Wednesday, 25 July 2012

COLINUX:


Running Linux under Windows Using  Cooperative Linux

coLinux
coLinux is a port of the standard Linux kernel. In other words, coLinux is the Linux kernel that's modified to run cooperatively with another operating system. The host operating system (Windows or Linux) maintains control of the physical resources of the operating system, while the guest operating system (coLinux) is provided with a virtual abstraction of the hardware. The host operating system must provide the means to execute a driver in the privileged ring (ring 0) and export the means to allocate memory (see Figure 3).

Figure 1. coLinux executes as a process of the host operating system
coLinux executes as a process           of the host operating system
The root file system for coLinux is a regular file within the host operating system. To Windows it's just a regular file, but to coLinux it's an ext3 file system that can be read and written to.
Other features needed by the Linux kernel, such as networking or video access, are proxied externally. Networking is made accessible to coLinux through a TUN/TAP driver (which is covered in "Networking," below). In short, this driver provides user-space access to the Ethernet device so that packets can be transmitted and received. Access to the display is also proxied. Recall that X Window System is a protocol by which video output can be sent from one host to another. Therefore, by using an X Window System server on the host operating system, video output can be redirected to the available X server.
Now on to the installation of coLinux and configuration for both networking and video display.
Installing coLinux
Installing coLinux is surprisingly simple. There are a few steps involved, depending upon what you intend to do, but they're straightforward and worked on my Windows XP box without a single problem. This section explores installing coLinux and enabling services such as networking.
The first step is to download a coLinux distribution. Go to http://www.colinux.org and select Downloads from the left sidebar. If your browser doesn't take you to SourceForge, select the link to go there directly. Near the middle of the page is the coLinux-stable package. Download the coLinux executable file (at the time of this writing, the latest is coLinux-0.6.4.exe). The 0.6.4 release of coLinux is the 2.6.11 Linux kernel. When it has finished downloading, double-click the file to install.
After the usual license acceptance, you'll be asked for the components that you'd like to install. Leave these as is (all should be selected), including downloading a root file system image. To make things easier later on, change the destination folder for the coLinux install to c:\colinux\ because colinux is the standard install subdirectory from the perspective of configuration files.

When the installation program asks for a root file system image, select the Debian distribution because it's the smallest and extracts to only 1GB. Select Install to perform the install and root file system download.
When the install completes, you're not quite done yet. The next step is to open a folder to the install subdirectory to decompress the root file system.
The coLinux README file includes lots of additional information about other install options. This is available in the install subdirectory (c:\colinux). There will be an oddly named file that ends in .bz2. Rename this file to root_fs (this is the default root file system file in the configuration).
At this point, installation of coLinux is basically done. You can then start the coLinux daemon to run with Windows XP as follows (invoking through a Command Prompt window):
$ colinux-daemon.exe -c default.colinux.xml
            

After invoking the colinux-daemon, the boot window is displayed (see Figure 4). This provides the same boot information that you find in the traditional Linux boot. Notice that coLinux boots extremely fast.

Figure 2. The coLinux boot window
The coLinux boot window
A console window is also produced (see Figure 3) that attaches to the colinux-daemon. From this window, you can log in to coLinux to interact with the shell. The default username and password is root/root.

Figure 3. The coLinux virtual console (shell)
The coLinux virtual console           (shell)
From Figure 3, you can see that the coLinux console is made up of two sections: the traditional console and the virtual console that provides information about the monitor.
Networking
Networking support for coLinux is done from the Linux perspective when the install is complete. Recall that the TAP driver is loaded during the install. The TAP driver is a user-space tap onto the Ethernet device managed by the host operating system. The TAP driver allows the guest operating system to read or write raw Ethernet frames to a virtual Ethernet device (extended to user space). The virtual Ethernet device in user space then moves Ethernet frames to and from the real Ethernet device in the host operating system. Note that the TAP driver moves Ethernet frames, while the TUN driver is used for Internet Protocol (IP) frames.
For the TAP driver to work, the host operating system must share the available Ethernet device. To enable sharing within Windows XP, open the Network Connections panel from the Control Panel. Select the active local area connection, and then open the properties. Select the Advanced tab, and then select the check box for allowing other network users to connect through this computer's Internet connection (see Figure 6).

Figure 4. Local area connection properties for enabling network device sharing
Local area connection           properties for enabling network device sharing
After the network is shared, you can start coLinux and use the network as you would normally. This is shown in Figure 7 with the ping command.

Figure 5. Using the shared network device is transparent with coLinux through the TAP driver
Using the shared network           device is transparent with coLinux through the TAP driver
With little effort and configuration, coLinux provides networking out of the box.

X Window System
A console window is fine, but a graphical window manager would be ideal. With an open source X server, such as Xming, you can create xterms or use other graphical applications with coLinux. There are numerous documented options, such as Virtual Network Computing (VNC), but I'll show you how using Xming.
The first step is to download Xming from SourceForge. After installing, there's one file, called X0.hosts, that you need to update in the install subdirectory. It contains the remote hosts that are permitted access to the X server. Simply add the IP address of the machine that hosts the coLinux process. Start the Xming X server and coLinux, and then perform the following commands in coLinux:
colinux:~# export DISPLAY=192.168.1.3:0.0
colinux:~# xterm &
            

Note that the IP address specified here is the IP address of the coLinux host. After you execute the xterm command, a new xterm window is presented, as shown in Figure 6.

Figure 6. The xterm created with Xming
The xterm created with Xming
Extending coLinux
Whichever root file system you download, it may not include everything that you'd like. But you can easily extend the root file system. For example, with Debian GNU/Linux, you can use the Advanced Packaging Tool (APT), a package management system, to install new packages or update existing ones. The first step is to update the APT metadata, which maintains management information about the installed packages (including newly available packages and where to get them):
$ apt-get update
            

Now you can update your root file system with other packages that you need. For example, if you want to add the wonderful Ruby language to your root file system, you invoke the following command:
$ apt-get install ruby
            

In this way, you can use an existing root file system and tailor it to your specific needs. You can also rebuild coLinux from the sources if it lacks something that you need.
Advantages of coLinux
coLinux is a great way to use and experiment with Linux. Like Cygwin, it allows you to develop and execute Linux applications on the Windows operating system (through coLinux). You can also maintain the Linux operating system by installing, upgrading, or removing applications with apt-get.
Unlike Cygwin, you can execute Linux applications on coLinux without rebuilding. In this respect, coLinux is a real Linux operating system that runs (or cooperates) with the Windows operating system.
Another interesting advantage of coLinux is its portability. You can have a coLinux distribution with a custom set of applications on a given Windows host (within the root file system). You can move the root file system to another host, and then restart it. This allows for a mobile development platform where the compressed root file system fits on a standard Universal Serial Bus (USB) memory stick.
Finally, coLinux is fast because it's essentially running on the native hardware.
Problems with coLinux
The primary disadvantage of coLinux is that it has the ability to crash the entire machine (all cooperating operating systems) because the guest operating system runs in a privileged mode in the host kernel. It also has some dependencies on external software for normal operation (windows and networking support). Outside of this, it's quite easy to install and configure. In the many hours that I've used it, I've never seen a crash.

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