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355 lines
10 KiB
Go
355 lines
10 KiB
Go
// Copyright (c) 2022 Tailscale Inc & AUTHORS All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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// Package views provides read-only accessors for commonly used
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// value types.
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package views
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import (
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"encoding/json"
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"errors"
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"net/netip"
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"golang.org/x/exp/slices"
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"tailscale.com/net/tsaddr"
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)
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func unmarshalJSON[T any](b []byte, x *[]T) error {
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if *x != nil {
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return errors.New("already initialized")
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}
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if len(b) == 0 {
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return nil
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}
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return json.Unmarshal(b, x)
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}
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// StructView represents the corresponding StructView of a Viewable. The concrete types are
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// typically generated by tailscale.com/cmd/viewer.
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type StructView[T any] interface {
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// Valid reports whether the underlying Viewable is nil.
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Valid() bool
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// AsStruct returns a deep-copy of the underlying value.
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// It returns nil, if Valid() is false.
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AsStruct() T
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}
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// ViewCloner is any type that has had View and Clone funcs generated using
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// tailscale.com/cmd/viewer.
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type ViewCloner[T any, V StructView[T]] interface {
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// View returns a read-only view of Viewable.
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// If Viewable is nil, View().Valid() reports false.
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View() V
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// Clone returns a deep-clone of Viewable.
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// It returns nil, when Viewable is nil.
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Clone() T
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}
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// SliceOfViews returns a ViewSlice for x.
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func SliceOfViews[T ViewCloner[T, V], V StructView[T]](x []T) SliceView[T, V] {
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return SliceView[T, V]{x}
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}
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// SliceView is a read-only wrapper around a struct which should only be exposed
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// as a View.
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type SliceView[T ViewCloner[T, V], V StructView[T]] struct {
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// ж is the underlying mutable value, named with a hard-to-type
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// character that looks pointy like a pointer.
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// It is named distinctively to make you think of how dangerous it is to escape
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// to callers. You must not let callers be able to mutate it.
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ж []T
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}
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// MarshalJSON implements json.Marshaler.
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func (v SliceView[T, V]) MarshalJSON() ([]byte, error) { return json.Marshal(v.ж) }
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// UnmarshalJSON implements json.Unmarshaler.
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func (v *SliceView[T, V]) UnmarshalJSON(b []byte) error { return unmarshalJSON(b, &v.ж) }
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// IsNil reports whether the underlying slice is nil.
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func (v SliceView[T, V]) IsNil() bool { return v.ж == nil }
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// Len returns the length of the slice.
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func (v SliceView[T, V]) Len() int { return len(v.ж) }
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// At returns a View of the element at index `i` of the slice.
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func (v SliceView[T, V]) At(i int) V { return v.ж[i].View() }
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// AppendTo appends the underlying slice values to dst.
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func (v SliceView[T, V]) AppendTo(dst []V) []V {
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for _, x := range v.ж {
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dst = append(dst, x.View())
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}
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return dst
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}
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// AsSlice returns a copy of underlying slice.
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func (v SliceView[T, V]) AsSlice() []V {
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return v.AppendTo(nil)
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}
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// Slice is a read-only accessor for a slice.
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type Slice[T any] struct {
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// ж is the underlying mutable value, named with a hard-to-type
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// character that looks pointy like a pointer.
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// It is named distinctively to make you think of how dangerous it is to escape
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// to callers. You must not let callers be able to mutate it.
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ж []T
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}
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// SliceOf returns a Slice for the provided slice for immutable values.
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// It is the caller's responsibility to make sure V is immutable.
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func SliceOf[T any](x []T) Slice[T] {
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return Slice[T]{x}
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}
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// MarshalJSON implements json.Marshaler.
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func (v Slice[T]) MarshalJSON() ([]byte, error) {
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return json.Marshal(v.ж)
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}
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// UnmarshalJSON implements json.Unmarshaler.
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func (v *Slice[T]) UnmarshalJSON(b []byte) error {
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return unmarshalJSON(b, &v.ж)
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}
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// IsNil reports whether the underlying slice is nil.
