There are some insanely large ones, and that was just not nice.
Downside is all warnings and errors are also not shown during the native
part of the build (but the cross build will still show any it has).
Move all the binaries and libraries under a bundle/ subdirectory;
so when it's in PATH only git-annex, runshell, and git-annex-webapp
will be available.
<joeyh> anyone know why runghc Setup.hs is behaving differently than cabal configure for me?
<joeyh> I'm getting different flags selected
<geekosaur> joeyh, runghc Setup.hs uses --global by default
<geekosaur> cabal uses --local
<nomeata> joeyh: I don’t know the reasons, but I have made similar observations as well
<geekosaur> and if that means different libraries/versions visible, that can affect flag solving
<joeyh> aha!
<monochrom> it is because Cabal authors expect normal people to use cabal-install and linux distro creators to use Setup
<monochrom> the expectation is documented nowhere
I have seen some other programs do this, and think it's pretty cool. Means
you can test wherever it's deployed, as well as at build time.
My other reason for doing it is less happy. Cabal's handling of test suites
sucks, requiring duplicated info, and even when that's done, it fails to
preprocess hsc files here. Building it in avoids that and avoids having
to explicitly tell cabal to enable test suites, which would then make it
link the test executable every time, which is unnecessarily slow.
This also has the benefit that now "make fast test" does a max speed build
and tests it.
The only thing lost is ./ghci
Speed: make fast used to take 20 seconds here, when rebuilding from
touching Command/Unused.hs. With cabal, it's 29 seconds.
Pity that the library does not provide a function to extract the status
code from the StatusCodeException, so when they had to add a new field, it
breaks every single place that does it.
Various things that don't work on Android are just ifdefed out.
* the webapp (needs template haskell for arm)
* --include and --exclude globbing (needs libpcre, which is not ported;
probably I'll make it use the pure haskell glob library instead)
* annex.diskreserve checking (missing sys/statvfs.h)
* timestamp preservation support (yawn)
* S3
* WebDAV
* XMPP
The resulting 17mb binary has been tested on Android, and it is able to,
at least, print its usage message.
I need to clean up the path to hasktags. Ideally by packaging it in Debian.
Not using ghci's own tags generation because it falls over on pre-compiled
files.
This allows it to use Build.SysConfig to always install the programs
configure detected. Amoung other fixes, this ensures the right uuid
generator and checksum programs are installed.
I also cleaned up the handling of lsof's path; configure now checks for
it in PATH, but falls back to looking for it in sbin directories.
This ensures that the standalone builds will include lsof, and it'll then
be in the runshell PATH, so will work.
This does not deal with manual builds where lsof is not in path, which
will fail at runtime due to the program being missing.
For now, when dbus goes away, the assistant keeps running but does not fall
back or reconnect. To do so needs more changes to the DBus library; in
particular a connectSessionWith and connectSystemWith to let me specify
my own clientThreadRunner.
I had been using -ignore-package monads-tf to deal with this, but
the XMPP library uses monads-tf, so that also ignores it. Instead,
use PackageImports to force use of mtl in my own code.
The standalone build does not bundle its own ssh, so should be built
to support as wide an array of ssh versions as possible, so turn off
connection caching.
Unfortunatly, as implemented this forces a full rebuild when building the
standalone binary, and of course it makes it somewhat slower.
This is not ideal, but neither is probing the ssh version every time it's
run (slow), or once when initializing a repo (fragile).
Old 1.0.1 version is still supported as well. Cabal autodetects
which version is available, but in the Makefile, WITH_OLD_YESOD
has to be configured appropriately.
I have not squashed all the $newline warnings with the new Yesod.
They should go away eventually anyway as Yesod moves past that transition.
This allows setting GIT_ANNEX_TMP_BUILD_DIR to be on a ramdisk,
and all the .o files as well as the git-annex binary are written there.
A useful optimisation for me to avoid SSD write thrashing during
development.
Added a modified System.Cmd.Utils, working around bug #681621
Unfortunatly, the test suite still hangs partway through.
Some of the hangs occur within pOpen3 still. Some of the hangs
do not seem to occur within System.Cmd.Utils at all, but in some other
code.
The `cabal install` is happy as long as the files it needs are
present, but `cabal sdist` will only package up files you tell it to.
So, generate the source tarball ourselves.
The source tarball is generated by make-sdist.sh, which uses cabal
sdist to calculate the package name. Could also generate the name
from the 'Version:' field in git-annex.cabal.
The existing `sed | find | perl` hack in the Makefile was not
including the man pages in the generated git-annex.cabal. I couldn't
figure out why it didn't work; running the `find | perl` part of the
command *did* list the man pages ...
So, I set up a new hack. It produces a cleaner .cabal file and
includes the man pages in the sdist. I changed git-annex.cabal and
its generation as follows:
- git-annex.cabal is now generated by a here document in
git-annex.cabal.template.sh. The here document has inline file list
insertion, whereas before the file lists were inserted with sed.
- The 'Extra-Source-Files:' field now only includes the non-source
files: the man pages, plain text documentation, and license.
- The source dependencies are now listed in 'Other-Modules' sections
in the 'Executable' and 'Test-Suite' sections. The list of
dependencies is generated by `gen-other-modules.sh`.
- The ./debian and ./doc are no longer included in the sdist package.
These were not installed anywhere by `cabal install`. A user that
wants them could clone the git repo.
Running the tests with cabal is not yet working, i.e.
cabal configure --enable-tests && cabal build && cabal test
and
cabal install --enable-tests
fail to find Utility.Touch. However, I did not break this: it doesn't
work for the git-annex package on Hackage either. Next step is to
figure out how to deal with HSC in cabal ... or not bother, because
`make test` works. I'm worried this is a cabal bug.
To test building from sdist, I've been running
cd ../.. ; cabal sdist ; cd dist ; tar xf git-annex-3.20120605.tar.gz && cd git-annex-3.20120605 && rm -fr /tmp/git-annex && cabal install --prefix=/tmp/git-annex && tree -A /tmp/git-annex
in the dist directory. Using `cabal-dev install` is a better test,
but is very slow.
Fixes build breakage when both 'mtl' and 'monads-tf' are present:
$ make git-annex
> ghc -O2 -Wall -ignore-package monads-fd -outputdir tmp -IUtility -DWITH_S3 --make git-annex Utility/libdiskfree.o
>
> Common.hs:6:8:
> Ambiguous module name `Control.Monad.State.Strict':
> it was found in multiple packages: monads-tf-0.1.0.0 mtl-2.1.1
> make: *** [git-annex] Error 1
Signed-off-by: Sergei Trofimovich <slyfox@gentoo.org>
The `cabal install git-annex` doesn't install the man pages, and the
Makefile only installed the man pages as part of a full build/install.
So, I factored out the documentation parts of the Makefile.