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# 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
103 lines
2.5 KiB
Go
103 lines
2.5 KiB
Go
package domain
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import (
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"bytes"
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"fmt"
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"time"
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es_models "github.com/zitadel/zitadel/internal/eventstore/v1/models"
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)
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type WebAuthNToken struct {
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es_models.ObjectRoot
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WebAuthNTokenID string
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CredentialCreationData []byte
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State MFAState
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Challenge string
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AllowedCredentialIDs [][]byte
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UserVerification UserVerificationRequirement
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KeyID []byte
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PublicKey []byte
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AttestationType string
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AAGUID []byte
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SignCount uint32
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WebAuthNTokenName string
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RPID string
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}
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type WebAuthNLogin struct {
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es_models.ObjectRoot
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CredentialAssertionData []byte
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Challenge string
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AllowedCredentialIDs [][]byte
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UserVerification UserVerificationRequirement
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RPID string
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}
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type UserVerificationRequirement int32
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const (
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UserVerificationRequirementUnspecified UserVerificationRequirement = iota
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UserVerificationRequirementRequired
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UserVerificationRequirementPreferred
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UserVerificationRequirementDiscouraged
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)
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type AuthenticatorAttachment int32
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const (
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AuthenticatorAttachmentUnspecified AuthenticatorAttachment = iota
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AuthenticatorAttachmentPlattform
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AuthenticatorAttachmentCrossPlattform
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)
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func GetTokenToVerify(tokens []*WebAuthNToken) (int, *WebAuthNToken) {
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for i, u2f := range tokens {
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if u2f.State == MFAStateNotReady {
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return i, u2f
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}
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}
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return -1, nil
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}
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func GetTokenByKeyID(tokens []*WebAuthNToken, keyID []byte) (int, *WebAuthNToken) {
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for i, token := range tokens {
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if bytes.Compare(token.KeyID, keyID) == 0 {
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return i, token
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}
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}
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return -1, nil
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}
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type PasswordlessInitCodeState int32
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const (
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PasswordlessInitCodeStateUnspecified PasswordlessInitCodeState = iota
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PasswordlessInitCodeStateRequested
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PasswordlessInitCodeStateActive
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PasswordlessInitCodeStateRemoved
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)
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type PasswordlessInitCode struct {
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es_models.ObjectRoot
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CodeID string
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Code string
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Expiration time.Duration
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State PasswordlessInitCodeState
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}
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func (p *PasswordlessInitCode) Link(baseURL string) string {
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return PasswordlessInitCodeLink(baseURL, p.AggregateID, p.ResourceOwner, p.CodeID, p.Code)
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}
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func PasswordlessInitCodeLink(baseURL, userID, resourceOwner, codeID, code string) string {
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return fmt.Sprintf("%s?userID=%s&orgID=%s&codeID=%s&code=%s", baseURL, userID, resourceOwner, codeID, code)
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}
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func PasswordlessInitCodeLinkTemplate(baseURL, userID, resourceOwner, codeID string) string {
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return PasswordlessInitCodeLink(baseURL, userID, resourceOwner, codeID, "{{.Code}}")
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}
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