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authorWim <wim@42.be>2022-04-01 00:23:19 +0200
committerGitHub <noreply@github.com>2022-04-01 00:23:19 +0200
commitc6716e030c02f316b887c1d3ee4b443aa3ab6afd (patch)
tree470461fe2d29662e7a69834ed21fce30beed65ab /vendor/github.com/graph-gophers/graphql-go/internal/validation/validation.go
parent4ab72acec656dafd304f88359b509b1f27c06604 (diff)
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Update dependencies (#1784)
Diffstat (limited to 'vendor/github.com/graph-gophers/graphql-go/internal/validation/validation.go')
-rw-r--r--vendor/github.com/graph-gophers/graphql-go/internal/validation/validation.go980
1 files changed, 980 insertions, 0 deletions
diff --git a/vendor/github.com/graph-gophers/graphql-go/internal/validation/validation.go b/vendor/github.com/graph-gophers/graphql-go/internal/validation/validation.go
new file mode 100644
index 00000000..e3672638
--- /dev/null
+++ b/vendor/github.com/graph-gophers/graphql-go/internal/validation/validation.go
@@ -0,0 +1,980 @@
+package validation
+
+import (
+ "fmt"
+ "math"
+ "reflect"
+ "strconv"
+ "strings"
+ "text/scanner"
+
+ "github.com/graph-gophers/graphql-go/errors"
+ "github.com/graph-gophers/graphql-go/internal/common"
+ "github.com/graph-gophers/graphql-go/internal/query"
+ "github.com/graph-gophers/graphql-go/types"
+)
+
+type varSet map[*types.InputValueDefinition]struct{}
+
+type selectionPair struct{ a, b types.Selection }
+
+type nameSet map[string]errors.Location
+
+type fieldInfo struct {
+ sf *types.FieldDefinition
+ parent types.NamedType
+}
+
+type context struct {
+ schema *types.Schema
+ doc *types.ExecutableDefinition
+ errs []*errors.QueryError
+ opErrs map[*types.OperationDefinition][]*errors.QueryError
+ usedVars map[*types.OperationDefinition]varSet
+ fieldMap map[*types.Field]fieldInfo
+ overlapValidated map[selectionPair]struct{}
+ maxDepth int
+}
+
+func (c *context) addErr(loc errors.Location, rule string, format string, a ...interface{}) {
+ c.addErrMultiLoc([]errors.Location{loc}, rule, format, a...)
+}
+
+func (c *context) addErrMultiLoc(locs []errors.Location, rule string, format string, a ...interface{}) {
+ c.errs = append(c.errs, &errors.QueryError{
+ Message: fmt.Sprintf(format, a...),
+ Locations: locs,
+ Rule: rule,
+ })
+}
+
+type opContext struct {
+ *context
+ ops []*types.OperationDefinition
+}
+
+func newContext(s *types.Schema, doc *types.ExecutableDefinition, maxDepth int) *context {
+ return &context{
+ schema: s,
+ doc: doc,
+ opErrs: make(map[*types.OperationDefinition][]*errors.QueryError),
+ usedVars: make(map[*types.OperationDefinition]varSet),
+ fieldMap: make(map[*types.Field]fieldInfo),
+ overlapValidated: make(map[selectionPair]struct{}),
+ maxDepth: maxDepth,
+ }
+}
+
+func Validate(s *types.Schema, doc *types.ExecutableDefinition, variables map[string]interface{}, maxDepth int) []*errors.QueryError {
+ c := newContext(s, doc, maxDepth)
+
+ opNames := make(nameSet)
+ fragUsedBy := make(map[*types.FragmentDefinition][]*types.OperationDefinition)
+ for _, op := range doc.Operations {
+ c.usedVars[op] = make(varSet)
+ opc := &opContext{c, []*types.OperationDefinition{op}}
+
+ // Check if max depth is exceeded, if it's set. If max depth is exceeded,
+ // don't continue to validate the document and exit early.
+ if validateMaxDepth(opc, op.Selections, nil, 1) {
+ return c.errs
+ }
+
+ if op.Name.Name == "" && len(doc.Operations) != 1 {
+ c.addErr(op.Loc, "LoneAnonymousOperation", "This anonymous operation must be the only defined operation.")
