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rules.go
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rules.go
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package graphql
import (
"fmt"
"math"
"sort"
"strings"
"github.com/graphql-go/graphql/gqlerrors"
"github.com/graphql-go/graphql/language/ast"
"github.com/graphql-go/graphql/language/kinds"
"github.com/graphql-go/graphql/language/printer"
"github.com/graphql-go/graphql/language/visitor"
)
// SpecifiedRules set includes all validation rules defined by the GraphQL spec.
var SpecifiedRules = []ValidationRuleFn{
ArgumentsOfCorrectTypeRule,
DefaultValuesOfCorrectTypeRule,
FieldsOnCorrectTypeRule,
FragmentsOnCompositeTypesRule,
KnownArgumentNamesRule,
KnownDirectivesRule,
KnownFragmentNamesRule,
KnownTypeNamesRule,
LoneAnonymousOperationRule,
NoFragmentCyclesRule,
NoUndefinedVariablesRule,
NoUnusedFragmentsRule,
NoUnusedVariablesRule,
OverlappingFieldsCanBeMergedRule,
PossibleFragmentSpreadsRule,
ProvidedNonNullArgumentsRule,
ScalarLeafsRule,
UniqueArgumentNamesRule,
UniqueFragmentNamesRule,
UniqueInputFieldNamesRule,
UniqueOperationNamesRule,
UniqueVariableNamesRule,
VariablesAreInputTypesRule,
VariablesInAllowedPositionRule,
}
type ValidationRuleInstance struct {
VisitorOpts *visitor.VisitorOptions
}
type ValidationRuleFn func(context *ValidationContext) *ValidationRuleInstance
func newValidationError(message string, nodes []ast.Node) *gqlerrors.Error {
return gqlerrors.NewError(
message,
nodes,
"",
nil,
[]int{},
nil, // TODO: this is interim, until we port "better-error-messages-for-inputs"
)
}
func reportError(context *ValidationContext, message string, nodes []ast.Node) (string, interface{}) {
context.ReportError(newValidationError(message, nodes))
return visitor.ActionNoChange, nil
}
// ArgumentsOfCorrectTypeRule Argument values of correct type
//
// A GraphQL document is only valid if all field argument literal values are
// of the type expected by their position.
func ArgumentsOfCorrectTypeRule(context *ValidationContext) *ValidationRuleInstance {
visitorOpts := &visitor.VisitorOptions{
KindFuncMap: map[string]visitor.NamedVisitFuncs{
kinds.Argument: {
Kind: func(p visitor.VisitFuncParams) (string, interface{}) {
if argAST, ok := p.Node.(*ast.Argument); ok {
value := argAST.Value
argDef := context.Argument()
if argDef != nil {
isValid, messages := isValidLiteralValue(argDef.Type, value)
if !isValid {
argNameValue := ""
if argAST.Name != nil {
argNameValue = argAST.Name.Value
}
messagesStr := ""
if len(messages) > 0 {
messagesStr = "\n" + strings.Join(messages, "\n")
}
reportError(
context,
fmt.Sprintf(`Argument "%v" has invalid value %v.%v`,
argNameValue, printer.Print(value), messagesStr),
[]ast.Node{value},
)
}
}
}
return visitor.ActionSkip, nil
},
},
},
}
return &ValidationRuleInstance{
VisitorOpts: visitorOpts,
}
}
// DefaultValuesOfCorrectTypeRule Variable default values of correct type
//
// A GraphQL document is only valid if all variable default values are of the
// type expected by their definition.
