by other package Makefiles, and with the deprecation of USE_BUILDLINK3
support in the infrastructure files, these had the potential to break
existing packages.
in their tests for built-in versions of the PAM implementations. The
MacOS X case now collapses nicely into the linux-pam case. Allow
pam.buildlink3.mk to use solaris-pam as an accepted PAM implementation.
It includes the correct buildlink3.mk file from either Linux-PAM
(security/PAM) or OpenPAM (security/openpam) and eventually will
support solaris-pam. pam.buildlink3.mk will:
* set PAMBASE to the base directory of the PAM files;
* set PAM_TYPE to the PAM implementation used.
There are two variables that can be used to tweak the selection of
the PAM implementation:
PAM_DEFAULT is a user-settable variable whose value is the default
PAM implementation to use.
PAM_ACCEPTED is a package-settable list of PAM implementations
that may be used by the package.
Modify most packages that include PAM/buildlink3.mk to include
pam.buildlink3.mk instead.
package from "pam" to "linux-pam".
* Rewrite PAM/builtin.mk to check that we have Linux-PAM, and re-classify
MacOS X's PAM as Linux-PAM because it _is_, according to to Apple.
Also don't use BUILDLINK_TRANSFORM.* to rewrite header file paths
-- just use a symlink so that <security/*.h> can be used to find
<pam/*.h>.
the compiler to build shared modules, and so that it builds correctly
across different platforms. Bump the PKGREVISION.
In particular, this should fix problems building this package on
NetBSD/amd64.
in the process. (More information on tech-pkg.)
Bump PKGREVISION and BUILDLINK_DEPENDS of all packages using libtool and
installing .la files.
Bump PKGREVISION (only) of all packages depending directly on the above
via a buildlink3 include.
into the bsd.options.mk framework. Instead of appending to
${PKG_OPTIONS_VAR}, it appends to PKG_DEFAULT_OPTIONS. This causes
the default options to be the union of PKG_DEFAULT_OPTIONS and any
old USE_* and FOO_USE_* settings.
This fixes PR pkg/26590.
is "/usr", what we really want to check is if the pam_appl.h header found
is within the ${LOCALBASE} hierarchy, which implies that it's a
pkgsrc-controlled file, and hence not built-in.
for each package can be determined by invoking:
make show-var VARNAME=PKG_OPTIONS_VAR
The old options are still supported unless the variable named in
PKG_OPTIONS_VAR is set within make(1) (usually via /etc/mk.conf).
built-in or not into a separate builtin.mk file. The code to deal
checking for built-in software is much simpler to deal with in pkgsrc.
The buildlink3.mk file for a package will be of the usual format
regardless of the package, which makes it simpler for packagers to
update a package.
The builtin.mk file for a package must define a single yes/no variable
USE_BUILTIN.<pkg> that is used by bsd.buildlink3.mk to decide whether
to use the built-in software or to use the pkgsrc software.
as PREFER_PKGSRC. Preferences are determined by the most specific
instance of the package in either PREFER_PKGSRC or PREFER_NATIVE. If
a package is specified in neither or in both variables, then PREFER_PKGSRC
has precedence over PREFER_NATIVE.
BUILDLINK_PREFER_PKGSRC
This variable determines whether or not to prefer the pkgsrc
versions of software that is also present in the base system.
This variable is multi-state:
defined, or "yes" always prefer the pkgsrc versions
not defined, or "no" only use the pkgsrc versions if
needed by dependency requirements
This can also take a list of packages for which to prefer the
pkgsrc-installed software. The package names may be found by
consulting the value added to BUILDLINK_PACKAGES in the
buildlink[23].mk files for that package.
