Now we're doing this at the point where we're saving the VM state.
Unfortunately it's not quite right, because the controller VM is shut
down _before_ we're saving the state, so the share gets disconnected
despite autodisconnect being deactivated during setup.
We can get around this issue by finally introducing the xchg share,
which is the last item to be implemented before we can merge to master.
Signed-off-by: aszlig <aszlig@redmoonstudios.org>
Security-wise it's not a big issue because we're still sandboxed, but I
really don't want to write something like \\\\\\\\192.168.0.2\\\\share
in order to set up network shares.
Signed-off-by: aszlig <aszlig@redmoonstudios.org>
We're going to do this during the suspendedVM phase, so we're able to
more easily change the shares without reinstalling the whole VM.
Signed-off-by: aszlig <aszlig@redmoonstudios.org>
This could possibly cause flapping whenever qemu is too fast in starting
up. As we are running with the shell's -e flag, the socat check also
ensures that the VDE switch is properly started and causes the whole
build to fail, should it not start up within 20 seconds.
Signed-off-by: aszlig <aszlig@redmoonstudios.org>
These stages are in particular:
* Install of the bare Windows VM with Cygwin and shut down.
* Boot up the same VM again without the installation media and dump the
VMs memory to state.gz.
* Resume from state.gz and build whatever we want to build.
Every single stage involves a new "controller", which is more like an
abstraction on the Nix side that constructs the madness described in
276b72fb93.
Signed-off-by: aszlig <aszlig@redmoonstudios.org>
This is kinda stupid to do every little time the file is automatically
regenerated upstream. But let's see how often that happens and whether
it will become a major annoyance or not, and if yes, we might be forced
to include it in our source tree.
Signed-off-by: aszlig <aszlig@redmoonstudios.org>
This SSH key is specifically only for accessing the installed Cygwin
within the Windows VM, so we only need to expose the private key. Yes,
you heard right, the private key. It's not security-relevant because the
machine is completely read-only, only exposed to the filesystem and
networking is not available.
Signed-off-by: aszlig <aszlig@redmoonstudios.org>
At least the largest portion of the installer, because in the end we
don't want the installer to *actually* save the state but only prepare
the base image.
Signed-off-by: aszlig <aszlig@redmoonstudios.org>
After quite a lot of fighting against Windows and its various
limitations, this new is the base architecture for installing and
accessing the Windows VM and thus the Cygwin environment inside it:
.------------.
.---> | vde_switch |
| `-[#]----[#]-'
| | |
,' .' `---.___
,' 192.168.0.1 `.
| | 192.168.0.2
,' _____[#]____ |
,' | | ______[#]______
| | Windows VM | | .--' |
| |____________| | | |
| | /|\ | .-| |
| .---------. | | | | | |
.-|-| manager |-' | | | | |
| | `---------' | | | | |
| | | | | | |
| | .-------------. | | Samba |
| | | BOOTSTRAP | | | | | |
| | |-------------| | | | | .------|
| `-| spawn VMs |-+--> | | `---| xchg | <-------.
| |-------------| | | .---^------| |
| | install |---. | `-| nixstore | <----. |
| |-------------| | | `----------| | |
|---| suspend VM | | | | | |
| `------.------' | | Controller VM | | |
| | | |_______________| | |
| .--' | /|\ VirtIO
| | __|__________:____________ | |
| \|/ | | `. | | |
| .------------. | | : | | |
| | REAL BUILD | | | .-------^--------. | | |
| |------------| | `-> | serial console | | | |
`-| revive VM | | `----------------' | | |
|------------| |------------. | | |
| build |-->| /nix/store >>>-----------|-' |
|------------| |------------| | |
| collect |<--| xchg >>>-----------|----'
`-----.------' |------------' |
| | |
\|/ | | | __ ___ | |
| |--| | | (__ -|- |
F I N I S H E D | | | |__| ___) | |
|__________________________|
This might look a bit overwhelming, but let me try to explain:
We're starting at the base derivation ("BOOTSTRAP" above), where we
actually install the Cygwin envirenment. Over there we basically fire up
a vde_switch process and two virtual machines: One is the Windows
machine, the other is a NixOS machine, which serves as some kind of
proxy between the host and the Windows machine.
