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472 lines
13 KiB
Markdown
472 lines
13 KiB
Markdown
# Activity for federated star action
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- [Activity for federated star action](#activity-for-federated-star-action)
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- [Status](#status)
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- [Context](#context)
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- [Decision](#decision)
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- [Choices](#choices)
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- [1. Map to plain forgejo User](#1-map-to-plain-forgejo-user)
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- [1. Pro](#1-pro)
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- [1. Con](#1-con)
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- [2. Map to User-\&-ExternalLoginUser](#2-map-to-user--externalloginuser)
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- [2. Pro](#2-pro)
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- [2. Con](#2-con)
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- [3. Map to User-\&-FederatedUser](#3-map-to-user--federateduser)
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- [3. Pro](#3-pro)
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- [3. Con](#3-con)
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- [4. Map to new FederatedPerson and introduce a common User interface](#4-map-to-new-federatedperson-and-introduce-a-common-user-interface)
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- [4. Pro](#4-pro)
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- [4. Con](#4-con)
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## Status
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Active
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## Context
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While implementing federation we have to represent federated persons on a local instance.
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A federated person should be able to execute local actions (as if he was a local user), ideally without too many code changes.
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For being able to map the federated person reliable, the local representation has to carry a clear mapping to the original federated person.
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We get actor information as `{"actor": "https://repo.prod.meissa.de/api/v1/activitypub/user-id/1",}`. To find out whether this user is available locally without dereference the federated person every time is important for performance & system resilience.
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## Decision
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We decided to use option 3 "Map to User & FederatedUser".
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Discussion can be found here: https://codeberg.org/forgejo/discussions/issues/101
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## Choices
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### 1. Map to plain forgejo User
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1. We map PersonId AsLoginName() (e.g. 13-some.instan.ce) to User.LoginName. Due to limitations of User.LoginName validation mapping may be affected by invalid characters.
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2. Created User is limited:
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1. non functional email is generated, email notification is false. At the moment we have problems with email whitelists at this point.
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2. strong password is generated silently
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3. User.Type is UserTypeRemoteUser
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4. User is not Admin
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5. User is not Active
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#### 1. Pro
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1. We can use forgejo code (like star / unstar fkt.) without changes.
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2. No new model & persistence is introduced, architectural change is small.
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#### 1. Con
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1. But we use fields against their semantic and see some problems / limitations for mapping arise.
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1. generating email having the source fqdn is impacted by email whitelists.
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1. loginName is used for mapping, but e.g. @ is not allowed.
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1. password is generated headless.
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2. Maybe the large User table gets even larger (see https://git.exozy.me/a/gitea/issues/2)
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3. Occasional contributors may not understand the difference in level of trust implied by federated user. This may promote errors with security impact.
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4. Understanding federated users entries being kind of cache would conflict with user table entries.
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5. LoginNames may be occupied by federated users. This may leak information and increase attack surface.
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```mermaid
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classDiagram
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namespace activitypub {
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class Like {
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ID ID
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Type ActivityVocabularyType // Like
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Actor Item
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Object Item
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}
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class Actor {
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ID
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URL Item
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Type ActivityVocabularyType // Person
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Name NaturalLanguageValues
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PreferredUsername NaturalLanguageValues
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Inbox Item
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Outbox Item
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PublicKey PublicKey
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}
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}
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namespace forgfed {
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class ForgePerson {
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}
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class ForgeLike {
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Actor PersonID
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}
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class ActorID {
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ID string
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Source string
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Schema string
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Path string
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Host string
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Port string
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UnvalidatedInput string
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}
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class PersonID {
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AsLoginName() string // "ID-Host"
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}
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}
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namespace forgejo {
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class User {
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<<Aggragate Root>>
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ID int64
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LowerName string
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Name string
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Email string
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Passwd string
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LoginName string
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Type UserType
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IsActive bool
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IsAdmin bool
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}
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}
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Actor <|-- ForgePerson
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Like <|-- ForgeLike
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ActorID <|-- PersonID
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ForgeLike *-- PersonID: Actor
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PersonID -- User: mapped by AsLoginName() == LoginName
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PersonID -- ForgePerson: links to
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```
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### 2. Map to User-&-ExternalLoginUser
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1. We map PersonId.AsWebfinger() (e.g. 13@some.instan.ce) to ExternalLoginUser.ExternalID. LoginSourceID may be left Empty.
