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>
400 lines
15 KiB
Go
400 lines
15 KiB
Go
// Copyright 2020 Google LLC
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//
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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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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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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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package interpreter
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import (
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"fmt"
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"github.com/google/cel-go/common/containers"
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"github.com/google/cel-go/common/types"
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"github.com/google/cel-go/common/types/ref"
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)
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// AttributePattern represents a top-level variable with an optional set of qualifier patterns.
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//
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// When using a CEL expression within a container, e.g. a package or namespace, the variable name
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// in the pattern must match the qualified name produced during the variable namespace resolution.
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// For example, if variable `c` appears in an expression whose container is `a.b`, the variable
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// name supplied to the pattern must be `a.b.c`
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//
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// The qualifier patterns for attribute matching must be one of the following:
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//
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// - valid map key type: string, int, uint, bool
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// - wildcard (*)
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//
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// Examples:
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//
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// 1. ns.myvar["complex-value"]
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// 2. ns.myvar["complex-value"][0]
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// 3. ns.myvar["complex-value"].*.name
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//
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// The first example is simple: match an attribute where the variable is 'ns.myvar' with a
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// field access on 'complex-value'. The second example expands the match to indicate that only
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// a specific index `0` should match. And lastly, the third example matches any indexed access
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// that later selects the 'name' field.
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type AttributePattern struct {
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variable string
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qualifierPatterns []*AttributeQualifierPattern
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}
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// NewAttributePattern produces a new mutable AttributePattern based on a variable name.
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func NewAttributePattern(variable string) *AttributePattern {
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return &AttributePattern{
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variable: variable,
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qualifierPatterns: []*AttributeQualifierPattern{},
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}
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}
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// QualString adds a string qualifier pattern to the AttributePattern. The string may be a valid
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// identifier, or string map key including empty string.
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func (apat *AttributePattern) QualString(pattern string) *AttributePattern {
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apat.qualifierPatterns = append(apat.qualifierPatterns,
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&AttributeQualifierPattern{value: pattern})
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return apat
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}
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// QualInt adds an int qualifier pattern to the AttributePattern. The index may be either a map or
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// list index.
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func (apat *AttributePattern) QualInt(pattern int64) *AttributePattern {
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apat.qualifierPatterns = append(apat.qualifierPatterns,
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&AttributeQualifierPattern{value: pattern})
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return apat
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}
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// QualUint adds an uint qualifier pattern for a map index operation to the AttributePattern.
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func (apat *AttributePattern) QualUint(pattern uint64) *AttributePattern {
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apat.qualifierPatterns = append(apat.qualifierPatterns,
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&AttributeQualifierPattern{value: pattern})
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return apat
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}
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// QualBool adds a bool qualifier pattern for a map index operation to the AttributePattern.
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func (apat *AttributePattern) QualBool(pattern bool) *AttributePattern {
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apat.qualifierPatterns = append(apat.qualifierPatterns,
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&AttributeQualifierPattern{value: pattern})
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return apat
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}
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// Wildcard adds a special sentinel qualifier pattern that will match any single qualifier.
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func (apat *AttributePattern) Wildcard() *AttributePattern {
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apat.qualifierPatterns = append(apat.qualifierPatterns,
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&AttributeQualifierPattern{wildcard: true})
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return apat
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}
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// VariableMatches returns true if the fully qualified variable matches the AttributePattern
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// fully qualified variable name.
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func (apat *AttributePattern) VariableMatches(variable string) bool {
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return apat.variable == variable
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}
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// QualifierPatterns returns the set of AttributeQualifierPattern values on the AttributePattern.
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func (apat *AttributePattern) QualifierPatterns() []*AttributeQualifierPattern {
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return apat.qualifierPatterns
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}
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// AttributeQualifierPattern holds a wildcard or valued qualifier pattern.
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type AttributeQualifierPattern struct {
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wildcard bool
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value any
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}
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// Matches returns true if the qualifier pattern is a wildcard, or the Qualifier implements the
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// qualifierValueEquator interface and its IsValueEqualTo returns true for the qualifier pattern.
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func (qpat *AttributeQualifierPattern) Matches(q Qualifier) bool {
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if qpat.wildcard {
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return true
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}
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qve, ok := q.(qualifierValueEquator)
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return ok && qve.QualifierValueEquals(qpat.value)
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}
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// qualifierValueEquator defines an interface for determining if an input value, of valid map key
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// type, is equal to the value held in the Qualifier. This interface is used by the
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// AttributeQualifierPattern to determine pattern matches for non-wildcard qualifier patterns.
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//
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// Note: Attribute values are also Qualifier values; however, Attributes are resolved before
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// qualification happens. This is an implementation detail, but one relevant to why the Attribute
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// types do not surface in the list of implementations.
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//
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// See: partialAttributeFactory.matchesUnknownPatterns for more details on how this interface is
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// used.
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type qualifierValueEquator interface {
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// QualifierValueEquals returns true if the input value is equal to the value held in the
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// Qualifier.
