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// Package govalidator is package of validators and sanitizers for strings, structs and collections.
package govalidator
import (
"bytes"
"crypto/rsa"
"crypto/x509"
"encoding/base64"
"encoding/json"
"encoding/pem"
"fmt"
"io/ioutil"
"net"
"net/url"
"reflect"
"regexp"
"sort"
"strconv"
"strings"
"time"
"unicode"
"unicode/utf8"
)
var (
fieldsRequiredByDefault bool
nilPtrAllowedByRequired = false
notNumberRegexp = regexp . MustCompile ( "[^0-9]+" )
whiteSpacesAndMinus = regexp . MustCompile ( ` [\s-]+ ` )
paramsRegexp = regexp . MustCompile ( ` \(.*\)$ ` )
)
const maxURLRuneCount = 2083
const minURLRuneCount = 3
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const rfc3339WithoutZone = "2006-01-02T15:04:05"
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// SetFieldsRequiredByDefault causes validation to fail when struct fields
// do not include validations or are not explicitly marked as exempt (using `valid:"-"` or `valid:"email,optional"`).
// This struct definition will fail govalidator.ValidateStruct() (and the field values do not matter):
// type exampleStruct struct {
// Name string ``
// Email string `valid:"email"`
// This, however, will only fail when Email is empty or an invalid email address:
// type exampleStruct2 struct {
// Name string `valid:"-"`
// Email string `valid:"email"`
// Lastly, this will only fail when Email is an invalid email address but not when it's empty:
// type exampleStruct2 struct {
// Name string `valid:"-"`
// Email string `valid:"email,optional"`
func SetFieldsRequiredByDefault ( value bool ) {
fieldsRequiredByDefault = value
}
// SetNilPtrAllowedByRequired causes validation to pass for nil ptrs when a field is set to required.
// The validation will still reject ptr fields in their zero value state. Example with this enabled:
// type exampleStruct struct {
// Name *string `valid:"required"`
// With `Name` set to "", this will be considered invalid input and will cause a validation error.
// With `Name` set to nil, this will be considered valid by validation.
// By default this is disabled.
func SetNilPtrAllowedByRequired ( value bool ) {
nilPtrAllowedByRequired = value
}
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// IsEmail checks if the string is an email.
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func IsEmail ( str string ) bool {
// TODO uppercase letters are not supported
return rxEmail . MatchString ( str )
}
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// IsExistingEmail checks if the string is an email of existing domain
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func IsExistingEmail ( email string ) bool {
if len ( email ) < 6 || len ( email ) > 254 {
return false
}
at := strings . LastIndex ( email , "@" )
if at <= 0 || at > len ( email ) - 3 {
return false
}
user := email [ : at ]
host := email [ at + 1 : ]
if len ( user ) > 64 {
return false
}
switch host {
case "localhost" , "example.com" :
return true
}
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if userDotRegexp . MatchString ( user ) || ! userRegexp . MatchString ( user ) || ! hostRegexp . MatchString ( host ) {
return false
}
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if _ , err := net . LookupMX ( host ) ; err != nil {
if _ , err := net . LookupIP ( host ) ; err != nil {
return false
}
}
return true
}
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// IsURL checks if the string is an URL.
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func IsURL ( str string ) bool {
if str == "" || utf8 . RuneCountInString ( str ) >= maxURLRuneCount || len ( str ) <= minURLRuneCount || strings . HasPrefix ( str , "." ) {
return false
}
strTemp := str
if strings . Contains ( str , ":" ) && ! strings . Contains ( str , "://" ) {
// support no indicated urlscheme but with colon for port number
// http:// is appended so url.Parse will succeed, strTemp used so it does not impact rxURL.MatchString
strTemp = "http://" + str
}
u , err := url . Parse ( strTemp )
if err != nil {
return false
}
if strings . HasPrefix ( u . Host , "." ) {
return false
}
if u . Host == "" && ( u . Path != "" && ! strings . Contains ( u . Path , "." ) ) {
return false
}
return rxURL . MatchString ( str )
}
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// IsRequestURL checks if the string rawurl, assuming
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// it was received in an HTTP request, is a valid
// URL confirm to RFC 3986
func IsRequestURL ( rawurl string ) bool {
url , err := url . ParseRequestURI ( rawurl )
if err != nil {
return false //Couldn't even parse the rawurl
}
if len ( url . Scheme ) == 0 {
return false //No Scheme found
}
return true
}
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// IsRequestURI checks if the string rawurl, assuming
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// it was received in an HTTP request, is an
// absolute URI or an absolute path.
func IsRequestURI ( rawurl string ) bool {
_ , err := url . ParseRequestURI ( rawurl )
return err == nil
}
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// IsAlpha checks if the string contains only letters (a-zA-Z). Empty string is valid.
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func IsAlpha ( str string ) bool {
if IsNull ( str ) {
return true
}
return rxAlpha . MatchString ( str )
}
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//IsUTFLetter checks if the string contains only unicode letter characters.
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//Similar to IsAlpha but for all languages. Empty string is valid.
func IsUTFLetter ( str string ) bool {
if IsNull ( str ) {
return true
}
for _ , c := range str {
if ! unicode . IsLetter ( c ) {
return false
}
}
return true
}
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// IsAlphanumeric checks if the string contains only letters and numbers. Empty string is valid.
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func IsAlphanumeric ( str string ) bool {
if IsNull ( str ) {
return true
}
return rxAlphanumeric . MatchString ( str )
}
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// IsUTFLetterNumeric checks if the string contains only unicode letters and numbers. Empty string is valid.
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func IsUTFLetterNumeric ( str string ) bool {
if IsNull ( str ) {
return true
}
for _ , c := range str {
if ! unicode . IsLetter ( c ) && ! unicode . IsNumber ( c ) { //letters && numbers are ok
return false
}
}
return true
}
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// IsNumeric checks if the string contains only numbers. Empty string is valid.
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func IsNumeric ( str string ) bool {
if IsNull ( str ) {
return true
}
return rxNumeric . MatchString ( str )
}
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// IsUTFNumeric checks if the string contains only unicode numbers of any kind.
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// Numbers can be 0-9 but also Fractions ¾,Roman Ⅸ and Hangzhou 〩. Empty string is valid.
func IsUTFNumeric ( str string ) bool {
if IsNull ( str ) {
return true
}
if strings . IndexAny ( str , "+-" ) > 0 {
return false
}
if len ( str ) > 1 {
str = strings . TrimPrefix ( str , "-" )
str = strings . TrimPrefix ( str , "+" )
}
for _ , c := range str {
if ! unicode . IsNumber ( c ) { //numbers && minus sign are ok
return false
}
}
return true
}
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// IsUTFDigit checks if the string contains only unicode radix-10 decimal digits. Empty string is valid.
