// Copyright 2022 The Gitea Authors. All rights reserved. // SPDX-License-Identifier: MIT package git import ( "context" "errors" "fmt" "slices" "strings" "code.gitea.io/gitea/models/db" "code.gitea.io/gitea/models/organization" "code.gitea.io/gitea/models/perm" access_model "code.gitea.io/gitea/models/perm/access" repo_model "code.gitea.io/gitea/models/repo" "code.gitea.io/gitea/models/unit" user_model "code.gitea.io/gitea/models/user" "code.gitea.io/gitea/modules/log" "code.gitea.io/gitea/modules/timeutil" "code.gitea.io/gitea/modules/util" "github.com/gobwas/glob" "github.com/gobwas/glob/syntax" "xorm.io/builder" ) var ErrBranchIsProtected = errors.New("branch is protected") // ProtectedBranch struct type ProtectedBranch struct { ID int64 `xorm:"pk autoincr"` RepoID int64 `xorm:"UNIQUE(s)"` Repo *repo_model.Repository `xorm:"-"` RuleName string `xorm:"'branch_name' UNIQUE(s)"` // a branch name or a glob match to branch name globRule glob.Glob `xorm:"-"` isPlainName bool `xorm:"-"` CanPush bool `xorm:"NOT NULL DEFAULT false"` EnableWhitelist bool WhitelistUserIDs []int64 `xorm:"JSON TEXT"` WhitelistTeamIDs []int64 `xorm:"JSON TEXT"` EnableMergeWhitelist bool `xorm:"NOT NULL DEFAULT false"` WhitelistDeployKeys bool `xorm:"NOT NULL DEFAULT false"` MergeWhitelistUserIDs []int64 `xorm:"JSON TEXT"` MergeWhitelistTeamIDs []int64 `xorm:"JSON TEXT"` EnableStatusCheck bool `xorm:"NOT NULL DEFAULT false"` StatusCheckContexts []string `xorm:"JSON TEXT"` EnableApprovalsWhitelist bool `xorm:"NOT NULL DEFAULT false"` ApprovalsWhitelistUserIDs []int64 `xorm:"JSON TEXT"` ApprovalsWhitelistTeamIDs []int64 `xorm:"JSON TEXT"` RequiredApprovals int64 `xorm:"NOT NULL DEFAULT 0"` BlockOnRejectedReviews bool `xorm:"NOT NULL DEFAULT false"` BlockOnOfficialReviewRequests bool `xorm:"NOT NULL DEFAULT false"` BlockOnOutdatedBranch bool `xorm:"NOT NULL DEFAULT false"` DismissStaleApprovals bool `xorm:"NOT NULL DEFAULT false"` IgnoreStaleApprovals bool `xorm:"NOT NULL DEFAULT false"` RequireSignedCommits bool `xorm:"NOT NULL DEFAULT false"` ProtectedFilePatterns string `xorm:"TEXT"` UnprotectedFilePatterns string `xorm:"TEXT"` ApplyToAdmins bool `xorm:"NOT NULL DEFAULT false"` CreatedUnix timeutil.TimeStamp `xorm:"created"` UpdatedUnix timeutil.TimeStamp `xorm:"updated"` } func init() { db.RegisterModel(new(ProtectedBranch)) } // IsRuleNameSpecial return true if it contains special character func IsRuleNameSpecial(ruleName string) bool { for i := 0; i < len(ruleName); i++ { if syntax.Special(ruleName[i]) { return true } } return false } func (protectBranch *ProtectedBranch) loadGlob() { if protectBranch.isPlainName || protectBranch.globRule != nil { return } // detect if it is not glob if !IsRuleNameSpecial(protectBranch.RuleName) { protectBranch.isPlainName = true return } // now we load the glob var err error protectBranch.globRule, err = glob.Compile(protectBranch.RuleName, '/') if err != nil { log.Warn("Invalid glob rule for ProtectedBranch[%d]: %s %v", protectBranch.ID, protectBranch.RuleName, err) protectBranch.globRule = glob.MustCompile(glob.QuoteMeta(protectBranch.RuleName), '/') } } // Match tests if branchName matches the rule func (protectBranch *ProtectedBranch) Match(branchName string) bool { protectBranch.loadGlob() if protectBranch.isPlainName { return strings.EqualFold(protectBranch.RuleName, branchName) } return protectBranch.globRule.Match(branchName) } func (protectBranch *ProtectedBranch) LoadRepo(ctx context.Context) (err error) { if protectBranch.Repo != nil { return nil } protectBranch.Repo, err = repo_model.GetRepositoryByID(ctx, protectBranch.RepoID) return err } // CanUserPush returns if some user could push to this protected branch func (protectBranch *ProtectedBranch) CanUserPush(ctx context.Context, user *user_model.User) bool { if !protectBranch.CanPush { return false } if !protectBranch.EnableWhitelist { if err := protectBranch.LoadRepo(ctx); err != nil { log.Error("LoadRepo: %v", err) return false } writeAccess, err := access_model.HasAccessUnit(ctx, user, protectBranch.Repo, unit.TypeCode, perm.AccessModeWrite) if err != nil { log.Error("HasAccessUnit: %v", err) return false } return writeAccess } if slices.Contains(protectBranch.WhitelistUserIDs, user.ID) { return true } if len(protectBranch.WhitelistTeamIDs) == 0 { return false } in, err := organization.IsUserInTeams(ctx, user.ID, protectBranch.WhitelistTeamIDs) if err != nil { log.Error("IsUserInTeams: %v", err) return false } return in } // IsUserMergeWhitelisted checks if some user is whitelisted to merge to this branch func IsUserMergeWhitelisted(ctx context.Context, protectBranch *ProtectedBranch, userID int64, permissionInRepo access_model.Permission) bool { if !protectBranch.EnableMergeWhitelist { // Then we need to fall back on whether the user has write permission return permissionInRepo.CanWrite(unit.TypeCode) } if slices.Contains(protectBranch.MergeWhitelistUserIDs, userID) { return true } if len(protectBranch.MergeWhitelistTeamIDs) == 0 { return false } in, err := organization.IsUserInTeams(ctx, userID, protectBranch.MergeWhitelistTeamIDs) if err != nil { log.Error("IsUserInTeams: %v", err) return false } return in } // IsUserOfficialReviewer check if user is official reviewer for the branch (counts towards required approvals) func IsUserOfficialReviewer(ctx context.Context, protectBranch *ProtectedBranch, user *user_model.User) (bool, error) { repo, err := repo_model.GetRepositoryByID(ctx, protectBranch.RepoID) if err != nil { return false, err } if !protectBranch.EnableApprovalsWhitelist { // Anyone with write access is considered official reviewer writeAccess, err := access_model.HasAccessUnit(ctx, user, repo, unit.TypeCode, perm.AccessModeWrite) if err != nil { return false, err } return writeAccess, nil } if slices.Contains(protectBranch.ApprovalsWhitelistUserIDs, user.ID) { return true, nil } inTeam, err := organization.IsUserInTeams(ctx, user.ID, protectBranch.ApprovalsWhitelistTeamIDs) if err != nil { return false, err } return inTeam, nil } // GetProtectedFilePatterns parses a semicolon separated list of protected file patterns and returns a glob.Glob slice func (protectBranch *ProtectedBranch) GetProtectedFilePatterns() []glob.Glob { return getFilePatterns(protectBranch.ProtectedFilePatterns) } // GetUnprotectedFilePatterns parses a semicolon separated list of unprotected file patterns and returns a glob.Glob slice func (protectBranch *ProtectedBranch) GetUnprotectedFilePatterns() []glob.Glob { return getFilePatterns(protectBranch.UnprotectedFilePatterns) } func getFilePatterns(filePatterns string) []glob.Glob { extarr := make([]glob.Glob, 0, 10) for _, expr := range strings.Split(strings.ToLower(filePatterns), ";") { expr = strings.TrimSpace(expr) if expr != "" { if g, err := glob.Compile(expr, '.', '/'); err != nil { log.Info("Invalid glob expression '%s' (skipped): %v", expr, err) } else { extarr = append(extarr, g) } } } return extarr } // MergeBlockedByProtectedFiles returns true if merge is blocked by protected files change func (protectBranch *ProtectedBranch) MergeBlockedByProtectedFiles(changedProtectedFiles []string) bool { glob := protectBranch.GetProtectedFilePatterns() if len(glob) == 0 { return false } return len(changedProtectedFiles) > 0 } // IsProtectedFile return if path is protected func (protectBranch *ProtectedBranch) IsProtectedFile(patterns []glob.Glob, path string) bool { if len(patterns) == 0 { patterns = protectBranch.GetProtectedFilePatterns() if len(patterns) == 0 { return false } } lpath := strings.ToLower(strings.TrimSpace(path)) r := false for _, pat := range patterns { if pat.Match(lpath) { r = true break } } return r } // IsUnprotectedFile return if path is unprotected func (protectBranch *ProtectedBranch) IsUnprotectedFile(patterns []glob.Glob, path string) bool { if len(patterns) == 0 { patterns = protectBranch.GetUnprotectedFilePatterns() if len(patterns) == 0 { return false } } lpath := strings.ToLower(strings.TrimSpace(path)) r := false for _, pat := range patterns { if