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Merge pull request #100 from miraclesu/valid

Valid
This commit is contained in:
astaxie 2013-07-21 19:26:43 -07:00
commit a242f61b8e
3 changed files with 751 additions and 0 deletions

177
validation/validation.go Normal file
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package validation
import (
"fmt"
"regexp"
)
type ValidationError struct {
Message, Key string
}
// Returns the Message.
func (e *ValidationError) String() string {
if e == nil {
return ""
}
return e.Message
}
// A Validation context manages data validation and error messages.
type Validation struct {
Errors []*ValidationError
}
func (v *Validation) Clear() {
v.Errors = []*ValidationError{}
}
func (v *Validation) HasErrors() bool {
return len(v.Errors) > 0
}
// 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]*ValidationError {
m := map[string]*ValidationError{}
for _, e := range v.Errors {
if _, ok := m[e.Key]; !ok {
m[e.Key] = e
}
}
return m
}
// Add an error to the validation context.
func (v *Validation) Error(message string, args ...interface{}) *ValidationResult {
result := (&ValidationResult{
Ok: false,
Error: &ValidationError{},
}).Message(message, args...)
v.Errors = append(v.Errors, result.Error)
return result
}
// A ValidationResult is returned from every validation method.
// It provides an indication of success, and a pointer to the Error (if any).
type ValidationResult struct {
Error *ValidationError
Ok bool
}
func (r *ValidationResult) Key(key string) *ValidationResult {
if r.Error != nil {
r.Error.Key = key
}
return r
}
func (r *ValidationResult) Message(message string, args ...interface{}) *ValidationResult {
if r.Error != nil {
if len(args) == 0 {
r.Error.Message = message
} else {
r.Error.Message = fmt.Sprintf(message, args...)
}
}
return r
}
// Test that the argument is non-nil and non-empty (if string or list)
func (v *Validation) Required(obj interface{}, key string) *ValidationResult {
return v.apply(Required{key}, obj)
}
func (v *Validation) Min(n int, min int, key string) *ValidationResult {
return v.apply(Min{min, key}, n)
}
func (v *Validation) Max(n int, max int, key string) *ValidationResult {
return v.apply(Max{max, key}, n)
}
func (v *Validation) Range(n, min, max int, key string) *ValidationResult {
return v.apply(Range{Min{Min: min}, Max{Max: max}, key}, n)
}
func (v *Validation) MinSize(obj interface{}, min int, key string) *ValidationResult {
return v.apply(MinSize{min, key}, obj)
}
func (v *Validation) MaxSize(obj interface{}, max int, key string) *ValidationResult {
return v.apply(MaxSize{max, key}, obj)
}
func (v *Validation) Length(obj interface{}, n int, key string) *ValidationResult {
return v.apply(Length{n, key}, obj)
}
func (v *Validation) Alpha(obj interface{}, key string) *ValidationResult {
return v.apply(Alpha{key}, obj)
}
func (v *Validation) Numeric(obj interface{}, key string) *ValidationResult {
return v.apply(Numeric{key}, obj)
}
func (v *Validation) AlphaNumeric(obj interface{}, key string) *ValidationResult {
return v.apply(AlphaNumeric{key}, obj)
}
func (v *Validation) Match(str string, regex *regexp.Regexp, key string) *ValidationResult {
return v.apply(Match{regex, key}, str)
}
func (v *Validation) NoMatch(str string, regex *regexp.Regexp, key string) *ValidationResult {
return v.apply(NoMatch{Match{Regexp: regex}, key}, str)
}
func (v *Validation) AlphaDash(str string, key string) *ValidationResult {
return v.apply(AlphaDash{NoMatch{Match: Match{Regexp: alphaDashPattern}}, key}, str)
}
func (v *Validation) Email(str string, key string) *ValidationResult {
return v.apply(Email{Match{Regexp: emailPattern}, key}, str)
}
func (v *Validation) IP(str string, key string) *ValidationResult {
return v.apply(IP{Match{Regexp: ipPattern}, key}, str)
}
func (v *Validation) Base64(str string, key string) *ValidationResult {
return v.apply(Base64{Match{Regexp: base64Pattern}, key}, str)
}
func (v *Validation) apply(chk Validator, obj interface{}) *ValidationResult {
if chk.IsSatisfied(obj) {
return &ValidationResult{Ok: true}
}
// Add the error to the validation context.
