mirror of
https://github.com/ceph/ceph-csi.git
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e5d9b68d36
Bumps the golang-dependencies group with 1 update: [golang.org/x/crypto](https://github.com/golang/crypto). Updates `golang.org/x/crypto` from 0.16.0 to 0.17.0 - [Commits](https://github.com/golang/crypto/compare/v0.16.0...v0.17.0) --- updated-dependencies: - dependency-name: golang.org/x/crypto dependency-type: direct:production update-type: version-update:semver-minor dependency-group: golang-dependencies ... Signed-off-by: dependabot[bot] <support@github.com>
376 lines
13 KiB
Go
376 lines
13 KiB
Go
/*
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Copyright 2018 The Kubernetes Authors.
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Licensed under the Apache License, Version 2.0 (the "License");
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you may not use this file except in compliance with the License.
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You may obtain a copy of the License at
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http://www.apache.org/licenses/LICENSE-2.0
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Unless required by applicable law or agreed to in writing, software
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distributed under the License is distributed on an "AS IS" BASIS,
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WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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See the License for the specific language governing permissions and
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limitations under the License.
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*/
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package schema
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import (
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"sync"
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)
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// Schema is a list of named types.
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//
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// Schema types are indexed in a map before the first search so this type
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// should be considered immutable.
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type Schema struct {
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Types []TypeDef `yaml:"types,omitempty"`
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once sync.Once
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m map[string]TypeDef
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lock sync.Mutex
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// Cached results of resolving type references to atoms. Only stores
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// type references which require fields of Atom to be overriden.
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resolvedTypes map[TypeRef]Atom
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}
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// A TypeSpecifier references a particular type in a schema.
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type TypeSpecifier struct {
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Type TypeRef `yaml:"type,omitempty"`
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Schema Schema `yaml:"schema,omitempty"`
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}
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// TypeDef represents a named type in a schema.
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type TypeDef struct {
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// Top level types should be named. Every type must have a unique name.
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Name string `yaml:"name,omitempty"`
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Atom `yaml:"atom,omitempty,inline"`
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}
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// TypeRef either refers to a named type or declares an inlined type.
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type TypeRef struct {
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// Either the name or one member of Atom should be set.
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NamedType *string `yaml:"namedType,omitempty"`
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Inlined Atom `yaml:",inline,omitempty"`
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// If this reference refers to a map-type or list-type, this field overrides
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// the `ElementRelationship` of the referred type when resolved.
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// If this field is nil, then it has no effect.
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// See `Map` and `List` for more information about `ElementRelationship`
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ElementRelationship *ElementRelationship `yaml:"elementRelationship,omitempty"`
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}
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// Atom represents the smallest possible pieces of the type system.
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// Each set field in the Atom represents a possible type for the object.
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// If none of the fields are set, any object will fail validation against the atom.
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type Atom struct {
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*Scalar `yaml:"scalar,omitempty"`
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*List `yaml:"list,omitempty"`
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*Map `yaml:"map,omitempty"`
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}
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// Scalar (AKA "primitive") represents a type which has a single value which is
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// either numeric, string, or boolean, or untyped for any of them.
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//
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// TODO: split numeric into float/int? Something even more fine-grained?
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type Scalar string
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const (
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Numeric = Scalar("numeric")
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String = Scalar("string")
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Boolean = Scalar("boolean")
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Untyped = Scalar("untyped")
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)
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// ElementRelationship is an enum of the different possible relationships
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// between the elements of container types (maps, lists).
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type ElementRelationship string
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const (
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// Associative only applies to lists (see the documentation there).
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Associative = ElementRelationship("associative")
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// Atomic makes container types (lists, maps) behave
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// as scalars / leaf fields
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Atomic = ElementRelationship("atomic")
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// Separable means the items of the container type have no particular
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// relationship (default behavior for maps).
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Separable = ElementRelationship("separable")
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)
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// Map is a key-value pair. Its default semantics are the same as an
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// associative list, but:
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// - It is serialized differently:
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// map: {"k": {"value": "v"}}
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// list: [{"key": "k", "value": "v"}]
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// - Keys must be string typed.
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// - Keys can't have multiple components.
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//
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// Optionally, maps may be atomic (for example, imagine representing an RGB
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// color value--it doesn't make sense to have different actors own the R and G
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// values).
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//
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// Maps may also represent a type which is composed of a number of different fields.
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// Each field has a name and a type.
