// Copyright 2015 xeipuuv ( https://github.com/xeipuuv ) // // 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. // author xeipuuv // author-github https://github.com/xeipuuv // author-mail xeipuuv@gmail.com // // repository-name gojsonschema // repository-desc An implementation of JSON Schema, based on IETF's draft v4 - Go language. // // description Extends Schema and subSchema, implements the validation phase. // // created 28-02-2013 package gojsonschema import ( "encoding/json" "reflect" "regexp" "strconv" "strings" "unicode/utf8" ) func Validate(ls JSONLoader, ld JSONLoader) (*Result, error) { var err error // load schema schema, err := NewSchema(ls) if err != nil { return nil, err } // begine validation return schema.Validate(ld) } func (v *Schema) Validate(l JSONLoader) (*Result, error) { // load document root, err := l.loadJSON() if err != nil { return nil, err } // begin validation result := &Result{} context := newJsonContext(STRING_CONTEXT_ROOT, nil) v.rootSchema.validateRecursive(v.rootSchema, root, result, context) return result, nil } func (v *subSchema) subValidateWithContext(document interface{}, context *jsonContext) *Result { result := &Result{} v.validateRecursive(v, document, result, context) return result } // Walker function to validate the json recursively against the subSchema func (v *subSchema) validateRecursive(currentSubSchema *subSchema, currentNode interface{}, result *Result, context *jsonContext) { if internalLogEnabled { internalLog("validateRecursive %s", context.String()) internalLog(" %v", currentNode) } // Handle referenced schemas, returns directly when a $ref is found if currentSubSchema.refSchema != nil { v.validateRecursive(currentSubSchema.refSchema, currentNode, result, context) return } // Check for null value if currentNode == nil { if currentSubSchema.types.IsTyped() && !currentSubSchema.types.Contains(TYPE_NULL) { result.addError( new(InvalidTypeError), context, currentNode, ErrorDetails{ "expected": currentSubSchema.types.String(), "given": TYPE_NULL, }, ) return } currentSubSchema.validateSchema(currentSubSchema, currentNode, result, context) v.validateCommon(currentSubSchema, currentNode, result, context) } else { // Not a null value if isJsonNumber(currentNode) { value := currentNode.(json.Number) _, isValidInt64, _ := checkJsonNumber(value) validType := currentSubSchema.types.Contains(TYPE_NUMBER) || (isValidInt64 && currentSubSchema.types.Contains(TYPE_INTEGER)) if currentSubSchema.types.IsTyped() && !validType { givenType := TYPE_INTEGER if !isValidInt64 { givenType = TYPE_NUMBER } result.addError( new(InvalidTypeError), context, currentNode, ErrorDetails{ "expected": currentSubSchema.types.String(), "given": givenType, }, ) return } currentSubSchema.validateSchema(currentSubSchema, value, result, context) v.validateNumber(currentSubSchema, value, result, context) v.validateCommon(currentSubSchema, value, result, context) v.validateString(currentSubSchema, value, result, context) } else { rValue := reflect.ValueOf(currentNode) rKind := rValue.Kind() switch rKind { // Slice => JSON array case reflect.Slice: if currentSubSchema.types.IsTyped() && !currentSubSchema.types.Contains(TYPE_ARRAY) { result.addError( new(InvalidTypeError), context, currentNode, ErrorDetails{ "expected": currentSubSchema.types.String(), "given": TYPE_ARRAY, }, ) return } castCurrentNode := currentNode.([]interface{}) currentSubSchema.validateSchema(currentSubSchema, castCurrentNode, result, context) v.validateArray(currentSubSchema, castCurrentNode, result, context) v.validateCommon(currentSubSchema, castCurrentNode, result, context) // Map => JSON object case reflect.Map: if currentSubSchema.types.IsTyped() && !currentSubSchema.types.Contains(TYPE_OBJECT) { result.addError( new(InvalidTypeError), context, currentNode, ErrorDetails{ "expected": currentSubSchema.types.String(), "given": TYPE_OBJECT, }, ) return } castCurrentNode, ok := currentNode.(map[string]interface{}) if !ok { castCurrentNode = convertDocumentNode(currentNode).(map[string]interface{}) } currentSubSchema.validateSchema(currentSubSchema, castCurrentNode, result, context) v.validateObject(currentSubSchema, castCurrentNode, result, context) v.validateCommon(currentSubSchema, castCurrentNode, result, context) for _, pSchema := range currentSubSchema.propertiesChildren { nextNode, ok := castCurrentNode[pSchema.property] if ok { subContext := newJsonContext(pSchema.property, context) v.validateRecursive(pSchema, nextNode, result, subContext) } } // Simple JSON values : string, number, boolean case reflect.Bool: if currentSubSchema.types.IsTyped() && !currentSubSchema.types.Contains(TYPE_BOOLEAN) { result.addError( new(InvalidTypeError), context, currentNode, ErrorDetails{ "expected": currentSubSchema.types.String(), "given": TYPE_BOOLEAN, }, ) return } value := currentNode.