---
blurb: |
rra-c-util is my collection of portability functions, utility functions,
Autoconf macros, and related shared C infrastructure, akin to gnulib but
without any GPL-covered code and additional support for Kerberos and PAM
development. It serves as a common repository of code and infrastructure
used across multiple projects so that files have a canonical latest
version. It's not intended for installation as a regular package;
instead, other packages are expected to copy files from here as needed.
build:
autoconf: '2.64'
automake: '1.11'
autotools: true
manpages: true
copyrights:
- holder: Russ Allbery <eagle@eyrie.org>
years: 2000, 2009-2010, 2013-2016
- holder: The Board of Trustees of the Leland Stanford Junior University
years: 2009-2014
description: |
The origins of this package are in the libinn utility library in INN.
Some of the utility and portability functions here are directly inspired
by or based on versions in older versions of INN, and I wrote and rewrote
considerable additional portability code and utility libraries when I took
over INN maintenance. When I started maintaining other C packages, I
started copying pieces of libinn into those packages and merging it with
other portability and utility code. Over time, each package gained a
slightly different version of various utility functions, replacements for
missing functions, and Autoconf macros.
The goal of this package is to merge all the various versions of any
portability or utility code that's used in more than one of my packages in
one place. Then, each package can update to the latest rra-c-util version
before each release and gain from the improvements made for all other
packages. You can think of it as my version of
[Gnulib](https://www.gnu.org/software/gnulib/), with everything released
under a permissive license (no GPL).
As well as C portability frameworks, Autoconf macros, and a general C
utility library, this package has also accumulated a considerable
collection of standard tests (for C and Perl packages) and a large library
of test utilities and support functions. It also includes extensive
support for writing and testing PAM modules, and a portable implementation
of AFS PAGs.
This package uses the infrastructure of C TAP Harness for testing, but is
not the canonical version of `tests/runtests.c`, `tests/tap/basic.[ch]`,
`tests/tap/macros.h`, or `tests/tap/libtap.sh`. Those files should be
pulled from [C TAP
Harness](https://www.eyrie.org/~eagle/software/c-tap-harness/) instead.
distribution:
section: devel
tarname: rra-c-util
version: rra-c-util
docs:
api:
- name: xmalloc
title: xmalloc, xcalloc, and xrealloc
extra:
- links:
- name: module-version
title: tests/perl/module-version-t
- name: module-version-perl
title: t/style/module-version.t
title: Test scripts
user:
- name: fakepam
title: PAM testing
- name: test-rra
title: Test::RRA
- name: test-rra-automake
title: Test::RRA::Automake
- name: test-rra-config
title: Test::RRA::Config
- name: test-rra-moduleversion
title: Test::RRA::ModuleVersion
format: v1
license:
name: Expat
maintainer: Russ Allbery <eagle@eyrie.org>
name: rra-c-util
quote:
author: Phil Greenspun
text: |
Greenspun's Tenth Rule of Programming: any sufficiently complicated C or
Fortran program contains an ad hoc informally-specified bug-ridden slow
implementation of half of Common Lisp.
requirements: |
Everything requires a C compiler to build and expects an ISO C89 or later
C compiler and libraries. Presence of strdup is also assumed, which is
guaranteed by POSIX 2008 but common in many earlier C libraries as well.
Otherwise, the files are meant to be copied into packages and the
requirements depend on which files one copies.
A Kerberos library, either MIT Kerberos or Heimdal, is required to build
this package as-is, since the Kerberos portability layer is built and
tested by default. The other code will run fine without this requirement
when copied into other packages.
PAM libraries and headers are required to build the package as-is, since
the PAM supporting library is built and tested by default. Other code can
be copied from this package without introducing a PAM dependency.
To build the the kafs portability layer, one of Linux, Mac OS X, Solaris
11, the kafs library that comes with either Heimdal or KTH Kerberos, the
kopenafs library that comes with newer OpenAFS, AFS header files (on any
other platform besides AIX or IRIX), or AFS libraries (on AIX and IRIX) is
required. AIX binaries with AFS PAG support may not run on AIX systems
that do not have an AFS client installed due to how AIX handles system
calls.
