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Stéphane Moreau edited this page Jul 11, 2012 · 17 revisions

Lab Pre Requisite

  • Maven 3.0.x

  • YSlow Plugin installed on your favorite browser (chrome, firefox)

  • Google PageSpeed extension for Chrome or Firefox

  • Cygwin if you are using Windows

Lab Agenda

The application

Cocktail App Screenshot

Initial Architecture

Web Caching Workshop Initial Architecture

Use JS and CSS Content Delivery Networks (CDN) for JQuery, Bootstrap, etc

Famous CSS and JS libraries like JQuery or Twitter Bootstrap are available on large CDN like ajax.googleapis.com or cdnjs.

This will serve as an example for our projects files and resources.

Web Caching Workshop Architecture - Add Expire Headers

Use Amazon S3 as a "media database"

Amazon S3 is a great storage for media like user avatars, cocktails pictures, etc

It is much more efficient than database blob stores and offer a very efficient bandwith for internet users.

Web Caching Workshop Architecture - Add Expire Headers

Add Expire Headers

Web Caching Workshop Architecture - Add Expire Headers

Use Apache Httpd as a Caching Proxy

Web Caching Workshop Architecture - Apache Httpd as a Caching Proxy

Use Varnish Caching Proxy

Web Caching Workshop Architecture - Varnish Caching Proxy

Use Amazon CloudFront CDN

Web Caching Workshop Architecture - Amazon CloudFront CDN

1. Connect to your Cocktail App

Connect to your application http://xfr-cocktail-2.elasticbeanstalk.com/cocktail/.

Cocktail App Screenshot

2. Download Cocktail App

Get the Cocktail App on Github (download it or clone it) : https://github.com/xebia-france/workshop-web-caching-cocktail

Github workshop-web-caching-cocktail

3. Build Cocktail App

Build the application with Maven

mvn package

4. Create your CDN Distribution with Amazon CloudFront

Note: as the creation of a CDN distribution takes several minutes with Amazon CloudFront, we create it at the beginning of the lab and we will use it later.

  1. Connect to Amazon AWS Console: https://xebia-france.signin.aws.amazon.com/console

  2. Open Services > CloudFront tab

    Cloudfront Create Cistribution

  3. Click on Create Distribution

    Cloudfront Create Cistribution

  4. Select Download delivery method

    Cloudfront Create Cistribution

  5. Enter Origin Domain Name: xfr-cocktail-2.elasticbeanstalk.com and Origin Protocol Policy: Match Viewer

    Cloudfront Create Cistribution

  6. Keep default cache behaviors

    Cloudfront Create Cistribution

  7. Keep default Distribution details

    Cloudfront Create Cistribution

  8. Review your configuration

    Cloudfront Create Cistribution

  9. Verify that your distribution is being created

    Cloudfront Create Cistribution

Congratulations, you have created your CDN Distribution!

Note: Don't wait for the completion of this creation, go to the next exercice.

5. Find Web Caching Issues with YSlow

Analyse with YSlow the web page http://xfr-cocktail-2.elasticbeanstalk.com/cocktail/.

During this lab, we will focus on two YSlow recommandations:

  • Add Expires Headers

    YSlow Add Expires Headers

  • Use a Content Delivery Network (CDN)

    YSlow Add Expires Headers

6. Use JS and CSS Content Delivery Networks (CDN) for JQuery, Bootstrap, etc

This step is purely informational, the next exercise is below.

Web Caching Workshop Architecture - Add Expire Headers

Instead of shipping your own version of widely used JS and CSS frameworks and libs like JQuery or Twitter Bootstrap, you can reference versions deployed on CDNs. Benefits:

  • Decreased Latency: CDN have Point of Presence (PoPs) near you visitors
  • Better Caching: many web sites use these JS and CSS files, they may already be cached in the web browser of your visitors
  • Decreased load on your data center: spare network bandwidth and server CPU.

HTML sample referencing Google CDN and Boostrap CDN (view.jsp)

CDN for JS and CSS

7. Use Amazon S3 as a "media database"

This step is purely informational, the next exercise is below.

Web Caching Workshop Architecture - Add Expire Headers

Storing files in Amazon S3 instead of a standard file system requires little changes to your code and many FTP clients also support Amazon S3 APIs.

Sample with Amazon SDK for Java:

Amazon S3 Java Code Sample

8. Add Expires Headers

See docs:

Info: Adding Expires Headers programmatically according to the business logic

This step is purely informational, the next exercise is 'Adding Expires Headers With a Servlet Filter'.