+ }
+ if op.Name.Name != "" {
+ validateName(c, opNames, op.Name, "UniqueOperationNames", "operation")
+ }
+
+ validateDirectives(opc, string(op.Type), op.Directives)
+
+ varNames := make(nameSet)
+ for _, v := range op.Vars {
+ validateName(c, varNames, v.Name, "UniqueVariableNames", "variable")
+
+ t := resolveType(c, v.Type)
+ if !canBeInput(t) {
+ c.addErr(v.TypeLoc, "VariablesAreInputTypes", "Variable %q cannot be non-input type %q.", "$"+v.Name.Name, t)
+ }
+ validateValue(opc, v, variables[v.Name.Name], t)
+
+ if v.Default != nil {
+ validateLiteral(opc, v.Default)
+
+ if t != nil {
+ if nn, ok := t.(*types.NonNull); ok {
+ c.addErr(v.Default.Location(), "DefaultValuesOfCorrectType", "Variable %q of type %q is required and will not use the default value. Perhaps you meant to use type %q.", "$"+v.Name.Name, t, nn.OfType)
+ }
+
+ if ok, reason := validateValueType(opc, v.Default, t); !ok {
+ c.addErr(v.Default.Location(), "DefaultValuesOfCorrectType", "Variable %q of type %q has invalid default value %s.\n%s", "$"+v.Name.Name, t, v.Default, reason)
+ }
+ }
+ }
+ }
+
+ var entryPoint types.NamedType
+ switch op.Type {
+ case query.Query:
+ entryPoint = s.EntryPoints["query"]
+ case query.Mutation:
+ entryPoint = s.EntryPoints["mutation"]
+ case query.Subscription:
+ entryPoint = s.EntryPoints["subscription"]
+ default:
+ panic("unreachable")
+ }
+
+ validateSelectionSet(opc, op.Selections, entryPoint)
+
+ fragUsed := make(map[*types.FragmentDefinition]struct{})
+ markUsedFragments(c, op.Selections, fragUsed)
+ for frag := range fragUsed {
+ fragUsedBy[frag] = append(fragUsedBy[frag], op)
+ }
+ }
+
+ fragNames := make(nameSet)
+ fragVisited := make(map[*types.FragmentDefinition]struct{})
+ for _, frag := range doc.Fragments {
+ opc := &opContext{c, fragUsedBy[frag]}
+
+ validateName(c, fragNames, frag.Name, "UniqueFragmentNames", "fragment")
+ validateDirectives(opc, "FRAGMENT_DEFINITION", frag.Directives)
+
+ t := unwrapType(resolveType(c, &frag.On))
+ // continue even if t is nil
+ if t != nil && !canBeFragment(t) {
+ c.addErr(frag.On.Loc, "FragmentsOnCompositeTypes", "Fragment %q cannot condition on non composite type %q.", frag.Name.Name, t)
+ continue
+ }
+
+ validateSelectionSet(opc, frag.Selections, t)
+
+ if _, ok := fragVisited[frag]; !ok {
+ detectFragmentCycle(c, frag.Selections, fragVisited, nil, map[string]int{frag.Name.Name: 0})
+ }
+ }
+
+ for _, frag := range doc.Fragments {
+ if len(fragUsedBy[frag]) == 0 {
+ c.addErr(frag.Loc, "NoUnusedFragments", "Fragment %q is never used.", frag.Name.Name)
+ }
+ }
+
+ for _, op := range doc.Operations {
+ c.errs = append(c.errs, c.opErrs[op]...)
+
+ opUsedVars := c.usedVars[op]
+ for _, v := range op.Vars {
+ if _, ok := opUsedVars[v]; !ok {
+ opSuffix := ""
+ if op.Name.Name != "" {
+ opSuffix = fmt.Sprintf(" in operation %q", op.Name.Name)
+ }
+ c.addErr(v.Loc, "NoUnusedVariables", "Variable %q is never used%s.", "$"+v.Name.Name, opSuffix)
+ }
+ }
+ }
+
+ return c.errs
+}
+
+func validateValue(c *opContext, v *types.InputValueDefinition, val interface{}, t types.Type) {
+ switch t := t.(type) {
+ case *types.NonNull:
+ if val == nil {
+ c.addErr(v.Loc, "VariablesOfCorrectType", "Variable \"%s\" has invalid value null.\nExpected type \"%s\", found null.", v.Name.Name, t)
+ return
+ }
+ validateValue(c, v, val, t.OfType)
+ case *types.List:
+ if val == nil {
+ return
+ }
+ vv, ok := val.([]interface{})
+ if !ok {
+ // Input coercion rules allow single items without wrapping array
+ validateValue(c, v, val, t.OfType)
+ return
+ }
+ for _, elem := range vv {
+ validateValue(c, v, elem, t.OfType)
+ }
+ case *types.EnumTypeDefinition:
+ if val == nil {
+ return
+ }
+ e, ok := val.(string)
+ if !ok {
+ c.addErr(v.Loc, "VariablesOfCorrectType", "Variable \"%s\" has invalid type %T.\nExpected type \"%s\", found %v.", v.Name.Name, val, t, val)
+ return
+ }
+ for _, option := range t.EnumValuesDefinition {
+ if option.EnumValue == e {
+ return
+ }
+ }
+ c.addErr(v.Loc, "VariablesOfCorrectType", "Variable \"%s\" has invalid value %s.\nExpected type \"%s\", found %s.", v.Name.Name, e, t, e)
+ case *types.InputObject:
+ if val == nil {
+ return
+ }
+ in, ok := val.(map[string]interface{})
+ if !ok {
+ c.addErr(v.Loc, "VariablesOfCorrectType", "Variable \"%s\" has invalid type %T.\nExpected type \"%s\", found %s.", v.Name.Name, val, t, val)
+ return
+ }
+ for _, f := range t.Values {
+ fieldVal := in[f.Name.Name]
+ validateValue(c, f, fieldVal, f.Type)
+ }
+ }
+}
+
+// validates the query doesn't go deeper than maxDepth (if set). Returns whether
+// or not query validated max depth to avoid excessive recursion.