(bool) currentSubSchema.validateSchema(currentSubSchema, value, result, context) v.validateNumber(currentSubSchema, value, result, context) v.validateCommon(currentSubSchema, value, result, context) v.validateString(currentSubSchema, value, result, context) case reflect.String: if currentSubSchema.types.IsTyped() && !currentSubSchema.types.Contains(TYPE_STRING) { result.addError( new(InvalidTypeError), context, currentNode, ErrorDetails{ "expected": currentSubSchema.types.String(), "given": TYPE_STRING, }, ) return } value := currentNode.(string) currentSubSchema.validateSchema(currentSubSchema, value, result, context) v.validateNumber(currentSubSchema, value, result, context) v.validateCommon(currentSubSchema, value, result, context) v.validateString(currentSubSchema, value, result, context) } } } result.incrementScore() } // Different kinds of validation there, subSchema / common / array / object / string... func (v *subSchema) validateSchema(currentSubSchema *subSchema, currentNode interface{}, result *Result, context *jsonContext) { if internalLogEnabled { internalLog("validateSchema %s", context.String()) internalLog(" %v", currentNode) } if len(currentSubSchema.anyOf) > 0 { validatedAnyOf := false var bestValidationResult *Result for _, anyOfSchema := range currentSubSchema.anyOf { if !validatedAnyOf { validationResult := anyOfSchema.subValidateWithContext(currentNode, context) validatedAnyOf = validationResult.Valid() if !validatedAnyOf && (bestValidationResult == nil || validationResult.score > bestValidationResult.score) { bestValidationResult = validationResult } } } if !validatedAnyOf { result.addError(new(NumberAnyOfError), context, currentNode, ErrorDetails{}) if bestValidationResult != nil { // add error messages of closest matching subSchema as // that's probably the one the user was trying to match result.mergeErrors(bestValidationResult) } } } if len(currentSubSchema.oneOf) > 0 { nbValidated := 0 var bestValidationResult *Result for _, oneOfSchema := range currentSubSchema.oneOf { validationResult := oneOfSchema.subValidateWithContext(currentNode, context) if validationResult.Valid() { nbValidated++ } else if nbValidated == 0 && (bestValidationResult == nil || validationResult.score > bestValidationResult.score) { bestValidationResult = validationResult } } if nbValidated != 1 { result.addError(new(NumberOneOfError), context, currentNode, ErrorDetails{}) if nbValidated == 0 { // add error messages of closest matching subSchema as // that's probably the one the user was trying to match result.mergeErrors(bestValidationResult) } } } if len(currentSubSchema.allOf) > 0 { nbValidated := 0 for _, allOfSchema := range currentSubSchema.allOf { validationResult := allOfSchema.subValidateWithContext(currentNode, context) if validationResult.Valid() { nbValidated++ } result.mergeErrors(validationResult) } if nbValidated != len(currentSubSchema.allOf) { result.addError(new(NumberAllOfError), context, currentNode, ErrorDetails{}) } } if currentSubSchema.not != nil { validationResult := currentSubSchema.not.subValidateWithContext(currentNode, context) if validationResult.Valid() { result.addError(new(NumberNotError), context, currentNode, ErrorDetails{}) } } if currentSubSchema.dependencies != nil && len(currentSubSchema.dependencies) > 0 { if isKind(currentNode, reflect.Map) { for elementKey := range currentNode.(map[string]interface{}) { if dependency, ok := currentSubSchema.dependencies[elementKey]; ok { switch dependency := dependency.(type) { case []string: for _, dependOnKey := range dependency { if _, dependencyResolved := currentNode.