The reason we're doing this, is because we don't have a lot of options
for sharing files between a stock Windows machine and the host. In
earlier experiments, I've tried to communicate with the Windows guest by
using pipes and OpenSSH, but obviously this wasn't a big speed rush (or
to say it bluntly: It was fucking slow).
Using TCP/IP directly for accessing the guest would have been another
option, but it could lead to possible errors when the port or a range of
ports are in use at the Host system. Also, we would need to punch a hole
into the sandbox of the Nix builder (as it doesn't allow networking),
which in turn will possibly undermine deterministic builds/runs (well,
at least as deterministic as it can be, we're running Windows,
remember?).
So, let's continue: The responsibility of the NixOS (controller) VM is
to just wait until an SSH port becomes available on the Windows VM,
whereas the Windows VM itself is installed using an unattended
installation file provided via a virtual floppy image.
With the installation of the basic Windows OS, we directly install
Cygwin and start up an OpenSSH service.
At this point the bootstrapping is almost finished and as soon as the
port is available, the controller VM sets up Samba shares and makes it
available as drive letters within Windows and as bind mounts (for
example /nix/store) within Cygwin.
Finally we're making a snapshot of the memory of the Windows VM in order
to revive it within a few seconds when we want to build something.
Now, the build process itself is fairly straightforward: Revive VM and
build based on existing store derivations and collect the result _and_
the exit code from the xchg share/directory.
Conclusion: This architecture may sound a bit complicated, but we're
trying to achieve deterministic and reproducable builds and/or test
runs.
Signed-off-by: aszlig <aszlig@redmoonstudios.org>
The default target (i386-linux) causes flags like "-march i386" to be
added, which breaks on recent Fedora releases (18 and up), resulting
in errors like:
/usr/lib/gcc/i686-redhat-linux/4.7.2/../../../../include/c++/4.7.2/ext/atomicity.h:48: undefined reference to `__atomic_fetch_add_4'
So set the target to i686-linux.
http://hydra.nixos.org/build/6567357
Wheezy has been released on June 15th and on all mirrors the SHA256 hash
of Packages.bz2 has changed to reflect the new release, so let's update.
Here is the release announcement from Debian:
http://www.debian.org/News/2013/20130615
It also seems that the versioning scheme has changed in version 7.x, so
they seem to have switched to a two digit versioning scheme. This means,
that the attribute name "debian70..." should really be something like
"debian7...", but I'm keeping the attribute as-is to not break
references.
Signed-off-by: aszlig <aszlig@redmoonstudios.org>
This is needed in order to prevent services from starting while
populating the image with the contents of the .deb files. The procedure
used here is exactly the same as used in debootstrap.
Signed-off-by: aszlig <aszlig@redmoonstudios.org>
9p (with caching enabled) is much faster than CIFS and doesn't require
Samba or virtual networking. For instance, building GNU Hello with
CIFS takes ~323s on my laptop, but with 9p it takes 54s.
More measurements will be needed to see if "cache=fscache" is really
faster than "cache=loose" (the former seems to be a little bit
faster).
This only ever worked because runInLinuxVM happened to call
overrideDerivation, which itself erroneously passed arbitrarily-added
attributes to the new call to derivation.
Hopefully this time Eelco won't have to revert my change ;)
Signed-off-by: Shea Levy <shea@shealevy.com>
Merge conflicts:
* unzip (almost trivial)
* dvswitch (trivial)
* gmp (copied result of `git merge`)
The last item introduced gmp-5.0.3, thus full rebuild.
+ensureDir->mkdir -p in TeX packages was catched by git but not svn.
svn path=/nixpkgs/branches/stdenv-updates/; revision=32091
created directories, which is a security risk. So create $out with
the proper permissions before starting the VM.
svn path=/nixpkgs/trunk/; revision=27095
now kills its process group when it exits. Without setsid, this
ends up killing the parent (i.e., the builder).
