to be a stable, productive operating system into the future.
Learning the basics of how to use and administer a Linux system will serve you well in any aspect of working with Linux. The remaining chapters each provide a series of exercises with which you can test your understanding. That's why, for the rest of the book, you will learn best with a Linux system in front of you so you can work through the examples in each chapter and complete the exercises successfully.
The next chapter describes how to get started with Linux by describing how to get and use a Linux desktop system.
Chapter 2
Creating the Perfect Linux Desktop
Using Linux as your everyday desktop system is becoming easier to do all the time. As with everything in Linux, you have choices. There are full-featured GNOME or KDE desktop environments or lightweight desktops such as LXDE or Xfce. There are even simpler standalone window managers.
After you have chosen a desktop, you will find that almost every major type of desktop application you have on a Windows or Mac system has equivalent applications in Linux. For applications that are not available in Linux, you can often run a Windows application in Linux using Windows compatibility software.
The goal of this chapter is to familiarize you with the concepts related to Linux desktop systems and to give you tips for working with a Linux desktop. In this chapter you:
● Step through the desktop features and technologies that are available in Linux
● Tour the major features of the GNOME desktop environment
● Learn tips and tricks for getting the most out of your GNOME desktop experience
To use the descriptions in this chapter, I recommend you have a Fedora system running in front of you. You can get Fedora in lots of ways, including these:
● Running Fedora from a live medium– Refer to Appendix A for information on downloading and burning Fedora Live image to a DVD or USB drive so you can boot it live to use with this chapter.
● Installing Fedora permanently– Install Fedora to your hard disk and boot it from there (as described in Chapter 9, “Installing Linux”).
Because the current release of Fedora uses the GNOME 3 interface, most of the procedures described here work with other Linux distributions that have GNOME 3 available. If you are using an older Red Hat Enterprise Linux system (RHEL 6 uses GNOME 2, but RHEL 7 uses GNOME 3), I added descriptions of GNOME 2 that you can try as well.
NOTE
Ubuntu uses its own Unity desktop as its default, instead of GNOME. There is, however, an Ubuntu GNOME project. To download the medium for the latest Ubuntu version with a GNOME desktop, go to the Ubuntu GNOME download page (http://ubuntugnome.org/download/).
You can add GNOME and use it as the desktop environment for Ubuntu 11.10 and later. Older Ubuntu releases use GNOME 2 by default.
Understanding Linux Desktop Technology
Modern computer desktop systems offer graphical windows, icons, and menus that are operated from a mouse and keyboard. If you are under 30 years old, you might think there's nothing special about that. But the first Linux systems did not have graphical interfaces available. Also, today, many Linux servers tuned for special tasks (for example, serving as a web server or file server) don't have desktop software installed.
Nearly every major Linux distribution that offers desktop interfaces is based on the X Window System (http://www.x.org). The X Window System provides a framework on which different types of desktop environments or simple window managers can be built.
The X Window System (sometimes simply called X) was created before Linux existed and even predates Microsoft Windows. It was built to be a lightweight, networked desktop framework.
X works in a sort of backward client/server model. The X server runs on the local system, providing an interface to your screen, mouse, and keyboard. X clients (such as word processors, music players, or image viewers) can be launched from the local system or from any system on your network, provided that the X server gives permission to do so.
X was created in a time when graphical terminals (thin clients) simply managed the keyboard, mouse, and display. Applications, disk storage, and processing power were all on larger centralized computers. So applications ran on larger machines but were displayed and managed over the network on the thin client. Later, thin clients were replaced by desktop personal computers. Most client applications on PCs ran locally, using local processing power, disk space, memory, and other hardware features, while not allowing applications that didn't start from the local system.
X itself provides a plain gray background and a simple “X” mouse cursor. There are no menus, panels, or icons on a plain X screen. If you were to launch an X client (such as a terminal window or word processor), it would appear on the X display with no border around it to move, minimize, or close the window. Those features are added by a window manager.
A window manager adds the capability to manage the windows on your desktop and often provides menus for launching applications and otherwise working with the desktop. A full-blown desktop environment includes a window manager, but also adds menus, panels, and usually an application programming interface that is used to create applications that play well together.
So how does an understanding of how desktop interfaces work in Linux help you when it comes to using Linux? Here are some ways:
● Because Linux desktop environments are not required to run a Linux system, a Linux system may have been installed without a desktop. It might offer only a plain-text, command-line interface. You can choose to add a desktop later. After it is installed, you can choose whether to start up the desktop when your computer boots or start it as needed.
● For a very lightweight Linux system, such as one meant to run on less powerful computers, you can choose an efficient, though less feature-rich, window manager (such as twm
or fluxbox)
or a lightweight desktop environment (such as LXDE or Xfce).
● For more robust computers, you can choose more powerful desktop environments (such as GNOME and KDE) that can do such things as watch for events to happen (such as inserting a USB flash drive) and respond to those events (such as opening a window to view the contents of the drive).
● You can have multiple desktop environments installed and you can choose which one to launch when you log in. In this way, different users on the same computer can use different desktop environments.
Many different desktop environments are available to choose from in Linux. Here are some examples:
● GNOME– GNOME is the default desktop environment for Fedora, Red Hat Enterprise Linux, and many others. Think of it as a professional desktop environment, focusing on stability more than fancy effects.
● K Desktop Environment– KDE is probably the second most popular desktop environment for Linux. It has more bells and whistles than GNOME and offers more integrated applications. KDE is also available with Fedora, RHEL, Ubuntu, and many other Linux systems.
● Xfce– The Xfce desktop was one of the first lightweight desktop environments. It is good to use on older or less powerful computers. It is available with RHEL, Fedora, Ubuntu, and other Linux distributions.
● LXDE– The Lightweight X11 Desktop Environment (LXDE) was designed to be a fast-performing, energy-saving desktop environment. Often, LXDE is used on less-expensive devices (such as netbook computers) and on live media (such as a live CD or live USB stick). It is the default desktop for the KNOPPIX live CD distribution. Although LXDE is not included with RHEL, you can try it with Fedora or Ubuntu.
GNOME was originally designed to resemble the MAC OS desktop, while KDE was meant to emulate the Windows desktop environment. Because it is the