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| = Setting up a local Soyuz = |
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| = Initial setup = |
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| * Once you've set up your test database, run {{{utilities/soyuz-sampledata-setup.py -e you@example.com}}} (where ''you@example.com'' should be an email address you own and have a GPG key for). This prepares more suitable sample data in the {{{launchpad_dev}}} database. If you get a "duplicate key" error, {{{make schema}}} and run again. After this, your sample data will include a realistic sampling of Ubuntu releases, and you'll have a user called "ppa-user" with password "test" and using your own email address. You'll be able to log in with your own email address, and sign things for this user with your own GPG key. The user is an Ubuntero and a member of {{{ubuntu-team}}}. |
* Once you've set up your test database, run {{{utilities/soyuz-sampledata-setup.py -e you@example.com}}} (where ''you@example.com'' should be an email address you own and have a GPG key for). This prepares more suitable sample data in the {{{launchpad_dev}}} database, including recent Ubuntu series. If you get a "duplicate key" error, {{{make schema}}} and run again. * `make run` (or if you also want to use codehosting, `make run_codehosting`—some services may fail to start up because you already started them, but it shouldn't be a problem). * Open https://launchpad.dev/~ppa-user/+archive/test-ppa in a browser to get to your pre-made testing PPA. Log in with your own email adddress and password ''test''. This user has your GPG key associated, has signed the Ubuntu Code of Conduct, and is a member {{{ubuntu-team}}} (conferring upload rights to the primary archive). |
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| = Configure an account and PPA = * `make run` (or if you also want to use codehosting, `make run_codehosting`—some services may fail to start up because you already started them, but it shouldn't be a problem). * Open https://launchpad.dev/~ppa-user/+archive/test-ppa in a browser to get to your pre-made testing PPA. Log in with your own email adddress and password ''test''. = Set up the PPA = |
== Extra PPA dependencies == |
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| = Configure a buildd = | = Setup a build slave = |
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| This assumes a local install of the {{{launchpad-buildd}}} package. A less intrusive setup using chroot is under [[BuildFarm/TryOutBuildSlave|TryOutBuildSlave]]. | == Installation == |
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| * Create a new trusty virtual-machine with kvm (recommended), or alternatively a trusty lxc container. If using lxc, set `lxc.aa_profile = unconfined` in `/var/lib/lxc/container-name/config` which is required to disable App``Armor support. If you are running Launchpad in a container, you will more than likely want your VM's network bridged on `lxcbr0`. In your slave vm/lxc: * sudo apt-add-repository ppa:launchpad * sudo apt-get update * sudo apt-get install launchpad-buildd * Edit `/etc/launchpad-buildd/default` and make sure ntphost points to an existing NTP server. You can check the [[http://www.pool.ntp.org/|NTP server pool]] to find one near you. == Launchpad Configuration == |
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| * Make it work. * Might need to add `--umask=022` to `twistd` args in `/etc/init.d/launchpad-buildd`, or `pkg-create-dbgsym` fails obscurely. * Edit `/etc/launchpad-buildd/default` and make sure `ntphost` points to an existing NTP server. You can check the [[http://www.pool.ntp.org/|NTP server pool]] to find one near you. * Get an Ubuntu buildd chroot from Launchpad * Find the URL at https://edge.launchpad.net/api/devel/ubuntu/lucid/i386/chroot_url (or similar). * If you want lucid and your architecture is i386, download the tarball with: |
From your host system: * Get an Ubuntu buildd chroot from Launchpad, using `manage-chroot` from [[https://code.launchpad.net/+branch/ubuntu-archive-tools|lp:ubuntu-archive-tools]]: |
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| wget -O - -q https://edge.launchpad.net/api/devel/ubuntu/lucid/i386/chroot_url | xargs wget | manage-chroot -s precise -a i386 get LP_DISABLE_SSL_CERTIFICATE_VALIDATION=1 manage-chroot -l dev -s precise -a i386 -f chroot-ubuntu-precise-i386.tar.bz2 set |
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| * `scripts/ftpmaster-tools/manage-chroot.py -s lucid -a i386 add -f chroot-ubuntu-lucid-i386.tar.bz2` | |
