tailscale/util/syspolicy/setting/snapshot.go

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// Copyright (c) Tailscale Inc & AUTHORS
// SPDX-License-Identifier: BSD-3-Clause
package setting
import (
"slices"
"strings"
xmaps "golang.org/x/exp/maps"
"tailscale.com/util/deephash"
)
// Snapshot is an immutable collection of ([Key], [RawItem]) pairs, representing
// a set of policy settings applied at a specific moment in time.
// A nil pointer to [Snapshot] is valid.
type Snapshot struct {
m map[Key]RawItem
sig deephash.Sum // of m
summary Summary
}
// NewSnapshot returns a new [Snapshot] with the specified items and options.
func NewSnapshot(items map[Key]RawItem, opts ...SummaryOption) *Snapshot {
return &Snapshot{m: xmaps.Clone(items), sig: deephash.Hash(&items), summary: SummaryWith(opts...)}
}
// All returns a map of all policy settings in s.
// The returned map must not be modified.
func (s *Snapshot) All() map[Key]RawItem {
if s == nil {
return nil
}
// TODO(nickkhyl): return iter.Seq2[[Key], [RawItem]] in Go 1.23,
// and remove [keyItemPair].
return s.m
}
// Get returns the value of the policy setting with the specified key
// or nil if it is not configured or has an error.
func (s *Snapshot) Get(k Key) any {
v, _ := s.GetErr(k)
return v
}
// GetErr returns the value of the policy setting with the specified key,
// [ErrNotConfigured] if it is not configured, or an error returned by
// the policy Store if the policy setting could not be read.
func (s *Snapshot) GetErr(k Key) (any, error) {
if s != nil {
if s, ok := s.m[k]; ok {
return s.Value(), s.Error()
}
}
return nil, ErrNotConfigured
}
// GetSetting returns the untyped policy setting with the specified key and true
// if a policy setting with such key has been configured;
// otherwise, it returns zero, false.
func (s *Snapshot) GetSetting(k Key) (setting RawItem, ok bool) {
setting, ok = s.m[k]
return setting, ok
}
// Equal reports whether s and s2 are equal.
func (s *Snapshot) Equal(s2 *Snapshot) bool {
if !s.EqualItems(s2) {
return false
}
return s.Summary() == s2.Summary()
}
// EqualItems reports whether items in s and s2 are equal.
func (s *Snapshot) EqualItems(s2 *Snapshot) bool {
if s == s2 {
return true
}
if s.Len() != s2.Len() {
return false
}
if s.Len() == 0 {
return true
}
return s.sig == s2.sig
}
// Keys return an iterator over keys in s. The iteration order is not specified
// and is not guaranteed to be the same from one call to the next.
func (s *Snapshot) Keys() []Key {
if s.m == nil {
return nil
}
// TODO(nickkhyl): return iter.Seq[Key] in Go 1.23.
return xmaps.Keys(s.m)
}
// Len reports the number of [RawItem]s in s.
func (s *Snapshot) Len() int {
if s == nil {
return 0
}
return len(s.m)
}
// Summary returns information about s as a whole rather than about specific [RawItem]s in it.
func (s *Snapshot) Summary() Summary {
if s == nil {
return Summary{}
}
return s.summary
}
// String implements [fmt.Stringer]
func (s *Snapshot) String() string {
if s.Len() == 0 && s.Summary().IsEmpty() {
return "{Empty}"
}
keys := s.Keys()
slices.Sort(keys)
var sb strings.Builder
if !s.summary.IsEmpty() {
sb.WriteRune('{')
if s.Len() == 0 {
sb.WriteString("Empty, ")
}
sb.WriteString(s.summary.String())
sb.WriteRune('}')
}
for _, k := range keys {
if sb.Len() != 0 {
sb.WriteRune('\n')
}
sb.WriteString(string(k))
sb.WriteString(" = ")
sb.WriteString(s.m[k].String())
}
return sb.String()
}
// MergeSnapshots returns a [Snapshot] that contains all [RawItem]s
// from snapshot1 and snapshot2 and the [Summary] with the narrower [PolicyScope].
// If there's a conflict between policy settings in the two snapshots,
// the policy settings from the snapshot with the broader scope take precedence.
// In other words, policy settings configured for the [DeviceScope] win
// over policy settings configured for a user scope.
func MergeSnapshots(snapshot1, snapshot2 *Snapshot) *Snapshot {
scope1, ok1 := snapshot1.Summary().Scope().GetOk()
scope2, ok2 := snapshot2.Summary().Scope().GetOk()
if ok1 && ok2 && scope1.StrictlyContains(scope2) {
// Swap snapshots if snapshot1 has higher precedence than snapshot2.
snapshot1, snapshot2 = snapshot2, snapshot1
}
if snapshot2.Len() == 0 {
return snapshot1
}
summaryOpts := make([]SummaryOption, 0, 2)
if scope, ok := snapshot1.Summary().Scope().GetOk(); ok {
// Use the scope from snapshot1, if present, which is the more specific snapshot.
summaryOpts = append(summaryOpts, scope)
}
if snapshot1.Len() == 0 {
if origin, ok := snapshot2.Summary().Origin().GetOk(); ok {
// Use the origin from snapshot2 if snapshot1 is empty.
summaryOpts = append(summaryOpts, origin)
}
return &Snapshot{snapshot2.m, snapshot2.sig, SummaryWith(summaryOpts...)}
}
m := make(map[Key]RawItem, snapshot1.Len()+snapshot2.Len())
xmaps.Copy(m, snapshot1.m)
xmaps.Copy(m, snapshot2.m) // snapshot2 has higher precedence
return &Snapshot{m, deephash.Hash(&m), SummaryWith(summaryOpts...)}
}