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diff --git a/vendor/sigs.k8s.io/structured-merge-diff/v3/LICENSE b/vendor/sigs.k8s.io/structured-merge-diff/v3/LICENSE new file mode 100644 index 000000000..8dada3eda --- /dev/null +++ b/vendor/sigs.k8s.io/structured-merge-diff/v3/LICENSE @@ -0,0 +1,201 @@ + Apache License + Version 2.0, January 2004 + http://www.apache.org/licenses/ + + TERMS AND CONDITIONS FOR USE, REPRODUCTION, AND DISTRIBUTION + + 1. Definitions. + + "License" shall mean the terms and conditions for use, reproduction, + and distribution as defined by Sections 1 through 9 of this document. + + "Licensor" shall mean the copyright owner or entity authorized by + the copyright owner that is granting the License. + + "Legal Entity" shall mean the union of the acting entity and all + other entities that control, are controlled by, or are under common + control with that entity. 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We also recommend that a + file or class name and description of purpose be included on the + same "printed page" as the copyright notice for easier + identification within third-party archives. + + Copyright {yyyy} {name of copyright owner} + + Licensed under the Apache License, Version 2.0 (the "License"); + you may not use this file except in compliance with the License. + You may obtain a copy of the License at + + http://www.apache.org/licenses/LICENSE-2.0 + + Unless required by applicable law or agreed to in writing, software + distributed under the License is distributed on an "AS IS" BASIS, + WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + See the License for the specific language governing permissions and + limitations under the License. diff --git a/vendor/sigs.k8s.io/structured-merge-diff/v3/value/allocator.go b/vendor/sigs.k8s.io/structured-merge-diff/v3/value/allocator.go new file mode 100644 index 000000000..f70cd4167 --- /dev/null +++ b/vendor/sigs.k8s.io/structured-merge-diff/v3/value/allocator.go @@ -0,0 +1,203 @@ +/* +Copyright 2020 The Kubernetes Authors. + +Licensed under the Apache License, Version 2.0 (the "License"); +you may not use this file except in compliance with the License. +You may obtain a copy of the License at + + http://www.apache.org/licenses/LICENSE-2.0 + +Unless required by applicable law or agreed to in writing, software +distributed under the License is distributed on an "AS IS" BASIS, +WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +See the License for the specific language governing permissions and +limitations under the License. +*/ + +package value + +// Allocator provides a value object allocation strategy. +// Value objects can be allocated by passing an allocator to the "Using" +// receiver functions on the value interfaces, e.g. Map.ZipUsing(allocator, ...). +// Value objects returned from "Using" functions should be given back to the allocator +// once longer needed by calling Allocator.Free(Value). +type Allocator interface { + // Free gives the allocator back any value objects returned by the "Using" + // receiver functions on the value interfaces. + // interface{} may be any of: Value, Map, List or Range. + Free(interface{}) + + // The unexported functions are for "Using" receiver functions of the value types + // to request what they need from the allocator. + allocValueUnstructured() *valueUnstructured + allocListUnstructuredRange() *listUnstructuredRange + allocValueReflect() *valueReflect + allocMapReflect() *mapReflect + allocStructReflect() *structReflect + allocListReflect() *listReflect + allocListReflectRange() *listReflectRange +} + +// HeapAllocator simply allocates objects to the heap. It is the default +// allocator used receiver functions on the value interfaces that do not accept +// an allocator and should be used whenever allocating objects that will not +// be given back to an allocator by calling Allocator.Free(Value). +var HeapAllocator = &heapAllocator{} + +type heapAllocator struct{} + +func (p *heapAllocator) allocValueUnstructured() *valueUnstructured { + return &valueUnstructured{} +} + +func (p *heapAllocator) allocListUnstructuredRange() *listUnstructuredRange { + return &listUnstructuredRange{vv: &valueUnstructured{}} +} + +func (p *heapAllocator) allocValueReflect() *valueReflect { + return &valueReflect{} +} + +func (p *heapAllocator) allocStructReflect() *structReflect { + return &structReflect{} +} + +func (p *heapAllocator) allocMapReflect() *mapReflect { + return &mapReflect{} +} + +func (p *heapAllocator) allocListReflect() *listReflect { + return &listReflect{} +} + +func (p *heapAllocator) allocListReflectRange() *listReflectRange { + return &listReflectRange{vr: &valueReflect{}} +} + +func (p *heapAllocator) Free(_ interface{}) {} + +// NewFreelistAllocator creates freelist based allocator. +// This allocator provides fast allocation and freeing of short lived value objects. +// +// The freelists are bounded in size by freelistMaxSize. If more than this amount of value objects is +// allocated at once, the excess will be returned to the heap for garbage collection when freed. +// +// This allocator is unsafe and must not be accessed concurrently by goroutines. +// +// This allocator works well for traversal of value data trees. Typical usage is to acquire +// a freelist at the beginning of the traversal and use it through out +// for all temporary value access. +func NewFreelistAllocator() Allocator { + return &freelistAllocator{ + valueUnstructured: &freelist{new: func() interface{} { + return &valueUnstructured{} + }}, + listUnstructuredRange: &freelist{new: func() interface{} { + return &listUnstructuredRange{vv: &valueUnstructured{}} + }}, + valueReflect: &freelist{new: func() interface{} { + return &valueReflect{} + }}, + mapReflect: &freelist{new: func() interface{} { + return &mapReflect{} + }}, + structReflect: &freelist{new: func() interface{} { + return &structReflect{} + }}, + listReflect: &freelist{new: func() interface{} { + return &listReflect{} + }}, + listReflectRange: &freelist{new: func() interface{} { + return &listReflectRange{vr: &valueReflect{}} + }}, + } +} + +// Bound memory usage of freelists. This prevents the processing of very large lists from leaking memory. +// This limit is large enough for endpoints objects containing 1000 IP address entries. Freed objects +// that don't fit into the freelist are orphaned on the heap to be garbage collected. +const freelistMaxSize = 1000 + +type freelistAllocator struct { + valueUnstructured *freelist + listUnstructuredRange *freelist + valueReflect *freelist + mapReflect *freelist + structReflect *freelist + listReflect *freelist + listReflectRange *freelist +} + +type freelist struct { + list []interface{} + new func() interface{} +} + +func (f *freelist) allocate() interface{} { + var w2 interface{} + if n := len(f.list); n > 0 { + w2, f.list = f.list[n-1], f.list[:n-1] + } else { + w2 = f.new() + } + return w2 +} + +func (f *freelist) free(v interface{}) { + if len(f.list) < freelistMaxSize { + f.list = append(f.list, v) + } +} + +func (w *freelistAllocator) Free(value interface{}) { + switch v := value.(type) { + case *valueUnstructured: + v.Value = nil // don't hold references to unstructured objects + w.valueUnstructured.free(v) + case *listUnstructuredRange: + v.vv.Value = nil // don't hold references to unstructured objects + w.listUnstructuredRange.free(v) + case *valueReflect: + v.ParentMapKey = nil + v.ParentMap = nil + w.valueReflect.free(v) + case *mapReflect: + w.mapReflect.free(v) + case *structReflect: + w.structReflect.free(v) + case *listReflect: + w.listReflect.free(v) + case *listReflectRange: + v.vr.ParentMapKey = nil + v.vr.ParentMap = nil + w.listReflectRange.free(v) + } +} + +func (w *freelistAllocator) allocValueUnstructured() *valueUnstructured { + return w.valueUnstructured.allocate().(*valueUnstructured) +} + +func (w *freelistAllocator) allocListUnstructuredRange() *listUnstructuredRange { + return w.listUnstructuredRange.allocate().(*listUnstructuredRange) +} + +func (w *freelistAllocator) allocValueReflect() *valueReflect { + return w.valueReflect.allocate().(*valueReflect) +} + +func (w *freelistAllocator) allocStructReflect() *structReflect { + return w.structReflect.allocate().(*structReflect) +} + +func (w *freelistAllocator) allocMapReflect() *mapReflect { + return w.mapReflect.allocate().(*mapReflect) +} + +func (w *freelistAllocator) allocListReflect() *listReflect { + return w.listReflect.allocate().(*listReflect) +} + +func (w *freelistAllocator) allocListReflectRange() *listReflectRange { + return w.listReflectRange.allocate().(*listReflectRange) +} diff --git a/vendor/sigs.k8s.io/structured-merge-diff/v3/value/doc.go b/vendor/sigs.k8s.io/structured-merge-diff/v3/value/doc.go new file mode 100644 index 000000000..84d7f0f3f --- /dev/null +++ b/vendor/sigs.k8s.io/structured-merge-diff/v3/value/doc.go @@ -0,0 +1,21 @@ +/* +Copyright 2018 The Kubernetes Authors. + +Licensed under the Apache License, Version 2.0 (the "License"); +you may not use this file except in compliance with the License. +You may obtain a copy of the License at + + http://www.apache.org/licenses/LICENSE-2.0 + +Unless required by applicable law or agreed to in writing, software +distributed under the License is distributed on an "AS IS" BASIS, +WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +See the License for the specific language governing permissions and +limitations under the License. +*/ + +// Package value defines types for an in-memory representation of yaml or json +// objects, organized for convenient comparison with a schema (as defined by +// the sibling schema package). Functions for reading and writing the objects +// are also provided. +package value diff --git a/vendor/sigs.k8s.io/structured-merge-diff/v3/value/fields.go b/vendor/sigs.k8s.io/structured-merge-diff/v3/value/fields.go new file mode 100644 index 000000000..be3c67249 --- /dev/null +++ b/vendor/sigs.k8s.io/structured-merge-diff/v3/value/fields.go @@ -0,0 +1,97 @@ +/* +Copyright 2019 The Kubernetes Authors. + +Licensed under the Apache License, Version 2.0 (the "License"); +you may not use this file except in compliance with the License. +You may obtain a copy of the License at + + http://www.apache.org/licenses/LICENSE-2.0 + +Unless required by applicable law or agreed to in writing, software +distributed under the License is distributed on an "AS IS" BASIS, +WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +See the License for the specific language governing permissions and +limitations under the License. +*/ + +package value + +import ( + "sort" + "strings" +) + +// Field is an individual key-value pair. +type Field struct { + Name string + Value Value +} + +// FieldList is a list of key-value pairs. Each field is expected to +// have a different name. +type FieldList []Field + +// Sort sorts the field list by Name. +func (f FieldList) Sort() { + if len(f) < 2 { + return + } + if len(f) == 2 { + if f[1].Name < f[0].Name { + f[0], f[1] = f[1], f[0] + } + return + } + sort.SliceStable(f, func(i, j int) bool { + return f[i].Name < f[j].Name + }) +} + +// Less compares two lists lexically. +func (f FieldList) Less(rhs FieldList) bool { + return f.Compare(rhs) == -1 +} + +// Compare compares two lists lexically. The result will be 0 if f==rhs, -1 +// if f < rhs, and +1 if f > rhs. +func (f FieldList) Compare(rhs FieldList) int { + i := 0 + for { + if i >= len(f) && i >= len(rhs) { + // Maps are the same length and all items are equal. + return 0 + } + if i >= len(f) { + // F is shorter. + return -1 + } + if i >= len(rhs) { + // RHS is shorter. + return 1 + } + if c := strings.Compare(f[i].Name, rhs[i].Name); c != 0 { + return c + } + if c := Compare(f[i].Value, rhs[i].Value); c != 0 { + return c + } + // The items are equal; continue. + i++ + } +} + +// Equals returns true if the two fieldslist are equals, false otherwise. +func (f FieldList) Equals(rhs FieldList) bool { + if len(f) != len(rhs) { + return false + } + for i := range f { + if f[i].Name != rhs[i].Name { + return false + } + if !Equals(f[i].Value, rhs[i].Value) { + return false + } + } + return true +} diff --git a/vendor/sigs.k8s.io/structured-merge-diff/v3/value/jsontagutil.go b/vendor/sigs.k8s.io/structured-merge-diff/v3/value/jsontagutil.go new file mode 100644 index 000000000..d4adb8fc9 --- /dev/null +++ b/vendor/sigs.k8s.io/structured-merge-diff/v3/value/jsontagutil.go @@ -0,0 +1,91 @@ +/* +Copyright 2019 The Kubernetes Authors. + +Licensed under the Apache License, Version 2.0 (the "License"); +you may not use this file except in compliance with the License. +You may obtain a copy of the License at + + http://www.apache.org/licenses/LICENSE-2.0 + +Unless required by applicable law or agreed to in writing, software +distributed under the License is distributed on an "AS IS" BASIS, +WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +See the License for the specific language governing permissions and +limitations under the License. +*/ + +package value + +import ( + "fmt" + "reflect" + "strings" +) + +// TODO: This implements the same functionality as https://github.com/kubernetes/kubernetes/blob/master/staging/src/k8s.io/apimachinery/pkg/runtime/converter.go#L236 +// but is based on the highly efficient approach from https://golang.org/src/encoding/json/encode.go + +func lookupJsonTags(f reflect.StructField) (name string, omit bool, inline bool, omitempty bool) { + tag := f.Tag.Get("json") + if tag == "-" { + return "", true, false, false + } + name, opts := parseTag(tag) + if name == "" { + name = f.Name + } + return name, false, opts.Contains("inline"), opts.Contains("omitempty") +} + +func isZero(v reflect.Value) bool { + switch v.Kind() { + case reflect.Array, reflect.Map, reflect.Slice, reflect.String: + return v.Len() == 0 + case reflect.Bool: + return !v.Bool() + case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64: + return v.Int() == 0 + case reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64, reflect.Uintptr: + return v.Uint() == 0 + case reflect.Float32, reflect.Float64: + return v.Float() == 0 + case reflect.Interface, reflect.Ptr: + return v.IsNil() + case reflect.Chan, reflect.Func: + panic(fmt.Sprintf("unsupported type: %v", v.Type())) + } + return false +} + +type tagOptions string + +// parseTag splits a struct field's json tag into its name and +// comma-separated options. +func parseTag(tag string) (string, tagOptions) { + if idx := strings.Index(tag, ","); idx != -1 { + return tag[:idx], tagOptions(tag[idx+1:]) + } + return tag, tagOptions("") +} + +// Contains reports whether a comma-separated list of options +// contains a particular substr flag. substr must be surrounded by a +// string boundary or commas. +func (o tagOptions) Contains(optionName string) bool { + if len(o) == 0 { + return false + } + s := string(o) + for s != "" { + var next string + i := strings.Index(s, ",") + if i >= 0 { + s, next = s[:i], s[i+1:] + } + if s == optionName { + return true + } + s = next + } + return false +} diff --git a/vendor/sigs.k8s.io/structured-merge-diff/v3/value/list.go b/vendor/sigs.k8s.io/structured-merge-diff/v3/value/list.go new file mode 100644 index 000000000..0748f18e8 --- /dev/null +++ b/vendor/sigs.k8s.io/structured-merge-diff/v3/value/list.go @@ -0,0 +1,139 @@ +/* +Copyright 2019 The Kubernetes Authors. + +Licensed under the Apache License, Version 2.0 (the "License"); +you may not use this file except in compliance with the License. +You may obtain a copy of the License at + + http://www.apache.org/licenses/LICENSE-2.0 + +Unless required by applicable law or agreed to in writing, software +distributed under the License is distributed on an "AS IS" BASIS, +WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +See the License for the specific language governing permissions and +limitations under the License. +*/ + +package value + +// List represents a list object. +type List interface { + // Length returns how many items can be found in the map. + Length() int + // At returns the item at the given position in the map. It will + // panic if the index is out of range. + At(int) Value + // AtUsing uses the provided allocator and returns the item at the given + // position in the map. It will panic if the index is out of range. + // The returned Value should be given back to the Allocator when no longer needed + // by calling Allocator.Free(Value). + AtUsing(Allocator, int) Value + // Range returns a ListRange for iterating over the items in the list. + Range() ListRange + // RangeUsing uses the provided allocator and returns a ListRange for + // iterating over the items in the list. + // The returned Range should be given back to the Allocator when no longer needed + // by calling Allocator.Free(Value). + RangeUsing(Allocator) ListRange + // Equals compares the two lists, and return true if they are the same, false otherwise. + // Implementations can use ListEquals as a general implementation for this methods. + Equals(List) bool + // EqualsUsing uses the provided allocator and compares the two lists, and return true if + // they are the same, false otherwise. Implementations can use ListEqualsUsing as a general + // implementation for this methods. + EqualsUsing(Allocator, List) bool +} + +// ListRange represents a single iteration across the items of a list. +type ListRange interface { + // Next increments to the next item in the range, if there is one, and returns true, or returns false if there are no more items. + Next() bool + // Item returns the index and value of the current item in the range. or panics if there is no current item. + // For efficiency, Item may reuse the values returned by previous Item calls. Callers should be careful avoid holding + // pointers to the value returned by Item() that escape the iteration loop since they become invalid once either + // Item() or Allocator.Free() is called. + Item() (index int, value Value) +} + +var EmptyRange = &emptyRange{} + +type emptyRange struct{} + +func (_ *emptyRange) Next() bool { + return false +} + +func (_ *emptyRange) Item() (index int, value Value) { + panic("Item called on empty ListRange") +} + +// ListEquals compares two lists lexically. +// WARN: This is a naive implementation, calling lhs.Equals(rhs) is typically the most efficient. +func ListEquals(lhs, rhs List) bool { + return ListEqualsUsing(HeapAllocator, lhs, rhs) +} + +// ListEqualsUsing uses the provided allocator and compares two lists lexically. +// WARN: This is a naive implementation, calling lhs.EqualsUsing(allocator, rhs) is typically the most efficient. +func ListEqualsUsing(a Allocator, lhs, rhs List) bool { + if lhs.Length() != rhs.Length() { + return false + } + + lhsRange := lhs.RangeUsing(a) + defer a.Free(lhsRange) + rhsRange := rhs.RangeUsing(a) + defer a.Free(rhsRange) + + for lhsRange.Next() && rhsRange.Next() { + _, lv := lhsRange.Item() + _, rv := rhsRange.Item() + if !EqualsUsing(a, lv, rv) { + return false + } + } + return true +} + +// ListLess compares two lists lexically. +func ListLess(lhs, rhs List) bool { + return ListCompare(lhs, rhs) == -1 +} + +// ListCompare compares two lists lexically. The result will be 0 if l==rhs, -1 +// if l < rhs, and +1 if l > rhs. +func ListCompare(lhs, rhs List) int { + return ListCompareUsing(HeapAllocator, lhs, rhs) +} + +// ListCompareUsing uses the provided allocator and compares two lists lexically. The result will be 0 if l==rhs, -1 +// if l < rhs, and +1 if l > rhs. +func ListCompareUsing(a Allocator, lhs, rhs List) int { + lhsRange := lhs.RangeUsing(a) + defer a.Free(lhsRange) + rhsRange := rhs.RangeUsing(a) + defer a.Free(rhsRange) + + for { + lhsOk := lhsRange.Next() + rhsOk := rhsRange.Next() + if !lhsOk && !rhsOk { + // Lists are the same length and all items are equal. + return 0 + } + if !lhsOk { + // LHS is shorter. + return -1 + } + if !rhsOk { + // RHS is shorter. + return 1 + } + _, lv := lhsRange.Item() + _, rv := rhsRange.Item() + if c := CompareUsing(a, lv, rv); c != 0 { + return c + } + // The items are equal; continue. + } +} diff --git a/vendor/sigs.k8s.io/structured-merge-diff/v3/value/listreflect.go b/vendor/sigs.k8s.io/structured-merge-diff/v3/value/listreflect.go new file mode 100644 index 000000000..197d4c921 --- /dev/null +++ b/vendor/sigs.k8s.io/structured-merge-diff/v3/value/listreflect.go @@ -0,0 +1,98 @@ +/* +Copyright 2019 The Kubernetes Authors. + +Licensed under the Apache License, Version 2.0 (the "License"); +you may not use this file except in compliance with the License. +You may obtain a copy of the License at + + http://www.apache.org/licenses/LICENSE-2.0 + +Unless required by applicable law or agreed to in writing, software +distributed under the License is distributed on an "AS IS" BASIS, +WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +See the License for the specific language governing permissions and +limitations under the License. +*/ + +package value + +import ( + "reflect" +) + +type listReflect struct { + Value reflect.Value +} + +func (r listReflect) Length() int { + val := r.Value + return val.Len() +} + +func (r listReflect) At(i int) Value { + val := r.Value + return mustWrapValueReflect(val.Index(i), nil, nil) +} + +func (r listReflect) AtUsing(a Allocator, i int) Value { + val := r.Value + return a.allocValueReflect().mustReuse(val.Index(i), nil, nil, nil) +} + +func (r listReflect) Unstructured() interface{} { + l := r.Length() + result := make([]interface{}, l) + for i := 0; i < l; i++ { + result[i] = r.At(i).Unstructured() + } + return result +} + +func (r listReflect) Range() ListRange { + return r.RangeUsing(HeapAllocator) +} + +func (r listReflect) RangeUsing(a Allocator) ListRange { + length := r.Value.Len() + if length == 0 { + return EmptyRange + } + rr := a.allocListReflectRange() + rr.list = r.Value + rr.i = -1 + rr.entry = TypeReflectEntryOf(r.Value.Type().Elem()) + return rr +} + +func (r listReflect) Equals(other List) bool { + return r.EqualsUsing(HeapAllocator, other) +} +func (r listReflect) EqualsUsing(a Allocator, other List) bool { + if otherReflectList, ok := other.