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The KISS package manager is a self-contained POSIX shell script which is written in a highly portable way. The entire utility comes in at under 1000 lines of code (excluding blank lines/comments of which there are many).
The package manager is merely an implementation of the package format, its requirements and some added sugar on top.
Source:
https://github.com/kisslinux/kiss
$ kiss -> kiss [a|b|c|d|i|l|r|s|u|v] [pkg]... -> alternatives List and swap to alternatives -> build Build a package -> checksum Generate checksums -> download Pre-download all sources -> install Install a package -> list List installed packages -> remove Remove a package -> search Search for a package -> update Update the system -> version Package manager version
POSIX utilities are used where appropriate _and_ where they exist to solve a particular problem. Utilities of which there is only a single and cross-platform implementation are considered "portable" (git, curl, etc)
If a dependency can be made optional, it will be made so. Dependencies are also kept to a minimum (though we must also remain realistic).
+------------------+---------------------------------+----------+ | Dependency | Reason for use | Required | +------------------+---------------------------------+----------| | POSIX utilities | Used throughout | Yes | | git | Remote repositories and | Yes [1] | | | package git sources | | | curl | Source downloads | Yes | | gpg1 or gpg2 | Repository signing | No | | sha256sum | Checksums | Yes [2] | | tar | Sources, packages, etc | Yes [3] | | unzip | Zip sources (very rare) | No | | | | | | | | | |------------------+---------------------------------+----------| | Compression | | | |------------------+---------------------------------+----------| | gzip, bzip2, xz | Tarball compression | Yes [4] | | zstd, lzma, lzip | Tarball compression | No | | | | | | | | | |------------------+---------------------------------+----------| | Privileges | | | |------------------+---------------------------------+----------| | su | sudo | doas | Privilege escalation | No [5] | | | | | | | | | |------------------+---------------------------------+----------| | Binutils | | | |------------------+---------------------------------+----------| | ldd | Dependency Fixer | No [6] | | strip | Binary Stripping | No [6] | | | | | +------------------+---------------------------------+----------+
Our usage of tar is merely, cf, xf and tf. A patch is applied to sbase's tar so that it supports "dashless" arguments (as all others do). Our usage of tar cannot become any more basic than it is now. Portability should no longer be a concern.
Tested tar implementations include: busybox, toybox, sbase, GNU and libarchive (though all tar implementations should work in theory).
The other compression methods are optional as no package sources (in the official repositories) make use of them.
If a compression method has 1-3 uses (hasn't yet happened), the compression method will simply become a 'make' dependency of the package until usage increases to a "normality".
Installation to a user-writable directory does not require root access.
Root usage of the package manager (chroot usage for example) does not require these utilities.
Regarding 'strip'; It has a POSIX specification, though the spec doesn't contain any arguments whatsoever.
This makes our usage of 'strip' non-POSIX. That being said, our usage is compatible with these 'strip' implementations.
strips: binutils, elfutils, elftoolchain, llvm, etc.
Dynamic dependencies brought in by build systems (which are missing from the package's dependency list) are fixed on-the-fly by checking which libraries link to the package's files.
This prevents an incomplete dependency list from causing system breakage as the package manager is able to complete the list.
A lot of packages make use of this "implicit" to "explicit" dependency list "conversion" to provide optional dependencies.
Example output:
-> libXmu Checking for missing dependencies --- /home/dylan/conf/cache/kiss/build-4477/d depends @@ -1,3 +1,8 @@ +libX11 +libXau libXext libXt +libxcb xorg-util-macros make
Any file conflicts between two packages automatically become choices in the alternatives system.
This allows one to swap providers of files without needing to explicitly tell the package manager that two packages conflict, provide the same utilities, etc.
In other words, no changes need to be made to packages. In fact, nothing needs to be done at all. It's entirely automatic.
