mirror of
https://github.com/ceph/ceph-csi.git
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c4f79d455f
As kubernetes 1.24.0 is released, updating kubernetes dependencies to 1.24.0 updates: #3086 Signed-off-by: Madhu Rajanna <madhupr007@gmail.com>
957 lines
30 KiB
Go
957 lines
30 KiB
Go
/*
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Copyright 2014 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 labels
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import (
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"fmt"
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"sort"
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"strconv"
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"strings"
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"k8s.io/apimachinery/pkg/selection"
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"k8s.io/apimachinery/pkg/util/sets"
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"k8s.io/apimachinery/pkg/util/validation"
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"k8s.io/apimachinery/pkg/util/validation/field"
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"k8s.io/klog/v2"
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stringslices "k8s.io/utils/strings/slices"
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)
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var (
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unaryOperators = []string{
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string(selection.Exists), string(selection.DoesNotExist),
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}
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binaryOperators = []string{
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string(selection.In), string(selection.NotIn),
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string(selection.Equals), string(selection.DoubleEquals), string(selection.NotEquals),
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string(selection.GreaterThan), string(selection.LessThan),
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}
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validRequirementOperators = append(binaryOperators, unaryOperators...)
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)
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// Requirements is AND of all requirements.
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type Requirements []Requirement
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// Selector represents a label selector.
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type Selector interface {
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// Matches returns true if this selector matches the given set of labels.
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Matches(Labels) bool
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// Empty returns true if this selector does not restrict the selection space.
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Empty() bool
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// String returns a human readable string that represents this selector.
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String() string
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// Add adds requirements to the Selector
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Add(r ...Requirement) Selector
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// Requirements converts this interface into Requirements to expose
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// more detailed selection information.
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// If there are querying parameters, it will return converted requirements and selectable=true.
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// If this selector doesn't want to select anything, it will return selectable=false.
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Requirements() (requirements Requirements, selectable bool)
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// Make a deep copy of the selector.
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DeepCopySelector() Selector
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// RequiresExactMatch allows a caller to introspect whether a given selector
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// requires a single specific label to be set, and if so returns the value it
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// requires.
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RequiresExactMatch(label string) (value string, found bool)
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}
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// Everything returns a selector that matches all labels.
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func Everything() Selector {
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return internalSelector{}
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}
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type nothingSelector struct{}
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func (n nothingSelector) Matches(_ Labels) bool { return false }
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func (n nothingSelector) Empty() bool { return false }
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func (n nothingSelector) String() string { return "" }
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func (n nothingSelector) Add(_ ...Requirement) Selector { return n }
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func (n nothingSelector) Requirements() (Requirements, bool) { return nil, false }
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func (n nothingSelector) DeepCopySelector() Selector { return n }
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func (n nothingSelector) RequiresExactMatch(label string) (value string, found bool) {
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return "", false
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}
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// Nothing returns a selector that matches no labels
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func Nothing() Selector {
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return nothingSelector{}
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}
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// NewSelector returns a nil selector
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func NewSelector() Selector {
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return internalSelector(nil)
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}
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type internalSelector []Requirement
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func (s internalSelector) DeepCopy() internalSelector {
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if s == nil {
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return nil
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}
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result := make([]Requirement, len(s))
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for i := range s {
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s[i].DeepCopyInto(&result[i])
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}
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return result
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}
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func (s internalSelector) DeepCopySelector() Selector {
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return s.DeepCopy()
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}
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// ByKey sorts requirements by key to obtain deterministic parser
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type ByKey []Requirement
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func (a ByKey) Len() int { return len(a) }
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func (a ByKey) Swap(i, j int) { a[i], a[j] = a[j], a[i] }
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func (a ByKey) Less(i, j int) bool { return a[i].key < a[j].key }
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// Requirement contains values, a key, and an operator that relates the key and values.
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// The zero value of Requirement is invalid.
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// Requirement implements both set based match and exact match
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// Requirement should be initialized via NewRequirement constructor for creating a valid Requirement.
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// +k8s:deepcopy-gen=true
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type Requirement struct {
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key string
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operator selection.Operator
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// In huge majority of cases we have at most one value here.
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// It is generally faster to operate on a single-element slice
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// than on a single-element map, so we have a slice here.
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strValues []string
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}
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// NewRequirement is the constructor for a Requirement.
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// If any of these rules is violated, an error is returned:
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// (1) The operator can only be In, NotIn, Equals, DoubleEquals, Gt, Lt, NotEquals, Exists, or DoesNotExist.