(*listReflect); ok { + return reflect.DeepEqual(r.Value.Interface(), otherReflectList.Value.Interface()) + } + return ListEqualsUsing(a, &r, other) +} + +type listReflectRange struct { + list reflect.Value + vr *valueReflect + i int + entry *TypeReflectCacheEntry +} + +func (r *listReflectRange) Next() bool { + r.i += 1 + return r.i < r.list.Len() +} + +func (r *listReflectRange) Item() (index int, value Value) { + if r.i < 0 { + panic("Item() called before first calling Next()") + } + if r.i >= r.list.Len() { + panic("Item() called on ListRange with no more items") + } + v := r.list.Index(r.i) + return r.i, r.vr.mustReuse(v, r.entry, nil, nil) +} diff --git a/vendor/sigs.k8s.io/structured-merge-diff/v3/value/listunstructured.go b/vendor/sigs.k8s.io/structured-merge-diff/v3/value/listunstructured.go new file mode 100644 index 000000000..64cd8e7c0 --- /dev/null +++ b/vendor/sigs.k8s.io/structured-merge-diff/v3/value/listunstructured.go @@ -0,0 +1,74 @@ +/* +Copyright 2019 The Kubernetes Authors. + +Licensed under the Apache License, Version 2.0 (the "License"); +you may not use this file except in compliance with the License. +You may obtain a copy of the License at + + http://www.apache.org/licenses/LICENSE-2.0 + +Unless required by applicable law or agreed to in writing, software +distributed under the License is distributed on an "AS IS" BASIS, +WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +See the License for the specific language governing permissions and +limitations under the License. +*/ + +package value + +type listUnstructured []interface{} + +func (l listUnstructured) Length() int { + return len(l) +} + +func (l listUnstructured) At(i int) Value { + return NewValueInterface(l[i]) +} + +func (l listUnstructured) AtUsing(a Allocator, i int) Value { + return a.allocValueUnstructured().reuse(l[i]) +} + +func (l listUnstructured) Equals(other List) bool { + return l.EqualsUsing(HeapAllocator, other) +} + +func (l listUnstructured) EqualsUsing(a Allocator, other List) bool { + return ListEqualsUsing(a, &l, other) +} + +func (l listUnstructured) Range() ListRange { + return l.RangeUsing(HeapAllocator) +} + +func (l listUnstructured) RangeUsing(a Allocator) ListRange { + if len(l) == 0 { + return EmptyRange + } + r := a.allocListUnstructuredRange() + r.list = l + r.i = -1 + return r +} + +type listUnstructuredRange struct { + list listUnstructured + vv *valueUnstructured + i int +} + +func (r *listUnstructuredRange) Next() bool { + r.i += 1 + return r.i < len(r.list) +} + +func (r *listUnstructuredRange) Item() (index int, value Value) { + if r.i < 0 { + panic("Item() called before first calling Next()") + } + if r.i >= len(r.list) { + panic("Item() called on ListRange with no more items") + } + return r.i, r.vv.reuse(r.list[r.i]) +} diff --git a/vendor/sigs.k8s.io/structured-merge-diff/v3/value/map.go b/vendor/sigs.k8s.io/structured-merge-diff/v3/value/map.go new file mode 100644 index 000000000..168b9fa08 --- /dev/null +++ b/vendor/sigs.k8s.io/structured-merge-diff/v3/value/map.go @@ -0,0 +1,270 @@ +/* +Copyright 2019 The Kubernetes Authors. + +Licensed under the Apache License, Version 2.0 (the "License"); +you may not use this file except in compliance with the License. +You may obtain a copy of the License at + + http://www.apache.org/licenses/LICENSE-2.0 + +Unless required by applicable law or agreed to in writing, software +distributed under the License is distributed on an "AS IS" BASIS, +WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +See the License for the specific language governing permissions and +limitations under the License. +*/ + +package value + +import ( + "sort" +) + +// Map represents a Map or go structure. +type Map interface { + // Set changes or set the value of the given key. + Set(key string, val Value) + // Get returns the value for the given key, if present, or (nil, false) otherwise. + Get(key string) (Value, bool) + // GetUsing uses the provided allocator and returns the value for the given key, + // if present, or (nil, false) otherwise. + // The returned Value should be given back to the Allocator when no longer needed + // by calling Allocator.Free(Value). + GetUsing(a Allocator, key string) (Value, bool) + // Has returns true if the key is present, or false otherwise. + Has(key string) bool + // Delete removes the key from the map. + Delete(key string) + // Equals compares the two maps, and return true if they are the same, false otherwise. + // Implementations can use MapEquals as a general implementation for this methods. + Equals(other Map) bool + // EqualsUsing uses the provided allocator and compares the two maps, and return true if + // they are the same, false otherwise. Implementations can use MapEqualsUsing as a general + // implementation for this methods. + EqualsUsing(a Allocator, other Map) bool + // Iterate runs the given function for each key/value in the + // map. Returning false in the closure prematurely stops the + // iteration. + Iterate(func(key string, value Value) bool) bool + // IterateUsing uses the provided allocator and runs the given function for each key/value + // in the map. Returning false in the closure prematurely stops the iteration. + IterateUsing(Allocator, func(key string, value Value) bool) bool + // Length returns the number of items in the map. + Length() int + // Empty returns true if the map is empty. + Empty() bool + // Zip iterates over the entries of two maps together. If both maps contain a value for a given key, fn is called + // with the values from both maps, otherwise it is called with the value of the map that contains the key and nil + // for the map that does not contain the key. Returning false in the closure prematurely stops the iteration. + Zip(other Map, order MapTraverseOrder, fn func(key string, lhs, rhs Value) bool) bool + // ZipUsing uses the provided allocator and iterates over the entries of two maps together. If both maps + // contain a value for a given key, fn is called with the values from both maps, otherwise it is called with + // the value of the map that contains the key and nil for the map that does not contain the key. Returning + // false in the closure prematurely stops the iteration. + ZipUsing(a Allocator, other Map, order MapTraverseOrder, fn func(key string, lhs, rhs Value) bool) bool +} + +// MapTraverseOrder defines the map traversal ordering available. +type MapTraverseOrder int + +const ( + // Unordered indicates that the map traversal has no ordering requirement. + Unordered = iota + // LexicalKeyOrder indicates that the map traversal is ordered by key, lexically. + LexicalKeyOrder +) + +// MapZip iterates over the entries of two maps together. If both maps contain a value for a given key, fn is called +// with the values from both maps, otherwise it is called with the value of the map that contains the key and nil +// for the other map. Returning false in the closure prematurely stops the iteration. +func MapZip(lhs, rhs Map, order MapTraverseOrder, fn func(key string, lhs, rhs Value) bool) bool { + return MapZipUsing(HeapAllocator, lhs, rhs, order, fn) +} + +// MapZipUsing uses the provided allocator and iterates over the entries of two maps together. If both maps +// contain a value for a given key, fn is called with the values from both maps, otherwise it is called with +// the value of the map that contains the key and nil for the other map. Returning false in the closure +// prematurely stops the iteration. +func MapZipUsing(a Allocator, lhs, rhs Map, order MapTraverseOrder, fn func(key string, lhs, rhs Value) bool) bool { + if lhs != nil { + return lhs.ZipUsing(a, rhs, order, fn) + } + if rhs != nil { + return rhs.ZipUsing(a, lhs, order, func(key string, rhs, lhs Value) bool { // arg positions of lhs and rhs deliberately swapped + return fn(key, lhs, rhs) + }) + } + return true +} + +// defaultMapZip provides a default implementation of Zip for implementations that do not need to provide +// their own optimized implementation. +func defaultMapZip(a Allocator, lhs, rhs Map, order MapTraverseOrder, fn func(key string, lhs, rhs Value) bool) bool { + switch order { + case Unordered: + return unorderedMapZip(a, lhs, rhs, fn) + case LexicalKeyOrder: + return lexicalKeyOrderedMapZip(a, lhs, rhs, fn) + default: + panic("Unsupported map order") + } +} + +func unorderedMapZip(a Allocator, lhs, rhs Map, fn func(key string, lhs, rhs Value) bool) bool { + if (lhs == nil || lhs.Empty()) && (rhs == nil || rhs.Empty()) { + return true + } + + if lhs != nil { + ok := lhs.IterateUsing(a, func(key string, lhsValue Value) bool { + var rhsValue Value + if rhs != nil { + if item, ok := rhs.GetUsing(a, key); ok { + rhsValue = item + defer a.Free(rhsValue) + } + } + return fn(key, lhsValue, rhsValue) + }) + if !ok { + return false + } + } + if rhs != nil { + return rhs.IterateUsing(a, func(key string, rhsValue Value) bool { + if lhs == nil || !lhs.Has(key) { + return fn(key, nil, rhsValue) + } + return true + }) + } + return true +} + +func lexicalKeyOrderedMapZip(a Allocator, lhs, rhs Map, fn func(key string, lhs, rhs Value) bool) bool { + var lhsLength, rhsLength int + var orderedLength int // rough estimate of length of union of map keys + if lhs != nil { + lhsLength = lhs.Length() + orderedLength = lhsLength + } + if rhs != nil { + rhsLength = rhs.Length() + if rhsLength > orderedLength { + orderedLength = rhsLength + } + } + if lhsLength == 0 && rhsLength == 0 { + return true + } + + ordered := make([]string, 0, orderedLength) + if lhs != nil { + lhs.IterateUsing(a, func(key string, _ Value) bool { + ordered = append(ordered, key) + return true + }) + } + if rhs != nil { + rhs.IterateUsing(a, func(key string, _ Value) bool { + if lhs == nil || !lhs.Has(key) { + ordered = append(ordered, key) + } + return true + }) + } + sort.Strings(ordered) + for _, key := range ordered { + var litem, ritem Value + if lhs != nil { + litem, _ = lhs.GetUsing(a, key) + } + if rhs != nil { + ritem, _ = rhs.GetUsing(a, key) + } + ok := fn(key, litem, ritem) + if litem != nil { + a.Free(litem) + } + if ritem != nil { + a.Free(ritem) + } + if !ok { + return false + } + } + return true +} + +// MapLess compares two maps lexically. +func MapLess(lhs, rhs Map) bool { + return MapCompare(lhs, rhs) == -1 +} + +// MapCompare compares two maps lexically. +func MapCompare(lhs, rhs Map) int { + return MapCompareUsing(HeapAllocator, lhs, rhs) +} + +// MapCompareUsing uses the provided allocator and compares two maps lexically. +func MapCompareUsing(a Allocator, lhs, rhs Map) int { + c := 0 + var llength, rlength int + if lhs != nil { + llength = lhs.Length() + } + if rhs != nil { + rlength = rhs.Length() + } + if llength == 0 && rlength == 0 { + return 0 + } + i := 0 + MapZipUsing(a, lhs, rhs, LexicalKeyOrder, func(key string, lhs, rhs Value) bool { + switch { + case i == llength: + c = -1 + case i == rlength: + c = 1 + case lhs == nil: + c = 1 + case rhs == nil: + c = -1 + default: + c = CompareUsing(a, lhs, rhs) + } + i++ + return c == 0 + }) + return c +} + +// MapEquals returns true if lhs == rhs, false otherwise. This function +// acts on generic types and should not be used by callers, but can help +// implement Map.Equals. +// WARN: This is a naive implementation, calling lhs.Equals(rhs) is typically the most efficient. +func MapEquals(lhs, rhs Map) bool { + return MapEqualsUsing(HeapAllocator, lhs, rhs) +} + +// MapEqualsUsing uses the provided allocator and returns true if lhs == rhs, +// false otherwise. This function acts on generic types and should not be used +// by callers, but can help implement Map.Equals. +// WARN: This is a naive implementation, calling lhs.EqualsUsing(allocator, rhs) is typically the most efficient. +func MapEqualsUsing(a Allocator, lhs, rhs Map) bool { + if lhs == nil && rhs == nil { + return true + } + if lhs == nil || rhs == nil { + return false + } + if lhs.Length() != rhs.Length() { + return false + } + return MapZipUsing(a, lhs, rhs, Unordered, func(key string, lhs, rhs Value) bool { + if lhs == nil || rhs == nil { + return false + } + return EqualsUsing(a, lhs, rhs) + }) +} diff --git a/vendor/sigs.k8s.io/structured-merge-diff/v3/value/mapreflect.go