err := &ValidationError{
Message: chk.DefaultMessage(),
Key: chk.GetKey(),
}
v.Errors = append(v.Errors, err)
// Also return it in the result.
return &ValidationResult{
Ok: false,
Error: err,
}
}
// 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) *ValidationResult {
var result *ValidationResult
for _, check := range checks {
result = v.apply(check, obj)
if !result.Ok {
return result
}
}
return result
}

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package validation
import (
"regexp"
"testing"
"time"
)
func TestRequired(t *testing.T) {
valid := Validation{}
if valid.Required(nil, "nil").Ok {
t.Error("nil object should be false")
}
if valid.Required("", "string").Ok {
t.Error("\"'\" string should be false")
}
if !valid.Required("astaxie", "string").Ok {
t.Error("string should be true")
}
if valid.Required(0, "zero").Ok {
t.Error("Integer should not be equal 0")
}
if !valid.Required(1, "int").Ok {
t.Error("Integer except 0 should be true")
}
if !valid.Required(time.Now(), "time").Ok {
t.Error("time should be true")
}
if valid.Required([]string{}, "emptySlice").Ok {
t.Error("empty slice should be false")
}
if !valid.Required([]interface{}{"ok"}, "slice").Ok {
t.Error("slice should be equal true")
}
}
func TestMin(t *testing.T) {
valid := Validation{}
if valid.Min(-1, 0, "min0").Ok {
t.Error("-1 is less than the minimum value of 0 should be false")
}
if !valid.Min(1, 0, "min0").Ok {
t.Error("1 is greater or equal than the minimum value of 0 should be true")
}
}
func TestMax(t *testing.T) {
valid := Validation{}
if valid.Max(1, 0, "max0").Ok {
t.Error("1 is greater than the minimum value of 0 should be false")
}
if !valid.Max(-1, 0, "max0").Ok {
t.Error("-1 is less or equal than the maximum value of 0 should be true")
}
}
func TestRange(t *testing.T) {
valid := Validation{}
if valid.Range(-1, 0, 1, "range0_1").Ok {
t.Error("-1 is bettween 0 and 1 should be false")
}
if !valid.Range(1, 0, 1, "range0_1").Ok {
t.Error("1 is bettween 0 and 1 should be true")
}
}
func TestMinSize(t *testing.T) {
valid := Validation{}
if valid.MinSize("", 1, "minSize1").Ok {
t.Error("the length of \"\" is less than the minimum value of 1 should be false")
}
if !valid.MinSize("ok", 1, "minSize1").Ok {
t.Error("the length of \"ok\" is greater or equal than the minimum value of 1 should be true")
}
if valid.MinSize([]string{}, 1, "minSize1").Ok {
t.Error("the length of empty slice is less than the minimum value of 1 should be false")
}
if !valid.MinSize([]interface{}{"ok"}, 1, "minSize1").Ok {
t.Error("the length of [\"ok\"] is greater or equal than the minimum value of 1 should be true")
}
}
func TestMaxSize(t *testing.T) {
valid := Validation{}
if valid.MaxSize("ok", 1, "maxSize1").Ok {
t.Error("the length of \"ok\" is greater than the maximum value of 1 should be false")
}
if !valid.MaxSize("", 1, "maxSize1").Ok {
t.Error("the length of \"\" is less or equal than the maximum value of 1 should be true")
}
if valid.MaxSize([]interface{}{"ok", false}, 1, "maxSize1").Ok {
t.Error("the length of [\"ok\", false] is greater than the maximum value of 1 should be false")
}