You can define the caching policy according to the business logic. For example, an RSS feed could be cached for 5 minutes.

Java - Spring MVC Sample

See CocktailManager.java.

Java Code Sample - Expires Header

Behavior

  1. Query the /rss URL:

     curl -v http://xfr-cocktail-2.elasticbeanstalk.com/rss
    
  2. Look at the Cache-Control and Expires header in the response

     < HTTP/1.1 200 OK
     < Cache-Control: public, max-age=300        <===== CACHE-CONTROL MAX-AGE HEADER
     < Content-Language: en-US
     < Content-Type: application/rss+xml;charset=ISO-8859-1
     < Date: Wed, 06 Jun 2012 18:40:16 GMT
     < Expires: Wed, 06 Jun 2012 18:45:16 GMT    <===== EXPIRES HEADER
     < Server: Apache-Coyote/1.1
     < transfer-encoding: chunked
     < Connection: keep-alive
    

Adding Expires Headers With a Servlet Filter

Web Caching Workshop Architecture - Add Expire Headers

Docs available at Google Code - Xebia France > ExpiresFilter.

  1. Verify with YSlow and curl that expiration headers are missing: http://xfr-cocktail-1.elasticbeanstalk.com/cocktail/

     curl -v http://xfr-cocktail-1.elasticbeanstalk.com/cocktail/
    
  2. Modify src/main/webapp/WEB-INF/web.xml(source) to add an ExpiresFilter:

      	<filter>
     	   <filter-name>ExpiresFilter</filter-name>
     	   <filter-class>fr.xebia.servlet.filter.ExpiresFilter</filter-class>
     	   <init-param>
     	      <param-name>ExpiresByType image</param-name>
     	      <param-value>access plus 1 year</param-value>
     	   </init-param>
     	   <init-param>
     	      <param-name>ExpiresByType text/css</param-name>
     	      <param-value>access plus 1 year</param-value>
     	   </init-param>
     	   <init-param>
     	      <param-name>ExpiresByType application/javascript</param-name>
     	      <param-value>access plus 1 year</param-value>
     	   </init-param>
     	</filter>
     	...
     	<filter-mapping>
     	   <filter-name>ExpiresFilter</filter-name>
     	   <url-pattern>/*</url-pattern>
     	   <dispatcher>REQUEST</dispatcher>
     	</filter-mapping>
    
  3. Repackage your application

     mvn package
    
  4. Deploy the new version named of your application on your Amazon Elastic Beanstalk environment xfr-cocktail-2 with Version Label: 1.1.0-team-2

    1. Connect to https://console.aws.amazon.com/elasticbeanstalk/home?region=eu-west-1

    2. Select your environment xfr-cocktail-2 and click on Deploy a Different Version:

    ![Beanstalk Update Version 1](beanstalk-update-version-1.png)
    
    1. Select Upload and deploy a new version and enter Version Label: 1.1.0-team-2
    ![Beanstalk Update Version 2](beanstalk-update-version-2.png)
    
    1. Click on Deploy Version and wait for the deployment

    2. Verify with YSlow that your expiration headers appeared: http://xfr-cocktail-2.elasticbeanstalk.com/cocktail/

Cheat sheet: deploy version 1.1.0 if you have a problem deploying your own patched version.

Congratulations!!! You fixed the first YSlow recommandation to add Expires Headers and you deployed a WAR on Amazon Beanstalk!

Adding Expires Headers with Apache Httpd mod_expires

This step is purely informational, the next exercise is 'Add a Caching Proxy with Apache mod_cache in front of the Tomcat Server'.

Apache > HTTP Server > Documentation > Version 2.2 > Modules > mod_expires

Sample of of httpd.conf

ExpiresByType image "access plus 1 year"
ExpiresByType text/css "access plus 1 year"
ExpiresByType text/javascript "access plus 1 year"

7. Add a Caching Proxy with Apache mod_cache in front of the Tomcat Server

Web Caching Workshop Architecture - Apache Httpd as a Caching Proxy

Enable mod_proxy between Apache and Tomcat

Apache > HTTP Server > Documentation > Version 2.2 > Modules > mod_proxy

  1. Download the web-caching-workshop.pem SSH private key

     cd
     mkdir .aws
     cd .aws
     wget http://xfr-workshop-caching.s3-website-eu-west-1.amazonaws.com/web-caching-workshop.pem
     chmod 400 web-caching-workshop.pem
     echo "Certificate 'web-caching-workshop.pem' installed under `pwd`"
    