b/vendor/sigs.k8s.io/structured-merge-diff/v3/value/mapreflect.go new file mode 100644 index 000000000..dc8b8c720 --- /dev/null +++ b/vendor/sigs.k8s.io/structured-merge-diff/v3/value/mapreflect.go @@ -0,0 +1,209 @@ +/* +Copyright 2019 The Kubernetes Authors. + +Licensed under the Apache License, Version 2.0 (the "License"); +you may not use this file except in compliance with the License. +You may obtain a copy of the License at + + http://www.apache.org/licenses/LICENSE-2.0 + +Unless required by applicable law or agreed to in writing, software +distributed under the License is distributed on an "AS IS" BASIS, +WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +See the License for the specific language governing permissions and +limitations under the License. +*/ + +package value + +import ( + "reflect" +) + +type mapReflect struct { + valueReflect +} + +func (r mapReflect) Length() int { + val := r.Value + return val.Len() +} + +func (r mapReflect) Empty() bool { + val := r.Value + return val.Len() == 0 +} + +func (r mapReflect) Get(key string) (Value, bool) { + return r.GetUsing(HeapAllocator, key) +} + +func (r mapReflect) GetUsing(a Allocator, key string) (Value, bool) { + k, v, ok := r.get(key) + if !ok { + return nil, false + } + return a.allocValueReflect().mustReuse(v, nil, &r.Value, &k), true +} + +func (r mapReflect) get(k string) (key, value reflect.Value, ok bool) { + mapKey := r.toMapKey(k) + val := r.Value.MapIndex(mapKey) + return mapKey, val, val.IsValid() && val != reflect.Value{} +} + +func (r mapReflect) Has(key string) bool { + var val reflect.Value + val = r.Value.MapIndex(r.toMapKey(key)) + if !val.IsValid() { + return false + } + return val != reflect.Value{} +} + +func (r mapReflect) Set(key string, val Value) { + r.Value.SetMapIndex(r.toMapKey(key), reflect.ValueOf(val.Unstructured())) +} + +func (r mapReflect) Delete(key string) { + val := r.Value + val.SetMapIndex(r.toMapKey(key), reflect.Value{}) +} + +// TODO: Do we need to support types that implement json.Marshaler and are used as string keys? +func (r mapReflect) toMapKey(key string) reflect.Value { + val := r.Value + return reflect.ValueOf(key).Convert(val.Type().Key()) +} + +func (r mapReflect) Iterate(fn func(string, Value) bool) bool { + return r.IterateUsing(HeapAllocator, fn) +} + +func (r mapReflect) IterateUsing(a Allocator, fn func(string, Value) bool) bool { + if r.Value.Len() == 0 { + return true + } + v := a.allocValueReflect() + defer a.Free(v) + return eachMapEntry(r.Value, func(e *TypeReflectCacheEntry, key reflect.Value, value reflect.Value) bool { + return fn(key.String(), v.mustReuse(value, e, &r.Value, &key)) + }) +} + +func eachMapEntry(val reflect.Value, fn func(*TypeReflectCacheEntry, reflect.Value, reflect.Value) bool) bool { + iter := val.MapRange() + entry := TypeReflectEntryOf(val.Type().Elem()) + for iter.Next() { + next := iter.Value() + if !next.IsValid() { + continue + } + if !fn(entry, iter.Key(), next) { + return false + } + } + return true +} + +func (r mapReflect) Unstructured() interface{} { + result := make(map[string]interface{}, r.Length()) + r.Iterate(func(s string, value Value) bool { + result[s] = value.Unstructured() + return true + }) + return result +} + +func (r mapReflect) Equals(m Map) bool { + return r.EqualsUsing(HeapAllocator, m) +} + +func (r mapReflect) EqualsUsing(a Allocator, m Map) bool { + lhsLength := r.Length() + rhsLength := m.Length() + if lhsLength != rhsLength { + return false + } + if lhsLength == 0 { + return true + } + vr := a.allocValueReflect() + defer a.Free(vr) + entry := TypeReflectEntryOf(r.Value.Type().Elem()) + return m.Iterate(func(key string, value Value) bool { + _, lhsVal, ok := r.get(key) + if !ok { + return false + } + return Equals(vr.mustReuse(lhsVal, entry, nil, nil), value) + }) +} + +func (r mapReflect) Zip(other Map, order MapTraverseOrder, fn func(key string, lhs, rhs Value) bool) bool { + return r.ZipUsing(HeapAllocator, other, order, fn) +} + +func (r mapReflect) ZipUsing(a Allocator, other Map, order MapTraverseOrder, fn func(key string, lhs, rhs Value) bool) bool { + if otherMapReflect, ok := other.(*mapReflect); ok && order == Unordered { + return r.unorderedReflectZip(a, otherMapReflect, fn) + } + return defaultMapZip(a, &r, other, order, fn) +} + +// unorderedReflectZip provides an optimized unordered zip for mapReflect types. +func (r mapReflect) unorderedReflectZip(a Allocator, other *mapReflect, fn func(key string, lhs, rhs Value) bool) bool { + if r.Empty() && (other == nil || other.Empty()) { + return true + } + + lhs := r.Value + lhsEntry := TypeReflectEntryOf(lhs.Type().Elem()) + + // map lookup via reflection is expensive enough that it is better to keep track of visited keys + visited := map[string]struct{}{} + + vlhs, vrhs := a.allocValueReflect(), a.allocValueReflect() + defer a.Free(vlhs) + defer a.Free(vrhs) + + if other != nil { + rhs := other.Value + rhsEntry := TypeReflectEntryOf(rhs.Type().Elem()) + iter := rhs.MapRange() + + for iter.Next() { + key := iter.Key() + keyString := key.String() + next := iter.Value() + if !next.IsValid() { + continue + } + rhsVal := vrhs.mustReuse(next, rhsEntry, &rhs, &key) + visited[keyString] = struct{}{} + var lhsVal Value + if _, v, ok := r.get(keyString); ok { + lhsVal = vlhs.mustReuse(v, lhsEntry, &lhs, &key) + } + if !fn(keyString, lhsVal, rhsVal) { + return false + } + } + } + + iter := lhs.MapRange() + for iter.Next() { + key := iter.Key() + if _, ok := visited[key.String()]; ok { + continue + } + next := iter.Value() + if !next.IsValid() { + continue + } + if !fn(key.String(), vlhs.mustReuse(next, lhsEntry, &lhs, &key), nil) { + return false + } + } + return true +} diff --git a/vendor/sigs.k8s.io/structured-merge-diff/v3/value/mapunstructured.go b/vendor/sigs.k8s.io/structured-merge-diff/v3/value/mapunstructured.go new file mode 100644 index 000000000..d8e208628 --- /dev/null +++ b/vendor/sigs.k8s.io/structured-merge-diff/v3/value/mapunstructured.go @@ -0,0 +1,190 @@ +/* +Copyright 2019 The Kubernetes Authors. + +Licensed under the Apache License, Version 2.0 (the "License"); +you may not use this file except in compliance with the License. +You may obtain a copy of the License at + + http://www.apache.org/licenses/LICENSE-2.0 + +Unless required by applicable law or agreed to in writing, software +distributed under the License is distributed on an "AS IS" BASIS, +WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +See the License for the specific language governing permissions and +limitations under the License. +*/ + +package value + +type mapUnstructuredInterface map[interface{}]interface{} + +func (m mapUnstructuredInterface) Set(key string, val Value) { + m[key] = val.Unstructured() +} + +func (m mapUnstructuredInterface) Get(key string) (Value, bool) { + return m.GetUsing(HeapAllocator, key) +} + +func (m mapUnstructuredInterface) GetUsing(a Allocator, key string) (Value, bool) { + if v, ok := m[key]; !ok { + return nil, false + } else { + return a.allocValueUnstructured().reuse(v), true + } +} + +func (m mapUnstructuredInterface) Has(key string) bool { + _, ok := m[key] + return ok +} + +func (m mapUnstructuredInterface) Delete(key string) { + delete(m, key) +} + +func (m mapUnstructuredInterface) Iterate(fn func(key string, value Value) bool) bool { + return m.IterateUsing(HeapAllocator, fn) +} + +func (m mapUnstructuredInterface) IterateUsing(a Allocator, fn func(key string, value Value) bool) bool { + if len(m) == 0 { + return true + } + vv := a.allocValueUnstructured() + defer a.Free(vv) + for k, v := range m { + if ks, ok := k.(string); !ok { + continue + } else { + if !fn(ks, vv.reuse(v)) { + return false + } + } + } + return true +} + +func (m mapUnstructuredInterface) Length() int { + return len(m) +} + +func (m mapUnstructuredInterface) Empty() bool { + return len(m) == 0 +} + +func (m mapUnstructuredInterface) Equals(other Map) bool { + return m.EqualsUsing(HeapAllocator, other) +} + +func (m mapUnstructuredInterface) EqualsUsing(a Allocator, other Map) bool { + lhsLength := m.Length() + rhsLength := other.Length() + if lhsLength != rhsLength { + return false + } + if lhsLength == 0 { + return true + } + vv := a.allocValueUnstructured() + defer a.Free(vv) + return other.Iterate(func(key string, value Value) bool { + lhsVal, ok := m[key] + if !ok { + return false + } + return Equals(vv.reuse(lhsVal), value) + }) +} + +func (m mapUnstructuredInterface) Zip(other Map, order MapTraverseOrder, fn func(key string, lhs, rhs Value) bool) bool { + return m.ZipUsing(HeapAllocator, other, order, fn) +} + +func (m mapUnstructuredInterface) ZipUsing(a Allocator, other Map, order MapTraverseOrder, fn func(key string, lhs, rhs Value) bool) bool { + return defaultMapZip(a, m, other, order, fn) +} + +type mapUnstructuredString map[string]interface{} + +func (m mapUnstructuredString) Set(key string, val Value) { + m[key] = val.Unstructured() +} + +func (m mapUnstructuredString) Get(key string) (Value, bool) { + return m.GetUsing(HeapAllocator, key) +} +func (m mapUnstructuredString) GetUsing(a Allocator, key string) (Value, bool) { + if v, ok := m[key]; !ok { + return nil, false + } else { + return a.allocValueUnstructured().reuse(v), true + } +} + +func (m mapUnstructuredString) Has(key string) bool { + _, ok := m[key] + return ok +} + +func (m mapUnstructuredString) Delete(key string) { + delete(m, key) +} + +func (m mapUnstructuredString) Iterate(fn func(key string, value Value) bool) bool { + return m.IterateUsing(HeapAllocator, fn) +} + +func (m mapUnstructuredString) IterateUsing(a Allocator, fn func(key string, value Value) bool) bool { + if len(m) == 0 { + return true + } + vv := a.allocValueUnstructured() + defer a.Free(vv) + for k, v := range m { + if !fn(k, vv.reuse(v)) { + return false + } + } + return true +} + +func (m mapUnstructuredString) Length() int { + return len(m) +} + +func (m mapUnstructuredString) Equals(other Map) bool { + return m.EqualsUsing(HeapAllocator, other) +} + +func (m mapUnstructuredString) EqualsUsing(a Allocator, other Map) bool { + lhsLength := m.Length() + rhsLength := other.Length() + if lhsLength != rhsLength { + return false + } + if lhsLength == 0 { + return true + } + vv := a.allocValueUnstructured() + defer a.Free(vv) + return other.Iterate(func(key string, value Value) bool { + lhsVal, ok := m[key] + if !ok { + return false + } + return Equals(vv.reuse(lhsVal), value) + }) +} + +func (m mapUnstructuredString) Zip(other Map, order MapTraverseOrder, fn func(key string, lhs, rhs Value) bool) bool { + return m.ZipUsing(HeapAllocator, other, order, fn) +} + +func (m mapUnstructuredString) ZipUsing(a Allocator, other Map, order MapTraverseOrder, fn func(key string, lhs, rhs Value) bool) bool { + return defaultMapZip(a, m, other, order, fn) +} + +func (m mapUnstructuredString) Empty() bool { + return len(m) == 0 +} diff --git a/vendor/sigs.k8s.io/structured-merge-diff/v3/value/reflectcache.go b/vendor/sigs.k8s.io/structured-merge-diff/v3/value/reflectcache.go new file mode 100644 index 000000000..49e6dd169 --- /dev/null +++ b/vendor/sigs.k8s.io/structured-merge-diff/v3/value/reflectcache.go @@ -0,0 +1,463 @@ +/* +Copyright 2020 The Kubernetes Authors. + +Licensed under the Apache License, Version 2.0 (the "License"); +you may not use this file except in compliance with the License. +You may obtain a copy of the License at + + http://www.apache.org/licenses/LICENSE-2.0 + +Unless required by applicable law or