511 lines
19 KiB
Markdown
511 lines
19 KiB
Markdown
## The XBPS source packages collection
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This repository contains the XBPS source packages collection to build binary packages
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for the Void Linux distribution.
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The included `xbps-src` script will fetch and compile the sources, and install its
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files into a `fake destdir` to generate XBPS binary packages that can be installed
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or queried through the `xbps-install(1)` and `xbps-query(1)` utilities, respectively.
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See [Contributing](https://github.com/void-linux/void-packages/blob/master/CONTRIBUTING.md)
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for a general overview of how to contribute and the
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[Manual](https://github.com/void-linux/void-packages/blob/master/Manual.md)
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for details of how to create source packages.
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### Table of Contents
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- [Requirements](#requirements)
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- [Quick start](#quick-start)
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- [chroot methods](#chroot-methods)
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- [Install the bootstrap packages](#install-bootstrap)
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- [Configuration](#configuration)
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- [Directory hierarchy](#directory-hierarchy)
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- [Building packages](#building-packages)
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- [Package build options](#build-options)
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- [Sharing and signing your local repositories](#sharing-and-signing)
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- [Rebuilding and overwriting existing local packages](#rebuilding)
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- [Enabling distcc for distributed compilation](#distcc)
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- [Distfiles mirrors](#distfiles-mirrors)
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- [Cross compiling packages for a target architecture](#cross-compiling)
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- [Using xbps-src in a foreign Linux distribution](#foreign)
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- [Remaking the masterdir](#remaking-masterdir)
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- [Keeping your masterdir uptodate](#updating-masterdir)
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- [Building 32bit packages on x86_64](#building-32bit)
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- [Building packages natively for the musl C library](#building-for-musl)
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- [Building void base-system from scratch](#building-base-system)
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### Requirements
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- GNU bash
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- xbps >= 0.56
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- curl(1) - required by `xbps-src update-check`
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- flock(1) - util-linux
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- bsdtar or GNU tar (in that order of preference)
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- install(1) - GNU coreutils
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- objcopy(1), objdump(1), strip(1): binutils
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- other common POSIX utilities included by default in almost all UNIX systems.
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`xbps-src` requires a utility to chroot and bind mount existing directories
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into a `masterdir` that is used as its main `chroot` directory. `xbps-src` supports
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multiple utilities to accomplish this task:
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- `bwrap` - bubblewrap, see https://github.com/projectatomic/bubblewrap.
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- `ethereal` - only useful for one-shot containers, i.e docker (used with travis).
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- `xbps-uunshare(1)` - XBPS utility that uses `user_namespaces(7)` (part of xbps, default).
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- `xbps-uchroot(1)` - XBPS utility that uses `namespaces` and must be `setgid` (part of xbps).
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- `proot(1)` - utility that implements chroot/bind mounts in user space, see https://proot-me.github.io/.
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> NOTE: `xbps-src` does not allow building as root anymore. Use one of the chroot
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methods shown above.
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<a name="quick-start"></a>
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### Quick start
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Clone the `void-packages` git repository and install the bootstrap packages:
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```
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$ git clone git://github.com/void-linux/void-packages.git
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$ cd void-packages
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$ ./xbps-src binary-bootstrap
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```
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Build a package by specifying the `pkg` target and the package name:
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```
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$ ./xbps-src pkg <package_name>
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```
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Use `./xbps-src -h` to list all available targets and options.
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To build packages marked as 'restricted', modify `etc/conf`:
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```
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$ echo XBPS_ALLOW_RESTRICTED=yes >> etc/conf
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```
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Once built, the package will be available in `hostdir/binpkgs` or an appropriate subdirectory (e.g. `hostdir/binpkgs/nonfree`). To install the package:
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```
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# xbps-install --repository hostdir/binpkgs <package_name>
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```
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Alternatively, packages can be installed with the `xi` utility, from the `xtools` package. `xi` takes the repository of the current working directory into account.
