// Copyright 2023 The forgejo Authors. All rights reserved. // SPDX-License-Identifier: MIT package activitypub import ( "fmt" "io" "net/http" "net/url" "strings" "code.gitea.io/gitea/models/activitypub" "code.gitea.io/gitea/models/db" api "code.gitea.io/gitea/modules/activitypub" "code.gitea.io/gitea/modules/context" "code.gitea.io/gitea/modules/forgefed" "code.gitea.io/gitea/modules/log" "code.gitea.io/gitea/modules/setting" "code.gitea.io/gitea/modules/util" "code.gitea.io/gitea/modules/web" "github.com/google/uuid" user_model "code.gitea.io/gitea/models/user" ap "github.com/go-ap/activitypub" pwd_gen "github.com/sethvargo/go-password/password" //f3 "lab.forgefriends.org/friendlyforgeformat/gof3" ) // Repository function returns the Repository actor for a repo func Repository(ctx *context.APIContext) { // swagger:operation GET /activitypub/repository-id/{repository-id} activitypub activitypubRepository // --- // summary: Returns the Repository actor for a repo // produces: // - application/json // parameters: // - name: repository-id // in: path // description: repository ID of the repo // type: integer // required: true // responses: // "200": // "$ref": "#/responses/ActivityPub" link := fmt.Sprintf("%s/api/v1/activitypub/repository-id/%d", strings.TrimSuffix(setting.AppURL, "/"), ctx.Repo.Repository.ID) repo := forgefed.RepositoryNew(ap.IRI(link)) repo.Name = ap.NaturalLanguageValuesNew() err := repo.Name.Set("en", ap.Content(ctx.Repo.Repository.Name)) if err != nil { ctx.ServerError("Set Name", err) return } response(ctx, repo) } // PersonInbox function handles the incoming data for a repository inbox func RepositoryInbox(ctx *context.APIContext) { // swagger:operation POST /activitypub/repository-id/{repository-id}/inbox activitypub activitypubRepository // --- // summary: Send to the inbox // produces: // - application/json // parameters: // - name: repository-id // in: path // description: repository ID of the repo // type: integer // required: true // - name: body // in: body // schema: // "$ref": "#/definitions/Star" // responses: // "204": // "$ref": "#/responses/empty" log.Info("RepositoryInbox: repo %v, %v", ctx.Repo.Repository.OwnerName, ctx.Repo.Repository.Name) activity := web.GetForm(ctx).(*forgefed.Star) log.Info("RepositoryInbox: Activity.Source %v", activity.Source) log.Info("RepositoryInbox: Activity.Actor %v", activity.Actor) // assume actor is: "actor": "https://codeberg.org/api/v1/activitypub/user-id/12345" - NB: This might be actually the ID? Maybe check vocabulary. // "https://Codeberg.org/api/v1/activitypub/user-id/12345" // "https:443//codeberg.org/api/v1/activitypub/user-id/12345" // "https://codeberg.org/api/v1/activitypub/../activitypub/user-id/12345" // parse actor actor, err := activitypub.ParseActorIDFromStarActivity(activity) // Is the actor IRI well formed? if err != nil { panic(err) } // Is the ActorData Struct valid? actor.PanicIfInvalid() log.Info("RepositoryInbox: Actor parsed. %v", actor) /* Make http client, this should make a get request on given url We then need to parse the answer and put it into a person-struct fill the person struct using some kind of unmarshall function given in activitypub package/actor.go */ // make http client // TODO: this should also work without autorizing the api call // doer might be empty host := activity.To.GetID().String() client, err := api.NewClient(ctx, ctx.Doer, host) // ToDo: This is hacky, we need a hostname from somewhere if err != nil { panic(err) } // get_person_by_rest bytes := []byte{0} // no body needed for getting user actor target := activity.Actor.GetID().String() // target is the person actor that originally performed the star activity response, err := client.Get(bytes, target) if err != nil { panic(err) } defer response.Body.Close() body, err := io.ReadAll(response.Body) if err != nil { panic(err) } // parse response person := ap.Person{} err = person.UnmarshalJSON(body) if err != nil { panic(err) } log.Info("target: %v", target) log.Info("http client. %v", client) log.Info("response: %v\n error: ", response, err) log.Info("Person is: %v", person) log.Info("Person Name is: %v", person.PreferredUsername) log.Info("Person URL is: %v", person.URL) // Check if user already exists // TODO: If we where able to search for federated id there would be no need to get the remote person. // Search for login_name options := &user_model.SearchUserOptions{ Keyword: target, Actor: ctx.Doer, Type: user_model.UserTypeRemoteUser, OrderBy: db.SearchOrderByAlphabetically, ListOptions: db.ListOptions{ Page: 0, PageSize: 1, ListAll: true, }, } users, usersCount, err := user_model.SearchUsers(db.DefaultContext, options) if err != nil { fmt.Errorf("Search failed: %v", err) } log.Info("local found users: %v", usersCount) if usersCount == 0 { // create user /* ToDo: Make user Fill in user There is a usertype remote in models/user/user.go In Location maybe the federated user ID isActive to false isAdmin to false maybe static email as userid@hostname.tld - maybe test if we can do user without e-mail - then test if two users can have the same adress - otherwise uuid@hostname.tld fill in names correctly etc We need a remote server with federation enabled to test this The "if not already present" part might be easy: Check the user database for given user id. This could happen with something like: user_model.SearchUsers() as seen in routers/api/v1/user.go SearchUsers is defined in models/user/search.go And depending on implementation check if the person already exists in federated user db. */ email, err := generateUUIDMail(person) if err != nil { fmt.Errorf("Generate user failed: %v", err) } username, err := getUserName(person) if err != nil { fmt.Errorf("Generate user failed: %v", err) } password, err := generateRandomPassword() if err != nil { fmt.Errorf("Generate password failed: %v", err) } user := &user_model.User{ LowerName: strings.ToLower(username), Name: username, Email: email, EmailNotificationsPreference: "disabled", Passwd: password, MustChangePassword: false, LoginName: target, Type: user_model.UserTypeRemoteUser, IsAdmin: false, } overwriteDefault := &user_model.CreateUserOverwriteOptions{ IsActive: util.OptionalBoolFalse, IsRestricted: util.OptionalBoolFalse, } if err := user_model.CreateUser(ctx, user, overwriteDefault); err != nil { panic(fmt.Errorf("CreateUser: %w", err)) } } else { // use first user user := users[0] log.Info("%v", user) } // TODO: handle case of count > 1 // execute star action // wait 15 sec. ctx.Status(http.StatusNoContent) } func generateUUIDMail(person ap.Actor) (string, error) { // UUID@remote.host id := uuid.New().String() url, err := url.Parse(person.URL.GetID().String()) host := url.Host return strings.Join([]string{id, host}, "@"), err } func getUserName(person ap.Actor) (string, error) { if name := person.PreferredUsername.String(); name != "" { return name, nil } if name := person.Name.String(); name != "" { return name, nil } return "", fmt.Errorf("Empty name, preferredUsername field") } func generateRandomPassword() (string, error) { // Generate a password that is 64 characters long with 10 digits, 10 symbols, // allowing upper and lower case letters, disallowing repeat characters. res, err := pwd_gen.Generate(32, 10, 10, false, false) if err != nil { return "", err } return res, err }