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QualifierValueEquals(value any) bool
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}
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// QualifierValueEquals implementation for boolean qualifiers.
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func (q *boolQualifier) QualifierValueEquals(value any) bool {
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bval, ok := value.(bool)
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return ok && q.value == bval
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}
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// QualifierValueEquals implementation for field qualifiers.
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func (q *fieldQualifier) QualifierValueEquals(value any) bool {
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sval, ok := value.(string)
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return ok && q.Name == sval
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}
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// QualifierValueEquals implementation for string qualifiers.
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func (q *stringQualifier) QualifierValueEquals(value any) bool {
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sval, ok := value.(string)
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return ok && q.value == sval
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}
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// QualifierValueEquals implementation for int qualifiers.
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func (q *intQualifier) QualifierValueEquals(value any) bool {
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return numericValueEquals(value, q.celValue)
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}
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// QualifierValueEquals implementation for uint qualifiers.
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func (q *uintQualifier) QualifierValueEquals(value any) bool {
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return numericValueEquals(value, q.celValue)
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}
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// QualifierValueEquals implementation for double qualifiers.
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func (q *doubleQualifier) QualifierValueEquals(value any) bool {
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return numericValueEquals(value, q.celValue)
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}
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// numericValueEquals uses CEL equality to determine whether two number values are
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func numericValueEquals(value any, celValue ref.Val) bool {
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val := types.DefaultTypeAdapter.NativeToValue(value)
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return celValue.Equal(val) == types.True
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}
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// NewPartialAttributeFactory returns an AttributeFactory implementation capable of performing
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// AttributePattern matches with PartialActivation inputs.
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func NewPartialAttributeFactory(container *containers.Container,
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adapter types.Adapter,
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provider types.Provider) AttributeFactory {
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fac := NewAttributeFactory(container, adapter, provider)
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return &partialAttributeFactory{
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AttributeFactory: fac,
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container: container,
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adapter: adapter,
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provider: provider,
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}
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}
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type partialAttributeFactory struct {
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AttributeFactory
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container *containers.Container
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adapter types.Adapter
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provider types.Provider
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}
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// AbsoluteAttribute implementation of the AttributeFactory interface which wraps the
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// NamespacedAttribute resolution in an internal attributeMatcher object to dynamically match
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// unknown patterns from PartialActivation inputs if given.
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func (fac *partialAttributeFactory) AbsoluteAttribute(id int64, names ...string) NamespacedAttribute {
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attr := fac.AttributeFactory.AbsoluteAttribute(id, names...)
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return &attributeMatcher{fac: fac, NamespacedAttribute: attr}
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}
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// MaybeAttribute implementation of the AttributeFactory interface which ensure that the set of
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// 'maybe' NamespacedAttribute values are produced using the partialAttributeFactory rather than
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// the base AttributeFactory implementation.
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func (fac *partialAttributeFactory) MaybeAttribute(id int64, name string) Attribute {
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return &maybeAttribute{
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id: id,
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attrs: []NamespacedAttribute{
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fac.AbsoluteAttribute(id, fac.container.ResolveCandidateNames(name)...),
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},
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adapter: fac.adapter,
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provider: fac.provider,
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fac: fac,
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}
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}
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// matchesUnknownPatterns returns true if the variable names and qualifiers for a given
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// Attribute value match any of the ActivationPattern objects in the set of unknown activation
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// patterns on the given PartialActivation.
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//
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// For example, in the expression `a.b`, the Attribute is composed of variable `a`, with string
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// qualifier `b`. When a PartialActivation is supplied, it indicates that some or all of the data
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// provided in the input is unknown by specifying unknown AttributePatterns. An AttributePattern
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// that refers to variable `a` with a string qualifier of `c` will not match `a.b`; however, any
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// of the following patterns will match Attribute `a.b`:
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//
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// - `AttributePattern("a")`
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// - `AttributePattern("a").Wildcard()`
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// - `AttributePattern("a").QualString("b")`
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// - `AttributePattern("a").QualString("b").QualInt(0)`
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//
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// Any AttributePattern which overlaps an Attribute or vice-versa will produce an Unknown result
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// for the last pattern matched variable or qualifier in the Attribute. In the first matching
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// example, the expression id representing variable `a` would be listed in the Unknown result,
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// whereas in the other pattern examples, the qualifier `b` would be returned as the Unknown.
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func (fac *partialAttributeFactory) matchesUnknownPatterns(
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vars PartialActivation,
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attrID int64,
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variableNames []string,
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qualifiers []Qualifier) (*types.Unknown, error) {
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patterns := vars.UnknownAttributePatterns()
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candidateIndices := map[int]struct{}{}
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for _, variable := range variableNames {
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for i, pat := range patterns {
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if pat.VariableMatches(variable) {
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if len(qualifiers) == 0 {
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return types.NewUnknown(attrID, types.NewAttributeTrail(variable)), nil
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}
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candidateIndices[i] = struct{}{}
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}
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}
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}
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// Determine whether to return early if there are no candidate unknown patterns.
