* Add support for hubs in AllocateDevice().
* Prevent page fault in FinishTransfers().
* Set fCapabilityLength
* Correct in BIOS ownership code
* Fix context errors in _InsertEndpointForPipe().
* Update constants according to latest Specification (v1.1)
* Fix SMI code (reference
http://lkml.iu.edu/hypermail/linux/kernel/1204.2/02460.html).
* Fix Memory/Device-Slot leaks.
* Fix area allocation for TRBs.
* Fix for Intel Lynx Point and Panther Point chipsets. Also move init
of xhci before ehci, to switch USB 2.0 ports before the ehci module
discovers them.
Signed-off-by: Jérôme Duval <jerome.duval@gmail.com>
* There was a version mismatch between HaikuPorts gcc_bootstrap recipe
and build/jam/repositories/HaikuPortsCross/arm which prevented
building @bootstrap-raw for ARM. Thanks Ingo for helping out!
* Ditto for ppc, x86, x86_64.
Signed-off-by: Jérôme Duval <jerome.duval@gmail.com>
* Building gcc-4.8.3 on x86_64 with TLS support fails with an internal
compiler error. Until that problem is fixed, don't use TLS on x86_64,
which (due to libstdc++ compatibility) requires the same for the
host cross compiler.
* To avoid problems caused by the varying python versions used by the
different architectures, switch those packages from 'any' to explicit
architecture.
This also adds the libtool_cross_generic package to ARM bootstrap,
which seems to be required for building ncurses successfully. I did
not have the time to verify that this is the case for x86_64 too, so
I'm not yet adding it to there (yet).
Since hrev47198 we have ELF-based TLS support in Haiku. When building
gcc with haikuporter, this is detected by the configure script, but when
cross compiling gcc we need to manually enable it, as no runtime check
can be performed to detect the feature.
This should fix#10938 by avoiding the mix of TLS and non-TLS libstdc++.
* Cleanup the SD card image building to allow jam -q @bootstrap-mmc to
work.
There are a few remaining tricks before you can safely build an image:
* This uses a non-POSIX du option, and is only tested with Linux du
only (Linux is the only supported system to run bootstrap builds,
anyway)
* The Python recipe in haikuports.cross is known to not build on
Debian/Ubuntu, but work fine on OpenSuse. There is a patch available in
haikuports bugtracker to allow the reverse.
* You need to populate the haikuports repo package list with some
packages (which don't exist yet) to make the build system happy. But our
git hook to generate the repositories is preventnig me to share this
hack.
Once built, the image currently crashes early in the kernel execution.
On to debug that!
* That change did not make any sense, as the floppy-boot images
can't be built in debug mode anyway (the result is much too large).
This reverts commit 911821275a.
libalm.so is used by Stack & Tile as well as for the constraint-based
layout BALMLayout. This also adds libalm.so to the development package;
links it to /boot/system/development/lib.
* data files are still in the source tree.
* gutenprint headers contain a image.h header file which collides
with ours. This is solved by forcing include search first on
os/kernel directory.
* This solves the issue where libreadline wasn't actually linked to libncurses
* x86_64 update will follow later, as the build maxed out my x86_64 build VM
* Adjust the respective rules such that with disabled downloads, only
packages already available in the downloads folder will be considered
as available build features.
This way, the build system will not for instance try to build
<kdebug>qrencode after a bootstrap, as that package is not yet
available.
* If --no-downloads has been given, Haiku will be built without
trying to download anything, all required packages need to be put
into the download folder manually (the build will stop on missing
packages).
* As the required HaikuPorts repository can't be downloaded in this
mode, a local repository is created during the build, which only
contains the packages available in the downloads folder.
This is useful for building Haiku completely from source.
* The content of the preprocessed package-info files and the package
contents depend on the build type, so we use a different folder for
each build type.
Ideally, we would only need to set this in build/jam/board/*, but the
flags set there are not passed to the build of packages. The default is
using some early ARM variant, for which gcc lacks some more atomic
operations and emits calls to helper functions we don't implement.
Setting the default architecture avoids this, as all packages will now
be built to target the Cortex-A8.