func DefaultValuesOfCorrectTypeRule(context *ValidationContext) *ValidationRuleInstance {
visitorOpts := &visitor.VisitorOptions{
KindFuncMap: map[string]visitor.NamedVisitFuncs{
kinds.VariableDefinition: {
Kind: func(p visitor.VisitFuncParams) (string, interface{}) {
if varDefAST, ok := p.Node.(*ast.VariableDefinition); ok {
name := ""
if varDefAST.Variable != nil && varDefAST.Variable.Name != nil {
name = varDefAST.Variable.Name.Value
}
defaultValue := varDefAST.DefaultValue
ttype := context.InputType()
if ttype, ok := ttype.(*NonNull); ok && defaultValue != nil {
reportError(
context,
fmt.Sprintf(`Variable "$%v" of type "%v" is required and will not use the default value. Perhaps you meant to use type "%v".`,
name, ttype, ttype.OfType),
[]ast.Node{defaultValue},
)
}
isValid, messages := isValidLiteralValue(ttype, defaultValue)
if ttype != nil && defaultValue != nil && !isValid {
messagesStr := ""
if len(messages) > 0 {
messagesStr = "\n" + strings.Join(messages, "\n")
}
reportError(
context,
fmt.Sprintf(`Variable "$%v" has invalid default value: %v.%v`,
name, printer.Print(defaultValue), messagesStr),
[]ast.Node{defaultValue},
)
}
}
return visitor.ActionSkip, nil
},
},
kinds.SelectionSet: {
Kind: func(p visitor.VisitFuncParams) (string, interface{}) {
return visitor.ActionSkip, nil
},
},
kinds.FragmentDefinition: {
Kind: func(p visitor.VisitFuncParams) (string, interface{}) {
return visitor.ActionSkip, nil
},
},
},
}
return &ValidationRuleInstance{
VisitorOpts: visitorOpts,
}
}
func quoteStrings(slice []string) []string {
quoted := []string{}
for _, s := range slice {
quoted = append(quoted, fmt.Sprintf(`"%v"`, s))
}
return quoted
}
// quotedOrList Given [ A, B, C ] return '"A", "B", or "C"'.
// Notice oxford comma
func quotedOrList(slice []string) string {
maxLength := 5
if len(slice) == 0 {
return ""
}
quoted := quoteStrings(slice)
if maxLength > len(quoted) {
maxLength = len(quoted)
}
if maxLength > 2 {
return fmt.Sprintf("%v, or %v", strings.Join(quoted[0:maxLength-1], ", "), quoted[maxLength-1])
}
if maxLength > 1 {
return fmt.Sprintf("%v or %v", strings.Join(quoted[0:maxLength-1], ", "), quoted[maxLength-1])
}
return quoted[0]
}
func UndefinedFieldMessage(fieldName string, ttypeName string, suggestedTypeNames []string, suggestedFieldNames []string) string {
message := fmt.Sprintf(`Cannot query field "%v" on type "%v".`, fieldName, ttypeName)
if len(suggestedTypeNames) > 0 {
message = fmt.Sprintf(`%v Did you mean to use an inline fragment on %v?`, message, quotedOrList(suggestedTypeNames))
} else if len(suggestedFieldNames) > 0 {
message = fmt.Sprintf(`%v Did you mean %v?`, message, quotedOrList(suggestedFieldNames))
}
return message
}
// FieldsOnCorrectTypeRule Fields on correct type
//
// A GraphQL document is only valid if all fields selected are defined by the
// parent type, or are an allowed meta field such as __typenamme
func FieldsOnCorrectTypeRule(context *ValidationContext) *ValidationRuleInstance {
visitorOpts := &visitor.VisitorOptions{
KindFuncMap: map[string]visitor.NamedVisitFuncs{
kinds.Field: {
Kind: func(p visitor.VisitFuncParams) (string, interface{}) {
var action = visitor.ActionNoChange
var result interface{}
if node, ok := p.Node.(*ast.Field); ok {
ttype := context.ParentType()
if ttype == nil {
return action, result
}
if t, ok := ttype.(*Object); ok && t == nil {
return action, result
}
if t, ok := ttype.(*Interface); ok && t == nil {
return action, result
}
if t, ok := ttype.(*Union); ok && t == nil {
return action, result
}
fieldDef := context.FieldDef()
if fieldDef == nil {
// This field doesn't exist, lets look for suggestions.
nodeName := ""
if node.Name != nil {
nodeName = node.Name.Value
}
// First determine if there are any suggested types to condition on.
suggestedTypeNames := getSuggestedTypeNames(context.Schema(), ttype, nodeName)
// If there are no suggested types, then perhaps this was a typo?
suggestedFieldNames := []string{}
if len(suggestedTypeNames) == 0 {
suggestedFieldNames = getSuggestedFieldNames(context.Schema(), ttype, nodeName)
}
reportError(
context,
UndefinedFieldMessage(nodeName, ttype.Name(), suggestedTypeNames, suggestedFieldNames),
[]ast.Node{node},
)
}
}
return action, result
},
},
},
}
return &ValidationRuleInstance{
VisitorOpts: visitorOpts,
}
}
// getSuggestedTypeNames Go through all of the implementations of type, as well as the interfaces
// that they implement. If any of those types include the provided field,
// suggest them, sorted by how often the type is referenced, starting
// with Interfaces.