agreed to in writing, software +distributed under the License is distributed on an "AS IS" BASIS, +WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +See the License for the specific language governing permissions and +limitations under the License. +*/ + +package value + +import ( + "bytes" + "encoding/json" + "fmt" + "reflect" + "sort" + "sync" + "sync/atomic" +) + +// UnstructuredConverter defines how a type can be converted directly to unstructured. +// Types that implement json.Marshaler may also optionally implement this interface to provide a more +// direct and more efficient conversion. All types that choose to implement this interface must still +// implement this same conversion via json.Marshaler. +type UnstructuredConverter interface { + json.Marshaler // require that json.Marshaler is implemented + + // ToUnstructured returns the unstructured representation. + ToUnstructured() interface{} +} + +// TypeReflectCacheEntry keeps data gathered using reflection about how a type is converted to/from unstructured. +type TypeReflectCacheEntry struct { + isJsonMarshaler bool + ptrIsJsonMarshaler bool + isJsonUnmarshaler bool + ptrIsJsonUnmarshaler bool + isStringConvertable bool + ptrIsStringConvertable bool + + structFields map[string]*FieldCacheEntry + orderedStructFields []*FieldCacheEntry +} + +// FieldCacheEntry keeps data gathered using reflection about how the field of a struct is converted to/from +// unstructured. +type FieldCacheEntry struct { + // JsonName returns the name of the field according to the json tags on the struct field. + JsonName string + // isOmitEmpty is true if the field has the json 'omitempty' tag. + isOmitEmpty bool + // fieldPath is a list of field indices (see FieldByIndex) to lookup the value of + // a field in a reflect.Value struct. The field indices in the list form a path used + // to traverse through intermediary 'inline' fields. + fieldPath [][]int + + fieldType reflect.Type + TypeEntry *TypeReflectCacheEntry +} + +func (f *FieldCacheEntry) CanOmit(fieldVal reflect.Value) bool { + return f.isOmitEmpty && (safeIsNil(fieldVal) || isZero(fieldVal)) +} + +// GetUsing returns the field identified by this FieldCacheEntry from the provided struct. +func (f *FieldCacheEntry) GetFrom(structVal reflect.Value) reflect.Value { + // field might be nested within 'inline' structs + for _, elem := range f.fieldPath { + structVal = structVal.FieldByIndex(elem) + } + return structVal +} + +var marshalerType = reflect.TypeOf(new(json.Marshaler)).Elem() +var unmarshalerType = reflect.TypeOf(new(json.Unmarshaler)).Elem() +var unstructuredConvertableType = reflect.TypeOf(new(UnstructuredConverter)).Elem() +var defaultReflectCache = newReflectCache() + +// TypeReflectEntryOf returns the TypeReflectCacheEntry of the provided reflect.Type. +func TypeReflectEntryOf(t reflect.Type) *TypeReflectCacheEntry { + cm := defaultReflectCache.get() + if record, ok := cm[t]; ok { + return record + } + updates := reflectCacheMap{} + result := typeReflectEntryOf(cm, t, updates) + if len(updates) > 0 { + defaultReflectCache.update(updates) + } + return result +} + +// TypeReflectEntryOf returns all updates needed to add provided reflect.Type, and the types its fields transitively +// depend on, to the cache. +func typeReflectEntryOf(cm reflectCacheMap, t reflect.Type, updates reflectCacheMap) *TypeReflectCacheEntry { + if record, ok := cm[t]; ok { + return record + } + if record, ok := updates[t]; ok { + return record + } + typeEntry := &TypeReflectCacheEntry{ + isJsonMarshaler: t.Implements(marshalerType), + ptrIsJsonMarshaler: reflect.PtrTo(t).Implements(marshalerType), + isJsonUnmarshaler: reflect.PtrTo(t).Implements(unmarshalerType), + isStringConvertable: t.Implements(unstructuredConvertableType), + ptrIsStringConvertable: reflect.PtrTo(t).Implements(unstructuredConvertableType), + } + if t.Kind() == reflect.Struct { + fieldEntries := map[string]*FieldCacheEntry{} + buildStructCacheEntry(t, fieldEntries, nil) + typeEntry.structFields = fieldEntries + sortedByJsonName := make([]*FieldCacheEntry, len(fieldEntries)) + i := 0 + for _, entry := range fieldEntries { + sortedByJsonName[i] = entry + i++ + } + sort.Slice(sortedByJsonName, func(i, j int) bool { + return sortedByJsonName[i].JsonName < sortedByJsonName[j].JsonName + }) + typeEntry.orderedStructFields = sortedByJsonName + } + + // cyclic type references are allowed, so we must add the typeEntry to the updates map before resolving + // the field.typeEntry references, or creating them if they are not already in the cache + updates[t] = typeEntry + + for _, field := range typeEntry.structFields { + if field.TypeEntry == nil { + field.TypeEntry = typeReflectEntryOf(cm, field.fieldType, updates) + } + } + return typeEntry +} + +func buildStructCacheEntry(t reflect.Type, infos map[string]*FieldCacheEntry, fieldPath [][]int) { + for i := 0; i < t.NumField(); i++ { + field := t.Field(i) + jsonName, omit, isInline, isOmitempty := lookupJsonTags(field) + if omit { + continue + } + if isInline { + buildStructCacheEntry(field.Type, infos, append(fieldPath, field.Index)) + continue + } + info := &FieldCacheEntry{JsonName: jsonName, isOmitEmpty: isOmitempty, fieldPath: append(fieldPath, field.Index), fieldType: field.Type} + infos[jsonName] = info + } +} + +// Fields returns a map of JSON field name to FieldCacheEntry for structs, or nil for non-structs. +func (e TypeReflectCacheEntry) Fields() map[string]*FieldCacheEntry { + return e.structFields +} + +// Fields returns a map of JSON field name to FieldCacheEntry for structs, or nil for non-structs. +func (e TypeReflectCacheEntry) OrderedFields() []*FieldCacheEntry { + return e.orderedStructFields +} + +// CanConvertToUnstructured returns true if this TypeReflectCacheEntry can convert values of its type to unstructured. +func (e TypeReflectCacheEntry) CanConvertToUnstructured() bool { + return e.isJsonMarshaler || e.ptrIsJsonMarshaler || e.isStringConvertable || e.ptrIsStringConvertable +} + +// ToUnstructured converts the provided value to unstructured and returns it. +func (e TypeReflectCacheEntry) ToUnstructured(sv reflect.Value) (interface{}, error) { + // This is based on https://github.com/kubernetes/kubernetes/blob/82c9e5c814eb7acc6cc0a090c057294d0667ad66/staging/src/k8s.io/apimachinery/pkg/runtime/converter.go#L505 + // and is intended to replace it. + + // Check if the object has a custom string converter and use it if available, since it is much more efficient + // than round tripping through json. + if converter, ok := e.getUnstructuredConverter(sv); ok { + return converter.ToUnstructured(), nil + } + // Check if the object has a custom JSON marshaller/unmarshaller. + if marshaler, ok := e.getJsonMarshaler(sv); ok { + if sv.Kind() == reflect.Ptr && sv.IsNil() { + // We're done - we don't need to store anything. + return nil, nil + } + + data, err := marshaler.MarshalJSON() + if err != nil { + return nil, err + } + switch { + case len(data) == 0: + return nil, fmt.Errorf("error decoding from json: empty value") + + case bytes.Equal(data, nullBytes): + // We're done - we don't need to store anything. + return nil, nil + + case bytes.Equal(data, trueBytes): + return true, nil + + case bytes.Equal(data, falseBytes): + return false, nil + + case data[0] == '"': + var result string + err := unmarshal(data, &result) + if err != nil { + return nil, fmt.Errorf("error decoding string from json: %v", err) + } + return result, nil + + case data[0] == '{': + result := make(map[string]interface{}) + err := unmarshal(data, &result) + if err != nil { + return nil, fmt.Errorf("error decoding object from json: %v", err) + } + return result, nil + + case data[0] == '[': + result := make([]interface{}, 0) + err := unmarshal(data, &result) + if err != nil { + return nil, fmt.Errorf("error decoding array from json: %v", err) + } + return result, nil + + default: + var ( + resultInt int64 + resultFloat float64 + err error + ) + if err = unmarshal(data, &resultInt); err == nil { + return resultInt, nil + } else if err = unmarshal(data, &resultFloat); err == nil { + return resultFloat, nil + } else { + return nil, fmt.Errorf("error decoding number from json: %v", err) + } + } + } + + return nil, fmt.Errorf("provided type cannot be converted: %v", sv.Type()) +} + +// CanConvertFromUnstructured returns true if this TypeReflectCacheEntry can convert objects of the type from unstructured. +func (e TypeReflectCacheEntry) CanConvertFromUnstructured() bool { + return e.isJsonUnmarshaler +} + +// FromUnstructured converts the provided source value from unstructured into the provided destination value. +func (e TypeReflectCacheEntry) FromUnstructured(sv, dv reflect.Value) error { + // TODO: this could be made much more efficient using direct conversions like + // UnstructuredConverter.ToUnstructured provides. + st := dv.Type() + data, err := json.Marshal(sv.Interface()) + if err != nil { + return fmt.Errorf("error encoding %s to json: %v", st.String(), err) + } + if unmarshaler, ok := e.getJsonUnmarshaler(dv); ok { + return unmarshaler.UnmarshalJSON(data) + } + return fmt.Errorf("unable to unmarshal %v into %v", sv.Type(), dv.Type()) +} + +var ( + nullBytes = []byte("null") + trueBytes = []byte("true") + falseBytes = []byte("false") +) + +func (e TypeReflectCacheEntry) getJsonMarshaler(v reflect.Value) (json.Marshaler, bool) { + if e.isJsonMarshaler { + return v.Interface().(json.Marshaler), true + } + if e.ptrIsJsonMarshaler { + // Check pointer receivers if v is not a pointer + if v.Kind() != reflect.Ptr && v.CanAddr() { + v = v.Addr() + return v.Interface().(json.Marshaler), true + } + } + return nil, false +} + +func (e TypeReflectCacheEntry) getJsonUnmarshaler(v reflect.Value) (json.Unmarshaler, bool) { + if !e.isJsonUnmarshaler { + return nil, false + } + return v.Addr().Interface().(json.Unmarshaler), true +} + +func (e TypeReflectCacheEntry) getUnstructuredConverter(v reflect.Value) (UnstructuredConverter, bool) { + if e.isStringConvertable { + return v.Interface().(UnstructuredConverter), true + } + if e.ptrIsStringConvertable { + // Check pointer receivers if v is not a pointer + if v.CanAddr() { + v = v.Addr() + return v.Interface().(UnstructuredConverter), true + } + } + return nil, false +} + +type typeReflectCache struct { + // use an atomic and copy-on-write since there are a fixed (typically very small) number of structs compiled into any + // go program using this cache + value atomic.Value + // mu is held by writers when performing load/modify/store operations on the cache, readers do not need to hold a + // read-lock since the atomic value is always read-only + mu sync.Mutex +} + +func newReflectCache() *typeReflectCache { + cache := &typeReflectCache{} + cache.value.Store(make(reflectCacheMap)) + return cache +} + +type reflectCacheMap map[reflect.Type]*TypeReflectCacheEntry + +// get returns the reflectCacheMap. +func (c *typeReflectCache) get() reflectCacheMap { + return c.value.Load().(reflectCacheMap) +} + +// update merges the provided updates into the cache. +func (c *typeReflectCache) update(updates reflectCacheMap) { + c.mu.Lock() + defer c.mu.Unlock() + + currentCacheMap := c.value.Load().