Initialising a dak database schema ================================== The following packages are needed for the database: * postgresql-9.1 postgresql-client-9.1 postgresql-9.1-debversion and the following packages for dak itself: * python-psycopg2 python-sqlalchemy python-apt gnupg dpkg-dev lintian binutils-multiarch python-yaml less python-ldap python-pyrss2gen python-rrdtool symlinks python-debian (the schema assumes at least postgresql 9.1; ftpmaster in Debian currently uses the squeeze postgresql 9.1 backport) The following roles are assumed to exist: * dak: database superuser: needs to be an actual user * ftpmaster: role which should be given to archive administrators * ftpteam: people who can do NEW processing, overrides, removals, etc * ftptrainee: people who can add notes to packages in NEW For the purposes of this document, we'll be working in /srv/dak Set up the dak user: # sudo addgroup --system ftpmaster # sudo adduser --system dak --ingroup ftpmaster --shell /bin/bash Create postgres roles and database: # sudo -u postgres psql CREATE USER dak CREATEROLE; CREATE ROLE ftpmaster WITH ROLE dak; CREATE ROLE ftpteam WITH ROLE ftpmaster; CREATE ROLE ftptrainee WITH ROLE ftpmaster, ftpteam; CREATE DATABASE projectb WITH OWNER dak TEMPLATE template0 ENCODING 'SQL_ASCII'; \c projectb CREATE EXTENSION IF NOT EXISTS plpgsql; CREATE EXTENSION IF NOT EXISTS debversion; Set up the dak directory: # sudo mkdir /etc/dak # sudo mkdir /srv/dak # sudo chown dak:ftpmaster /srv/dak # sudo chmod 2775 /srv/dak Create a symlink to /srv/dak/dak.conf in /etc/dak (we'll create the config file in a bit) # sudo ln -s /srv/dak/dak.conf /etc/dak/dak.conf Become the dak user: # sudo -u dak -s -H Import the schema. We redirect STDOUT to /dev/null as otherwise it's impossible to see if something fails. # psql -1 -f current_schema.sql -d projectb >/dev/null Set up some core data in projectb to get started (read the init_vars file if you wish to customise various aspects): # ./init_core Create a minimal dak.conf # ./init_minimal_conf > /srv/dak/dak.conf Set up a symlink somewhere # mkdir ~dak/bin # ln -s /path/to/dak.py ~dak/bin/dak At this point, you should be able to test that the database schema is up-to-date # dak update-db Run dak init-dirs to set up the initial /srv/dak tree # dak init-dirs Copy the email templates into the /srv/dak tree. WARNING: Please check these templates over and customise as necessary # cp templates/* /srv/dak/templates/ Set up a private signing key: don't set a passphrase as dak will not pass one through to gpg. Guard this key carefully! The key only needs to be able to sign, it doesn't need to be able to encrypt. # gpg --no-default-keyring --secret-keyring /srv/dak/keyrings/s3kr1t/dot-gnupg/secring.gpg --keyring /srv/dak/keyrings/s3kr1t/dot-gnupg/pubring.gpg --gen-key Remember the signing key id for when creating the suite below. Here we'll pretend it is DDDDDDDD for convenience Import some developer keys. Either import from keyservers (here AAAAAAAA): # gpg --no-default-keyring --keyring /srv/dak/keyrings/upload-keyring.gpg --recv-key AAAAAAAA or import from files: # gpg --no-default-keyring --keyring /srv/dak/keyrings/upload-keyring.gpg --import /path/to/keyfile Import the developer keys into the database The -U '%s' tells dak to add UIDs automatically # dak import-keyring -U '%s' /srv/dak/keyrings/upload-keyring.gpg Add some architectures you care about: # dak admin architecture add i386 "Intel x86 port" # dak admin architecture add amd64 "AMD64 port" Add a suite (origin=, label= and codename= are optional) signingkey= will ensure that Release files are signed # dak admin suite add-all-arches unstable x.y.z origin=MyDistro label=Master codename=sid signingkey=DDDDDDDD Re-run dak init-dirs to add new suite directories to /srv/dak # dak init-dirs ####################################################################### # Example package flow ####################################################################### For this example, we've grabbed and built the hello source package for AMD64 and copied it into /srv/dak/queue/unchecked. We start by performing initial package checks which will result in the package being moved to NEW # cd /srv/dak/queue/unchecked # dak process-upload *.changes ----------------------------------------------------------------------- hello_2.6-1_amd64.changes NEW for unstable (new) hello_2.6-1.debian.tar.gz optional devel (new) hello_2.6-1.dsc optional devel (new) hello_2.6-1_amd64.deb optional devel The classic greeting, and a good example The GNU hello program produces a familiar, friendly greeting. It allows non-programmers to use a classic computer science tool which would otherwise be unavailable to them. . Seriously, though: this is an example of how to do a Debian package. It is the Debian version of the GNU Project's `hello world' program (which is itself an example for the GNU Project). (new) hello_2.6.orig.tar.gz optional devel Changes: hello (2.6-1) unstable; urgency=low . * New upstream release. * Drop unused INSTALL_PROGRAM stuff. * Switch to 3.0 (quilt) source format. * Standards-Version: 3.9.1 (no special changes for this). Override entries for your package: Announcing to debian-devel-changes@lists.debian.org [N]ew, Skip, Quit ?N Moving to NEW queue. Sending new ack. ----------------------------------------------------------------------- We can now look at the NEW queue-report # dak queue-report ----------------------------------------------------------------------- NEW --- hello | 2.6-1 | source amd64 | 5 seconds old 1 new source package / 1 new package in total. ----------------------------------------------------------------------- And we can then process the NEW queue: # cd /srv/dak/queue/new # dak process-new *.changes ----------------------------------------------------------------------- hello_2.6-1_amd64.changes NEW hello optional devel Add overrides, Edit overrides, Check, Manual reject, Note edit, Prod, [S]kip, Quit ?A ACCEPT ----------------------------------------------------------------------- At this stage, the package has been marked as ACCEPTed from NEW. We now need to process the NEW policy queue: # dak process-policy new ----------------------------------------------------------------------- Processing changes file: hello_2.6-1_amd64.changes ACCEPT ----------------------------------------------------------------------- We can now see that dak knows about the package: # dak ls -S hello ----------------------------------------------------------------------- hello | 2.6-1 | unstable | source, amd64 ----------------------------------------------------------------------- # dak control-suite -l unstable ----------------------------------------------------------------------- hello 2.6-1 amd64 hello 2.6-1 source ----------------------------------------------------------------------- Next, we can generate the packages and sources files: # dak generate-packages-sources2 (zcat /srv/dak/ftp/dists/unstable/main/binary-amd64/Packages.gz for instance) And finally, we can generate the signed Release files: # dak generate-release ----------------------------------------------------------------------- Processing unstable ----------------------------------------------------------------------- (Look at /srv/dak/ftp/dists/unstable/Release, Release.gpg and InRelease) ####################################################################### # Next steps ####################################################################### The debian archive automates most of these steps in jobs called cron.unchecked, cron.hourly and cron.dinstall. TODO: Write example (simplified) versions of these cronjobs which will do for most installs.