:title: reprepro .. _reprepro: Reprepro ######## Debian package mirroring tool At a Glance =========== :Hosts: * http://mirror-update.openstack.org :Ansible: * :git_file:`playbooks/roles/reprepro` :Projects: * https://mirrorer.alioth.debian.org :Documentation: * http://git.debian.org/?p=mirrorer/reprepro.git;a=blob_plain;hb=HEAD;f=docs/manual.html * https://github.com/esc/reprepro/blob/master/docs/recovery :Bugs: * https://bugs.debian.org/cgi-bin/pkgreport.cgi?pkg=reprepro;dist=unstable Overview ======== ``reprepro`` is the tool we use to mirror Debian repositories (including Ubuntu) to the AFS mirrors. When updating package mirrors, it is undesirable for the index to be out of sync with the actual packages on disk, and vice-versa. This is generally achieved by syncing in two stages -- firstly obtaining new files in the mirror and then secondly updating the indexes (and removing no-longer referenced files). Problems occur if the upstream mirror updates itself during this process (which may happen up to 4 times a day). Debian, for example runs a "push" model where first-tier mirrors are notified of in-progress updates (see ``__) and can restart any in-progress syncs to maintain consistency. OpenStack Infra is not suitable to apply for these notifications, as our mirror is not intended to be public and may be incomplete (we may not mirror all suites, or architectures, etc. as our needs dictate). This means if using other tools like `ftpsync `__ primarily intended for full replication we are very likely to have periods where our mirror gets out of sync (with subsequent job failures). ``reprepro`` is more commonly used to build and manage private repositories, but has a number of features making it suitable for our use. Rather than sync upstream indexes, it recreates them based upon files gathered from the upstream mirror. Since the upstream mirror remains consistent, ``reprepro`` will always download a consistent set of files. Then thanks to the release of the AFS mirror volume being atomic, we do not have any period where the repository package index doesn't match the set of packages in the filesystem. Since this does not require coordination with upstream, the same pattern is suitable across Ubuntu, Debian and other various apt repositories that may require integration (or perhaps do not provide facilities) for correct mirroring. Although ``reprepro`` can be more complicated to configure, it is consistent across these different distributions. ``reprepro`` also makes it fairly easy to mirror only certain suites or architectures for a given repository, and to modify these configurations as required. Repository signing ================== Note our repositories are not signed since ``reprepro`` recreates the indexes from scratch. This is actually somewhat helpful in avoiding the infra mirrors becoming de facto mirrors for a range of unrelated jobs (since we really do not guarantee contents for anything other than infra jobs). ``apt`` will require ``--no-check-gpg`` or similar settings in configuration to use OpenStack mirrors. Normal operation ================ Repository syncs are driven from ``cron`` on the ``mirror-update.opendev.org`` host using the ``/usr/local/bin/reprepro-mirror-update`` script. Repositories will update, remove old references and perform the ``vos release``. Removing components =================== As we drop support for various releases we may wish to remove them from the mirror. Firstly you should commit a change removing the distribution from the configuration files. It is then a one-time manual process to remove the actual files on disk, which should be done with the update lock held. It is best to run this in a root screen session. This will look like:: # find the appropriate lock; config and volume; # easy way is to look at the cron job arguments $ flock -n /var/run/reprepro/.lock bash $ K5START="k5start -t -f /etc/reprepro.keytab service/reprepro -- " $ REPREPRO="${K5START} reprepro --confdir /etc/reprepro/" # Clean up package indexes. This takes a few minutes $ ${REPREPRO} --delete clearvanished # We have keepunreferenced, because we take a two-step approach # of dumping the unreferenced files in one run, then deleting them in # the next, to ensure any tests in progress can access the old files. # In this removal situation, we should clear out the files now # This can take a while depending on the size of what is removed $ ${REPREPRO} --nokeepunreferencedfiles deleteunreferenced # The ssh wrapper is the easiest way to release the volume $ source /usr/share/mirror-update/functions.sh $ vos_release $ exit Advanced Recovery Techniques ============================ For a small repository, corruption is probably best handled by removing the entire repository and re-syncing. This is undesirable for larger repositories, however. .. note:: Be careful with ``vos release`` which is done as