To run the full test suite, and to use the Perl test support libraries,
Perl 5.6.2 or later is required. The following additional Perl modules
will be used if present:
* IPC::System::Simple
* Test::MinimumVersion
* Test::Perl::Critic
* Test::Pod
* Test::Spelling
* Test::Strict
All are available on CPAN. Those tests will be skipped if the modules are
not available.
sections:
- body: |
You can build rra-c-util with:
```
./configure
make
```
Pass `--enable-kafs` to configure to attempt to build kafs support, which
will use either an existing libkafs or libkopenafs library or build the
kafs replacement included in this package. You can also add
`--without-libkafs` to force the use of the internal kafs replacement.
Pass `--enable-silent-rules` to configure for a quieter build (similar to
the Linux kernel). Use `make warnings` instead of make to build with full
GCC compiler warnings (requires a relatively current version of GCC).
Normally, configure will use `krb5-config` to determine the flags to use
to compile with your Kerberos libraries. If `krb5-config` isn't found, it
will look for the standard Kerberos libraries in locations already
searched by your compiler. If the the `krb5-config` script first in your
path is not the one corresponding to the Kerberos libraries you want to
use or if your Kerberos libraries and includes aren't in a location
searched by default by your compiler, you need to specify a different
Kerberos installation root via `--with-krb5=PATH`. For example:
```
./configure --with-krb5=/usr/pubsw
```
You can also individually set the paths to the include directory and the
library directory with `--with-krb5-include` and `--with-krb5-lib`. You
may need to do this if Autoconf can't figure out whether to use `lib`,
`lib32`, or `lib64` on your platform.
To specify a particular `krb5-config` script to use, either set the
`PATH_KRB5_CONFIG` environment variable or pass it to configure like:
```
./configure PATH_KRB5_CONFIG=/path/to/krb5-config
```
To not use `krb5-config` and force library probing even if there is a
`krb5-config` script on your path, set `PATH_KRB5_CONFIG` to a nonexistent
path:
```
./configure PATH_KRB5_CONFIG=/nonexistent
```
`krb5-config` is not used and library probing is always done if either
`--with-krb5-include` or `--with-krb5-lib` are given.
GSS-API libraries are found the same way: with `krb5-config` by default if
it is found, and a `--with-gssapi=PATH` flag to specify the installation
root. `PATH_KRB5_CONFIG` is similarly used to find krb5-config for the
GSS-API libraries, and `--with-gssapi-include` and `--with-gssapi-lib` can
be used to specify the exact paths, overriding any `krb5-config` results.
title: Building
- body: |
While there is an install target, it's present only because Automake
provides it automatically. Its use is not recommended. Instead, the code
in this package is intended to be copied into your package and refreshed
from the latest release of rra-c-util for each release.
You can obviously copy the code and integrate it however works best for
your package and your build system. Here's how I do it for my packages as
an example:
* Create a portable directory and copy `macros.h`, `system.h`,
`stdbool.h`, and `dummy.c` along with whatever additional functions that
your package uses that may not be present on all systems. If you use
much of the `util` directory (see below), you'll need `asprintf.c`,
`reallocarray.c`, and `snprintf.c` at least. If you use
`util/network.c`, you'll also need `getaddrinfo.c`, `getaddrinfo.h`,
`getnameinfo.c`, `getnameinfo.h`, `inet_*.c`, and `socket.h`. You'll
need `winsock.c` for networking portability to Windows.
* Copy the necessary portions of `configure.ac` from this package into
your package. `configure.ac` is commented to try to give you a guide
for what you need to copy over. You will also need to make an `m4`
subdirectory, add the code to `configure.ac` to load Autoconf macros
from `m4`, and copy over `m4/snprintf.m4` and possibly `m4/socket.m4`
and `m4/inet-ntoa.m4`.
* Copy the code from `Makefile.am` for building `libportable.a` into your
package and be sure to link your package binaries with `libportable.a`.
If you include this code in a shared library, you'll need to build
`libportable.la` instead; see the Automake manual for the differences.
You'll need to change `LIBRARIES` to `LTLIBRARIES` and `LIBOBJS` to
`LTLIBOBJS` in addition to renaming the targets.