+//
+// The visited map is necessary to ensure that max depth validation does not get stuck in cyclical
+// fragment spreads.
+func validateMaxDepth(c *opContext, sels []types.Selection, visited map[*types.FragmentDefinition]struct{}, depth int) bool {
+ // maxDepth checking is turned off when maxDepth is 0
+ if c.maxDepth == 0 {
+ return false
+ }
+
+ exceededMaxDepth := false
+ if visited == nil {
+ visited = map[*types.FragmentDefinition]struct{}{}
+ }
+
+ for _, sel := range sels {
+ switch sel := sel.(type) {
+ case *types.Field:
+ if depth > c.maxDepth {
+ exceededMaxDepth = true
+ c.addErr(sel.Alias.Loc, "MaxDepthExceeded", "Field %q has depth %d that exceeds max depth %d", sel.Name.Name, depth, c.maxDepth)
+ continue
+ }
+ exceededMaxDepth = exceededMaxDepth || validateMaxDepth(c, sel.SelectionSet, visited, depth+1)
+
+ case *types.InlineFragment:
+ // Depth is not checked because inline fragments resolve to other fields which are checked.
+ // Depth is not incremented because inline fragments have the same depth as neighboring fields
+ exceededMaxDepth = exceededMaxDepth || validateMaxDepth(c, sel.Selections, visited, depth)
+ case *types.FragmentSpread:
+ // Depth is not checked because fragments resolve to other fields which are checked.
+ frag := c.doc.Fragments.Get(sel.Name.Name)
+ if frag == nil {
+ // In case of unknown fragment (invalid request), ignore max depth evaluation
+ c.addErr(sel.Loc, "MaxDepthEvaluationError", "Unknown fragment %q. Unable to evaluate depth.", sel.Name.Name)
+ continue
+ }
+
+ if _, ok := visited[frag]; ok {
+ // we've already seen this fragment, don't check depth again.
+ continue
+ }
+ visited[frag] = struct{}{}
+
+ // Depth is not incremented because fragments have the same depth as surrounding fields
+ exceededMaxDepth = exceededMaxDepth || validateMaxDepth(c, frag.Selections, visited, depth)
+ }
+ }
+
+ return exceededMaxDepth
+}
+
+func validateSelectionSet(c *opContext, sels []types.Selection, t types.NamedType) {
+ for _, sel := range sels {
+ validateSelection(c, sel, t)
+ }
+
+ for i, a := range sels {
+ for _, b := range sels[i+1:] {
+ c.validateOverlap(a, b, nil, nil)
+ }
+ }
+}
+
+func validateSelection(c *opContext, sel types.Selection, t types.NamedType) {
+ switch sel := sel.(type) {
+ case *types.Field:
+ validateDirectives(c, "FIELD", sel.Directives)
+
+ fieldName := sel.Name.Name
+ var f *types.FieldDefinition
+ switch fieldName {
+ case "__typename":
+ f = &types.FieldDefinition{
+ Name: "__typename",
+ Type: c.schema.Types["String"],
+ }
+ case "__schema":
+ f = &types.FieldDefinition{
+ Name: "__schema",
+ Type: c.schema.Types["__Schema"],
+ }
+ case "__type":
+ f = &types.FieldDefinition{
+ Name: "__type",
+ Arguments: types.ArgumentsDefinition{
+ &types.InputValueDefinition{
+ Name: types.Ident{Name: "name"},
+ Type: &types.NonNull{OfType: c.schema.Types["String"]},
+ },
+ },
+ Type: c.schema.Types["__Type"],
+ }
+ default:
+ f = fields(t).Get(fieldName)
+ if f == nil && t != nil {
+ suggestion := makeSuggestion("Did you mean", fields(t).Names(), fieldName)