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| Please note a "builder" and a "chroot" are not the same thing, nor are they "associated" in any way. The logic is as follows: * PPAs require builders (a machine where to build packages) * The builder may be virtualized (for instance, launchpad.net uses Xen-virtualized builders) or the same machine where Launchpad (meaning "your launchpad.dev") is running, which is what this page details. Using the very same machine where Launchpad.dev is running limits the architectures you can build for: if you are running on i386, you can't build for PowerPC, for instace. * A builder needs to setup a bootstrap (what you get with debootstrap) Linux. That bootstrap is what you get in the chroot tarballs mentioned above. * When you upload a package and tell Launchpad to process it (see below for this), the builder will pick the chroot it needs (for instance, karmic i386), uncompress it and start building the package. * In summary, there are two lists: a list of builders and a list of chroots. |
= Drive slave through rpc = With librarian running, fire up a python shell and: {{{ import xmlrpclib proxy = xmlrpclib.ServerProxy('http://localhost:8221/rpc') proxy.ensurepresent('d267a7b39544795f0e98d00c3cf7862045311464', 'http://launchpad.dev:58080/93/chroot-ubuntu-lucid-i386.tar.bz2', '', '') proxy.build('1-1', 'translation-templates', 'd267a7b39544795f0e98d00c3cf7862045311464', {}, {'archives': ['deb http://archive.ubuntu.com/ubuntu/ lucid main'], 'branch_url': '/home/buildd/gimp-2.6.8'}) proxy.status() proxy.clean() # Clean up if it failed }}} You may have to calculate a new sha1sum of the chroot file. |
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| * Run `scripts/process-upload.py /var/tmp/poppy` (creates hierarchy) | * Run `scripts/process-upload.py /var/tmp/txpkgupload` (creates hierarchy) |
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| * `scripts/process-upload.py /var/tmp/poppy -C absolutely-anything # Accept the source upload.` | * `scripts/process-upload.py /var/tmp/txpkgupload -C absolutely-anything -vvv # Accept the source upload.` |
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| * Within five seconds of upload acceptance, the buildd should start building. Wait until it is complete. * `scripts/process-accepted.py --ppa ubuntu # Create publishings for the binaries.` * `scripts/publish-distro.py --ppa # Publish the source and binaries.` |
* Within five seconds of upload acceptance, the buildd should start building. Wait until it is complete (the build page will say "Uploading build"). * `scripts/process-upload.py -vvv --builds -C buildd /var/tmp/builddmaster # Process the build upload.` * `scripts/process-accepted.py -vv --ppa ubuntu # Create publishings for the binaries.` * `scripts/publish-distro.py -vv --ppa # Publish the source and binaries.` |
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| * `scripts/process-upload.py /var/tmp/poppy` | * `scripts/process-upload.py -vvv /var/tmp/txpkgupload` |
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| * `scripts/process-accepted.py ubuntu` * `scripts/publish-distro.py` |
* `scripts/process-accepted.py -vv ubuntu` * `scripts/publish-distro.py -vv` |
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= Notes = <<Anchor(pygpgme)>> == Errors importing key to local zeca == If you are getting [[http://pastebin.ubuntu.com/386801/|an error]] when importing your key to zeca and you are running Lucid, and [[https://bugs.edge.launchpad.net/pygpgme/+bug/452194|bug 452194]] is not fixed, you will need to: 1. Grab the [[http://pastebin.ubuntu.com/386803/|one line]] patch., 1. Apply it (patch -p0 sourcecode/pygpgme/src/pygpgme-context.c < pygpgme.patch) 1. make compile and then restart your local development zeca as well as the web app. |
You're going to run Soyuz in a branch you create for the purpose. To get the whole experience, you'll also be installing the slave-side launchpad-buildd package on your system.
Initial setup
Run utilities/start-dev-soyuz.sh to ensure that some Soyuz-related services are running. Some of these may already be running, in which case you'll get some failures that are probably harmless. Note: these services eat lots of memory.
Once you've set up your test database, run utilities/soyuz-sampledata-setup.py -e you@example.com (where you@example.com should be an email address you own and have a GPG key for). This prepares more suitable sample data in the launchpad_dev database, including recent Ubuntu series. If you get a "duplicate key" error, make schema and run again.
make run (or if you also want to use codehosting, make run_codehosting—some services may fail to start up because you already started them, but it shouldn't be a problem).