(map[string]interface{})[dependOnKey]; !dependencyResolved { result.addError( new(MissingDependencyError), context, currentNode, ErrorDetails{"dependency": dependOnKey}, ) } } case *subSchema: dependency.validateRecursive(dependency, currentNode, result, context) } } } } } result.incrementScore() } func (v *subSchema) validateCommon(currentSubSchema *subSchema, value interface{}, result *Result, context *jsonContext) { if internalLogEnabled { internalLog("validateCommon %s", context.String()) internalLog(" %v", value) } // enum: if len(currentSubSchema.enum) > 0 { has, err := currentSubSchema.ContainsEnum(value) if err != nil { result.addError(new(InternalError), context, value, ErrorDetails{"error": err}) } if !has { result.addError( new(EnumError), context, value, ErrorDetails{ "allowed": strings.Join(currentSubSchema.enum, ", "), }, ) } } result.incrementScore() } func (v *subSchema) validateArray(currentSubSchema *subSchema, value []interface{}, result *Result, context *jsonContext) { if internalLogEnabled { internalLog("validateArray %s", context.String()) internalLog(" %v", value) } nbItems := len(value) // TODO explain if currentSubSchema.itemsChildrenIsSingleSchema { for i := range value { subContext := newJsonContext(strconv.Itoa(i), context) validationResult := currentSubSchema.itemsChildren[0].subValidateWithContext(value[i], subContext) result.mergeErrors(validationResult) } } else { if currentSubSchema.itemsChildren != nil && len(currentSubSchema.itemsChildren) > 0 { nbItems := len(currentSubSchema.itemsChildren) nbValues := len(value) if nbItems == nbValues { for i := 0; i != nbItems; i++ { subContext := newJsonContext(strconv.Itoa(i), context) validationResult := currentSubSchema.itemsChildren[i].subValidateWithContext(value[i], subContext) result.mergeErrors(validationResult) } } else if nbItems < nbValues { switch currentSubSchema.additionalItems.(type) { case bool: if !currentSubSchema.additionalItems.(bool) { result.addError(new(ArrayNoAdditionalItemsError), context, value, ErrorDetails{}) } case *subSchema: additionalItemSchema := currentSubSchema.additionalItems.(*subSchema) for i := nbItems; i != nbValues; i++ { subContext := newJsonContext(strconv.Itoa(i), context) validationResult := additionalItemSchema.subValidateWithContext(value[i], subContext) result.mergeErrors(validationResult) } } } } } // minItems & maxItems if currentSubSchema.minItems != nil { if nbItems < int(*currentSubSchema.minItems) { result.addError( new(ArrayMinItemsError), context, value, ErrorDetails{"min": *currentSubSchema.minItems}, ) } } if currentSubSchema.maxItems != nil { if nbItems > int(*currentSubSchema.maxItems) { result.addError( new(ArrayMaxItemsError), context, value, ErrorDetails{"max": *currentSubSchema.maxItems}, ) } } // uniqueItems: if currentSubSchema.uniqueItems { var stringifiedItems []string for _, v := range value { vString, err := marshalToJsonString(v) if err != nil { result.addError(new(InternalError), context, value, ErrorDetails{"err": err}) } if isStringInSlice(stringifiedItems, *vString) { result.addError( new(ItemsMustBeUniqueError), context, value, ErrorDetails{"type": TYPE_ARRAY}, ) } stringifiedItems = append(stringifiedItems, *vString) } } result.incrementScore() } func (v *subSchema) validateObject(currentSubSchema *subSchema, value map[string]interface{}, result *Result, context *jsonContext) { if internalLogEnabled { internalLog("validateObject %s", context.String()) internalLog(" %v", value) } // minProperties & maxProperties: if currentSubSchema.minProperties != nil { if len(value) < int(*currentSubSchema.minProperties) { result.addError( new(ArrayMinPropertiesError), context, value, ErrorDetails{"min": *currentSubSchema.minProperties}, ) } } if currentSubSchema.maxProperties != nil { if len(value) > int(*currentSubSchema.maxProperties) { result.addError( new(ArrayMaxPropertiesError), context, value, ErrorDetails{"max": *currentSubSchema.maxProperties}, ) } } // required: for _, requiredProperty := range currentSubSchema.required { _, ok := value[requiredProperty] if ok { result.incrementScore() } else { result.addError( new(RequiredError), context, value, ErrorDetails{"property": requiredProperty}, ) } } // additionalProperty & patternProperty: if currentSubSchema.additionalProperties != nil { switch currentSubSchema.additionalProperties.(type) { case bool: if !currentSubSchema.additionalProperties.(bool) { for pk := range value { found := false for _, spValue := range currentSubSchema.propertiesChildren { if pk == spValue.property { found = true } } pp_has, pp_match := v.validatePatternProperty(currentSubSchema, pk, value[pk], result, context) if found { if pp_has && !pp_match { result.addError( new(AdditionalPropertyNotAllowedError), context, value, ErrorDetails{"property": pk}, ) } } else { if !pp_has || !pp_match { result.addError( new(AdditionalPropertyNotAllowedError), context, value, ErrorDetails{"property": pk}, ) } } } } case *subSchema: additionalPropertiesSchema := currentSubSchema.additionalProperties.