Also set the proper VFP version in BeagleBoard config file.
Note this breaks the Verdex and Pi builds, but ARMv7 is what we should
focus on for now. We can try to make older archs work after finishing
the m68k port.
* This avoids mixup of the soft/hard float libs
* It also means we can use the hard-float libs for targets that supports
it
* Again, we could introduce an arm_softfp compiler for targets that
don't have floating point support, with a different gcc build.
* qrspec.h isn't yet part of the package for some reason.
* removed qrencode from the bootstrap package.
* only include qrencode when the qrencode package is found.
* didn't check qrencode itself, tests welcome.
These are used when an app uses BMediaFile/BMediaTrack, which leads to
the plug-ins being instanciated on the application side.
* Fixes one more part of #10049 (media add-ons are still missing).
* Will probably not solve any real-world issue because of #4893.
* Instead of separate variables, HAIKU_BUILD_TYPE is set to one of
'bootstrap', 'minimum' or 'regular'.
* Adjust uses of HAIKU_BOOTSTRAP_BUILD accordingly.
This reverts commit 4a4e2dae77.
It broke the build with:
Resolving package dependencies ...
Encountered problems:
problem 1: nothing provides cmd:as>=2.23.2_2013_04_09 needed by
gcc-4.8.2_2014_01_28-2
solution 1:
- allow deinstallation of gcc-4.8.2_2014_01_28-2
Instead, the fixed binutils package should be used. Reverting this now
as otherwise it's not even possible to build a system to build a fixed
package.
* Move actual definitions of respective image contents to files
underneath build/jam/images/definitions (minimum, bootstrap, regular).
* HaikuImage now only includes the image definitions for the selected
build profile and adds the Haiku packages.
* Simplified topmost Jamfile to some extent.
* Move definition of DESKBAR_APPLICATIONS and DESKBAR_DESKTOP_APPLETS
from build/jam/packages/Haiku to the respective image definition file.
* Sort and reformat several lists to make them more readable.
* Add new build profile 'minimum', which defines a minimum set of
packages.
* Introduce HAIKU_BOOTSTRAP_SOURCES_PROFILE and let it default to
'@minimum-raw'. This can be overruled in UserBuildConfig, setting
it to '@release-raw' will cause all source packages required for a
full release to be put onto the bootstrap-image.
* Add new image HaikuImageMinimum, which is meant to define the minimum
useful Haiku image (yeah, I know that's vague).
* Add HAIKU_MINIMUM_BUILD, which indicates that HaikuImageMinimum should
be used (it would be better to merge this with HAIKU_BOOTSTRAP_BUILD
into something like HAIKU_BUILD_TYPE)
* Cleanup duplicate references to basic packages - those are now added
by the topmost Jamfile (no longer referenced by the build profiles).
* This decouples the versions referenced by the architecture-specific
repository file from the actual versions available in the haikuports
branch that happens to be used for the bootstrap build.
* Before, we were putting both rigged and standard source packages
onto the bootstrap image, which caused the build to fail (because
non-rigged source packages can only be built with git available).
* Don't assume verdex as it isn't clear this was
occurring.
* Make an educated guess on HAIKU_BOOT_PLATFORM
based on provided board (but still allow it to
be overridden)
* Error out if user doesn't populate
HAIKU_BOOT_PLATFORM or enters an unknown board
name.
* You need to add "-sHAIKU_BOOT_BOARD=xxx" to
your jam to build for the proper ARM device.
* Rename beagle to beagleboneblk as per the
documentation.
HAIKU_* variables are copied to TARGET_*, making it possible to also
build for other targets (libbe_build, or BeOS R5 when we still allowed
that).
Thanks to Ingo for explaining how this is meant to work.
... mirroring home/config/non-packaged/
Also, sort the list lexographically and move the creation of the non-packaged
decorators directory from HaikuImage to HaikuImageCommon along with the rest.
* ArchitectureRules define a variable named HAIKU_ASFLAGS, so other
Jamfiles can append to it.