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func IsUTFDigit ( str string ) bool {
if IsNull ( str ) {
return true
}
if strings . IndexAny ( str , "+-" ) > 0 {
return false
}
if len ( str ) > 1 {
str = strings . TrimPrefix ( str , "-" )
str = strings . TrimPrefix ( str , "+" )
}
for _ , c := range str {
if ! unicode . IsDigit ( c ) { //digits && minus sign are ok
return false
}
}
return true
}
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// IsHexadecimal checks if the string is a hexadecimal number.
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func IsHexadecimal ( str string ) bool {
return rxHexadecimal . MatchString ( str )
}
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// IsHexcolor checks if the string is a hexadecimal color.
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func IsHexcolor ( str string ) bool {
return rxHexcolor . MatchString ( str )
}
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// IsRGBcolor checks if the string is a valid RGB color in form rgb(RRR, GGG, BBB).
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func IsRGBcolor ( str string ) bool {
return rxRGBcolor . MatchString ( str )
}
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// IsLowerCase checks if the string is lowercase. Empty string is valid.
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func IsLowerCase ( str string ) bool {
if IsNull ( str ) {
return true
}
return str == strings . ToLower ( str )
}
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// IsUpperCase checks if the string is uppercase. Empty string is valid.
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func IsUpperCase ( str string ) bool {
if IsNull ( str ) {
return true
}
return str == strings . ToUpper ( str )
}
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// HasLowerCase checks if the string contains at least 1 lowercase. Empty string is valid.
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func HasLowerCase ( str string ) bool {
if IsNull ( str ) {
return true
}
return rxHasLowerCase . MatchString ( str )
}
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// HasUpperCase checks if the string contains as least 1 uppercase. Empty string is valid.
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func HasUpperCase ( str string ) bool {
if IsNull ( str ) {
return true
}
return rxHasUpperCase . MatchString ( str )
}
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// IsInt checks if the string is an integer. Empty string is valid.
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func IsInt ( str string ) bool {
if IsNull ( str ) {
return true
}
return rxInt . MatchString ( str )
}
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// IsFloat checks if the string is a float.
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func IsFloat ( str string ) bool {
return str != "" && rxFloat . MatchString ( str )
}
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// IsDivisibleBy checks if the string is a number that's divisible by another.
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// If second argument is not valid integer or zero, it's return false.
// Otherwise, if first argument is not valid integer or zero, it's return true (Invalid string converts to zero).
func IsDivisibleBy ( str , num string ) bool {
f , _ := ToFloat ( str )
p := int64 ( f )
q , _ := ToInt ( num )
if q == 0 {
return false
}
return ( p == 0 ) || ( p % q == 0 )
}
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// IsNull checks if the string is null.
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func IsNull ( str string ) bool {
return len ( str ) == 0
}
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// IsNotNull checks if the string is not null.
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func IsNotNull ( str string ) bool {
return ! IsNull ( str )
}
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// HasWhitespaceOnly checks the string only contains whitespace
func HasWhitespaceOnly ( str string ) bool {
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return len ( str ) > 0 && rxHasWhitespaceOnly . MatchString ( str )
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}
// HasWhitespace checks if the string contains any whitespace
func HasWhitespace ( str string ) bool {
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return len ( str ) > 0 && rxHasWhitespace . MatchString ( str )
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}
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// IsByteLength checks if the string's length (in bytes) falls in a range.
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func IsByteLength ( str string , min , max int ) bool {
return len ( str ) >= min && len ( str ) <= max
}
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// IsUUIDv3 checks if the string is a UUID version 3.
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func IsUUIDv3 ( str string ) bool {
return rxUUID3 . MatchString ( str )
}
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// IsUUIDv4 checks if the string is a UUID version 4.
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func IsUUIDv4 ( str string ) bool {
return rxUUID4 . MatchString ( str )
}
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// IsUUIDv5 checks if the string is a UUID version 5.
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func IsUUIDv5 ( str string ) bool {
return rxUUID5 . MatchString ( str )
}
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// IsUUID checks if the string is a UUID (version 3, 4 or 5).
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func IsUUID ( str string ) bool {
return rxUUID . MatchString ( str )
}
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// IsCreditCard checks if the string is a credit card.
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func IsCreditCard ( str string ) bool {
sanitized := notNumberRegexp . ReplaceAllString ( str , "" )
if ! rxCreditCard . MatchString ( sanitized ) {
return false
}
var sum int64
var digit string
var tmpNum int64
var shouldDouble bool
for i := len ( sanitized ) - 1 ; i >= 0 ; i -- {
digit = sanitized [ i : ( i + 1 ) ]
tmpNum , _ = ToInt ( digit )
if shouldDouble {
tmpNum *= 2
if tmpNum >= 10 {
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sum += ( tmpNum % 10 ) + 1
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} else {
sum += tmpNum
}
} else {
sum += tmpNum
}
shouldDouble = ! shouldDouble
}
return sum % 10 == 0
}
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// IsISBN10 checks if the string is an ISBN version 10.
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func IsISBN10 ( str string ) bool {
return IsISBN ( str , 10 )
}
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// IsISBN13 checks if the string is an ISBN version 13.
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func IsISBN13 ( str string ) bool {
return IsISBN ( str , 13 )
}
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// IsISBN checks if the string is an ISBN (version 10 or 13).
// If version value is not equal to 10 or 13, it will be checks both variants.
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func IsISBN ( str string , version int ) bool {
sanitized := whiteSpacesAndMinus . ReplaceAllString ( str , "" )
var checksum int32
var i int32
if version == 10 {
if ! rxISBN10 . MatchString ( sanitized ) {
return false
}
for i = 0 ; i < 9 ; i ++ {
checksum += ( i + 1 ) * int32 ( sanitized [ i ] - '0' )
}
if sanitized [ 9 ] == 'X' {
checksum += 10 * 10
} else {
checksum += 10 * int32 ( sanitized [ 9 ] - '0' )
}
if checksum % 11 == 0 {
return true
}
return false
} else if version == 13 {
if ! rxISBN13 . MatchString ( sanitized ) {
return false
}
factor := [ ] int32 { 1 , 3 }
for i = 0 ; i < 12 ; i ++ {
checksum += factor [ i % 2 ] * int32 ( sanitized [ i ] - '0' )
}
return ( int32 ( sanitized [ 12 ] - '0' ) ) - ( ( 10 - ( checksum % 10 ) ) % 10 ) == 0
}
return IsISBN ( str , 10 ) || IsISBN ( str , 13 )
}
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// IsJSON checks if the string is valid JSON (note: uses json.Unmarshal).
