Also include the freebsd_network and freebsd_wlan headers. Their final
location and which of them to include in the first place might need some
adjustments.
Equivalent to "jam <list of all hpkgs> && jam @... <list of all hpkgs>",
i.e. it makes sure all hpkgs that are supposed to be in the image are
rebuilt respectively downloaded and copied to the image. It doesn't
remove old packages nor the activation files -- that still has to be
done manually.
* ... to avoid confusion with the preRelease property. It's also called
"revision" in the HaikuPorts recipes.
* Update libsolv package. Was necessary due to the BPackageVersion
change, but also includes a few more changes.
* Reorganize things a bit:
- BSolver is now an abstract base class.
- A libsolv based implementation, LibsolvSolver, lives in a new
add-on, which is loaded lazily.
- Get rid of libpackage_solver. Save for LibsolvSolver everything
is moved to libpackage.
- This is a nicer solution for the cyclic dependency caused by
libsolv (libsolvext to be precise) using the package kit for
reading repositories and package files.
* Add a solver result data structure and and an accessor the solver.
* Add problem reporting support to the solver. There aren't data
structures for the problem solutions yet and support for selecting
solutions and re-solving is missing as well.
* The call to the dummy actions isn't needed
* The calls to Extract{Zip,Tar,HPKG}Archive1 couldn't work like that.
The directory has to be the main target, since ExtractArchive is
potentially invoked multiple times with different extracted file
targets and the Extract*Archive1 is only invoked the first time.
Tested only with the HPKG actions, but they others should work as
well.
* Updated to version 2.0 of vendor code.
* Reliability improvements in controlling the underlying devices.
* Implement leaving networks.
* Better timeout handling.
* Usability enhancements like cancel on escape, ok button being the
default and the password field having focus on start.
* Storing of the password using BKeyStore.
It is now declared with architecture x86_gcc2, though it probably
has been built with gcc4. That issue has to be solved for real
eventually, since the package resolver won't allow mixing of gcc2
and gcc4 packages.
It's sufficient to simply check if the gcc version is 4 or higher since
we enforce the use of the latest ported compiler for the build anyways,
and these multi-level checks would fail in their current state if gcc
moved to e.g. version 5.0.