* Use port 445 instead of 139 because the CIFS kernel module tries
port 445 first. If there is an actual Samba running on the host, it
would end up connecting to that one instead of our own and fail.
svn path=/nixpkgs/trunk/; revision=25017
properly on Amazon EC2.
* Always apply the CIFS timeout patch. It's rather annoying to have
to build a separate kernel for the VM tests.
svn path=/nixpkgs/trunk/; revision=22630
operations to 120s. This is necessary if the host is heavily
loaded. For instance, in the Hydra build farm, if there are many
concurrent jobs, VM builds often fail because they hit the timeout.
svn path=/nixpkgs/trunk/; revision=22347
* Use socat's "exec" and "nofork" options to reduce the number of
processes. Also, if smbd exits abnormally, exit from the smbd
restart loop.
svn path=/nixpkgs/trunk/; revision=22279
-no-kvm-irqchip flag, and on the Hydra machines only works on the
rather old KVM 76. So as a workaround, don't use -smb, but use
QEMU's "guestfwd" feature to forward 10.0.2.4:139 in the guest to a
Unix domain socket on the host connected to Samba.
* Use "cache=writeback" to improve performance a lot.
* Use "werror=report" to make QEMU crash instead of hang if the host
filesystem is full.
svn path=/nixpkgs/trunk/; revision=22249
* Create some device nodes in the RPM/Deb disk images, since modern
distributions may not provide any device nodes (they're all
generated by udev).
svn path=/nixpkgs/trunk/; revision=14293
image, otherwise the post-installs script of the "passwd" package
will fail because /etc/login.defs is missing. This also fixes the
Ubuntu 8.10 image generation, woohoo!
svn path=/nixpkgs/trunk/; revision=14217
we run into trouble on Fedora 10 (RPM 4.6), where the default is no
longer /usr/src/something but $HOME/something.
svn path=/nixpkgs/trunk/; revision=13466
by Pjotr Prins a while back. This could also be used to generate
RPMs for packages that don't have a spec-file.
* Added checkinstall to Nixpkgs. However we don't use our own build
yet because with it "make install" segfaults in a Debian VM, while
the pre-built binary does work.
svn path=/nixpkgs/trunk/; revision=13400
* Updated Debian 4.0 to r4a. Dropped the revision ("r3", "r4a") from
the attribute name since Debian doesn't seem to keep old revisions
available anyway.
svn path=/nixpkgs/trunk/; revision=12849
for userspace networking / Samba again.
* vmtools: use KVM 74 and Linux 2.6.26, and use virtio for networking
/ disk access.
svn path=/nixpkgs/trunk/; revision=12768
image (i.e., it can contain any OS that obeys the interface
documented in the comment). See `testFreeBSD' for an example that
performs a build of the ATerm library on FreeBSD 7.0. This will be
used in the build farm to perform builds for platforms for which we
cannot synthesize VM images automatically.
svn path=/nixpkgs/trunk/; revision=11753
* In addition to the `diskImages' set, there now is a `diskImageFuns'
set that holds functions to build a disk image for a specific
distribution, given a list of names of top-level packages that
should be included in the image. This makes it easier to customise
an image (e.g. if you want to build an RPM in an image with some
very specific dependencies that aren't in the default image).
* Added Fedora 6.
svn path=/nixpkgs/trunk/; revision=11513
expression for a Debian closure automatically (so that we don't have
to remember to regenerate those files ourselves). The `import
<derivation>' feature generally shouldn't be used in Nixpkgs, but
since it's only used in the buildfarm it should be fine.
svn path=/nixpkgs/trunk/; revision=11512
from the "primary.xml.gz" file of Fedora and OpenSUSE distributions.
Analogous to the Deb closure generator.
* Image for Fedora 8.
svn path=/nixpkgs/trunk/; revision=11510