* This directory is for services that are launched per user (in a user
context), but installed globally.
* This is now used for the default "user" configuration; before this was
put into ~/config/non-packaged/data/launch, which didn't really fit,
and has the huge disadvantage that it cannot be updated.
* Fixes part of #12227.
* Instead of launching Tracker/Deskbar directly, we now launch the
Login application.
* This will now start a new session for the selected user (the password
is currently ignored).
* When a user session is started, the launch_daemon forks, and the
child then restarts the LaunchDaemon application in user mode.
* It then registers itself with its parent, in order to resolve user
dependent services.
* Added a user launch file that will cause Tracker, and Deskbar to
start in the new session.
* Added initializing /tmp & /var/shared_memory to the launch_daemon.
* Moved clockconfig.cpp code into the launch_daemon.
* This follows systemd design; since those jobs are fixed, it doesn't
matter where you maintain them.
* The init jobs are BJobs, but the JobQueue is only used for that
one use for now. At a later time, I intend to put the job launching
in there, as well. BJob allows to represent the dependencies already.
* This is actually working already, although we cannot reproduce all
the features of the former Bootscript yet. This is without any
dependency support in launch_daemon.
* All shell activity like cleaning out /tmp, setting up the environment,
setting the time, etc. is not yet working.
These files are required for netresolv functionality, and there is no
real use in modifying them as settings files. Restore the previous
behavior, the files are stored in data and part of the Haiku package.
This means there is no need for a fresh install from image to get the
files anymore.
Fixes#12156.
libbind development was transferred to the NetBSD project at
http://wiki.netbsd.org/individual-software-releases/netresolv/
There isn't an official release yet, but they provide a set of patches
against the latest libbind release.
* Remove all files we don't use
* Merge the changes to the remaining files
* Add some new files we need
* Move getifaddrs implementation to libnetwork (instead of libbnetapi)
so it can be used by netresolv.
Fixes#8293 : netresolv uses getifaddrs to determine if there is a local
IPv6 address. If there is not, it will not return AAAA records.
* Icon-O-Matic and Cortex are dependent on the feature.
* remove expat lib from the build and from the tree.
* expat package is added to regular builds.
* This should support both GPT and MBR formatted partitions.
* To boot Haiku from a GPT partition, it must have the correct
BFS UUID for the partition.
* Tools such as gdisk/gptfdisk can create partitions with
the correct BFS UUID.
I didn't add the gdb package to the bundled packages because AFAIK,
most users / developers of Haiku use our built-in Debugger instead,
because it's so much more awesome (thanks, Ingo & Rene!).
If I'm somehow mistaken about that, please don't hesitate to speak
up and I'll add it.
* Put getlimits and kill back in the image, the former is not provided
by coreutils, Haiku provides an updated version of the latter.
* frcode is not provided by either coreutils or Haiku and has been
removed, do we need it?
* this is a mandatory package.
* removed related commands from the minimum image definition.
* removed related commands from the Haiku package PROVIDES.
* the su command is deprecated in 8.22. Use the 8.4 in-tree version.
* the packages contain and provide the df command, to be removed.
This was an old version of bash_completion and not included in the
image. An haikuports recipe is available if you need it.
Fixes#11660.
Signed-off-by: Adrien Destugues <pulkomandy@gmail.com>
* googlefs: not working, needs update to match current page layout of
google searches
* Amiga and Apple partitionning systems: made them 68k and ppc-only,
respectively. There is not much use for those on x86 systems.
Also remove kdlhangman from the bootstrap packages.
In order to automate the complete bootstrap build process we need a
mechanism to control the second phase which builds the final packages
on the booted bootstrap Haiku. To avoid additional dependencies
(buildbot slave, ssh, rsh,...) we'd have to cross-build, there's now a
pair of simple python scripts that allows executing commands on a remote
machine. The server script (bootstrap_daemon.py) is added to the
bootstrap image and started automatically during the boot.
We get several users on IRC asking for help on how to disable it. It
doesn't even look good, uses a lot of CPU, and we have better (useful)
ways to demonstrate replicants on the desktop. So this demo has no use
anymore.
* Instead of faking libstdc++.so from libstdc++.a, use libstdc++.so
from the gcc_syslibs build feature for everything except x86_gcc2.
* Use libgcc_s.so from the gcc_syslibs build feature for everything but
x86_gcc2 (which still carries libgcc as part of libroot.so).
* Drop filtering of libgcc objects for libroot, as that is no longer
necessary since we're only using libgcc-as-single-object for libroot
with x86_gcc2, where the filtered object file doesn't exist. Should
the objects that used to be filtered cause any problems as part of
libgcc_s.so, we can always filter them as part of the gcc build.
* Use libsupc++.so from the gcc_syslibs build feature for everything but
x86_gcc2.
* Adjust all Jamfiles accordingly.
* Deactivate building of faked libstdc++.so for non-x86-gcc2. For
x86_gcc2, we still build libstdc++.so from the sources in the Haiku
source tree as part of the Haiku build .
* Put gcc_syslibs package onto the image, when needed.
* Now that system updates seem to work properly, put the haiku
repository config and cache file onto the image automatically.
* Adjust URL of haiku repository (it is currently redirected
to some other URL at download.haiku-os.org, but that will be
changed later).