if !valid.MaxSize([]string{}, 1, "maxSize1").Ok {
t.Error("the length of empty slice is less or equal than the maximum value of 1 should be true")
}
}
func TestLength(t *testing.T) {
valid := Validation{}
if valid.Length("", 1, "length1").Ok {
t.Error("the length of \"\" must equal 1 should be false")
}
if !valid.Length("1", 1, "length1").Ok {
t.Error("the length of \"1\" must equal 1 should be true")
}
if valid.Length([]string{}, 1, "length1").Ok {
t.Error("the length of empty slice must equal 1 should be false")
}
if !valid.Length([]interface{}{"ok"}, 1, "length1").Ok {
t.Error("the length of [\"ok\"] must equal 1 should be true")
}
}
func TestAlpha(t *testing.T) {
valid := Validation{}
if valid.Alpha("a,1-@ $", "alpha").Ok {
t.Error("\"a,1-@ $\" are valid alpha characters should be false")
}
if !valid.Alpha("abCD", "alpha").Ok {
t.Error("\"abCD\" are valid alpha characters should be true")
}
}
func TestNumeric(t *testing.T) {
valid := Validation{}
if valid.Numeric("a,1-@ $", "numeric").Ok {
t.Error("\"a,1-@ $\" are valid numeric characters should be false")
}
if !valid.Numeric("1234", "numeric").Ok {
t.Error("\"1234\" are valid numeric characters should be true")
}
}
func TestAlphaNumeric(t *testing.T) {
valid := Validation{}
if valid.AlphaNumeric("a,1-@ $", "alphaNumeric").Ok {
t.Error("\"a,1-@ $\" are valid alpha or numeric characters should be false")
}
if !valid.AlphaNumeric("1234aB", "alphaNumeric").Ok {
t.Error("\"1234aB\" are valid alpha or numeric characters should be true")
}
}
func TestMatch(t *testing.T) {
valid := Validation{}
if valid.Match("suchuangji@gmail", regexp.MustCompile("^\\w+@\\w+\\.\\w+$"), "match").Ok {
t.Error("\"suchuangji@gmail\" match \"^\\w+@\\w+\\.\\w+$\" should be false")
}
if !valid.Match("suchuangji@gmail.com", regexp.MustCompile("^\\w+@\\w+\\.\\w+$"), "match").Ok {
t.Error("\"suchuangji@gmail\" match \"^\\w+@\\w+\\.\\w+$\" should be true")
}
}
func TestNoMatch(t *testing.T) {
valid := Validation{}
if valid.NoMatch("123@gmail", regexp.MustCompile("[^\\w\\d]"), "nomatch").Ok {
t.Error("\"123@gmail\" not match \"[^\\w\\d]\" should be false")
}
if !valid.NoMatch("123gmail", regexp.MustCompile("[^\\w\\d]"), "match").Ok {
t.Error("\"123@gmail\" not match \"[^\\w\\d@]\" should be true")
}
}
func TestAlphaDash(t *testing.T) {
valid := Validation{}
if valid.AlphaDash("a,1-@ $", "alphaDash").Ok {
t.Error("\"a,1-@ $\" are valid alpha or numeric or dash(-_) characters should be false")
}
if !valid.AlphaDash("1234aB-_", "alphaDash").Ok {
t.Error("\"1234aB\" are valid alpha or numeric or dash(-_) characters should be true")
}
}
func TestEmail(t *testing.T) {
valid := Validation{}
if valid.Email("not@a email", "email").Ok {
t.Error("\"not@a email\" is a valid email address should be false")
}
if !valid.Email("suchuangji@gmail.com", "email").Ok {
t.Error("\"suchuangji@gmail.com\" is a valid email address should be true")
}
}
func TestIP(t *testing.T) {
valid := Validation{}
if valid.IP("11.255.255.256", "IP").Ok {
t.Error("\"11.255.255.256\" is a valid ip address should be false")
}
if !valid.IP("01.11.11.11", "IP").Ok {
