# Which Problems Are Solved
The current handling of notification follows the same pattern as all
other projections:
Created events are handled sequentially (based on "position") by a
handler. During the process, a lot of information is aggregated (user,
texts, templates, ...).
This leads to back pressure on the projection since the handling of
events might take longer than the time before a new event (to be
handled) is created.
# How the Problems Are Solved
- The current user notification handler creates separate notification
events based on the user / session events.
- These events contain all the present and required information
including the userID.
- These notification events get processed by notification workers, which
gather the necessary information (recipient address, texts, templates)
to send out these notifications.
- If a notification fails, a retry event is created based on the current
notification request including the current state of the user (this
prevents race conditions, where a user is changed in the meantime and
the notification already gets the new state).
- The retry event will be handled after a backoff delay. This delay
increases with every attempt.
- If the configured amount of attempts is reached or the message expired
(based on config), a cancel event is created, letting the workers know,
the notification must no longer be handled.
- In case of successful send, a sent event is created for the
notification aggregate and the existing "sent" events for the user /
session object is stored.
- The following is added to the defaults.yaml to allow configuration of
the notification workers:
```yaml
Notifications:
# The amount of workers processing the notification request events.
# If set to 0, no notification request events will be handled. This can be useful when running in
# multi binary / pod setup and allowing only certain executables to process the events.
Workers: 1 # ZITADEL_NOTIFIACATIONS_WORKERS
# The amount of events a single worker will process in a run.
BulkLimit: 10 # ZITADEL_NOTIFIACATIONS_BULKLIMIT
# Time interval between scheduled notifications for request events
RequeueEvery: 2s # ZITADEL_NOTIFIACATIONS_REQUEUEEVERY
# The amount of workers processing the notification retry events.
# If set to 0, no notification retry events will be handled. This can be useful when running in
# multi binary / pod setup and allowing only certain executables to process the events.
RetryWorkers: 1 # ZITADEL_NOTIFIACATIONS_RETRYWORKERS
# Time interval between scheduled notifications for retry events
RetryRequeueEvery: 2s # ZITADEL_NOTIFIACATIONS_RETRYREQUEUEEVERY
# Only instances are projected, for which at least a projection-relevant event exists within the timeframe
# from HandleActiveInstances duration in the past until the projection's current time
# If set to 0 (default), every instance is always considered active
HandleActiveInstances: 0s # ZITADEL_NOTIFIACATIONS_HANDLEACTIVEINSTANCES
# The maximum duration a transaction remains open
# before it spots left folding additional events
# and updates the table.
TransactionDuration: 1m # ZITADEL_NOTIFIACATIONS_TRANSACTIONDURATION
# Automatically cancel the notification after the amount of failed attempts
MaxAttempts: 3 # ZITADEL_NOTIFIACATIONS_MAXATTEMPTS
# Automatically cancel the notification if it cannot be handled within a specific time
MaxTtl: 5m # ZITADEL_NOTIFIACATIONS_MAXTTL
# Failed attempts are retried after a confogired delay (with exponential backoff).
# Set a minimum and maximum delay and a factor for the backoff
MinRetryDelay: 1s # ZITADEL_NOTIFIACATIONS_MINRETRYDELAY
MaxRetryDelay: 20s # ZITADEL_NOTIFIACATIONS_MAXRETRYDELAY
# Any factor below 1 will be set to 1
RetryDelayFactor: 1.5 # ZITADEL_NOTIFIACATIONS_RETRYDELAYFACTOR
```
# Additional Changes
None
# Additional Context
- closes#8931
# Which Problems Are Solved
Use a single server instance for API integration tests. This optimizes
the time taken for the integration test pipeline,
because it allows running tests on multiple packages in parallel. Also,
it saves time by not start and stopping a zitadel server for every
package.
# How the Problems Are Solved
- Build a binary with `go build -race -cover ....`
- Integration tests only construct clients. The server remains running
in the background.
- The integration package and tested packages now fully utilize the API.
No more direct database access trough `query` and `command` packages.
- Use Makefile recipes to setup, start and stop the server in the
background.
- The binary has the race detector enabled
- Init and setup jobs are configured to halt immediately on race
condition
- Because the server runs in the background, races are only logged. When
the server is stopped and race logs exist, the Makefile recipe will
throw an error and print the logs.
- Makefile recipes include logic to print logs and convert coverage
reports after the server is stopped.
- Some tests need a downstream HTTP server to make requests, like quota
and milestones. A new `integration/sink` package creates an HTTP server
and uses websockets to forward HTTP request back to the test packages.
The package API uses Go channels for abstraction and easy usage.
# Additional Changes
- Integration test files already used the `//go:build integration`
directive. In order to properly split integration from unit tests,
integration test files need to be in a `integration_test` subdirectory
of their package.
- `UseIsolatedInstance` used to overwrite the `Tester.Client` for each
instance. Now a `Instance` object is returned with a gRPC client that is
connected to the isolated instance's hostname.
- The `Tester` type is now `Instance`. The object is created for the
first instance, used by default in any test. Isolated instances are also
`Instance` objects and therefore benefit from the same methods and
values. The first instance and any other us capable of creating an
isolated instance over the system API.
- All test packages run in an Isolated instance by calling
`NewInstance()`
- Individual tests that use an isolated instance use `t.Parallel()`
# Additional Context
- Closes#6684
- https://go.dev/doc/articles/race_detector
- https://go.dev/doc/build-cover
---------
Co-authored-by: Stefan Benz <46600784+stebenz@users.noreply.github.com>
# Fallback to Vercel CI
Since we cannot share the vercel_token on forks we cannot deploy by
vercel CLI.
This PR reverts to the last working state by using vercel CI.
I will look into a fix with an npm script or a turbo config to ignore
builds on folder changes.
* get key by id and cache them
* userinfo from events for v2 tokens
* improve keyset caching
* concurrent token and client checks
* client and project in single query
* logging and otel
* drop owner_removed column on apps and authN tables
* userinfo and project roles in go routines
* get oidc user info from projections and add actions
* add avatar URL
* some cleanup
* pull oidc work branch
* remove storage from server
* add config flag for experimental introspection
* legacy introspection flag
* drop owner_removed column on user projections
* drop owner_removed column on useer_metadata
* query userinfo unit test
* query introspection client test
* add user_grants to the userinfo query
* handle PAT scopes
* bring triggers back
* test instance keys query
* add userinfo unit tests
* unit test keys
* go mod tidy
* solve some bugs
* fix missing preferred login name
* do not run triggers in go routines, they seem to deadlock
* initialize the trigger handlers late with a sync.OnceValue
* Revert "do not run triggers in go routines, they seem to deadlock"
This reverts commit 2a03da2127.
* add missing translations
* chore: update go version for linting
* pin oidc version
* parse a global time location for query test
* fix linter complains
* upgrade go lint
* fix more linting issues
---------
Co-authored-by: Stefan Benz <46600784+stebenz@users.noreply.github.com>
* ci: run pipeline on every push
* ci: run pipeline on every push on all branches
---------
Co-authored-by: Stefan Benz <46600784+stebenz@users.noreply.github.com>
* pipeline runs on ubuntu instead of docker
* added Makefile to build zitadel core (backend) and console (frontend)
* pipeline runs in parallel where possible
* pipeline is split into multiple jobs
* removed goreleaser
* added command to check if zitadel instance is running