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// (2) If the operator is In or NotIn, the values set must be non-empty.
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// (3) If the operator is Equals, DoubleEquals, or NotEquals, the values set must contain one value.
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// (4) If the operator is Exists or DoesNotExist, the value set must be empty.
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// (5) If the operator is Gt or Lt, the values set must contain only one value, which will be interpreted as an integer.
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// (6) The key is invalid due to its length, or sequence
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// of characters. See validateLabelKey for more details.
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//
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// The empty string is a valid value in the input values set.
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// Returned error, if not nil, is guaranteed to be an aggregated field.ErrorList
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func NewRequirement(key string, op selection.Operator, vals []string, opts ...field.PathOption) (*Requirement, error) {
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var allErrs field.ErrorList
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path := field.ToPath(opts...)
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if err := validateLabelKey(key, path.Child("key")); err != nil {
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allErrs = append(allErrs, err)
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}
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valuePath := path.Child("values")
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switch op {
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case selection.In, selection.NotIn:
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if len(vals) == 0 {
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allErrs = append(allErrs, field.Invalid(valuePath, vals, "for 'in', 'notin' operators, values set can't be empty"))
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}
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case selection.Equals, selection.DoubleEquals, selection.NotEquals:
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if len(vals) != 1 {
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allErrs = append(allErrs, field.Invalid(valuePath, vals, "exact-match compatibility requires one single value"))
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}
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case selection.Exists, selection.DoesNotExist:
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if len(vals) != 0 {
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allErrs = append(allErrs, field.Invalid(valuePath, vals, "values set must be empty for exists and does not exist"))
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}
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case selection.GreaterThan, selection.LessThan:
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if len(vals) != 1 {
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allErrs = append(allErrs, field.Invalid(valuePath, vals, "for 'Gt', 'Lt' operators, exactly one value is required"))
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}
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for i := range vals {
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if _, err := strconv.ParseInt(vals[i], 10, 64); err != nil {
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allErrs = append(allErrs, field.Invalid(valuePath.Index(i), vals[i], "for 'Gt', 'Lt' operators, the value must be an integer"))
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}
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}
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default:
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allErrs = append(allErrs, field.NotSupported(path.Child("operator"), op, validRequirementOperators))
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}
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for i := range vals {
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if err := validateLabelValue(key, vals[i], valuePath.Index(i)); err != nil {
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allErrs = append(allErrs, err)
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}
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}
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return &Requirement{key: key, operator: op, strValues: vals}, allErrs.ToAggregate()
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}
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func (r *Requirement) hasValue(value string) bool {
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for i := range r.strValues {
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if r.strValues[i] == value {
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return true
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}
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}
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return false
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}
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// Matches returns true if the Requirement matches the input Labels.
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// There is a match in the following cases:
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// (1) The operator is Exists and Labels has the Requirement's key.
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// (2) The operator is In, Labels has the Requirement's key and Labels'
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// value for that key is in Requirement's value set.
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// (3) The operator is NotIn, Labels has the Requirement's key and
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// Labels' value for that key is not in Requirement's value set.
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// (4) The operator is DoesNotExist or NotIn and Labels does not have the
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// Requirement's key.
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// (5) The operator is GreaterThanOperator or LessThanOperator, and Labels has
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// the Requirement's key and the corresponding value satisfies mathematical inequality.
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func (r *Requirement) Matches(ls Labels) bool {
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switch r.operator {
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case selection.In, selection.Equals, selection.DoubleEquals:
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if !ls.Has(r.key) {
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return false
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}
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return r.hasValue(ls.Get(r.key))
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case selection.NotIn, selection.NotEquals:
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if !ls.Has(r.key) {
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return true
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}
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return !r.hasValue(ls.Get(r.key))
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case selection.Exists:
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return ls.Has(r.key)
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case selection.DoesNotExist:
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return !ls.Has(r.key)
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case selection.GreaterThan, selection.LessThan:
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if !ls.Has(r.key) {
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return false
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}
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lsValue, err := strconv.ParseInt(ls.Get(r.key), 10, 64)
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if err != nil {
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klog.V(10).Infof("ParseInt failed for value %+v in label %+v, %+v", ls.Get(r.key), ls, err)
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return false
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}
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// There should be only one strValue in r.strValues, and can be converted to an integer.