(reflectCacheMap) + + hasNewEntries := false + for t := range updates { + if _, ok := currentCacheMap[t]; !ok { + hasNewEntries = true + break + } + } + if !hasNewEntries { + // Bail if the updates have been set while waiting for lock acquisition. + // This is safe since setting entries is idempotent. + return + } + + newCacheMap := make(reflectCacheMap, len(currentCacheMap)+len(updates)) + for k, v := range currentCacheMap { + newCacheMap[k] = v + } + for t, update := range updates { + newCacheMap[t] = update + } + c.value.Store(newCacheMap) +} + +// Below json Unmarshal is fromk8s.io/apimachinery/pkg/util/json +// to handle number conversions as expected by Kubernetes + +// limit recursive depth to prevent stack overflow errors +const maxDepth = 10000 + +// unmarshal unmarshals the given data +// If v is a *map[string]interface{}, numbers are converted to int64 or float64 +func unmarshal(data []byte, v interface{}) error { + switch v := v.(type) { + case *map[string]interface{}: + // Build a decoder from the given data + decoder := json.NewDecoder(bytes.NewBuffer(data)) + // Preserve numbers, rather than casting to float64 automatically + decoder.UseNumber() + // Run the decode + if err := decoder.Decode(v); err != nil { + return err + } + // If the decode succeeds, post-process the map to convert json.Number objects to int64 or float64 + return convertMapNumbers(*v, 0) + + case *[]interface{}: + // Build a decoder from the given data + decoder := json.NewDecoder(bytes.NewBuffer(data)) + // Preserve numbers, rather than casting to float64 automatically + decoder.UseNumber() + // Run the decode + if err := decoder.Decode(v); err != nil { + return err + } + // If the decode succeeds, post-process the map to convert json.Number objects to int64 or float64 + return convertSliceNumbers(*v, 0) + + default: + return json.Unmarshal(data, v) + } +} + +// convertMapNumbers traverses the map, converting any json.Number values to int64 or float64. +// values which are map[string]interface{} or []interface{} are recursively visited +func convertMapNumbers(m map[string]interface{}, depth int) error { + if depth > maxDepth { + return fmt.Errorf("exceeded max depth of %d", maxDepth) + } + + var err error + for k, v := range m { + switch v := v.(type) { + case json.Number: + m[k], err = convertNumber(v) + case map[string]interface{}: + err = convertMapNumbers(v, depth+1) + case []interface{}: + err = convertSliceNumbers(v, depth+1) + } + if err != nil { + return err + } + } + return nil +} + +// convertSliceNumbers traverses the slice, converting any json.Number values to int64 or float64. +// values which are map[string]interface{} or []interface{} are recursively visited +func convertSliceNumbers(s []interface{}, depth int) error { + if depth > maxDepth { + return fmt.Errorf("exceeded max depth of %d", maxDepth) + } + + var err error + for i, v := range s { + switch v := v.(type) { + case json.Number: + s[i], err = convertNumber(v) + case map[string]interface{}: + err = convertMapNumbers(v, depth+1) + case []interface{}: + err = convertSliceNumbers(v, depth+1) + } + if err != nil { + return err + } + } + return nil +} + +// convertNumber converts a json.Number to an int64 or float64, or returns an error +func convertNumber(n json.Number) (interface{}, error) { + // Attempt to convert to an int64 first + if i, err := n.Int64(); err == nil { + return i, nil + } + // Return a float64 (default json.Decode() behavior) + // An overflow will return an error + return n.Float64() +} diff --git a/vendor/sigs.k8s.io/structured-merge-diff/v3/value/scalar.go b/vendor/sigs.k8s.io/structured-merge-diff/v3/value/scalar.go new file mode 100644 index 000000000..c78a4c18d --- /dev/null +++ b/vendor/sigs.k8s.io/structured-merge-diff/v3/value/scalar.go @@ -0,0 +1,50 @@ +/* +Copyright 2019 The Kubernetes Authors. + +Licensed under the Apache License, Version 2.0 (the "License"); +you may not use this file except in compliance with the License. +You may obtain a copy of the License at + + http://www.apache.org/licenses/LICENSE-2.0 + +Unless required by applicable law or agreed to in writing, software +distributed under the License is distributed on an "AS IS" BASIS, +WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +See the License for the specific language governing permissions and +limitations under the License. +*/ + +package value + +// Compare compares floats. The result will be 0 if lhs==rhs, -1 if f < +// rhs, and +1 if f > rhs. +func FloatCompare(lhs, rhs float64) int { + if lhs > rhs { + return 1 + } else if lhs < rhs { + return -1 + } + return 0 +} + +// IntCompare compares integers. The result will be 0 if i==rhs, -1 if i < +// rhs, and +1 if i > rhs. +func IntCompare(lhs, rhs int64) int { + if lhs > rhs { + return 1 + } else if lhs < rhs { + return -1 + } + return 0 +} + +// Compare compares booleans. The result will be 0 if b==rhs, -1 if b < +// rhs, and +1 if b > rhs. +func BoolCompare(lhs, rhs bool) int { + if lhs == rhs { + return 0 + } else if lhs == false { + return -1 + } + return 1 +} diff --git a/vendor/sigs.k8s.io/structured-merge-diff/v3/value/structreflect.go b/vendor/sigs.k8s.io/structured-merge-diff/v3/value/structreflect.go new file mode 100644 index 000000000..4a7bb5c6e --- /dev/null +++ b/vendor/sigs.k8s.io/structured-merge-diff/v3/value/structreflect.go @@ -0,0 +1,208 @@ +/* +Copyright 2019 The Kubernetes Authors. + +Licensed under the Apache License, Version 2.0 (the "License"); +you may not use this file except in compliance with the License. +You may obtain a copy of the License at + + http://www.apache.org/licenses/LICENSE-2.0 + +Unless required by applicable law or agreed to in writing, software +distributed under the License is distributed on an "AS IS" BASIS, +WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +See the License for the specific language governing permissions and +limitations under the License. +*/ + +package value + +import ( + "fmt" + "reflect" +) + +type structReflect struct { + valueReflect +} + +func (r structReflect) Length() int { + i := 0 + eachStructField(r.Value, func(_ *TypeReflectCacheEntry, s string, value reflect.Value) bool { + i++ + return true + }) + return i +} + +func (r structReflect) Empty() bool { + return eachStructField(r.Value, func(_ *TypeReflectCacheEntry, s string, value reflect.Value) bool { + return false // exit early if the struct is non-empty + }) +} + +func (r structReflect) Get(key string) (Value, bool) { + return r.GetUsing(HeapAllocator, key) +} + +func (r structReflect) GetUsing(a Allocator, key string) (Value, bool) { + if val, ok := r.findJsonNameField(key); ok { + return a.allocValueReflect().mustReuse(val, nil, nil, nil), true + } + return nil, false +} + +func (r structReflect) Has(key string) bool { + _, ok := r.findJsonNameField(key) + return ok +} + +func (r structReflect) Set(key string, val Value) { + fieldEntry, ok := TypeReflectEntryOf(r.Value.Type()).Fields()[key] + if !ok { + panic(fmt.Sprintf("key %s may not be set on struct %T: field does not exist", key, r.Value.Interface())) + } + oldVal := fieldEntry.GetFrom(r.Value) + newVal := reflect.ValueOf(val.Unstructured()) + r.update(fieldEntry, key, oldVal, newVal) +} + +func (r structReflect) Delete(key string) { + fieldEntry, ok := TypeReflectEntryOf(r.Value.Type()).Fields()[key] + if !ok { + panic(fmt.Sprintf("key %s may not be deleted on struct %T: field does not exist", key, r.Value.Interface())) + } + oldVal := fieldEntry.GetFrom(r.Value) + if oldVal.Kind() != reflect.Ptr && !fieldEntry.isOmitEmpty { + panic(fmt.Sprintf("key %s may not be deleted on struct: %T: value is neither a pointer nor an omitempty field", key, r.Value.Interface())) + } + r.update(fieldEntry, key, oldVal, reflect.Zero(oldVal.Type())) +} + +func (r structReflect) update(fieldEntry *FieldCacheEntry, key string, oldVal, newVal reflect.Value) { + if oldVal.CanSet() { + oldVal.Set(newVal) + return + } + + // map items are not addressable, so if a struct is contained in a map, the only way to modify it is + // to write a replacement fieldEntry into the map. + if r.ParentMap != nil { + if r.ParentMapKey == nil { + panic("ParentMapKey must not be nil if ParentMap is not nil") + } + replacement := reflect.New(r.Value.Type()).Elem() + fieldEntry.GetFrom(replacement).Set(newVal) + r.ParentMap.SetMapIndex(*r.ParentMapKey, replacement) + return + } + + // This should never happen since NewValueReflect ensures that the root object reflected on is a pointer and map + // item replacement is handled above. + panic(fmt.Sprintf("key %s may not be modified on struct: %T: struct is not settable", key, r.Value.Interface())) +} + +func (r structReflect) Iterate(fn func(string, Value) bool) bool { + return r.IterateUsing(HeapAllocator, fn) +} + +func (r structReflect) IterateUsing(a Allocator, fn func(string, Value) bool) bool { + vr := a.allocValueReflect() + defer a.Free(vr) + return eachStructField(r.Value, func(e *TypeReflectCacheEntry, s string, value reflect.Value) bool { + return fn(s, vr.mustReuse(value, e, nil, nil)) + }) +} + +func eachStructField(structVal reflect.Value, fn func(*TypeReflectCacheEntry, string, reflect.Value) bool) bool { + for _, fieldCacheEntry := range TypeReflectEntryOf(structVal.Type()).OrderedFields() { + fieldVal := fieldCacheEntry.GetFrom(structVal) + if fieldCacheEntry.CanOmit(fieldVal) { + // omit it + continue + } + ok := fn(fieldCacheEntry.TypeEntry, fieldCacheEntry.JsonName, fieldVal) + if !ok { + return false + } + } + return true +} + +func (r structReflect) Unstructured() interface{} { + // Use number of struct fields as a cheap way to rough estimate map size + result := make(map[string]interface{}, r.Value.NumField()) + r.Iterate(func(s string, value Value) bool { + result[s] = value.Unstructured() + return true + }) + return result +} + +func (r structReflect) Equals(m Map) bool { + return r.EqualsUsing(HeapAllocator, m) +} + +func (r structReflect) EqualsUsing(a Allocator, m Map) bool { + // MapEquals uses zip and is fairly efficient for structReflect + return MapEqualsUsing(a, &r, m) +} + +func (r structReflect) findJsonNameFieldAndNotEmpty(jsonName string) (reflect.Value, bool) { + structCacheEntry, ok := TypeReflectEntryOf(r.Value.Type()).Fields()[jsonName] + if !ok { + return reflect.Value{}, false + } + fieldVal := structCacheEntry.GetFrom(r.Value) + return fieldVal, !structCacheEntry.CanOmit(fieldVal) +} + +func (r structReflect) findJsonNameField(jsonName string) (val reflect.Value, ok bool) { + structCacheEntry, ok := TypeReflectEntryOf(r.Value.Type()).Fields()[jsonName] + if !ok { + return reflect.Value{}, false + } + fieldVal := structCacheEntry.GetFrom(r.Value) + return fieldVal, !structCacheEntry.CanOmit(fieldVal) +} + +func (r structReflect) Zip(other Map, order MapTraverseOrder, fn func(key string, lhs, rhs Value) bool) bool { + return r.ZipUsing(HeapAllocator, other, order, fn) +} + +func (r structReflect) ZipUsing(a Allocator, other Map, order MapTraverseOrder, fn func(key string, lhs, rhs Value) bool) bool { + if otherStruct, ok := other.