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forgejo/vendor/github.com/go-openapi/validate/validator.go

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// Copyright 2015 go-swagger maintainers
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package validate
import (
"fmt"
"reflect"
"github.com/go-openapi/errors"
"github.com/go-openapi/spec"
"github.com/go-openapi/strfmt"
)
// An EntityValidator is an interface for things that can validate entities
type EntityValidator interface {
Validate(interface{}) *Result
}
type valueValidator interface {
SetPath(path string)
Applies(interface{}, reflect.Kind) bool
Validate(interface{}) *Result
}
type itemsValidator struct {
items *spec.Items
root interface{}
path string
in string
validators []valueValidator
KnownFormats strfmt.Registry
}
func newItemsValidator(path, in string, items *spec.Items, root interface{}, formats strfmt.Registry) *itemsValidator {
iv := &itemsValidator{path: path, in: in, items: items, root: root, KnownFormats: formats}
iv.validators = []valueValidator{
&typeValidator{
Type: spec.StringOrArray([]string{items.Type}),
Nullable: items.Nullable,
Format: items.Format,
In: in,
Path: path,
},
iv.stringValidator(),
iv.formatValidator(),
iv.numberValidator(),
iv.sliceValidator(),
iv.commonValidator(),
}
return iv
}
func (i *itemsValidator) Validate(index int, data interface{}) *Result {
tpe := reflect.TypeOf(data)
kind := tpe.Kind()
mainResult := new(Result)
path := fmt.Sprintf("%s.%d", i.path, index)
for _, validator := range i.validators {
validator.SetPath(path)
if validator.Applies(i.root, kind) {
result := validator.Validate(data)
mainResult.Merge(result)
mainResult.Inc()
if result != nil && result.HasErrors() {
return mainResult
}
}
}
return mainResult
}
func (i *itemsValidator) commonValidator() valueValidator {
return &basicCommonValidator{
In: i.in,
Default: i.items.Default,
Enum: i.items.Enum,
}
}
func (i *itemsValidator) sliceValidator() valueValidator {
return &basicSliceValidator{
In: i.in,
Default: i.items.Default,
MaxItems: i.items.MaxItems,
MinItems: i.items.MinItems,
UniqueItems: i.items.UniqueItems,
Source: i.root,
Items: i.items.Items,
KnownFormats: i.KnownFormats,
}
}
func (i *itemsValidator) numberValidator() valueValidator {
return &numberValidator{
In: i.in,
Default: i.items.Default,
MultipleOf: i.items.MultipleOf,
Maximum: i.items.Maximum,
ExclusiveMaximum: i.items.ExclusiveMaximum,
Minimum: i.items.Minimum,
ExclusiveMinimum: i.items.ExclusiveMinimum,
Type: i.items.Type,
Format: i.items.Format,
}
}
func (i *itemsValidator) stringValidator() valueValidator {
return &stringValidator{
In: i.in,
Default: i.items.Default,
MaxLength: i.items.MaxLength,
MinLength: i.items.MinLength,
Pattern: i.items.Pattern,
AllowEmptyValue: false,
}
}
func (i *itemsValidator) formatValidator() valueValidator {
return &formatValidator{
In: i.in,
//Default: i.items.Default,
Format: i.items.Format,
KnownFormats: i.KnownFormats,
}
}
type basicCommonValidator struct {
Path string
In string
Default interface{}
Enum []interface{}
}
func (b *basicCommonValidator) SetPath(path string) {
b.Path = path
}
func (b *basicCommonValidator) Applies(source interface{}, kind reflect.Kind) bool {
switch source.(type) {
case *spec.Parameter, *spec.Schema, *spec.Header:
return true
}
return false
}
func (b *basicCommonValidator) Validate(data interface{}) (res *Result) {
if len(b.Enum) > 0 {
for _, enumValue := range b.Enum {
actualType := reflect.TypeOf(enumValue)
if actualType != nil { // Safeguard
expectedValue := reflect.ValueOf(data)
if expectedValue.IsValid() && expectedValue.Type().ConvertibleTo(actualType) {
if reflect.DeepEqual(expectedValue.Convert(actualType).Interface(), enumValue) {
return nil
}
}
}
}
return errorHelp.sErr(errors.EnumFail(b.Path, b.In, data, b.Enum))
}
return nil
}
// A HeaderValidator has very limited subset of validations to apply
type HeaderValidator struct {
name string
header *spec.Header
validators []valueValidator
KnownFormats strfmt.Registry
}
