学习啦>学习电脑>电脑硬件知识>CPU知识>

关于linux的进程中的各个线程cpu占用情况进行分析和查看

捷锋分享

  CPU是电脑的重要组成部分,是不可缺少的角色。下面是学习啦小编带来的关于关于linux的进程中的各个线程cpu占用情况进行分析和查看的内容,欢迎阅读!

  关于linux的进程中的各个线程cpu占用情况进行分析和查看:

  我们经常会在新开的服搭建一个游戏的服务器,有时候要进行压力测试,那么如何来看呢,一般我们会通过top命令查看各个进程的cpu和内存占用情况,获得到了我们的进程id,然后我们也许会通过pstack命令查看里边的各个线程id以及对应的线程现在正在做什么事情,分析多组数据就可以获得哪些线程里有慢操作影响了服务器的性能,从而得到解决方案。比如这样的以组数据:

  [root@AY130816144542124256Z bin]# pstack 30222

  Thread 9 (Thread 0x7f729adc1700 (LWP 30251)):

  #0 0x00007f72a429b720 in sem_wait () from /lib64/libpthread.so.0

  #1 0x0000000000ac5eb6 in Semaphore::down() ()

  #2 0x0000000000ac5cac in Queue::get() ()

  #3 0x00000000009a583f in DBManager::processUpdate(Queue*) ()

  #4 0x00000000009a4bfb in dbUpdateThread(void*) ()

  #5 0x00007f72a4295851 in start_thread () from /lib64/libpthread.so.0

  #6 0x00007f72a459267d in clone () from /lib64/libc.so.6

  Thread 8 (Thread 0x7f727c579700 (LWP 30252)):

  #0 0x00007f72a429b720 in sem_wait () from /lib64/libpthread.so.0

  #1 0x0000000000ac5eb6 in Semaphore::down() ()

  #2 0x0000000000ac5cac in Queue::get() ()

  #3 0x00000000009a5799 in DBManager::processQuery(Queue*) ()

  #4 0x00000000009a4c3a in dbQueryThread(void*) ()

  #5 0x00007f72a4295851 in start_thread () from /lib64/libpthread.so.0

  #6 0x00007f72a459267d in clone () from /lib64/libc.so.6

  Thread 7 (Thread 0x7f7257fff700 (LWP 30253)):

  #0 0x00007f72a42997bb in pthread_cond_timedwait@@GLIBC_2.3.2 () from /lib64/libpthread.so.0

  #1 0x00007f72a549ee08 in utils::thread::condition_impl::timed_wait(int) () from /usr/local/utils-0.0.1/lib/libutils.so.0.0.1

  #2 0x00007f72a549ebd3 in utils::thread::Condition::timed_wait(int) () from /usr/local/utils-0.0.1/lib/libutils.so.0.0.1

  #3 0x00000000009d5f57 in utils::MessageQueue::pop() ()

  #4 0x00000000009d5557 in FightReport::svc() ()

  #5 0x00007f72a5494b45 in utils::Task_Base::thread_proc(void*) () from /usr/local/utils-0.0.1/lib/libutils.so.0.0.1

  #6 0x00007f72a4295851 in start_thread () from /lib64/libpthread.so.0

  #7 0x00007f72a459267d in clone () from /lib64/libc.so.6

  Thread 6 (Thread 0x7f72397b7700 (LWP 30254)):

  #0 0x00007f72a4588fc3 in poll () from /lib64/libc.so.6

  #1 0x00007f72a0fbded4 in __libc_res_nsend () from /lib64/libresolv.so.2

  #2 0x00007f72a0fba76a in __libc_res_nquery () from /lib64/libresolv.so.2

  #3 0x00007f72a0fbad29 in __libc_res_nquerydomain () from /lib64/libresolv.so.2

  #4 0x00007f72a0fbb9cf in __libc_res_nsearch () from /lib64/libresolv.so.2

  #5 0x00007f729adc37a7 in _nss_dns_gethostbyname4_r () from /lib64/libnss_dns.so.2

