (Debian 2.0.0+dfsg-2ubuntu1.22)
    

    测试变量

    因相关资料说明,writethrough IO模式能够保障数据一致性,所以在MySQL环境下,默认只测试writethrough环境

    以打开NUMA Balancing的物理机环境为基准,测试KVM环境如下变量:

    1. writethrough cache模式下的 innodb io (O_DIRECT, O_SYNC)
    2. KVM 宿主机 NUMA Balancing 对MySQL性能影响

    测试软件环境

    配置模板如下(只列举关键参数)

    # The MySQL server
    [mysqld]
    default-storage-engine = innodb
    
    # MyISAM setup
    key_buffer_size = 128M
    myisam_sort_buffer_size = 64M
    
    ## gloabl config
    max_allowed_packet = 16M
    max_heap_table_size = 64M
    tmp_table_size = 8M
    max_connections = 4000
    open_files_limit = 6000
    table_open_cache = 512
    read_buffer_size = 2M
    read_rnd_buffer_size = 4M
    join_buffer_size = 256K
    sort_buffer_size = 2M
    thread_cache_size = 8
    query_cache_size = 0
    thread_concurrency = 16
    
    # Replication Master setup
    log-bin = mysql-bin
    relay-log = mysqld-relay-bin
    max_binlog_size = 100M
    binlog_format = row
    binlog_cache_size=32K
    thread_stack=262144
    auto_increment_increment = 3
    auto_increment_offset = 1
    
    # Logging
    slow_query_log  = 1
    long_query_time = 2
    
    # InnoDB setup
    innodb_file_format = Barracuda
    innodb_file_per_table
    innodb_buffer_pool_size = 4096M
    innodb_log_file_size = 16M
    innodb_log_buffer_size = 40M
    innodb_flush_log_at_trx_commit = 2
    innodb_lock_wait_timeout = 50
    innodb_log_files_in_group=2
    innodb_io_capacity=2000
    
    [mysqldump]
    quick
    extended-insert = false
    default-character-set = utf8
    max_allowed_packet = 16M
    
    [mysql]
    no-auto-rehash
    
    [myisamchk]
    key_buffer_size = 8M
    sort_buffer_size = 8M
    read_buffer = 2M
    write_buffer = 2M
    
    [mysqlhotcopy]
    interactive-timeout
    

    KVM-qemu 配置如下:

    <domain type='kvm'>
    	<name>mysql1</name>
    	<memory unit='MiB'>5120</memory>
    	<currentMemory unit='MiB'>5120</currentMemory>
    	<vcpu placement='static'>4</vcpu>
    	<os>
    		<type>hvm</type>
    		<boot dev='hd' />
    	</os>
    	<features>
    		<acpi />
    		<apic />
    		<pae />
    	</features>
    	<clock offset='utc' />
    	<on_poweroff>destroy</on_poweroff>
    	<on_reboot>restart</on_reboot>
    	<on_crash>restart</on_crash>
    	<devices>
    		<emulator>/usr/bin/kvm-spice</emulator>
    		<disk type='file' device='disk'>
    			<driver name='qemu' type='qcow2' />
    			<source file='/data2/kvm/image1/mysql.qcow2' />
    			<target dev='vda' bus='virtio' />
    		</disk>
    		<disk type='file' device='disk'>
    			<driver name='qemu' type='qcow2' cache='writethrough'/>
    			<source file='/data2/kvm/image1/data.qcow2' />
    			<target dev='vdb' bus='virtio' />
    		</disk>
    		<interface type='network'>
    			<source network='default1' />
    			<model type='virtio' />
    		</interface>
    		<console type='pty'>
    			<target port='0' />
    		</console>
    		<graphics type='vnc' autoport='yes' sharePolicy='allow-exclusive' keymap='en-us'>
    			<listen type='address' address='0.0.0.0' />
    		</graphics>
    	</devices>
    </domain>
    

    测试基准

    测试以物理机的MySQL实例作为参照
    物理机MySQL默认情况下,使用4G+4Core,关闭NUMA Balancing

    基准数据

    Innodb_flush_method = O_DIRECT

    OLTP test statistics:
        queries performed:
            read:                            14000028
            write:                           5000010
            other:                           2000004
            total:                           21000042
        transactions:                        1000002 (1375.45 per sec.)
        deadlocks:                           0      (0.00 per sec.)
        read/write requests:                 19000038 (26133.48 per sec.)
        other operations:                    2000004 (2750.89 per sec.)
    
    Test execution summary:
        total time:                          727.0382s
        total number of events:              1000002
        total time taken by event execution: 17443.5464
        per-request statistics:
             min:                                  1.78ms
             avg:                                 17.44ms
             max:                               1048.03ms
             approx.  95 percentile:              32.64ms
    
    Threads fairness:
        events (avg/stddev):           41666.7500/646.28
        execution time (avg/stddev):   726.8144/0.00
    

    关闭 Innodb_flush_method = O_DIRECT, 使用默认值

    OLTP test statistics:
        queries performed:
            read:                            14000028
            write:                           5000010
            other:                           2000004
            total:                           21000042
        transactions:                        1000002 (1390.26 per sec.)
        deadlocks:                           0      (0.00 per sec.)
        read/write requests:                 19000038 (26414.92 per sec.)
        other operations:                    2000004 (2780.52 per sec.)
    