+ c.addErr(sel.Alias.Loc, "FieldsOnCorrectType", "Cannot query field %q on type %q.%s", fieldName, t, suggestion)
+ }
+ }
+ c.fieldMap[sel] = fieldInfo{sf: f, parent: t}
+
+ validateArgumentLiterals(c, sel.Arguments)
+ if f != nil {
+ validateArgumentTypes(c, sel.Arguments, f.Arguments, sel.Alias.Loc,
+ func() string { return fmt.Sprintf("field %q of type %q", fieldName, t) },
+ func() string { return fmt.Sprintf("Field %q", fieldName) },
+ )
+ }
+
+ var ft types.Type
+ if f != nil {
+ ft = f.Type
+ sf := hasSubfields(ft)
+ if sf && sel.SelectionSet == nil {
+ c.addErr(sel.Alias.Loc, "ScalarLeafs", "Field %q of type %q must have a selection of subfields. Did you mean \"%s { ... }\"?", fieldName, ft, fieldName)
+ }
+ if !sf && sel.SelectionSet != nil {
+ c.addErr(sel.SelectionSetLoc, "ScalarLeafs", "Field %q must not have a selection since type %q has no subfields.", fieldName, ft)
+ }
+ }
+ if sel.SelectionSet != nil {
+ validateSelectionSet(c, sel.SelectionSet, unwrapType(ft))
+ }
+
+ case *types.InlineFragment:
+ validateDirectives(c, "INLINE_FRAGMENT", sel.Directives)
+ if sel.On.Name != "" {
+ fragTyp := unwrapType(resolveType(c.context, &sel.On))
+ if fragTyp != nil && !compatible(t, fragTyp) {
+ c.addErr(sel.Loc, "PossibleFragmentSpreads", "Fragment cannot be spread here as objects of type %q can never be of type %q.", t, fragTyp)
+ }
+ t = fragTyp
+ // continue even if t is nil
+ }
+ if t != nil && !canBeFragment(t) {
+ c.addErr(sel.On.Loc, "FragmentsOnCompositeTypes", "Fragment cannot condition on non composite type %q.", t)
+ return
+ }
+ validateSelectionSet(c, sel.Selections, unwrapType(t))
+
+ case *types.FragmentSpread:
+ validateDirectives(c, "FRAGMENT_SPREAD", sel.Directives)
+ frag := c.doc.Fragments.Get(sel.Name.Name)
+ if frag == nil {
+ c.addErr(sel.Name.Loc, "KnownFragmentNames", "Unknown fragment %q.", sel.Name.Name)
+ return
+ }
+ fragTyp := c.schema.Types[frag.On.Name]
+ if !compatible(t, fragTyp) {
+ c.addErr(sel.Loc, "PossibleFragmentSpreads", "Fragment %q cannot be spread here as objects of type %q can never be of type %q.", frag.Name.Name, t, fragTyp)
+ }
+
+ default:
+ panic("unreachable")
+ }
+}
+
+func compatible(a, b types.Type) bool {
+ for _, pta := range possibleTypes(a) {
+ for _, ptb := range possibleTypes(b) {
+ if pta == ptb {
+ return true
+ }
+ }
+ }
+ return false
+}
+
+func possibleTypes(t types.Type) []*types.ObjectTypeDefinition {
+ switch t := t.(type) {
+ case *types.ObjectTypeDefinition:
+ return []*types.ObjectTypeDefinition{t}
+ case *types.InterfaceTypeDefinition:
+ return t.PossibleTypes
+ case *types.Union:
+ return t.UnionMemberTypes
+ default:
+ return nil
+ }
+}
+
+func markUsedFragments(c *context, sels []types.Selection, fragUsed map[*types.FragmentDefinition]struct{}) {
+ for _, sel := range sels {
+ switch sel := sel.(type) {
+ case *types.Field:
+ if sel.SelectionSet != nil {
+ markUsedFragments(c, sel.SelectionSet, fragUsed)
+ }
+
+ case *types.InlineFragment:
+ markUsedFragments(c, sel.Selections, fragUsed)
+