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if len(candidateIndices) == 0 {
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return nil, nil
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}
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// Resolve the attribute qualifiers into a static set. This prevents more dynamic
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// Attribute resolutions than necessary when there are multiple unknown patterns
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// that traverse the same Attribute-based qualifier field.
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newQuals := make([]Qualifier, len(qualifiers))
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for i, qual := range qualifiers {
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attr, isAttr := qual.(Attribute)
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if isAttr {
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val, err := attr.Resolve(vars)
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if err != nil {
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return nil, err
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}
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// If this resolution behavior ever changes, new implementations of the
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// qualifierValueEquator may be required to handle proper resolution.
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qual, err = fac.NewQualifier(nil, qual.ID(), val, attr.IsOptional())
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if err != nil {
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return nil, err
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}
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}
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newQuals[i] = qual
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}
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// Determine whether any of the unknown patterns match.
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for patIdx := range candidateIndices {
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pat := patterns[patIdx]
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isUnk := true
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matchExprID := attrID
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qualPats := pat.QualifierPatterns()
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for i, qual := range newQuals {
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if i >= len(qualPats) {
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break
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}
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matchExprID = qual.ID()
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qualPat := qualPats[i]
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// Note, the AttributeQualifierPattern relies on the input Qualifier not being an
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// Attribute, since there is no way to resolve the Attribute with the information
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// provided to the Matches call.
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if !qualPat.Matches(qual) {
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isUnk = false
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break
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}
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}
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if isUnk {
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attr := types.NewAttributeTrail(pat.variable)
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for i := 0; i < len(qualPats) && i < len(newQuals); i++ {
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if qual, ok := newQuals[i].(ConstantQualifier); ok {
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switch v := qual.Value().Value().(type) {
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case bool:
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types.QualifyAttribute[bool](attr, v)
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case float64:
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types.QualifyAttribute[int64](attr, int64(v))
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case int64:
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types.QualifyAttribute[int64](attr, v)
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case string:
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types.QualifyAttribute[string](attr, v)
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case uint64:
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types.QualifyAttribute[uint64](attr, v)
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default:
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types.QualifyAttribute[string](attr, fmt.Sprintf("%v", v))
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}
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} else {
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types.QualifyAttribute[string](attr, "*")
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}
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}
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return types.NewUnknown(matchExprID, attr), nil
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}
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}
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return nil, nil
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}
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// attributeMatcher embeds the NamespacedAttribute interface which allows it to participate in
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// AttributePattern matching against Attribute values without having to modify the code paths that
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// identify Attributes in expressions.
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type attributeMatcher struct {
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NamespacedAttribute
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qualifiers []Qualifier
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fac *partialAttributeFactory
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}
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// AddQualifier implements the Attribute interface method.
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func (m *attributeMatcher) AddQualifier(qual Qualifier) (Attribute, error) {
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// Add the qualifier to the embedded NamespacedAttribute. If the input to the Resolve
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// method is not a PartialActivation, or does not match an unknown attribute pattern, the
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// Resolve method is directly invoked on the underlying NamespacedAttribute.
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_, err := m.NamespacedAttribute.AddQualifier(qual)
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if err != nil {
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return nil, err
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}
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// The attributeMatcher overloads TryResolve and will attempt to match unknown patterns against
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// the variable name and qualifier set contained within the Attribute. These values are not
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// directly inspectable on the top-level NamespacedAttribute interface and so are tracked within
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// the attributeMatcher.
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m.qualifiers = append(m.qualifiers, qual)
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return m, nil
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}
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// Resolve is an implementation of the NamespacedAttribute interface method which tests
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// for matching unknown attribute patterns and returns types.Unknown if present. Otherwise,
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// the standard Resolve logic applies.
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func (m *attributeMatcher) Resolve(vars Activation) (any, error) {
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id := m.NamespacedAttribute.ID()
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// Bug in how partial activation is resolved, should search parents as well.
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partial, isPartial := toPartialActivation(vars)
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if isPartial {
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unk, err := m.fac.matchesUnknownPatterns(
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partial,
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id,
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m.CandidateVariableNames(),
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m.qualifiers)
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if err != nil {
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return nil, err
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}
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if unk != nil {
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return unk, nil
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}
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}
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return m.NamespacedAttribute.Resolve(vars)
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}
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// Qualify is an implementation of the Qualifier interface method.
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func (m *attributeMatcher) Qualify(vars Activation, obj any) (any, error) {
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return attrQualify(m.fac, vars, obj, m)
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}
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// QualifyIfPresent is an implementation of the Qualifier interface method.
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func (m *attributeMatcher) QualifyIfPresent(vars Activation, obj any, presenceOnly bool) (any, bool, error) {
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return attrQualifyIfPresent(m.fac, vars, obj, m, presenceOnly)
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}
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func toPartialActivation(vars Activation) (PartialActivation, bool) {
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pv, ok := vars.(PartialActivation)
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if ok {
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return pv, true
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}
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if vars.Parent() != nil {
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return toPartialActivation(vars.Parent())
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}
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return nil, false
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}
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