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if len(r.strValues) != 1 {
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klog.V(10).Infof("Invalid values count %+v of requirement %#v, for 'Gt', 'Lt' operators, exactly one value is required", len(r.strValues), r)
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return false
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}
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var rValue int64
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for i := range r.strValues {
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rValue, err = strconv.ParseInt(r.strValues[i], 10, 64)
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if err != nil {
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klog.V(10).Infof("ParseInt failed for value %+v in requirement %#v, for 'Gt', 'Lt' operators, the value must be an integer", r.strValues[i], r)
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return false
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}
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}
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return (r.operator == selection.GreaterThan && lsValue > rValue) || (r.operator == selection.LessThan && lsValue < rValue)
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default:
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return false
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}
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}
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// Key returns requirement key
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func (r *Requirement) Key() string {
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return r.key
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}
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// Operator returns requirement operator
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func (r *Requirement) Operator() selection.Operator {
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return r.operator
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}
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// Values returns requirement values
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func (r *Requirement) Values() sets.String {
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ret := sets.String{}
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for i := range r.strValues {
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ret.Insert(r.strValues[i])
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}
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return ret
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}
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// Equal checks the equality of requirement.
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func (r Requirement) Equal(x Requirement) bool {
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if r.key != x.key {
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return false
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}
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if r.operator != x.operator {
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return false
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}
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return stringslices.Equal(r.strValues, x.strValues)
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}
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// Empty returns true if the internalSelector doesn't restrict selection space
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func (s internalSelector) Empty() bool {
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if s == nil {
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return true
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}
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return len(s) == 0
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}
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// String returns a human-readable string that represents this
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// Requirement. If called on an invalid Requirement, an error is
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// returned. See NewRequirement for creating a valid Requirement.
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func (r *Requirement) String() string {
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var sb strings.Builder
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sb.Grow(
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// length of r.key
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len(r.key) +
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// length of 'r.operator' + 2 spaces for the worst case ('in' and 'notin')
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len(r.operator) + 2 +
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// length of 'r.strValues' slice times. Heuristically 5 chars per word
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+5*len(r.strValues))
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if r.operator == selection.DoesNotExist {
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sb.WriteString("!")
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}
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sb.WriteString(r.key)
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switch r.operator {
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case selection.Equals:
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sb.WriteString("=")
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case selection.DoubleEquals:
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sb.WriteString("==")
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case selection.NotEquals:
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sb.WriteString("!=")
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case selection.In:
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sb.WriteString(" in ")
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case selection.NotIn:
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sb.WriteString(" notin ")
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case selection.GreaterThan:
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sb.WriteString(">")
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case selection.LessThan:
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sb.WriteString("<")
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case selection.Exists, selection.DoesNotExist:
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return sb.String()
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}
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switch r.operator {
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case selection.In, selection.NotIn:
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sb.WriteString("(")
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}
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if len(r.strValues) == 1 {
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sb.WriteString(r.strValues[0])
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} else { // only > 1 since == 0 prohibited by NewRequirement
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// normalizes value order on output, without mutating the in-memory selector representation
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// also avoids normalization when it is not required, and ensures we do not mutate shared data
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sb.WriteString(strings.Join(safeSort(r.strValues), ","))
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}
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switch r.operator {
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case selection.In, selection.NotIn:
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sb.WriteString(")")
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}
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return sb.String()
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}
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// safeSort sorts input strings without modification
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func safeSort(in []string) []string {
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if sort.StringsAreSorted(in) {
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return in
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}
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out := make([]string, len(in))
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copy(out, in)
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sort.Strings(out)
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return out
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}
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// Add adds requirements to the selector. It copies the current selector returning a new one
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func (s internalSelector) Add(reqs ...Requirement) Selector {
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ret := make(internalSelector, 0, len(s)+len(reqs))
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ret = append(ret, s...)
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ret = append(ret, reqs...)
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sort.Sort(ByKey(ret))
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return ret
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}
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// Matches for a internalSelector returns true if all
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// its Requirements match the input Labels. If any
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// Requirement does not match, false is returned.
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func (s internalSelector) Matches(l Labels) bool {
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for ix := range s {
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if matches := s[ix].Matches(l); !matches {
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return false
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}
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}
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return true
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}
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func (s internalSelector) Requirements() (Requirements, bool) { return Requirements(s), true }
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// String returns a comma-separated string of all
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// the internalSelector Requirements' human-readable strings.
