tailscale/util/syspolicy/setting/policy_scope.go

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// Copyright (c) Tailscale Inc & AUTHORS
// SPDX-License-Identifier: BSD-3-Clause
package setting
import (
"fmt"
"strings"
"tailscale.com/types/lazy"
)
var (
lazyDefaultScope lazy.SyncValue[PolicyScope]
// DeviceScope indicates a scope containing device-global policies.
DeviceScope = PolicyScope{kind: DeviceSetting}
// CurrentProfileScope indicates a scope containing policies that apply to the
// currently active Tailscale profile.
CurrentProfileScope = PolicyScope{kind: ProfileSetting}
// CurrentUserScope indicates a scope containing policies that apply to the
// current user, for whatever that means on the current platform and
// in the current application context.
CurrentUserScope = PolicyScope{kind: UserSetting}
)
// PolicyScope is a management scope.
type PolicyScope struct {
kind Scope
userID string
profileID string
}
// DefaultScope returns the default [PolicyScope] to be used by a program
// when querying policy settings.
// It returns [DeviceScope], unless explicitly changed with [SetDefaultScope].
func DefaultScope() PolicyScope {
return lazyDefaultScope.Get(func() PolicyScope { return DeviceScope })
}
// SetDefaultScope attempts to set the specified scope as the default scope
// to be used by a program when querying policy settings.
// It fails and returns false if called more than once, or if the [DefaultScope]
// has already been used.
func SetDefaultScope(scope PolicyScope) bool {
return lazyDefaultScope.Set(scope)
}
// UserScopeOf returns a policy [PolicyScope] of the user with the specified id.
func UserScopeOf(uid string) PolicyScope {
return PolicyScope{kind: UserSetting, userID: uid}
}
// Kind reports the scope kind of s.
func (s PolicyScope) Kind() Scope {
return s.kind
}
// IsApplicableSetting reports whether the specified setting applies to
// and can be retrieved for this scope. Policy settings are applicable
// to their own scopes as well as more specific scopes. For example,
// device settings are applicable to device, profile and user scopes,
// but user settings are only applicable to user scopes.
// For instance, a menu visibility setting is inherently a user setting
// and only makes sense in the context of a specific user.
func (s PolicyScope) IsApplicableSetting(setting *Definition) bool {
return setting != nil && setting.Scope() <= s.Kind()
}
// IsConfigurableSetting reports whether the specified setting can be configured
// by a policy at this scope. Policy settings are configurable at their own scopes
// as well as broader scopes. For example, [UserSetting]s are configurable in
// user, profile, and device scopes, but [DeviceSetting]s are only configurable
// in the [DeviceScope]. For instance, the InstallUpdates policy setting
// can only be configured in the device scope, as it controls whether updates
// will be installed automatically on the device, rather than for specific users.
func (s PolicyScope) IsConfigurableSetting(setting *Definition) bool {
return setting != nil && setting.Scope() >= s.Kind()
}
// Contains reports whether policy settings that apply to s also apply to s2.
// For example, policy settings that apply to the [DeviceScope] also apply to
// the [CurrentUserScope].
func (s PolicyScope) Contains(s2 PolicyScope) bool {
if s.Kind() > s2.Kind() {
return false
}
switch s.Kind() {
case DeviceSetting:
return true
case ProfileSetting:
return s.profileID == s2.profileID
case UserSetting:
return s.userID == s2.userID
default:
panic("unreachable")
}
}
// StrictlyContains is like [PolicyScope.Contains], but returns false
// when s and s2 is the same scope.
func (s PolicyScope) StrictlyContains(s2 PolicyScope) bool {
return s != s2 && s.Contains(s2)
}
// String implements [fmt.Stringer].
func (s PolicyScope) String() string {
if s.profileID == "" && s.userID == "" {
return s.kind.String()
}
return s.stringSlow()
}
// MarshalText implements [encoding.TextMarshaler].
func (s PolicyScope) MarshalText() ([]byte, error) {
return []byte(s.String()), nil
}
// MarshalText implements [encoding.TextUnmarshaler].
func (s *PolicyScope) UnmarshalText(b []byte) error {
*s = PolicyScope{}
parts := strings.SplitN(string(b), "/", 2)
for i, part := range parts {
kind, id, err := parseScopeAndID(part)
if err != nil {
return err
}
if i > 0 && kind <= s.kind {
return fmt.Errorf("invalid scope hierarchy: %s", b)
}
s.kind = kind
switch kind {
case DeviceSetting:
if id != "" {
return fmt.Errorf("the device scope must not have an ID: %s", b)
}
case ProfileSetting:
s.profileID = id
case UserSetting:
s.userID = id
}
}
return nil
}
func (s PolicyScope) stringSlow() string {
var sb strings.Builder
writeScopeWithID := func(s Scope, id string) {
sb.WriteString(s.String())
if id != "" {
sb.WriteRune('(')
sb.WriteString(id)
sb.WriteRune(')')
}
}
if s.kind == ProfileSetting || s.profileID != "" {
writeScopeWithID(ProfileSetting, s.profileID)
if s.kind != ProfileSetting {
sb.WriteRune('/')
}
}
if s.kind == UserSetting {
writeScopeWithID(UserSetting, s.userID)
}
return sb.String()
}
func parseScopeAndID(s string) (scope Scope, id string, err error) {
name, params, ok := extractScopeAndParams(s)
if !ok {
return 0, "", fmt.Errorf("%q is not a valid scope string", s)
}
if err := scope.UnmarshalText([]byte(name)); err != nil {
return 0, "", err
}
return scope, params, nil
}
func extractScopeAndParams(s string) (name, params string, ok bool) {
paramsStart := strings.Index(s, "(")
if paramsStart == -1 {
return s, "", true
}
paramsEnd := strings.LastIndex(s, ")")
if paramsEnd < paramsStart {
return "", "", false
}
return s[0:paramsStart], s[paramsStart+1 : paramsEnd], true
}