Open https://launchpad.dev/~ppa-user/+archive/test-ppa in a browser to get to your pre-made testing PPA. Log in with your own email adddress and password test. This user has your GPG key associated, has signed the Ubuntu Code of Conduct, and is a member ubuntu-team (conferring upload rights to the primary archive).
Extra PPA dependencies
The testing PPA has an external dependency on Lucid. If that's not enough, or not what you want:
Log in as admin@canonical.com:test (I suggest using a different browser so you don't break up your ongoing session).
Open https://launchpad.dev/~ppa-user/+archive/test-ppa/+admin
- Edit external dependencies. They normally look like:
deb http://archive.ubuntu.com/ubuntu %(series)s main restricted universe multiverse
Setup a build slave
Installation
Create a new trusty virtual-machine with kvm (recommended), or alternatively a trusty lxc container. If using lxc, set lxc.aa_profile = unconfined in /var/lib/lxc/container-name/config which is required to disable AppArmor support. If you are running Launchpad in a container, you will more than likely want your VM's network bridged on lxcbr0.
In your slave vm/lxc:
- sudo apt-add-repository ppa:launchpad
- sudo apt-get update
- sudo apt-get install launchpad-buildd
Edit /etc/launchpad-buildd/default and make sure ntphost points to an existing NTP server. You can check the NTP server pool to find one near you.
Launchpad Configuration
cd lib/canonical/buildd
debian/rules package
dpkg-buildpackage -b
sudo dpkg -i ../launchpad-buildd_*_all.deb
sudo apt-get -f install
From your host system:
Get an Ubuntu buildd chroot from Launchpad, using manage-chroot from lp:ubuntu-archive-tools:
manage-chroot -s precise -a i386 get LP_DISABLE_SSL_CERTIFICATE_VALIDATION=1 manage-chroot -l dev -s precise -a i386 -f chroot-ubuntu-precise-i386.tar.bz2 set
Mark Bob the Builder as OK (https://launchpad.dev/builders/bob/+edit)
Drive slave through rpc
With librarian running, fire up a python shell and:
import xmlrpclib
proxy = xmlrpclib.ServerProxy('http://localhost:8221/rpc')
proxy.ensurepresent('d267a7b39544795f0e98d00c3cf7862045311464', 'http://launchpad.dev:58080/93/chroot-ubuntu-lucid-i386.tar.bz2', '', '')
proxy.build('1-1', 'translation-templates', 'd267a7b39544795f0e98d00c3cf7862045311464', {},
{'archives': ['deb http://archive.ubuntu.com/ubuntu/ lucid main'], 'branch_url': '/home/buildd/gimp-2.6.8'})
proxy.status()
proxy.clean() # Clean up if it failedYou may have to calculate a new sha1sum of the chroot file.
Upload a source to the PPA
Run scripts/process-upload.py /var/tmp/txpkgupload (creates hierarchy)
Add to ~/.dput.cf:
[lpdev] fqdn = ppa.launchpad.dev:2121 method = ftp incoming = %(lpdev)s login = anonymous
Find a source package some_source with a changes file some_source.changes
dput -u lpdev:~ppa-user/test-ppa/ubuntu some_source.changes
scripts/process-upload.py /var/tmp/txpkgupload -C absolutely-anything -vvv # Accept the source upload.
If this is your first time running soyuz locally, you'll also need to publish ubuntu: scripts/publish-distro.py -C
- Within five seconds of upload acceptance, the buildd should start building. Wait until it is complete (the build page will say "Uploading build").
scripts/process-upload.py -vvv --builds -C buildd /var/tmp/builddmaster # Process the build upload.
scripts/process-accepted.py -vv --ppa ubuntu # Create publishings for the binaries.
scripts/publish-distro.py -vv --ppa # Publish the source and binaries.
- Note that private archive builds will not be dispatched until their source is published.
Dealing with the primary archive
dput lpdev:ubuntu some_source.changes
scripts/process-upload.py -vvv /var/tmp/txpkgupload
- Watch the output -- the upload might end up in NEW.
- If it does, go to the queue and accept it.
- Your builder should now be busy. Once it finishes, the binaries might go into NEW. Accept them if required.
scripts/process-accepted.py -vv ubuntu
scripts/publish-distro.py -vv
The first time, add -C to ensure a full publication of the archive.
