/ * *
* Package validator
*
* MISC :
* - anonymous structs - they don ' t have names so expect the Struct name within StructErrors to be blank
*
* /
package validator
import (
"bytes"
"errors"
"fmt"
"reflect"
"strings"
"time"
"unicode"
)
const (
tagSeparator = ","
orSeparator = "|"
noValidationTag = "-"
tagKeySeparator = "="
structOnlyTag = "structonly"
omitempty = "omitempty"
fieldErrMsg = "Field validation for \"%s\" failed on the \"%s\" tag\n"
structErrMsg = "Struct:%s\n"
)
// FieldError contains a single field's validation error along
// with other properties that may be needed for error message creation
type FieldError struct {
Field string
Tag string
Kind reflect . Kind
Type reflect . Type
Param string
Value interface { }
}
// This is intended for use in development + debugging and not intended to be a production error message.
// it also allows FieldError to be used as an Error interface
func ( e * FieldError ) Error ( ) string {
return fmt . Sprintf ( fieldErrMsg , e . Field , e . Tag )
}
// StructErrors is hierarchical list of field and struct validation errors
// for a non hierarchical representation please see the Flatten method for StructErrors
type StructErrors struct {
// Name of the Struct
Struct string
// Struct Field Errors
Errors map [ string ] * FieldError
// Struct Fields of type struct and their errors
// key = Field Name of current struct, but internally Struct will be the actual struct name unless anonymous struct, it will be blank
StructErrors map [ string ] * StructErrors
}
// This is intended for use in development + debugging and not intended to be a production error message.
// it also allows StructErrors to be used as an Error interface
func ( e * StructErrors ) Error ( ) string {
buff := bytes . NewBufferString ( fmt . Sprintf ( structErrMsg , e . Struct ) )
for _ , err := range e . Errors {
buff . WriteString ( err . Error ( ) )
}
for _ , err := range e . StructErrors {
buff . WriteString ( err . Error ( ) )
}
buff . WriteString ( "\n\n" )
return buff . String ( )
}
// Flatten flattens the StructErrors hierarchical structure into a flat namespace style field name
// for those that want/need it
func ( e * StructErrors ) Flatten ( ) map [ string ] * FieldError {
if e == nil {
return nil
}
errs := map [ string ] * FieldError { }
for _ , f := range e . Errors {
errs [ f . Field ] = f
}
for key , val := range e . StructErrors {
otherErrs := val . Flatten ( )
for _ , f2 := range otherErrs {
f2 . Field = fmt . Sprintf ( "%s.%s" , key , f2 . Field )
errs [ f2 . Field ] = f2
}
}
return errs
}
// Func accepts all values needed for file and cross field validation
// top = top level struct when validating by struct otherwise nil
// current = current level struct when validating by struct otherwise optional comparison value
// f = field value for validation
// param = parameter used in validation i.e. gt=0 param would be 0
type Func func ( top interface { } , current interface { } , f interface { } , param string ) bool
// Validate implements the Validate Struct
// NOTE: Fields within are not thread safe and that is on purpose
// Functions and Tags should all be predifined before use, so subscribe to the philosiphy
// or make it thread safe on your end
type Validate struct {
// tagName being used.
tagName string
// validateFuncs is a map of validation functions and the tag keys
validationFuncs map [ string ] Func
}
// New creates a new Validate instance for use.
func New ( tagName string , funcs map [ string ] Func ) * Validate {
return & Validate {
tagName : tagName ,
validationFuncs : funcs ,
}
}
// SetTag sets tagName of the Validator to one of your choosing after creation
// perhaps to dodge a tag name conflict in a specific section of code
func ( v * Validate ) SetTag ( tagName string ) {
v . tagName = tagName
}
// AddFunction adds a validation Func to a Validate's map of validators denoted by the key
// NOTE: if the key already exists, it will get replaced.
func ( v * Validate ) AddFunction ( key string , f Func ) error {
if len ( key ) == 0 {
return errors . New ( "Function Key cannot be empty" )
}
if f == nil {
return errors . New ( "Function cannot be empty" )
}
v . validationFuncs [ key ] = f
return nil
}
// Struct validates a struct, even it's nested structs, and returns a struct containing the errors
// NOTE: Nested Arrays, or Maps of structs do not get validated only the Array or Map itself; the reason is that there is no good
// way to represent or report which struct within the array has the error, besides can validate the struct prior to adding it to
// the Array or Map.
