g-wan -复制履约索赔
g-wan -复制履约索赔
提问于 2013-11-05 08:41:16
在Ubuntu12.04下使用gwan _linux64 64-bit.tar.bz2解压缩和运行gwan
然后指向它(使用空文件null.html)
wrk --timeout 10 -t 2 -c 100 -d20s http://127.0.0.1:8080/null.html
Running 20s test @ http://127.0.0.1:8080/null.html
2 threads and 100 connections
Thread Stats Avg Stdev Max +/- Stdev
Latency 11.65s 5.10s 13.89s 83.91%
Req/Sec 3.33k 3.65k 12.33k 75.19%
125067 requests in 20.01s, 32.08MB read
Socket errors: connect 0, read 37, write 0, timeout 49
Requests/sec: 6251.46
Transfer/sec: 1.60MB。。性能非常差,实际上似乎存在着某种巨大的延迟问题。在测试期间,gwan是200%的忙,wrk是67%的忙。
针对nginx,wrk是200%的忙,nginx是45%的忙:
wrk --timeout 10 -t 2 -c 100 -d20s http://127.0.0.1/null.html
Thread Stats Avg Stdev Max +/- Stdev
Latency 371.81us 134.05us 24.04ms 91.26%
Req/Sec 72.75k 7.38k 109.22k 68.21%
2740883 requests in 20.00s, 540.95MB read
Requests/sec: 137046.70
Transfer/sec: 27.05MB将权重指向nginx会带来更快的结果:
/usr/local/bin/weighttp -k -n 2000000 -c 500 -t 3 http://127.0.0.1/null.html
weighttp - a lightweight and simple webserver benchmarking tool
starting benchmark...
spawning thread #1: 167 concurrent requests, 666667 total requests
spawning thread #2: 167 concurrent requests, 666667 total requests
spawning thread #3: 166 concurrent requests, 666666 total requests
progress: 9% done
progress: 19% done
progress: 29% done
progress: 39% done
progress: 49% done
progress: 59% done
progress: 69% done
progress: 79% done
progress: 89% done
progress: 99% done
finished in 7 sec, 13 millisec and 293 microsec, 285172 req/s, 57633 kbyte/s
requests: 2000000 total, 2000000 started, 2000000 done, 2000000 succeeded, 0 failed, 0 errored
status codes: 2000000 2xx, 0 3xx, 0 4xx, 0 5xx
traffic: 413901205 bytes total, 413901205 bytes http, 0 bytes data服务器是KVM下的虚拟8核心专用服务器(裸金属)。
我从哪里开始寻找gwan在这个平台上存在的问题?
我在这个相同的操作系统上测试了lighttpd、nginx和node.js,结果都如人们所料。服务器已经按照通常的方式进行了调优,扩展了临时端口,增加了用户限制,调整了等待回收的时间等等。
回答 1
Stack Overflow用户
发布于 2013-11-06 08:13:31
11月7日更新:我们已经修复了game v4.11.7中的空文件问题,并且game现在比Nginx快两倍(禁用www缓存)。
最近发布的G比Nginx的小文件和大文件都要快,默认情况下G缓存是禁用的,这样人们就可以更容易地将G与其他服务器(如Nginx )进行比较。
Nginx有一些缓存功能(可以跳过stat()调用的fd、cahe和基于memcached的模块),但这两个特性都必须比local的本地缓存慢得多。
在某些应用程序(如CDN)中,禁用缓存也是可取的。其他应用程序(如AJAX应用程序)从G缓存功能中获益良多,因此缓存可以随意重新启用,即使是在每次请求的基础上。
希望这能澄清这个问题。
“重发履约索赔”
首先,标题具有误导性,因为上面记录不清的*测试没有使用相同的工具,也没有使用G测试获取的HTTP资源。
*你的nginx.conf文件在哪里?这两个服务器的HTTP响应头是什么?什么是你的“裸金属”8核心CPU?