pat.Match(lpath) { r = true break } } return r } // GetProtectedBranchRuleByName getting protected branch rule by name func GetProtectedBranchRuleByName(ctx context.Context, repoID int64, ruleName string) (*ProtectedBranch, error) { // branch_name is legacy name, it actually is rule name rel, exist, err := db.Get[ProtectedBranch](ctx, builder.Eq{"repo_id": repoID, "branch_name": ruleName}) if err != nil { return nil, err } else if !exist { return nil, nil } return rel, nil } // GetProtectedBranchRuleByID getting protected branch rule by rule ID func GetProtectedBranchRuleByID(ctx context.Context, repoID, ruleID int64) (*ProtectedBranch, error) { rel, exist, err := db.Get[ProtectedBranch](ctx, builder.Eq{"repo_id": repoID, "id": ruleID}) if err != nil { return nil, err } else if !exist { return nil, nil } return rel, nil } // WhitelistOptions represent all sorts of whitelists used for protected branches type WhitelistOptions struct { UserIDs []int64 TeamIDs []int64 MergeUserIDs []int64 MergeTeamIDs []int64 ApprovalsUserIDs []int64 ApprovalsTeamIDs []int64 } // UpdateProtectBranch saves branch protection options of repository. // If ID is 0, it creates a new record. Otherwise, updates existing record. // This function also performs check if whitelist user and team's IDs have been changed // to avoid unnecessary whitelist delete and regenerate. func UpdateProtectBranch(ctx context.Context, repo *repo_model.Repository, protectBranch *ProtectedBranch, opts WhitelistOptions) (err error) { err = repo.MustNotBeArchived() if err != nil { return err } if err = repo.LoadOwner(ctx); err != nil { return fmt.Errorf("LoadOwner: %v", err) } whitelist, err := updateUserWhitelist(ctx, repo, protectBranch.WhitelistUserIDs, opts.UserIDs) if err != nil { return err } protectBranch.WhitelistUserIDs = whitelist whitelist, err = updateUserWhitelist(ctx, repo, protectBranch.MergeWhitelistUserIDs, opts.MergeUserIDs) if err != nil { return err } protectBranch.MergeWhitelistUserIDs = whitelist whitelist, err = updateApprovalWhitelist(ctx, repo, protectBranch.ApprovalsWhitelistUserIDs, opts.ApprovalsUserIDs) if err != nil { return err } protectBranch.ApprovalsWhitelistUserIDs = whitelist // if the repo is in an organization whitelist, err = updateTeamWhitelist(ctx, repo, protectBranch.WhitelistTeamIDs, opts.TeamIDs) if err != nil { return err } protectBranch.WhitelistTeamIDs = whitelist whitelist, err = updateTeamWhitelist(ctx, repo, protectBranch.MergeWhitelistTeamIDs, opts.MergeTeamIDs) if err != nil { return err } protectBranch.MergeWhitelistTeamIDs = whitelist whitelist, err = updateTeamWhitelist(ctx, repo, protectBranch.ApprovalsWhitelistTeamIDs, opts.ApprovalsTeamIDs) if err != nil { return err } protectBranch.ApprovalsWhitelistTeamIDs = whitelist // Make sure protectBranch.ID is not 0 for whitelists if protectBranch.ID == 0 { if _, err = db.GetEngine(ctx).Insert(protectBranch); err != nil { return fmt.Errorf("Insert: %v", err) } return nil } if _, err = db.GetEngine(ctx).ID(protectBranch.ID).AllCols().Update(protectBranch); err != nil { return fmt.Errorf("Update: %v", err) } return nil } // updateApprovalWhitelist checks whether the user whitelist changed and returns a whitelist with // the users from newWhitelist which have explicit read or write access to the repo. func updateApprovalWhitelist(ctx context.Context, repo *repo_model.Repository, currentWhitelist, newWhitelist []int64) (whitelist []int64, err error) { hasUsersChanged := !util.SliceSortedEqual(currentWhitelist, newWhitelist) if !hasUsersChanged { return currentWhitelist, nil } whitelist = make([]int64, 0, len(newWhitelist)) for _, userID := range newWhitelist { if reader, err := access_model.IsRepoReader(ctx, repo, userID); err != nil { return nil, err } else if !reader { continue } whitelist = append(whitelist, userID) } return whitelist, err } // updateUserWhitelist checks whether the user whitelist changed and returns a whitelist with // the users from newWhitelist which have write access to the repo. func