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```
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# xi <package_name>
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```
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<a name="chroot-methods"></a>
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### chroot methods
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#### xbps-uunshare(1) (default)
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This utility requires these Linux kernel options:
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- CONFIG\_NAMESPACES
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- CONFIG\_IPC\_NS
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- CONFIG\_UTS\_NS
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- CONFIG\_USER\_NS
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This is the default method, and if your system does not support any of the required kernel
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options it will fail with `EINVAL (Invalid argument)`.
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#### xbps-uchroot(1)
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This utility requires these Linux kernel options:
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- CONFIG\_NAMESPACES
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- CONFIG\_IPC\_NS
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- CONFIG\_PID\_NS
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- CONFIG\_UTS\_NS
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Your user must be added to a special group to be able to use `xbps-uchroot(1)` and the
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executable must be `setgid`:
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# chown root:<group> xbps-uchroot
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# chmod 4750 xbps-uchroot
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# usermod -a -G <group> <user>
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> NOTE: by default in void you shouldn't do this manually, your user must be a member of
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the `xbuilder` group.
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To enable it:
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$ cd void-packages
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$ echo XBPS_CHROOT_CMD=uchroot >> etc/conf
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If for some reason it's erroring out as `ERROR clone (Operation not permitted)`, check that
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your user is a member of the required `group` and that `xbps-uchroot(1)` utility has the
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proper permissions and owner/group as explained above.
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#### proot(1)
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The `proot(1)` utility implements chroot and bind mounts support completely in user space,
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and can be used if your Linux kernel does not have support for namespaces. See https://proot-me.github.io/.
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for more information.
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To enable it:
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$ cd void-packages
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$ echo XBPS_CHROOT_CMD=proot >> etc/conf
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<a name="install-bootstrap"></a>
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### Install the bootstrap packages
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The `bootstrap` packages are a set of packages required to build any available source package in a container. There are two methods to install the `bootstrap`:
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- `bootstrap`: all bootstrap packages will be built from scratch; additional utilities are required in the
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host system to allow building the `base-chroot` package: binutils, gcc, perl, texinfo, etc.
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- `binary-bootstrap`: the bootstrap binary packages are downloaded via XBPS repositories.
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If you don't want to waste your time building everything from scratch probably it's better to use `binary-bootstrap`.
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### Configuration
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The `etc/defaults.conf` file contains the possible settings that can be overridden
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through the `etc/conf` configuration file for the `xbps-src` utility; if that file
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does not exist, will try to read configuration settings from `~/.xbps-src.conf`.
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If you want to customize default `CFLAGS`, `CXXFLAGS` and `LDFLAGS`, don't override
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those defined in `etc/defaults.conf`, set them on `etc/conf` instead i.e:
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$ echo 'XBPS_CFLAGS="your flags here"' >> etc/conf
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$ echo 'XBPS_LDFLAGS="your flags here"' >> etc/conf
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Native and cross compiler/linker flags are set per architecture in `common/build-profiles`
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and `common/cross-profiles` respectively. Ideally those settings are good enough by default,
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and there's no need to set your own unless you know what you are doing.
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#### Virtual packages
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The `etc/defaults.virtual` file contains the default replacements for virtual packages,
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used as dependencies in the source packages tree.
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If you want to customize those replacements, copy `etc/defaults.virtual` to `etc/virtual`
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and edit it accordingly to your needs.
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<a name="directory-hierarchy"></a>
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### Directory hierarchy
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The following directory hierarchy is used with a default configuration file:
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/void-packages
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|- common
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|- etc
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|- srcpkgs
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| |- xbps
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| |- template
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|- hostdir
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| |- binpkgs ...
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| |- ccache ...
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| |- distcc-<arch> ...
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| |- repocache ...
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| |- sources ...
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|- masterdir
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| |- builddir -> ...
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| |- destdir -> ...
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| |- host -> bind mounted from <hostdir>
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| |- void-packages -> bind mounted from <void-packages>
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The description of these directories is as follows:
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- `masterdir`: master directory to be used as rootfs to build/install packages.