// NewHeaderValidator creates a new header validator object
func NewHeaderValidator(name string, header *spec.Header, formats strfmt.Registry) *HeaderValidator {
p := &HeaderValidator{name: name, header: header, KnownFormats: formats}
p.validators = []valueValidator{
&typeValidator{
Type: spec.StringOrArray([]string{header.Type}),
Nullable: header.Nullable,
Format: header.Format,
In: "header",
Path: name,
},
p.stringValidator(),
p.formatValidator(),
p.numberValidator(),
p.sliceValidator(),
p.commonValidator(),
}
return p
}
// Validate the value of the header against its schema
func (p *HeaderValidator) Validate(data interface{}) *Result {
result := new(Result)
tpe := reflect.TypeOf(data)
kind := tpe.Kind()
for _, validator := range p.validators {
if validator.Applies(p.header, kind) {
if err := validator.Validate(data); err != nil {
result.Merge(err)
if err.HasErrors() {
return result
}
}
}
}
return nil
}
func (p *HeaderValidator) commonValidator() valueValidator {
return &basicCommonValidator{
Path: p.name,
In: "response",
Default: p.header.Default,
Enum: p.header.Enum,
}
}
func (p *HeaderValidator) sliceValidator() valueValidator {
return &basicSliceValidator{
Path: p.name,
In: "response",
Default: p.header.Default,
MaxItems: p.header.MaxItems,
MinItems: p.header.MinItems,
UniqueItems: p.header.UniqueItems,
Items: p.header.Items,
Source: p.header,
KnownFormats: p.KnownFormats,
}
}
func (p *HeaderValidator) numberValidator() valueValidator {
return &numberValidator{
Path: p.name,
In: "response",
Default: p.header.Default,
MultipleOf: p.header.MultipleOf,
Maximum: p.header.Maximum,
ExclusiveMaximum: p.header.ExclusiveMaximum,
Minimum: p.header.Minimum,
ExclusiveMinimum: p.header.ExclusiveMinimum,
Type: p.header.Type,
Format: p.header.Format,
}
}
func (p *HeaderValidator) stringValidator() valueValidator {
return &stringValidator{
Path: p.name,
In: "response",
Default: p.header.Default,
Required: true,
MaxLength: p.header.MaxLength,
MinLength: p.header.MinLength,
Pattern: p.header.Pattern,
AllowEmptyValue: false,
}
}
func (p *HeaderValidator) formatValidator() valueValidator {
return &formatValidator{
Path: p.name,
In: "response",
//Default: p.header.Default,
Format: p.header.Format,
KnownFormats: p.KnownFormats,
}
}
// A ParamValidator has very limited subset of validations to apply
type ParamValidator struct {
param *spec.Parameter
validators []valueValidator
KnownFormats strfmt.Registry
}
// NewParamValidator creates a new param validator object
func NewParamValidator(param *spec.Parameter, formats strfmt.Registry) *ParamValidator {
p := &ParamValidator{param: param, KnownFormats: formats}
p.validators = []valueValidator{
&typeValidator{
Type: spec.StringOrArray([]string{param.Type}),
Nullable: param.Nullable,
Format: param.Format,
In: param.In,
Path: param.Name,
},
p.stringValidator(),
p.formatValidator(),
p.numberValidator(),
p.sliceValidator(),
p.commonValidator(),
}
return p
}
// Validate the data against the description of the parameter
func (p *ParamValidator) Validate(data interface{}) *Result {
result := new(Result)
tpe := reflect.TypeOf(data)
kind := tpe.Kind()
// TODO: validate type
for _, validator := range p.validators {
if validator.Applies(p.param, kind) {
if err := validator.Validate(data); err != nil {
result.Merge(err)
if err.HasErrors() {
return result
}
}
}
}
return nil
}
func (p *ParamValidator) commonValidator() valueValidator {
return &basicCommonValidator{
Path: p.param.Name,
In: p.param.In,
Default: p.param.Default,
Enum: p.param.Enum,
}
}
func (p *ParamValidator) sliceValidator() valueValidator {
return &basicSliceValidator{
Path: p.param.Name,
In: p.param.In,
Default: p.param.Default,
MaxItems: p.param.MaxItems,
MinItems: p.param.MinItems,
UniqueItems: p.param.UniqueItems,
Items: p.param.Items,
Source: p.param,
KnownFormats: p.KnownFormats,
}
}
func (p *ParamValidator) numberValidator() valueValidator {
return &numberValidator{
Path: p.param.Name,
In: p.param.In,
Default: p.param.Default,
MultipleOf: p.param.MultipleOf,
Maximum: p.param.Maximum,