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func IsJSON ( str string ) bool {
var js json . RawMessage
return json . Unmarshal ( [ ] byte ( str ) , & js ) == nil
}
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// IsMultibyte checks if the string contains one or more multibyte chars. Empty string is valid.
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func IsMultibyte ( str string ) bool {
if IsNull ( str ) {
return true
}
return rxMultibyte . MatchString ( str )
}
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// IsASCII checks if the string contains ASCII chars only. Empty string is valid.
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func IsASCII ( str string ) bool {
if IsNull ( str ) {
return true
}
return rxASCII . MatchString ( str )
}
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// IsPrintableASCII checks if the string contains printable ASCII chars only. Empty string is valid.
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func IsPrintableASCII ( str string ) bool {
if IsNull ( str ) {
return true
}
return rxPrintableASCII . MatchString ( str )
}
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// IsFullWidth checks if the string contains any full-width chars. Empty string is valid.
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func IsFullWidth ( str string ) bool {
if IsNull ( str ) {
return true
}
return rxFullWidth . MatchString ( str )
}
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// IsHalfWidth checks if the string contains any half-width chars. Empty string is valid.
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func IsHalfWidth ( str string ) bool {
if IsNull ( str ) {
return true
}
return rxHalfWidth . MatchString ( str )
}
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// IsVariableWidth checks if the string contains a mixture of full and half-width chars. Empty string is valid.
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func IsVariableWidth ( str string ) bool {
if IsNull ( str ) {
return true
}
return rxHalfWidth . MatchString ( str ) && rxFullWidth . MatchString ( str )
}
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// IsBase64 checks if a string is base64 encoded.
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func IsBase64 ( str string ) bool {
return rxBase64 . MatchString ( str )
}
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// IsFilePath checks is a string is Win or Unix file path and returns it's type.
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func IsFilePath ( str string ) ( bool , int ) {
if rxWinPath . MatchString ( str ) {
//check windows path limit see:
// http://msdn.microsoft.com/en-us/library/aa365247(VS.85).aspx#maxpath
if len ( str [ 3 : ] ) > 32767 {
return false , Win
}
return true , Win
} else if rxUnixPath . MatchString ( str ) {
return true , Unix
}
return false , Unknown
}
// IsDataURI checks if a string is base64 encoded data URI such as an image
func IsDataURI ( str string ) bool {
dataURI := strings . Split ( str , "," )
if ! rxDataURI . MatchString ( dataURI [ 0 ] ) {
return false
}
return IsBase64 ( dataURI [ 1 ] )
}
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// IsMagnetURI checks if a string is valid magnet URI
func IsMagnetURI ( str string ) bool {
return rxMagnetURI . MatchString ( str )
}
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// IsISO3166Alpha2 checks if a string is valid two-letter country code
func IsISO3166Alpha2 ( str string ) bool {
for _ , entry := range ISO3166List {
if str == entry . Alpha2Code {
return true
}
}
return false
}
// IsISO3166Alpha3 checks if a string is valid three-letter country code
func IsISO3166Alpha3 ( str string ) bool {
for _ , entry := range ISO3166List {
if str == entry . Alpha3Code {
return true
}
}
return false
}
// IsISO693Alpha2 checks if a string is valid two-letter language code
func IsISO693Alpha2 ( str string ) bool {
for _ , entry := range ISO693List {
if str == entry . Alpha2Code {
return true
}
}
return false
}
// IsISO693Alpha3b checks if a string is valid three-letter language code
func IsISO693Alpha3b ( str string ) bool {
for _ , entry := range ISO693List {
if str == entry . Alpha3bCode {
return true
}
}
return false
}
// IsDNSName will validate the given string as a DNS name
func IsDNSName ( str string ) bool {
if str == "" || len ( strings . Replace ( str , "." , "" , - 1 ) ) > 255 {
// constraints already violated
return false
}
return ! IsIP ( str ) && rxDNSName . MatchString ( str )
}
// IsHash checks if a string is a hash of type algorithm.
// Algorithm is one of ['md4', 'md5', 'sha1', 'sha256', 'sha384', 'sha512', 'ripemd128', 'ripemd160', 'tiger128', 'tiger160', 'tiger192', 'crc32', 'crc32b']
func IsHash ( str string , algorithm string ) bool {
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var len string
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algo := strings . ToLower ( algorithm )
if algo == "crc32" || algo == "crc32b" {
len = "8"
} else if algo == "md5" || algo == "md4" || algo == "ripemd128" || algo == "tiger128" {
len = "32"
} else if algo == "sha1" || algo == "ripemd160" || algo == "tiger160" {
len = "40"
} else if algo == "tiger192" {
len = "48"
} else if algo == "sha256" {
len = "64"
} else if algo == "sha384" {
len = "96"
} else if algo == "sha512" {
len = "128"
} else {
return false
}
return Matches ( str , "^[a-f0-9]{" + len + "}$" )
}
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// IsSHA512 checks is a string is a SHA512 hash. Alias for `IsHash(str, "sha512")`
func IsSHA512 ( str string ) bool {
return IsHash ( str , "sha512" )
}
// IsSHA384 checks is a string is a SHA384 hash. Alias for `IsHash(str, "sha384")`
func IsSHA384 ( str string ) bool {
return IsHash ( str , "sha384" )
}
// IsSHA256 checks is a string is a SHA256 hash. Alias for `IsHash(str, "sha256")`
func IsSHA256 ( str string ) bool {
return IsHash ( str , "sha256" )
}
// IsTiger192 checks is a string is a Tiger192 hash. Alias for `IsHash(str, "tiger192")`
func IsTiger192 ( str string ) bool {
return IsHash ( str , "tiger192" )
}
// IsTiger160 checks is a string is a Tiger160 hash. Alias for `IsHash(str, "tiger160")`
func IsTiger160 ( str string ) bool {
return IsHash ( str , "tiger160" )
}
// IsRipeMD160 checks is a string is a RipeMD160 hash. Alias for `IsHash(str, "ripemd160")`
func IsRipeMD160 ( str string ) bool {
return IsHash ( str , "ripemd160" )
}
// IsSHA1 checks is a string is a SHA-1 hash. Alias for `IsHash(str, "sha1")`
func IsSHA1 ( str string ) bool {
return IsHash ( str , "sha1" )
}
// IsTiger128 checks is a string is a Tiger128 hash. Alias for `IsHash(str, "tiger128")`
func IsTiger128 ( str string ) bool {
return IsHash ( str , "tiger128" )
}
// IsRipeMD128 checks is a string is a RipeMD128 hash. Alias for `IsHash(str, "ripemd128")`
func IsRipeMD128 ( str string ) bool {
return IsHash ( str , "ripemd128" )
}
// IsCRC32 checks is a string is a CRC32 hash. Alias for `IsHash(str, "crc32")`
func IsCRC32 ( str string ) bool {
return IsHash ( str , "crc32" )
}
// IsCRC32b checks is a string is a CRC32b hash. Alias for `IsHash(str, "crc32b")`
func IsCRC32b ( str string ) bool {
return IsHash ( str , "crc32b" )
}
// IsMD5 checks is a string is a MD5 hash. Alias for `IsHash(str, "md5")`
func IsMD5 ( str string ) bool {
return IsHash ( str , "md5" )
}
// IsMD4 checks is a string is a MD4 hash. Alias for `IsHash(str, "md4")`
func IsMD4 ( str string ) bool {
return IsHash ( str , "md4" )
}
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// IsDialString validates the given string for usage with the various Dial() functions
func IsDialString ( str string ) bool {
if h , p , err := net . SplitHostPort ( str ) ; err == nil && h != "" && p != "" && ( IsDNSName ( h ) || IsIP ( h ) ) && IsPort ( p ) {
return true
}
return false
}
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// IsIP checks if a string is either IP version 4 or 6. Alias for `net.ParseIP`
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func IsIP ( str string ) bool {
return net . ParseIP ( str ) != nil
}
// IsPort checks if a string represents a valid port
func IsPort ( str string ) bool {
if i , err := strconv . Atoi ( str ) ; err == nil && i > 0 && i < 65536 {
return true
}
return false
}
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// IsIPv4 checks if the string is an IP version 4.
