// Copyright 2014 beego Author. All Rights Reserved. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // Package validation for validations // // import ( // "github.com/astaxie/beego/validation" // "log" // ) // // type User struct { // Name string // Age int // } // // func main() { // u := User{"man", 40} // valid := validation.Validation{} // valid.Required(u.Name, "name") // valid.MaxSize(u.Name, 15, "nameMax") // valid.Range(u.Age, 0, 140, "age") // if valid.HasErrors() { // // validation does not pass // // print invalid message // for _, err := range valid.Errors { // log.Println(err.Key, err.Message) // } // } // // or use like this // if v := valid.Max(u.Age, 140, "ageMax"); !v.Ok { // log.Println(v.Error.Key, v.Error.Message) // } // } // // more info: http://beego.me/docs/mvc/controller/validation.md package validation import ( "fmt" "reflect" "regexp" "strings" ) // ValidFormer valid interface type ValidFormer interface { Valid(*Validation) } // Error show the error type Error struct { Message, Key, Name, Field, Tmpl string Value interface{} LimitValue interface{} } // String Returns the Message. func (e *Error) String() string { if e == nil { return "" } return e.Message } // Implement Error interface. // Return e.String() func (e *Error) Error() string { return e.String() } // Result is returned from every validation method. // It provides an indication of success, and a pointer to the Error (if any). type Result struct { Error *Error Ok bool } // Key Get Result by given key string. func (r *Result) Key(key string) *Result { if r.Error != nil { r.Error.Key = key } return r } // Message Set Result message by string or format string with args func (r *Result) Message(message string, args ...interface{}) *Result { if r.Error != nil { if len(args) == 0 { r.Error.Message = message } else { r.Error.Message = fmt.Sprintf(message, args...) } } return r } // A Validation context manages data validation and error messages. type Validation struct { Errors []*Error ErrorsMap map[string]*Error } // Clear Clean all ValidationError. func (v *Validation) Clear() { v.Errors = []*Error{} v.ErrorsMap = nil } // HasErrors Has ValidationError nor not. func (v *Validation) HasErrors() bool { return len(v.Errors) > 0 } // ErrorMap Return the errors mapped by key. // If there are multiple validation errors associated with a single key, the // first one "wins". (Typically the first validation will be the more basic). func (v *Validation) ErrorMap() map[string]*Error { return v.ErrorsMap } // Error Add an error to the validation context. func (v *Validation) Error(message string, args ...interface{}) *Result { result := (&Result{ Ok: false, Error: &Error{}, }).Message(message, args...) v.Errors = append(v.Errors, result.Error) return result } // Required Test that the argument is non-nil and non-empty (if string or list) func (v *Validation) Required(obj interface{}, key string) *Result { return v.apply(Required{key}, obj) } // Min Test that the obj is greater than min if obj's type is int func (v *Validation) Min(obj interface{}, min int, key string) *Result { return v.apply(Min{min, key}, obj) } // Max Test that the obj is less than max if obj's type is int func (v *Validation) Max(obj interface{}, max int, key string) *Result { return v.apply(Max{max, key}, obj) } // Range Test that the obj is between mni and max if obj's type is int func (v *Validation) Range(obj interface{}, min, max int, key string) *Result { return v.apply(Range{Min{Min: min}, Max{Max: max}, key}, obj) } // MinSize Test that the obj is longer than min size if type is string or slice func (v *Validation) MinSize(obj interface{}, min int, key string) *Result { return v.apply(MinSize{min, key}, obj) } // MaxSize Test that the obj is shorter than max size if type is string or slice func (v *Validation) MaxSize(obj interface{}, max int, key string) *Result { return v.apply(MaxSize{max, key}, obj) } // Length Test that the obj is same length to n if type is string or slice func (v *Validation) Length(obj interface{}, n int, key string) *Result { return v.apply(Length{n, key}, obj) } // Alpha Test that the obj is [a-zA-Z] if type is string func (v *Validation) Alpha(obj interface{}, key string) *Result { return v.apply(Alpha{key}, obj) } // Numeric Test that the obj is [0-9] if type is string func (v *Validation) Numeric(obj interface{}, key string) *Result { return v.apply(Numeric{key}, obj) } // AlphaNumeric Test that the obj is [0-9a-zA-Z] if type is string func (v *Validation) AlphaNumeric(obj interface{}, key string) *Result { return v.apply(AlphaNumeric{key}, obj) } // Match Test that the obj matches regexp if type is string func (v *Validation) Match(obj interface{}, regex *regexp.Regexp, key string) *Result { return v.apply(Match{regex, key}, obj) } // NoMatch Test that the obj doesn't match regexp if type is string func (v *Validation) NoMatch(obj interface{}, regex *regexp.Regexp, key string) *Result { return v.apply(NoMatch{Match{Regexp: regex}, key}, obj) } // AlphaDash Test that the obj is [0-9a-zA-Z_-] if type is string func (v *Validation) AlphaDash(obj interface{}, key string) *Result { return v.apply(AlphaDash{NoMatch{Match: Match{Regexp: alphaDashPattern}}, key}, obj) } // Email Test that the obj is email address if type is string func (v *Validation) Email(obj interface{}, key string) *Result { return v.apply(Email{Match{Regexp: emailPattern}, key}, obj) } // IP Test that the obj is IP address if type is string func (v *Validation) IP(obj interface{}, key string) *Result { return v.apply(IP{Match{Regexp: ipPattern}, key}, obj) } // Base64 Test that the obj is base64 encoded if type is string func (v *Validation) Base64(obj interface{}, key string) *Result { return v.apply(Base64{Match{Regexp: base64Pattern}, key}, obj) } // Mobile Test that the obj is chinese mobile number if type is string func (v *Validation) Mobile(obj interface{}, key string) *Result { return v.apply(Mobile{Match{Regexp: mobilePattern}, key}, obj) } // Tel Test that the obj is chinese telephone number if type is string func (v *Validation) Tel(obj interface{}, key string) *Result { return v.apply(Tel{Match{Regexp: telPattern}, key}, obj) } // Phone Test that the obj is chinese mobile or telephone number if type is string func (v *Validation) Phone(obj interface{}, key string) *Result { return v.apply(Phone{Mobile{Match: Match{Regexp: mobilePattern}}, Tel{Match: Match{Regexp: telPattern}}, key}, obj) } // ZipCode Test that the obj is chinese zip code if type is string func (v *Validation) ZipCode(obj interface{}, key string) *Result { return v.apply(ZipCode{Match{Regexp: zipCodePattern}, key}, obj) } func (v *Validation) apply(chk Validator, obj interface{}) *Result { if chk.IsSatisfied(obj) { return &Result{Ok: true} } // Add the error to the validation context. key := chk.GetKey() Name := key Field := "" parts := strings.Split(key, ".") if len(parts) == 2 { Field = parts[0] Name = parts[1] } err := &Error{ Message: chk.DefaultMessage(), Key: key, Name: Name, Field: Field, Value: obj, Tmpl: MessageTmpls[Name], LimitValue: chk.GetLimitValue(), } v.setError(err) // Also return it in the result. return &Result{ Ok: false, Error: err, } } func (v *Validation) setError(err *Error) { v.Errors = append(v.Errors, err) if v.ErrorsMap == nil { v.ErrorsMap = make(map[string]*Error) } if _, ok := v.ErrorsMap[err.Field]; !ok { v.ErrorsMap[err.Field] = err } } // SetError Set error message for one field in ValidationError func (v *Validation) SetError(fieldName string, errMsg string) *Error { err := &Error{Key: fieldName, Field: fieldName, Tmpl: errMsg, Message: errMsg} v.setError(err) return err } // Check Apply a group of validators to a field, in order, and return the // ValidationResult from the first one that fails, or the last one that // succeeds. func (v *Validation) Check(obj interface{}, checks ...Validator) *Result { var result *Result for _, check := range checks { result = v.apply(check, obj) if !result.Ok { return result } } return result } // Valid Validate a struct. // the obj parameter must be a struct or a struct pointer func (v *Validation) Valid(obj interface{}) (b bool, err error) { objT := reflect.TypeOf(obj) objV := reflect.ValueOf(obj) switch { case isStruct(objT): case isStructPtr(objT): objT = objT.Elem() objV = objV.Elem() default: err = fmt.Errorf("%v must be a struct or a struct pointer", obj) return } for i := 0; i < objT.NumField(); i++ { var vfs []ValidFunc if vfs, err = getValidFuncs(objT.Field(i)); err != nil { return } for _, vf := range vfs { if _, err = funcs.Call(vf.Name, mergeParam(v, objV.Field(i).Interface(), vf.Params)...); err != nil { return } } } if !v.HasErrors() { if form, ok := obj.(ValidFormer); ok { form.Valid(v) } } return !v.HasErrors(), nil } // RecursiveValid Recursively validate a struct. // Step1: Validate by v.Valid // Step2: If pass on step1, then reflect obj's fields // Step3: Do the Recursively validation to all struct or struct pointer fields func (v *Validation) RecursiveValid(objc interface{}) (bool, error) { //Step 1: validate obj itself firstly // fails if objc is not struct pass, err := v.Valid(objc) if err != nil || !pass { return pass, err // Stop recursive validation } // Step 2: Validate struct's struct fields objT := reflect.TypeOf(objc) objV := reflect.ValueOf(objc) if isStructPtr(objT) { objT = objT.Elem() objV = objV.Elem() } for i := 0; i < objT.NumField(); i++ { t := objT.Field(i).Type // Recursive applies to struct or pointer to structs fields if isStruct(t) || isStructPtr(t) { // Step 3: do the recursive validation // Only valid the Public field recursively if objV.Field(i).CanInterface() { pass, err = v.RecursiveValid(objV.Field(i).Interface()) } } } return pass, err }