+ case *types.FragmentSpread:
+ frag := c.doc.Fragments.Get(sel.Name.Name)
+ if frag == nil {
+ return
+ }
+
+ if _, ok := fragUsed[frag]; ok {
+ continue
+ }
+
+ fragUsed[frag] = struct{}{}
+ markUsedFragments(c, frag.Selections, fragUsed)
+
+ default:
+ panic("unreachable")
+ }
+ }
+}
+
+func detectFragmentCycle(c *context, sels []types.Selection, fragVisited map[*types.FragmentDefinition]struct{}, spreadPath []*types.FragmentSpread, spreadPathIndex map[string]int) {
+ for _, sel := range sels {
+ detectFragmentCycleSel(c, sel, fragVisited, spreadPath, spreadPathIndex)
+ }
+}
+
+func detectFragmentCycleSel(c *context, sel types.Selection, fragVisited map[*types.FragmentDefinition]struct{}, spreadPath []*types.FragmentSpread, spreadPathIndex map[string]int) {
+ switch sel := sel.(type) {
+ case *types.Field:
+ if sel.SelectionSet != nil {
+ detectFragmentCycle(c, sel.SelectionSet, fragVisited, spreadPath, spreadPathIndex)
+ }
+
+ case *types.InlineFragment:
+ detectFragmentCycle(c, sel.Selections, fragVisited, spreadPath, spreadPathIndex)
+
+ case *types.FragmentSpread:
+ frag := c.doc.Fragments.Get(sel.Name.Name)
+ if frag == nil {
+ return
+ }
+
+ spreadPath = append(spreadPath, sel)
+ if i, ok := spreadPathIndex[frag.Name.Name]; ok {
+ cyclePath := spreadPath[i:]
+ via := ""
+ if len(cyclePath) > 1 {
+ names := make([]string, len(cyclePath)-1)
+ for i, frag := range cyclePath[:len(cyclePath)-1] {
+ names[i] = frag.Name.Name
+ }
+ via = " via " + strings.Join(names, ", ")
+ }
+
+ locs := make([]errors.Location, len(cyclePath))
+ for i, frag := range cyclePath {
+ locs[i] = frag.Loc
+ }
+ c.addErrMultiLoc(locs, "NoFragmentCycles", "Cannot spread fragment %q within itself%s.", frag.Name.Name, via)
+ return
+ }
+
+ if _, ok := fragVisited[frag]; ok {
+ return
+ }
+ fragVisited[frag] = struct{}{}
+
+ spreadPathIndex[frag.Name.Name] = len(spreadPath)
+ detectFragmentCycle(c, frag.Selections, fragVisited, spreadPath, spreadPathIndex)
+ delete(spreadPathIndex, frag.Name.Name)
+
+ default:
+ panic("unreachable")
+ }
+}
+
+func (c *context) validateOverlap(a, b types.Selection, reasons *[]string, locs *[]errors.Location) {
+ if a == b {
+ return
+ }
+
+ if _, ok := c.overlapValidated[selectionPair{a, b}]; ok {
+ return
+ }
+ c.overlapValidated[selectionPair{a, b}] = struct{}{}
+ c.overlapValidated[selectionPair{b, a}] = struct{}{}
+
+ switch a := a.(type) {
+ case *types.Field:
+ switch b := b.(type) {
+ case *types.Field:
+ if b.Alias.Loc.Before(a.Alias.Loc) {
+ a, b = b, a
+ }
+ if reasons2, locs2 := c.validateFieldOverlap(a, b); len(reasons2) != 0 {
+ locs2 = append(locs2, a.Alias.Loc, b.Alias.Loc)
+ if reasons == nil {
+ c.addErrMultiLoc(locs2, "OverlappingFieldsCanBeMerged", "Fields %q conflict because %s. Use different aliases on the fields to fetch both if this was intentional.", a.Alias.Name, strings.Join(reasons2, " and "))
+ return
+ }
+ for _, r := range reasons2 {
+ *reasons = append(*reasons, fmt.Sprintf("subfields %q conflict because %s", a.Alias.Name, r))
+ }
+ *locs = append(*locs, locs2...)