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//
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// Fields are indexed in a map before the first search so this type
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// should be considered immutable.
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type Map struct {
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// Each struct field appears exactly once in this list. The order in
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// this list defines the canonical field ordering.
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Fields []StructField `yaml:"fields,omitempty"`
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// A Union is a grouping of fields with special rules. It may refer to
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// one or more fields in the above list. A given field from the above
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// list may be referenced in exactly 0 or 1 places in the below list.
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// One can have multiple unions in the same struct, but the fields can't
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// overlap between unions.
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Unions []Union `yaml:"unions,omitempty"`
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// ElementType is the type of the structs's unknown fields.
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ElementType TypeRef `yaml:"elementType,omitempty"`
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// ElementRelationship states the relationship between the map's items.
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// * `separable` (or unset) implies that each element is 100% independent.
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// * `atomic` implies that all elements depend on each other, and this
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// is effectively a scalar / leaf field; it doesn't make sense for
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// separate actors to set the elements. Example: an RGB color struct;
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// it would never make sense to "own" only one component of the
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// color.
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// The default behavior for maps is `separable`; it's permitted to
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// leave this unset to get the default behavior.
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ElementRelationship ElementRelationship `yaml:"elementRelationship,omitempty"`
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once sync.Once
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m map[string]StructField
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}
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// FindField is a convenience function that returns the referenced StructField,
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// if it exists, or (nil, false) if it doesn't.
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func (m *Map) FindField(name string) (StructField, bool) {
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m.once.Do(func() {
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m.m = make(map[string]StructField, len(m.Fields))
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for _, field := range m.Fields {
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m.m[field.Name] = field
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}
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})
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sf, ok := m.m[name]
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return sf, ok
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}
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// CopyInto this instance of Map into the other
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// If other is nil this method does nothing.
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// If other is already initialized, overwrites it with this instance
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// Warning: Not thread safe
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func (m *Map) CopyInto(dst *Map) {
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if dst == nil {
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return
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}
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// Map type is considered immutable so sharing references
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dst.Fields = m.Fields
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dst.ElementType = m.ElementType
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dst.Unions = m.Unions
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dst.ElementRelationship = m.ElementRelationship
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if m.m != nil {
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// If cache is non-nil then the once token had been consumed.
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// Must reset token and use it again to ensure same semantics.
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dst.once = sync.Once{}
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dst.once.Do(func() {
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dst.m = m.m
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})
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}
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}
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// UnionFields are mapping between the fields that are part of the union and
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// their discriminated value. The discriminated value has to be set, and
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// should not conflict with other discriminated value in the list.
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type UnionField struct {
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// FieldName is the name of the field that is part of the union. This
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// is the serialized form of the field.
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FieldName string `yaml:"fieldName"`
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// Discriminatorvalue is the value of the discriminator to
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// select that field. If the union doesn't have a discriminator,
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// this field is ignored.
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DiscriminatorValue string `yaml:"discriminatorValue"`
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}
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// Union, or oneof, means that only one of multiple fields of a structure can be
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// set at a time. Setting the discriminator helps clearing oher fields:
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// - If discriminator changed to non-nil, and a new field has been added
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// that doesn't match, an error is returned,
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// - If discriminator hasn't changed and two fields or more are set, an
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// error is returned,
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// - If discriminator changed to non-nil, all other fields but the
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// discriminated one will be cleared,
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// - Otherwise, If only one field is left, update discriminator to that value.
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type Union struct {
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// Discriminator, if present, is the name of the field that
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// discriminates fields in the union. The mapping between the value of
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// the discriminator and the field is done by using the Fields list
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// below.
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Discriminator *string `yaml:"discriminator,omitempty"`
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// DeduceInvalidDiscriminator indicates if the discriminator
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// should be updated automatically based on the fields set. This
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// typically defaults to false since we don't want to deduce by
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// default (the behavior exists to maintain compatibility on
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// existing types and shouldn't be used for new types).
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DeduceInvalidDiscriminator bool `yaml:"deduceInvalidDiscriminator,omitempty"`
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// This is the list of fields that belong to this union. All the
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// fields present in here have to be part of the parent
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// structure. Discriminator (if oneOf has one), is NOT included in
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// this list. The value for field is how we map the name of the field
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// to actual value for discriminator.
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Fields []UnionField `yaml:"fields,omitempty"`
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}
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// StructField pairs a field name with a field type.
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type StructField struct {
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// Name is the field name.
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Name string `yaml:"name,omitempty"`
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// Type is the field type.
