// Copyright 2014 The Gogs Authors. All rights reserved. // Copyright 2019 The Gitea Authors. All rights reserved. // Use of this source code is governed by a MIT-style // license that can be found in the LICENSE file. package models import ( "fmt" "code.gitea.io/gitea/modules/log" ) // AccessMode specifies the users access mode type AccessMode int const ( // AccessModeNone no access AccessModeNone AccessMode = iota // 0 // AccessModeRead read access AccessModeRead // 1 // AccessModeWrite write access AccessModeWrite // 2 // AccessModeAdmin admin access AccessModeAdmin // 3 // AccessModeOwner owner access AccessModeOwner // 4 ) func (mode AccessMode) String() string { switch mode { case AccessModeRead: return "read" case AccessModeWrite: return "write" case AccessModeAdmin: return "admin" case AccessModeOwner: return "owner" default: return "none" } } // ColorFormat provides a ColorFormatted version of this AccessMode func (mode AccessMode) ColorFormat(s fmt.State) { log.ColorFprintf(s, "%d:%s", log.NewColoredIDValue(mode), mode) } // ParseAccessMode returns corresponding access mode to given permission string. func ParseAccessMode(permission string) AccessMode { switch permission { case "write": return AccessModeWrite case "admin": return AccessModeAdmin default: return AccessModeRead } } // Access represents the highest access level of a user to the repository. The only access type // that is not in this table is the real owner of a repository. In case of an organization // repository, the members of the owners team are in this table. type Access struct { ID int64 `xorm:"pk autoincr"` UserID int64 `xorm:"UNIQUE(s)"` RepoID int64 `xorm:"UNIQUE(s)"` Mode AccessMode } func accessLevel(e Engine, user *User, repo *Repository) (AccessMode, error) { mode := AccessModeNone var userID int64 restricted := false if user != nil { userID = user.ID restricted = user.IsRestricted } if !restricted && !repo.IsPrivate { mode = AccessModeRead } if userID == 0 { return mode, nil } if userID == repo.OwnerID { return AccessModeOwner, nil } a := &Access{UserID: userID, RepoID: repo.ID} if has, err := e.Get(a); !has || err != nil { return mode, err } return a.Mode, nil } type repoAccess struct { Access `xorm:"extends"` Repository `xorm:"extends"` } func (repoAccess) TableName() string { return "access" } // GetRepositoryAccesses finds all repositories with their access mode where a user has access but does not own. func (user *User) GetRepositoryAccesses() (map[*Repository]AccessMode, error) { rows, err := x. Join("INNER", "repository", "repository.id = access.repo_id"). Where("access.user_id = ?", user.ID). And("repository.owner_id <> ?", user.ID). Rows(new(repoAccess)) if err != nil { return nil, err } defer rows.Close() var repos = make(map[*Repository]AccessMode, 10) var ownerCache = make(map[int64]*User, 10) for rows.Next() { var repo repoAccess err = rows.Scan(&repo) if err != nil { return nil, err } var ok bool if repo.Owner, ok = ownerCache[repo.OwnerID]; !ok { if err = repo.GetOwner(); err != nil { return nil, err } ownerCache[repo.OwnerID] = repo.Owner } repos[&repo.Repository] = repo.Access.Mode } return repos, nil } // GetAccessibleRepositories finds repositories which the user has access but does not own. // If limit is smaller than 1 means returns all found results. func (user *User) GetAccessibleRepositories(limit int) (repos []*Repository, _ error) { sess := x. Where("owner_id !=? ", user.ID). Desc("updated_unix") if limit > 0 { sess.Limit(limit) repos = make([]*Repository, 0, limit) } else { repos = make([]*Repository, 0, 10) } return repos, sess. Join("INNER", "access", "access.user_id = ? AND access.repo_id = repository.id", user.ID). Find(&repos) } func maxAccessMode(modes ...AccessMode) AccessMode { max := AccessModeNone for _, mode := range modes { if mode > max { max = mode } } return max } // FIXME: do cross-comparison so reduce deletions and additions to the minimum? func (repo *Repository) refreshAccesses(e Engine, accessMap map[*User]AccessMode) (err error) { minMode := AccessModeRead if !repo.IsPrivate { minMode = AccessModeWrite } // merge accessMap contents into a single ID-keyed