List available alternatives ('a' is an alias to 'alternatives'):
$ kiss a gnugrep /usr/bin/grep ncurses /usr/bin/clear
Swap to GNU grep:
$ kiss a gnugrep /usr/bin/grep -> Swapping '/usr/bin/grep' from busybox to gnugrep
Swap back to busybox grep:
$ kiss a busybox /usr/bin/grep -> Swapping '/usr/bin/grep' from gnugrep to busybox
Swap to all alternatives for a given package (sbase for example):
$ kiss a | grep ^sbase | kiss a - -> Swapping '/usr/bin/cat' from busybox to sbase -> Swapping '/usr/bin/cut' from busybox to sbase -> Swapping '/usr/bin/yes' from busybox to sbase ...Many more lines of output...
The above command works as the output of the alternatives listing is directly usable as input to 'kiss a'.
Files in /etc/ are handled differently to those elsewhere on the system. A reinstallation or update to a package will not always overwrite these files.
Instead, a 3-way handshake happens during installation to determine how the new /etc/ file should be handled.
If the user has made modifications to the file and those modifications differ to the to-be-installed package's file, the file is installed with the suffix '.new'
If the user hasn't touched the file, it will be automatically overwritten by the package manager as it will contain updated/new contents..
If the user has touched the file but the file has not changed between package versions, it will simply be skipped over.
Example (with sha256 checksums truncated to fit).
-> opendoas Doing 3-way handshake for etc/doas.conf Previous: 1656eee66c235cb717f9f8f35aa9c3587bb768d7fe etc/doas.conf System: 4a51871b3190fa74726ea2b12ffafb96f40c172b68 etc/doas.conf New: 1656eee66c235cb717f9f8f35aa9c3587bb768d7fe etc/doas.conf -> Skipping etc/doas.conf
The package manager has no configuration files and no changes need to be made to the system prior to its use. While there is no configuration file, this does not mean that there is no possibility for configuration.
The package manager can be configured via the use of environment variables. I believe this to be the best configuration method (where realistic). Environment variables can be set system-wide, per-user, conditionally, for a single invocation, etc, etc.
They require little to no extra code in the package manager to support them.
+-----------------+------------------------------------------------------------+ | Variable | Description | +-----------------+------------------------------------------------------------+ | | | | KISS_PATH | List of repositories. This works exactly like '$PATH' | | | (a colon separated list of paths). | | | | | KISS_FORCE | Force installation/removal of package by bypassing | | | dependency checks, etc. Set to '1' to enable. | | | | | KISS_CHOICE | Set to '0' to disable the alternatives system and error on | | | any detected file conflicts. | | | | | KISS_HOOK | Hook into the package manager. Set to the full path to the | | | script. See @/wiki/kiss/package-manager-hooks | | | | | KISS_ROOT | Where installed packages will go. Can be used to install | | | packages to somewhere other than '/'. | | | | | KISS_COLOR | Enable/Disable colors. Set to '0' to disable colors. | | | | | KISS_PROMPT | Skip all prompts. Set to '0' to say 'yes' to all prompts | | | from the package manager. | | | | | KISS_COMPRESS | Compression method to use for built package tarballs | | | (defaults to 'gz'). Valid: bz2, gz, lzma, lz, xz, zst | | | | | KISS_SU | Force usage of a different sudo tool. | | | Valid: su, sudo, doas | | | | | KISS_STRIP | Enable/Disable package stripping globally. | | | Set to '0' to disable. | | | | | KISS_DEBUG | Keep temporary directories around for debugging purposes. | | | Set to '1' to enable. | | | | | KISS_KEEPLOG | Keep build logs around for successful builds and not just | | | failing ones. Set to '1' to enable. | | | | | KISS_TMPDIR | Temporary directory for builds. Can be set to a tmpfs so | | | builds happen in memory. | | | | | KISS_PID | Use a reproducible cache naming scheme instead of | | | build-$pid. If set to test, the result will be build-test. | | | | +-----------------+------------------------------------------------------------+
There are also a myriad of "3rd-party" environment variables which control GCC, Make, CMake, etc. These aren't used by the package manager. They're used by the tools called by the package's build script.