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func (s internalSelector) String() string {
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var reqs []string
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for ix := range s {
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reqs = append(reqs, s[ix].String())
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}
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return strings.Join(reqs, ",")
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}
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// RequiresExactMatch introspects whether a given selector requires a single specific field
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// to be set, and if so returns the value it requires.
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func (s internalSelector) RequiresExactMatch(label string) (value string, found bool) {
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for ix := range s {
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if s[ix].key == label {
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switch s[ix].operator {
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case selection.Equals, selection.DoubleEquals, selection.In:
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if len(s[ix].strValues) == 1 {
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return s[ix].strValues[0], true
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}
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}
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return "", false
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}
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}
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return "", false
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}
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// Token represents constant definition for lexer token
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type Token int
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const (
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// ErrorToken represents scan error
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ErrorToken Token = iota
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// EndOfStringToken represents end of string
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EndOfStringToken
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// ClosedParToken represents close parenthesis
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ClosedParToken
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// CommaToken represents the comma
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CommaToken
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// DoesNotExistToken represents logic not
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DoesNotExistToken
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// DoubleEqualsToken represents double equals
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DoubleEqualsToken
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// EqualsToken represents equal
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EqualsToken
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// GreaterThanToken represents greater than
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GreaterThanToken
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// IdentifierToken represents identifier, e.g. keys and values
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IdentifierToken
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// InToken represents in
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InToken
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// LessThanToken represents less than
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LessThanToken
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// NotEqualsToken represents not equal
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NotEqualsToken
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// NotInToken represents not in
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NotInToken
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// OpenParToken represents open parenthesis
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OpenParToken
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)
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// string2token contains the mapping between lexer Token and token literal
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// (except IdentifierToken, EndOfStringToken and ErrorToken since it makes no sense)
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var string2token = map[string]Token{
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")": ClosedParToken,
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",": CommaToken,
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"!": DoesNotExistToken,
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"==": DoubleEqualsToken,
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"=": EqualsToken,
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">": GreaterThanToken,
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"in": InToken,
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"<": LessThanToken,
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"!=": NotEqualsToken,
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"notin": NotInToken,
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"(": OpenParToken,
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}
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// ScannedItem contains the Token and the literal produced by the lexer.
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type ScannedItem struct {
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tok Token
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literal string
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}
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// isWhitespace returns true if the rune is a space, tab, or newline.
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func isWhitespace(ch byte) bool {
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return ch == ' ' || ch == '\t' || ch == '\r' || ch == '\n'
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}
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// isSpecialSymbol detects if the character ch can be an operator
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func isSpecialSymbol(ch byte) bool {
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switch ch {
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case '=', '!', '(', ')', ',', '>', '<':
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return true
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}
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return false
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}
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// Lexer represents the Lexer struct for label selector.
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// It contains necessary informationt to tokenize the input string
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type Lexer struct {
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// s stores the string to be tokenized
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s string
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// pos is the position currently tokenized
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pos int
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}
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// read returns the character currently lexed
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// increment the position and check the buffer overflow
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func (l *Lexer) read() (b byte) {
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b = 0
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if l.pos < len(l.s) {
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b = l.s[l.pos]
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l.pos++
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}
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return b
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}
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// unread 'undoes' the last read character
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func (l *Lexer) unread() {
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l.pos--
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}
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|
|
// scanIDOrKeyword scans string to recognize literal token (for example 'in') or an identifier.
|
|
func (l *Lexer) scanIDOrKeyword() (tok Token, lit string) {
|
|
var buffer []byte
|
|
IdentifierLoop:
|
|
for {
|
|
switch ch := l.read(); {
|
|
case ch == 0:
|
|
break IdentifierLoop
|
|
case isSpecialSymbol(ch) || isWhitespace(ch):
|
|
l.unread()
|
|
break IdentifierLoop
|
|
default:
|
|
buffer = append(buffer, ch)
|
|
}
|
|
}
|
|
s := string(buffer)
|
|
if val, ok := string2token[s]; ok { // is a literal token?
|
|
return val, s
|
|
}
|
|
return IdentifierToken, s // otherwise is an identifier
|
|
}
|
|
|
|
// scanSpecialSymbol scans string starting with special symbol.
