From 75a4a592e5ccda30715f93563d741b83e0dcf39e Mon Sep 17 00:00:00 2001 From: Patrick J Volkerding Date: Mon, 25 Apr 2011 13:37:00 +0000 Subject: Slackware 13.37 Mon Apr 25 13:37:00 UTC 2011 Slackware 13.37 x86_64 stable is released! Thanks to everyone who pitched in on this release: the Slackware team, the folks producing upstream code, and linuxquestions.org for providing a great forum for collaboration and testing. The ISOs are off to be replicated, a 6 CD-ROM 32-bit set and a dual-sided 32-bit/64-bit x86/x86_64 DVD. Please consider supporting the Slackware project by picking up a copy from store.slackware.com. We're taking pre-orders now, and offer a discount if you sign up for a subscription. As always, thanks to the Slackware community for testing, suggestions, and feedback. :-) Have fun! --- extra/slacktrack/OVERVIEW | 595 ---------------------------------------------- 1 file changed, 595 deletions(-) delete mode 100644 extra/slacktrack/OVERVIEW (limited to 'extra/slacktrack') diff --git a/extra/slacktrack/OVERVIEW b/extra/slacktrack/OVERVIEW deleted file mode 100644 index 5e0f5d612..000000000 --- a/extra/slacktrack/OVERVIEW +++ /dev/null @@ -1,595 +0,0 @@ -############################################################################## -# Document: OVERVIEW -# Purpose : Provide an overview of the Slackware package system incorporating -# the use of 'slacktrack' -# Please note that this is *not* a guide to the use of slacktrack; -# the man page and SlackBuild scripts in the 'examples' directory -# aim to fulfill that requirement. -# Date....: 15-May-2009 -# Author..: Stuart Winter -# Homepage: http://www.slackware.com/~mozes -############################################################################## - - -CONTENTS: ---------- -1.0 Preamble -2.0 Slackware packages - 2.0.1 Format of official Slackware packages - 2.0.1.1 Package names - 2.0.1.2 Version numbers - 2.0.1.3 Architectures - 2.0.1.4 Build numbers - 2.1 An overview of the creation of official Slackware packages - 2.1.1 'Clean' and 'dirty' builds - 2.1.1.1 Clean builds - 2.1.1.2 Dirty builds - 2.1.1 SlackBuild and .build scripts - 2.1.1.2 SlackBuild scripts - 2.1.1.3 .build scripts - 2.2 slacktrack in the scheme of things - 2.2.1 Using slacktrack with official .build scripts - 2.2.2 Writing your own .build scripts for slacktrack - 2.2.2.1 Making use of slacktrack's environment variables -3.0 slacktrack in operation - 3.1 How slacktrack finds which files have been installed - 3.1.1 installwatch's author -4.0 Example scripts - 4.0.1 non-slackware example build scripts - 4.0.2 slackware example wrapper build scripts -5.0 Known problems/features of slacktrack -6.0 New features -7.0 Licence - - - -1.0 Preamble - --------- - -I used to work for a company that provided web hosting and shell accounts. -When I started there were a number of shell servers all running various -releases of RedHat Linux, in various states of repair. I managed to convince -the management to let me try Slackware on there instead because I have a much -stronger understanding of how to maintain and build server using the -Slackware distribution. This trial went well and within a few months all -servers were converted to Slackware version 8.1. - -In order to ease the speed of installation (and to prevent against -forgetting to install or configure something critical), I wrote a -set of post installation scripts that upgraded Slackware packages, -configured numerous config files and copied pre-compiled software -(such as courier IMAP) onto the new system. -For other software that I could not simply copy, I'd compile it on the -new server. - -However, it soon became clear that due to security updates and so on, -it became incredibly time consuming (not to mention seriously boring) -to compile PHP, Apache and so on on every server. - -At this point, I began to investigate how to create packages for Slackware. - - -2.0 Slackware packages - ------------------ - - The Slackware Linux distribution consists of a variety of 'packages' - that make up the distribution. - - Traditionally, all packages are in '.tgz' format (a gzipped tar archive). - Starting with Slackware v13, new compression formats are supported which - are represented by three additional file extensions: - - .tgz - Gzip - .tbz - Bzip2 - .tlz - LZMA - .txz - XZ - - In this document, we use the file extension '.t?z' to represent - one of the above file formats. - - Once you have initially installed Slackware from the installer screen, - you have the facilities to install, remove or upgrade new or existing - packages using the package management tools: - - installpkg - install 'package.t?z' - - upgradepkg - upgrade existing 