* But, TARGET_ASFLAGS was used instead in the single place where we
tried to make use of this (the verdex BoardSetup), and in the As rule
* Moreover, the As rule used $(architecture) instead of
$(TARGET_PACKAGING_ARCH) (I suspect a bogus copypaste?). So, it never
actually made use of the flags
With this working, add the proper flags to the BeagleBoard BoardSetup,
so we implement atomic operations the ARMv7 way (no need to syscall).
This helps with compiling, as the As and Cc/Cpp rules now agree on the
defines and the atomic implementation to use.
* As per the ML discussions. Bumps MIPS to tier 3.
* We've reached a unanimous descision that MIPS doesn't
target any real / valid hardware Haiku wants to pursue
at the moment. In the event that anyone wants to pursue
MIPS, feel free to fork Haiku into your own repository
(and we'll even link to it on the website ports page)
* If someone develops a viable plan for MIPS (and gets the
port working, it can be readded at a later date)
The ones with ARCH extension are used for setting up the KERNEL
ones, so no need to try and set both.
Also, the verdex target was not setting the ARCH one, and therefore
never configured gcc for ARMv5.
The new version breaks git, but only once it's in the repository.
Installing it manually alongside the old one works. Rebuilding git and
uploading a new package does not work, as for the package management,
the new version is exactly equal to the old, as the port revision isn't
newer. We need to come up with a proper way to handle this.
Also removes zsh, as that requires the new libpcre.
* build kernel libgcc and libsupc++ with disabled posix threads for all
architectures. We currently change the configuration manually, as gcc
doesn't easily let us reconfigure without a full rebuild.
This is required on OS X and other systems which do not have the glibc
extensions for regular expressions (FreeBSD is not one of them as it
already includes gnuregex in /usr). With this there are no hardcoded
non-standard paths for OS X anymore.
regex.c and regex.h are from the official gnuregex 0.12 distribution,
the only modification is that I added __BEGIN_DECLS and __END_DECLS to
regex.h.
* Added cards need testing.
* 3dfx, ati, neomagic, and s3 still don't build due to some
more complex pointer size issues. (and I don't have hardware
to test on)
* as Ingo has pointed out, the remote user settings doesn't
relate to the build configuration at all, so setting the
remote user via HAIKU_REMOTE_USER in UserBuildConfig or
via shell environment is the way to go
* additionally: drop debug output
* add option --remote-user to configure, which sets HAIKU_REMOTE_USER
* add evaluation of HAIKU_REMOTE_USER variable when ssh-ing
into git.haiku-os.org
* HaikuRepository rule: Create the repository config.
* HaikuImage: Add the repository config for the Haiku image. The
repository cache is not added, though (it would only be available, if
the repository had been built before).
Implements #10287. The Haiku repository is now available in Haiku by
default.
Instead of the repository the URL can now be passed. It can use the
"$version" placeholder, which will be replaced by the content of the
given version file. If the URL is not given, the one from the repository
info will be used.
* PreprocessPackageInfo rule: Pull out new rule
PreprocessPackageOrRepositoryInfo which does the sed substituation and
optionally the filtering through the C preprocessor.
* HaikuRepository rule: Generate the repository info file (from the
given template). No longer do that in the build_haiku_repository
script.
Due to depending on dynamically built files, package files will always
be rebuilt when they are needed (e.g. when an image is built). The build
variable HAIKU_DONT_REBUILD_PACKAGES can be defined to prevent
rebuilding existing package files (even ones that are out-of-date).
Main target for this change is buildbot. We want to make sure that the
packages in the repository it builds are exactly identical to the ones
in the images, which may not be the case when the packages are rebuilt
(due to different timestamps of contained files). The respective build
order should be:
1. Build repository.
2. Without cleaning the generated directory, build different image types
with HAIKU_DONT_REBUILD_PACKAGES defined.
* Resolves problem with secondary arch builds
not picking up secondary os kit headers
* Still need to build x86 gcc packages
* No binary changes, shouldn't need a bootstrap
Older versions will not work anymore because of the API changes in
network kit (removal of nonstandard B_PROT_* status codes). x86 and
x86_64 packages have to be updated again.