+-----------------+------------------------------------------------------------+ | Variable | Description | +-----------------+------------------------------------------------------------+ | XDG_CACHE_HOME | Cache directory location. | | | | | CC | C compiler. | | CXX | C++ compiler. | | AR | Archive tool. | | NM | Symbol tool. | | RANLIB | Index tool. | | | | | CFLAGS | C compiler flags. | | CXXFLAGS | C++ compiler flags. | | LDFLAGS | Linker flags. | | MAKEFLAGS | Make flags. | | SAMUFLAGS | Samurai flags. | | RUSTFLAGS | Rust compiler flags. | | | | | CMAKE_GENERATOR | 'Unix Makefiles' or 'Ninja'. | | | | +-----------------+------------------------------------------------------------+
Repository management in KISS is very simple. Repositories are configurable via an environment variable. This environment variable can be set system-wide, per-user, conditionally (via a script or program), for a single invocation, etc.
The environment variable is called '$KISS_PATH' and is functionally identical to the '$PATH' variable. A colon separated list of paths in other words.
Example KISS_PATH
$ KISS_PATH=/var/db/kiss/repo/core:/var/db/kiss/repo/extra
In the above example, two repositories are enabled (Core and Extra). The package manager will search this list for packages in the order it is written.
Repositories can live anywhere on the system. In your '$HOME' directory, somewhere system-wide in '/', etc. The only requirement is that a full path be used.
A KISS repository is simply a directory of directories. The quickest way to get started is as follows.
$ mkdir -p repo $ cd repo
$ kiss fork curl $ kiss fork xz $ kiss fork zlib
This is now a fully usable repository and it can be added to your KISS_PATH.
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Let's assume that our KISS_PATH matches the above example (Core and Extra). As an example, we'll be enabling the Community repository.
# This can live anywhere on the system. $ git clone https://github.com/kisslinux/community
$ export KISS_PATH=$KISS_PATH:/path/to/community/community
Preventing a package from receiving updates can be accomplished in a myriad of different ways. The easiest method is to leverage a user repository.
$ mkdir -p no_updates $ cd no_updates
$ cp -r /var/db/kiss/installed/PKG_NAME /path/to/no_updates
$ export KISS_PATH=/path/to/no_updates:$KISS_PATH
The package manager will search KISS_PATH in order. It will see that the no_updates repository provides PKG_NAME and the version matches that which is installed. No updates will again happen for the package.
If you would like to package something in your own repository but would like the package manager to prefer other repositories before yours, simply add your repository to the end of KISS_PATH.
The moment that your package is available elsewhere, the package manager will prefer the new location to yours. The list is searched (in order) and the first match is picked.
There is a special case where one can bypass the regular KISS_PATH for a single invocation of the package manager. This has been called "CRUX-like usage" by users.
$ cd /path/to/myrepo/firefox $ kiss b $ kiss i
As seen above, various package manager commands will work without arguments, so long as you are in a package's repository directory. This will prepend the current directory to '$KISS_PATH' _only_ for this invocation.
KISS' package manager is extensible via hooks which fire at various different places inside the utility. Hooks allow the user to modify behavior, add new features or conditionally do things on a per-package basis.
This setting is controlled by the '$KISS_HOOK' environment variable which takes the full path to a POSIX shell script as its value.
Example:
export KISS_HOOK=$HOME/.local/bin/kiss-hook
The script is sourced at each hook and is given three variables as input. POSIX shell does not allow sourced scripts to receive arguments, these variables are instead defined via the script's environment.
Valid values for '$TYPE' include:
As the hook script is sourced (instead of being executed in its own shell), the script has the ability to override package manager internals and the package manager's environment.
Packages can contain files which you will have no use for. A simple hook can be defined to remove them from packages.