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func IsIPv4 ( str string ) bool {
ip := net . ParseIP ( str )
return ip != nil && strings . Contains ( str , "." )
}
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// IsIPv6 checks if the string is an IP version 6.
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func IsIPv6 ( str string ) bool {
ip := net . ParseIP ( str )
return ip != nil && strings . Contains ( str , ":" )
}
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// IsCIDR checks if the string is an valid CIDR notiation (IPV4 & IPV6)
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func IsCIDR ( str string ) bool {
_ , _ , err := net . ParseCIDR ( str )
return err == nil
}
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// IsMAC checks if a string is valid MAC address.
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// Possible MAC formats:
// 01:23:45:67:89:ab
// 01:23:45:67:89:ab:cd:ef
// 01-23-45-67-89-ab
// 01-23-45-67-89-ab-cd-ef
// 0123.4567.89ab
// 0123.4567.89ab.cdef
func IsMAC ( str string ) bool {
_ , err := net . ParseMAC ( str )
return err == nil
}
// IsHost checks if the string is a valid IP (both v4 and v6) or a valid DNS name
func IsHost ( str string ) bool {
return IsIP ( str ) || IsDNSName ( str )
}
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// IsMongoID checks if the string is a valid hex-encoded representation of a MongoDB ObjectId.
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func IsMongoID ( str string ) bool {
return rxHexadecimal . MatchString ( str ) && ( len ( str ) == 24 )
}
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// IsLatitude checks if a string is valid latitude.
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func IsLatitude ( str string ) bool {
return rxLatitude . MatchString ( str )
}
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// IsLongitude checks if a string is valid longitude.
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func IsLongitude ( str string ) bool {
return rxLongitude . MatchString ( str )
}
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// IsIMEI checks if a string is valid IMEI
func IsIMEI ( str string ) bool {
return rxIMEI . MatchString ( str )
}
// IsIMSI checks if a string is valid IMSI
func IsIMSI ( str string ) bool {
if ! rxIMSI . MatchString ( str ) {
return false
}
mcc , err := strconv . ParseInt ( str [ 0 : 3 ] , 10 , 32 )
if err != nil {
return false
}
switch mcc {
case 202 , 204 , 206 , 208 , 212 , 213 , 214 , 216 , 218 , 219 :
case 220 , 221 , 222 , 226 , 228 , 230 , 231 , 232 , 234 , 235 :
case 238 , 240 , 242 , 244 , 246 , 247 , 248 , 250 , 255 , 257 :
case 259 , 260 , 262 , 266 , 268 , 270 , 272 , 274 , 276 , 278 :
case 280 , 282 , 283 , 284 , 286 , 288 , 289 , 290 , 292 , 293 :
case 294 , 295 , 297 , 302 , 308 , 310 , 311 , 312 , 313 , 314 :
case 315 , 316 , 330 , 332 , 334 , 338 , 340 , 342 , 344 , 346 :
case 348 , 350 , 352 , 354 , 356 , 358 , 360 , 362 , 363 , 364 :
case 365 , 366 , 368 , 370 , 372 , 374 , 376 , 400 , 401 , 402 :
case 404 , 405 , 406 , 410 , 412 , 413 , 414 , 415 , 416 , 417 :
case 418 , 419 , 420 , 421 , 422 , 424 , 425 , 426 , 427 , 428 :
case 429 , 430 , 431 , 432 , 434 , 436 , 437 , 438 , 440 , 441 :
case 450 , 452 , 454 , 455 , 456 , 457 , 460 , 461 , 466 , 467 :
case 470 , 472 , 502 , 505 , 510 , 514 , 515 , 520 , 525 , 528 :
case 530 , 536 , 537 , 539 , 540 , 541 , 542 , 543 , 544 , 545 :
case 546 , 547 , 548 , 549 , 550 , 551 , 552 , 553 , 554 , 555 :
case 602 , 603 , 604 , 605 , 606 , 607 , 608 , 609 , 610 , 611 :
case 612 , 613 , 614 , 615 , 616 , 617 , 618 , 619 , 620 , 621 :
case 622 , 623 , 624 , 625 , 626 , 627 , 628 , 629 , 630 , 631 :
case 632 , 633 , 634 , 635 , 636 , 637 , 638 , 639 , 640 , 641 :
case 642 , 643 , 645 , 646 , 647 , 648 , 649 , 650 , 651 , 652 :
case 653 , 654 , 655 , 657 , 658 , 659 , 702 , 704 , 706 , 708 :
case 710 , 712 , 714 , 716 , 722 , 724 , 730 , 732 , 734 , 736 :
case 738 , 740 , 742 , 744 , 746 , 748 , 750 , 995 :
return true
default :
return false
}
return true
}
// IsRsaPublicKey checks if a string is valid public key with provided length
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func IsRsaPublicKey ( str string , keylen int ) bool {
bb := bytes . NewBufferString ( str )
pemBytes , err := ioutil . ReadAll ( bb )
if err != nil {
return false
}
block , _ := pem . Decode ( pemBytes )
if block != nil && block . Type != "PUBLIC KEY" {
return false
}
var der [ ] byte
if block != nil {
der = block . Bytes
} else {
der , err = base64 . StdEncoding . DecodeString ( str )
if err != nil {
return false
}
}
key , err := x509 . ParsePKIXPublicKey ( der )
if err != nil {
return false
}
pubkey , ok := key . ( * rsa . PublicKey )
if ! ok {
return false
}
bitlen := len ( pubkey . N . Bytes ( ) ) * 8
return bitlen == int ( keylen )
}
func toJSONName ( tag string ) string {
if tag == "" {
return ""
}
// JSON name always comes first. If there's no options then split[0] is
// JSON name, if JSON name is not set, then split[0] is an empty string.