func getSuggestedTypeNames(schema *Schema, ttype Output, fieldName string) []string {
possibleTypes := schema.PossibleTypes(ttype)
suggestedObjectTypes := []string{}
suggestedInterfaces := []*suggestedInterface{}
// stores a map of interface name => index in suggestedInterfaces
suggestedInterfaceMap := map[string]int{}
// stores a maps of object name => true to remove duplicates from results
suggestedObjectMap := map[string]bool{}
for _, possibleType := range possibleTypes {
if field, ok := possibleType.Fields()[fieldName]; !ok || field == nil {
continue
}
// This object type defines this field.
suggestedObjectTypes = append(suggestedObjectTypes, possibleType.Name())
suggestedObjectMap[possibleType.Name()] = true
for _, possibleInterface := range possibleType.Interfaces() {
if field, ok := possibleInterface.Fields()[fieldName]; !ok || field == nil {
continue
}
// This interface type defines this field.
// - find the index of the suggestedInterface and retrieving the interface
// - increase count
index, ok := suggestedInterfaceMap[possibleInterface.Name()]
if !ok {
suggestedInterfaces = append(suggestedInterfaces, &suggestedInterface{
name: possibleInterface.Name(),
count: 0,
})
index = len(suggestedInterfaces) - 1
suggestedInterfaceMap[possibleInterface.Name()] = index
}
if index < len(suggestedInterfaces) {
s := suggestedInterfaces[index]
if s.name == possibleInterface.Name() {
s.count = s.count + 1
}
}
}
}
// sort results (by count usage for interfaces, alphabetical order for objects)
sort.Sort(suggestedInterfaceSortedSlice(suggestedInterfaces))
sort.Sort(sort.StringSlice(suggestedObjectTypes))
// return concatenated slices of both interface and object type names
// and removing duplicates
// ordered by: interface (sorted) and object (sorted)
results := []string{}
for _, s := range suggestedInterfaces {
if _, ok := suggestedObjectMap[s.name]; !ok {
results = append(results, s.name)
}
}
results = append(results, suggestedObjectTypes...)
return results
}
// getSuggestedFieldNames For the field name provided, determine if there are any similar field names
// that may be the result of a typo.
func getSuggestedFieldNames(schema *Schema, ttype Output, fieldName string) []string {
fields := FieldDefinitionMap{}
switch ttype := ttype.(type) {
case *Object:
fields = ttype.Fields()
case *Interface:
fields = ttype.Fields()
default:
return []string{}
}
possibleFieldNames := []string{}
for possibleFieldName := range fields {
possibleFieldNames = append(possibleFieldNames, possibleFieldName)
}
return suggestionList(fieldName, possibleFieldNames)
}
// suggestedInterface an internal struct to sort interface by usage count
type suggestedInterface struct {
name string
count int
}
type suggestedInterfaceSortedSlice []*suggestedInterface
func (s suggestedInterfaceSortedSlice) Len() int {
return len(s)
}
func (s suggestedInterfaceSortedSlice) Swap(i, j int) {
s[i], s[j] = s[j], s[i]
}
func (s suggestedInterfaceSortedSlice) Less(i, j int) bool {
if s[i].count == s[j].count {
return s[i].name < s[j].name
}
return s[i].count > s[j].count
}
// FragmentsOnCompositeTypesRule Fragments on composite type
//
// Fragments use a type condition to determine if they apply, since fragments
// can only be spread into a composite type (object, interface, or union), the
// type condition must also be a composite type.