+ }
+
+ case *types.InlineFragment:
+ for _, sel := range b.Selections {
+ c.validateOverlap(a, sel, reasons, locs)
+ }
+
+ case *types.FragmentSpread:
+ if frag := c.doc.Fragments.Get(b.Name.Name); frag != nil {
+ for _, sel := range frag.Selections {
+ c.validateOverlap(a, sel, reasons, locs)
+ }
+ }
+
+ default:
+ panic("unreachable")
+ }
+
+ case *types.InlineFragment:
+ for _, sel := range a.Selections {
+ c.validateOverlap(sel, b, reasons, locs)
+ }
+
+ case *types.FragmentSpread:
+ if frag := c.doc.Fragments.Get(a.Name.Name); frag != nil {
+ for _, sel := range frag.Selections {
+ c.validateOverlap(sel, b, reasons, locs)
+ }
+ }
+
+ default:
+ panic("unreachable")
+ }
+}
+
+func (c *context) validateFieldOverlap(a, b *types.Field) ([]string, []errors.Location) {
+ if a.Alias.Name != b.Alias.Name {
+ return nil, nil
+ }
+
+ if asf := c.fieldMap[a].sf; asf != nil {
+ if bsf := c.fieldMap[b].sf; bsf != nil {
+ if !typesCompatible(asf.Type, bsf.Type) {
+ return []string{fmt.Sprintf("they return conflicting types %s and %s", asf.Type, bsf.Type)}, nil
+ }
+ }
+ }
+
+ at := c.fieldMap[a].parent
+ bt := c.fieldMap[b].parent
+ if at == nil || bt == nil || at == bt {
+ if a.Name.Name != b.Name.Name {
+ return []string{fmt.Sprintf("%s and %s are different fields", a.Name.Name, b.Name.Name)}, nil
+ }
+
+ if argumentsConflict(a.Arguments, b.Arguments) {
+ return []string{"they have differing arguments"}, nil
+ }
+ }
+
+ var reasons []string
+ var locs []errors.Location
+ for _, a2 := range a.SelectionSet {
+ for _, b2 := range b.SelectionSet {
+ c.validateOverlap(a2, b2, &reasons, &locs)
+ }
+ }
+ return reasons, locs
+}
+
+func argumentsConflict(a, b types.ArgumentList) bool {
+ if len(a) != len(b) {
+ return true
+ }
+ for _, argA := range a {
+ valB, ok := b.Get(argA.Name.Name)
+ if !ok || !reflect.DeepEqual(argA.Value.Deserialize(nil), valB.Deserialize(nil)) {
+ return true
+ }
+ }
+ return false
+}
+
+func fields(t types.Type) types.FieldsDefinition {
+ switch t := t.(type) {
+ case *types.ObjectTypeDefinition:
+ return t.Fields
+ case *types.InterfaceTypeDefinition:
+ return t.Fields
+ default:
+ return nil
+ }
+}
+
+func unwrapType(t types.Type) types.NamedType {
+ if t == nil {
+ return nil
+ }
+ for {
+ switch t2 := t.(type) {
+ case types.NamedType:
+ return t2
+ case *types.List:
+ t = t2.OfType
+ case *types.NonNull:
+ t = t2.OfType
+ default:
+ panic("unreachable")
+ }
+ }
+}
+
+func resolveType(c *context, t types.Type) types.Type {
+ t2, err := common.ResolveType(t, c.schema.Resolve)
+ if err != nil {
+ c.errs = append(c.errs, err)
+ }
+ return t2
+}
+
+func validateDirectives(c *opContext, loc string, directives types.DirectiveList) {
+ directiveNames := make(nameSet)
+ for _, d := range directives {
+ dirName := d.Name.Name
+ validateNameCustomMsg(c.context, directiveNames, d.Name, "UniqueDirectivesPerLocation", func() string {
+ return fmt.Sprintf("The directive %q can only be used once at this location.", dirName)
+ })
+
+ validateArgumentLiterals(c, d.Arguments)
+
+ dd, ok := c.schema.Directives[dirName]
+ if !ok {
+ c.addErr(d.Name.Loc, "KnownDirectives", "Unknown directive %q.", dirName)
+ continue
+ }
+
+ locOK := false
+ for _, allowedLoc := range dd.Locations {
+ if loc == allowedLoc {
+ locOK = true
+ break
+ }
+ }
+ if !locOK {
+ c.addErr(d.Name.Loc, "KnownDirectives", "Directive %q may not be used on %s.", dirName, loc)
+ }
+
+ validateArgumentTypes(c, d.Arguments, dd.Arguments, d.Name.Loc,
+ func() string { return fmt.Sprintf("directive %q", "@"+dirName) },
+ func() string { return fmt.Sprintf("Directive %q", "@"+dirName) },
+ )
+ }
+}
+
+func validateName(c *context, set nameSet, name types.Ident, rule string, kind string) {
+ validateNameCustomMsg(c, set, name, rule, func() string {