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- `builddir`: to unpack package source tarballs and where packages are built.
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- `destdir`: to install packages, aka **fake destdir**.
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- `hostdir/ccache`: to store ccache data if the `XBPS_CCACHE` option is enabled.
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- `hostdir/distcc-<arch>`: to store distcc data if the `XBPS_DISTCC` option is enabled.
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- `hostdir/repocache`: to store binary packages from remote repositories.
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- `hostdir/sources`: to store package sources.
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- `hostdir/binpkgs`: local repository to store generated binary packages.
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<a name="building-packages"></a>
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### Building packages
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The simplest form of building package is accomplished by running the `pkg` target in `xbps-src`:
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```
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$ cd void-packages
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$ ./xbps-src pkg <pkgname>
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```
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When the package and its required dependencies are built, the binary packages will be created
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and registered in the default local repository at `hostdir/binpkgs`; the path to this local repository can be added to
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any xbps configuration file (see xbps.d(5)) or by explicitly appending them via cmdline, i.e:
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$ xbps-install --repository=hostdir/binpkgs ...
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$ xbps-query --repository=hostdir/binpkgs ...
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By default **xbps-src** will try to resolve package dependencies in this order:
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- If a dependency exists in the local repository, use it (`hostdir/binpkgs`).
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- If a dependency exists in a remote repository, use it.
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- If a dependency exists in a source package, use it.
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It is possible to avoid using remote repositories completely by using the `-N` flag.
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> The default local repository may contain multiple *sub-repositories*: `debug`, `multilib`, etc.
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<a name="build-options"></a>
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### Package build options
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The supported build options for a source package can be shown with `xbps-src show-options`:
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$ ./xbps-src show-options foo
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Build options can be enabled with the `-o` flag of `xbps-src`:
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$ ./xbps-src -o option,option1 pkg foo
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Build options can be disabled by prefixing them with `~`:
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$ ./xbps-src -o ~option,~option1 pkg foo
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Both ways can be used together to enable and/or disable multiple options
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at the same time with `xbps-src`:
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$ ./xbps-src -o option,~option1,~option2 pkg foo
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The build options can also be shown for binary packages via `xbps-query(1)`:
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$ xbps-query -R --property=build-options foo
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> NOTE: if you build a package with a custom option, and that package is available
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in an official void repository, an update will ignore those options. Put that package
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on `hold` mode via `xbps-pkgdb(1)`, i.e `xbps-pkgdb -m hold foo` to ignore updates
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with `xbps-install -u`. Once the package is on `hold`, the only way to update it
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is by declaring it explicitly: `xbps-install -u foo`.
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Permanent global package build options can be set via `XBPS_PKG_OPTIONS` variable in the
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`etc/conf` configuration file. Per package build options can be set via
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`XBPS_PKG_OPTIONS_<pkgname>`.
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> NOTE: if `pkgname` contains `dashes`, those should be replaced by `underscores`
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i.e `XBPS_PKG_OPTIONS_xorg_server=opt`.
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The list of supported package build options and its description is defined in the
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`common/options.description` file or in the `template` file.
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<a href="sharing-and-signing"></a>
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### Sharing and signing your local repositories
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To share a local repository remotely it's mandatory to sign it and the binary packages
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stored on it. This is accomplished with the `xbps-rindex(1)` utility.
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First a RSA key must be created with `openssl(1)` or `ssh-keygen(1)`:
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$ openssl genrsa -des3 -out privkey.pem 4096
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or
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$ ssh-keygen -t rsa -b 4096 -m PEM -f privkey.pem
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> Only RSA keys in PEM format are currently accepted by xbps.
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Once the RSA private key is ready you can use it to initialize the repository metadata:
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$ xbps-rindex --sign --signedby "I'm Groot" --privkey privkey.pem $PWD/hostdir/binpkgs
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And then make a signature per package:
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$ xbps-rindex --sign-pkg --privkey privkey.pem $PWD/hostdir/binpkgs/*.xbps
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> If --privkey is unset, it defaults to `~/.ssh/id_rsa`.
