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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" "strings" "github.com/go-openapi/errors" "github.com/go-openapi/spec" ) var emptyResult = &Result{MatchCount: 1} // Result represents a validation result set, composed of // errors and warnings. // // It is used to keep track of all detected errors and warnings during // the validation of a specification. // // Matchcount is used to determine // which errors are relevant in the case of AnyOf, OneOf // schema validation. Results from the validation branch // with most matches get eventually selected. // // TODO: keep path of key originating the error type Result struct { Errors []error Warnings []error MatchCount int // the object data data interface{} // Schemata for the root object rootObjectSchemata schemata // Schemata for object fields fieldSchemata []fieldSchemata // Schemata for slice items itemSchemata []itemSchemata cachedFieldSchemta map[FieldKey][]*spec.Schema cachedItemSchemata map[ItemKey][]*spec.Schema wantsRedeemOnMerge bool } // FieldKey is a pair of an object and a field, usable as a key for a map. type FieldKey struct { object reflect.Value // actually a map[string]interface{}, but the latter cannot be a key field string } // ItemKey is a pair of a slice and an index, usable as a key for a map. type ItemKey struct { slice reflect.Value // actually a []interface{}, but the latter cannot be a key index int } // NewFieldKey returns a pair of an object and field usable as a key of a map. func NewFieldKey(obj map[string]interface{}, field string) FieldKey { return FieldKey{object: reflect.ValueOf(obj), field: field} } // Object returns the underlying object of this key. func (fk *FieldKey) Object() map[string]interface{} { return fk.object.Interface().(map[string]interface{}) } // Field returns the underlying field of this key. func (fk *FieldKey) Field() string { return fk.field } // NewItemKey returns a pair of a slice and index usable as a key of a map. func NewItemKey(slice interface{}, i int) ItemKey { return ItemKey{slice: reflect.ValueOf(slice), index: i} } // Slice returns the underlying slice of this key. func (ik *ItemKey) Slice() []interface{} { return ik.slice.Interface().([]interface{}) } // Index returns the underlying index of this key. func (ik *ItemKey) Index() int { return ik.index } type fieldSchemata struct { obj map[string]interface{} field string schemata schemata } type itemSchemata struct { slice reflect.Value index int schemata schemata } // Merge merges this result with the other one(s), preserving match counts etc. func (r *Result) Merge(others ...*Result) *Result { for _, other := range others { if other == nil { continue } r.mergeWithoutRootSchemata(other) r.rootObjectSchemata.Append(other.rootObjectSchemata) if other.wantsRedeemOnMerge { poolOfResults.RedeemResult(other) } } return r } // Data returns the original data object used for validation. Mutating this renders // the result invalid. func (r *Result) Data() interface{} { return r.data } // RootObjectSchemata returns the schemata which apply to the root object. func (r *Result) RootObjectSchemata() []*spec.Schema { return r.rootObjectSchemata.Slice() } // FieldSchemata returns the schemata which apply to fields in objects. func (r *Result) FieldSchemata() map[FieldKey][]*spec.Schema { if r.cachedFieldSchemta != nil { return r.cachedFieldSchemta } ret := make(map[FieldKey][]*spec.Schema, len(r.fieldSchemata)) for _, fs := range r.fieldSchemata { key := NewFieldKey(fs.obj, fs.field) if fs.schemata.one != nil { ret[key] = append(ret[key], fs.schemata.one) } else if len(fs.schemata.multiple) > 0 { ret[key] = append(ret[key], fs.schemata.multiple...) } } r.cachedFieldSchemta = ret return ret } // ItemSchemata returns the schemata which apply to items in slices. func (r *Result) ItemSchemata() map[ItemKey][]*spec.Schema { if r.cachedItemSchemata != nil { return r.cachedItemSchemata } ret := make(map[ItemKey][]*spec.Schema, len(r.itemSchemata)) for _, ss := range r.itemSchemata { key := NewItemKey(ss.slice, ss.index) if ss.schemata.one != nil { ret[key] = append(ret[key], ss.schemata.one) } else if len(ss.schemata.multiple) > 0 { ret[key] = append(ret[key], ss.schemata.multiple...) } } r.cachedItemSchemata = ret return ret } func (r *Result) resetCaches() { r.cachedFieldSchemta = nil r.cachedItemSchemata = nil } // mergeForField merges other into r, assigning other's root schemata to the given Object and field name. // //nolint:unparam func (r *Result) mergeForField(obj