* rename db roles that are removed from manifests
* extend PostgresTeam e2e test
* make suffix configurable and add deprecated field to pgUser struct
* deny LOGIN from deprecated roles
* update feature documentation
* add default values to operatorconfiguration crd
* leave default for enable_master_load_balancer to true
* add missing bits for new logical backup option
* fix wrong lb tag and update chart package
* PostgresTeamCRD for advanced team management
* rework internal structure to be closer to CRD
* superusers instead of admin
* add more util functions and unit tests
* fix initHumanUsers
* check for superusers when creating normal teams
* polishing and fixes
* adding the essential missing pieces
* add documentation and update rbac
* reflect some feedback
* reflect more feedback
* fixing debug logs and raise QueueResyncPeriodTPR
* add two more flags to disable CRD and its superuser support
* fix chart
* update go modules
* move to client 1.19.3 and update codegen
Connection pooler support
Add support for a connection pooler. The idea is to make it generic enough to
be able to switch between different implementations (e.g. pgbouncer or
odyssey). Operator needs to create a deployment with pooler and a service for
it to access.
For connection pool to work properly, a database needs to be prepared by
operator, namely a separate user have to be created with an access to an
installed lookup function (to fetch credential for other users).
This setups is supposed to be used only by robot/application users. Usually a
connection pool implementation is more CPU bounded, so it makes sense to create
several pods for connection pool with more emphasize on cpu resources. At the
moment there are no special affinity or tolerations assigned to bring those
pods closer to the database. For availability purposes minimal number of
connection pool pods is 2, ideally they have to be distributed between
different nodes/AZ, but it's not enforced in the operator itself. Available
configuration supposed to be ergonomic and in the normal case require minimum
changes to a manifest to enable connection pool. To have more control over the
configuration and functionality on the pool side one can customize the
corresponding docker image.
Co-authored-by: Felix Kunde <felix-kunde@gmx.de>
The current password generation algorithm is extremely deterministic, due to being based on the standard random number generator with a deterministic seed based on the current Unix timestamp (in seconds).
This can lead to a number of security issues, including:
The same passwords being used in different Kubernetes clusters if the operator is deployed in parallel. (This issue was discovered because of four deployments having the same generated passwords due to automatically being deployed in parallel.)
The passwords being easily guessable based on the time the operator pod started when the database was created. (This would typically be present in logs, metrics, etc., that may typically be accessible to more people than should have database access.)
Fix this issue by replacing the current randomness source with crypto/rand, which should produce cryptographically secure random data that is virtually unguessable. This will avoid both of the above problems as each deployment will be guaranteed to have unique, indeterministic passwords.
* add validation for PG resources and volume size
* check resource requests also on UPDATE and SYNC + update docs
* if cluster was running don't error on sync
Previously, the operator put pg_hba into the bootstrap/pg_hba key of
Patroni. That had 2 adverse effects:
- pg_hba.conf was shadowed by Spilo default section in the local
postgresql configuration
- when updating pg_hba in the cluster manifest, the updated lines were
not propagated to DCS, since the key was defined in the boostrap
section of Patroni.
Include some minor refactoring, moving methods to unexported when
possible and commenting out usage of md5, so that gosec won't complain.
Per https://github.com/zalando-incubator/postgres-operator/issues/330
Review by @zerg-junior
* client-go v4.0.0-beta0
* remove unnecessary methods for tpr object
* rest client: use interface instead of structure pointer
* proper names for constants; some clean up for log messages
* remove teams api client from controller and make it per cluster
The flag adds a replica service with the name cluster_name-repl and
a DNS name that defaults to {cluster}-repl.{team}.{hostedzone}.
The implementation converted Service field of the cluster into a map
with one or two elements and deals with the cases when the new flag
is changed on a running cluster
(the update and the sync should create or delete the replica service).
In order to pick up master and replica service and master endpoint
when listing cluster resources.
* Update the spec when updating the cluster.
The sync adds or alters database roles based on the roles defined
in the cluster's TPR, Team API and operator's infrastructure roles.
At the moment, roles are not deleted, as it would be dangerous for
the robot roles in case TPR is misconfigured. In addition, ALTER
ROLE does not remove role options, i.e. SUPERUSER or CREATEROLE,
neither it removes role membership: only new options are added and
new role membership is granted. So far, options like NOSUPERUSER
and NOCREATEROLE won't be handed correctly, when mixed with the
non-negative counterparts, also NOLOGIN should be processed correctly.
The code assumes that only MD5 passwords are stored in the DB and
will likely break with the new SCRAM auth in PostgreSQL 10.
On the implementation side, create the new interface to abstract
roles merge and creation, move most of the role-based functionality
from cluster/pg into the new 'users' module, strip create user code
of special cases related to human-based users (moving them to init
instead) and fixed the password md5 generator to avoid processing
already encrypted passwords. In addition, moved the system roles
off the slice containing all other roles in order to avoid extra
efforts to avoid creating them.
Also, fix a leak in DB connections when the new connection is not
considered healthy and discarded without being closed. Initialize
the database during the sync phase before syncing users.
* Add version label to the cluster.
According to the STUPS team the daemon that exports logs to scalyr
stops the export if the version label is missing.
* Move label names to constants.
* Run go fmt
- Use the branch of pretty with this feature fixed:
https://github.com/kr/pretty/pull/42
- Add the Limit to the resources declaration to avoid dummy
differences between statefulsets (where both Resource structures
are empty, but in one case the fields are not mentioned, while
in another they are assigned to empty values).
- add a new environment variable for triggering debug log level
- show both new, old object and diff during syncs and updates
- use pretty package to pretty-print go structures
-
Previously, the controller fetched the Oauth token once at start, so eventually the token would expire and the operator could not create new users. This commit makes the operator fetch the token before each call to the Teams API.
* move statefulset creation from cluster spec to the separate function
* sync cluster state with desired state;
* move out from arrays for cluster resources;
* recreate pods instead of deleting them in case of statefulset change
* check for master while creating cluster/updating pods
* simplify retryutil
* list pvc while listing resources
* name kubernetes resources with capital letter
* do rolling update in case of env variables change
DNS name is generated from the team name and cluster name.
Use "zalando.org/dnsname" service annotation that makes 'mate' service assign a CNAME to the load balancer name.
introduce Pod events channel;
add parsing of the MaintenanceWindows section;
skip deleting Etcd key on cluster delete;
use external etcd host;
watch for tpr/pods in the namespace of the operator pod only;
Felix Kunde
Igor Yanchenko
Dmitry Dolgov
Fredrik Østrem
Vineeth Reddy
zerg-junior
Oleksii Kliukin
Sergey Dudoladov
Murat Kabilov
Oleksii Kliukin
Murat Kabilov
Oleksii Kliukin