This chapter describes the two major Linux packaging systems, the Red Hat Package Manager (RPM) and the Debian GNU/Linux Package Manager.
When you want to install applications on your Linux system, most often you'll find a binary or a source package containing the application you want, instead of (or in addition to) a .tar.gz file. A package is a file containing the files necessary to install an application. But note that while the package contains the files you need for installation, the application might require the presence of other files or packages that are not included, such as particular libraries (and even specific versions of the libraries), in order to be able to run. Such requirements are known as dependencies.
Package management systems offer many benefits. As a user, you may find you want to query the package database to find out what packages are installed on the system and their versions. As a system administrator, you need tools to install and manage the packages on your system. And, if you are also a developer, you need to know how to build a package for distribution.
Among other things, package managers:
Provide tools for installing, updating, removing, and managing the software on your system.
Let you install new or upgraded software directly across a network.
Tell you what software package a particular file belongs to or what files a package contains.
Maintain a database of packages on the system and their state, so you can find out what packages or versions are installed on your system.
Provide dependency checking, so you don't mess up your system with incompatible software.
Provide PGP, MD5, or other signature verification tools.
Provide tools for building packages.
Any user can list or query packages. However, installing, upgrading, or removing packages generally requires superuser privileges. This is because the packages normally are installed in systemwide directories that are writable only by root. Sometimes you can specify an alternate directory, to install, for example, a package into your home directory or into a project directory where you have write permission.
Both RPM and the Debian Package Manager back up old files before installing an updated package. Not only does this let you go back if there is a problem, but also if you've made changes (to configuration files, for example), they aren't completely lost.
The Red Hat Package Manager (RPM) is a freely available packaging system for software distribution and installation. In addition to Red Hat and Red Hat-based distributions, both SuSE and Caldera are among the Linux distributions that use RPM.
Using RPM is straightforward. A single command, rpm, has options to perform all the package functions. For example, to find out if the Emacs editor is installed on your system, you could say:
% rpm -q emacs emacs-20.4-4
In addition, the GNOME-RPM program provides an X-based graphical frontend to RPM (that can be run even if you are not running GNOME). This section describes the rpm command and then the gnorpm command that runs GNOME-RPM.
RPM packages are built, installed, and queried with the rpm command. RPM package names usually end with a .rpm extension. rpm has a set of modes, each with its own options. The format of the rpm command is:
With a few exceptions, as noted in the lists of options that follow, the first option specifies the rpm mode (e.g., install, query, update, build, etc.), and any remaining options affect that mode.rpm [options] [packages]
In the option descriptions that refer to packages, you'll sometimes see them specified as package-name and sometimes as package-file. The package name is the name of the program or application, such as gif2png. The package file is the name of the RPM file: gif2png-2.2.5-1.i386.rpm.
RPM provides a configuration file for specifying frequently used options. The system configuration file is usually /etc/rpmrc, and users can set up their own $HOME/.rpmrc file. You can use the --showrc option to show the values RPM will use for all the options that may be set in an rpmrc file:
The rpm command includes FTP and HTTP clients, so you can specify an ftp:// or http:// URL to install or query a package across the Internet. You can use an FTP or HTTP URL wherever package-file is specified in the commands presented here.
Any user can query the RPM database. Most of the other functions require superuser privileges.
The following options can be used with all modes:
Use path as the path to the RPM database.
Use port as the FTP port.
Use host as a proxy server for all transfers. Specified if you are FTPing through a firewall system that uses a proxy.
Print a long usage message (running rpm with no options gives a shorter usage message).
Update only the database; don't change any files.
Pipe the rpm output to command.
Display only error messages.
Use filename as the configuration file instead of the system configuration file /etc/rpmrc or $HOME/.rpmrc.
Perform all operations within directory dir.
Print the version number of rpm.
Print debugging information.
rpm -i [install-options] package_file ... rpm --install [install-options] package_file ...
To install a new version of a package and remove an existing version at the same time, use the upgrade command instead:
rpm -U [install-options] package_file ... rpm --upgrade [install-options] package_file ...
One feature of -U is that if the package doesn't already exist on the system, it acts like -i and installs it. To prevent that behavior, you can freshen a package instead; in that case, rpm upgrades the package only if an earlier version is already installed. The freshen syntax is:
rpm -F [install-options] package_file ... rpm --freshen [install-options] package_file ...