  #6 0x00007f72a457a4c3 in gaih_inet () from /lib64/libc.so.6

  #7 0x00007f72a457cb20 in getaddrinfo () from /lib64/libc.so.6

  #8 0x00007f72a56fc782 in Curl_getaddrinfo_ex () from /usr/lib64/libcurl.so.4

  #9 0x00007f72a56f1d42 in Curl_getaddrinfo () from /usr/lib64/libcurl.so.4

  #10 0x00007f72a56c9e77 in Curl_resolv () from /usr/lib64/libcurl.so.4

  #11 0x00007f72a56ca138 in Curl_resolv_timeout () from /usr/lib64/libcurl.so.4

  #12 0x00007f72a56d8d88 in ?? () from /usr/lib64/libcurl.so.4

  #13 0x00007f72a56ddb79 in ?? () from /usr/lib64/libcurl.so.4

  #14 0x00007f72a56de76e in Curl_connect () from /usr/lib64/libcurl.so.4

  #15 0x00007f72a56e69b0 in Curl_perform () from /usr/lib64/libcurl.so.4

  #16 0x0000000000ae6e3d in HttpClient::svc() ()

  #17 0x00007f72a5494b45 in utils::Task_Base::thread_proc(void*) () from /usr/local/utils-0.0.1/lib/libutils.so.0.0.1

  #18 0x00007f72a4295851 in start_thread () from /lib64/libpthread.so.0

  #19 0x00007f72a459267d in clone () from /lib64/libc.so.6

  Thread 5 (Thread 0x7f721af6f700 (LWP 30255)):

  #0 0x00007f72a455691d in nanosleep () from /lib64/libc.so.6

  #1 0x000000000098cb8a in Sleep(unsigned long) ()

  #2 0x000000000098b87d in DynResource::svc() ()

  #3 0x00007f72a5494b45 in utils::Task_Base::thread_proc(void*) () from /usr/local/utils-0.0.1/lib/libutils.so.0.0.1

  #4 0x00007f72a4295851 in start_thread () from /lib64/libpthread.so.0

  #5 0x00007f72a459267d in clone () from /lib64/libc.so.6

  Thread 4 (Thread 0x7f71fc727700 (LWP 30256)):

  #0 0x00007f72a455691d in nanosleep () from /lib64/libc.so.6

  #1 0x000000000098cb8a in Sleep(unsigned long) ()

  #2 0x0000000000a61516 in PlayerOpLogThread::svc() ()

  #3 0x00007f72a5494b45 in utils::Task_Base::thread_proc(void*) () from /usr/local/utils-0.0.1/lib/libutils.so.0.0.1

  #4 0x00007f72a4295851 in start_thread () from /lib64/libpthread.so.0

  #5 0x00007f72a459267d in clone () from /lib64/libc.so.6

  Thread 3 (Thread 0x7f71ddedf700 (LWP 30257)):

  #0 0x00007f72a4592c73 in epoll_wait () from /lib64/libc.so.6

  #1 0x00007f72a51f334f in Epoll_Reactor::run_reactor_event_loop() () from /usr/local/net_manager-0.0.2/lib/libnet_manager.so.0.0.2

  #2 0x00007f72a51f2523 in Net_Thread::svc() () from /usr/local/net_manager-0.0.2/lib/libnet_manager.so.0.0.2

  #3 0x00007f72a5494b45 in utils::Task_Base::thread_proc(void*) () from /usr/local/utils-0.0.1/lib/libutils.so.0.0.1

  #4 0x00007f72a4295851 in start_thread () from /lib64/libpthread.so.0

  #5 0x00007f72a459267d in clone () from /lib64/libc.so.6

  Thread 2 (Thread 0x7f71bf697700 (LWP 30258)):

  #0 0x00007f72a4592c73 in epoll_wait () from /lib64/libc.so.6

  #1 0x00007f72a51f334f in Epoll_Reactor::run_reactor_event_loop() () from /usr/local/net_manager-0.0.2/lib/libnet_manager.so.0.0.2

  #2 0x00007f72a51f2523 in Net_Thread::svc() () from /usr/local/net_manager-0.0.2/lib/libnet_manager.so.0.0.2