This uses a variable CLANG that should be set to the Clang version. For
now, this has to be done manually (e.g. when invoking jam using jam
-sCLANG=34), but later, this will be auto-detected.
Work towards bug #10396
* Also update dependencies cmake and libxml2
* Bonus package: Milkytracker
This is for gcc2hybrids only. gcc4 and x86_64 users are welcome to
contribute an haikuwebkit package for their architectures using the
haikuporter recipe.
* Fix issue where mesa_devel attempted to lay
a symlink over a directory causing instability
installing mesa_devel
* Add mesa_swpipe to repos (LLVM enabled Gallium softpipe)
The introduction of secondary arch support for kernel files disabled
-Werror for all kernel files, since the -Werror flags were moved from
{CC,C++}FLAGS to TARGET_WARNING_{CC,C++}FLAGS_<arch>, which, however,
was overwritten by the SetupKernel rule. This commit introduces new
global variables {HAIKU,HOST,TARGET}_WERROR_FLAGS[_<arch>], which
contain the additional -Werror flags to be applied for the architecture.
The config variable WARNINGS can be set to "treatAsErrors" to cause
-Werror and {HOST,TARGET}_WERROR_FLAGS[_<arch>] to be appended to the
compilation flags.
Fixes#10280.
If for some reason (e.g., a forced rebuild), Buildbot rebuilds the same hrev,
it was possible for the scp command to place the repositoryDir as a subdir
in $arch/$version/, instead of as $arch/version. This should ensure that the
contents of repositoryDir are placed in $arch/$version/.
* Create new interface for cpuidle modules (similar to the cpufreq
interface)
* Generic cpuidle module is no longer needed
* Fix and update Intel C-State module
Somehow gcc doesn't detect the linker is GNU ld when run in Haikuporter.
We now force this in the recipe. This allows gcc to invoke the linker
with response files, avoiding "command line too long" errors, for
example when building WebKit.
* Fix adding WebPositive optional package.
* Fix adding wonderbrush package. Add it only for gcc2 to avoid a
warning by AddHaikuImagePackages.
* Simplify adding xz_utils package.
* Add rule HaikuRepository to build a repository from a repository info
file and a list of package files. It calls a build_haiku_repository
script which does all the work.
* Add target <repository>haiku for building the Haiku package
repository.
It should be built via "jam -q @alpha-raw build <repository>haiku";
the build profile is only needed to activate all build features.
We can't reliably set contemporary processors to an arbitrary frequency.
There are dependencies between cores and thechnologies like Turbo Boost
which may make actual frequency significantly different than the requested.
Moreover, it is the scheduler job to decide how much CPU performance is
needed and user shouldn't interfere with that.
In current state this driver is useless anyway. It's not MP safe.
The P-state values stored in hardcoded tables are only for processors
on which we can't use SpeedStep, because of lack of invariant TSC.
Proper driver should get P-states from ACPI, ensure that the CPU offers
invariant TSC and obviouslt be MP safe.
Some gristing mixup caused the non-secondary version of the lib to be
added to the non-secondary directory, which is what the main
architecture HaikuDevel is already doing.
* perl and python now support vendor-folders for modules and use correct
(i.e. writable) site-folders
* git, mercurial and scons have been adjusted to put their perl/python
modules into respective vendor-modules folders
* 'jam build-remote-test-repository' can now be used to create a
remote repository which will then be used by the build system,
such that the resulting package set can be tested.
Set HAIKU_CONTAINER_SYSTEM_DIR_TOKENS for the Haiku image to "system
non-packaged". All the rules using the variable would put stuff in
directories that will be read-only in the end (and aren't used anymore).
This way they can be used in UserBuildConfig.
* We are moving the HaikuPorts repositories over from haiku-files.org
to packages.haiku-os.org, and we will be creating new repositories
during a push hook from now on. As a result, only a small helper for
uploading new packages into the appropriate upload folder is required.
* Add build tool update_package_requires. Given a package info file and
a repository cache file, it updates the minimum versions of the
requires entries of the package info file according to what is
provided by the repository.
* PreprocessPackageInfo rule: Use update_package_requires (with the
HaikuPorts repository file).