'package' with the - new version specified at the command line. - - removepkg - remove specified package - - - Whilst the Slackware package system is not especially feature rich, - Slackware's user base (including me) like it because it is simple. - If we want to write our own package utilities then we can easily do so - by examining the existing package tools and querying and amending the - package database (text files). - - 2.0.1 Format of official Slackware packages - ------------------------------------- - - In Slackware 8.1 and up, each package file is named as follows: - - packagename-version-architecture-buildnumber.t?z - - 2.0.1.1 Package names - ------------- - - The package name is either the name of the single program - or the name of a collection of utilities that fall under - a single umbrella. - For example: - autoconf-2.54-noarch-1.tgz - - That is the name of the autoconf package I have on my - Slackware 8.1 box. - 'autoconf' is the name of the the entire collection of - binaries and associated documents that are extracted from - the autoconf source distribution archive. - - However, if we consider another example: - tcpip-0.17-i386-15.tgz - - There is no single piece of software called 'tcpip'. - This package contains a number of associated utilities - written by different authors but bundled into one single - 'package'. - - 2.0.1.2 Version numbers - --------------- - - If the package is the name of a particular piece of software - such as 'autoconf' from the example above, then the version - number represents the version number that its authors distribute. - - If the package is a 'bundle' such as 'tcpip' then the version - number increases as and when you add a new piece of software to - the package, or upgrade a particular piece of major software - contained within the package. - For example, with 'tcpip' above, the 0.17 refers to the version of - Linux Netkit. However, there are other programs included within - the Slackware tcpip package that are not part of 'Linux netkit'. - - 2.0.1.3 Architectures - ------------- - - The architecture is just that -- it tells you which architecture - the package is for. - - The current values in use are: - - ----- [ Official Slackware architecures ] - - noarch - Architecture independent files such as config files - i386 - packages for the x86 (Slackware v8.1 & 9) - i486 - packages for the x86 (Slackware 9.1+) - i586 - packages for the x86 - s390 - packages for the IBM s/390 mainframe - - Note: Whilst Slackware v10 is primarily built for i486, you may - find that there are some packages whose architecture versions - are higher than i486. This is for two reasons: - - [a] There is no source for the package - it is a repackaged - binary distribution (SUN's j2sdk is an example). - - [b] The package is not required or otherwise not suitable for - earlier revisions of the architecture (this is especially - the true with ARM and SPARC). - - ----- [ Unofficial ports of Slackware ] - - arm - packages for the ARM architecture - sparc - packages for the SUN Sparc architecture - powerpc - packages for the PowerPC architecture - - 2.0.1.4 Build numbers - ------------- - - A build number suplements the version number and is changed - when the *package maintainer* makes a change to the package but - the original source code and version number remains the same. - - For example, I build a package of 'foo' version 0.14 for the - sparc. I have never built this package before, thus it becomes - foo-0.14-sparc-1.tgz - However, I realise that I haven't configured - the 'bar' parameter correctly in /etc/foo.conf. I fix it - and re-build the package. The package is now named - foo-0.14-sparc-2.tgz - - - 2.1 An overview of the creation of official Slackware packages - ----------------------------------------------------------- - - This section gives a brief introduction of the two methods of - used when building the official Slackware packages. - - - 2.1.1 'Clean' and 'dirty' builds - -------------------------- - - I am assuming the reader has some experience with Makefiles - and has compiled and installed a number of software packages. - - 2.1.1.1 Clean builds - ------------ - - I term a 'clean' package one where you can specify a variable - to the 'make install' which contains the directory you wish to install - the package in, rather than installing it properly over the root file system. - For example: - # ./configure --prefix=/usr --sysconfdir=/etc - # make - # make install DESTDIR=/tmp/package-foo - - With a 'Makefile' that honours the DESTDIR variable, this will - install the whole package into /tmp/package-foo. This directory - effectively is the 'root' directory '/' as