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validating.go
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validating.go
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package validate
import (
"reflect"
"strings"
)
// const requiredValidator = "required"
// the validating result status:
// 0 ok 1 skip 2 fail
const (
statusOk uint8 = iota
statusSkip
statusFail
)
/*************************************************************
* Do Validating
*************************************************************/
// ValidateData validate given data-source
func (v *Validation) ValidateData(data DataFace) bool {
v.data = data
return v.Validate()
}
// ValidateErr do validate processing and return error
func (v *Validation) ValidateErr(scene ...string) error {
if v.Validate(scene...) {
return nil
}
return v.Errors
}
// ValidateE do validate processing and return Errors
//
// NOTE: need use len() to check the return is empty or not.
func (v *Validation) ValidateE(scene ...string) Errors {
if v.Validate(scene...) {
return nil
}
return v.Errors
}
// Validate processing
func (v *Validation) Validate(scene ...string) bool {
// has been validated OR has error
if v.hasValidated || v.shouldStop() {
return v.IsSuccess()
}
// release instance to pool TODO
// defer func() {
// v.resetRules()
// vPool.Put(v)
// }()
// init scene info
v.SetScene(scene...)
v.sceneFields = v.sceneFieldMap()
// apply filter rules before validate.
if !v.Filtering() && v.StopOnError {
return false
}
// apply rule to validate data.
for _, rule := range v.rules {
if rule.Apply(v) {
break
}
}
v.hasValidated = true
if v.hasError { // clear safe data on error.
v.safeData = make(map[string]any)
}
return v.IsSuccess()
}
// Apply current rule for the rule fields
func (r *Rule) Apply(v *Validation) (stop bool) {
// scene name is not match. skip the rule
if r.scene != "" && r.scene != v.scene {
return
}
// has beforeFunc and it returns FALSE, skip validate
if r.beforeFunc != nil && !r.beforeFunc(v) {
return
}
var err error
// get real validator name
name := r.realName
// validator name is not "requiredXXX"
isNotRequired := r.nameNotRequired
// validate each field
for _, field := range r.fields {
if v.isNotNeedToCheck(field) {
continue
}
// uploaded file validate
if isFileValidator(name) {
status := r.fileValidate(field, name, v)
if status == statusFail {
// build and collect error message
v.AddError(field, r.validator, r.errorMessage(field, r.validator, v))
if v.StopOnError {
return true
}
}
continue
}
// get field value. val, exist := v.Get(field)
val, exist, isDefault := v.GetWithDefault(field)
// value not exists but has default value
if isDefault {
// update source data field value and re-set value
val, err := v.updateValue(field, val)
if err != nil {
v.AddErrorf(field, err.Error())
if v.StopOnError {
return true
}
continue
}
// dont need check default value
if !v.CheckDefault {
v.safeData[field] = val // save validated value.
continue
}
// go on check custom default value
exist = true
} else if r.optional { // r.optional=true. skip check.
continue
}
// apply filter func.
if exist && r.filterFunc != nil {
if val, err = r.filterFunc(val); err != nil {
v.AddError(filterError, filterError, field+": "+err.Error())
return true
}
// update source field value
newVal, err := v.updateValue(field, val)
if err != nil {
v.AddErrorf(field, err.Error())
if v.StopOnError {
return true
}
continue
}
// re-set value
val = newVal
// save filtered value.
v.filteredData[field] = val
}
// empty value AND is not required* AND skip on empty.
if r.skipEmpty && isNotRequired && IsEmpty(val) {
continue
}
// validate field value
if r.valueValidate(field, name, val, v) {
v.safeData[field] = val
} else { // build and collect error message
v.AddError(field, r.validator, r.errorMessage(field, r.validator, v))
}
if v.shouldStop() {
return true
}
}
return false
}
func (r *Rule) fileValidate(field, name string, v *Validation) uint8 {
// check data source
form, ok := v.data.(*FormData)
if !ok {
return statusFail
}
// skip on empty AND field not exist
if r.skipEmpty && !form.HasFile(field) {
return statusSkip
}
ss := make([]string, 0, len(r.arguments))
for _, item := range r.arguments {
ss = append(ss, item.(string))
}
switch name {
case "isFile":
ok = v.IsFormFile(form, field)
case "isImage":
ok = v.IsFormImage(form, field, ss...)
case "inMimeTypes":
if ln := len(ss); ln == 0 {
panicf("not enough parameters for validator '%s'!", r.validator)
} else if ln == 1 {
//noinspection GoNilness
ok = v.InMimeTypes(form, field, ss[0])
} else { // ln > 1
//noinspection GoNilness
ok = v.InMimeTypes(form, field, ss[0], ss[1:]...)