ExclusiveMaximum: p.param.ExclusiveMaximum,
Minimum: p.param.Minimum,
ExclusiveMinimum: p.param.ExclusiveMinimum,
Type: p.param.Type,
Format: p.param.Format,
}
}
func (p *ParamValidator) stringValidator() valueValidator {
return &stringValidator{
Path: p.param.Name,
In: p.param.In,
Default: p.param.Default,
AllowEmptyValue: p.param.AllowEmptyValue,
Required: p.param.Required,
MaxLength: p.param.MaxLength,
MinLength: p.param.MinLength,
Pattern: p.param.Pattern,
}
}
func (p *ParamValidator) formatValidator() valueValidator {
return &formatValidator{
Path: p.param.Name,
In: p.param.In,
//Default: p.param.Default,
Format: p.param.Format,
KnownFormats: p.KnownFormats,
}
}
type basicSliceValidator struct {
Path string
In string
Default interface{}
MaxItems *int64
MinItems *int64
UniqueItems bool
Items *spec.Items
Source interface{}
itemsValidator *itemsValidator
KnownFormats strfmt.Registry
}
func (s *basicSliceValidator) SetPath(path string) {
s.Path = path
}
func (s *basicSliceValidator) Applies(source interface{}, kind reflect.Kind) bool {
switch source.(type) {
case *spec.Parameter, *spec.Items, *spec.Header:
return kind == reflect.Slice
}
return false
}
func (s *basicSliceValidator) Validate(data interface{}) *Result {
val := reflect.ValueOf(data)
size := int64(val.Len())
if s.MinItems != nil {
if err := MinItems(s.Path, s.In, size, *s.MinItems); err != nil {
return errorHelp.sErr(err)
}
}
if s.MaxItems != nil {
if err := MaxItems(s.Path, s.In, size, *s.MaxItems); err != nil {
return errorHelp.sErr(err)
}
}
if s.UniqueItems {
if err := UniqueItems(s.Path, s.In, data); err != nil {
return errorHelp.sErr(err)
}
}
if s.itemsValidator == nil && s.Items != nil {
s.itemsValidator = newItemsValidator(s.Path, s.In, s.Items, s.Source, s.KnownFormats)
}
if s.itemsValidator != nil {
for i := 0; i < int(size); i++ {
ele := val.Index(i)
if err := s.itemsValidator.Validate(i, ele.Interface()); err != nil && err.HasErrors() {
return err
}
}
}
return nil
}
func (s *basicSliceValidator) hasDuplicates(value reflect.Value, size int) bool {
dict := make(map[interface{}]struct{})
for i := 0; i < size; i++ {
ele := value.Index(i)
if _, ok := dict[ele.Interface()]; ok {
return true
}
dict[ele.Interface()] = struct{}{}
}
return false
}
type numberValidator struct {
Path string
In string
Default interface{}
MultipleOf *float64
Maximum *float64
ExclusiveMaximum bool
Minimum *float64
ExclusiveMinimum bool
// Allows for more accurate behavior regarding integers
Type string
Format string
}
func (n *numberValidator) SetPath(path string) {
n.Path = path
}
func (n *numberValidator) Applies(source interface{}, kind reflect.Kind) bool {
switch source.(type) {
case *spec.Parameter, *spec.Schema, *spec.Items, *spec.Header:
isInt := kind >= reflect.Int && kind <= reflect.Uint64
isFloat := kind == reflect.Float32 || kind == reflect.Float64
r := isInt || isFloat
debugLog("schema props validator for %q applies %t for %T (kind: %v) isInt=%t, isFloat=%t\n", n.Path, r, source, kind, isInt, isFloat)
return r
}
debugLog("schema props validator for %q applies %t for %T (kind: %v)\n", n.Path, false, source, kind)
return false
}
// Validate provides a validator for generic JSON numbers,
//
// By default, numbers are internally represented as float64.
// Formats float, or float32 may alter this behavior by mapping to float32.
// A special validation process is followed for integers, with optional "format":
// this is an attempt to provide a validation with native types.
//
// NOTE: since the constraint specified (boundary, multipleOf) is unmarshalled
// as float64, loss of information remains possible (e.g. on very large integers).
//
// Since this value directly comes from the unmarshalling, it is not possible
// at this stage of processing to check further and guarantee the correctness of such values.
//
// Normally, the JSON Number.MAX_SAFE_INTEGER (resp. Number.MIN_SAFE_INTEGER)
// would check we do not get such a loss.
//
// If this is the case, replace AddErrors() by AddWarnings() and IsValid() by !HasWarnings().