map[string]interface{}, field string, other *Result) *Result { if other == nil { return r } r.mergeWithoutRootSchemata(other) if other.rootObjectSchemata.Len() > 0 { if r.fieldSchemata == nil { r.fieldSchemata = make([]fieldSchemata, len(obj)) } r.fieldSchemata = append(r.fieldSchemata, fieldSchemata{ obj: obj, field: field, schemata: other.rootObjectSchemata, }) } if other.wantsRedeemOnMerge { poolOfResults.RedeemResult(other) } return r } // mergeForSlice merges other into r, assigning other's root schemata to the given slice and index. // //nolint:unparam func (r *Result) mergeForSlice(slice reflect.Value, i int, other *Result) *Result { if other == nil { return r } r.mergeWithoutRootSchemata(other) if other.rootObjectSchemata.Len() > 0 { if r.itemSchemata == nil { r.itemSchemata = make([]itemSchemata, slice.Len()) } r.itemSchemata = append(r.itemSchemata, itemSchemata{ slice: slice, index: i, schemata: other.rootObjectSchemata, }) } if other.wantsRedeemOnMerge { poolOfResults.RedeemResult(other) } return r } // addRootObjectSchemata adds the given schemata for the root object of the result. // // Since the slice schemata might be reused, it is shallow-cloned before saving it into the result. func (r *Result) addRootObjectSchemata(s *spec.Schema) { clone := *s r.rootObjectSchemata.Append(schemata{one: &clone}) } // addPropertySchemata adds the given schemata for the object and field. // // Since the slice schemata might be reused, it is shallow-cloned before saving it into the result. func (r *Result) addPropertySchemata(obj map[string]interface{}, fld string, schema *spec.Schema) { if r.fieldSchemata == nil { r.fieldSchemata = make([]fieldSchemata, 0, len(obj)) } clone := *schema r.fieldSchemata = append(r.fieldSchemata, fieldSchemata{obj: obj, field: fld, schemata: schemata{one: &clone}}) } /* // addSliceSchemata adds the given schemata for the slice and index. // The slice schemata might be reused. I.e. do not modify it after being added to a result. func (r *Result) addSliceSchemata(slice reflect.Value, i int, schema *spec.Schema) { if r.itemSchemata == nil { r.itemSchemata = make([]itemSchemata, 0, slice.Len()) } r.itemSchemata = append(r.itemSchemata, itemSchemata{slice: slice, index: i, schemata: schemata{one: schema}}) } */ // mergeWithoutRootSchemata merges other into r, ignoring the rootObject schemata. func (r *Result) mergeWithoutRootSchemata(other *Result) { r.resetCaches() r.AddErrors(other.Errors...) r.AddWarnings(other.Warnings...) r.MatchCount += other.MatchCount if other.fieldSchemata != nil { if r.fieldSchemata == nil { r.fieldSchemata = other.fieldSchemata } else { r.fieldSchemata = append(r.fieldSchemata, other.fieldSchemata...) } } if other.itemSchemata != nil { if r.itemSchemata == nil { r.itemSchemata = other.itemSchemata } else { r.itemSchemata = append(r.itemSchemata, other.itemSchemata...) } } } // MergeAsErrors merges this result with the other one(s), preserving match counts etc. // // Warnings from input are merged as Errors in the returned merged Result. func (r *Result) MergeAsErrors(others ...*Result) *Result { for _, other := range others { if other != nil { r.resetCaches() r.AddErrors(other.Errors...) r.AddErrors(other.Warnings...) r.MatchCount += other.MatchCount if other.wantsRedeemOnMerge { poolOfResults.RedeemResult(other) } } } return r } // MergeAsWarnings merges this result with the other one(s), preserving match counts etc. // // Errors from input are merged as Warnings in the returned merged Result. func (r *Result) MergeAsWarnings(others ...*Result) *Result { for _, other := range others { if other != nil { r.resetCaches() r.AddWarnings(other.Errors...) r.AddWarnings(other.Warnings...) r.MatchCount += other.MatchCount if other.wantsRedeemOnMerge { poolOfResults.RedeemResult(other) } } } return r } // AddErrors adds errors to this validation result (if not already reported). // // Since the same check may be passed several times while exploring the // spec structure (via $ref, ...) reported messages are kept // unique. func (r *Result) AddErrors(errors ...error) { for _, e := range errors { found := false if e != nil { for _, isReported := range r.Errors { if e.Error() == isReported.Error() { found = true break } } if !found { r.Errors = append(r.Errors, e) } } } } // AddWarnings adds warnings to this validation result (if not already reported). func (r *Result) AddWarnings(warnings ...error) { for _, e := range warnings { found := false if e != nil { for _, isReported := range r.Warnings { if e.Error() == isReported.Error() { found = true