far as the Makefile - is concerned. - - From here you can use the Slackware 'makepkg' program and build - a package. - - This is by far the safest and most preferred method by all - users that make packages. - - You will find that DESTDIR is called prefix, TOPDIR and other names; - you need to examine the Makefile scripts in order to determine whether - it contains this functionality and if it does, then discover what - the variable name is. - - 2.1.1.2 Dirty builds - ------------ - - A 'dirty' build is the name I give to source distribution archives - whose Makefile scripts do not have any provisioning to install - in an alternate directory other than root. - - For these type of builds, you will typically do: - # ./configure --prefix=/usr --sysconfdir=/etc - # make - # make install - - The package will then be installed on the root filesystem. - - So how do you know what files were installed where and - even if you did, how do you pull all these files together in order - to run makepkg over them ? - That's the purpose of slacktrack! :-) - - - 2.1.1 SlackBuild and .build scripts - ----------------------------- - - Slackware has a number of packages by a great number of authors. - Some of the packages's source Makefiles honour a DESTDIR type - variable but others do not. - - 2.1.1.2 SlackBuild scripts - ------------------ - - SlackBuild scripts can be 'interesting'. They are - scripts that install into a 'clean' environment (usually /tmp). - - Some of the scripts follow the make install DESTDIR= - style, if the Makefile permits. - - Others have a 'framework' or 'controller tarball' which is - a _packagename.t?z (note the prefixing underscore). - - The SlackBuild script uses the Slackware 'explodepkg' script - to untar the contents of the _.t?z into the /tmp-package - directory. - Slackbuild then runs 'make' to compile the binaries - and libraries, but then uses the 'cat' program such as: - # cat foobar > /tmp/package-foobar/usr/bin/foobar - - By using 'cat', the *new* version of 'foobar' retains - the original permissions and ownerships that are in the - controller tar ball. - - However, you may be wondering how, if the package does not - have a facility to install into somewhere other than root, - do we get the file names and permissions for the - controller _.t?z in the first place. - The answer is simple: - [a] find all files on the file system and dump to a file. - [b] compile and install the software - [c] find all files on the file system and compare the file - produced by the first 'find'. After a little pruning, you - have the list of files for the controller tar ball. - - - 2.1.1.3 .build scripts - --------------- - - For those software distributions whose Makefile does not hounour - the DESTDIR type system, there are Slackware's .build scripts. - - These scripts literally ./configure ; make ; make install - and copy docs and other goodies into the root file system. - - One of the problems with these scripts is that they are - often incomplete -- they build and install the package but - do not gzip the man pages or strip the binaries and libraries; - this is done manually afterwards. - - *These* are the scripts that slacktrack and altertrack were - written for. - - * Note: Whilst some software's Makefiles may appear to honour - the DESTDIR variable, the Makefile *may* be broken which can - result in files missing or corrupt within your new package. - For example: I built Apache v2.0.48 and built a package using - make install DESTDIR. However, a problem exists in that some of - the Perl scripts it installs have *temporary build paths* - hard coded into the resulting scripts. - This is why you *may* find a .build instead of a SlackBuild - script within Slackware's source tree. - - However, the primary reason is because the build script just - hasn't been updated to make use of DESTDIR. * - - - 2.2 slacktrack in the scheme of things - ---------------------------------- - - I follow Slackware-current quite closly. Often I want to - 'back port' a -current package to an earlier release of Slackware . - I can't simply upgrade with -current's package because it was - compiled for a newer GLIBC than Slackware 8.1's, for example. - For packages that use a 'clean' 'SlackBuild' script, this is - an easy job -- I simply run 'SlackBuild' on an 8.1 box. - - However, for .build scripts, I needed a way of building packages - using Slackware's .build scripts. - - I found a great program called 'CheckInstall' which fulfilled most of my - requirements. However, as time went on and I started building - more of Slackware's packages and writing my own build scripts, I found - that checkinstall was lacking some features