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Type TypeRef `yaml:"type,omitempty"`
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// Default value for the field, nil if not present.
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Default interface{} `yaml:"default,omitempty"`
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}
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// List represents a type which contains a zero or more elements, all of the
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// same subtype. Lists may be either associative: each element is more or less
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// independent and could be managed by separate entities in the system; or
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// atomic, where the elements are heavily dependent on each other: it is not
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// sensible to change one element without considering the ramifications on all
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// the other elements.
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type List struct {
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// ElementType is the type of the list's elements.
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ElementType TypeRef `yaml:"elementType,omitempty"`
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// ElementRelationship states the relationship between the list's elements
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// and must have one of these values:
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// * `atomic`: the list is treated as a single entity, like a scalar.
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// * `associative`:
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// - If the list element is a scalar, the list is treated as a set.
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// - If the list element is a map, the list is treated as a map.
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// There is no default for this value for lists; all schemas must
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// explicitly state the element relationship for all lists.
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ElementRelationship ElementRelationship `yaml:"elementRelationship,omitempty"`
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// Iff ElementRelationship is `associative`, and the element type is
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// map, then Keys must have non-zero length, and it lists the fields
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// of the element's map type which are to be used as the keys of the
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// list.
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//
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// TODO: change this to "non-atomic struct" above and make the code reflect this.
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//
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// Each key must refer to a single field name (no nesting, not JSONPath).
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Keys []string `yaml:"keys,omitempty"`
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}
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// FindNamedType is a convenience function that returns the referenced TypeDef,
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// if it exists, or (nil, false) if it doesn't.
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func (s *Schema) FindNamedType(name string) (TypeDef, bool) {
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s.once.Do(func() {
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s.m = make(map[string]TypeDef, len(s.Types))
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for _, t := range s.Types {
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s.m[t.Name] = t
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}
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})
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t, ok := s.m[name]
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return t, ok
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}
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func (s *Schema) resolveNoOverrides(tr TypeRef) (Atom, bool) {
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result := Atom{}
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if tr.NamedType != nil {
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t, ok := s.FindNamedType(*tr.NamedType)
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if !ok {
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return Atom{}, false
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}
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result = t.Atom
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} else {
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result = tr.Inlined
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}
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return result, true
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}
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// Resolve is a convenience function which returns the atom referenced, whether
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// it is inline or named. Returns (Atom{}, false) if the type can't be resolved.
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//
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// This allows callers to not care about the difference between a (possibly
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// inlined) reference and a definition.
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func (s *Schema) Resolve(tr TypeRef) (Atom, bool) {
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// If this is a plain reference with no overrides, just return the type
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if tr.ElementRelationship == nil {
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return s.resolveNoOverrides(tr)
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}
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s.lock.Lock()
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defer s.lock.Unlock()
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if s.resolvedTypes == nil {
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s.resolvedTypes = make(map[TypeRef]Atom)
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}
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var result Atom
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var exists bool
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// Return cached result if available
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// If not, calculate result and cache it
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if result, exists = s.resolvedTypes[tr]; !exists {
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if result, exists = s.resolveNoOverrides(tr); exists {
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// Allow field-level electives to override the referred type's modifiers
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switch {
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case result.Map != nil:
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mapCopy := Map{}
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result.Map.CopyInto(&mapCopy)
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mapCopy.ElementRelationship = *tr.ElementRelationship
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result.Map = &mapCopy
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case result.List != nil:
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listCopy := *result.List
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listCopy.ElementRelationship = *tr.ElementRelationship
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result.List = &listCopy
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case result.Scalar != nil:
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return Atom{}, false
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default:
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return Atom{}, false
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}
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} else {
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return Atom{}, false
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}
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// Save result. If it is nil, that is also recorded as not existing.
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s.resolvedTypes[tr] = result
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}
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return result, true
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}
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// Clones this instance of Schema into the other
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// If other is nil this method does nothing.
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// If other is already initialized, overwrites it with this instance
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// Warning: Not thread safe
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func (s *Schema) CopyInto(dst *Schema) {
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if dst == nil {
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return
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}
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// Schema type is considered immutable so sharing references
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dst.Types = s.Types
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if s.m != nil {
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// If cache is non-nil then the once token had been consumed.
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// Must reset token and use it again to ensure same semantics.
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dst.once = sync.Once{}
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dst.once.Do(func() {
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dst.m = s.m
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})
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}
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}
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