网络性能测试之pathload的安装使用
2009-07-29 15:29
531 查看
pathload用于确定两点之间网络的理论可用带宽。
依旧分为服务器端和客户端
[root@server2 opt]# tar xzvf pathload.tar.gz
pathload_1.3.2/
pathload_1.3.2/CHANGELOG
pathload_1.3.2/CHANGES
pathload_1.3.2/COPYING
pathload_1.3.2/README
pathload_1.3.2/config.guess
pathload_1.3.2/config.sub
pathload_1.3.2/configure
pathload_1.3.2/makefile.in
pathload_1.3.2/pathload_gbls.h
pathload_1.3.2/pathload_rcv.c
pathload_1.3.2/pathload_rcv.h
pathload_1.3.2/pathload_rcv_func.c
pathload_1.3.2/pathload_snd.c
pathload_1.3.2/pathload_snd.h
pathload_1.3.2/pathload_snd_func.c
[root@server2 opt]# cd pathload_1.3.2/
[root@server2 pathload_1.3.2]# ./configure
[root@server2 pathload_1.3.2]# make
[root@server2 pathload_1.3.2]# cd ..
[root@server2 opt]# mv pathload_1.3.2/ /usr/local/pathload/
分别在服务器端和客户端按照以上方法安装
服务器端的启动
[root@server2 pathload]# ./pathload_snd
Waiting for receiver to establish control stream =>
在客户端进行测试
[root@server1 opt]# cd /usr/local/pathload
[root@server1 pathload]# ./pathload_rcv -s 10.10.10.131
Receiver server1.org starts measurements at sender 10.10.10.131 on Wed Jul 29 04:54:35 2009
Interrupt coalescion detected
Receiving Fleet 0, Rate 214.29Mbps
Receiving Fleet 1, Rate 137.93Mbps
Aborting fleet. Stream_cnt 9
Receiving Fleet 2, Rate 137.93Mbps
Aborting fleet. Stream_cnt 1
Receiving Fleet 3, Rate 103.45Mbps
Aborting fleet. Stream_cnt 2
Receiving Fleet 4, Rate 86.21Mbps
***** RESULT *****
Receiver NIC has interrupt coalescence enabled
Available bandwidth is greater than 68.97 (Mbps)
Measurements finished at Wed Jul 29 04:55:02 2009
Measurement latency is 26.91 sec
服务器端的显示
[root@server2 pathload]# ./pathload_snd
Waiting for receiver to establish control stream => OK
Unknown receiver starts measurements at Wed Jul 29 09:35:03 2009
Maximum packet size :: 1472 bytes
Estimating ADR to initialize rate adjustment algorithm => Done
Sending fleet 0 ############
Sending fleet 1 #########
Sending fleet 2 #
Sending fleet 3 ##
Sending fleet 4 ############
Terminating current run.
[root@server2 pathload]# ./pathload_snd &
[1] 11136
[root@server2 pathload]#
依旧分为服务器端和客户端
[root@server2 opt]# tar xzvf pathload.tar.gz
pathload_1.3.2/
pathload_1.3.2/CHANGELOG
pathload_1.3.2/CHANGES
pathload_1.3.2/COPYING
pathload_1.3.2/README
pathload_1.3.2/config.guess
pathload_1.3.2/config.sub
pathload_1.3.2/configure
pathload_1.3.2/makefile.in
pathload_1.3.2/pathload_gbls.h
pathload_1.3.2/pathload_rcv.c
pathload_1.3.2/pathload_rcv.h
pathload_1.3.2/pathload_rcv_func.c
pathload_1.3.2/pathload_snd.c
pathload_1.3.2/pathload_snd.h
pathload_1.3.2/pathload_snd_func.c
[root@server2 opt]# cd pathload_1.3.2/
[root@server2 pathload_1.3.2]# ./configure
[root@server2 pathload_1.3.2]# make
[root@server2 pathload_1.3.2]# cd ..
[root@server2 opt]# mv pathload_1.3.2/ /usr/local/pathload/
分别在服务器端和客户端按照以上方法安装
服务器端的启动
[root@server2 pathload]# ./pathload_snd
Waiting for receiver to establish control stream =>
在客户端进行测试
[root@server1 opt]# cd /usr/local/pathload
[root@server1 pathload]# ./pathload_rcv -s 10.10.10.131
Receiver server1.org starts measurements at sender 10.10.10.131 on Wed Jul 29 04:54:35 2009
Interrupt coalescion detected
Receiving Fleet 0, Rate 214.29Mbps
Receiving Fleet 1, Rate 137.93Mbps
Aborting fleet. Stream_cnt 9
Receiving Fleet 2, Rate 137.93Mbps
Aborting fleet. Stream_cnt 1
Receiving Fleet 3, Rate 103.45Mbps
Aborting fleet. Stream_cnt 2
Receiving Fleet 4, Rate 86.21Mbps
***** RESULT *****
Receiver NIC has interrupt coalescence enabled
Available bandwidth is greater than 68.97 (Mbps)
Measurements finished at Wed Jul 29 04:55:02 2009
Measurement latency is 26.91 sec
服务器端的显示
[root@server2 pathload]# ./pathload_snd
Waiting for receiver to establish control stream => OK
Unknown receiver starts measurements at Wed Jul 29 09:35:03 2009
Maximum packet size :: 1472 bytes
Estimating ADR to initialize rate adjustment algorithm => Done
Sending fleet 0 ############
Sending fleet 1 #########
Sending fleet 2 #
Sending fleet 3 ##
Sending fleet 4 ############
Terminating current run.
[root@server2 pathload]# ./pathload_snd &
[1] 11136
[root@server2 pathload]#
内容来自用户分享和网络整理,不保证内容的准确性,如有侵权内容,可联系管理员处理 
相关文章推荐
- 网络性能测试之pathrate的安装使用
- Linux 下网络性能测试工具 iperf 的安装和使用
- 网络性能测试之netperf的安装使用
- 网络性能测试之iperf的安装使用
- Linux 下网络性能测试工具 iperf 的安装和使用
- 测试网络性能工具Netperf的安装使用
- 网站服务器压力Web性能测试:Apache Bench,Webbench,http_load安装使用
- Linux 网络性能测试工具 iperf 的安装和使用
- Linux网络测试工具Netperf安装及使用
- mininet安装与使用,wireshark抓包器, iperf网络性能检测
- 性能测试工具--SIEGE安装及使用简介
- 性能测试工具netperf安装使用
- Web服务器性能/压力测试工具http_load、webbench、ab、Siege使用教程
- linux / unix 网络性能测试工具iperf详细使用图文教程
- Web服务器性能压力测试工具http_load、webbench、ab、Siege使用教程
- XHProf的安装和使用(PHP性能测试神器)
- Web服务器性能/压力测试工具http_load、webbench、ab、Siege使用教程
- Web服务器性能/压力测试工具http_load、webbench、ab、Siege使用教程
- 性能测试监控工具nmon安装及使用方法
- 如何在Windows Azure里安装并使用Unix bench做性能测试