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- <?xml version="1.0" encoding="ISO-8859-1"?>
- <!DOCTYPE sect1 PUBLIC "-//OASIS//DTD DocBook XML V4.5//EN"
- "http://www.oasis-open.org/docbook/xml/4.5/docbookx.dtd" [
- <!ENTITY % general-entities SYSTEM "../general.ent">
- %general-entities;
- ]>
- <sect1 id="ch-system-pkgmgt">
- <?dbhtml filename="pkgmgt.html"?>
- <title>Package Management</title>
- <para>Package Management is an often requested addition to the LFS Book. A
- Package Manager allows tracking the installation of files making it easy to
- remove and upgrade packages. As well as the binary and library files, a
- package manager will handle the installation of configuration files. Before
- you begin to wonder, NO—this section will not talk about nor recommend
- any particular package manager. What it provides is a roundup of the more
- popular techniques and how they work. The perfect package manager for you may
- be among these techniques or may be a combination of two or more of these
- techniques. This section briefly mentions issues that may arise when upgrading
- packages.</para>
- <para>Some reasons why no package manager is mentioned in LFS or BLFS
- include:</para>
- <itemizedlist>
- <listitem>
- <para>Dealing with package management takes the focus away from the goals
- of these books—teaching how a Linux system is built.</para>
- </listitem>
- <listitem>
- <para>There are multiple solutions for package management, each having
- its strengths and drawbacks. Including one that satisfies all audiences
- is difficult.</para>
- </listitem>
- </itemizedlist>
- <para>There are some hints written on the topic of package management. Visit
- the <ulink url="&hints-index;">Hints Project</ulink> and see if one of them
- fits your need.</para>
- <sect2>
- <title>Upgrade Issues</title>
- <para>A Package Manager makes it easy to upgrade to newer versions when they
- are released. Generally the instructions in the LFS and BLFS Book can be
- used to upgrade to the newer versions. Here are some points that you should
- be aware of when upgrading packages, especially on a running system.</para>
- <itemizedlist>
- <listitem>
- <para>If Glibc needs to be upgraded to a newer version, (e.g. from
- glibc-2.19 to glibc-2.20), it is safer to rebuild LFS. Though you
- <emphasis>may</emphasis> be able to rebuild all the packages in their
- dependency order, we do not recommend it. </para>
- </listitem>
- <listitem>
- <para>If a package containing a shared library is updated, and if the
- name of the library changes, then all the packages dynamically linked
- to the library need to be recompiled to link against the newer library.
- (Note that there is no correlation between the package version and the
- name of the library.) For example, consider a package foo-1.2.3 that
- installs a shared library with name
- <filename class='libraryfile'>libfoo.so.1</filename>. Say you upgrade
- the package to a newer version foo-1.2.4 that installs a shared library
- with name <filename class='libraryfile'>libfoo.so.2</filename>. In this
- case, all packages that are dynamically linked to
- <filename class='libraryfile'>libfoo.so.1</filename> need to be
- recompiled to link against
- <filename class='libraryfile'>libfoo.so.2</filename>. Note that you
- should not remove the previous libraries until the dependent packages
- are recompiled.</para>
- </listitem>
- </itemizedlist>
- </sect2>
- <sect2>
- <title>Package Management Techniques</title>
- <para>The following are some common package management techniques. Before
- making a decision on a package manager, do some research on the various
- techniques, particularly the drawbacks of the particular scheme.</para>
- <sect3>
- <title>It is All in My Head!</title>
- <para>Yes, this is a package management technique. Some folks do not find
- the need for a package manager because they know the packages intimately
- and know what files are installed by each package. Some users also do not
- need any package management because they plan on rebuilding the entire
- system when a package is changed.</para>
- </sect3>
- <sect3>
- <title>Install in Separate Directories</title>
- <para>This is a simplistic package management that does not need any extra
- package to manage the installations. Each package is installed in a
- separate directory. For example, package foo-1.1 is installed in
- <filename class='directory'>/usr/pkg/foo-1.1</filename>
- and a symlink is made from <filename>/usr/pkg/foo</filename> to
- <filename class='directory'>/usr/pkg/foo-1.1</filename>. When installing
- a new version foo-1.2, it is installed in
- <filename class='directory'>/usr/pkg/foo-1.2</filename> and the previous
- symlink is replaced by a symlink to the new version.</para>
- <para>Environment variables such as <envar>PATH</envar>,
- <envar>LD_LIBRARY_PATH</envar>, <envar>MANPATH</envar>,
- <envar>INFOPATH</envar> and <envar>CPPFLAGS</envar> need to be expanded to
- include <filename>/usr/pkg/foo</filename>. For more than a few packages,
- this scheme becomes unmanageable.</para>
- </sect3>
- <sect3>
- <title>Symlink Style Package Management</title>
- <para>This is a variation of the previous package management technique.
- Each package is installed similar to the previous scheme. But instead of
- making the symlink, each file is symlinked into the
- <filename class='directory'>/usr</filename> hierarchy. This removes the
- need to expand the environment variables. Though the symlinks can be
- created by the user to automate the creation, many package managers have
- been written using this approach. A few of the popular ones include Stow,
- Epkg, Graft, and Depot.</para>
- <para>The installation needs to be faked, so that the package thinks that
- it is installed in <filename class="directory">/usr</filename> though in
- reality it is installed in the
- <filename class="directory">/usr/pkg</filename> hierarchy. Installing in
- this manner is not usually a trivial task. For example, consider that you
- are installing a package libfoo-1.1. The following instructions may
- not install the package properly:</para>
- <screen role="nodump"><userinput>./configure --prefix=/usr/pkg/libfoo/1.1
- make
- make install</userinput></screen>
- <para>The installation will work, but the dependent packages may not link
- to libfoo as you would expect. If you compile a package that links against
- libfoo, you may notice that it is linked to
- <filename class='libraryfile'>/usr/pkg/libfoo/1.1/lib/libfoo.so.1</filename>
- instead of <filename class='libraryfile'>/usr/lib/libfoo.so.1</filename>
- as you would expect. The correct approach is to use the
- <envar>DESTDIR</envar> strategy to fake installation of the package. This
- approach works as follows:</para>
- <screen role="nodump"><userinput>./configure --prefix=/usr
- make
- make DESTDIR=/usr/pkg/libfoo/1.1 install</userinput></screen>
- <para>Most packages support this approach, but there are some which do not.