that I required. - At this time I was also considering porting Slackware to run on - the ARM architecture and helping with the Splack (Slackware on SPARC project), - and therefore wanted a robust program that can deal with every .build script - I threw at it, and if it can't handle it, I needed to be able to make modifications. - The easiest way of doing this was to write my own script; thus - 'slacktrack' was born. - - slacktrack is based on the *idea* behind 'CheckInstall', but uses - only my own code (and contributions from other users), and only contains - Slackware-specific facilities -- it can not build Debian or RedHat packages - and never will. - - slacktrack does not have all of the facilities of CheckInstall either, - but then these are not required for building Slackware packages - from .build scripts. - - Also, slacktrack only works with 'official' Slackware directory locations - and /usr/local. - For example, if your make install installs binaries in /opt/packagename/bin - and the man pages in anywhere other than /usr/man or /usr/local/man, then - slacktrack's relevant options (eg stripping libs, bins, gzman) will - not detect them. - - - 2.2.1 Using slacktrack with official .build scripts - --------------------------------------------- - - Building a replicar Slackware package from a .build script is - typically fairly trivial with slacktrack. - - If we wanted to build slackware-9.1's elvis, we could do - # cd slackware/slackware-9.1/source/a/elvis - # chmod 755 elvis.build - # slacktrack -jefkzp "elvis-2.1-i386-2.tgz" ./elvis.build - - The resulting package (by default) be stored in - /tmp/built-slackwarepackages/ - - As already mentioned, some of the Slackware .build scripts - are incomplete with regard to gzipping man pages, stripping binaries - and so on -- fetchmail.build is one of them. - Therefore you can specify various options to slacktrack that - will take care of this for you. - The options in the example above : - j - compress libraries - e - chown root:bin /bin,/sbin,/usr/bin,/usr/sbin directories - f - chown root:bin files in the binary dirs listed above - k - strip binaries found in the binary dirs listed above - z - gzip man pages - p - the resulting Slackware package .t?z name - - The way I re-create the packages is to build a 'trackbuild' script that - launches slacktrack with the required options and the name - of the Slackware .build script. You can find examples of such - scripts within the docs directory after installing slacktrack: - - /usr/doc/slacktrack*/buildscript-examples/ - - You will also find that in Slackware versions 12.0 and upwards, - the .build scripts are accompanied by 'trackbuild' scripts because - slacktrack is used by the Slackware team to produce the packages. - - 2.2.2 Writing your own .build scripts for slacktrack - ---------------------------------------------- - - There isn't any specific that you have to do to write a build - script for use with slacktrack -- the script name specified to - slacktrack doesn't even have to be a script - it can be a binary - - as long as it is executable, it is acceptable. - - You can see some of my own build scripts that I have written - for use with slacktrack by looking in the documents directory - after installing slacktrack: - - /usr/doc/slacktrack*/buildscript-examples/ - - 2.2.2.1 Making use of slacktrack's environment variables - ------------------------------------------------- - - slacktrack exports two environment variables: - SLACKTRACKFAKEROOT and SLACKTRACKSCRATCHDIR - - SLACKTRACKFAKEROOT: - ```````````````````` - - The purpose of this to allow your .build script to access the - 'root' directory of the resulting package. - There are two scenarios where you may want to use this - variable: - - 1. During the build: - - The reason you may wish to do this is to pre-populate - the package with files that you may not wish to place directly - onto the root filesystem. - The package contents will only appear inside this directory - once your build script has finished, and slacktrack has determined - what to put into this directory. - - In previous slacktrack versions which used a pseudo-root filesystem - (where the package contents were populated *during* the build), this - made sense, but in slacktrack v2.00, it is unlikely that you'd want - to use this vairable from the build script. - - 2. Post-build -- cleanups after the build: - - The most likely use of this script is to perform package cleanup - tasks after the build. This is mainly to perform tasks that slacktrack - does not handle itself - such as deleting known files/directories that - creep into packages (due to a system daemon such as CUPS), or