func FragmentsOnCompositeTypesRule(context *ValidationContext) *ValidationRuleInstance {
visitorOpts := &visitor.VisitorOptions{
KindFuncMap: map[string]visitor.NamedVisitFuncs{
kinds.InlineFragment: {
Kind: func(p visitor.VisitFuncParams) (string, interface{}) {
if node, ok := p.Node.(*ast.InlineFragment); ok {
ttype := context.Type()
if node.TypeCondition != nil && ttype != nil && !IsCompositeType(ttype) {
reportError(
context,
fmt.Sprintf(`Fragment cannot condition on non composite type "%v".`, ttype),
[]ast.Node{node.TypeCondition},
)
}
}
return visitor.ActionNoChange, nil
},
},
kinds.FragmentDefinition: {
Kind: func(p visitor.VisitFuncParams) (string, interface{}) {
if node, ok := p.Node.(*ast.FragmentDefinition); ok {
ttype := context.Type()
if ttype != nil && !IsCompositeType(ttype) {
nodeName := ""
if node.Name != nil {
nodeName = node.Name.Value
}
reportError(
context,
fmt.Sprintf(`Fragment "%v" cannot condition on non composite type "%v".`, nodeName, printer.Print(node.TypeCondition)),
[]ast.Node{node.TypeCondition},
)
}
}
return visitor.ActionNoChange, nil
},
},
},
}
return &ValidationRuleInstance{
VisitorOpts: visitorOpts,
}
}
func unknownArgMessage(argName string, fieldName string, parentTypeName string, suggestedArgs []string) string {
message := fmt.Sprintf(`Unknown argument "%v" on field "%v" of type "%v".`, argName, fieldName, parentTypeName)
if len(suggestedArgs) > 0 {
message = fmt.Sprintf(`%v Did you mean %v?`, message, quotedOrList(suggestedArgs))
}
return message
}
func unknownDirectiveArgMessage(argName string, directiveName string, suggestedArgs []string) string {
message := fmt.Sprintf(`Unknown argument "%v" on directive "@%v".`, argName, directiveName)
if len(suggestedArgs) > 0 {
message = fmt.Sprintf(`%v Did you mean %v?`, message, quotedOrList(suggestedArgs))
}
return message
}
// KnownArgumentNamesRule Known argument names
//
// A GraphQL field is only valid if all supplied arguments are defined by
// that field.
func KnownArgumentNamesRule(context *ValidationContext) *ValidationRuleInstance {
visitorOpts := &visitor.VisitorOptions{
KindFuncMap: map[string]visitor.NamedVisitFuncs{
kinds.Argument: {
Kind: func(p visitor.VisitFuncParams) (string, interface{}) {
var action = visitor.ActionNoChange
var result interface{}
if node, ok := p.Node.(*ast.Argument); ok {
var argumentOf ast.Node
if len(p.Ancestors) > 0 {
argumentOf = p.Ancestors[len(p.Ancestors)-1]
}
if argumentOf == nil {
return action, result
}
var fieldArgDef *Argument
if argumentOf.GetKind() == kinds.Field {
fieldDef := context.FieldDef()
if fieldDef == nil {
return action, result
}
nodeName := ""
if node.Name != nil {
nodeName = node.Name.Value
}
argNames := []string{}
for _, arg := range fieldDef.Args {
argNames = append(argNames, arg.Name())
if arg.Name() == nodeName {
fieldArgDef = arg
}
}
if fieldArgDef == nil {
parentType := context.ParentType()
parentTypeName := ""
if parentType != nil {
parentTypeName = parentType.Name()
}
reportError(
context,
unknownArgMessage(nodeName, fieldDef.Name, parentTypeName, suggestionList(nodeName, argNames)),
[]ast.Node{node},
)
}
} else if argumentOf.GetKind() == kinds.Directive {
directive := context.Directive()
if directive == nil {
return action, result
}
nodeName := ""
if node.Name != nil {
nodeName = node.Name.Value
}
argNames := []string{}
var directiveArgDef *Argument
for _, arg := range directive.Args {
argNames = append(argNames, arg.Name())
if arg.Name() == nodeName {
directiveArgDef = arg
}
}
if directiveArgDef == nil {
reportError(
context,
unknownDirectiveArgMessage(nodeName, directive.Name, suggestionList(nodeName, argNames)),
[]ast.Node{node},
)
}
}
}
return action, result
},
},
},
}
return &ValidationRuleInstance{
VisitorOpts: visitorOpts,
}
}
func MisplaceDirectiveMessage(directiveName string, location string) string {
return fmt.Sprintf(`Directive "%v" may not be used on %v.`, directiveName, location)
}
// KnownDirectivesRule Known directives
//
// A GraphQL document is only valid if all `@directives` are known by the
// schema and legally positioned.