(*subSchema) for pk := range value { found := false for _, spValue := range currentSubSchema.propertiesChildren { if pk == spValue.property { found = true } } pp_has, pp_match := v.validatePatternProperty(currentSubSchema, pk, value[pk], result, context) if found { if pp_has && !pp_match { validationResult := additionalPropertiesSchema.subValidateWithContext(value[pk], context) result.mergeErrors(validationResult) } } else { if !pp_has || !pp_match { validationResult := additionalPropertiesSchema.subValidateWithContext(value[pk], context) result.mergeErrors(validationResult) } } } } } else { for pk := range value { pp_has, pp_match := v.validatePatternProperty(currentSubSchema, pk, value[pk], result, context) if pp_has && !pp_match { result.addError( new(InvalidPropertyPatternError), context, value, ErrorDetails{ "property": pk, "pattern": currentSubSchema.PatternPropertiesString(), }, ) } } } result.incrementScore() } func (v *subSchema) validatePatternProperty(currentSubSchema *subSchema, key string, value interface{}, result *Result, context *jsonContext) (has bool, matched bool) { if internalLogEnabled { internalLog("validatePatternProperty %s", context.String()) internalLog(" %s %v", key, value) } has = false validatedkey := false for pk, pv := range currentSubSchema.patternProperties { if matches, _ := regexp.MatchString(pk, key); matches { has = true subContext := newJsonContext(key, context) validationResult := pv.subValidateWithContext(value, subContext) result.mergeErrors(validationResult) if validationResult.Valid() { validatedkey = true } } } if !validatedkey { return has, false } result.incrementScore() return has, true } func (v *subSchema) validateString(currentSubSchema *subSchema, value interface{}, result *Result, context *jsonContext) { // Ignore JSON numbers if isJsonNumber(value) { return } // Ignore non strings if !isKind(value, reflect.String) { return } if internalLogEnabled { internalLog("validateString %s", context.String()) internalLog(" %v", value) } stringValue := value.(string) // minLength & maxLength: if currentSubSchema.minLength != nil { if utf8.RuneCount([]byte(stringValue)) < int(*currentSubSchema.minLength) { result.addError( new(StringLengthGTEError), context, value, ErrorDetails{"min": *currentSubSchema.minLength}, ) } } if currentSubSchema.maxLength != nil { if utf8.RuneCount([]byte(stringValue)) > int(*currentSubSchema.maxLength) { result.addError( new(StringLengthLTEError), context, value, ErrorDetails{"max": *currentSubSchema.maxLength}, ) } } // pattern: if currentSubSchema.pattern != nil { if !currentSubSchema.pattern.MatchString(stringValue) { result.addError( new(DoesNotMatchPatternError), context, value, ErrorDetails{"pattern": currentSubSchema.pattern}, ) } } // format if currentSubSchema.format != "" { if !FormatCheckers.IsFormat(currentSubSchema.format, stringValue) { result.addError( new(DoesNotMatchFormatError), context, value, ErrorDetails{"format": currentSubSchema.format}, ) } } result.incrementScore() } func (v *subSchema) validateNumber(currentSubSchema *subSchema, value interface{}, result *Result, context *jsonContext) { // Ignore non numbers if !isJsonNumber(value) { return } if internalLogEnabled { internalLog("validateNumber %s", context.String()) internalLog(" %v", value) } number := value.(json.Number) float64Value, _ := number.Float64() // multipleOf: if currentSubSchema.multipleOf != nil { if !isFloat64AnInteger(float64Value / *currentSubSchema.multipleOf) { result.addError( new(MultipleOfError), context, resultErrorFormatJsonNumber(number), ErrorDetails{"multiple": *currentSubSchema.multipleOf}, ) } } //maximum & exclusiveMaximum: if currentSubSchema.maximum != nil { if currentSubSchema.exclusiveMaximum { if float64Value >= *currentSubSchema.maximum { result.addError( new(NumberLTEError), context, resultErrorFormatJsonNumber(number), ErrorDetails{ "min": resultErrorFormatNumber(*currentSubSchema.maximum), }, ) } } else { if float64Value > *currentSubSchema.maximum { result.addError( new(NumberLTError), context, resultErrorFormatJsonNumber(number), ErrorDetails{ "min": resultErrorFormatNumber(*currentSubSchema.maximum), }, ) } } } //minimum & exclusiveMinimum: if currentSubSchema.minimum != nil { if currentSubSchema.exclusiveMinimum { if float64Value <= *currentSubSchema.minimum { result.addError( new(NumberGTEError), context, resultErrorFormatJsonNumber(number), ErrorDetails{ "max": resultErrorFormatNumber(*currentSubSchema.minimum), }, ) } } else { if float64Value < *currentSubSchema.minimum { result.addError( new(NumberGTError), context, resultErrorFormatJsonNumber(number), ErrorDetails{ "max": resultErrorFormatNumber(*currentSubSchema.minimum), }, ) } } } result.incrementScore() }