  #3 0x00007f72a5494b45 in utils::Task_Base::thread_proc(void*) () from /usr/local/utils-0.0.1/lib/libutils.so.0.0.1

  #4 0x00007f72a4295851 in start_thread () from /lib64/libpthread.so.0

  #5 0x00007f72a459267d in clone () from /lib64/libc.so.6

  Thread 1 (Thread 0x7f72a60ae7e0 (LWP 30222)):

  #0 0x00007f72a4584c95 in _xstat () from /lib64/libc.so.6

  #1 0x00007f72a45483e0 in __tzfile_read () from /lib64/libc.so.6

  #2 0x00007f72a4547864 in tzset_internal () from /lib64/libc.so.6

  #3 0x00007f72a4547b20 in tzset () from /lib64/libc.so.6

  #4 0x00007f72a4546699 in timelocal () from /lib64/libc.so.6

  #5 0x0000000000b0b08d in Achieve::GetRemainTime(AchieveTemplate*) ()

  #6 0x0000000000b115ca in Achieve::update() ()

  #7 0x0000000000a197ce in Player::update() ()

  #8 0x0000000000b1b272 in PlayerMng::Tick() ()

  #9 0x0000000000a73105 in GameServer::FrameTick(unsigned int) ()

  #10 0x0000000000a6ff80 in GameServer::run() ()

  #11 0x0000000000a773a1 in main ()

  [root@AY130816144542124256Z gameserver]# ps -eLo pid,lwp,pcpu | grep 30222

  30222 30222 31.4

  30222 30251 0.0

  30222 30252 0.0

  30222 30253 0.0

  30222 30254 0.0

  30222 30255 0.0

  30222 30256 1.2

  30222 30257 1.2

  30222 30258 1.0

  多组数据显示表明我们的主逻辑线程的确占用的cpu很高,发现其实在Achieve::update() 的时候做了太多没有用的判断,并且可以减少循环进入的次数的,所以我在这里进行了优化

  后来用了一下iptraf命令查看了网络流量:

  第一项:IP流量监控

  第二项:常规查看网卡流量状态。只查看各网卡的总流量

  第三项:详细查看网卡流量状态。比如按TCP,UDP,ARP等协议查看

  选all interfaces,查看所有网卡接口

  界面分上下两部分,上部分可详细显示哪个与之相连的IP,发了多少包,即时流量是多少,下部分,可以显示udp等信息。

  显示连接本地服务器的所有连接流量情况

  另外不得不提到另外一个命令sar:

  sar有很多用途,如果要来监控网络流量,使用下面的命令行方式:

  sar -n DEV interval count

  其中,interval是统计时间间隔,以秒为单位;count是总共统计几次,如果为0就不断的统计直到 Ctrl+C 打断,否则执行count次就退出。

  比如:sar -n DEV 1 4

  比如:sar -n DEV 10 0

  IFACE:LAN接口

  rxpck/s:每秒钟接收的数据包

  txpck/s:每秒钟发送的数据包

  rxbyt/s:每秒钟接收的字节数

  txbyt/s:每秒钟发送的字节数

  sar -n DEV -u 1 10

  07:22:01 PM IFACE rxpck/s txpck/s rxkB/s txkB/s rxcmp/s txcmp/s rxmcst/s

  07:22:02 PM lo 0.00 0.00 0.00 0.00 0.00 0.00 0.00

  07:22:02 PM eth0 2.47 0.00 0.11 0.00 0.00 0.00 0.00

  07:22:02 PM eth1 80.25 22.22 3.53 3.52 0.00 0.00 0.00

  07:22:02 PM CPU %user %nice %system %iowait %steal %idle

  07:22:03 PM all 1.85 0.00 1.06 0.00 0.00 97.09

  07:22:02 PM IFACE rxpck/s txpck/s rxkB/s txkB/s rxcmp/s txcmp/s rxmcst/s

  07:22:03 PM lo 0.00 0.00 0.00 0.00 0.00 0.00 0.00

  07:22:03 PM eth0 0.00 0.00 0.00 0.00 0.00 0.00 0.00

  07:22:03 PM eth1 66.67 19.75 2.95 3.22 0.00 0.00 0.00

  07:22:03 PM CPU %user %nice %system %iowait %steal %idle

  07:22:04 PM all 2.12 0.00 1.06 0.00 0.00 96.82

  07:22:03 PM IFACE rxpck/s txpck/s rxkB/s txkB/s rxcmp/s txcmp/s rxmcst/s

  07:22:04 PM lo 0.00 0.00 0.00 0.00 0.00 0.00 0.00

  07:22:04 PM eth0 7.32 4.88 0.65 0.38 0.00 0.00 0.00

  07:22:04 PM eth1 85.37 28.05 4.18 3.88 0.00 0.00 0.00

  07:22:04 PM CPU %user %nice %system %iowait %steal %idle

  07:22:05 PM all 3.96 0.00 2.64 0.00 0.00 93.40

  07:22:04 PM IFACE rxpck/s txpck/s rxkB/s txkB/s rxcmp/s txcmp/s rxmcst/s

  07:22:05 PM lo 412.50 412.50 104.44 104.44 0.00 0.00 0.00

  07:22:05 PM eth0 13.75 12.50 1.32 1.26 0.00 0.00 0.00

  07:22:05 PM eth1 903.75 707.50 174.12 62.42 0.00 0.00 0.00

  07:22:05 PM CPU %user %nice %system %iowait %steal %idle

  07:22:06 PM all 5.25 0.00 4.46 2.10 0.00 88.19

  07:22:05 PM IFACE rxpck/s txpck/s rxkB/s txkB/s rxcmp/s txcmp/s rxmcst/s

  07:22:06 PM lo 849.41 849.41 154.54 154.54 0.00 0.00 0.00

  07:22:06 PM eth0 0.00 0.00 0.00 0.00 0.00 0.00 0.00

  07:22:06 PM eth1 1287.06 1337.65 84.48 461.76 0.00 0.00 0.00

  07:22:06 PM CPU %user %nice %system %iowait %steal %idle

  07:22:07 PM all 1.85 0.00 1.06 0.00 0.00 97.09

  07:22:06 PM IFACE rxpck/s txpck/s rxkB/s txkB/s rxcmp/s txcmp/s rxmcst/s

  07:22:07 PM lo 0.00 0.00 0.00 0.00 0.00 0.00 0.00

  07:22:07 PM eth0 4.94 0.00 0.22 0.00 0.00 0.00 0.00

  07:22:07 PM eth1 97.53 19.75 4.32 3.18 0.00 0.00 0.00

  07:22:07 PM CPU %user %nice %system %iowait %steal %idle

  07:22:08 PM all 1.58 0.00 1.32 0.00 0.00 97.11

  07:22:07 PM IFACE rxpck/s txpck/s rxkB/s txkB/s rxcmp/s txcmp/s rxmcst/s

  07:22:08 PM lo 4.94 4.94 0.31 0.31 0.00 0.00 0.00

  07:22:08 PM eth0 1.23 0.00 0.06 0.00 0.00 0.00 0.00

  07:22:08 PM eth1 67.90 24.69 3.02 3.94 0.00 0.00 0.00

  Average: CPU %user %nice %system %iowait %steal %idle

  Average: all 3.63 0.00 2.55 0.84 0.00 92.98

  Average: IFACE rxpck/s txpck/s rxkB/s txkB/s rxcmp/s txcmp/s rxmcst/s

  Average: lo 212.61 212.61 50.54 50.54 0.00 0.00 0.00

  Average: eth0 42.79 41.70 3.27 41.84 0.00 0.00 0.00

  Average: eth1 492.48 432.48 53.63 110.40 0.00 0.00 0.00

看了关于linux的进程中的各个线程cpu占用情况进行分析和查看文章内容的人还看:

1.Linux TOP命令 按内存占用排序和按CPU占用排序

2.Linux中查看CPU的信息的方法是什么

3.Linux系统下,CPU信息详解(cpuinfo,多核,多线程):

4.java和多线程cpu

5.Linux系统上如何进行openmp多线程编程

6.提高实时操作系统的实时性能和可靠性策略论文

    613650