NOTE: This is the default 'KISS_HOOK' script. If defining your own, be sure to include this if you would like to continue to remove these files.
case $TYPE in post-build) # Ensure that '$DEST' is set. : "${DEST:?DEST is unset}" rm -rf "$DEST/usr/share/gettext" \ "$DEST/usr/share/polkit-1" \ "$DEST/usr/share/locale" \ "$DEST/usr/share/info" \ "$DEST/usr/lib/charset.alias" ;; esac
This hook runs on pre-extract and conditionally runs the source extraction, package build process and resulting tarball creation in memory. The benefit of this is a nice speedup throughout (especially when used alongside ccache [0]).
NOTE: '/tmp' must be mounted as 'tmpfs' for this to work.
case $TYPE in pre-extract) case $PKG in # Run everything on disk for these memory hungry packages. firefox|firefox-esr|rust|llvm|clang) mak_dir=$KISS_TMPDIR/build-$pid pkg_dir=$KISS_TMPDIR/pkg-$pid ; *) log "$PKG" "Activating tmpfs" mak_dir=/tmp/build-$pid pkg_dir=/tmp/pkg-$pid ;; esac mkdir -p "$mak_dir" "$pkg_dir/$PKG/var/db/kiss/installed" ;; esac
This hook adds a new message post-build with the total build duration in a human readable format (00h 00m). Similar code is used in the boot process of the system to calculate boot time.
case $TYPE in pre-build) IFS=. read -r _start _ < /proc/uptime ;; post-build) IFS=. read -r _end _ < /proc/uptime ( _s=$((_end - _start)) _h=$((_s / 60 / 60 % 24)) _m=$((_s / 60 % 60)) [ "$_h" = 0 ] || _u="${_u}${_h}h " [ "$_m" = 0 ] || _u="${_u}${_m}m " log "$PKG" "Build finished in ${_u:-${_s}s}" ) ;; esac
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Anything in the user's '$PATH' which matches the glob 'kiss-*' will be directly usable via the package manager. For example, 'kiss-size' is also usable as 'kiss size' (and even 'kiss si') (the shortest available alias).
The detected 'kiss-*' utilities will appear in the package manager's help output with the second line in the script acting as a doc-string.
Example help output:
$ kiss extensions -> Installed extensions (kiss-* in $PATH) -> chbuild Create/destroy temporary chroots -> chroot Enter a kiss chroot -> depends Display a package's dependencies -> export Installed package to tarball -> fork Fork a package into the current dir -> help Read KISS documentation -> link Link a repo file to another repo -> maintainer Find the maintainer of a package -> manifest Display all files owned by a package -> new Create a boilerplate package -> orphans List orphaned packages -> outdated Check repository packages for updates -> owns Check which package owns a file -> reset Remove all packages but base -> revdepends Packages which depend on package -> size Show the size on disk for a package
These are in effect, optional utilities which interact with the package system in one way or another. My hope behind them is to act as an example as to how easy it is to interface with the plain-text and "static" package system.
Example utility, "kiss-depends" (will be invocable as "kiss depends" or "kiss de"):
#!/bin/sh -ef # Display a package's dependencies # Ignore shellcheck as we want the warning's behavior. # shellcheck disable=2015 [ "$1" ] && kiss l "${1:-null}" >/dev/null || { printf 'usage: kiss-depends [pkg]\n' exit 1 } cat "$KISS_ROOT/var/db/kiss/installed/$1/depends" 2>/dev/null
A lot of the package manager's features are hard to discover or otherwise non-obvious to its users. This section will document these features, how to use them and the benefits they bring.
The default grep implementation in KISS is busybox grep. This version of grep works very well and supports a large number of features. The one issue is that it is painfully slow when compared to other popular implementations.
A fairly major speedup can be attained by swapping to a different grep via the alternatives system. The fastest grep implementation around is GNU grep which is available in Community as 'gnugrep'.
Install GNU grep:
$ kiss b gnugrep && kiss i gnugrep
Swap to GNU grep:
$ kiss a gnugrep /usr/bin/grep