G测试基于ab.c,一个由G团队为称重编写的包装器(一个由Lighttpd服务器团队制作的测试工具),因为ab.c披露的信息是信息要丰富得多。
第二,测试文件"null.html"是.一个空文件。
我们不会浪费时间来讨论这样一个测试的无关性(您的网站提供了多少个空HTML文件?)但这很可能是观察到的“表现不佳”的原因。
创建G不是为了提供空文件(我们从未尝试过,也从未被要求这样做)。但是,我们肯定会添加这个特性,以避免这种测试造成的混乱。
由于您希望“检查声明”,我鼓励您使用weighttp (测试中最快的HTTP工具)和一个100.bin文件(一个具有不可压缩MIME类型的100字节文件:这里不涉及Gzip )。
使用非空文件Nginx比G-WAN慢得多,即使在独立测试中也是如此。
到目前为止,我们还不知道wrk,但它似乎是Nginx小组开发的一个工具。
"wrk是专门用来试图将nginx推向极限的,在第一轮测试中,它被推至0.5mr/s。“
更新(一天后)
由于您不需要再发布任何数据,所以我们这样做了:
wrk weighttp
----------------------- -----------------------
Web Server 0.html RPS 100.html RPS 0.html RPS 100.html RPS
---------- ---------- ------------ ---------- ------------
G-WAN 80,783.03 649,367.11 175,515 717,813
Nginx 198,800.93 179,939.40 184,046 199,075与您的测试一样,我们可以看到wrk比weighttp稍慢一些。
我们还可以看到,在两个HTTP加载工具中,G都比Nginx更快.
以下是未分类的结果:
广域网
./wrk -c300 -d3 -t6 "http://127.0.0.1:8080/0.html"
Running 3s test @ http://127.0.0.1:8080/0.html
6 threads and 300 connections
Thread Stats Avg Stdev Max +/- Stdev
Latency 3.87ms 5.30ms 80.97ms 99.53%
Req/Sec 14.73k 1.60k 16.33k 94.67%
248455 requests in 3.08s, 55.68MB read
Socket errors: connect 0, read 248448, write 0, timeout 0
Requests/sec: 80783.03
Transfer/sec: 18.10MB
./wrk -c300 -d3 -t6 "http://127.0.0.1:8080/100.html"
Running 3s test @ http://127.0.0.1:8080/100.html
6 threads and 300 connections
Thread Stats Avg Stdev Max +/- Stdev
Latency 263.15us 381.82us 16.50ms 99.60%
Req/Sec 115.55k 14.38k 154.55k 82.70%
1946700 requests in 3.00s, 655.35MB read
Requests/sec: 649367.11
Transfer/sec: 218.61MB
weighttp -kn300000 -c300 -t6 "http://127.0.0.1:8080/0.html"
progress: 100% done
finished in 1 sec, 709 millisec and 252 microsec, 175515 req/s, 20159 kbyte/s
requests: 300000 total, 300000 started, 300000 done, 150147 succeeded, 149853 failed, 0 errored
status codes: 150147 2xx, 0 3xx, 0 4xx, 0 5xx
traffic: 35284545 bytes total, 35284545 bytes http, 0 bytes data
weighttp -kn300000 -c300 -t6 "http://127.0.0.1:8080/100.html"
progress: 100% done
finished in 0 sec, 417 millisec and 935 microsec, 717813 req/s, 247449 kbyte/s
requests: 300000 total, 300000 started, 300000 done, 300000 succeeded, 0 failed, 0 errored
status codes: 300000 2xx, 0 3xx, 0 4xx, 0 5xx
traffic: 105900000 bytes total, 75900000 bytes http, 30000000 bytes dataNginx
./wrk -c300 -d3 -t6 "http://127.0.0.1:8080/100.html"
Running 3s test @ http://127.0.0.1:8080/100.html
6 threads and 300 connections
Thread Stats Avg Stdev Max +/- Stdev
Latency 1.54ms 1.16ms 11.67ms 72.91%
Req/Sec 34.47k 6.02k 56.31k 70.65%
539743 requests in 3.00s, 180.42MB read
Requests/sec: 179939.40
Transfer/sec: 60.15MB
./wrk -c300 -d3 -t6 "http://127.0.0.1:8080/0.html"
Running 3s test @ http://127.0.0.1:8080/0.html
6 threads and 300 connections
Thread Stats Avg Stdev Max +/- Stdev
Latency 1.44ms 1.15ms 9.37ms 75.93%