func KnownDirectivesRule(context *ValidationContext) *ValidationRuleInstance {
visitorOpts := &visitor.VisitorOptions{
KindFuncMap: map[string]visitor.NamedVisitFuncs{
kinds.Directive: {
Kind: func(p visitor.VisitFuncParams) (string, interface{}) {
var action = visitor.ActionNoChange
var result interface{}
if node, ok := p.Node.(*ast.Directive); ok {
nodeName := ""
if node.Name != nil {
nodeName = node.Name.Value
}
var directiveDef *Directive
for _, def := range context.Schema().Directives() {
if def.Name == nodeName {
directiveDef = def
}
}
if directiveDef == nil {
return reportError(
context,
fmt.Sprintf(`Unknown directive "%v".`, nodeName),
[]ast.Node{node},
)
}
candidateLocation := getDirectiveLocationForASTPath(p.Ancestors)
directiveHasLocation := false
for _, loc := range directiveDef.Locations {
if loc == candidateLocation {
directiveHasLocation = true
break
}
}
if candidateLocation == "" {
reportError(
context,
MisplaceDirectiveMessage(nodeName, node.GetKind()),
[]ast.Node{node},
)
} else if !directiveHasLocation {
reportError(
context,
MisplaceDirectiveMessage(nodeName, candidateLocation),
[]ast.Node{node},
)
}
}
return action, result
},
},
},
}
return &ValidationRuleInstance{
VisitorOpts: visitorOpts,
}
}
func getDirectiveLocationForASTPath(ancestors []ast.Node) string {
var appliedTo ast.Node
if len(ancestors) > 0 {
appliedTo = ancestors[len(ancestors)-1]
}
if appliedTo == nil {
return ""
}
kind := appliedTo.GetKind()
if kind == kinds.OperationDefinition {
appliedTo, _ := appliedTo.(*ast.OperationDefinition)
if appliedTo.Operation == ast.OperationTypeQuery {
return DirectiveLocationQuery
}
if appliedTo.Operation == ast.OperationTypeMutation {
return DirectiveLocationMutation
}
if appliedTo.Operation == ast.OperationTypeSubscription {
return DirectiveLocationSubscription
}
}
if kind == kinds.Field {
return DirectiveLocationField
}
if kind == kinds.FragmentSpread {
return DirectiveLocationFragmentSpread
}
if kind == kinds.InlineFragment {
return DirectiveLocationInlineFragment
}
if kind == kinds.FragmentDefinition {
return DirectiveLocationFragmentDefinition
}
if kind == kinds.SchemaDefinition {
return DirectiveLocationSchema
}
if kind == kinds.ScalarDefinition {
return DirectiveLocationScalar
}
if kind == kinds.ObjectDefinition {
return DirectiveLocationObject
}
if kind == kinds.FieldDefinition {
return DirectiveLocationFieldDefinition
}
if kind == kinds.InterfaceDefinition {
return DirectiveLocationInterface
}
if kind == kinds.UnionDefinition {
return DirectiveLocationUnion
}
if kind == kinds.EnumDefinition {
return DirectiveLocationEnum
}
if kind == kinds.EnumValueDefinition {
return DirectiveLocationEnumValue
}
if kind == kinds.InputObjectDefinition {
return DirectiveLocationInputObject
}
if kind == kinds.InputValueDefinition {
var parentNode ast.Node
if len(ancestors) >= 3 {
parentNode = ancestors[len(ancestors)-3]
}
if parentNode.GetKind() == kinds.InputObjectDefinition {
return DirectiveLocationInputFieldDefinition
} else {
return DirectiveLocationArgumentDefinition
}
}
return ""
}
// KnownFragmentNamesRule Known fragment names
//
// A GraphQL document is only valid if all `...Fragment` fragment spreads refer
// to fragments defined in the same document.
func KnownFragmentNamesRule(context *ValidationContext) *ValidationRuleInstance {
visitorOpts := &visitor.VisitorOptions{
KindFuncMap: map[string]visitor.NamedVisitFuncs{
kinds.FragmentSpread: {
Kind: func(p visitor.VisitFuncParams) (string, interface{}) {
var action = visitor.ActionNoChange
var result interface{}
if node, ok := p.Node.(*ast.FragmentSpread); ok {
fragmentName := ""
if node.Name != nil {
fragmentName = node.Name.Value
}
fragment := context.Fragment(fragmentName)
if fragment == nil {
reportError(
context,
fmt.Sprintf(`Unknown fragment "%v".`, fragmentName),
[]ast.Node{node.Name},
)
}
}
return action, result
},
},
},
}
return &ValidationRuleInstance{
VisitorOpts: visitorOpts,
}
}
func unknownTypeMessage(typeName string, suggestedTypes []string) string {
message := fmt.Sprintf(`Unknown type "%v".`, typeName)
if len(suggestedTypes) > 0 {
message = fmt.Sprintf(`%v Did you mean %v?`, message, quotedOrList(suggestedTypes))
}
return message
}
// KnownTypeNamesRule Known type names
//
// A GraphQL document is only valid if referenced types (specifically
// variable definitions and fragment conditions) are defined by the type schema.