split := strings . SplitN ( tag , "," , 2 )
name := split [ 0 ]
// However it is possible that the field is skipped when
// (de-)serializing from/to JSON, in which case assume that there is no
// tag name to use
if name == "-" {
return ""
}
return name
}
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func prependPathToErrors ( err error , path string ) error {
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switch err2 := err . ( type ) {
case Error :
err2 . Path = append ( [ ] string { path } , err2 . Path ... )
return err2
case Errors :
errors := err2 . Errors ( )
for i , err3 := range errors {
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errors [ i ] = prependPathToErrors ( err3 , path )
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}
return err2
}
return err
}
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// ValidateArray performs validation according to condition iterator that validates every element of the array
func ValidateArray ( array [ ] interface { } , iterator ConditionIterator ) bool {
return Every ( array , iterator )
}
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// ValidateMap use validation map for fields.
// result will be equal to `false` if there are any errors.
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// s is the map containing the data to be validated.
// m is the validation map in the form:
// map[string]interface{}{"name":"required,alpha","address":map[string]interface{}{"line1":"required,alphanum"}}
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func ValidateMap ( s map [ string ] interface { } , m map [ string ] interface { } ) ( bool , error ) {
if s == nil {
return true , nil
}
result := true
var err error
var errs Errors
var index int
val := reflect . ValueOf ( s )
for key , value := range s {
presentResult := true
validator , ok := m [ key ]
if ! ok {
presentResult = false
var err error
err = fmt . Errorf ( "all map keys has to be present in the validation map; got %s" , key )
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err = prependPathToErrors ( err , key )
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errs = append ( errs , err )
}
valueField := reflect . ValueOf ( value )
mapResult := true
typeResult := true
structResult := true
resultField := true
switch subValidator := validator . ( type ) {
case map [ string ] interface { } :
var err error
if v , ok := value . ( map [ string ] interface { } ) ; ! ok {
mapResult = false
err = fmt . Errorf ( "map validator has to be for the map type only; got %s" , valueField . Type ( ) . String ( ) )
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err = prependPathToErrors ( err , key )
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errs = append ( errs , err )
} else {
mapResult , err = ValidateMap ( v , subValidator )
if err != nil {
mapResult = false
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err = prependPathToErrors ( err , key )
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errs = append ( errs , err )
}
}
case string :
if ( valueField . Kind ( ) == reflect . Struct ||
( valueField . Kind ( ) == reflect . Ptr && valueField . Elem ( ) . Kind ( ) == reflect . Struct ) ) &&
subValidator != "-" {
var err error
structResult , err = ValidateStruct ( valueField . Interface ( ) )
if err != nil {
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err = prependPathToErrors ( err , key )
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errs = append ( errs , err )
}
}
resultField , err = typeCheck ( valueField , reflect . StructField {
Name : key ,
PkgPath : "" ,
Type : val . Type ( ) ,
Tag : reflect . StructTag ( fmt . Sprintf ( "%s:%q" , tagName , subValidator ) ) ,
Offset : 0 ,
Index : [ ] int { index } ,
Anonymous : false ,
} , val , nil )
if err != nil {
errs = append ( errs , err )
}
case nil :
// already handlerd when checked before
default :
typeResult = false
err = fmt . Errorf ( "map validator has to be either map[string]interface{} or string; got %s" , valueField . Type ( ) . String ( ) )
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err = prependPathToErrors ( err , key )
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errs = append ( errs , err )
}
result = result && presentResult && typeResult && resultField && structResult && mapResult
index ++
}
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// checks required keys
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requiredResult := true
for key , value := range m {
if schema , ok := value . ( string ) ; ok {
tags := parseTagIntoMap ( schema )
if required , ok := tags [ "required" ] ; ok {
if _ , ok := s [ key ] ; ! ok {
requiredResult = false
if required . customErrorMessage != "" {
err = Error { key , fmt . Errorf ( required . customErrorMessage ) , true , "required" , [ ] string { } }
} else {
err = Error { key , fmt . Errorf ( "required field missing" ) , false , "required" , [ ] string { } }
}
errs = append ( errs , err )
}
}
}
}
if len ( errs ) > 0 {
err = errs
}
return result && requiredResult , err
}
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// ValidateStruct use tags for fields.
// result will be equal to `false` if there are any errors.