  2. Connect to your proxy server www-cocktail-2.aws.xebiatechevent.info

     ssh -i web-caching-workshop.pem [email protected]
    
  3. Configure Apache mod_proxy

    1. Create a conf.d/cocktail.conf configuration fragment to configure mod_proxy

       sudo vi /etc/httpd/conf.d/cocktail.conf
      
    2. Add a ProxyPass directive in cocktail.conf

       # connect Apache to Tomcat
       ProxyPass / http://xfr-cocktail-2.elasticbeanstalk.com/
      
  4. Restart Apache

     sudo service httpd restart
    
  5. Verify opening in your browser http://www-cocktail-2.aws.xebiatechevent.info/cocktail/

WARNING: a production ready mod_proxy configuration is more complex.

Enable mod_cache

See Apache > HTTP Server > Documentation > Version 2.2 > Modules > mod_cache

  1. Verify curl that Age headers is missing (Age header can be used with Apache 2.2 to check that mod_cache is active, more details below): http://xfr-cocktail-1.elasticbeanstalk.com/cocktail/

     curl -v http://www-cocktail-1.aws.xebiatechevent.info/css/bootstrap.min.css > /dev/null
    
  2. Connect to your proxy server www-cocktail-2.aws.xebiatechevent.info

     ssh -i web-caching-workshop.pem [email protected]
    
  3. Enabled mod_disk_cache in httpd.conf

    1. Edit httpd.conf

       sudo vi /etc/httpd/conf/httpd.conf
      
    2. Unncoment

       <IfModule mod_disk_cache.c>
           CacheEnable disk /
           CacheRoot "/var/cache/mod_proxy"
       </IfModule>
      
  4. Restart Apache

     sudo service httpd restart
    
  5. Verify that the Httpd Server successfully restarted opening in your browser http://www-cocktail-2.aws.xebiatechevent.info/cocktail/

WARNING: a production ready mod_disk_cache configuration is more complex, you must schedule a disk cleaner using htcacheclean.

Check response caching with Apache Httpd mod_cache

Apache Httpd 2.2 does not add a X-Cache-Detail header to the HTTP response in order to ease debugging of page caching.

This X-Cache-Detail header has been introduced in Apache Httpd 2.4 with the CacheDetailHeader directive.

As of Apache 2.2, you can check that a resource has been served by mod_cache rather than by Tomcat checking the existence of the Age header.

Query twice the URL to load the resource in the caching resource.

curl -v http://www-cocktail-2.aws.xebiatechevent.info/css/bootstrap.min.css > /dev/null
curl -v http://www-cocktail-2.aws.xebiatechevent.info/css/bootstrap.min.css > /dev/null

Sample of response without caching

< HTTP/1.1 200 OK
< Date: Mon, 28 May 2012 13:57:24 GMT
< Server: Apache-Coyote/1.1                        <==== RESPONSE GENERATED BY TOMCAT
< Cache-Control: max-age=86400
< Content-Type: text/css
< Expires: Tue, 29 May 2012 13:57:24 GMT
< Last-Modified: Sun, 01 Apr 2012 14:07:28 GMT
< Content-Length: 81150
< Connection: close

Sample of response with caching

< HTTP/1.1 200 OK
< Date: Mon, 28 May 2012 13:43:18 GMT
< Server: Apache/2.2.22 (Amazon)                   <==== RESPONSE GENERATED BY APACHE HTTPD
< Last-Modified: Sun, 01 Apr 2012 14:07:28 GMT
< Cache-Control: max-age=86400
< Expires: Tue, 29 May 2012 13:08:40 GMT
< Age: 222									       <==== 'Age': DURATION IN CACHE IN SECS
< Content-Length: 81150
< Connection: close
< Content-Type: text/css

W3C > RFC 2616 - Hypertext Transfer Protocol - HTTP/1.1 > 14 Header Field Definitions > Age

The Age response-header field conveys the sender's estimate of the amount of time since the response (or its revalidation) was generated at the origin server. A cached response is "fresh" if its age does not exceed its freshness lifetime.