(*structReflect); ok && r.Value.Type() == otherStruct.Value.Type() { + lhsvr, rhsvr := a.allocValueReflect(), a.allocValueReflect() + defer a.Free(lhsvr) + defer a.Free(rhsvr) + return r.structZip(otherStruct, lhsvr, rhsvr, fn) + } + return defaultMapZip(a, &r, other, order, fn) +} + +// structZip provides an optimized zip for structReflect types. The zip is always lexical key ordered since there is +// no additional cost to ordering the zip for structured types. +func (r structReflect) structZip(other *structReflect, lhsvr, rhsvr *valueReflect, fn func(key string, lhs, rhs Value) bool) bool { + lhsVal := r.Value + rhsVal := other.Value + + for _, fieldCacheEntry := range TypeReflectEntryOf(lhsVal.Type()).OrderedFields() { + lhsFieldVal := fieldCacheEntry.GetFrom(lhsVal) + rhsFieldVal := fieldCacheEntry.GetFrom(rhsVal) + lhsOmit := fieldCacheEntry.CanOmit(lhsFieldVal) + rhsOmit := fieldCacheEntry.CanOmit(rhsFieldVal) + if lhsOmit && rhsOmit { + continue + } + var lhsVal, rhsVal Value + if !lhsOmit { + lhsVal = lhsvr.mustReuse(lhsFieldVal, fieldCacheEntry.TypeEntry, nil, nil) + } + if !rhsOmit { + rhsVal = rhsvr.mustReuse(rhsFieldVal, fieldCacheEntry.TypeEntry, nil, nil) + } + if !fn(fieldCacheEntry.JsonName, lhsVal, rhsVal) { + return false + } + } + return true +} diff --git a/vendor/sigs.k8s.io/structured-merge-diff/v3/value/value.go b/vendor/sigs.k8s.io/structured-merge-diff/v3/value/value.go new file mode 100644 index 000000000..ea79e3a00 --- /dev/null +++ b/vendor/sigs.k8s.io/structured-merge-diff/v3/value/value.go @@ -0,0 +1,347 @@ +/* +Copyright 2018 The Kubernetes Authors. + +Licensed under the Apache License, Version 2.0 (the "License"); +you may not use this file except in compliance with the License. +You may obtain a copy of the License at + + http://www.apache.org/licenses/LICENSE-2.0 + +Unless required by applicable law or agreed to in writing, software +distributed under the License is distributed on an "AS IS" BASIS, +WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +See the License for the specific language governing permissions and +limitations under the License. +*/ + +package value + +import ( + "bytes" + "fmt" + "io" + "strings" + + jsoniter "github.com/json-iterator/go" + "gopkg.in/yaml.v2" +) + +var ( + readPool = jsoniter.NewIterator(jsoniter.ConfigCompatibleWithStandardLibrary).Pool() + writePool = jsoniter.NewStream(jsoniter.ConfigCompatibleWithStandardLibrary, nil, 1024).Pool() +) + +// A Value corresponds to an 'atom' in the schema. It should return true +// for at least one of the IsXXX methods below, or the value is +// considered "invalid" +type Value interface { + // IsMap returns true if the Value is a Map, false otherwise. + IsMap() bool + // IsList returns true if the Value is a List, false otherwise. + IsList() bool + // IsBool returns true if the Value is a bool, false otherwise. + IsBool() bool + // IsInt returns true if the Value is a int64, false otherwise. + IsInt() bool + // IsFloat returns true if the Value is a float64, false + // otherwise. + IsFloat() bool + // IsString returns true if the Value is a string, false + // otherwise. + IsString() bool + // IsMap returns true if the Value is null, false otherwise. + IsNull() bool + + // AsMap converts the Value into a Map (or panic if the type + // doesn't allow it). + AsMap() Map + // AsMapUsing uses the provided allocator and converts the Value + // into a Map (or panic if the type doesn't allow it). + AsMapUsing(Allocator) Map + // AsList converts the Value into a List (or panic if the type + // doesn't allow it). + AsList() List + // AsListUsing uses the provided allocator and converts the Value + // into a List (or panic if the type doesn't allow it). + AsListUsing(Allocator) List + // AsBool converts the Value into a bool (or panic if the type + // doesn't allow it). + AsBool() bool + // AsInt converts the Value into an int64 (or panic if the type + // doesn't allow it). + AsInt() int64 + // AsFloat converts the Value into a float64 (or panic if the type + // doesn't allow it). + AsFloat() float64 + // AsString converts the Value into a string (or panic if the type + // doesn't allow it). + AsString() string + + // Unstructured converts the Value into an Unstructured interface{}. + Unstructured() interface{} +} + +// FromJSON is a helper function for reading a JSON document. +func FromJSON(input []byte) (Value, error) { + return FromJSONFast(input) +} + +// FromJSONFast is a helper function for reading a JSON document. +func FromJSONFast(input []byte) (Value, error) { + iter := readPool.BorrowIterator(input) + defer readPool.ReturnIterator(iter) + return ReadJSONIter(iter) +} + +// ToJSON is a helper function for producing a JSon document. +func ToJSON(v Value) ([]byte, error) { + buf := bytes.Buffer{} + stream := writePool.BorrowStream(&buf) + defer writePool.ReturnStream(stream) + WriteJSONStream(v, stream) + b := stream.Buffer() + err := stream.Flush() + // Help jsoniter manage its buffers--without this, the next + // use of the stream is likely to require an allocation. Look + // at the jsoniter stream code to understand why. They were probably + // optimizing for folks using the buffer directly. + stream.SetBuffer(b[:0]) + return buf.Bytes(), err +} + +// ReadJSONIter reads a Value from a JSON iterator. +func ReadJSONIter(iter *jsoniter.Iterator) (Value, error) { + v := iter.Read() + if iter.Error != nil && iter.Error != io.EOF { + return nil, iter.Error + } + return NewValueInterface(v), nil +} + +// WriteJSONStream writes a value into a JSON stream. +func WriteJSONStream(v Value, stream *jsoniter.Stream) { + stream.WriteVal(v.Unstructured()) +} + +// ToYAML marshals a value as YAML. +func ToYAML(v Value) ([]byte, error) { + return yaml.Marshal(v.Unstructured()) +} + +// Equals returns true iff the two values are equal. +func Equals(lhs, rhs Value) bool { + return EqualsUsing(HeapAllocator, lhs, rhs) +} + +// EqualsUsing uses the provided allocator and returns true iff the two values are equal. +func EqualsUsing(a Allocator, lhs, rhs Value) bool { + if lhs.IsFloat() || rhs.IsFloat() { + var lf float64 + if lhs.IsFloat() { + lf = lhs.AsFloat() + } else if lhs.IsInt() { + lf = float64(lhs.AsInt()) + } else { + return false + } + var rf float64 + if rhs.IsFloat() { + rf = rhs.AsFloat() + } else if rhs.IsInt() { + rf = float64(rhs.AsInt()) + } else { + return false + } + return lf == rf + } + if lhs.IsInt() { + if rhs.IsInt() { + return lhs.AsInt() == rhs.AsInt() + } + return false + } else if rhs.IsInt() { + return false + } + if lhs.IsString() { + if rhs.IsString() { + return lhs.AsString() == rhs.AsString() + } + return false + } else if rhs.IsString() { + return false + } + if lhs.IsBool() { + if rhs.IsBool() { + return lhs.AsBool() == rhs.AsBool() + } + return false + } else if rhs.IsBool() { + return false + } + if lhs.IsList() { + if rhs.IsList() { + lhsList := lhs.AsListUsing(a) + defer a.Free(lhsList) + rhsList := rhs.AsListUsing(a) + defer a.Free(rhsList) + return lhsList.EqualsUsing(a, rhsList) + } + return false + } else if rhs.IsList() { + return false + } + if lhs.IsMap() { + if rhs.IsMap() { + lhsList := lhs.AsMapUsing(a) + defer a.Free(lhsList) + rhsList := rhs.AsMapUsing(a) + defer a.Free(rhsList) + return lhsList.EqualsUsing(a, rhsList) + } + return false + } else if rhs.IsMap() { + return false + } + if lhs.IsNull() { + if rhs.IsNull() { + return true + } + return false + } else if rhs.IsNull() { + return false + } + // No field is set, on either objects. + return true +} + +// ToString returns a human-readable representation of the value. +func ToString(v Value) string { + if v.IsNull() { + return "null" + } + switch { + case v.IsFloat(): + return fmt.Sprintf("%v", v.AsFloat()) + case v.IsInt(): + return fmt.Sprintf("%v", v.AsInt()) + case v.IsString(): + return fmt.Sprintf("%q", v.AsString()) + case v.IsBool(): + return fmt.Sprintf("%v", v.AsBool()) + case v.IsList(): + strs := []string{} + list := v.AsList() + for i := 0; i < list.Length(); i++ { + strs = append(strs, ToString(list.At(i))) + } + return "[" + strings.Join(strs, ",") + "]" + case v.IsMap(): + strs := []string{} + v.AsMap().Iterate(func(k string, v Value) bool { + strs = append(strs, fmt.Sprintf("%v=%v", k, ToString(v))) + return true + }) + return strings.Join(strs, "") + } + // No field is set, on either objects. + return "{{undefined}}" +} + +// Less provides a total ordering for Value (so that they can be sorted, even +// if they are of different types). +func Less(lhs, rhs Value) bool { + return Compare(lhs, rhs) == -1 +} + +// Compare provides a total ordering for Value (so that they can be +// sorted, even if they are of different types). The result will be 0 if +// v==rhs, -1 if v < rhs, and +1 if v > rhs. +func Compare(lhs, rhs Value) int { + return CompareUsing(HeapAllocator, lhs, rhs) +} + +// CompareUsing uses the provided allocator and provides a total +// ordering for Value (so that they can be sorted, even if they +// are of different types). The result will be 0 if v==rhs, -1 +// if v < rhs, and +1 if v > rhs. +func CompareUsing(a Allocator, lhs, rhs Value) int { + if lhs.IsFloat() { + if !rhs.IsFloat() { + // Extra: compare floats and ints numerically. + if rhs.IsInt() { + return FloatCompare(lhs.AsFloat(), float64(rhs.AsInt())) + } + return -1 + } + return FloatCompare(lhs.AsFloat(), rhs.AsFloat()) + } else if rhs.IsFloat() { + // Extra: compare floats and ints numerically. + if lhs.IsInt() { + return FloatCompare(float64(lhs.AsInt()), rhs.AsFloat()) + } + return 1 + } + + if lhs.IsInt() { + if !rhs.IsInt() { + return -1 + } + return IntCompare(lhs.AsInt(), rhs.AsInt()) + } else if rhs.IsInt() { + return 1 + } + + if lhs.IsString() { + if !rhs.IsString() { + return -1 + } + return strings.Compare(lhs.AsString(), rhs.AsString()) + } else if rhs.IsString() { + return 1 + } + + if lhs.IsBool() { + if !rhs.IsBool() { + return -1 + } + return BoolCompare(lhs.AsBool(), rhs.AsBool()) + } else if rhs.IsBool() { + return 1 + } + + if lhs.IsList() { + if !rhs.IsList() { + return -1 + } + lhsList := lhs.AsListUsing(a) + defer a.Free(lhsList) + rhsList := rhs.AsListUsing(a) + defer a.Free(rhsList) + return ListCompareUsing(a, lhsList, rhsList) + } else if rhs.IsList() { + return 1 + } + if lhs.IsMap() { + if !rhs.IsMap() { + return -1 + } + lhsMap := lhs.AsMapUsing(a) + defer a.Free(lhsMap) + rhsMap := rhs.AsMapUsing(a) + defer a.Free(rhsMap) + return MapCompareUsing(a, lhsMap, rhsMap) + } else if rhs.IsMap() { + return 1 + } + if lhs.IsNull() { + if !rhs.IsNull() { + return -1 + } + return 0 + } else if rhs.IsNull() { + return 1 + } + + // Invalid Value-- nothing is set. + return 0 +} diff --git a/vendor/sigs.k8s.io/structured-merge-diff/v3/value/valuereflect.go b/vendor/sigs.k8s.io/structured-merge-diff/v3/value/valuereflect.go new file mode 100644 index 000000000..05e70deba --- /dev/null +++ b/vendor/sigs.k8s.io/structured-merge-diff/v3/value/valuereflect.go @@ -0,0 +1,294 @@ +/* +Copyright 2019 The Kubernetes Authors. + +Licensed under the Apache License, Version 2.0 (the "License"); +you may not use this file except in compliance with the License. +You may obtain a copy of the License at + + http://www.apache.org/licenses/LICENSE-2.0 + +Unless required by applicable law or agreed to in writing, software +distributed under the License is distributed on an "AS IS" BASIS, +WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +See the License for the specific language governing permissions and +limitations under the License. +*/ + +package value + +import ( + "encoding/base64" + "fmt" + "reflect" +) + +// NewValueReflect creates a Value backed by an "interface{}" type, +// typically an structured object in Kubernetes world that is uses reflection to expose. +// The provided "interface{}" value must be a pointer so that the value can be modified via reflection. +// The provided "interface{}" may contain structs and types that are converted to Values +// by the jsonMarshaler interface. +func NewValueReflect(value interface{}) (Value, error) { + if value == nil { + return NewValueInterface(nil), nil + } + v := reflect.ValueOf(value) + if v.Kind() != reflect.Ptr { + // The root value to reflect on must be a pointer so that map.Set() and map.Delete() operations are possible. + return nil, fmt.Errorf("value provided to NewValueReflect must be a pointer") + } + return wrapValueReflect(v, nil, nil) +} + +// wrapValueReflect wraps the provide reflect.Value as a value. If parent in the data tree is a map, parentMap +// and parentMapKey must be provided so that the returned value may be set and deleted. +func wrapValueReflect(value reflect.Value, parentMap, parentMapKey *reflect.Value) (Value, error) { + val := HeapAllocator.allocValueReflect() + return val.reuse(value, nil, parentMap, parentMapKey) +} + +// wrapValueReflect wraps the provide reflect.Value as a value, and panics if there is an error. If parent in the data +// tree is a map, parentMap and parentMapKey must be provided so that the returned value may be set and deleted. +func mustWrapValueReflect(value reflect.Value, parentMap, parentMapKey *reflect.Value) Value { + v, err := wrapValueReflect(value, parentMap, parentMapKey) + if err != nil { + panic(err) + } + return v +} + +// the value interface doesn't care about the type for value.IsNull, so we can use a constant +var nilType = reflect.TypeOf(&struct{}{}) + +// reuse replaces the value of the valueReflect. If parent in the data tree is a map, parentMap and parentMapKey +// must be provided so that the returned value may be set and deleted. +func (r *valueReflect) reuse(value reflect.Value, cacheEntry *TypeReflectCacheEntry, parentMap, parentMapKey *reflect.Value) (Value, error) { + if cacheEntry == nil { + cacheEntry = TypeReflectEntryOf(value.Type()) + } + if cacheEntry.CanConvertToUnstructured() { + u, err := cacheEntry.ToUnstructured(value) + if err != nil { + return nil, err + } + if u == nil { + value = reflect.Zero(nilType) + } else { + value = reflect.ValueOf(u) + } + } + r.Value = dereference(value) + r.ParentMap = parentMap + r.ParentMapKey = parentMapKey + r.kind = kind(r.Value) + return r, nil +} + +// mustReuse replaces the value of the valueReflect and panics if there is an error. If parent in the data tree is a +// map, parentMap and parentMapKey must be provided so that the returned value may be set and deleted. +func (r *valueReflect) mustReuse(value reflect.Value, cacheEntry *TypeReflectCacheEntry, parentMap, parentMapKey *reflect.Value) Value { + v, err := r.reuse(value, cacheEntry, parentMap, parentMapKey) + if err != nil { + panic(err) + } + return v +} + +func dereference(val reflect.Value) reflect.Value { + kind := val.Kind() + if (kind == reflect.Interface || kind == reflect.Ptr) && !safeIsNil(val) { + return val.Elem() + } + return val +} + +type valueReflect struct { + ParentMap *reflect.Value + ParentMapKey *reflect.Value + Value reflect.Value + kind reflectType +} + +func (r valueReflect) IsMap() bool { + return r.kind == mapType || r.kind == structMapType +} + +func (r valueReflect) IsList() bool { + return r.kind == listType +} + +func (r valueReflect) IsBool() bool { + return r.kind == boolType +} + +func (r valueReflect) IsInt() bool { + return r.kind == intType || r.kind == uintType +} + +func (r valueReflect) IsFloat() bool { + return r.kind == floatType +} + +func (r valueReflect) IsString() bool { + return r.kind == stringType || r.kind == byteStringType +} + +func (r valueReflect) IsNull() bool { + return r.kind == nullType +} + +type reflectType = int + +const ( + mapType = iota + structMapType + listType + intType + uintType + floatType + stringType + byteStringType + boolType + nullType +) + +func kind(v reflect.Value) reflectType { + typ := v.Type() + rk := typ.Kind() + switch rk { + case reflect.Map: + if v.IsNil() { + return nullType + } + return mapType + case reflect.Struct: + return structMapType + case reflect.Int, reflect.Int64, reflect.Int32, reflect.Int16, reflect.Int8: + return intType + case reflect.Uint, reflect.Uint32, reflect.Uint16, reflect.Uint8: + // Uint64 deliberately excluded, see valueUnstructured.Int. + return uintType + case reflect.Float64, reflect.Float32: + return floatType + case reflect.String: + return stringType + case reflect.Bool: + return boolType + case reflect.Slice: + if v.IsNil() { + return nullType + } + elemKind := typ.Elem().Kind() + if elemKind == reflect.Uint8 { + return byteStringType + } + return listType + case reflect.Chan, reflect.Func, reflect.Ptr, reflect.UnsafePointer, reflect.Interface: + if v.IsNil() { + return nullType + } + panic(fmt.Sprintf("unsupported type: %v", v.Type())) + default: + panic(fmt.Sprintf("unsupported type: %v", v.Type())) + } +} + +// TODO find a cleaner way to avoid panics from reflect.IsNil() +func safeIsNil(v reflect.Value) bool { + k := v.Kind() + switch k { + case reflect.Chan, reflect.Func, reflect.Map, reflect.Ptr, reflect.UnsafePointer, reflect.Interface, reflect.Slice: + return v.IsNil() + } + return false +} + +func (r valueReflect) AsMap() Map { + return r.AsMapUsing(HeapAllocator) +} + +func (r valueReflect) AsMapUsing(a Allocator) Map { + switch r.kind { + case structMapType: + v := a.allocStructReflect() + v.valueReflect = r + return v + case mapType: + v := a.allocMapReflect() + v.valueReflect = r + return v + default: + panic("value is not a map or struct") + } +} + +func (r valueReflect) AsList() List { + return r.AsListUsing(HeapAllocator) +} + +func (r valueReflect) AsListUsing(a Allocator) List { + if r.IsList() { + v := a.allocListReflect() + v.Value = r.Value + return v + } + panic("value is not a list") +} + +func (r valueReflect) AsBool() bool { + if r.IsBool() { + return r.Value.Bool() + } + panic("value is not a bool") +} + +func (r valueReflect) AsInt() int64 { + if r.kind == intType { + return r.Value.Int() + } + if r.kind == uintType { + return int64(r.Value.Uint()) + } + + panic("value is not an int") +} + +func (r valueReflect) AsFloat() float64 { + if r.IsFloat() { + return r.Value.Float() + } + panic("value is not a float") +} + +func (r valueReflect) AsString() string { + switch r.kind { + case stringType: + return r.Value.String() + case byteStringType: + return base64.StdEncoding.EncodeToString(r.Value.Bytes()) + } + panic("value is not a string") +} + +func (r valueReflect) Unstructured() interface{} { + val := r.Value + switch { + case r.IsNull(): + return nil + case val.Kind() == reflect.Struct: + return structReflect{r}.Unstructured() + case val.Kind() == reflect.Map: + return mapReflect{valueReflect: r}.Unstructured() + case r.IsList(): + return listReflect{r.Value}.Unstructured() + case r.IsString(): + return r.AsString() + case r.IsInt(): + return r.AsInt() + case r.IsBool(): + return r.AsBool() + case r.IsFloat(): + return r.AsFloat() + default: + panic(fmt.Sprintf("value of type %s is not a supported by value reflector", val.Type())) + } +} diff --git a/vendor/sigs.k8s.io/structured-merge-diff/v3/value/valueunstructured.go b/vendor/sigs.k8s.io/structured-merge-diff/v3/value/valueunstructured.go new file mode 100644 index 000000000..ac5a92628 --- /dev/null +++ b/vendor/sigs.k8s.io/structured-merge-diff/v3/value/valueunstructured.go @@ -0,0 +1,178 @@ +/* +Copyright 2018 The Kubernetes Authors. + +Licensed under the Apache License, Version 2.0 (the "License"); +you may not use this file except in compliance with the License. +You may obtain a copy of the License at + + http://www.apache.org/licenses/LICENSE-2.0 + +Unless required by applicable law or agreed to in writing, software +distributed under the License is distributed on an "AS IS" BASIS, +WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +See the License for the specific language governing permissions and +limitations under the License. +*/ + +package value + +import ( + "fmt" +) + +// NewValueInterface creates a Value backed by an "interface{}" type, +// typically an unstructured object in Kubernetes world. +// interface{} must be one of: map[string]interface{}, map[interface{}]interface{}, []interface{}, int types, float types, +// string or boolean. Nested interface{} must also be one of these types. +func NewValueInterface(v interface{}) Value { + return Value(HeapAllocator.allocValueUnstructured().reuse(v)) +} + +type valueUnstructured struct { + Value interface{} +} + +// reuse replaces the value of the valueUnstructured. +func (vi *valueUnstructured) reuse(value interface{}) Value { + vi.Value = value + return vi +} + +func (v valueUnstructured) IsMap() bool { + if _, ok := v.Value.(map[string]interface{}); ok { + return true + } + if _, ok := v.Value.(map[interface{}]interface{}); ok { + return true + } + return false +} + +func (v valueUnstructured) AsMap() Map { + return v.AsMapUsing(HeapAllocator) +} + +func (v valueUnstructured) AsMapUsing(_ Allocator) Map { + if v.Value == nil { + panic("invalid nil") + } + switch t := v.Value.(type) { + case map[string]interface{}: + return mapUnstructuredString(t) + case map[interface{}]interface{}: + return mapUnstructuredInterface(t) + } + panic(fmt.Errorf("not a map: %#v", v)) +} + +func (v valueUnstructured) IsList() bool { + if v.Value == nil { + return false + } + _, ok := v.Value.([]interface{}) + return ok +} + +func (v valueUnstructured) AsList() List { + return v.AsListUsing(HeapAllocator) +} + +func (v valueUnstructured) AsListUsing(_ Allocator) List { + return listUnstructured(v.Value.([]interface{})) +} + +func (v valueUnstructured) IsFloat() bool { + if v.Value == nil { + return false + } else if _, ok := v.Value.(float64); ok { + return true + } else if _, ok := v.Value.(float32); ok { + return true + } + return false +} + +func (v valueUnstructured) AsFloat() float64 { + if f, ok := v.Value.(float32); ok { + return float64(f) + } + return v.Value.(float64) +} + +func (v valueUnstructured) IsInt() bool { + if v.Value == nil { + return false + } else if _, ok := v.Value.(int); ok { + return true + } else if _, ok := v.Value.(int8); ok { + return true + } else if _, ok := v.Value.(int16); ok { + return true + } else if _, ok := v.Value.(int32); ok { + return true + } else if _, ok := v.Value.(int64); ok { + return true + } else if _, ok := v.Value.(uint); ok { + return true + } else if _, ok := v.Value.(uint8); ok { + return true + } else if _, ok := v.Value.(uint16); ok { + return true + } else if _, ok := v.Value.(uint32); ok { + return true + } + return false +} + +func (v valueUnstructured) AsInt() int64 { + if i, ok := v.Value.(int); ok { + return int64(i) + } else if i, ok := v.Value.(int8); ok { + return int64(i) + } else if i, ok := v.Value.(int16); ok { + return int64(i) + } else if i, ok := v.Value.(int32); ok { + return int64(i) + } else if i, ok := v.Value.(uint); ok { + return int64(i) + } else if i, ok := v.Value.(uint8); ok { + return int64(i) + } else if i, ok := v.Value.(uint16); ok { + return int64(i) + } else if i, ok := v.Value.(uint32); ok { + return int64(i) + } + return v.Value.(int64) +} + +func (v valueUnstructured) IsString() bool { + if v.Value == nil { + return false + } + _, ok := v.Value.(string) + return ok +} + +func (v valueUnstructured) AsString() string { + return v.Value.(string) +} + +func (v valueUnstructured) IsBool() bool { + if v.Value == nil { + return false + } + _, ok := v.Value.(bool) + return ok +} + +func (v valueUnstructured) AsBool() bool { + return v.Value.(bool) +} + +func (v valueUnstructured) IsNull() bool { + return v.Value == nil +} + +func (v valueUnstructured) Unstructured() interface{} { + return v.Value +} |