* Create a `util` directory and copy over the portions of the utility
library that you want. You will probably need `messages.[ch]` and
`xmalloc.[ch]` if you copy anything over at all, since most of the rest
of the library uses those. You will also need `m4/vamacros.m4` if you
use `messages.[ch]`.
* Copy the code from `Makefile.am` for building `libutil.a` into your
package and be sure to link your package binaries with `libutil.a`. As
with `libportable.a`, if you want to use the utility functions in a
shared library, you'll need to instead build `libutil.la` and change
some of the Automake variables.
* If your package uses a TAP-based test suite written in C, consider using
the additional TAP utility functions in `tests/tap` (specifically
`messages.*`, `process.*`, and `string.*`).
* If you're using the Kerberos portability code, copy over
`portable/krb5.h`, `portable/krb5-extra.c`, `m4/krb5.m4`,
`m4/lib-depends.m4`, `m4/lib-pathname.m4`, and optionally
`util/messages-krb5.[ch]`. You'll also need the relevant fragments of
`configure.ac`. You may want to remove some things from `krb5.h` and
`krb5-extra.c` the corresponding configure checks if your code doesn't
need all of those functions. If you need `krb5_get_renewed_creds`, also
copy over `krb5-renew.c`. Don't forget to add `$(KRB5_CPPFLAGS)` to
`CPPFLAGS` for `libportable` and possibly `libutil`, and if you're
building a shared library, also add `$(KRB5_LDFLAGS)` to `LDFLAGS` and
`$(KRB5_LIBS)` to `LIBADD` for those libraries.
For a Kerberos-enabled test suite, also consider copying the
`kerberos.*` libraries in `tests/tap` for a Kerberos-enabled test suite.
If you want to use `kerberos_generate_conf` from `tests/tap/kerberos.c`,
also copy over `tests/data/generate-krb5-conf`.
* For testing that requires making Kerberos administrative changes,
consider copying over the `kadmin.*` libraries in `tests/tap`.
* For testing packages that use remctl, see the `tests/tap/remctl.c` and
`tests/tap/remctl.h` files for C tests and `tests/tap/remctl.sh` for
shell scripts.
* If you're using the kafs portability code, copy over the `kafs`
directory, `m4/kafs.m4`, `m4/lib-pathname.m4`, `portable/k_haspag.c`,
the code to build kafs from `Makefile.am`, and the relevant fragments of
`configure.ac`.
* If you're using the PAM portability code, copy over `pam-util/*`,
`portable/pam*`, `m4/pam-const.m4`, and the relevant fragments of
`configure.ac`.
* Copy over any other Autoconf macros that you want to use in your
package from the m4 directory.
* Copy over any generic tests from `tests/docs` and `tests/perl` that are
appropriate for your package. If you use any of these, also copy over
the `tests/tap/perl` directory and `tests/data/perl.conf` (and customize
the latter for your package).
* If the package embeds a Perl module, copy over any tests from the
`perl/t` directory that are applicable. This can provide generic
testing of the embedded Perl module using Perl's own test
infrastructure. If you use any of these, also copy over the
`perl/t/data/perl.conf` file and customize it for your package. You
will need to arrange for `perl/t/data` to contain copies of the
`perlcriticrc` and `perltidyrc` files, either by making copies of the
files from `tests/data` or by using make to copy them.
I also copy over all the relevant tests from the `tests` directory and the
build machinery for them from `Makefile.am` so that the portability and
utility layer are tested along with the rest of the package. The test
driver should come from C TAP Harness.
title: Using This Code
support:
email: eagle@eyrie.org
github: rra/rra-c-util
web: https://www.eyrie.org/~eagle/software/rra-c-util/
synopsis: Russ Allbery's utility libraries for C
test:
lancaster: true
override: |
rra-c-util comes with an extensive test suite, which you can run after
building with:
```
make check
```
If a test fails, you can run a single test with verbose output via:
```
tests/runtests -o <name-of-test>
```
Do this instead of running the test program directly since it will ensure
that necessary environment variables are set up.
vcs:
browse: https://git.eyrie.org/?p=devel/rra-c-util.git
github: rra/rra-c-util
openhub: https://www.openhub.net/p/rra-c-util
type: Git
url: https://git.eyrie.org/git/devel/rra-c-util.git
version: '6.1'