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If the RSA key was protected with a passphrase you'll have to type it, or alternatively set
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it via the `XBPS_PASSPHRASE` environment variable.
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Once the binary packages have been signed, check the repository contains the appropriate `hex fingerprint`:
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$ xbps-query --repository=hostdir/binpkgs -vL
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...
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Each time a binary package is created, a package signature must be created with `--sign-pkg`.
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> It is not possible to sign a repository with multiple RSA keys.
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<a name="rebuilding"></a>
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### Rebuilding and overwriting existing local packages
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If for whatever reason a package has been built and it is available in your local repository
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and you have to rebuild it without bumping its `version` or `revision` fields, it is possible
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to accomplish this task easily with `xbps-src`:
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$ ./xbps-src -f pkg xbps
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Reinstalling this package in your target `rootdir` can be easily done too:
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$ xbps-install --repository=/path/to/local/repo -yff xbps-0.25_1
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> Please note that the `package expression` must be properly defined to explicitly pick up
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the package from the desired repository.
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<a name="distcc"></a>
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### Enabling distcc for distributed compilation
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Setup the slaves (machines that will compile the code):
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# xbps-install -Sy distcc
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Modify the configuration to allow your local network machines to use distcc (e.g. `192.168.2.0/24`):
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# echo "192.168.2.0/24" >> /etc/distcc/clients.allow
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Enable and start the `distccd` service:
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# ln -s /etc/sv/distccd /var/service
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Install distcc on the host (machine that executes xbps-src) as well.
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Unless you want to use the host as slave from other machines, there is no need
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to modify the configuration.
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On the host you can now enable distcc in the `void-packages/etc/conf` file:
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XBPS_DISTCC=yes
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XBPS_DISTCC_HOSTS="localhost/2 --localslots_cpp=24 192.168.2.101/9 192.168.2.102/2"
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XBPS_MAKEJOBS=16
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The example values assume a localhost CPU with 4 cores of which at most 2 are used for compiler jobs.
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The number of slots for preprocessor jobs is set to 24 in order to have enough preprocessed data for other CPUs to compile.
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The slave 192.168.2.101 has a CPU with 8 cores and the /9 for the number of jobs is a saturating choice.
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The slave 192.168.2.102 is set to run at most 2 compile jobs to keep its load low, even if its CPU has 4 cores.
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The XBPS_MAKEJOBS setting is increased to 16 to account for the possible parallelism (2 + 9 + 2 + some slack).
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<a name="distfiles-mirrors"></a>
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### Distfiles mirror(s)
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In etc/conf you may optionally define a mirror or a list of mirrors to search for distfiles.
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$ echo 'XBPS_DISTFILES_MIRROR="ftp://192.168.100.5/gentoo/distfiles"' >> etc/conf
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If more than one mirror is to be searched, you can either specify multiple URLs separated
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with blanks, or add to the variable like this
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$ echo 'XBPS_DISTFILES_MIRROR+=" http://repo.voidlinux.de/distfiles"' >> etc/conf
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Make sure to put the blank after the first double quote in this case.
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The mirrors are searched in order for the distfiles to build a package until the
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checksum of the downloaded file matches the one specified in the template.
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Ultimately, if no mirror carries the distfile, or in case all downloads failed the
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checksum verification, the original download location is used.
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If you use `proot` or `uchroot` for your XBPS_CHROOT_CMD, you may also specify a local path
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using the `file://` prefix or simply an absolute path on your build host (e.g. /mnt/distfiles).
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Mirror locations specified this way are bind mounted inside the chroot environment
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under $XBPS_MASTERDIR and searched for distfiles just the same as remote locations.
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<a name="cross-compiling"></a>
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### Cross compiling packages for a target architecture
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Currently `xbps-src` can cross build packages for some target architectures with a cross compiler.