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func (v Slice[T]) IsNil() bool { return v.ж == nil }
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// Len returns the length of the slice.
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func (v Slice[T]) Len() int { return len(v.ж) }
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// At returns the element at index `i` of the slice.
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func (v Slice[T]) At(i int) T { return v.ж[i] }
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// AppendTo appends the underlying slice values to dst.
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func (v Slice[T]) AppendTo(dst []T) []T {
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return append(dst, v.ж...)
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}
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// AsSlice returns a copy of underlying slice.
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func (v Slice[T]) AsSlice() []T {
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return v.AppendTo(v.ж[:0:0])
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}
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// IndexFunc returns the first index of an element in v satisfying f(e),
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// or -1 if none do.
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//
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// As it runs in O(n) time, use with care.
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func (v Slice[T]) IndexFunc(f func(T) bool) int {
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for i := 0; i < v.Len(); i++ {
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if f(v.At(i)) {
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return i
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}
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}
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return -1
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}
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// ContainsFunc reports whether any element in v satisfies f(e).
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//
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// As it runs in O(n) time, use with care.
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func (v Slice[T]) ContainsFunc(f func(T) bool) bool {
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for i := 0; i < v.Len(); i++ {
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if f(v.At(i)) {
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return true
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}
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}
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return false
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}
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// SliceContains reports whether v contains element e.
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//
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// As it runs in O(n) time, use with care.
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func SliceContains[T comparable](v Slice[T], e T) bool {
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for i := 0; i < v.Len(); i++ {
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if v.At(i) == e {
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return true
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}
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}
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return false
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}
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// IPPrefixSlice is a read-only accessor for a slice of netip.Prefix.
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type IPPrefixSlice struct {
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ж Slice[netip.Prefix]
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}
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// IPPrefixSliceOf returns a IPPrefixSlice for the provided slice.
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func IPPrefixSliceOf(x []netip.Prefix) IPPrefixSlice { return IPPrefixSlice{SliceOf(x)} }
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// IsNil reports whether the underlying slice is nil.
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func (v IPPrefixSlice) IsNil() bool { return v.ж.IsNil() }
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// Len returns the length of the slice.
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func (v IPPrefixSlice) Len() int { return v.ж.Len() }
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// At returns the IPPrefix at index `i` of the slice.
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func (v IPPrefixSlice) At(i int) netip.Prefix { return v.ж.At(i) }
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// AppendTo appends the underlying slice values to dst.
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func (v IPPrefixSlice) AppendTo(dst []netip.Prefix) []netip.Prefix {
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return v.ж.AppendTo(dst)
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}
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// Unwrap returns the underlying Slice[netip.Prefix].
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func (v IPPrefixSlice) Unwrap() Slice[netip.Prefix] {
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return v.ж
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}
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// AsSlice returns a copy of underlying slice.
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func (v IPPrefixSlice) AsSlice() []netip.Prefix {
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return v.ж.AsSlice()
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}
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// Filter returns a new slice, containing elements of v that match f.
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func (v IPPrefixSlice) Filter(f func(netip.Prefix) bool) []netip.Prefix {
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return tsaddr.FilterPrefixesCopy(v.ж.ж, f)
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}
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// PrefixesContainsIP reports whether any IPPrefix contains IP.
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func (v IPPrefixSlice) ContainsIP(ip netip.Addr) bool {
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return tsaddr.PrefixesContainsIP(v.ж.ж, ip)
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}
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// PrefixesContainsFunc reports whether f is true for any IPPrefix in the slice.
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func (v IPPrefixSlice) ContainsFunc(f func(netip.Prefix) bool) bool {
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return slices.ContainsFunc(v.ж.ж, f)
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}
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// ContainsExitRoutes reports whether v contains ExitNode Routes.
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func (v IPPrefixSlice) ContainsExitRoutes() bool {
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return tsaddr.ContainsExitRoutes(v.ж.ж)
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}
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// ContainsNonExitSubnetRoutes reports whether v contains Subnet
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// Routes other than ExitNode Routes.