}
}
if ok {
return statusOk
}
return statusFail
}
// value by tryGet(key) TODO
type value struct {
val any
key string
// has dot-star ".*" in the key. eg: details.sub.*.field
dotStar bool
// last index of dot-star on the key. eg: details.sub.*.field, lastIdx=11
lastIdx int
// is required or requiredXX check
require bool
}
// validate the field value
//
// - field: the field name. eg: "name", "details.sub.*.field"
// - name: the validator name. eg: "required", "min"
func (r *Rule) valueValidate(field, name string, val any, v *Validation) (ok bool) {
// "-" OR "safe" mark field value always is safe.
if name == RuleSafe1 || name == RuleSafe {
return true
}
// support check sub element in a slice list. eg: field=top.user.*.name
dotStarNum := strings.Count(field, ".*")
// perf: The most commonly used rule "required" - direct call v.Required()
if name == RuleRequired && dotStarNum == 0 {
return v.Required(field, val)
}
// call value validator in the rule.
fm := r.checkFuncMeta
if fm == nil {
// fallback: get validator from global or validation
fm = v.validatorMeta(name)
if fm == nil {
panicf("the validator '%s' does not exist", r.validator)
}
}
// some prepare and check.
argNum := len(r.arguments) + 1 // "+1" is the "val" position
// check arg num is match, need exclude "requiredXXX"
if r.nameNotRequired {
//noinspection GoNilness
fm.checkArgNum(argNum, r.validator)
}
// 1. args data type convert
args := r.arguments
if ok = convertArgsType(v, fm, field, args); !ok {
return false
}
ft := fm.fv.Type() // type of check func
arg0Kind := ft.In(0).Kind()
// rftVal := reflect.Indirect(reflect.ValueOf(val))
rftVal := reflect.ValueOf(val)
valKind := rftVal.Kind()
if valKind == reflect.Slice && dotStarNum > 0 {
sliceLen, sliceCap := rftVal.Len(), rftVal.Cap()
// if dotStarNum > 1, need flatten multi level slice with depth=dotStarNum.
if dotStarNum > 1 {
rftVal = flatSlice(rftVal, dotStarNum-1)
sliceLen, sliceCap = rftVal.Len(), rftVal.Cap()
}
// check requiredXX validate - flatten multi level slice, count ".*" number.
// TIP: if len < cap: not enough elements in the slice. use empty val call validator.
if !r.nameNotRequired && sliceLen < sliceCap {
return callValidator(v, fm, field, nil, r.arguments)
}
var subVal any
// check each element in the slice.
for i := 0; i < sliceLen; i++ {
subRv := indirectInterface(rftVal.Index(i))
subKind := subRv.Kind()
// 1.1 convert field value type, is func first argument.
if r.nameNotRequired && arg0Kind != reflect.Interface && arg0Kind != subKind {
subVal, ok = convValAsFuncArg0Type(arg0Kind, subKind, subRv.Interface())
if !ok {
v.convArgTypeError(field, fm.name, subKind, arg0Kind, 0)
return false
}
} else {
if subRv.IsValid() {
subVal = subRv.Interface()
} else {
subVal = nil
}
}
// 2. call built in validator
if !callValidator(v, fm, field, subVal, r.arguments) {
return false
}
}
return true
}
// 1 convert field value type, is func first argument.
if r.nameNotRequired && arg0Kind != reflect.Interface && arg0Kind != valKind {
val, ok = convValAsFuncArg0Type(arg0Kind, valKind, val)
if !ok {
v.convArgTypeError(field, fm.name, valKind, arg0Kind, 0)
return false
}
}
// 2. call built in validator
return callValidator(v, fm, field, val, r.arguments)
}
// convert input field value type, is validator func first argument.
func convValAsFuncArg0Type(arg0Kind, valKind reflect.Kind, val any) (any, bool) {
// If the validator function does not expect a pointer, but the value is a pointer,
// dereference the value.
if arg0Kind != reflect.Ptr && valKind == reflect.Ptr {
if val == nil {
return nil, true
}
val = reflect.ValueOf(val).Elem().Interface()
valKind = reflect.TypeOf(val).Kind()
}
// ak, err := basicKind(rftVal)
bk, err := basicKindV2(valKind)
if err != nil {
return nil, false
}
// manual converted
if nVal, _ := convTypeByBaseKind(val, bk, arg0Kind); nVal != nil {
return nVal, true
}
// TODO return nil, false
return val, true
}
func callValidator(v *Validation, fm *funcMeta, field string, val any, args []any) (ok bool) {
// use `switch` can avoid using reflection to call methods and improve speed
// fm.name please see pkg var: validatorValues
switch fm.name {
case "required":
ok = v.Required(field, val)
case "requiredIf":
ok = v.RequiredIf(field, val, args2strings(args)...)
case "requiredUnless":
ok = v.RequiredUnless(field, val, args2strings(args)...)
case "requiredWith":
ok = v.RequiredWith(field, val, args2strings(args)...)
case "requiredWithAll":
ok = v.RequiredWithAll(field, val, args2strings(args)...)
case "requiredWithout":
ok = v.RequiredWithout(field, val, args2strings(args)...)
case "requiredWithoutAll":
ok = v.RequiredWithoutAll(field, val, args2strings(args)...)
