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Build Instructions
------------------
* Requirements
------------
- A POSIX-compliant C development environment
- GNU make version 3.81 or later
- skalibs version 2.14.3.0 or later: https://skarnet.org/software/skalibs/
This software will run on any operating system that implements
POSIX.1-2008, available at:
https://pubs.opengroup.org/onlinepubs/9699919799/
* Standard usage
--------------
./configure && make && sudo make install
will work for most users.
It will install the binaries in /bin.
You can strip the binaries of their extra symbols via "make strip"
before the "make install" phase. It will shave a few bytes off them.
* Customization
-------------
You can customize paths via flags given to configure.
See ./configure --help for a list of all available configure options.
* Environment variables
---------------------
Controlling a build process via environment variables is a big and
dangerous hammer. You should try and pass flags to configure instead;
nevertheless, a few standard environment variables are recognized.
If the CC environment variable is set, its value will override compiler
detection by configure. The --host=HOST option will still add a HOST-
prefix to the value of CC.
The values of CFLAGS, CPPFLAGS and LDFLAGS will be appended to flags
auto-detected by configure. To entirely override the flags set by
configure instead, use make variables.
* Make variables
--------------
You can invoke make with a few variables for more configuration.
CC, CFLAGS, CPPFLAGS, LDFLAGS, LDLIBS, AR, RANLIB, STRIP, INSTALL and
CROSS_COMPILE can all be overridden on the make command line. This is
an even bigger hammer than running ./configure with environment
variables, so it is advised to only do this when it is the only way of
obtaining the behaviour you want.
DESTDIR can be given on the "make install" command line in order to
install to a staging directory.
* Static binaries
---------------
By default, binaries are linked against static versions of all the
libraries they depend on, except for the libc. You can enforce
linking against the static libc with --enable-static-libc.
(If you are using a GNU/Linux system, be aware that the GNU libc
behaves badly with static linking and produces huge executables,
which is why it is not the default. Other libcs are better suited
to static linking, for instance musl: http://musl-libc.org/)
* Cross-compilation
-----------------
skarnet.org packages centralize all the difficulty of
cross-compilation in one place: skalibs. Once you have
cross-compiled skalibs, the rest is easy.
* Use the --host=HOST option to configure, HOST being the triplet
for your target.
* Make sure your cross-toolchain binaries (i.e. prefixed with HOST-)
are accessible via your PATH environment variable.
* Make sure to use the correct version of skalibs for your target,
and the correct sysdeps directory, making use of the
--with-include, --with-lib, --with-dynlib and --with-sysdeps
options as necessary.
* The slashpackage convention
---------------------------
The slashpackage convention (http://cr.yp.to/slashpackage.html)
is a package installation scheme that provides a few guarantees
over other conventions such as the FHS, for instance fixed
absolute pathnames. skarnet.org packages support it: use the
--enable-slashpackage option to configure, or
--enable-slashpackage=DIR for a prefixed DIR/package tree.
This option will activate slashpackage support during the build
and set slashpackage-compatible installation directories.
If $package_home is the home of the package, defined as
DIR/package/$category/$package-$version with the variables
read from the package/info file, then:
--dynlibdir is set to $package_home/library.so
--bindir is set to $package_home/command
--sbindir is also set to $package_home/command (slashpackage
differentiates root-only binaries by their Unix rights, not their
location in the filesystem)
--libexecdir is also set to $package_home/command (slashpackage
does not need a specific directory for internal binaries)
--libdir is set to $package_home/library
--includedir is set to $package_home/include
--prefix is pretty much ignored when you use --enable-slashpackage.
You should probably not use both --enable-slashpackage and --prefix.
When using slashpackage, two additional Makefile targets are
available after "make install":
- "make update" changes the default version of the software to the
freshly installed one. (This is useful when you have several installed
versions of the same software, which slashpackage supports.)
- "make -L global-links" adds links from /command and /library.so to the
default version of the binaries and shared libraries. The "-L" option to
make is necessary because targets are symbolic links, and the default make
behaviour is to check the pointed file's timestamp and not the symlink's
timestamp.
* Absolute pathnames
------------------
You may want to use fixed absolute pathnames even if you're not
following the slashpackage convention: for instance, the Nix packaging
system prefers calling binaries with immutable paths rather than rely on
PATH resolution. If you are in that case, use the --enable-absolute-paths
option to configure. This will ensure that programs calling binaries from
this package will call them with their full installation path (in bindir)
without relying on a PATH search.
* Out-of-tree builds
------------------
skarnet.org packages do not support out-of-tree builds. They
are small, so it does not cost much to duplicate the entire
source tree if parallel builds are needed.
* Multicall binary
----------------
Starting with version 2.3.0.0, the s6-portable-utils package comes
with an alternative build in the form of a multicall binary, simply
called "s6-portable-utils", that includes the functionality of *all*
the other binaries; it switches functionalities depending on the name
it is called with, or the subcommand it is given:
"s6-portable-utils s6-seq 1 10" will print the natural numbers from
1 to 10, same as "s6-seq 1 10" if s6-seq is a link to the
s6-portable-utils program.
To use this, use the --enable-multicall option to configure. Only
the s6-portable-utils binary will be built, and other programs will be
created as symbolic links to s6-portable-utils at installation time.
The multicall setup saves a lot of disk space, at the price of
an unnoticeable amount of CPU usage. RAM usage is about equivalent
and difficult to assess. The setup is meant for embedded devices
or small distributions with a focus on saving disk space.
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