t.Error("\"suchuangji@gmail.com\" is a valid ip address should be true")
}
}
func TestBase64(t *testing.T) {
valid := Validation{}
if valid.Base64("suchuangji@gmail.com", "base64").Ok {
t.Error("\"suchuangji@gmail.com\" are a valid base64 characters should be false")
}
if !valid.Base64("c3VjaHVhbmdqaUBnbWFpbC5jb20=", "base64").Ok {
t.Error("\"c3VjaHVhbmdqaUBnbWFpbC5jb20=\" are a valid base64 characters should be true")
}
}

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validation/validators.go Normal file
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package validation
import (
"fmt"
"reflect"
"regexp"
"time"
)
type Validator interface {
IsSatisfied(interface{}) bool
DefaultMessage() string
GetKey() string
}
type Required struct {
Key string
}
func (r Required) IsSatisfied(obj interface{}) bool {
if obj == nil {
return false
}
if str, ok := obj.(string); ok {
return len(str) > 0
}
if b, ok := obj.(bool); ok {
return b
}
if i, ok := obj.(int); ok {
return i != 0
}
if t, ok := obj.(time.Time); ok {
return !t.IsZero()
}
v := reflect.ValueOf(obj)
if v.Kind() == reflect.Slice {
return v.Len() > 0
}
return true
}
func (r Required) DefaultMessage() string {
return "Required"
}
func (r Required) GetKey() string {
return r.Key
}
type Min struct {
Min int
Key string
}
func (m Min) IsSatisfied(obj interface{}) bool {
num, ok := obj.(int)
if ok {
return num >= m.Min
}
return false
}
func (m Min) DefaultMessage() string {
return fmt.Sprintln("Minimum is", m.Min)
}
func (m Min) GetKey() string {
return m.Key
}
type Max struct {
Max int
Key string
}
func (m Max) IsSatisfied(obj interface{}) bool {
num, ok := obj.(int)
if ok {
return num <= m.Max
}
return false
}
func (m Max) DefaultMessage() string {
return fmt.Sprintln("Maximum is", m.Max)
}
func (m Max) GetKey() string {
return m.Key
}
// Requires an integer to be within Min, Max inclusive.
type Range struct {
Min
Max
Key string
}
func (r Range) IsSatisfied(obj interface{}) bool {
return r.Min.IsSatisfied(obj) && r.Max.IsSatisfied(obj)
}
func (r Range) DefaultMessage() string {
return fmt.Sprintln("Range is", r.Min.Min, "to", r.Max.Max)
}
func (r Range) GetKey() string {
return r.Key
}
// Requires an array or string to be at least a given length.
type MinSize struct {
Min int
Key string
}
func (m MinSize) IsSatisfied(obj interface{}) bool {
if str, ok := obj.(string); ok {
return len(str) >= m.Min
}
v := reflect.ValueOf(obj)
if v.Kind() == reflect.Slice {
return v.Len() >= m.Min
}
return false
}
func (m MinSize) DefaultMessage() string {
return fmt.Sprintln("Minimum size is", m.Min)
}
func (m MinSize) GetKey() string {
return m.Key
}
// Requires an array or string to be at most a given length.
type MaxSize struct {
Max int
Key string
}
func (m MaxSize) IsSatisfied(obj interface{}) bool {
if str, ok := obj.(string); ok {
return len(str) <= m.Max
}
v := reflect.ValueOf(obj)
if v.Kind() == reflect.Slice {
return v.Len() <= m.Max
}
return false
}
func (m MaxSize) DefaultMessage() string {
return fmt.Sprintln("Maximum size is", m.Max)
}
func (m MaxSize) GetKey() string {
return m.Key
}
// Requires an array or string to be exactly a given length.