case "lt":
ok = Lt(val, args[0])
case "gt":
ok = Gt(val, args[0])
case "min":
ok = Min(val, args[0])
case "max":
ok = Max(val, args[0])
case "enum":
ok = Enum(val, args[0])
case "notIn":
ok = NotIn(val, args[0])
case "isInt":
if argLn := len(args); argLn == 0 {
ok = IsInt(val)
} else if argLn == 1 {
ok = IsInt(val, args[0].(int64))
} else { // argLn == 2
ok = IsInt(val, args[0].(int64), args[1].(int64))
}
case "isString":
if argLn := len(args); argLn == 0 {
ok = IsString(val)
} else if argLn == 1 {
ok = IsString(val, args[0].(int))
} else { // argLn == 2
ok = IsString(val, args[0].(int), args[1].(int))
}
case "isNumber":
ok = IsNumber(val)
case "isStringNumber":
ok = IsStringNumber(val.(string))
case "length":
ok = Length(val, args[0].(int))
case "minLength":
ok = MinLength(val, args[0].(int))
case "maxLength":
ok = MaxLength(val, args[0].(int))
case "stringLength":
if argLn := len(args); argLn == 1 {
ok = RuneLength(val, args[0].(int))
} else if argLn == 2 {
ok = RuneLength(val, args[0].(int), args[1].(int))
}
case "regexp":
ok = Regexp(val.(string), args[0].(string))
case "between":
ok = Between(val, args[0].(int64), args[1].(int64))
case "isJSON":
ok = IsJSON(val.(string))
case "isSlice":
ok = IsSlice(val)
default:
// 3. call user custom validators, will call by reflect
ok = callValidatorValue(fm.fv, val, args)
}
return
}
// convert args data type
func convertArgsType(v *Validation, fm *funcMeta, field string, args []any) (ok bool) {
if len(args) == 0 {
return true
}
ft := fm.fv.Type()
lastTyp := reflect.Invalid
lastArgIndex := fm.numIn - 1
// fix: isVariadic == true. last arg always is slice.
// eg: "...int64" -> slice "[]int64"
if fm.isVariadic {
// get variadic kind. "[]int64" -> reflect.Int64
lastTyp = getVariadicKind(ft.In(lastArgIndex))
}
// only one args and type is any
if lastArgIndex == 1 && lastTyp == reflect.Interface {
return true
}
var wantKind reflect.Kind
// convert args data type
for i, arg := range args {
av := reflect.ValueOf(arg)
// index in the func
// "+1" because func first arg is `val`, need skip it.
fcArgIndex := i + 1
argVKind := av.Kind()
// Notice: "+1" because first arg is field-value, need exclude it.
if fm.isVariadic && i+1 >= lastArgIndex {
if lastTyp == argVKind { // type is same
continue
}
ak, err := basicKindV2(argVKind)
if err != nil {
v.convArgTypeError(field, fm.name, argVKind, wantKind, fcArgIndex)
return
}
// manual converted
if nVal, _ := convTypeByBaseKind(args[i], ak, lastTyp); nVal != nil {
args[i] = nVal
continue
}
// unable to convert
v.convArgTypeError(field, fm.name, argVKind, wantKind, fcArgIndex)
return
}
// "+1" because func first arg is val, need skip it.
argIType := ft.In(fcArgIndex)
wantKind = argIType.Kind()
// type is same. or want type is interface
if wantKind == argVKind || wantKind == reflect.Interface {
continue
}
ak, err := basicKindV2(argVKind)
if err != nil {
v.convArgTypeError(field, fm.name, argVKind, wantKind, fcArgIndex)
return
}
// can auto convert type.
if av.Type().ConvertibleTo(argIType) {
args[i] = av.Convert(argIType).Interface()
} else if nVal, _ := convTypeByBaseKind(args[i], ak, wantKind); nVal != nil { // manual converted
args[i] = nVal
} else { // unable to convert
v.convArgTypeError(field, fm.name, argVKind, wantKind, fcArgIndex)
return
}
}
return true
}
func callValidatorValue(fv reflect.Value, val any, args []any) bool {
// build params for the validator func.
argNum := len(args)
argIn := make([]reflect.Value, argNum+1)
// if val is any(nil): rftVal.IsValid()==false
// if val is typed(nil): rftVal.IsValid()==true
rftVal := reflect.ValueOf(val)
// fix: #125 fv.Call() will panic on rftVal.Kind() is Invalid
if !rftVal.IsValid() {
rftVal = nilRVal
}
// Add this check to handle pointer values
if rftVal.Kind() == reflect.Ptr && !rftVal.IsNil() {
rftVal = rftVal.Elem()
}
argIn[0] = rftVal
for i := 0; i < argNum; i++ {
rftValA := reflect.ValueOf(args[i])
if !rftValA.IsValid() {
rftValA = nilRVal
}
argIn[i+1] = rftValA
}
// TODO panic recover, refer the text/template/funcs.go
// defer func() {
// if r := recover(); r != nil {
// if e, ok := r.(error); ok {
// err = e
// } else {
// err = fmt.Errorf("%v", r)
// }
// }
// }()
// NOTICE: f.CallSlice()与Call() 不一样的是,CallSlice参数的最后一个会被展开
// vs := fv.Call(argIn)
return fv.Call(argIn)[0].Bool()
}