|
|
// special symbol identify non literal operators. "!=", "==", "="
|
|
func (l *Lexer) scanSpecialSymbol() (Token, string) {
|
|
lastScannedItem := ScannedItem{}
|
|
var buffer []byte
|
|
SpecialSymbolLoop:
|
|
for {
|
|
switch ch := l.read(); {
|
|
case ch == 0:
|
|
break SpecialSymbolLoop
|
|
case isSpecialSymbol(ch):
|
|
buffer = append(buffer, ch)
|
|
if token, ok := string2token[string(buffer)]; ok {
|
|
lastScannedItem = ScannedItem{tok: token, literal: string(buffer)}
|
|
} else if lastScannedItem.tok != 0 {
|
|
l.unread()
|
|
break SpecialSymbolLoop
|
|
}
|
|
default:
|
|
l.unread()
|
|
break SpecialSymbolLoop
|
|
}
|
|
}
|
|
if lastScannedItem.tok == 0 {
|
|
return ErrorToken, fmt.Sprintf("error expected: keyword found '%s'", buffer)
|
|
}
|
|
return lastScannedItem.tok, lastScannedItem.literal
|
|
}
|
|
|
|
// skipWhiteSpaces consumes all blank characters
|
|
// returning the first non blank character
|
|
func (l *Lexer) skipWhiteSpaces(ch byte) byte {
|
|
for {
|
|
if !isWhitespace(ch) {
|
|
return ch
|
|
}
|
|
ch = l.read()
|
|
}
|
|
}
|
|
|
|
// Lex returns a pair of Token and the literal
|
|
// literal is meaningfull only for IdentifierToken token
|
|
func (l *Lexer) Lex() (tok Token, lit string) {
|
|
switch ch := l.skipWhiteSpaces(l.read()); {
|
|
case ch == 0:
|
|
return EndOfStringToken, ""
|
|
case isSpecialSymbol(ch):
|
|
l.unread()
|
|
return l.scanSpecialSymbol()
|
|
default:
|
|
l.unread()
|
|
return l.scanIDOrKeyword()
|
|
}
|
|
}
|
|
|
|
// Parser data structure contains the label selector parser data structure
|
|
type Parser struct {
|
|
l *Lexer
|
|
scannedItems []ScannedItem
|
|
position int
|
|
path *field.Path
|
|
}
|
|
|
|
// ParserContext represents context during parsing:
|
|
// some literal for example 'in' and 'notin' can be
|
|
// recognized as operator for example 'x in (a)' but
|
|
// it can be recognized as value for example 'value in (in)'
|
|
type ParserContext int
|
|
|
|
const (
|
|
// KeyAndOperator represents key and operator
|
|
KeyAndOperator ParserContext = iota
|
|
// Values represents values
|
|
Values
|
|
)
|
|
|
|
// lookahead func returns the current token and string. No increment of current position
|
|
func (p *Parser) lookahead(context ParserContext) (Token, string) {
|
|
tok, lit := p.scannedItems[p.position].tok, p.scannedItems[p.position].literal
|
|
if context == Values {
|
|
switch tok {
|
|
case InToken, NotInToken:
|
|
tok = IdentifierToken
|
|
}
|
|
}
|
|
return tok, lit
|
|
}
|
|
|
|
// consume returns current token and string. Increments the position
|
|
func (p *Parser) consume(context ParserContext) (Token, string) {
|
|
p.position++
|
|
tok, lit := p.scannedItems[p.position-1].tok, p.scannedItems[p.position-1].literal
|
|
if context == Values {
|
|
switch tok {
|
|
case InToken, NotInToken:
|
|
tok = IdentifierToken
|
|
}
|
|
}
|
|
return tok, lit
|
|
}
|
|
|
|
// scan runs through the input string and stores the ScannedItem in an array
|
|
// Parser can now lookahead and consume the tokens
|
|
func (p *Parser) scan() {
|
|
for {
|
|
token, literal := p.l.Lex()
|
|
p.scannedItems = append(p.scannedItems, ScannedItem{token, literal})
|
|
if token == EndOfStringToken {
|
|
break
|
|
}
|
|
}
|
|
}
|
|
|
|
// parse runs the left recursive descending algorithm
|
|
// on input string. It returns a list of Requirement objects.