part of ``/usr/local/bin/reprepo-mirror-update`` to avoid inadvertently releasing in progress work. Also be aware the commands in that script by default run under ``timeout`` which you may not want in recovery. Corrupt ``reprepo`` databases will halt mirroring with often obscure symptoms. For example, this has been seen in production with ``reprepo`` ending up hung in an silent infinite loop. In this case, using ``strace`` revealed the last operation was on a file-descriptor related to a ``.db`` file, which gave a clue the databases were corrupt. Other failures may be possible, of course. The following assumes you have a root shell with the correct AFS permissions for the mirror volumes, drop into something like:: k5start -t -f /etc/reprepro.keytab service/reprepro -- bash We will use the Ubuntu repository as an example below. In a crisis, you want to stop the cron job running to update the repo. You can either edit it out with ``crontab -e`` and put the host in the emergency file (so puppet doesn't replace it) or, in a pinch, take the lock in a infinite loop like :: flock -n /var/run/reprepro/ubuntu.lock bash -c while true; do sleep 1000; done Firstly check in ``dmesg`` for AFS related errors. It is quite likely any corruption has happened due to issues at this layer, so ensure stability here before continuing to further recovery. The databases are in the ``db`` directory in the mirror:: # ls /afs/.openstack.org/mirror/ubuntu/db checksums.db contents.cache.db packages.db references.db release.caches.db version It is best to make backup copies before any recovery operations. Although AFS /should/ keep up, you should do any recovery of the ``db`` directory on a local copy to avoid any intermittent issues there further corrupting the database, then copy back the updated files when complete.:: # cp -r /afs/.openstack.org/mirror/ubuntu/db ~/db For convenience, setup the common ``reprepo`` options for verbose logging, the configuration directory and to work on the local database:: # export REPREPRO="reprepro -VVV --confdir /etc/reprepro/ubuntu --dbdir ~/db" From the upstream recovery document, the ``references.db`` can be removed and recreated quickly with:: $REPREPRO rereference The ``checksums.db`` can also be recreated. You can rebuild with:: cd /afs/.openstack.org/mirror/ubuntu find -type f -printf "pool/%P\n" > /tmp/file-list $REPREPRO -b . _detect < /tmp/file-list * This will take several hours (~6 hours in 2017) as it touches all the repo files. Note that if the ``.deb`` files on disk are corrupt, this may lead to errors on update about mismatching checksums which have been stored in the database. Likely you want to remove these files from disk and from the checksums database with a command similar to:: $REPREPRO _forget pool/main/p/package/the_package_1.2.3.deb rm pool/main/p/package/the_package_1.2.3.deb They should come back with the next update. In some situations where things are very out of sync, it may be easier to remove and replace an entire section of the repository. For example, if during updates files within ``xenial-security`` are seen to be corrupt, you can remove ``xenial-security`` from ``/etc/reprepro/ubuntu/distributions`` and run the following:: # remove old $REPREPRO --delete clearvanished # run an update $REPREPRO update You can then re-add the entries and run another update, which should resync everything from fresh. You may also see errors relating to individual packages not being referenced correctly:: checking references to 'bionic|main|arm64' for 'texlive-latex-base': pool/main/t/texlive-base/texlive-latex-base_2017.20180305-1_all.deb Missing reference to 'pool/main/t/texlive-base/texlive-latex-base_2017.20180305-1_all.deb' by 'bionic|main|arm64' ... There have been errors! In this case, the ``_addreference`` command can be useful. The parameters are the *filekey*, which is the path to the file, and the *identifier*, which is the tuple ``bionic|main|arm64`` above. To restore the reference try:: # $REPREPRO _addreference pool/main/t/texlive-base/texlive-latex-base_2017.20180305-1_all.deb 'bionic|main|arm64' Adding reference to 'pool/main/t/texlive-base/texlive-latex-base_2017.20180305-1_all.deb' by 'bionic|main|arm64' Remember to put the databases back in place:: # mv /afs/.openstack.org/mirror/ubuntu/db /afs/.openstack.org/mirror/ubuntu/db.old # cp -r ~/db /afs/.openstack.org/mirror/ubuntu/ To stage a recovery prior to release, you can modify the ``mirror_root`` argument in ``openstack_project::mirror`` puppet to point Apache to the RW mirror ``/afs/.openstack.org/mirror`` where fixes are deployed, rather than the released RO ``/afs/openstack.org/mirror``. This way you can avoid having to release the RO mirror and switch back quickly if things don't work. When fixed, you can either manually run ``vos release``, or restore cron and let the next ``reprepro-mirror-update`` run do it.