Every virtual server can (but does not have to) have its own list of ACLs, its own mime.types file, and its own set of Java Web Applications.
This design gives you maximum flexibility to configure the server for a variety of applications. The following examples discuss some of the possible configurations available for Web Server .
After a new installation of the Web Server , you have one server instance. This server instance has just one HTTP Listener listening on port 80 (or whatever you selected at installation) of any IP address to which your computer is configured.
Some mechanism in your local network establishes a name-to-address mapping for each of the addresses to which your computer is configured. In the following example, the computer has two network interfaces: the loopback interface (the interface that exists even without a network card) on address 127.0.0.1, and an Ethernet interface on address 10.0.0.1.
The name example.com is mapped to 10.0.0.1 via DNS. The HTTP Listener is configured to listen on port 80 on any address to which that machine is configured ("ANY:80" or "0.0.0.0:80").
In this configuration, connections to the following reach the server and are served by virtual server VS1
http://127.0.0.1/ (initiated on example.com)
http://localhost/ (initiated on example.com)
Use this configuration for traditional web server use. You do not need to add additional virtual servers or HTTP Listeners.
A more complex configuration of the Web Server is one in which the server hosts a few virtual servers for an intranet deployment. For example, you have three internal sites where employees can look up other users’ phone numbers, look at maps of the campus, and track the status of their requests to the Information Services department. Previously (in this example), these sites were hosted on three different computers that had the names phone.example.com, maps.example.com and is.example.com mapped to them.
To minimize hardware and administrative overhead, you can consolidate all three sites into one web server living on the machine example.com. You could set this up in two ways: using URL-host-based virtual servers or using separate HTTP Listeners. Both have their distinct advantages and disadvantages.
Intranet hosting using URL-host-based virtual servers
While URL-host-based virtual servers are easy to set up, they have the following disadvantages:
Supporting SSL in this configuration requires non-standard setup using wildcard certificates.
URL-host-based virtual servers do not work with legacy HTTP clients
You can also set up the IP-address-based configuration with one HTTP Listener per address:
Intranet hosting using separate HTTP Listeners
The advantages to IP-address-based virtual servers are:
They work with older clients that do not support the HTTP/1.1 Host header.
Providing SSL support is straightforward.
The disadvantages are:
They require configuration changes on the host computer (configuration of real or virtual network interfaces)
They do not scale to configurations with thousands of virtual servers
Both configurations require setting up name-to-address mappings for the three names. In the IP-address-based configuration, each name maps to a different address. The host machine must be set up to receive connections on all these addresses. In the URL-host-based configuration, all names can map to the same address, the one the machine had originally.
The configuration with multiple HTTP Listeners may give you a minimal performance gain because the server does not have to find out the address the request came in on. However, using multiple HTTP Listeners also results in additional overhead (memory and scheduling) because of the additional acceptor threads.
Mass hosting is a configuration in which you enable many low-traffic virtual servers. For example, an ISP that hosts many low-traffic personal home pages would fall into this category.
The virtual servers are usually URL-host-based. For example, you can have one configuration that allows only static content, and another one that allows static content and CGIs.