Installation and upgrade options are:
Install or upgrade all files.
Used with --relocate to force relocation even if the package is not relocatable.
Don't install any documentation files.
Don't install any file whose filename begins with path.
Force the installation. Equivalent to using --replacepkgs, --replacefiles, and --oldpackage.
Print 50 hash marks as the package archive is unpacked. Use with --version for a nicer display.
Install even if the binary package is intended for a different architecture.
Install binary package even if the operating systems don't match.
Don't check disk space availability before installing.
Install documentation files. This is needed only if excludedocs: 1 is specified in an rpmrc file.
Don't check whether this package depends on the presence of other packages.
Don't reorder packages to satisfy dependencies before installing.
Don't execute any preinstall or postinstall scripts.
Don't execute any scripts triggered by package installation.
Allow an upgrade to replace a newer package with an older one.
Print percent-completion messages as files are unpacked.
Set the installation prefix to path for relocatable packages.
Install the packages even if they replace files from other installed packages.
Install the packages even if some of them are already installed.
Go through the installation to see what it would do, but don't actually install the package.
The syntax for the query command is:
rpm -q[information-options] [package-options] rpm --query[information-options] [package-options]
There are two subsets of query options: package selection options that determine what packages to query and information selection options that determine what information to provide.
Query all installed packages.
Find out what package owns file.
Find out what packages have group group.
Query the uninstalled package package_file.
Query the numth database entry. Primarily useful for debugging.
Specify the format for displaying the query output, using tags to represent different types of data (e.g., NAME, FILENAME, DISTRIBUTION). The format specification is a variation of the standard printf formatting. (Use --querytags in Section 22.214.171.124, "Miscellaneous options" to view a list of available tags.
Query specfile as if it were a package.
List packages that trigger installation of package pkg.
List packages that require the given capability to function.
List packages that provide the given capability.
Display the log of change information for the package.
List documentation files in the package.
Dump information for each file in the package. This option must be used with at least one of -l, -c, or -d. The output includes the following information in this order:
path size mtime md5sum mode owner group isconfig isdoc rdev symlink
List all files in each package.
Display package information, including the name, version, and description.
List all files in the package.
List packages by install time, with the latest packages listed first.
List the capabilities this package provides.
List any packages this package depends on.
List each file in the package and its state. The possible states are normal, not installed, or replaced.
List any package-specific shell scripts used during installation and uninstallation of the package.
rpm -e package_name rpm --erase package_name
The uninstall options are:
Remove all versions of the package. Only one package should be specified; otherwise, an error results.
Don't check dependencies before uninstalling the package.
Don't execute any preuninstall or postuninstall scripts.
Don't execute any scripts triggered by the removal of this package.
Don't really uninstall anything; just go through the motions.
The syntax for the verify command is:
rpm -V|-y| -- verify[package-selection-options]
Verify mode compares information about the installed files in a package with information about the files that came in the original package and displays any discrepancies. The information compared includes the size, MD5 sum, permissions, type, owner, and group of each file. Uninstalled files are ignored.
The package selection options include those available for query mode, as well as the following:
Ignore missing files.
Ignore MD5 checksum errors.
Ignore PGP checking errors.
The output is formatted as an eight-character string, possibly followed by a "c" to indicate a configuration file, and then the filename. Each of the eight characters in the string represents the result of comparing one file attribute to the value of that attribute from the RPM database. A period (.) indicates that the file passed that test. The following characters indicate failure of the corresponding test:
|M||Mode (includes permissions and file type)|
The syntax of the command to rebuild the RPM database is:
rpm --rebuilddb [options]
You also can build a new database:
rpm --initdb [options]
The options available with the database rebuild mode are the --dbpath and --root options described earlier under Section 126.96.36.199, "General options".
rpm --checksig package_file... rpm -K package_file...
The signature-checking options are:
Don't check any GPG signatures.
Don't check any MD5 signatures.
Don't check any PGP signatures.
Two other options let you add signatures to packages:
Generate and append new signatures to those that already exist in the specified binary packages.
Generate and insert new signatures in the specified binary packages, removing any existing signatures.