updateUserWhitelist(ctx context.Context, repo *repo_model.Repository, currentWhitelist, newWhitelist []int64) (whitelist []int64, err error) { hasUsersChanged := !util.SliceSortedEqual(currentWhitelist, newWhitelist) if !hasUsersChanged { return currentWhitelist, nil } whitelist = make([]int64, 0, len(newWhitelist)) for _, userID := range newWhitelist { user, err := user_model.GetUserByID(ctx, userID) if err != nil { return nil, fmt.Errorf("GetUserByID [user_id: %d, repo_id: %d]: %v", userID, repo.ID, err) } perm, err := access_model.GetUserRepoPermission(ctx, repo, user) if err != nil { return nil, fmt.Errorf("GetUserRepoPermission [user_id: %d, repo_id: %d]: %v", userID, repo.ID, err) } if !perm.CanWrite(unit.TypeCode) { continue // Drop invalid user ID } whitelist = append(whitelist, userID) } return whitelist, err } // updateTeamWhitelist checks whether the team whitelist changed and returns a whitelist with // the teams from newWhitelist which have write access to the repo. func updateTeamWhitelist(ctx context.Context, repo *repo_model.Repository, currentWhitelist, newWhitelist []int64) (whitelist []int64, err error) { hasTeamsChanged := !util.SliceSortedEqual(currentWhitelist, newWhitelist) if !hasTeamsChanged { return currentWhitelist, nil } teams, err := organization.GetTeamsWithAccessToRepo(ctx, repo.OwnerID, repo.ID, perm.AccessModeRead) if err != nil { return nil, fmt.Errorf("GetTeamsWithAccessToRepo [org_id: %d, repo_id: %d]: %v", repo.OwnerID, repo.ID, err) } whitelist = make([]int64, 0, len(teams)) for i := range teams { if slices.Contains(newWhitelist, teams[i].ID) { whitelist = append(whitelist, teams[i].ID) } } return whitelist, err } // DeleteProtectedBranch removes ProtectedBranch relation between the user and repository. func DeleteProtectedBranch(ctx context.Context, repo *repo_model.Repository, id int64) (err error) { err = repo.MustNotBeArchived() if err != nil { return err } protectedBranch := &ProtectedBranch{ RepoID: repo.ID, ID: id, } if affected, err := db.GetEngine(ctx).Delete(protectedBranch); err != nil { return err } else if affected != 1 { return fmt.Errorf("delete protected branch ID(%v) failed", id) } return nil } // RemoveUserIDFromProtectedBranch remove all user ids from protected branch options func RemoveUserIDFromProtectedBranch(ctx context.Context, p *ProtectedBranch, userID int64) error { lenIDs, lenApprovalIDs, lenMergeIDs := len(p.WhitelistUserIDs), len(p.ApprovalsWhitelistUserIDs), len(p.MergeWhitelistUserIDs) p.WhitelistUserIDs = util.SliceRemoveAll(p.WhitelistUserIDs, userID) p.ApprovalsWhitelistUserIDs = util.SliceRemoveAll(p.ApprovalsWhitelistUserIDs, userID) p.MergeWhitelistUserIDs = util.SliceRemoveAll(p.MergeWhitelistUserIDs, userID) if lenIDs != len(p.WhitelistUserIDs) || lenApprovalIDs != len(p.ApprovalsWhitelistUserIDs) || lenMergeIDs != len(p.MergeWhitelistUserIDs) { if _, err := db.GetEngine(ctx).ID(p.ID).Cols( "whitelist_user_i_ds", "merge_whitelist_user_i_ds", "approvals_whitelist_user_i_ds", ).Update(p); err != nil { return fmt.Errorf("updateProtectedBranches: %v", err) } } return nil } // RemoveTeamIDFromProtectedBranch remove all team ids from protected branch options func RemoveTeamIDFromProtectedBranch(ctx context.Context, p *ProtectedBranch, teamID int64) error { lenIDs, lenApprovalIDs, lenMergeIDs := len(p.WhitelistTeamIDs), len(p.ApprovalsWhitelistTeamIDs), len(p.MergeWhitelistTeamIDs) p.WhitelistTeamIDs = util.SliceRemoveAll(p.WhitelistTeamIDs, teamID) p.ApprovalsWhitelistTeamIDs = util.SliceRemoveAll(p.ApprovalsWhitelistTeamIDs, teamID) p.MergeWhitelistTeamIDs = util.SliceRemoveAll(p.MergeWhitelistTeamIDs, teamID) if lenIDs != len(p.WhitelistTeamIDs) || lenApprovalIDs != len(p.ApprovalsWhitelistTeamIDs) || lenMergeIDs != len(p.MergeWhitelistTeamIDs) { if _, err := db.GetEngine(ctx).ID(p.ID).Cols( "whitelist_team_i_ds", "merge_whitelist_team_i_ds", "approvals_whitelist_team_i_ds", ).Update(p); err != nil { return fmt.Errorf("updateProtectedBranches: %v", err) } } return nil }