func KnownTypeNamesRule(context *ValidationContext) *ValidationRuleInstance {
visitorOpts := &visitor.VisitorOptions{
KindFuncMap: map[string]visitor.NamedVisitFuncs{
kinds.ObjectDefinition: {
Kind: func(p visitor.VisitFuncParams) (string, interface{}) {
return visitor.ActionSkip, nil
},
},
kinds.InterfaceDefinition: {
Kind: func(p visitor.VisitFuncParams) (string, interface{}) {
return visitor.ActionSkip, nil
},
},
kinds.UnionDefinition: {
Kind: func(p visitor.VisitFuncParams) (string, interface{}) {
return visitor.ActionSkip, nil
},
},
kinds.InputObjectDefinition: {
Kind: func(p visitor.VisitFuncParams) (string, interface{}) {
return visitor.ActionSkip, nil
},
},
kinds.Named: {
Kind: func(p visitor.VisitFuncParams) (string, interface{}) {
if node, ok := p.Node.(*ast.Named); ok {
typeNameValue := ""
typeName := node.Name
if typeName != nil {
typeNameValue = typeName.Value
}
ttype := context.Schema().Type(typeNameValue)
if ttype == nil {
suggestedTypes := []string{}
for key := range context.Schema().TypeMap() {
suggestedTypes = append(suggestedTypes, key)
}
reportError(
context,
unknownTypeMessage(typeNameValue, suggestionList(typeNameValue, suggestedTypes)),
[]ast.Node{node},
)
}
}
return visitor.ActionNoChange, nil
},
},
},
}
return &ValidationRuleInstance{
VisitorOpts: visitorOpts,
}
}
// LoneAnonymousOperationRule Lone anonymous operation
//
// A GraphQL document is only valid if when it contains an anonymous operation
// (the query short-hand) that it contains only that one operation definition.
func LoneAnonymousOperationRule(context *ValidationContext) *ValidationRuleInstance {
var operationCount = 0
visitorOpts := &visitor.VisitorOptions{
KindFuncMap: map[string]visitor.NamedVisitFuncs{
kinds.Document: {
Kind: func(p visitor.VisitFuncParams) (string, interface{}) {
if node, ok := p.Node.(*ast.Document); ok {
operationCount = 0
for _, definition := range node.Definitions {
if definition.GetKind() == kinds.OperationDefinition {
operationCount = operationCount + 1
}
}
}
return visitor.ActionNoChange, nil
},
},
kinds.OperationDefinition: {
Kind: func(p visitor.VisitFuncParams) (string, interface{}) {
if node, ok := p.Node.(*ast.OperationDefinition); ok {
if node.Name == nil && operationCount > 1 {
reportError(
context,
`This anonymous operation must be the only defined operation.`,
[]ast.Node{node},
)
}
}
return visitor.ActionNoChange, nil
},
},
},
}
return &ValidationRuleInstance{
VisitorOpts: visitorOpts,
}
}
func CycleErrorMessage(fragName string, spreadNames []string) string {
via := ""
if len(spreadNames) > 0 {
via = " via " + strings.Join(spreadNames, ", ")
}
return fmt.Sprintf(`Cannot spread fragment "%v" within itself%v.`, fragName, via)
}
// NoFragmentCyclesRule No fragment cycles
func NoFragmentCyclesRule(context *ValidationContext) *ValidationRuleInstance {
// Tracks already visited fragments to maintain O(N) and to ensure that cycles
// are not redundantly reported.
visitedFrags := map[string]bool{}
// Array of AST nodes used to produce meaningful errors
spreadPath := []*ast.FragmentSpread{}
// Position in the spread path
spreadPathIndexByName := map[string]int{}
// This does a straight-forward DFS to find cycles.