+ return fmt.Sprintf("There can be only one %s named %q.", kind, name.Name)
+ })
+}
+
+func validateNameCustomMsg(c *context, set nameSet, name types.Ident, rule string, msg func() string) {
+ if loc, ok := set[name.Name]; ok {
+ c.addErrMultiLoc([]errors.Location{loc, name.Loc}, rule, msg())
+ return
+ }
+ set[name.Name] = name.Loc
+}
+
+func validateArgumentTypes(c *opContext, args types.ArgumentList, argDecls types.ArgumentsDefinition, loc errors.Location, owner1, owner2 func() string) {
+ for _, selArg := range args {
+ arg := argDecls.Get(selArg.Name.Name)
+ if arg == nil {
+ c.addErr(selArg.Name.Loc, "KnownArgumentNames", "Unknown argument %q on %s.", selArg.Name.Name, owner1())
+ continue
+ }
+ value := selArg.Value
+ if ok, reason := validateValueType(c, value, arg.Type); !ok {
+ c.addErr(value.Location(), "ArgumentsOfCorrectType", "Argument %q has invalid value %s.\n%s", arg.Name.Name, value, reason)
+ }
+ }
+ for _, decl := range argDecls {
+ if _, ok := decl.Type.(*types.NonNull); ok {
+ if _, ok := args.Get(decl.Name.Name); !ok {
+ c.addErr(loc, "ProvidedNonNullArguments", "%s argument %q of type %q is required but not provided.", owner2(), decl.Name.Name, decl.Type)
+ }
+ }
+ }
+}
+
+func validateArgumentLiterals(c *opContext, args types.ArgumentList) {
+ argNames := make(nameSet)
+ for _, arg := range args {
+ validateName(c.context, argNames, arg.Name, "UniqueArgumentNames", "argument")
+ validateLiteral(c, arg.Value)
+ }
+}
+
+func validateLiteral(c *opContext, l types.Value) {
+ switch l := l.(type) {
+ case *types.ObjectValue:
+ fieldNames := make(nameSet)
+ for _, f := range l.Fields {
+ validateName(c.context, fieldNames, f.Name, "UniqueInputFieldNames", "input field")
+ validateLiteral(c, f.Value)
+ }
+ case *types.ListValue:
+ for _, entry := range l.Values {
+ validateLiteral(c, entry)
+ }
+ case *types.Variable:
+ for _, op := range c.ops {
+ v := op.Vars.Get(l.Name)
+ if v == nil {
+ byOp := ""
+ if op.Name.Name != "" {
+ byOp = fmt.Sprintf(" by operation %q", op.Name.Name)
+ }
+ c.opErrs[op] = append(c.opErrs[op], &errors.QueryError{
+ Message: fmt.Sprintf("Variable %q is not defined%s.", "$"+l.Name, byOp),
+ Locations: []errors.Location{l.Loc, op.Loc},
+ Rule: "NoUndefinedVariables",
+ })
+ continue
+ }
+ validateValueType(c, l, resolveType(c.context, v.Type))
+ c.usedVars[op][v] = struct{}{}
+ }
+ }
+}
+
+func validateValueType(c *opContext, v types.Value, t types.Type) (bool, string) {
+ if v, ok := v.(*types.Variable); ok {
+ for _, op := range c.ops {
+ if v2 := op.Vars.Get(v.Name); v2 != nil {
+ t2, err := common.ResolveType(v2.Type, c.schema.Resolve)
+ if _, ok := t2.(*types.NonNull); !ok && v2.Default != nil {
+ t2 = &types.NonNull{OfType: t2}
+ }
+ if err == nil && !typeCanBeUsedAs(t2, t) {
+ c.addErrMultiLoc([]errors.Location{v2.Loc, v.Loc}, "VariablesInAllowedPosition", "Variable %q of type %q used in position expecting type %q.", "$"+v.Name, t2, t)
+ }
+ }
+ }
+ return true, ""
+ }
+
+ if nn, ok := t.(*types.NonNull); ok {
+ if isNull(v) {
+ return false, fmt.Sprintf("Expected %q, found null.", t)
+ }
+ t = nn.OfType
+ }
+ if isNull(v) {
+ return true, ""
+ }
+
+ switch t := t.(type) {
+ case *types.ScalarTypeDefinition, *types.EnumTypeDefinition:
+ if lit, ok := v.(*types.PrimitiveValue); ok {
+ if validateBasicLit(lit, t) {
+ return true, ""
+ }
+ return false, fmt.Sprintf("Expected type %q, found %s.", t, v)
+ }
+ return true, ""
+
+ case *types.List:
+ list, ok := v.(*types.ListValue)
+ if !ok {
+ return validateValueType(c, v, t.OfType) // single value instead of list
+ }
+ for i, entry := range list.Values {
+ if ok, reason := validateValueType(c, entry, t.OfType); !ok {
+ return false, fmt.Sprintf("In element #%d: %s", i, reason)
+ }
+ }