    Test execution summary:
        total time:                          719.2920s
        total number of events:              1000002
        total time taken by event execution: 17257.6867
        per-request statistics:
             min:                                  1.78ms
             avg:                                 17.26ms
             max:                               1476.86ms
             approx.  95 percentile:              32.76ms
    
    Threads fairness:
        events (avg/stddev):           41666.7500/709.66
        execution time (avg/stddev):   719.0703/0.00
    

    基准数据分析

    在物理机MySQL实例情况下,innodb_flush_method对MySQL性能有一定影响关系

    测试结果

    第一次压测,KVM环境下 (单一变量 innodb_flush_method)

    单纯虚拟机(kvm)压测, Innodb_flush_method = O_DIRECT
    打开 Numa balancing, kvm cache模式改为 writethrough

    KVM 配置:
        CPU = 4 core
        Mem = 5 G
        MySQL = 4G
        Cache = writethrough
    MySQL 配置:
        Mem = 4G
        Innodb_flush_method = O_DIRECT
    

    Innodb_flush_method = O_DIRECT

    sysbench --test=oltp --oltp-table-size=1000000  --mysql-db=test --max-requests=1000000 --num-threads=24 --mysql-host=192.168.100.244 --mysql-user=test run
    
    OLTP test statistics:
        queries performed:
            read:                            14000042
            write:                           5000015
            other:                           2000006
            total:                           21000063
        transactions:                        1000003 (1041.22 per sec.)
        deadlocks:                           0      (0.00 per sec.)
        read/write requests:                 19000057 (19783.20 per sec.)
        other operations:                    2000006 (2082.44 per sec.)
    
    Test execution summary:
        total time:                          960.4138s
        total number of events:              1000003
        total time taken by event execution: 23044.1587
        per-request statistics:
             min:                                  3.43ms
             avg:                                 23.04ms
             max:                                958.60ms
             approx.  95 percentile:              43.71ms
    
    Threads fairness:
        events (avg/stddev):           41666.7917/865.32
        execution time (avg/stddev):   960.1733/0.01
    

    Innodb_flush_method = DEFAULT(O_SYNC)

    sysbench 0.4.12:  multi-threaded system evaluation benchmark
    
    OLTP test statistics:
        queries performed:
            read:                            14000042
            write:                           5000015
            other:                           2000006
            total:                           21000063
        transactions:                        1000003 (1025.90 per sec.)
        deadlocks:                           0      (0.00 per sec.)
        read/write requests:                 19000057 (19492.01 per sec.)
        other operations:                    2000006 (2051.79 per sec.)
    
    Test execution summary:
        total time:                          974.7614s
        total number of events:              1000003
        total time taken by event execution: 23388.1224
        per-request statistics:
             min:                                  3.75ms
             avg:                                 23.39ms
             max:                               1306.42ms
             approx.  95 percentile:              44.38ms
    
    Threads fairness:
        events (avg/stddev):           41666.7917/863.10
        execution time (avg/stddev):   974.5051/0.01
    

    第一次压测总结

    从压测报告显示,在kvm打开writethrough前提下,O_DIRECT方式,MySQL的效率更高
    使用kvm,MySQL性能约为物理机的75%
    纵坐标为总执行时间

    db.png-16.3kB

    IO模式建议优化手段

    在宿主机打开writethrough前提下,配置 Innodb_flush_method = O_DIRECT有效提高MySQL性能
    约为物理机O_DIRECT模式下性能的97%

    第二次压测, KVM环境下 (单一变量 numa balancing)

    单纯虚拟机(kvm)压测, 打开 numa balancing
    关闭宿主机 Numa balancing, kvm cache模式改为 writethrough
    Innodb_flush_method = O_SYNC

    OLTP test statistics:
        queries performed:
            read:                            14000014
            write:                           5000005
            other:                           2000002
            total:                           21000021
        transactions:                        1000001 (1068.76 per sec.)
        deadlocks:                           0      (0.00 per sec.)
        read/write requests:                 19000019 (20306.35 per sec.)
        other operations:                    2000002 (2137.51 per sec.)
    
    Test execution summary:
        total time:                          935.6690s
        total number of events:              1000001
        total time taken by event execution: 22450.9403
        per-request statistics:
             min:                                  3.51ms
             avg:                                 22.45ms
             max:                               1170.10ms
             approx.  95 percentile:              41.65ms
    
    Threads fairness:
        events (avg/stddev):           41666.7083/855.51
        execution time (avg/stddev):   935.4558/0.01
    

    Innodb_flush_method = O_DIRECT

    OLTP test statistics:
        queries performed:
            read:                            14000042
            write:                           5000015
            other:                           2000006
            total:                           21000063
        transactions:                        1000003 (1062.79 per sec.)
        deadlocks:                           0      (0.00 per sec.)
        read/write requests:                 19000057 (20193.07 per sec.)
        other operations:                    2000006 (2125.59 per sec.)
    
    Test execution summary:
        total time:                          940.9197s
        total number of events:              1000003
        total time taken by event execution: 22577.0003
        per-request statistics:
             min:                                  3.36ms
             avg:                                 22.58ms
             max:                                756.58ms
             approx.  95 percentile:              41.50ms
    
    Threads fairness:
        events (avg/stddev):           41666.7917/943.69
        execution time (avg/stddev):   940.7083/0.01
    

    第二次压测总结

    打开NUMA绑定后,性能下降约3%

    db2.png-6.2kB

    CPU优化建议

    关闭NUMA绑定

    Q&A

    为什么不采用多个实例做高负载压测?

    在测试的过程中,利用cgroup可以将实例的CPU全部跑到对应的核,在对应CPU上,负载是满的
    QQ截图20160229094646.png-28.4kB

    为什么NUMA对性能影响如此之大?

    猜测vCPU的多个线程可能位于不同的CPU Nodes, 导致跨node的内存访问,不太清楚vCPU是否会产生这样的调度,但是关闭NUMA是不会导致的。

    有没有一张图解释不同kvm cache?

    YY图片20160229114338.png-57.1kB

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  • 原文地址:https://www.cnblogs.com/Bozh/p/5228683.html
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