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// todo currently there is no guarantee that errors will be returned in predictable order (tests may to fail)
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func ValidateStruct ( s interface { } ) ( bool , error ) {
if s == nil {
return true , nil
}
result := true
var err error
val := reflect . ValueOf ( s )
if val . Kind ( ) == reflect . Interface || val . Kind ( ) == reflect . Ptr {
val = val . Elem ( )
}
// we only accept structs
if val . Kind ( ) != reflect . Struct {
return false , fmt . Errorf ( "function only accepts structs; got %s" , val . Kind ( ) )
}
var errs Errors
for i := 0 ; i < val . NumField ( ) ; i ++ {
valueField := val . Field ( i )
typeField := val . Type ( ) . Field ( i )
if typeField . PkgPath != "" {
continue // Private field
}
structResult := true
if valueField . Kind ( ) == reflect . Interface {
valueField = valueField . Elem ( )
}
if ( valueField . Kind ( ) == reflect . Struct ||
( valueField . Kind ( ) == reflect . Ptr && valueField . Elem ( ) . Kind ( ) == reflect . Struct ) ) &&
typeField . Tag . Get ( tagName ) != "-" {
var err error
structResult , err = ValidateStruct ( valueField . Interface ( ) )
if err != nil {
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err = prependPathToErrors ( err , typeField . Name )
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errs = append ( errs , err )
}
}
resultField , err2 := typeCheck ( valueField , typeField , val , nil )
if err2 != nil {
// Replace structure name with JSON name if there is a tag on the variable
jsonTag := toJSONName ( typeField . Tag . Get ( "json" ) )
if jsonTag != "" {
switch jsonError := err2 . ( type ) {
case Error :
jsonError . Name = jsonTag
err2 = jsonError
case Errors :
for i2 , err3 := range jsonError {
switch customErr := err3 . ( type ) {
case Error :
customErr . Name = jsonTag
jsonError [ i2 ] = customErr
}
}
err2 = jsonError
}
}
errs = append ( errs , err2 )
}
result = result && resultField && structResult
}
if len ( errs ) > 0 {
err = errs
}
return result , err
}
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// ValidateStructAsync performs async validation of the struct and returns results through the channels
func ValidateStructAsync ( s interface { } ) ( <- chan bool , <- chan error ) {
res := make ( chan bool )
errors := make ( chan error )
go func ( ) {
defer close ( res )
defer close ( errors )
isValid , isFailed := ValidateStruct ( s )
res <- isValid
errors <- isFailed
} ( )
return res , errors
}
// ValidateMapAsync performs async validation of the map and returns results through the channels
func ValidateMapAsync ( s map [ string ] interface { } , m map [ string ] interface { } ) ( <- chan bool , <- chan error ) {
res := make ( chan bool )
errors := make ( chan error )
go func ( ) {
defer close ( res )
defer close ( errors )
isValid , isFailed := ValidateMap ( s , m )
res <- isValid
errors <- isFailed
} ( )
return res , errors
}
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// parseTagIntoMap parses a struct tag `valid:required~Some error message,length(2|3)` into map[string]string{"required": "Some error message", "length(2|3)": ""}
func parseTagIntoMap ( tag string ) tagOptionsMap {
optionsMap := make ( tagOptionsMap )
options := strings . Split ( tag , "," )
for i , option := range options {
option = strings . TrimSpace ( option )
validationOptions := strings . Split ( option , "~" )
if ! isValidTag ( validationOptions [ 0 ] ) {
continue
}
if len ( validationOptions ) == 2 {
optionsMap [ validationOptions [ 0 ] ] = tagOption { validationOptions [ 0 ] , validationOptions [ 1 ] , i }
} else {
optionsMap [ validationOptions [ 0 ] ] = tagOption { validationOptions [ 0 ] , "" , i }
}
}
return optionsMap
}
func isValidTag ( s string ) bool {
if s == "" {
return false
}
for _ , c := range s {
switch {
case strings . ContainsRune ( "\\'\"!#$%&()*+-./:<=>?@[]^_{|}~ " , c ) :
// Backslash and quote chars are reserved, but
// otherwise any punctuation chars are allowed
// in a tag name.
default :
if ! unicode . IsLetter ( c ) && ! unicode . IsDigit ( c ) {
return false
}
}
}
return true
}
// IsSSN will validate the given string as a U.S. Social Security Number
func IsSSN ( str string ) bool {
if str == "" || len ( str ) != 11 {
return false
}
return rxSSN . MatchString ( str )
}
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// IsSemver checks if string is valid semantic version
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func IsSemver ( str string ) bool {
return rxSemver . MatchString ( str )
}
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// IsType checks if interface is of some type
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func IsType ( v interface { } , params ... string ) bool {
if len ( params ) == 1 {
typ := params [ 0 ]
return strings . Replace ( reflect . TypeOf ( v ) . String ( ) , " " , "" , - 1 ) == strings . Replace ( typ , " " , "" , - 1 )
}
return false
}
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// IsTime checks if string is valid according to given format
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func IsTime ( str string , format string ) bool {
_ , err := time . Parse ( format , str )
return err == nil
}
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// IsUnixTime checks if string is valid unix timestamp value
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func IsUnixTime ( str string ) bool {
if _ , err := strconv . Atoi ( str ) ; err == nil {
return true
}
return false
}
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// IsRFC3339 checks if string is valid timestamp value according to RFC3339
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func IsRFC3339 ( str string ) bool {
return IsTime ( str , time . RFC3339 )
}
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// IsRFC3339WithoutZone checks if string is valid timestamp value according to RFC3339 which excludes the timezone.
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func IsRFC3339WithoutZone ( str string ) bool {
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return IsTime ( str , rfc3339WithoutZone )
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}
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// IsISO4217 checks if string is valid ISO currency code
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func IsISO4217 ( str string ) bool {
for _ , currency := range ISO4217List {
if str == currency {
return true
}
}
return false
}
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// ByteLength checks string's length
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func ByteLength ( str string , params ... string ) bool {
if len ( params ) == 2 {
min , _ := ToInt ( params [ 0 ] )
max , _ := ToInt ( params [ 1 ] )
return len ( str ) >= int ( min ) && len ( str ) <= int ( max )
}
return false
}
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// RuneLength checks string's length
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// Alias for StringLength
func RuneLength ( str string , params ... string ) bool {
return StringLength ( str , params ... )
}
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// IsRsaPub checks whether string is valid RSA key
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// Alias for IsRsaPublicKey
func IsRsaPub ( str string , params ... string ) bool {
if len ( params ) == 1 {
len , _ := ToInt ( params [ 0 ] )
return IsRsaPublicKey ( str , int ( len ) )
}
return false
}
// StringMatches checks if a string matches a given pattern.
