CentOS clearly defines what a SIG (Special Interest Group) is : a group of people sharing interest into a specific task/tech area, and willing to build/test/deliver artifacts (like RPM packages) that CentOS users can then consume.
Each SIG must be approved by the CentOS board, and no action should be taken before that. Once approved and CentOS board meeting minutes published, we can (Infra and Releng) proceed with next steps :
We first need to create the SIG group in IPA (if it doesn't exist yet) and it shouldn't of course conflict with any existing. Requirements:
admin
right in IPA to be able to create the groupipa-shell.iad2.centos.org
but can be any enrolled node within the @FEDORAPROJECT.ORG REALM (verify that you have a valid
krb5 ticket or next steps will fail)We can use either the IPA UI, or for automation purposes,just use the ipa cli. Basicall three commands:
ipa group-add
: to create the groupipa group-add-member
: to add the first useripa group-add-member-manager
: to grant "sponsor" right to sig chair, himself then able to add usersHere is a full output/example about creating the sig-kmods
with one chair (valid IPA/FAS account) :
# Defininig first some variables sig_name="sig-kmods" sig_description="The CentOS kmods SIG" sig_chair="pjgeorg" # Now creating group and granting rights ipa group-add --desc="${sig_description}" --fasgroup ${sig_name} ----------------------- Added group "sig-kmods" ----------------------- Group name: sig-kmods Description: The CentOS kmods SIG GID: 1494370508 FAS group: True ipa group-add-member ${sig_name} --users=${sig_chair} Group name: sig-kmods Description: The CentOS kmods SIG GID: 1494370508 Member users: pjgeorg Membership managed by users: pjgeorg ------------------------- Number of members added 1 ------------------------- ipa group-add-member-manager ${sig_name} --users=${sig_chair} Group name: sig-kmods Description: The CentOS kmods SIG GID: 1494370508 Membership managed by users: pjgeorg ------------------------- Number of members added 1 -------------------------
If you need to add later more "sponsor" user, just repeat the ipa group-add-member-manager
operation with new user.
At this stage, the group should appear throug portal on https://accounts.centos.org
Worth knowing also that in the next minutes, an automatic email alias is created for the group following the naming convention sig-<name>@centosproject.org
and that will automatically include all sig members email addresses, once added (and removed when removed)
Same for SIG members : an email alias following the <user>@centosproject.org
alias is also created for all SIG members (and pointing to the email address they used when they registered their ACO/FAS account)
More informations about this in the Ansible postfix role
Don't forget to also add the new sig-<group> to the centosproject-email-aliases
group as indirect member so that all new SIG members will be granted an email alias, based ont he role described above.
Each SIG can push to specific branches on git.centos.org (computed automatically from some sig prefixes and sig name).
To allow a new SIG group to have the automatic right in git.centos.org (and reflect group membership there though centralized authentication), we need to just add sig-<name>
to the existing pagure_supported_sigs
ansible list/vars in Ansible inventory.
Once pushed and applied (automatically by Ansible), when a SIG member will login again, his group membership will be synced and such user will be allowed to :
More informations about this in the Git section.
While not fully needed, it's now a good idea to send mail to that new SIG to welcome them. Something like this :
To: <sig_name>@centosproject.org Subject: Welcome to the new <sig_name> SIG ! Hi, This welcome email means that your new group <sig_name> was created and granted some management rights to at least the SIG Chair. The group should appear now on https://accounts.centos.org/group/<sig_name>/ Also worth knowing that each SIG member is also automatically granted an email alias following this convention : <user>@centosproject.org If you have any needs, requests, feel free to contact the CentOS Infra and Releng team through https://pagure.io/centos-infra/issues. Kind Regards,
Each SIG building RPM packages through https://cbs.centos.org community build service will need a GPG security key that will be then automatically be used by the signing service
Danger
Due to sensitive information ,the following steps are restricted to a very limited number of people and on a restrictive node that doesn't have any direct inbound connection. Worth knowing that such node isn't reachable directly by the central ansible automation system, so ansible automation has to be ran "on demand" by people taking following actions.
We first need to create a new GPG key on the signing machine , protected with a strong passphrase, that will be needed to unlock signing service/agent.
To generate a strong passphrase you can for example use openssl rand -base64 30
(or any other strong/long passphrase generator)
Let's use the sig-kmods
SIG as an example for the next steps (and of course adapt on each operation, manual step)
We first need to ssh as the signing user (important for TTY) on the signing service machine. Then we can proceed like this :
# Let's define some variables first sig_name="CentOS Kmods SIG" sig_url="https://wiki.centos.org/SpecialInterestGroup/Kmods" sig_key_passphrase="Of_Course_A_Real_Passphrase_generated_as_described_above" # Creating the key in keyring gpg --batch --gen-key <<EOF Key-Type: 1 Key-Length: 2048 Subkey-Type: 1 Subkey-Length: 2048 Name-Real: ${sig_name} Name-Comment: ${sig_url} Name-Email: security@centos.org Passphrase: ${sig_key_passphrase} Expire-Date: 0 EOF gpg: key 7AE06D54 marked as ultimately trusted
As we can see the key was created but we have first to unlock it now (in gpg-agent) with the generated passphrase, otherwise CBS signing service will be blocked (replace obviously gpg key id with the output above) :
# Unlocking the key key_id=$(gpg --list-keys | egrep -B 1 "${sig_name}"|head -n 1|awk '{print $2}'|cut -f 2 -d '/') test_file=$(mktemp) timeout 30 gpg --batch --sign -b --use-agent --local-user ${key_id} ${test_file} && rm ${test_file} || echo "Signing failed"
Now that CBS signing service is ready, we have to export the new key and so push it to the website (so that people can see it publicly to verify and also have it embedded in a centos-release-* rpm pkg :
# extract key gpg --export --armor ${key_id} > /var/tmp/RPM-GPG-KEY-CentOS-SIG-$(echo ${sig_name/CentOS/}|sed 's/SIG//') gpg --with-fingerprint /var/tmp/RPM-GPG-KEY-CentOS-SIG-$(echo ${sig_name/CentOS/}|sed 's/SIG//') pub 2048R/7AE06D54 2021-06-22 CentOS Kmods SIG (https://wiki.centos.org/SpecialInterestGroup/Kmods) <security@centos.org> Key fingerprint = 48EF 712E C5DD B68B 5280 BE45 5B8E 1A76 7AE0 6D54 sub 2048R/E46DCBCB 2021-06-22
Now either submit a PR or directly do a git commit/push to CentOS.org git repository and key will be available on website automatically after.