10. Configure Varnish

Web Caching Workshop Architecture - Varnish Caching Proxy

Connect via SSH to the varnish server

ssh -i web-caching-workshop.pem [email protected]

Setup Backend server

  1. Edit default.vcl and setup your backend server:

     sudo vi /etc/varnish/default.vcl
    
  2. Update backend default:

     backend default {
         .host = "xfr-cocktail-2.elasticbeanstalk.com";
         .port = "80";
     }
    
  3. Restart Varnish:

     sudo service varnish restart
    
  4. Verify that the Varnish Cache successfully restarted opening in your browser http://www-cocktail-2.aws.xebiatechevent.info:6081/cocktail/

Add X-Cache and X-Cacheable HTTP headers

By default Varnish does not inform us about its execution, let's set up some configuration to keep informed about cache usage per request thanks to HTTP headers:

  • X-Cache: HIT when resource was found in cache or MISS if not in cache

  • X-Cacheable

  1. Edit default.vcl

     sudo vi /etc/varnish/default.vcl
    
  2. Add vcl_fetch and vcl_deliver routines in default.vcl (after backend default directive):

     sub vcl_fetch {
    
         # Varnish determined the object was not cacheable
         if (beresp.ttl == 0s) {
             set beresp.http.X-Cacheable = "NO:Not Cacheable";
    
         # You are respecting the Cache-Control=private header from the backend
         } elsif (beresp.http.Cache-Control ~ "private") {
             set beresp.http.X-Cacheable = "NO:Cache-Control=private";
             return(hit_for_pass);
    
         # You are extending the lifetime of the object artificially
         }  else {
             set beresp.http.X-Cacheable = "YES";
         }
    
         # ....
    
         return(deliver);
     }
    
     sub vcl_deliver {
         if (obj.hits > 0) {
             set resp.http.X-Cache = "HIT";
         } else {
             set resp.http.X-Cache = "MISS";
         }
     }
    
  3. Restart Varnish:

     sudo service varnish restart
    
  4. Verify the existence of the X-Cache: HIT header. Query the ressource twice to load it in Varnish.

     curl -v http://www-cocktail-2.aws.xebiatechevent.info:6081/css/bootstrap.min.css > /dev/null
     curl -v http://www-cocktail-2.aws.xebiatechevent.info:6081/css/bootstrap.min.css > /dev/null
    

Now you should see the X-Cache header indicating wether the cache hit or miss, X-Cacheable will display wether the resource was cacheable or not and why.

Sample of response without caching

< HTTP/1.1 200 OK
< Cache-Control: max-age=31536000
< Content-Type: text/css
< Expires: Mon, 03 Jun 2013 23:13:44 GMT
< Last-Modified: Sun, 01 Apr 2012 14:07:28 GMT
< Server: Apache-Coyote/1.1
< X-Cacheable: YES                                <==== CACHEABLE BY VARNISH
< Content-Length: 81150
< Date: Sun, 03 Jun 2012 23:13:44 GMT
< X-Varnish: 758000267
< Age: 0
< Via: 1.1 varnish
< Connection: keep-alive
< X-Cache: MISS                                    <==== VARNISH MISS

Sample of response with caching

< HTTP/1.1 200 OK
< Cache-Control: max-age=31536000
< Content-Type: text/css
< Expires: Mon, 03 Jun 2013 23:13:44 GMT
< Last-Modified: Sun, 01 Apr 2012 14:07:28 GMT
< Server: Apache-Coyote/1.1                       <==== VARNISH DOESN'T MODIFY THE SERVER HEADER
< X-Cacheable: YES                                <==== CACHEABLE BY VARNISH
< Content-Length: 81150
< Date: Sun, 03 Jun 2012 23:14:10 GMT
< X-Varnish: 758000268 758000267
< Age: 27
< Via: 1.1 varnish
< Connection: keep-alive
< X-Cache: HIT                                    <==== VARNISH HIT

Note about Varnish default behaviour

By default Varnish consider requests with Cookie and response with Set-Cookie not cacheable and just pass the request as a simple reverse proxy to the backend. A solution is to force Varnish to cache resources even though there is one or more Cookie header present in request.

Add vcl_recv routine in /etc/varnish/default.vcl:

sub vcl_recv {
    if (req.restarts == 0) {
        if (req.http.x-forwarded-for) {
            set req.http.X-Forwarded-For =
                req.http.X-Forwarded-For + ", " + client.ip;
        } else {
            set req.http.X-Forwarded-For = client.ip;
        }
    }
    if (req.request != "GET" &&
      req.request != "HEAD" &&
      req.request != "PUT" &&
      req.request != "POST" &&
      req.request != "TRACE" &&
      req.request != "OPTIONS" &&
      req.request != "DELETE") {
        /* Non-RFC2616 or CONNECT which is weird. */
        return (pipe);
    }
    if (req.request != "GET" && req.request != "HEAD") {
        /* We only deal with GET and HEAD by default */
        return (pass);
    }
    if (req.http.Authorization) {
        /* Not cacheable by default */
        return (pass);
    }
     /* Now let's use the cache */
    return (lookup);
}

Restart Varnish:

sudo service varnish restart

And check access:

curl -v http://www-cocktail-2.aws.xebiatechevent.info:6081/css/bootstrap.min.css > /dev/null

With this setup, Varnish will cache resources even if a session Cookie is present in the request.