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func (v IPPrefixSlice) ContainsNonExitSubnetRoutes() bool {
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for i := 0; i < v.Len(); i++ {
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if v.At(i).Bits() != 0 {
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return true
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}
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}
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return false
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}
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// MarshalJSON implements json.Marshaler.
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func (v IPPrefixSlice) MarshalJSON() ([]byte, error) {
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return v.ж.MarshalJSON()
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}
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// UnmarshalJSON implements json.Unmarshaler.
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func (v *IPPrefixSlice) UnmarshalJSON(b []byte) error {
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return v.ж.UnmarshalJSON(b)
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}
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// MapOf returns a view over m. It is the caller's responsibility to make sure K
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// and V is immutable, if this is being used to provide a read-only view over m.
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func MapOf[K comparable, V comparable](m map[K]V) Map[K, V] {
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return Map[K, V]{m}
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}
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// Map is a view over a map whose values are immutable.
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type Map[K comparable, V any] struct {
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// ж is the underlying mutable value, named with a hard-to-type
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// character that looks pointy like a pointer.
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// It is named distinctively to make you think of how dangerous it is to escape
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// to callers. You must not let callers be able to mutate it.
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ж map[K]V
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}
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// Has reports whether k has an entry in the map.
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func (m Map[K, V]) Has(k K) bool {
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_, ok := m.ж[k]
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return ok
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}
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// IsNil reports whether the underlying map is nil.
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func (m Map[K, V]) IsNil() bool {
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return m.ж == nil
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}
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// Len returns the number of elements in the map.
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func (m Map[K, V]) Len() int { return len(m.ж) }
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// Get returns the element with key k.
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func (m Map[K, V]) Get(k K) V {
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return m.ж[k]
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}
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// GetOk returns the element with key k and a bool representing whether the key
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// is in map.
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func (m Map[K, V]) GetOk(k K) (V, bool) {
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v, ok := m.ж[k]
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return v, ok
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}
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// MapRangeFn is the func called from a Map.Range call.
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// Implementations should return false to stop range.
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type MapRangeFn[K comparable, V any] func(k K, v V) (cont bool)
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// Range calls f for every k,v pair in the underlying map.
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// It stops iteration immediately if f returns false.
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func (m Map[K, V]) Range(f MapRangeFn[K, V]) {
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for k, v := range m.ж {
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if !f(k, v) {
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return
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}
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}
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}
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// MapFnOf returns a MapFn for m.
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func MapFnOf[K comparable, T any, V any](m map[K]T, f func(T) V) MapFn[K, T, V] {
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return MapFn[K, T, V]{
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ж: m,
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wrapv: f,
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}
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}
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// MapFn is like Map but with a func to convert values from T to V.
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// It is used to provide map of slices and views.
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type MapFn[K comparable, T any, V any] struct {
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// ж is the underlying mutable value, named with a hard-to-type
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// character that looks pointy like a pointer.
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// It is named distinctively to make you think of how dangerous it is to escape
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// to callers. You must not let callers be able to mutate it.
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ж map[K]T
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wrapv func(T) V
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}
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// Has reports whether k has an entry in the map.
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func (m MapFn[K, T, V]) Has(k K) bool {
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_, ok := m.ж[k]
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return ok
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}
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// Get returns the element with key k.
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func (m MapFn[K, T, V]) Get(k K) V {
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return m.wrapv(m.ж[k])
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}
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// IsNil reports whether the underlying map is nil.
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func (m MapFn[K, T, V]) IsNil() bool {
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return m.ж == nil
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}
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// Len returns the number of elements in the map.
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func (m MapFn[K, T, V]) Len() int { return len(m.ж) }
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// GetOk returns the element with key k and a bool representing whether the key
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// is in map.
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func (m MapFn[K, T, V]) GetOk(k K) (V, bool) {
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v, ok := m.ж[k]
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return m.wrapv(v), ok
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}
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// Range calls f for every k,v pair in the underlying map.
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// It stops iteration immediately if f returns false.
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func (m MapFn[K, T, V]) Range(f MapRangeFn[K, V]) {
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for k, v := range m.ж {
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if !f(k, m.wrapv(v)) {
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return
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}
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}
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}
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