break } } if !found { r.Warnings = append(r.Warnings, e) } } } } func (r *Result) keepRelevantErrors() *Result { // TODO: this one is going to disapear... // keepRelevantErrors strips a result from standard errors and keeps // the ones which are supposedly more accurate. // // The original result remains unaffected (creates a new instance of Result). // This method is used to work around the "matchCount" filter which would otherwise // strip our result from some accurate error reporting from lower level validators. // // NOTE: this implementation with a placeholder (IMPORTANT!) is neither clean nor // very efficient. On the other hand, relying on go-openapi/errors to manipulate // codes would require to change a lot here. So, for the moment, let's go with // placeholders. strippedErrors := []error{} for _, e := range r.Errors { if strings.HasPrefix(e.Error(), "IMPORTANT!") { strippedErrors = append(strippedErrors, fmt.Errorf(strings.TrimPrefix(e.Error(), "IMPORTANT!"))) } } strippedWarnings := []error{} for _, e := range r.Warnings { if strings.HasPrefix(e.Error(), "IMPORTANT!") { strippedWarnings = append(strippedWarnings, fmt.Errorf(strings.TrimPrefix(e.Error(), "IMPORTANT!"))) } } var strippedResult *Result if r.wantsRedeemOnMerge { strippedResult = poolOfResults.BorrowResult() } else { strippedResult = new(Result) } strippedResult.Errors = strippedErrors strippedResult.Warnings = strippedWarnings return strippedResult } // IsValid returns true when this result is valid. // // Returns true on a nil *Result. func (r *Result) IsValid() bool { if r == nil { return true } return len(r.Errors) == 0 } // HasErrors returns true when this result is invalid. // // Returns false on a nil *Result. func (r *Result) HasErrors() bool { if r == nil { return false } return !r.IsValid() } // HasWarnings returns true when this result contains warnings. // // Returns false on a nil *Result. func (r *Result) HasWarnings() bool { if r == nil { return false } return len(r.Warnings) > 0 } // HasErrorsOrWarnings returns true when this result contains // either errors or warnings. // // Returns false on a nil *Result. func (r *Result) HasErrorsOrWarnings() bool { if r == nil { return false } return len(r.Errors) > 0 || len(r.Warnings) > 0 } // Inc increments the match count func (r *Result) Inc() { r.MatchCount++ } // AsError renders this result as an error interface // // TODO: reporting / pretty print with path ordered and indented func (r *Result) AsError() error { if r.IsValid() { return nil } return errors.CompositeValidationError(r.Errors...) } func (r *Result) cleared() *Result { // clear the Result to be reusable. Keep allocated capacity. r.Errors = r.Errors[:0] r.Warnings = r.Warnings[:0] r.MatchCount = 0 r.data = nil r.rootObjectSchemata.one = nil r.rootObjectSchemata.multiple = r.rootObjectSchemata.multiple[:0] r.fieldSchemata = r.fieldSchemata[:0] r.itemSchemata = r.itemSchemata[:0] for k := range r.cachedFieldSchemta { delete(r.cachedFieldSchemta, k) } for k := range r.cachedItemSchemata { delete(r.cachedItemSchemata, k) } r.wantsRedeemOnMerge = true // mark this result as eligible for redeem when merged into another return r } // schemata is an arbitrary number of schemata. It does a distinction between zero, // one and many schemata to avoid slice allocations. type schemata struct { // one is set if there is exactly one schema. In that case multiple must be nil. one *spec.Schema // multiple is an arbitrary number of schemas. If it is set, one must be nil. multiple []*spec.Schema } func (s *schemata) Len() int { if s.one != nil { return 1 } return len(s.multiple) } func (s *schemata) Slice() []*spec.Schema { if s == nil { return nil } if s.one != nil { return []*spec.Schema{s.one} } return s.multiple } // appendSchemata appends the schemata in other to s. It mutated s in-place. func (s *schemata) Append(other schemata) { if other.one == nil && len(other.multiple) == 0 { return } if s.one == nil && len(s.multiple) == 0 { *s = other return } if s.one != nil { if other.one != nil { s.multiple = []*spec.Schema{s.one, other.one} } else { t := make([]*spec.Schema, 0, 1+len(other.multiple)) s.multiple = append(append(t, s.one), other.multiple...) } s.one = nil } else { if other.one != nil { s.multiple = append(s.multiple, other.one) } else { if cap(s.multiple) >= len(s.multiple)+len(other.multiple) { s.multiple = append(s.multiple, other.multiple...) } else { t := make([]*spec.Schema, 0, len(s.multiple)+len(other.multiple)) s.multiple = append(append(t, s.multiple...), other.multiple...) } } } }