// It does not terminate when a cycle was found but continues to explore
// the graph to find all possible cycles.
var detectCycleRecursive func(fragment *ast.FragmentDefinition)
detectCycleRecursive = func(fragment *ast.FragmentDefinition) {
fragmentName := ""
if fragment.Name != nil {
fragmentName = fragment.Name.Value
}
visitedFrags[fragmentName] = true
spreadNodes := context.FragmentSpreads(fragment.SelectionSet)
if len(spreadNodes) == 0 {
return
}
spreadPathIndexByName[fragmentName] = len(spreadPath)
for _, spreadNode := range spreadNodes {
spreadName := ""
if spreadNode.Name != nil {
spreadName = spreadNode.Name.Value
}
cycleIndex, ok := spreadPathIndexByName[spreadName]
if !ok {
spreadPath = append(spreadPath, spreadNode)
if visited, ok := visitedFrags[spreadName]; !ok || !visited {
spreadFragment := context.Fragment(spreadName)
if spreadFragment != nil {
detectCycleRecursive(spreadFragment)
}
}
spreadPath = spreadPath[:len(spreadPath)-1]
} else {
cyclePath := spreadPath[cycleIndex:]
spreadNames := []string{}
for _, s := range cyclePath {
name := ""
if s.Name != nil {
name = s.Name.Value
}
spreadNames = append(spreadNames, name)
}
nodes := []ast.Node{}
for _, c := range cyclePath {
nodes = append(nodes, c)
}
nodes = append(nodes, spreadNode)
reportError(
context,
CycleErrorMessage(spreadName, spreadNames),
nodes,
)
}
}
delete(spreadPathIndexByName, fragmentName)
}
visitorOpts := &visitor.VisitorOptions{
KindFuncMap: map[string]visitor.NamedVisitFuncs{
kinds.OperationDefinition: {
Kind: func(p visitor.VisitFuncParams) (string, interface{}) {
return visitor.ActionSkip, nil
},
},
kinds.FragmentDefinition: {
Kind: func(p visitor.VisitFuncParams) (string, interface{}) {
if node, ok := p.Node.(*ast.FragmentDefinition); ok && node != nil {
nodeName := ""
if node.Name != nil {
nodeName = node.Name.Value
}
if _, ok := visitedFrags[nodeName]; !ok {
detectCycleRecursive(node)
}
}
return visitor.ActionSkip, nil
},
},
},
}
return &ValidationRuleInstance{
VisitorOpts: visitorOpts,
}
}
func UndefinedVarMessage(varName string, opName string) string {
if opName != "" {
return fmt.Sprintf(`Variable "$%v" is not defined by operation "%v".`, varName, opName)
}
return fmt.Sprintf(`Variable "$%v" is not defined.`, varName)
}
// NoUndefinedVariablesRule No undefined variables
//
// A GraphQL operation is only valid if all variables encountered, both directly
// and via fragment spreads, are defined by that operation.
func NoUndefinedVariablesRule(context *ValidationContext) *ValidationRuleInstance {
var variableNameDefined = map[string]bool{}
visitorOpts := &visitor.VisitorOptions{
KindFuncMap: map[string]visitor.NamedVisitFuncs{
kinds.OperationDefinition: {
Enter: func(p visitor.VisitFuncParams) (string, interface{}) {
variableNameDefined = map[string]bool{}
return visitor.ActionNoChange, nil
},
Leave: func(p visitor.VisitFuncParams) (string, interface{}) {
if operation, ok := p.Node.(*ast.OperationDefinition); ok && operation != nil {
usages := context.RecursiveVariableUsages(operation)
for _, usage := range usages {
if usage == nil {
continue
}
if usage.Node == nil {
continue
}
varName := ""
if usage.Node.Name != nil {
varName = usage.Node.Name.Value
}
opName := ""
if operation.Name != nil {
opName = operation.Name.Value
}
if res, ok := variableNameDefined[varName]; !ok || !res {
reportError(
context,
UndefinedVarMessage(varName, opName),
[]ast.Node{usage.Node, operation},
)
}
}
}
return visitor.ActionNoChange, nil
},
},
kinds.VariableDefinition: {
Kind: func(p visitor.VisitFuncParams) (string, interface{}) {
if node, ok := p.Node.(*ast.VariableDefinition); ok && node != nil {
variableName := ""
if node.Variable != nil && node.Variable.Name != nil {
variableName = node.Variable.Name.Value
}
variableNameDefined[variableName] = true
}
return visitor.ActionNoChange, nil
},
},
},
}
return &ValidationRuleInstance{
VisitorOpts: visitorOpts,
}
}
// NoUnusedFragmentsRule No unused fragments