func ( v * Validate ) Struct ( s interface { } ) * StructErrors {
return v . structRecursive ( s , s , s )
}
// structRecursive validates a struct recursivly and passes the top level and current struct around for use in validator functions and returns a struct containing the errors
func ( v * Validate ) structRecursive ( top interface { } , current interface { } , s interface { } ) * StructErrors {
structValue := reflect . ValueOf ( s )
structType := reflect . TypeOf ( s )
structName := structType . Name ( )
if structValue . Kind ( ) == reflect . Ptr && ! structValue . IsNil ( ) {
return v . structRecursive ( top , current , structValue . Elem ( ) . Interface ( ) )
}
if structValue . Kind ( ) != reflect . Struct && structValue . Kind ( ) != reflect . Interface {
panic ( "interface passed for validation is not a struct" )
}
validationErrors := & StructErrors {
Struct : structName ,
Errors : map [ string ] * FieldError { } ,
StructErrors : map [ string ] * StructErrors { } ,
}
var numFields = structValue . NumField ( )
for i := 0 ; i < numFields ; i ++ {
valueField := structValue . Field ( i )
typeField := structType . Field ( i )
if valueField . Kind ( ) == reflect . Ptr && ! valueField . IsNil ( ) {
valueField = valueField . Elem ( )
}
tag := typeField . Tag . Get ( v . tagName )
if tag == noValidationTag {
continue
}
// if no validation and not a struct (which may containt fields for validation)
if tag == "" && valueField . Kind ( ) != reflect . Struct && valueField . Kind ( ) != reflect . Interface {
continue
}
switch valueField . Kind ( ) {
case reflect . Struct , reflect . Interface :
if ! unicode . IsUpper ( rune ( typeField . Name [ 0 ] ) ) {
continue
}
if valueField . Type ( ) == reflect . TypeOf ( time . Time { } ) {
if fieldError := v . fieldWithNameAndValue ( top , current , valueField . Interface ( ) , typeField . Name , tag ) ; fieldError != nil {
validationErrors . Errors [ fieldError . Field ] = fieldError
// free up memory reference
fieldError = nil
}
} else {
if strings . Contains ( tag , structOnlyTag ) {
continue
}
if structErrors := v . structRecursive ( top , valueField . Interface ( ) , valueField . Interface ( ) ) ; structErrors != nil {
validationErrors . StructErrors [ typeField . Name ] = structErrors
// free up memory map no longer needed
structErrors = nil
}
}
default :
if fieldError := v . fieldWithNameAndValue ( top , current , valueField . Interface ( ) , typeField . Name , tag ) ; fieldError != nil {
validationErrors . Errors [ fieldError . Field ] = fieldError
// free up memory reference
fieldError = nil
}
}
}
if len ( validationErrors . Errors ) == 0 && len ( validationErrors . StructErrors ) == 0 {
return nil
}
return validationErrors
}
// Field allows validation of a single field, still using tag style validation to check multiple errors
func ( v * Validate ) Field ( f interface { } , tag string ) * FieldError {
return v . FieldWithValue ( nil , f , tag )
}
// FieldWithValue allows validation of a single field, possibly even against another fields value, still using tag style validation to check multiple errors
func ( v * Validate ) FieldWithValue ( val interface { } , f interface { } , tag string ) * FieldError {
return v . fieldWithNameAndValue ( nil , val , f , "" , tag )
}
func ( v * Validate ) fieldWithNameAndValue ( val interface { } , current interface { } , f interface { } , name string , tag string ) * FieldError {
// This is a double check if coming from validate.Struct but need to be here in case function is called directly
if tag == noValidationTag {
return nil
}
if strings . Contains ( tag , omitempty ) && ! hasValue ( val , current , f , "" ) {
return nil
}
valueField := reflect . ValueOf ( f )
fieldKind := valueField . Kind ( )
if fieldKind == reflect . Ptr && ! valueField . IsNil ( ) {
return v . fieldWithNameAndValue ( val , current , valueField . Elem ( ) . Interface ( ) , name , tag )
}
fieldType := valueField . Type ( )
switch fieldKind {
case reflect . Struct , reflect . Interface , reflect . Invalid :
if fieldType != reflect . TypeOf ( time . Time { } ) {
panic ( "Invalid field passed to ValidateFieldWithTag" )
}
}
var valErr * FieldError
var err error
valTags := strings . Split ( tag , tagSeparator )
for _ , valTag := range valTags {
orVals := strings . Split ( valTag , orSeparator )
if len ( orVals ) > 1 {
errTag := ""
for _ , val := range orVals {
valErr , err = v . fieldWithNameAndSingleTag ( val , current , f , name , val )
if err == nil {
return nil
}
errTag += orSeparator + valErr . Tag
}
errTag = strings . TrimLeft ( errTag , orSeparator )
valErr . Tag = errTag
valErr . Kind = fieldKind
return valErr
}
if valErr , err = v . fieldWithNameAndSingleTag ( val , current , f , name , valTag ) ; err != nil {
valErr . Kind = valueField . Kind ( )
valErr . Type = fieldType
return valErr
}
}
return nil
}
func ( v * Validate ) fieldWithNameAndSingleTag ( val interface { } , current interface { } , f interface { } , name string , valTag string ) ( * FieldError , error ) {
vals := strings . Split ( valTag , tagKeySeparator )
key := strings . Trim ( vals [ 0 ] , " " )
if len ( key ) == 0 {
panic ( fmt . Sprintf ( "Invalid validation tag on field %s" , name ) )
}
valErr := & FieldError {
Field : name ,
Tag : key ,
Value : f ,
Param : "" ,
}
// OK to continue because we checked it's existance before getting into this loop
if key == omitempty {
return valErr , nil
}
valFunc , ok := v . validationFuncs [ key ]
if ! ok {
panic ( fmt . Sprintf ( "Undefined validation function on field %s" , name ) )
}
param := ""
if len ( vals ) > 1 {
param = strings . Trim ( vals [ 1 ] , " " )
}
if err := valFunc ( val , current , f , param ) ; ! err {
valErr . Param = param
return valErr , errors . New ( key )
}
return valErr , nil
}