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2. Created User is limited:
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1. non functional email is generated, email notification is false.
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2. strong password is generated silently
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3. User.Type is UserTypeRemoteUser
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4. User is not Admin
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5. User is not Active
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3. Created ExternalLoginUser is limited
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1. Login via fediverse is not intended and will not work. This is distinct to the F3 usecase.
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#### 2. Pro
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1. We can use forgejo code (like star / unstar fkt.) without changes.
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2. No new model & persistence is introduced, architectural change is small. Comparable to option 1.
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3. This option was taken by the F3-Export/Import-Feature
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4. Mapping may be more reliable compared to option 1.
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#### 2. Con
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1. We use fields against their semantic (User.EMail, User.Password, User.LoginSource, ExternalLoginUser.Login*) and see some problems / limitations for login functionality arise. Situation is worse than option 1.
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1. generating email having the source fqdn is impacted by email whitelists.
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2. password is generated headless.
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3. TODO: How would we map/generate User.LoginName ?
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4. TODO: How would we generate ExternalLoginUser.Login* fields?
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2. Getting a larger User table applies to this solution comparable to option 1.
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3. Occasional contributors may not understand the difference in level of trust implied by federated user, this may promote errors with security impact.
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4. Understanding federated users entries being kind of cache would conflict with user table entries.
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5. LoginNames may be occupied by federated users. This may leak information and increase attack surface.
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```mermaid
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classDiagram
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namespace activitypub {
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class Like {
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ID ID
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Type ActivityVocabularyType // Like
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Actor Item
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Object Item
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}
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class Actor {
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ID
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URL Item
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Type ActivityVocabularyType // Person
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Name NaturalLanguageValues
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PreferredUsername NaturalLanguageValues
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Inbox Item
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Outbox Item
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PublicKey PublicKey
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}
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}
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namespace forgfed {
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class ForgePerson {
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}
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class ForgeLike {
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Actor PersonID
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}
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class ActorID {
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ID string
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Source string
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Schema string
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Path string
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Host string
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Port string
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UnvalidatedInput string
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}
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class PersonID {
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AsWebfinger() string // "ID@Host"
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}
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}
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namespace user {
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class User {
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<<Aggregate Root>>
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ID int64
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LoginSource int64
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LowerName string
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Name string
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Email string
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Passwd string
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LoginName string
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Type UserType
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IsActive bool
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IsAdmin bool
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}
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class ExternalLoginUser {
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ExternalID string
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LoginSourceID int64
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RawData map[string]any
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Provider string
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}
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}
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namespace auth {
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class Source {
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<<Aggregate Root>>
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ID int64
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Type Type
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Name string
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IsActive bool
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IsSyncEnabled bool
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}
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}
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Actor <|-- ForgePerson
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Like <|-- ForgeLike
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ActorID <|-- PersonID
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ForgeLike *-- PersonID: Actor
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PersonID -- ForgePerson: links to
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PersonID -- ExternalLoginUser: mapped by AsLoginName() == ExternalID
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User *-- ExternalLoginUser: ExternalLoginUser.UserID
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User -- Source
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ExternalLoginUser -- Source
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```
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### 3. Map to User-&-FederatedUser
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1. We map PersonId.asWbfinger() to FederatedPerson.ExternalID (e.g. 13@some.instan.ce).
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2. Created User is limited:
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1. non functional email is generated, email notification is false.
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2. strong password is generated silently
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3. User.Type is UserTypeRemoteUser
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4. User is not Admin
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5. User is not Active
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#### 3. Pro
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1. We can use forgejo code (like star / unstar fkt.) without changes.
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2. Introduce FederatedUser as new model & persistence, architectural change is medium.
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3. We will be able to have a reliable mapping. Better than option 1 & 2.
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#### 3. Con
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1. But we use fields (User.EMail, User.Password) against their semantic, but we probably can handle the problems arising. Situation is comparable to option 1.
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1. generating email having the source fqdn is impacted by email whitelists.
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2. password is generated headless.
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3. TODO: How would we map/generate User.LoginName ?
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2. Getting a larger User table applies to this solution comparable to option 1.
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3. Occasional contributors may not understand the difference in level of trust implied by federated user, this may promote errors with security impact, comparable to option 1.
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4. Getting a larger User table applies to this solution comparable to option 1.
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5. Understanding federated users entries being kind of cache would conflict with user table entries.