- For the non-compliant packages, you may either need to manually install the
- package, or you may find that it is easier to install some problematic
- packages into <filename class='directory'>/opt</filename>.</para>
- </sect3>
- <sect3>
- <title>Timestamp Based</title>
- <para>In this technique, a file is timestamped before the installation of
- the package. After the installation, a simple use of the
- <command>find</command> command with the appropriate options can generate
- a log of all the files installed after the timestamp file was created. A
- package manager written with this approach is install-log.</para>
- <para>Though this scheme has the advantage of being simple, it has two
- drawbacks. If, during installation, the files are installed with any
- timestamp other than the current time, those files will not be tracked by
- the package manager. Also, this scheme can only be used when one package
- is installed at a time. The logs are not reliable if two packages are
- being installed on two different consoles.</para>
- </sect3>
- <sect3>
- <title>Tracing Installation Scripts</title>
- <para>In this approach, the commands that the installation scripts perform
- are recorded. There are two techniques that one can use:</para>
- <para>The <envar>LD_PRELOAD</envar> environment variable can be set to
- point to a library to be preloaded before installation. During
- installation, this library tracks the packages that are being installed by
- attaching itself to various executables such as <command>cp</command>,
- <command>install</command>, <command>mv</command> and tracking the system
- calls that modify the filesystem. For this approach to work, all the
- executables need to be dynamically linked without the suid or sgid bit.
- Preloading the library may cause some unwanted side-effects during
- installation. Therefore, it is advised that one performs some tests to
- ensure that the package manager does not break anything and logs all the
- appropriate files.</para>
- <para>The second technique is to use <command>strace</command>, which
- logs all system calls made during the execution of the installation
- scripts.</para>
- </sect3>
- <sect3>
- <title>Creating Package Archives</title>
- <para>In this scheme, the package installation is faked into a separate
- tree as described in the Symlink style package management. After the
- installation, a package archive is created using the installed files.
- This archive is then used to install the package either on the local
- machine or can even be used to install the package on other machines.</para>
- <para>This approach is used by most of the package managers found in the
- commercial distributions. Examples of package managers that follow this
- approach are RPM (which, incidentally, is required by the <ulink
- url="http://refspecs.linuxfoundation.org/lsb.shtml">Linux
- Standard Base Specification</ulink>), pkg-utils, Debian's apt, and
- Gentoo's Portage system. A hint describing how to adopt this style of
- package management for LFS systems is located at <ulink
- url="&hints-root;fakeroot.txt"/>.</para>
- <para>Creation of package files that include dependency information is
- complex and is beyond the scope of LFS.</para>
- <para>Slackware uses a <command>tar</command> based system for package
- archives. This system purposely does not handle package dependencies
- as more complex package managers do. For details of Slackware package
- management, see <ulink
- url="http://www.slackbook.org/html/package-management.html"/>.</para>
- </sect3>
- <sect3>
- <title>User Based Management</title>
- <para>This scheme, unique to LFS, was devised by Matthias Benkmann, and is
- available from the <ulink url="&hints-index;">Hints Project</ulink>. In
- this scheme, each package is installed as a separate user into the
- standard locations. Files belonging to a package are easily identified by
- checking the user ID. The features and shortcomings of this approach are
- too complex to describe in this section. For the details please see the
- hint at <ulink url="&hints-root;more_control_and_pkg_man.txt"/>.</para>
- </sect3>
- </sect2>
- <sect2>
- <title>Deploying LFS on Multiple Systems</title>
- <para>One of the advantages of an LFS system is that there are no files that
- depend on the position of files on a disk system. Cloning an LFS build to
- another computer with the same architecture as the base system is as
- simple as using <command>tar</command> on the LFS partition that contains
- the root directory (about 250MB uncompressed for a base LFS build), copying
- that file via network transfer or CD-ROM to the new system and expanding
- it. From that point, a few configuration files will have to be changed.
- Configuration files that may need to be updated include:
- <filename>/etc/hosts</filename>,
- <filename>/etc/fstab</filename>,
- <filename>/etc/passwd</filename>,
- <filename>/etc/group</filename>,
- <phrase revision="systemd">
- <filename>/etc/shadow</filename>, and
- <filename>/etc/ld.so.conf</filename>.
- </phrase>
- <phrase revision="sysv">
- <filename>/etc/shadow</filename>,
- <filename>/etc/ld.so.conf</filename>,
- <filename>/etc/sysconfig/rc.site</filename>,
- <filename>/etc/sysconfig/network</filename>, and
- <filename>/etc/sysconfig/ifconfig.eth0</filename>.
- </phrase>
- </para>
- <para>A custom kernel may need to be built for the new system depending on
- differences in system hardware and the original kernel
- configuration.</para>
- <note><para>There have been some reports of issues when copying between
- similar but not identical architectures. For instance, the instruction set
- for an Intel system is not identical with an AMD processor and later
- versions of some processors may have instructions that are unavailable in
- earlier versions.</para></note>
- <para>Finally the new system has to be made bootable via <xref
- linkend="ch-bootable-grub"/>.</para>
- </sect2>
- </sect1>
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