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The supported target is shown with `./xbps-src -h`.
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If a source package has been adapted to be **cross buildable** `xbps-src` will automatically build the binary package(s) with a simple command:
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$ ./xbps-src -a <target> pkg <pkgname>
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If the build for whatever reason fails, might be a new build issue or simply because it hasn't been adapted to be **cross compiled**.
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<a name="foreign"></a>
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### Using xbps-src in a foreign Linux distribution
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xbps-src can be used in any recent Linux distribution matching the CPU architecture.
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To use xbps-src in your Linux distribution use the following instructions. Let's start downloading the xbps static binaries:
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$ wget http://alpha.de.repo.voidlinux.org/static/xbps-static-latest.<arch>-musl.tar.xz
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$ mkdir ~/XBPS
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$ tar xvf xbps-static-latest.<arch>.tar.xz -C ~/XBPS
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$ export PATH=~/XBPS/usr/bin:$PATH
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If your system does not support `user namespaces`, a privileged group is required to be able to use
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`xbps-uchroot(1)` with xbps-src, by default it's set to the `xbuilder` group, change this to your desired group:
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# chown root:<group> ~/XBPS/usr/bin/xbps-uchroot.static
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# chmod 4750 ~/XBPS/usr/bin/xbps-uchroot.static
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Clone the `void-packages` git repository:
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$ git clone git://github.com/void-linux/void-packages
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and `xbps-src` should be fully functional; just start the `bootstrap` process, i.e:
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$ ./xbps-src binary-bootstrap
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The default masterdir is created in the current working directory, i.e `void-packages/masterdir`.
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<a name="remaking-masterdir"></a>
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### Remaking the masterdir
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If for some reason you must update xbps-src and the `bootstrap-update` target is not enough, it's possible to recreate a masterdir with two simple commands (please note that `zap` keeps your `ccache/distcc/host` directories intact):
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$ ./xbps-src zap
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$ ./xbps-src binary-bootstrap
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<a name="updating-masterdir"></a>
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### Keeping your masterdir uptodate
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Sometimes the bootstrap packages must be updated to the latest available version in repositories, this is accomplished with the `bootstrap-update` target:
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$ ./xbps-src bootstrap-update
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<a name="building-32bit"></a>
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### Building 32bit packages on x86_64
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Two ways are available to build 32bit packages on x86\_64:
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- cross compilation mode
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- native mode with a 32bit masterdir
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The first mode (cross compilation) is as easy as:
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$ ./xbps-src -a i686 pkg ...
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The second mode (native) needs a new x86 `masterdir`:
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$ ./xbps-src -m masterdir-x86 binary-bootstrap i686
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$ ./xbps-src -m masterdir-x86 ...
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<a name="building-for-musl"></a>
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### Building packages natively for the musl C library
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A native build environment is required to be able to cross compile the bootstrap packages for the musl C library; this is accomplished by installing them via `binary-bootstrap`:
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$ ./xbps-src binary-bootstrap
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Now cross compile `base-chroot-musl` for your native architecture:
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$ ./xbps-src -a x86_64-musl pkg base-chroot-musl
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Wait until all packages are built and when ready, prepare a new masterdir with the musl packages:
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$ ./xbps-src -m masterdir-x86_64-musl binary-bootstrap x86_64-musl
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Your new masterdir is now ready to build packages natively for the musl C library. Try:
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$ ./xbps-src -m masterdir-x86_64-musl chroot
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$ ldd
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To see if the musl C dynamic linker is working as expected.
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<a name="building-base-system"></a>
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### Building void base-system from scratch
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To rebuild all packages in `base-system` for your native architecture:
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$ ./xbps-src -N pkg base-system
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It's also possible to cross compile everything from scratch:
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$ ./xbps-src -a <target> -N pkg base-system
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Once the build has finished, you can specify the path to the local repository to `void-mklive`, i.e:
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# cd void-mklive
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# make
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# ./mklive.sh ... -r /path/to/hostdir/binpkgs
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