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Understanding software Installation
#1

This tutorial is aimed at those who have just started using Linux. Generally when users from the Windows background enter the Linux scene,they are totally stumped by the software installation method. They were used to the luxury of double clicking on a single file and getting their software installed. But now they have to type cryptic commands to do the same.

 

Though the installation instructions tell them what to do, they have no idea what those steps actually do. This article shall explain the basics of software installation. After reading this article you would feel more at home when installing your next software.

 

Generally beginners tend to search desperately for RPMs since installing RPMs is a real simple task. But this article doesn't talk about RPMs. It deals with the softwares that you generally get in the zipped formats as tarballs.

 

 

Details :

 

Generally you would get Linux software in the tarball format (.tgz) This file has to be uncompressed into any directory using tar command. In case you download a new tarball by the name game.tgz, then you would have to type the following command

 

$ tar xfvz game.tgz

 

This would create a directory within the current directory and unzip all the files within that new directory. Once this is complete the installation instructions ask you to execute the 3 (now famous) commands : configure, make & make install. Most of the users do this and successfully install their softwares. But most of the newbies have no idea what this really does. The rest of the article shall explain the meaning of these 3 commands

 

Each software comes with a few files which are solely for the purpose of installation sake. One of them is the configure script. The user has to run the following command at the prompt

 

$ ./configure

 

The above command makes the shell run the script named ' configure ' which exists in the current directory. The configure script basically consists of many lines which are used to check some details about the machine on which the software is going to be installed. This script checks for lots of dependencies on your system. For the particular software to work properly, it may be requiring a lot of things to be existing on your machine already. When you run the configure script you would see a lot of output on the screen , each being some sort of question and a respective yes/no as the reply. If any of the major requirements are missing on your system, the configure script would exit and you cannot proceed with the installation, until you get those required things.

 

The main job of the configure script is to create a ' Makefile ' . This is a very important file for the installation process. Depending on the results of the tests (checks) that the configure script performed it would write down the various steps that need to be taken (while compiling the software) in the file named Makefile.

 

If you get no errors and the configure script runs successfully (if there is any error the last few lines of the output would glaringly be stating the error) then you can proceed with the next command which is

 

$ make

 

' make ' is actually a utility which exists on almost all Unix systems. For make utility to work it requires a file named Makefile in the same directory in which you run make. As we have seen the configure script's main job was to create a file named Makefile to be used with make utility. (Sometimes the Makefile is named as makefile also)

 

make would use the directions present in the Makefile and proceed with the installation. The Makefile indicates the sequence, that Linux must follow to build various components / sub-programs of your software. The sequence depends on the way the software is designed as well as many other factors.

 

The Makefile actually has a lot of labels (sort of names for different sections). Hence depending on what needs to be done the control would be passed to the different sections within the Makefile Or it is possible that at the end of one of the section there is a command to go to some next section.

 

Basically the make utility compiles all your program code and creates the executables. For particular section of the program to complete might require some other part of the code already ready, this is what the Makefile does. It sets the sequence for the events so that your program does not complain about missing dependencies.

 

One of the labels present in the Makefile happens to be named ' install ' .

 

If make ran successfully then you are almost done with the installation. Only the last step remains which is

 

$ make install

 

As indicated before make uses the file named Makefile in the same directory. When you run make without any parameters, the instruction in the Makefile begin executing from the start and as per the rules defined within the Makefile (particular sections of the code may execute after one another..thats why labels are used..to jump from one section to another). But when you run make with install as the parameter, the make utility searches for a label named install within the Makefile, and executes only that section of the Makefile.

 

The install section happens to be only a part where the executables and other required files created during the last step (i.e. make) are copied into the required final directories on your machine. E.g. the executable that the user runs may be copied to the /usr/local/bin so that all users are able to run the software. Similarly all the other files are also copied to the standard directories in Linux. Remember that when you ran make, all the executables were created in the temporary directory where you had unzipped your original tarball. So when you run make install, these executables are copied to the final directories.

 

Thats it !! Now the installation process must be clear to you. You surely will feel more at home when you begin your next software installation.

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#2

[img]<___base_url___>/uploads/emoticons/default_ohmy.png[/img] What do I do with files that are tar.gz files? (For instance, I downloaded Mozilla Firefox and the Macromedia Flash Player 7 plug-in whose file names are respectively firefox-0.8-i686-linux-gtk2+xft.tar.gz and install_flash_player_7_linux.tar.gz.) My terminal gives me errors when I try the "tar" command on them.

 

By the way, this tutorial is a great help to me. I'm a total newbie, and I've been looking for explanatory tutorials of the most basic skills. Please write more of these! [img]<___base_url___>/uploads/emoticons/default_laugh.png[/img]

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#3

--EDIT--

 

Nevermind. I found the C compiler in Linux-Noob IRC.

 

Thanks, peeps.

 

-beej

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#4

just got here, this forum helps a lot.

 

when i installed an app, i used "./configure, make, make install"

 

anyway, my question is, is the ./configure always followed by "make, make install" ?

 

why is it some apps have "makefile"?

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#5

Quote:just got here, this forum helps a lot. 

when i installed an app, i used "./configure, make, make install"

 

anyway, my question is, is the ./configure always followed by "make, make install" ?

 

why is it some apps have "makefile"?
 

Ok...

 



Code:
./configure




This step prepares the code, tweaking bits and pieces to make it work on your operating system. Also it takes in options from you the user as to where and what features to add etc.

 



Code:
make




This goes away and actually builds the code and finally the binary/library that you wish.

 



Code:
make install




This takes the compiled code and actually installs it.

 

Some applications come with Makefile's for a very simple reason, easy of use and portability. If everyone uses the same utilities to produce code, then that code becomes portable. The Makefile is one very simple example of this, it allows code to be build automatically without anyone needing to manually go through and build all the items.

 

So all in all a makefile will let someone manage their code in an easy manner :)

 

Now you asked is it "always", the answer is no. Not all programs use this method, most do but there is a small percentage that will use a different method. Normally the reason behind this different method is (1) the project is old and the code is prior to Makefiles (2) the project is small and the Makefile is just excess bloat (3) the coder has a screw loose and enjoys S&M on the weekends :P

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