|
|
func (p *Parser) parse() (internalSelector, error) {
|
|
p.scan() // init scannedItems
|
|
|
|
var requirements internalSelector
|
|
for {
|
|
tok, lit := p.lookahead(Values)
|
|
switch tok {
|
|
case IdentifierToken, DoesNotExistToken:
|
|
r, err := p.parseRequirement()
|
|
if err != nil {
|
|
return nil, fmt.Errorf("unable to parse requirement: %v", err)
|
|
}
|
|
requirements = append(requirements, *r)
|
|
t, l := p.consume(Values)
|
|
switch t {
|
|
case EndOfStringToken:
|
|
return requirements, nil
|
|
case CommaToken:
|
|
t2, l2 := p.lookahead(Values)
|
|
if t2 != IdentifierToken && t2 != DoesNotExistToken {
|
|
return nil, fmt.Errorf("found '%s', expected: identifier after ','", l2)
|
|
}
|
|
default:
|
|
return nil, fmt.Errorf("found '%s', expected: ',' or 'end of string'", l)
|
|
}
|
|
case EndOfStringToken:
|
|
return requirements, nil
|
|
default:
|
|
return nil, fmt.Errorf("found '%s', expected: !, identifier, or 'end of string'", lit)
|
|
}
|
|
}
|
|
}
|
|
|
|
func (p *Parser) parseRequirement() (*Requirement, error) {
|
|
key, operator, err := p.parseKeyAndInferOperator()
|
|
if err != nil {
|
|
return nil, err
|
|
}
|
|
if operator == selection.Exists || operator == selection.DoesNotExist { // operator found lookahead set checked
|
|
return NewRequirement(key, operator, []string{}, field.WithPath(p.path))
|
|
}
|
|
operator, err = p.parseOperator()
|
|
if err != nil {
|
|
return nil, err
|
|
}
|
|
var values sets.String
|
|
switch operator {
|
|
case selection.In, selection.NotIn:
|
|
values, err = p.parseValues()
|
|
case selection.Equals, selection.DoubleEquals, selection.NotEquals, selection.GreaterThan, selection.LessThan:
|
|
values, err = p.parseExactValue()
|
|
}
|
|
if err != nil {
|
|
return nil, err
|
|
}
|
|
return NewRequirement(key, operator, values.List(), field.WithPath(p.path))
|
|
|
|
}
|
|
|
|
// parseKeyAndInferOperator parses literals.
|
|
// in case of no operator '!, in, notin, ==, =, !=' are found
|
|
// the 'exists' operator is inferred
|
|
func (p *Parser) parseKeyAndInferOperator() (string, selection.Operator, error) {
|
|
var operator selection.Operator
|
|
tok, literal := p.consume(Values)
|
|
if tok == DoesNotExistToken {
|
|
operator = selection.DoesNotExist
|
|
tok, literal = p.consume(Values)
|
|
}
|
|
if tok != IdentifierToken {
|
|
err := fmt.Errorf("found '%s', expected: identifier", literal)
|
|
return "", "", err
|
|
}
|
|
if err := validateLabelKey(literal, p.path); err != nil {
|
|
return "", "", err
|
|
}
|
|
if t, _ := p.lookahead(Values); t == EndOfStringToken || t == CommaToken {
|
|
if operator != selection.DoesNotExist {
|
|
operator = selection.Exists
|
|
}
|
|
}
|
|
return literal, operator, nil
|
|
}
|
|
|
|
// parseOperator returns operator and eventually matchType
|
|
// matchType can be exact
|
|
func (p *Parser) parseOperator() (op selection.Operator, err error) {
|
|
tok, lit := p.consume(KeyAndOperator)
|
|
switch tok {
|
|
// DoesNotExistToken shouldn't be here because it's a unary operator, not a binary operator
|
|
case InToken:
|
|
op = selection.In
|
|
case EqualsToken:
|
|
op = selection.Equals
|
|
case DoubleEqualsToken:
|
|
op = selection.DoubleEquals
|
|
case GreaterThanToken:
|
|
op = selection.GreaterThan
|
|
case LessThanToken:
|
|
op = selection.LessThan
|
|
case NotInToken:
|
|
op = selection.NotIn
|
|
case NotEqualsToken:
|
|
op = selection.NotEquals
|
|
default:
|
|
return "", fmt.Errorf("found '%s', expected: %v", lit, strings.Join(binaryOperators, ", "))
|
|
}
|
|
return op, nil
|
|
}
|
|
|
|
// parseValues parses the values for set based matching (x,y,z)
|
|
func (p *Parser) parseValues() (sets.String, error) {
|
|
tok, lit := p.consume(Values)
|
|
if tok != OpenParToken {
|