//
// TODO: consider replacing boundary check errors by simple warnings.
//
// TODO: default boundaries with MAX_SAFE_INTEGER are not checked (specific to json.Number?)
func (n *numberValidator) Validate(val interface{}) *Result {
res := new(Result)
resMultiple := new(Result)
resMinimum := new(Result)
resMaximum := new(Result)
// Used only to attempt to validate constraint on value,
// even though value or constraint specified do not match type and format
data := valueHelp.asFloat64(val)
// Is the provided value within the range of the specified numeric type and format?
res.AddErrors(IsValueValidAgainstRange(val, n.Type, n.Format, "Checked", n.Path))
if n.MultipleOf != nil {
// Is the constraint specifier within the range of the specific numeric type and format?
resMultiple.AddErrors(IsValueValidAgainstRange(*n.MultipleOf, n.Type, n.Format, "MultipleOf", n.Path))
if resMultiple.IsValid() {
// Constraint validated with compatible types
if err := MultipleOfNativeType(n.Path, n.In, val, *n.MultipleOf); err != nil {
resMultiple.Merge(errorHelp.sErr(err))
}
} else {
// Constraint nevertheless validated, converted as general number
if err := MultipleOf(n.Path, n.In, data, *n.MultipleOf); err != nil {
resMultiple.Merge(errorHelp.sErr(err))
}
}
}
if n.Maximum != nil {
// Is the constraint specifier within the range of the specific numeric type and format?
resMaximum.AddErrors(IsValueValidAgainstRange(*n.Maximum, n.Type, n.Format, "Maximum boundary", n.Path))
if resMaximum.IsValid() {
// Constraint validated with compatible types
if err := MaximumNativeType(n.Path, n.In, val, *n.Maximum, n.ExclusiveMaximum); err != nil {
resMaximum.Merge(errorHelp.sErr(err))
}
} else {
// Constraint nevertheless validated, converted as general number
if err := Maximum(n.Path, n.In, data, *n.Maximum, n.ExclusiveMaximum); err != nil {
resMaximum.Merge(errorHelp.sErr(err))
}
}
}
if n.Minimum != nil {
// Is the constraint specifier within the range of the specific numeric type and format?
resMinimum.AddErrors(IsValueValidAgainstRange(*n.Minimum, n.Type, n.Format, "Minimum boundary", n.Path))
if resMinimum.IsValid() {
// Constraint validated with compatible types
if err := MinimumNativeType(n.Path, n.In, val, *n.Minimum, n.ExclusiveMinimum); err != nil {
resMinimum.Merge(errorHelp.sErr(err))
}
} else {
// Constraint nevertheless validated, converted as general number
if err := Minimum(n.Path, n.In, data, *n.Minimum, n.ExclusiveMinimum); err != nil {
resMinimum.Merge(errorHelp.sErr(err))
}
}
}
res.Merge(resMultiple, resMinimum, resMaximum)
res.Inc()
return res
}
type stringValidator struct {
Default interface{}
Required bool
AllowEmptyValue bool
MaxLength *int64
MinLength *int64
Pattern string
Path string
In string
}
func (s *stringValidator) SetPath(path string) {
s.Path = path
}
func (s *stringValidator) Applies(source interface{}, kind reflect.Kind) bool {
switch source.(type) {
case *spec.Parameter, *spec.Schema, *spec.Items, *spec.Header:
r := kind == reflect.String
debugLog("string validator for %q applies %t for %T (kind: %v)\n", s.Path, r, source, kind)
return r
}
debugLog("string validator for %q applies %t for %T (kind: %v)\n", s.Path, false, source, kind)
return false
}
func (s *stringValidator) Validate(val interface{}) *Result {
data, ok := val.(string)
if !ok {
return errorHelp.sErr(errors.InvalidType(s.Path, s.In, "string", val))
}
if s.Required && !s.AllowEmptyValue && (s.Default == nil || s.Default == "") {
if err := RequiredString(s.Path, s.In, data); err != nil {
return errorHelp.sErr(err)
}
}
if s.MaxLength != nil {
if err := MaxLength(s.Path, s.In, data, *s.MaxLength); err != nil {
return errorHelp.sErr(err)
}
}
if s.MinLength != nil {
if err := MinLength(s.Path, s.In, data, *s.MinLength); err != nil {
return errorHelp.sErr(err)
}
}
if s.Pattern != "" {
if err := Pattern(s.Path, s.In, data, s.Pattern); err != nil {
return errorHelp.sErr(err)
}
}
return nil
}