Several additional rpm options are available:
Print the tags available for use with the --queryformat option in query mode.
Set file owner and group of the specified packages to those in the database.
Set file permissions of the specified packages to those in the database.
Show the values rpm will use for all options that can be set in an .rpmrc file.
Use port for making an FTP connection on the proxy FTP server instead of the default port. Same as specifying the macro _ftpport.
Use host as the proxy server for FTP transfers through a firewall that uses a proxy. Same as specifying the macro _ftpproxy.
Use port for making an HTTP connection on the proxy HTTP server instead of the default port. Same as specifying the macro _httpport.
Use host as a proxy server for HTTP transfers. Same as specifying the macro _httpproxy.
Specify -b to build a package directly from a spec file or -t to open a tarred gzipped file and use its spec file. Both forms take the following single-character step arguments:rpm -[b|t]step [build-options] spec-file ...
Perform the prep stage, unpacking source files and applying patches.
Do a list check, expanding macros in the files section of the spec file and verifying that each file exists.
Perform the build stage. Done after the prep stage; generally equivalent to doing a make.
Perform the install stage. Done after the prep and build stages; generally equivalent to doing a make install.
Build a binary package. Done after prep, build, and install.
Build a source package. Done after prep, build, and install.
Build both binary and source packages. Done after prep, build, and install.
The following additional options can be used when building an rpm file:
For use with pre-3.0 versions of RPM. Build the package for architecture arch or the operating system os. Replaced in 3.0 with --target.
Override the BuildRoot tag with dir when building the package.
Clean up (remove) the build files after the package has been made.
Remove the source files and the spec file when the build is done. Can be used as a standalone option with rpm to clean up files separately from creating the packages.
Can be used with -bc and -bi to skip previous stages.
Add a PGP signature to the package.
When building the package, set the macros _target, _target_arch, and _target_os to the value indicated by platform.
Go through the motions, but don't execute any build stages. Used for testing spec files.
Set the timecheck age (the maximum age in seconds of a file being packaged). Set to 0 to disable.
Two other options can be used standalone with rpm to recompile or rebuild a package:
Like --recompile, but also build a new binary package. Remove the build directory, the source files, and the spec file once the build is complete.
Install the named source package, and prep, compile, and install the package.
Query the RPM database to find Emacs-related packages:
% rpm -q -a | grep emacs
Query an uninstalled package, printing information about the package, and list the files it contains:
% rpm -qpil ~/downloads/bash2-doc-2.03-8.i386.rpm
Install a package (assumes superuser privileges):
% rpm -i sudo-1.5.3-6.i386.rpm
GNOME-RPM is a graphical user frontend to rpm that runs under X. You can run gnorpm even if you are not running GNOME. When you run gnorpm, it opens a window that lets you manage your rpm packages via a graphical interface. The format of the gnorpm command is:
The gnorpm options are:
Specify the geometry of the main window in standard X geometry format (i.e., w×h+x+y).
Install the specified packages.
The packages are in files, not in the rpm database (i.e., they haven't been installed yet).
Display a query window for the specified installed packages.
Display a query window for the specified package files. This is the same as specifying the -q and -p options.
Upgrade the specified packages.
Check the signatures on the specified packages.
Verify the specified packages.
Display a help message and exit.
Specify the filesystem root to use.
Display a brief usage message and exit.
The GNOME-RPM main window has five parts. At the top is a menu bar with three buttons:
Menu options are Query, Uninstall, and Verify.
Menu options are Find, Web find, Install, and Preferences.
Provides online help for GNOME-RPM.
Below the menu bar is a toolbar, with buttons to Install, Unselect, Uninstall, Query, Verify, Find, and Web find. At the very bottom of the window is a status bar.
The rest of the window is the main panel. On the left is the package panel, which displays package folders in a tree structure. Clicking on a folder selects it; double-click to display the contents of the folder (i.e., the packages in that folder) on the righthand panel. Clicking on a package selects it; you then can use the menus and the toolbar buttons to operate on the package. You can select several packages at the same time and operate on them as a group. Right-clicking on a package icon selects the package if it isn't already and presents a menu with Query, Uninstall, and Verify options.
See the GNOME-RPM documentation and online help for full details.
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