map to eliminate duplicates idMap := make(map[int64]AccessMode, len(accessMap)) for user, mode := range accessMap { if mode < minMode && !user.IsRestricted { continue } idMap[user.ID] = maxAccessMode(idMap[user.ID], mode) } newAccesses := make([]Access, 0, len(idMap)) for userID, mode := range idMap { newAccesses = append(newAccesses, Access{ UserID: userID, RepoID: repo.ID, Mode: mode, }) } // Delete old accesses and insert new ones for repository. if _, err = e.Delete(&Access{RepoID: repo.ID}); err != nil { return fmt.Errorf("delete old accesses: %v", err) } else if _, err = e.Insert(newAccesses); err != nil { return fmt.Errorf("insert new accesses: %v", err) } return nil } // refreshCollaboratorAccesses retrieves repository collaborations with their access modes. func (repo *Repository) refreshCollaboratorAccesses(e Engine, accessMap map[*User]AccessMode) error { collaborators, err := repo.getCollaborators(e) if err != nil { return fmt.Errorf("getCollaborations: %v", err) } for _, c := range collaborators { accessMap[c.User] = maxAccessMode(accessMap[c.User], c.Collaboration.Mode) } return nil } // recalculateTeamAccesses recalculates new accesses for teams of an organization // except the team whose ID is given. It is used to assign a team ID when // remove repository from that team. func (repo *Repository) recalculateTeamAccesses(e Engine, ignTeamID int64) (err error) { accessMap := make(map[*User]AccessMode, 20) if err = repo.getOwner(e); err != nil { return err } else if !repo.Owner.IsOrganization() { return fmt.Errorf("owner is not an organization: %d", repo.OwnerID) } if err = repo.refreshCollaboratorAccesses(e, accessMap); err != nil { return fmt.Errorf("refreshCollaboratorAccesses: %v", err) } if err = repo.Owner.getTeams(e); err != nil { return err } for _, t := range repo.Owner.Teams { if t.ID == ignTeamID { continue } // Owner team gets owner access, and skip for teams that do not // have relations with repository. if t.IsOwnerTeam() { t.Authorize = AccessModeOwner } else if !t.hasRepository(e, repo.ID) { continue } if err = t.getMembers(e); err != nil { return fmt.Errorf("getMembers '%d': %v", t.ID, err) } for _, m := range t.Members { accessMap[m] = maxAccessMode(accessMap[m], t.Authorize) } } return repo.refreshAccesses(e, accessMap) } // recalculateUserAccess recalculates new access for a single user // Usable if we know access only affected one user func (repo *Repository) recalculateUserAccess(e Engine, uid int64) (err error) { minMode := AccessModeRead if !repo.IsPrivate { minMode = AccessModeWrite } accessMode := AccessModeNone collaborator, err := repo.getCollaboration(e, uid) if err != nil { return err } else if collaborator != nil { accessMode = collaborator.Mode } if err = repo.getOwner(e); err != nil { return err } else if repo.Owner.IsOrganization() { var teams []Team if err := e.Join("INNER", "team_repo", "team_repo.team_id = team.id"). Join("INNER", "team_user", "team_user.team_id = team.id"). Where("team.org_id = ?", repo.OwnerID). And("team_repo.repo_id=?", repo.ID). And("team_user.uid=?", uid). Find(&teams); err != nil { return err } for _, t := range teams { if t.IsOwnerTeam() { t.Authorize = AccessModeOwner } accessMode = maxAccessMode(accessMode, t.Authorize) } } // Delete old user accesses and insert new one for repository. if _, err = e.Delete(&Access{RepoID: repo.ID, UserID: uid}); err != nil { return fmt.Errorf("delete old user accesses: %v", err) } else if accessMode >= minMode { if _, err = e.Insert(&Access{RepoID: repo.ID, UserID: uid, Mode: accessMode}); err != nil { return fmt.Errorf("insert new user accesses: %v", err) } } return nil } func (repo *Repository) recalculateAccesses(e Engine) error { if repo.Owner.IsOrganization() { return repo.recalculateTeamAccesses(e, 0) } accessMap := make(map[*User]AccessMode, 20) if err := repo.refreshCollaboratorAccesses(e, accessMap); err != nil { return fmt.Errorf("refreshCollaboratorAccesses: %v", err) } return repo.refreshAccesses(e, accessMap) } // RecalculateAccesses recalculates all accesses for repository. func (repo *Repository) RecalculateAccesses() error { return repo.recalculateAccesses(x) }