Simply drop the RPM-GPG-KEY-CentOS-SIG-<name>
under /keys/ directory and update /keys.md to add the link to download the key and show fingerprint
Here is the Kmods SIG commit given a reference
Warning
Don't forget to also put the gpg passphrase in the git-crypted pkistore as it will be needed each time that we'll have to unlock the gpg keys in keyring (like on a reboot of the signing machine/service)
Last step is to then play the stylo role with ansible after having updated the signing node stylo_gpg_sigs
list in host_vars. Attention that gpg key id has to be written in lowercase though :
ansible-playbook playbooks/role-stylo.yml --tags "config"
CBS uses a specific naming convention for the koji tags that will be created. It's important that we follow that specific convention because the signing/pushing automated process parses the tags to know which gpg SIG key to use, and where to push content that will appear on the mirror network.
Tag structure:
candidate
, testing
or release
What's the influence of the tag level
mentioned above ?
* candidate : ignored by signing service, build stays in koji, used to validate build itself or just internal unit-test happening through ci.centos.org for SIGs doing their tests in that environment
* testing : processed by signing service but packages aren't signed, and just land on https://buildlogs.centos.org CDN, so just to have publicly available pkgs that can be promoted to release
by SIG later
* release : processed by signing service : packages are gpg signed with SIG key, and content appear on the mirror CDN and can be consummed by all
To create tags, we have in place a tool that is maintained through ansible-role-kojihub and distributed on the kojihub node itself.
That means that to be able to use it, you need to have local shell access and kick the following commands as the koji
user , or eventually have admin rights and kick the tool from outside
/opt/cbs-tools/scripts/create_sig.sh usage: /opt/cbs-tools/scripts/create_sig.sh -d <distribution> -s <signame(s)> -t <tag(s)> This script generate new build target in koji for SIGS. OPTIONS: -a ARCHES : Force arches e.g : "x86_64","aarch64 i686", etc... -b : Enable non public bootstrap repo (SCLO SIG only) -c COLLECTION : Enable collection in the buildroot e.g : mariadb100 -d DISTRIBUTION : 5 6 7 8 8s -p SIG PROJECT NAME : cloud6-<openstack>, sclo-<mariadb100>, etc... -r SIG PROJECT RELEASE NAME : cloud6-openstack-<juno> -s SIG NAME : cloud -t DISTTAGS : el7 el7.centos el8_0 el8s -x : delete old -build tag and then recreate.
Let's use the Kmods SIG again as an example :
/opt/cbs-tools/scripts/create_sig.sh -a "x86_64" -s kmods -d 8s -p packages -r main -t el8 * Checking distribution el8s configuration... -> Checking kmods config... Creating user : kmods Using default options for kmods/packages Creating tag : kmods8s-packages-main-candidate Creating tag : kmods8s-packages-main-testing Creating tag : kmods8s-packages-main-release -> creating kmods8s-packages-main-el8 Added external repo centos8s-cr to tag kmods8s-packages-main-el8-build (priority 5) Added external repo centos8s-extras to tag kmods8s-packages-main-el8-build (priority 10) Added external repo centos8s-powertools to tag kmods8s-packages-main-el8-build (priority 15) Added external repo centos8s-appstream to tag kmods8s-packages-main-el8-build (priority 20) Added external repo centos8s-baseos to tag kmods8s-packages-main-el8-build (priority 25)
It's always possible to modify some existing tags through standard koji
(or cbs
alias) CLI calls.
Example : let's add additional architectures for the Kmods SIG :
for i in el8-build candidate testing release ; do koji edit-tag --arches="x86_64 ppc64le aarch64" kmods8s-packages-main-${i}; koji taginfo kmods8s-packages-main-${i}|grep Arches ; done
If some SIGs want to depend on external repo, like to get all -devel packages from CentOS Stream, we can also add it :
externalrepo_name="centos8s-buildroot" externalrepo_url="http://kojifiles.rdu2.centos.org/kojifiles/repos/dist-c8-stream-build/latest/\$arch" sig_tag="hyperscale8s-packages-experimental-el8-build" koji add-external-repo --mode=bare --tag ${sig_tag} ${externalrepo_name} ${externalrepo_url} koji taginfo ${sig_tag}
If external repo is already defined, we just need to add it to tags and no need to redefine it :
sig_tag="hyperscale8s-packages-main-el8-build" externalrepo_name="epel8" koji add-external-repo --mode bare --tag=${sig_tag} ${externalrepo_name}