Configure Backend probe

Backend probes will monitor backend health which allows to use grace mode to keep delivering resources while backend server is down.

Update the backend default directive in default.vcl:

backend default {
    .host = "xfr-cocktail-clc.elasticbeanstalk.com";
    .port = "80";
    .probe = {
        .url = "/";
        .timeout = 0.3 s;
        .window = 8;
        .threshold = 3;
        .initial = 3;
    }
}

Add req.grace timeout in vcl_recv and vcl_fetch routines /etc/varnish/default.vcl:

sub vcl_recv {
    # ....
    set req.grace = 120m;
    # ....
}
sub vcl_fetch {
    # ....
    set beresp.grace = 120m;
    # ....
}

Restart Varnish:

sudo service varnish restart

Now if the backend goes down, Varnish will keep resources and deliver them during grace timeout.

Please note that it is not possible to pause your Amazon Elastic Beanstalk environment, you can only restart or terminate it. Once this lab is completed, you are free to terminate it in order to test the Varnish grace mode.

11. Use Amazon CloudFront as a CDN to Deliver the Cacheable Content

Web Caching Workshop Architecture - Amazon CloudFront CDN

Verify the behavior of the CloudFront Distribution

  1. Go to CloudFront tab

    Cloudfront Create Cistribution

  2. Get the base URL of your distribution

    The hostname of the distribution looks like d1mm4v4zybjqbh.cloudfront.net

    CloudFront Distribution Details

  3. Open the cocktail app in your browser via the CloudFront distribution URL (something like http://d1mm4v4zybjqbh.cloudfront.net/)

    CloudFront - Distribution - Cocktail App

Look at the integration of the CDN URL in the application

Here is a technique to use switchable CDN URLs in your application. Other techniques exist.

Look at the use of ${cdnUrl} in view.jsp (source):

<link rel="shortcut icon" href="${cdnUrl}${pageContext.request.contextPath}/img/favicon.ico">
...
<link href="${cdnUrl}${pageContext.request.contextPath}/css/bootstrap.min.css" media="screen" rel="stylesheet" type="text/css" />
...
<script src="${cdnUrl}${pageContext.request.contextPath}/js/bootstrap.min.js" type="text/javascript"></script>

And the injection of cdn_url System Property as cdnUrl variable in JSP Expression Language in spring-mvc-servlet.xml (source)

<!-- source 'cdn_url' from the system-properties -->
<context:property-placeholder system-properties-mode="OVERRIDE" />

<!-- inject 'cdn_url' as "cdnUrl" in JSP EL variables -->
<bean class="org.springframework.web.context.support.ServletContextAttributeExporter">
    <property name="attributes">
        <map>
            <entry key="cdnUrl" value="${cdn_url:}/>
        </map>
    </property>
</bean>

Declare cdn_url System Property

  1. Edit the configuration of your Amazon Beanstalk Tomcat Environment

    Amazon Beanstalk Tomcat Environment

  2. Add a JVM Command Line Options: -Dcdn_url=http://...FIXME....cloudfront.net and click on Apply Changes

    Amazon Beanstalk Tomcat Environment

  3. Once your application is restarted, reopen in your browser http://xfr-cocktail-2.elasticbeanstalk.com/

  4. Verify in the HTML source code that the CloudFront CDN Distribution servers

    Cocktail App with cdn_url Source Code

10. CONCLUSION

Initial Architecture

Web Caching Workshop Initial Architecture

"Ideal" Architecture

Web Caching Workshop Initial Architecture

Note: our "ideal" architecture connects the CloudFront CDN to the Varnish layer even if the lab simplified this directly connecting the CloudFront CDN to the Tomcat Layer.

You learned in this workshop how to:

  • Add expiration headers to a Java web application
  • Use Bootstrap CDN and Google CDN
  • Use a web server auch as Apache Httpd as a Caching Proxy
  • Use a Caching Proxy such as Varnish Cache
  • Use a Content Delivery Network such as Amazon CloudFront
  • Integrate CDN based URLs in a web application

Thanks!

That's all Folks!

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