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6. LoginNames may be occupied by federated users. This may leak information and increase attack surface.
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```mermaid
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classDiagram
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namespace activitypub {
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class Like {
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ID ID
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Type ActivityVocabularyType // Like
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Actor Item
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Object Item
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}
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class Actor {
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ID
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URL Item
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Type ActivityVocabularyType // Person
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Name NaturalLanguageValues
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PreferredUsername NaturalLanguageValues
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Inbox Item
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Outbox Item
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PublicKey PublicKey
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}
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}
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namespace forgfed {
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class ForgePerson {
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}
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class ForgeLike {
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Actor PersonID
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}
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class ActorID {
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ID string
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Source string
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Schema string
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Path string
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Host string
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Port string
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UnvalidatedInput string
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}
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class PersonID {
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AsLoginName() string // "ID-Host"
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AsWebfinger() string // "@ID@Host"
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}
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class FederationHost {
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<<Aggregate Root>>
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ID int64
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HostFqdn string
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}
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class NodeInfo {
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Source string
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}
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}
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namespace user {
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class User {
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<<Aggregate Root>>
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ID int64
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LowerName string
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Name string
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Email string
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Passwd string
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LoginName string
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Type UserType
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IsActive bool
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IsAdmin bool
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}
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class FederatedUser {
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ID int64
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UserID int64
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RawData map[string]any
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ExternalID string
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FederationHost int64
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}
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}
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Actor <|-- ForgePerson
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Like <|-- ForgeLike
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ActorID <|-- PersonID
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ForgeLike *-- PersonID: Actor
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ForgePerson -- PersonID: links to
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FederationHost *-- NodeInfo
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User *-- FederatedUser: FederatedUser.UserID
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PersonID -- FederatedUser : mapped by PersonID.asWebfinger() == FederatedUser.externalID
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FederatedUser -- FederationHost
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```
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### 4. Map to new FederatedPerson and introduce a common User interface
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1. We map PersonId.asWbfinger() to FederatedPerson.ExternalID (e.g. 13@some.instan.ce).
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2. We will have no semantic mismatch.
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#### 4. Pro
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1. We will be able to have a reliable mapping.
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2. We will not use fields against their semantics.
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3. We do not enhance user table with "cache entries". Forgejo stays scalable, no additional DOS surface.
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4. Occasional contributors may understand a clear difference between user and federated user.
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5. No LoginNames where occupied
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6. Caching aspects of federated users (like refresh, evict) may be easier to implement.
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#### 4. Con
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1. We can use forgejo code (like star / unstar fkt.) after refactorings only.
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2. At every place of interaction we have to enhance persistence (e.g. a find may have to query two tables now) & introduce a common User interface.
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3. We introduce new model & persistence.
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```mermaid
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classDiagram
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namespace activitypub {
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class Like {
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ID ID
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Type ActivityVocabularyType // Like
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Actor Item
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Object Item
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}
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class Actor {
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ID
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URL Item
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Type ActivityVocabularyType // Person
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Name NaturalLanguageValues
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PreferredUsername NaturalLanguageValues
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Inbox Item
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Outbox Item
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PublicKey PublicKey
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}
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}
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namespace forgfed {
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class ForgePerson {
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}
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class ForgeLike {
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Actor PersonID
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}
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class ActorID {
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ID string
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Source string
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Schema string
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Path string
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Host string
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Port string
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UnvalidatedInput string
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}
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class PersonID {
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AsLoginName() string // "ID-Host"
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AsWebfinger() string // "@ID@Host"
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}
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class FederatedPerson {
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<<Aggregate Root>>
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ID int64
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UserID int64
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RawData map[string]any
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ExternalID string
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FederationHost int64
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}
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class FederationHost {
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<<Aggregate Root>>
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ID int64
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HostFqdn string
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}
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class NodeInfo {
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Source string
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}
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}
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namespace user {
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class CommonUser {
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<<Interface>>
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}
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class User {
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}
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}
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User ..<| CommonUser
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Actor <|-- ForgePerson
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Like <|-- ForgeLike
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ActorID <|-- PersonID
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ForgeLike *-- PersonID: Actor
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PersonID -- ForgePerson: links to
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PersonID -- FederatedPerson : mapped by PersonID.asWebfinger() == FederatedPerson.externalID
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FederationHost *-- NodeInfo
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FederatedPerson -- FederationHost
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FederatedPerson ..<| CommonUser
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```
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