setting - some file and directory permissions. - - An example post build script is below. - A post build script can be specified by slacktrack's -R option: - - # Incase you had CUPS running: - rm -rf etc/cups etc/printcap - # crond: - rm -rf var/spool/cron - rmdir var/spool - - # perllocal.pod files don't belong in packages. - # SGMLSPL creates this: - find . -name perllocal.pod -print0 | xargs -0 rm -f - - # Some doc dirs have attracted setuid. - # We don't need setuid for anything in this package: - chmod -R a-s . - - - SLACKTRACKSCRATCHDIR: - ````````````````````` - - The purpose of this variable is to provide some temporary - space to untar your source archives and so on. slacktrack - will manage the creation and deletion of this directory. - - For example: - # cd ${SLACKTRACKSCRATCHDIR} - # tar zxvvf ${ORIGPATH}/source/foobar.tar.gz - - You can see in some of the example 'non-slackware' scripts - how I have used these variables - - -3.0 slacktrack in operation - ----------------------- - - The basic event flow is as follows: - - [1] Parse command line arguments - -> Check they are OK, if not bomb out - [2] Launch the supplied build script - [3] Run any specified functions (eg gzman, strip bins, chowns) over the - package 'root' directory and contents - [4] Run Slackware's 'makepkg' program over the package contents - [5] Move the .t?z to the specified build store path - [6] Scan for any hard links that may be in the package - -> If any found, alert the user on screen and also - log to a packagename.hardlinks.log file in the build store path - - The slacktrack shell script is fairly simple and well commented; it should be - relatively easy for anybody who understands bash to quickly comprehend what - is happening and why. - - 3.1 How slacktrack finds which files have been installed - ---------------------------------------------------- - - In order to track the files and directories that have been installed - or changed, slacktrack follows this ordered process: - - [1] Scans a pre-set list of directories on the filesystem and - logs the contents. - [2] Launches build script which installs the package onto the - filesystem - [3] Scans the filesystem once again - [4] Compares the differences in the before and after snapshots - [5] Copies the differences into a 'package root directory' and - runs makepkg over them. - - In slacktrack version 1, we used 'installwatch' which overloaded - some of glibc's filesystem calls, creating new files and directories - into a pseudo-root filesystem, avoiding the need to install onto - the host's filesystem (and also allowing to build as a non-root user). - However, this library is ill maintained and even in the early days - when it worked well, it still had problems and workarounds were required. - -4.0 Example scripts - --------------- - - Included with the slacktrack binary distribution are a number of example - scripts that hopefully should provide you with a basis of how to use slacktrack - to build from 'dirty' source distributions. - - The examples are bundled in the documentation directory available - after installing slacktrack: - - /usr/doc/slacktrack*/buildscript-examples/ - - -5.0 Known problems/features of slacktrack - ------------------------------------- - - Current problems: - - [1] slacktrack doesn't have sufficient error checking. - - I'm in two minds about *where* to put error checking, you see. - Do I go no further if the supplied build script exits with a non-zero - value? - No, that's a bad idea because what if you didn't write the build script? - it might be one of these qmail type binary installer programs that - you can't (easily without hacking the source) fix. The author may - have their own systems, and the program exits with a value that their - own controller script recognises as non-failure. - - What should I do if makepkg has failed? You see it on screen - and in the logs anyway, plus makepkg is one of the last things - that slacktrack calls -- how can you recover? - - That said, version 1.03 now has some error handling. There's still - not enough though, imo. - - [2] No support for a default config file - - I don't see the point. Each .build script is different - and although I typically use the same options to slacktrack - for most of my build scripts, I don't see why I'd need a - config file just to save 4 bytes or so in a trackbuild wrapper :-) - - -6.0 New features - ------------- - - See the TODO file in the docs directory. - - If you have any specific features you would like to see - included, or have found any bugs, please - email me - -7.0 Licence - ------- - - slacktrack is distributed under BSD Licence. -- cgit v1.2.3-65-gdbad