func StringMatches ( s string , params ... string ) bool {
if len ( params ) == 1 {
pattern := params [ 0 ]
return Matches ( s , pattern )
}
return false
}
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// StringLength checks string's length (including multi byte strings)
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func StringLength ( str string , params ... string ) bool {
if len ( params ) == 2 {
strLength := utf8 . RuneCountInString ( str )
min , _ := ToInt ( params [ 0 ] )
max , _ := ToInt ( params [ 1 ] )
return strLength >= int ( min ) && strLength <= int ( max )
}
return false
}
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// MinStringLength checks string's minimum length (including multi byte strings)
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func MinStringLength ( str string , params ... string ) bool {
if len ( params ) == 1 {
strLength := utf8 . RuneCountInString ( str )
min , _ := ToInt ( params [ 0 ] )
return strLength >= int ( min )
}
return false
}
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// MaxStringLength checks string's maximum length (including multi byte strings)
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func MaxStringLength ( str string , params ... string ) bool {
if len ( params ) == 1 {
strLength := utf8 . RuneCountInString ( str )
max , _ := ToInt ( params [ 0 ] )
return strLength <= int ( max )
}
return false
}
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// Range checks string's length
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func Range ( str string , params ... string ) bool {
if len ( params ) == 2 {
value , _ := ToFloat ( str )
min , _ := ToFloat ( params [ 0 ] )
max , _ := ToFloat ( params [ 1 ] )
return InRange ( value , min , max )
}
return false
}
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// IsInRaw checks if string is in list of allowed values
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func IsInRaw ( str string , params ... string ) bool {
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if len ( params ) == 1 {
rawParams := params [ 0 ]
parsedParams := strings . Split ( rawParams , "|" )
return IsIn ( str , parsedParams ... )
}
return false
}
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// IsIn checks if string str is a member of the set of strings params
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func IsIn ( str string , params ... string ) bool {
for _ , param := range params {
if str == param {
return true
}
}
return false
}
func checkRequired ( v reflect . Value , t reflect . StructField , options tagOptionsMap ) ( bool , error ) {
if nilPtrAllowedByRequired {
k := v . Kind ( )
if ( k == reflect . Ptr || k == reflect . Interface ) && v . IsNil ( ) {
return true , nil
}
}
if requiredOption , isRequired := options [ "required" ] ; isRequired {
if len ( requiredOption . customErrorMessage ) > 0 {
return false , Error { t . Name , fmt . Errorf ( requiredOption . customErrorMessage ) , true , "required" , [ ] string { } }
}
return false , Error { t . Name , fmt . Errorf ( "non zero value required" ) , false , "required" , [ ] string { } }
} else if _ , isOptional := options [ "optional" ] ; fieldsRequiredByDefault && ! isOptional {
return false , Error { t . Name , fmt . Errorf ( "Missing required field" ) , false , "required" , [ ] string { } }
}
// not required and empty is valid
return true , nil
}
func typeCheck ( v reflect . Value , t reflect . StructField , o reflect . Value , options tagOptionsMap ) ( isValid bool , resultErr error ) {
if ! v . IsValid ( ) {
return false , nil
}
tag := t . Tag . Get ( tagName )
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// checks if the field should be ignored
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switch tag {
case "" :
if v . Kind ( ) != reflect . Slice && v . Kind ( ) != reflect . Map {
if ! fieldsRequiredByDefault {
return true , nil
}
return false , Error { t . Name , fmt . Errorf ( "All fields are required to at least have one validation defined" ) , false , "required" , [ ] string { } }
}
case "-" :
return true , nil
}
isRootType := false
if options == nil {
isRootType = true
options = parseTagIntoMap ( tag )
}
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if isEmptyValue ( v ) {
// an empty value is not validated, checks only required
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isValid , resultErr = checkRequired ( v , t , options )
for key := range options {
delete ( options , key )
}
return isValid , resultErr
}
var customTypeErrors Errors
optionsOrder := options . orderedKeys ( )
for _ , validatorName := range optionsOrder {
validatorStruct := options [ validatorName ]
if validatefunc , ok := CustomTypeTagMap . Get ( validatorName ) ; ok {
delete ( options , validatorName )
if result := validatefunc ( v . Interface ( ) , o . Interface ( ) ) ; ! result {
if len ( validatorStruct . customErrorMessage ) > 0 {
customTypeErrors = append ( customTypeErrors , Error { Name : t . Name , Err : TruncatingErrorf ( validatorStruct . customErrorMessage , fmt . Sprint ( v ) , validatorName ) , CustomErrorMessageExists : true , Validator : stripParams ( validatorName ) } )
continue
}
customTypeErrors = append ( customTypeErrors , Error { Name : t . Name , Err : fmt . Errorf ( "%s does not validate as %s" , fmt . Sprint ( v ) , validatorName ) , CustomErrorMessageExists : false , Validator : stripParams ( validatorName ) } )
}
}
}
if len ( customTypeErrors . Errors ( ) ) > 0 {
return false , customTypeErrors
}
if isRootType {
// Ensure that we've checked the value by all specified validators before report that the value is valid
defer func ( ) {
delete ( options , "optional" )
delete ( options , "required" )
if isValid && resultErr == nil && len ( options ) != 0 {
optionsOrder := options . orderedKeys ( )
for _ , validator := range optionsOrder {
isValid = false
resultErr = Error { t . Name , fmt . Errorf (
"The following validator is invalid or can't be applied to the field: %q" , validator ) , false , stripParams ( validator ) , [ ] string { } }
return
}
}
} ( )
}
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for _ , validatorSpec := range optionsOrder {
validatorStruct := options [ validatorSpec ]
var negate bool
validator := validatorSpec
customMsgExists := len ( validatorStruct . customErrorMessage ) > 0
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// checks whether the tag looks like '!something' or 'something'
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if validator [ 0 ] == '!' {
validator = validator [ 1 : ]
negate = true
}
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// checks for interface param validators
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for key , value := range InterfaceParamTagRegexMap {
ps := value . FindStringSubmatch ( validator )
if len ( ps ) == 0 {
continue
}
validatefunc , ok := InterfaceParamTagMap [ key ]
if ! ok {
continue
}
delete ( options , validatorSpec )
field := fmt . Sprint ( v )
if result := validatefunc ( v . Interface ( ) , ps [ 1 : ] ... ) ; ( ! result && ! negate ) || ( result && negate ) {
if customMsgExists {
return false , Error { t . Name , TruncatingErrorf ( validatorStruct . customErrorMessage , field , validator ) , customMsgExists , stripParams ( validatorSpec ) , [ ] string { } }
}
if negate {
return false , Error { t . Name , fmt . Errorf ( "%s does validate as %s" , field , validator ) , customMsgExists , stripParams ( validatorSpec ) , [ ] string { } }
}
return false , Error { t . Name , fmt . Errorf ( "%s does not validate as %s" , field , validator ) , customMsgExists , stripParams ( validatorSpec ) , [ ] string { } }
}
}
}
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switch v . Kind ( ) {
case reflect . Bool ,
reflect . Int , reflect . Int8 , reflect . Int16 , reflect . Int32 , reflect . Int64 ,
reflect . Uint , reflect . Uint8 , reflect . Uint16 , reflect . Uint32 , reflect . Uint64 , reflect . Uintptr ,
reflect . Float32 , reflect . Float64 ,
reflect . String :
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// for each tag option checks the map of validator functions
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for _ , validatorSpec := range optionsOrder {
validatorStruct := options [ validatorSpec ]