type Length struct {
N int
Key string
}
func (l Length) IsSatisfied(obj interface{}) bool {
if str, ok := obj.(string); ok {
return len(str) == l.N
}
v := reflect.ValueOf(obj)
if v.Kind() == reflect.Slice {
return v.Len() == l.N
}
return false
}
func (l Length) DefaultMessage() string {
return fmt.Sprintln("Required length is", l.N)
}
func (l Length) GetKey() string {
return l.Key
}
type Alpha struct {
Key string
}
func (a Alpha) IsSatisfied(obj interface{}) bool {
if str, ok := obj.(string); ok {
for _, v := range str {
if ('Z' < v || v < 'A') && ('z' < v || v < 'a') {
return false
}
}
return true
}
return false
}
func (a Alpha) DefaultMessage() string {
return fmt.Sprintln("Must be valid alpha characters")
}
func (a Alpha) GetKey() string {
return a.Key
}
type Numeric struct {
Key string
}
func (n Numeric) IsSatisfied(obj interface{}) bool {
if str, ok := obj.(string); ok {
for _, v := range str {
if '9' < v || v < '0' {
return false
}
}
return true
}
return false
}
func (n Numeric) DefaultMessage() string {
return fmt.Sprintln("Must be valid numeric characters")
}
func (n Numeric) GetKey() string {
return n.Key
}
type AlphaNumeric struct {
Key string
}
func (a AlphaNumeric) IsSatisfied(obj interface{}) bool {
if str, ok := obj.(string); ok {
for _, v := range str {
if ('Z' < v || v < 'A') && ('z' < v || v < 'a') && ('9' < v || v < '0') {
return false
}
}
return true
}
return false
}
func (a AlphaNumeric) DefaultMessage() string {
return fmt.Sprintln("Must be valid alpha or numeric characters")
}
func (a AlphaNumeric) GetKey() string {
return a.Key
}
// Requires a string to match a given regex.
type Match struct {
Regexp *regexp.Regexp
Key string
}
func (m Match) IsSatisfied(obj interface{}) bool {
str := obj.(string)
return m.Regexp.MatchString(str)
}
func (m Match) DefaultMessage() string {
return fmt.Sprintln("Must match", m.Regexp)
}
func (m Match) GetKey() string {
return m.Key
}
// Requires a string to not match a given regex.
type NoMatch struct {
Match
Key string
}
func (n NoMatch) IsSatisfied(obj interface{}) bool {
return !n.Match.IsSatisfied(obj)
}
func (n NoMatch) DefaultMessage() string {
return fmt.Sprintln("Must not match", n.Regexp)
}
func (n NoMatch) GetKey() string {
return n.Key
}
var alphaDashPattern = regexp.MustCompile("[^\\d\\w-_]")
type AlphaDash struct {
NoMatch
Key string
}
func (a AlphaDash) DefaultMessage() string {
return fmt.Sprintln("Must be valid alpha or numeric or dash(-_) characters")
}
func (a AlphaDash) GetKey() string {
return a.Key
}
var emailPattern = regexp.MustCompile("[\\w!#$%&'*+/=?^_`{|}~-]+(?:\\.[\\w!#$%&'*+/=?^_`{|}~-]+)*@(?:[\\w](?:[\\w-]*[\\w])?\\.)+[a-zA-Z0-9](?:[\\w-]*[\\w])?")
type Email struct {
Match
Key string
}
func (e Email) DefaultMessage() string {
return fmt.Sprintln("Must be a valid email address")
}
func (e Email) GetKey() string {
return e.Key
}
var ipPattern = regexp.MustCompile("^((2[0-4]\\d|25[0-5]|[01]?\\d\\d?)\\.){3}(2[0-4]\\d|25[0-5]|[01]?\\d\\d?)$")
type IP struct {
Match
Key string
}
func (i IP) DefaultMessage() string {
return fmt.Sprintln("Must be a valid ip address")
}
func (i IP) GetKey() string {
return i.Key
}
var base64Pattern = regexp.MustCompile("^(?:[A-Za-z0-99+/]{4})*(?:[A-Za-z0-9+/]{2}==|[A-Za-z0-9+/]{3}=)?$")
type Base64 struct {
Match
Key string
}
func (b Base64) DefaultMessage() string {
return fmt.Sprintln("Must be valid base64 characters")
}
func (b Base64) GetKey() string {
return b.Key
}