Req/Sec 38.16k 8.57k 62.20k 69.98%
596070 requests in 3.00s, 140.69MB read
Requests/sec: 198800.93
Transfer/sec: 46.92MB
weighttp -kn300000 -c300 -t6 "http://127.0.0.1:8080/0.html"
progress: 100% done
finished in 1 sec, 630 millisec and 19 microsec, 184046 req/s, 44484 kbyte/s
requests: 300000 total, 300000 started, 300000 done, 300000 succeeded, 0 failed, 0 errored
status codes: 300000 2xx, 0 3xx, 0 4xx, 0 5xx
traffic: 74250375 bytes total, 74250375 bytes http, 0 bytes data
weighttp -kn300000 -c300 -t6 "http://127.0.0.1:8080/100.html"
progress: 100% done
finished in 1 sec, 506 millisec and 968 microsec, 199075 req/s, 68140 kbyte/s
requests: 300000 total, 300000 started, 300000 done, 300000 succeeded, 0 failed, 0 errored
status codes: 300000 2xx, 0 3xx, 0 4xx, 0 5xx
traffic: 105150400 bytes total, 75150400 bytes http, 30000000 bytes dataNginx配置文件试图匹配G的行为
# ./configure --without-http_charset_module --without-http_ssi_module
# --without-http_userid_module --without-http_rewrite_module
# --without-http_limit_zone_module --without-http_limit_req_module
user www-data;
worker_processes 6;
worker_rlimit_nofile 500000;
pid /var/run/nginx.pid;
events {
# tried other values up to 100000 without better results
worker_connections 4096;
# multi_accept on; seems to be slower
multi_accept off;
use epoll;
}
http {
charset utf-8; # HTTP "Content-Type:" header
sendfile on;
tcp_nopush on;
tcp_nodelay on;
keepalive_timeout 10;
keepalive_requests 10; # 1000+ slows-down nginx enormously...
types_hash_max_size 2048;
include /usr/local/nginx/conf/mime.types;
default_type application/octet-stream;
gzip off; # adjust for your tests
gzip_min_length 500;
gzip_vary on; # HTTP "Vary: Accept-Encoding" header
gzip_types text/plain text/css application/json application/x-javascript text/xml application/xml application/xml+rss text/javascript;
# cache metadata (file time, size, existence, etc) to prevent syscalls
# this does not cache file contents. It should helps in benchmarks where
# a limited number of files is accessed more often than others (this is
# our case as we serve one single file fetched repeatedly)
# THIS IS ACTUALY SLOWING-DOWN THE TEST...
#
# open_file_cache max=1000 inactive=20s;
# open_file_cache_errors on;
# open_file_cache_min_uses 2;
# open_file_cache_valid 300s;
server {
listen 127.0.0.1:8080;
access_log off;
# only log critical errors
#error_log /usr/local/nginx/logs/error.log crit;
error_log /dev/null crit;
location / {
root /usr/local/nginx/html;
index index.html;
}
location = /nop.gif {
empty_gif;
}
location /imgs {
autoindex on;
}
}
}欢迎评论--尤其是来自Nginx专家的评论--在这个完整文档的测试基础上进行讨论。
页面原文内容由Stack Overflow提供。腾讯云小微IT领域专用引擎提供翻译支持
原文链接:
https://stackoverflow.com/questions/19784753
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