// Copyright 2017 The Gitea Authors. All rights reserved. // SPDX-License-Identifier: MIT package validation import ( "fmt" "regexp" "strings" "code.gitea.io/gitea/modules/auth" "code.gitea.io/gitea/modules/git" "code.gitea.io/gitea/modules/util" "gitea.com/go-chi/binding" "github.com/gobwas/glob" ) const ( // ErrGitRefName is git reference name error ErrGitRefName = "GitRefNameError" // ErrGlobPattern is returned when glob pattern is invalid ErrGlobPattern = "GlobPattern" // ErrRegexPattern is returned when a regex pattern is invalid ErrRegexPattern = "RegexPattern" // ErrUsername is username error ErrUsername = "UsernameError" // ErrInvalidGroupTeamMap is returned when a group team mapping is invalid ErrInvalidGroupTeamMap = "InvalidGroupTeamMap" ) // AddBindingRules adds additional binding rules func AddBindingRules() { addGitRefNameBindingRule() addValidURLListBindingRule() addValidURLBindingRule() addValidSiteURLBindingRule() addGlobPatternRule() addRegexPatternRule() addGlobOrRegexPatternRule() addUsernamePatternRule() addValidGroupTeamMapRule() } func addGitRefNameBindingRule() { // Git refname validation rule binding.AddRule(&binding.Rule{ IsMatch: func(rule string) bool { return rule == "GitRefName" }, IsValid: func(errs binding.Errors, name string, val any) (bool, binding.Errors) { str := fmt.Sprintf("%v", val) if !git.IsValidRefPattern(str) { errs.Add([]string{name}, ErrGitRefName, "GitRefName") return false, errs } return true, errs }, }) } func addValidURLListBindingRule() { // URL validation rule binding.AddRule(&binding.Rule{ IsMatch: func(rule string) bool { return rule == "ValidUrlList" }, IsValid: func(errs binding.Errors, name string, val any) (bool, binding.Errors) { str := fmt.Sprintf("%v", val) if len(str) == 0 { errs.Add([]string{name}, binding.ERR_URL, "Url") return false, errs } ok := true urls := util.SplitTrimSpace(str, "\n") for _, u := range urls { if !IsValidURL(u) { ok = false errs.Add([]string{name}, binding.ERR_URL, u) } } return ok, errs }, }) } func addValidURLBindingRule() { // URL validation rule binding.AddRule(&binding.Rule{ IsMatch: func(rule string) bool { return rule == "ValidUrl" }, IsValid: func(errs binding.Errors, name string, val any) (bool, binding.Errors) { str := fmt.Sprintf("%v", val) if len(str) != 0 && !IsValidURL(str) { errs.Add([]string{name}, binding.ERR_URL, "Url") return false, errs } return true, errs }, }) } func addValidSiteURLBindingRule() { // URL validation rule binding.AddRule(&binding.Rule{ IsMatch: func(rule string) bool { return rule == "ValidSiteUrl" }, IsValid: func(errs binding.Errors, name string, val any) (bool, binding.Errors) { str := fmt.Sprintf("%v", val) if len(str) != 0 && !IsValidSiteURL(str) { errs.Add([]string{name}, binding.ERR_URL, "Url") return false, errs } return true, errs }, }) } func addGlobPatternRule() { binding.AddRule(&binding.Rule{ IsMatch: func(rule string) bool { return rule == "GlobPattern" }, IsValid: globPatternValidator, }) } func globPatternValidator(errs binding.Errors, name string, val any) (bool, binding.Errors) { str := fmt.Sprintf("%v", val) if len(str) != 0 { if _, err := glob.Compile(str); err != nil { errs.Add([]string{name}, ErrGlobPattern, err.Error()) return false, errs } } return true, errs } func addRegexPatternRule() { binding.AddRule(&binding.Rule{ IsMatch: func(rule string) bool { return rule == "RegexPattern" }, IsValid: regexPatternValidator, }) } func regexPatternValidator(errs binding.Errors, name string, val any) (bool, binding.Errors) { str := fmt.Sprintf("%v", val) if _, err := regexp.Compile(str); err != nil { errs.Add([]string{name}, ErrRegexPattern, err.Error()) return false, errs } return true, errs } func addGlobOrRegexPatternRule() { binding.AddRule(&binding.Rule{ IsMatch: func(rule string) bool { return rule == "GlobOrRegexPattern" }, IsValid: func(errs binding.Errors, name string, val any) (bool, binding.Errors) { str := strings.TrimSpace(fmt.Sprintf("%v", val)) if len(str) >= 2 && strings.HasPrefix(str, "/") && strings.HasSuffix(str, "/") { return regexPatternValidator(errs, name, str[1:len(str)-1]) } return globPatternValidator(errs, name, val) }, }) } func addUsernamePatternRule() { binding.AddRule(&binding.Rule{ IsMatch: func(rule string) bool { return rule == "Username" }, IsValid: func(errs binding.Errors, name string, val any) (bool, binding.Errors) { str := fmt.Sprintf("%v", val) if !IsValidUsername(str) { errs.Add([]string{name}, ErrUsername, "invalid username") return false, errs } return true, errs }, }) } func addValidGroupTeamMapRule() { binding.AddRule(&binding.Rule{ IsMatch: func(rule string) bool { return rule == "ValidGroupTeamMap" }, IsValid: func(errs binding.Errors, name string, val any) (bool, binding.Errors) { _, err := auth.UnmarshalGroupTeamMapping(fmt.Sprintf("%v", val)) if err != nil { errs.Add([]string{name}, ErrInvalidGroupTeamMap, err.Error()) return false, errs } return true, errs }, }) } func portOnly(hostport string) string { colon := strings.IndexByte(hostport, ':') if colon == -1 { return "" } if i := strings.Index(hostport, "]:"); i != -1 { return hostport[i+len("]:"):] } if strings.Contains(hostport, "]") { return "" } return hostport[colon+len(":"):] } func validPort(p string) bool { for _, r := range []byte(p) { if r < '0' || r > '9' { return false } } return true }