|
return nil, fmt.Errorf("found '%s' expected: '('", lit)
|
|
}
|
|
tok, lit = p.lookahead(Values)
|
|
switch tok {
|
|
case IdentifierToken, CommaToken:
|
|
s, err := p.parseIdentifiersList() // handles general cases
|
|
if err != nil {
|
|
return s, err
|
|
}
|
|
if tok, _ = p.consume(Values); tok != ClosedParToken {
|
|
return nil, fmt.Errorf("found '%s', expected: ')'", lit)
|
|
}
|
|
return s, nil
|
|
case ClosedParToken: // handles "()"
|
|
p.consume(Values)
|
|
return sets.NewString(""), nil
|
|
default:
|
|
return nil, fmt.Errorf("found '%s', expected: ',', ')' or identifier", lit)
|
|
}
|
|
}
|
|
|
|
// parseIdentifiersList parses a (possibly empty) list of
|
|
// of comma separated (possibly empty) identifiers
|
|
func (p *Parser) parseIdentifiersList() (sets.String, error) {
|
|
s := sets.NewString()
|
|
for {
|
|
tok, lit := p.consume(Values)
|
|
switch tok {
|
|
case IdentifierToken:
|
|
s.Insert(lit)
|
|
tok2, lit2 := p.lookahead(Values)
|
|
switch tok2 {
|
|
case CommaToken:
|
|
continue
|
|
case ClosedParToken:
|
|
return s, nil
|
|
default:
|
|
return nil, fmt.Errorf("found '%s', expected: ',' or ')'", lit2)
|
|
}
|
|
case CommaToken: // handled here since we can have "(,"
|
|
if s.Len() == 0 {
|
|
s.Insert("") // to handle (,
|
|
}
|
|
tok2, _ := p.lookahead(Values)
|
|
if tok2 == ClosedParToken {
|
|
s.Insert("") // to handle ,) Double "" removed by StringSet
|
|
return s, nil
|
|
}
|
|
if tok2 == CommaToken {
|
|
p.consume(Values)
|
|
s.Insert("") // to handle ,, Double "" removed by StringSet
|
|
}
|
|
default: // it can be operator
|
|
return s, fmt.Errorf("found '%s', expected: ',', or identifier", lit)
|
|
}
|
|
}
|
|
}
|
|
|
|
// parseExactValue parses the only value for exact match style
|
|
func (p *Parser) parseExactValue() (sets.String, error) {
|
|
s := sets.NewString()
|
|
tok, _ := p.lookahead(Values)
|
|
if tok == EndOfStringToken || tok == CommaToken {
|
|
s.Insert("")
|
|
return s, nil
|
|
}
|
|
tok, lit := p.consume(Values)
|
|
if tok == IdentifierToken {
|
|
s.Insert(lit)
|
|
return s, nil
|
|
}
|
|
return nil, fmt.Errorf("found '%s', expected: identifier", lit)
|
|
}
|
|
|
|
// Parse takes a string representing a selector and returns a selector
|
|
// object, or an error. This parsing function differs from ParseSelector
|
|
// as they parse different selectors with different syntaxes.
|
|
// The input will cause an error if it does not follow this form:
|
|
//
|
|
// <selector-syntax> ::= <requirement> | <requirement> "," <selector-syntax>
|
|
// <requirement> ::= [!] KEY [ <set-based-restriction> | <exact-match-restriction> ]
|
|
// <set-based-restriction> ::= "" | <inclusion-exclusion> <value-set>
|
|
// <inclusion-exclusion> ::= <inclusion> | <exclusion>
|
|
// <exclusion> ::= "notin"
|
|
// <inclusion> ::= "in"
|
|
// <value-set> ::= "(" <values> ")"
|
|
// <values> ::= VALUE | VALUE "," <values>
|
|
// <exact-match-restriction> ::= ["="|"=="|"!="] VALUE
|
|
//
|
|
// KEY is a sequence of one or more characters following [ DNS_SUBDOMAIN "/" ] DNS_LABEL. Max length is 63 characters.
|
|
// VALUE is a sequence of zero or more characters "([A-Za-z0-9_-\.])". Max length is 63 characters.
|
|
// Delimiter is white space: (' ', '\t')
|
|
// Example of valid syntax:
|
|
// "x in (foo,,baz),y,z notin ()"
|
|
//
|
|
// Note:
|
|
// (1) Inclusion - " in " - denotes that the KEY exists and is equal to any of the
|
|
// VALUEs in its requirement
|
|
// (2) Exclusion - " notin " - denotes that the KEY is not equal to any
|
|
// of the VALUEs in its requirement or does not exist
|
|
// (3) The empty string is a valid VALUE
|
|
// (4) A requirement with just a KEY - as in "y" above - denotes that
|
|
// the KEY exists and can be any VALUE.