+ return true, ""
+
+ case *types.InputObject:
+ v, ok := v.(*types.ObjectValue)
+ if !ok {
+ return false, fmt.Sprintf("Expected %q, found not an object.", t)
+ }
+ for _, f := range v.Fields {
+ name := f.Name.Name
+ iv := t.Values.Get(name)
+ if iv == nil {
+ return false, fmt.Sprintf("In field %q: Unknown field.", name)
+ }
+ if ok, reason := validateValueType(c, f.Value, iv.Type); !ok {
+ return false, fmt.Sprintf("In field %q: %s", name, reason)
+ }
+ }
+ for _, iv := range t.Values {
+ found := false
+ for _, f := range v.Fields {
+ if f.Name.Name == iv.Name.Name {
+ found = true
+ break
+ }
+ }
+ if !found {
+ if _, ok := iv.Type.(*types.NonNull); ok && iv.Default == nil {
+ return false, fmt.Sprintf("In field %q: Expected %q, found null.", iv.Name.Name, iv.Type)
+ }
+ }
+ }
+ return true, ""
+ }
+
+ return false, fmt.Sprintf("Expected type %q, found %s.", t, v)
+}
+
+func validateBasicLit(v *types.PrimitiveValue, t types.Type) bool {
+ switch t := t.(type) {
+ case *types.ScalarTypeDefinition:
+ switch t.Name {
+ case "Int":
+ if v.Type != scanner.Int {
+ return false
+ }
+ f, err := strconv.ParseFloat(v.Text, 64)
+ if err != nil {
+ panic(err)
+ }
+ return f >= math.MinInt32 && f <= math.MaxInt32
+ case "Float":
+ return v.Type == scanner.Int || v.Type == scanner.Float
+ case "String":
+ return v.Type == scanner.String
+ case "Boolean":
+ return v.Type == scanner.Ident && (v.Text == "true" || v.Text == "false")
+ case "ID":
+ return v.Type == scanner.Int || v.Type == scanner.String
+ default:
+ //TODO: Type-check against expected type by Unmarshalling
+ return true
+ }
+
+ case *types.EnumTypeDefinition:
+ if v.Type != scanner.Ident {
+ return false
+ }
+ for _, option := range t.EnumValuesDefinition {
+ if option.EnumValue == v.Text {
+ return true
+ }
+ }
+ return false
+ }
+
+ return false
+}
+
+func canBeFragment(t types.Type) bool {
+ switch t.(type) {
+ case *types.ObjectTypeDefinition, *types.InterfaceTypeDefinition, *types.Union:
+ return true
+ default:
+ return false
+ }
+}
+
+func canBeInput(t types.Type) bool {
+ switch t := t.(type) {
+ case *types.InputObject, *types.ScalarTypeDefinition, *types.EnumTypeDefinition:
+ return true
+ case *types.List:
+ return canBeInput(t.OfType)
+ case *types.NonNull:
+ return canBeInput(t.OfType)
+ default:
+ return false
+ }
+}
+
+func hasSubfields(t types.Type) bool {
+ switch t := t.(type) {
+ case *types.ObjectTypeDefinition, *types.InterfaceTypeDefinition, *types.Union:
+ return true
+ case *types.List:
+ return hasSubfields(t.OfType)
+ case *types.NonNull:
+ return hasSubfields(t.OfType)
+ default:
+ return false
+ }
+}
+
+func isLeaf(t types.Type) bool {
+ switch t.(type) {
+ case *types.ScalarTypeDefinition, *types.EnumTypeDefinition:
+ return true
+ default:
+ return false
+ }
+}
+
+func isNull(lit interface{}) bool {
+ _, ok := lit.(*types.NullValue)
+ return ok
+}
+
+func typesCompatible(a, b types.Type) bool {
+ al, aIsList := a.(*types.List)
+ bl, bIsList := b.(*types.List)
+ if aIsList || bIsList {
+ return aIsList && bIsList && typesCompatible(al.OfType, bl.OfType)
+ }
+
+ ann, aIsNN := a.(*types.NonNull)
+ bnn, bIsNN := b.(*types.NonNull)
+ if aIsNN || bIsNN {
+ return aIsNN && bIsNN && typesCompatible(ann.OfType, bnn.OfType)
+ }
+
+ if isLeaf(a) || isLeaf(b) {
+ return a == b
+ }
+
+ return true
+}
+
+func typeCanBeUsedAs(t, as types.Type) bool {
+ nnT, okT := t.(*types.NonNull)
+ if okT {
+ t = nnT.OfType
+ }
+
+ nnAs, okAs := as.(*types.NonNull)
+ if okAs {
+ as = nnAs.OfType
+ if !okT {
+ return false // nullable can not be used as non-null
+ }
+ }
+
+ if t == as {
+ return true
+ }
+
+ if lT, ok := t.(*types.List); ok {
+ if lAs, ok := as.(*types.List); ok {
+ return typeCanBeUsedAs(lT.OfType, lAs.OfType)
+ }
+ }
+ return false
+}