var negate bool
validator := validatorSpec
customMsgExists := len ( validatorStruct . customErrorMessage ) > 0
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// checks whether the tag looks like '!something' or 'something'
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if validator [ 0 ] == '!' {
validator = validator [ 1 : ]
negate = true
}
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// checks for param validators
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for key , value := range ParamTagRegexMap {
ps := value . FindStringSubmatch ( validator )
if len ( ps ) == 0 {
continue
}
validatefunc , ok := ParamTagMap [ key ]
if ! ok {
continue
}
delete ( options , validatorSpec )
switch v . Kind ( ) {
case reflect . String ,
reflect . Int , reflect . Int8 , reflect . Int16 , reflect . Int32 , reflect . Int64 ,
reflect . Uint , reflect . Uint8 , reflect . Uint16 , reflect . Uint32 , reflect . Uint64 ,
reflect . Float32 , reflect . Float64 :
field := fmt . Sprint ( v ) // make value into string, then validate with regex
if result := validatefunc ( field , ps [ 1 : ] ... ) ; ( ! result && ! negate ) || ( result && negate ) {
if customMsgExists {
return false , Error { t . Name , TruncatingErrorf ( validatorStruct . customErrorMessage , field , validator ) , customMsgExists , stripParams ( validatorSpec ) , [ ] string { } }
}
if negate {
return false , Error { t . Name , fmt . Errorf ( "%s does validate as %s" , field , validator ) , customMsgExists , stripParams ( validatorSpec ) , [ ] string { } }
}
return false , Error { t . Name , fmt . Errorf ( "%s does not validate as %s" , field , validator ) , customMsgExists , stripParams ( validatorSpec ) , [ ] string { } }
}
default :
// type not yet supported, fail
return false , Error { t . Name , fmt . Errorf ( "Validator %s doesn't support kind %s" , validator , v . Kind ( ) ) , false , stripParams ( validatorSpec ) , [ ] string { } }
}
}
if validatefunc , ok := TagMap [ validator ] ; ok {
delete ( options , validatorSpec )
switch v . Kind ( ) {
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case reflect . String ,
reflect . Int , reflect . Int8 , reflect . Int16 , reflect . Int32 , reflect . Int64 ,
reflect . Uint , reflect . Uint8 , reflect . Uint16 , reflect . Uint32 , reflect . Uint64 ,
reflect . Float32 , reflect . Float64 :
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field := fmt . Sprint ( v ) // make value into string, then validate with regex
if result := validatefunc ( field ) ; ! result && ! negate || result && negate {
if customMsgExists {
return false , Error { t . Name , TruncatingErrorf ( validatorStruct . customErrorMessage , field , validator ) , customMsgExists , stripParams ( validatorSpec ) , [ ] string { } }
}
if negate {
return false , Error { t . Name , fmt . Errorf ( "%s does validate as %s" , field , validator ) , customMsgExists , stripParams ( validatorSpec ) , [ ] string { } }
}
return false , Error { t . Name , fmt . Errorf ( "%s does not validate as %s" , field , validator ) , customMsgExists , stripParams ( validatorSpec ) , [ ] string { } }
}
default :
//Not Yet Supported Types (Fail here!)
err := fmt . Errorf ( "Validator %s doesn't support kind %s for value %v" , validator , v . Kind ( ) , v )
return false , Error { t . Name , err , false , stripParams ( validatorSpec ) , [ ] string { } }
}
}
}
return true , nil
case reflect . Map :
if v . Type ( ) . Key ( ) . Kind ( ) != reflect . String {
return false , & UnsupportedTypeError { v . Type ( ) }
}
var sv stringValues
sv = v . MapKeys ( )
sort . Sort ( sv )
result := true
for i , k := range sv {
var resultItem bool
var err error
if v . MapIndex ( k ) . Kind ( ) != reflect . Struct {
resultItem , err = typeCheck ( v . MapIndex ( k ) , t , o , options )
if err != nil {
return false , err
}
} else {
resultItem , err = ValidateStruct ( v . MapIndex ( k ) . Interface ( ) )
if err != nil {
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err = prependPathToErrors ( err , t . Name + "." + sv [ i ] . Interface ( ) . ( string ) )
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return false , err
}
}
result = result && resultItem
}
return result , nil
case reflect . Slice , reflect . Array :
result := true
for i := 0 ; i < v . Len ( ) ; i ++ {
var resultItem bool
var err error
if v . Index ( i ) . Kind ( ) != reflect . Struct {
resultItem , err = typeCheck ( v . Index ( i ) , t , o , options )
if err != nil {
return false , err
}
} else {
resultItem , err = ValidateStruct ( v . Index ( i ) . Interface ( ) )
if err != nil {
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err = prependPathToErrors ( err , t . Name + "." + strconv . Itoa ( i ) )
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return false , err
}
}
result = result && resultItem
}
return result , nil
case reflect . Interface :
// If the value is an interface then encode its element
if v . IsNil ( ) {
return true , nil
}
return ValidateStruct ( v . Interface ( ) )
case reflect . Ptr :
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// If the value is a pointer then checks its element
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if v . IsNil ( ) {
return true , nil
}
return typeCheck ( v . Elem ( ) , t , o , options )
case reflect . Struct :
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return true , nil
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default :
return false , & UnsupportedTypeError { v . Type ( ) }
}
}
func stripParams ( validatorString string ) string {
return paramsRegexp . ReplaceAllString ( validatorString , "" )
}
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// isEmptyValue checks whether value empty or not
func isEmptyValue ( v reflect . Value ) bool {
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switch v . Kind ( ) {
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case reflect . String , reflect . Array :
return v . Len ( ) == 0
case reflect . Map , reflect . Slice :
return v . Len ( ) == 0 || v . IsNil ( )
case reflect . Bool :
return ! v . Bool ( )
case reflect . Int , reflect . Int8 , reflect . Int16 , reflect . Int32 , reflect . Int64 :
return v . Int ( ) == 0
case reflect . Uint , reflect . Uint8 , reflect . Uint16 , reflect . Uint32 , reflect . Uint64 , reflect . Uintptr :
return v . Uint ( ) == 0
case reflect . Float32 , reflect . Float64 :
return v . Float ( ) == 0
case reflect . Interface , reflect . Ptr :
return v . IsNil ( )
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}
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return reflect . DeepEqual ( v . Interface ( ) , reflect . Zero ( v . Type ( ) ) . Interface ( ) )
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}
// ErrorByField returns error for specified field of the struct
// validated by ValidateStruct or empty string if there are no errors
// or this field doesn't exists or doesn't have any errors.
func ErrorByField ( e error , field string ) string {
if e == nil {
return ""
}
return ErrorsByField ( e ) [ field ]
}
// ErrorsByField returns map of errors of the struct validated
// by ValidateStruct or empty map if there are no errors.
func ErrorsByField ( e error ) map [ string ] string {
m := make ( map [ string ] string )
if e == nil {
return m
}
// prototype for ValidateStruct
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switch e := e . ( type ) {
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case Error :
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m [ e . Name ] = e . Err . Error ( )
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case Errors :
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for _ , item := range e . Errors ( ) {
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n := ErrorsByField ( item )
for k , v := range n {
m [ k ] = v
}
}
}
return m
}
// Error returns string equivalent for reflect.Type
func ( e * UnsupportedTypeError ) Error ( ) string {
return "validator: unsupported type: " + e . Type . String ( )
}
func ( sv stringValues ) Len ( ) int { return len ( sv ) }
func ( sv stringValues ) Swap ( i , j int ) { sv [ i ] , sv [ j ] = sv [ j ] , sv [ i ] }
func ( sv stringValues ) Less ( i , j int ) bool { return sv . get ( i ) < sv . get ( j ) }
func ( sv stringValues ) get ( i int ) string { return sv [ i ] . String ( ) }