|
|
// (5) A requirement with just !KEY requires that the KEY not exist.
|
|
//
|
|
func Parse(selector string, opts ...field.PathOption) (Selector, error) {
|
|
parsedSelector, err := parse(selector, field.ToPath(opts...))
|
|
if err == nil {
|
|
return parsedSelector, nil
|
|
}
|
|
return nil, err
|
|
}
|
|
|
|
// parse parses the string representation of the selector and returns the internalSelector struct.
|
|
// The callers of this method can then decide how to return the internalSelector struct to their
|
|
// callers. This function has two callers now, one returns a Selector interface and the other
|
|
// returns a list of requirements.
|
|
func parse(selector string, path *field.Path) (internalSelector, error) {
|
|
p := &Parser{l: &Lexer{s: selector, pos: 0}, path: path}
|
|
items, err := p.parse()
|
|
if err != nil {
|
|
return nil, err
|
|
}
|
|
sort.Sort(ByKey(items)) // sort to grant determistic parsing
|
|
return internalSelector(items), err
|
|
}
|
|
|
|
func validateLabelKey(k string, path *field.Path) *field.Error {
|
|
if errs := validation.IsQualifiedName(k); len(errs) != 0 {
|
|
return field.Invalid(path, k, strings.Join(errs, "; "))
|
|
}
|
|
return nil
|
|
}
|
|
|
|
func validateLabelValue(k, v string, path *field.Path) *field.Error {
|
|
if errs := validation.IsValidLabelValue(v); len(errs) != 0 {
|
|
return field.Invalid(path.Key(k), v, strings.Join(errs, "; "))
|
|
}
|
|
return nil
|
|
}
|
|
|
|
// SelectorFromSet returns a Selector which will match exactly the given Set. A
|
|
// nil and empty Sets are considered equivalent to Everything().
|
|
// It does not perform any validation, which means the server will reject
|
|
// the request if the Set contains invalid values.
|
|
func SelectorFromSet(ls Set) Selector {
|
|
return SelectorFromValidatedSet(ls)
|
|
}
|
|
|
|
// ValidatedSelectorFromSet returns a Selector which will match exactly the given Set. A
|
|
// nil and empty Sets are considered equivalent to Everything().
|
|
// The Set is validated client-side, which allows to catch errors early.
|
|
func ValidatedSelectorFromSet(ls Set) (Selector, error) {
|
|
if ls == nil || len(ls) == 0 {
|
|
return internalSelector{}, nil
|
|
}
|
|
requirements := make([]Requirement, 0, len(ls))
|
|
for label, value := range ls {
|
|
r, err := NewRequirement(label, selection.Equals, []string{value})
|
|
if err != nil {
|
|
return nil, err
|
|
}
|
|
requirements = append(requirements, *r)
|
|
}
|
|
// sort to have deterministic string representation
|
|
sort.Sort(ByKey(requirements))
|
|
return internalSelector(requirements), nil
|
|
}
|
|
|
|
// SelectorFromValidatedSet returns a Selector which will match exactly the given Set.
|
|
// A nil and empty Sets are considered equivalent to Everything().
|
|
// It assumes that Set is already validated and doesn't do any validation.
|
|
func SelectorFromValidatedSet(ls Set) Selector {
|
|
if ls == nil || len(ls) == 0 {
|
|
return internalSelector{}
|
|
}
|
|
requirements := make([]Requirement, 0, len(ls))
|
|
for label, value := range ls {
|
|
requirements = append(requirements, Requirement{key: label, operator: selection.Equals, strValues: []string{value}})
|
|
}
|
|
// sort to have deterministic string representation
|
|
sort.Sort(ByKey(requirements))
|
|
return internalSelector(requirements)
|
|
}
|
|
|
|
// ParseToRequirements takes a string representing a selector and returns a list of
|
|
// requirements. This function is suitable for those callers that perform additional
|
|
// processing on selector requirements.
|
|
// See the documentation for Parse() function for more details.
|
|
// TODO: Consider exporting the internalSelector type instead.
|
|
func ParseToRequirements(selector string, opts ...field.PathOption) ([]Requirement, error) {
|
|
return parse(selector, field.ToPath(opts...))
|
|
}
|