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Package setting contains types for defining and representing policy settings. It facilitates the registration of setting definitions using Register and RegisterDefinition, and the retrieval of registered setting definitions via Definitions and DefinitionOf. This package is intended for use primarily within the syspolicy package hierarchy, and added in a preparation for the next PRs. Updates #12687 Signed-off-by: Nick Khyl <nickk@tailscale.com>
349 lines
10 KiB
Go
349 lines
10 KiB
Go
// Copyright (c) Tailscale Inc & AUTHORS
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// SPDX-License-Identifier: BSD-3-Clause
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// Package setting contains types for defining and representing policy settings.
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// It facilitates the registration of setting definitions using [Register] and [RegisterDefinition],
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// and the retrieval of registered setting definitions via [Definitions] and [DefinitionOf].
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// This package is intended for use primarily within the syspolicy package hierarchy.
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package setting
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import (
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"fmt"
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"slices"
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"strings"
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"sync"
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"time"
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"tailscale.com/types/lazy"
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"tailscale.com/util/syspolicy/internal"
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)
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// Scope indicates the broadest scope at which a policy setting may apply,
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// and the narrowest scope at which it may be configured.
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type Scope int8
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const (
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// DeviceSetting indicates a policy setting that applies to a device, regardless of
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// which OS user or Tailscale profile is currently active, if any.
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// It can only be configured at a [DeviceScope].
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DeviceSetting Scope = iota
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// ProfileSetting indicates a policy setting that applies to a Tailscale profile.
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// It can only be configured for a specific profile or at a [DeviceScope],
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// in which case it applies to all profiles on the device.
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ProfileSetting
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// UserSetting indicates a policy setting that applies to users.
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// It can be configured for a user, profile, or the entire device.
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UserSetting
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// NumScopes is the number of possible [Scope] values.
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NumScopes int = iota // must be the last value in the const block.
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)
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// String implements [fmt.Stringer].
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func (s Scope) String() string {
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switch s {
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case DeviceSetting:
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return "Device"
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case ProfileSetting:
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return "Profile"
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case UserSetting:
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return "User"
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default:
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panic("unreachable")
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}
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}
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// MarshalText implements [encoding.TextMarshaler].
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func (s Scope) MarshalText() (text []byte, err error) {
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return []byte(s.String()), nil
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}
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// UnmarshalText implements [encoding.TextUnmarshaler].
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func (s *Scope) UnmarshalText(text []byte) error {
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switch strings.ToLower(string(text)) {
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case "device":
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*s = DeviceSetting
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case "profile":
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*s = ProfileSetting
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case "user":
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*s = UserSetting
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default:
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return fmt.Errorf("%q is not a valid scope", string(text))
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}
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return nil
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}
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// Type is a policy setting value type.
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// Except for [InvalidValue], which represents an invalid policy setting type,
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// and [PreferenceOptionValue], [VisibilityValue], and [DurationValue],
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// which have special handling due to their legacy status in the package,
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// SettingTypes represent the raw value types readable from policy stores.
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type Type int
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const (
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// InvalidValue indicates an invalid policy setting value type.
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InvalidValue Type = iota
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// BooleanValue indicates a policy setting whose underlying type is a bool.
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BooleanValue
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// IntegerValue indicates a policy setting whose underlying type is a uint64.
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IntegerValue
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// StringValue indicates a policy setting whose underlying type is a string.
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StringValue
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// StringListValue indicates a policy setting whose underlying type is a []string.
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StringListValue
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// PreferenceOptionValue indicates a three-state policy setting whose
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// underlying type is a string, but the actual value is a [PreferenceOption].
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PreferenceOptionValue
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// VisibilityValue indicates a two-state boolean-like policy setting whose
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// underlying type is a string, but the actual value is a [Visibility].
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VisibilityValue
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// DurationValue indicates an interval/period/duration policy setting whose
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// underlying type is a string, but the actual value is a [time.Duration].
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DurationValue
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)
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// String returns a string representation of t.
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func (t Type) String() string {
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switch t {
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case InvalidValue:
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return "Invalid"
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case BooleanValue:
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return "Boolean"
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case IntegerValue:
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return "Integer"
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case StringValue:
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return "String"
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case StringListValue:
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return "StringList"
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case PreferenceOptionValue:
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return "PreferenceOption"
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case VisibilityValue:
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return "Visibility"
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case DurationValue:
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return "Duration"
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default:
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panic("unreachable")
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}
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}
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// ValueType is a constraint that allows Go types corresponding to [Type].
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type ValueType interface {
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bool | uint64 | string | []string | Visibility | PreferenceOption | time.Duration
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}
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// Definition defines policy key, scope and value type.
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type Definition struct {
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key Key
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scope Scope
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typ Type
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platforms PlatformList
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}
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// NewDefinition returns a new [Definition] with the specified
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// key, scope, type and supported platforms (see [PlatformList]).
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func NewDefinition(k Key, s Scope, t Type, platforms ...string) *Definition {
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return &Definition{key: k, scope: s, typ: t, platforms: platforms}
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}
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// Key returns a policy setting's identifier.
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func (d *Definition) Key() Key {
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if d == nil {
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return ""
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}
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return d.key
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}
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// Scope reports the broadest [Scope] the policy setting may apply to.
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func (d *Definition) Scope() Scope {
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if d == nil {
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return 0
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}
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return d.scope
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}
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// Type reports the underlying value type of the policy setting.
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func (d *Definition) Type() Type {
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if d == nil {
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return InvalidValue
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}
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return d.typ
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}
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// IsSupported reports whether the policy setting is supported on the current OS.
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func (d *Definition) IsSupported() bool {
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if d == nil {
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return false
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}
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return d.platforms.HasCurrent()
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}
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// SupportedPlatforms reports platforms on which the policy setting is supported.
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// An empty [PlatformList] indicates that s is available on all platforms.
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func (d *Definition) SupportedPlatforms() PlatformList {
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if d == nil {
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return nil
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}
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return d.platforms
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}
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// String implements [fmt.Stringer].
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func (d *Definition) String() string {
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if d == nil {
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return "(nil)"
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}
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return fmt.Sprintf("%v(%q, %v)", d.scope, d.key, d.typ)
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}
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// Equal reports whether d and d2 have the same key, type and scope.
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// It does not check whether both s and s2 are supported on the same platforms.
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func (d *Definition) Equal(d2 *Definition) bool {
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if d == d2 {
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return true
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}
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if d == nil || d2 == nil {
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return false
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}
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return d.key == d2.key && d.typ == d2.typ && d.scope == d2.scope
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}
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// DefinitionMap is a map of setting [Definition] by [Key].
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type DefinitionMap map[Key]*Definition
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var (
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definitions lazy.SyncValue[DefinitionMap]
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definitionsMu sync.Mutex
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definitionsList []*Definition
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definitionsUsed bool
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)
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// Register registers a policy setting with the specified key, scope, value type,
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// and an optional list of supported platforms. All policy settings must be
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// registered before any of them can be used. Register panics if called after
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// invoking any functions that use the registered policy definitions. This
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// includes calling [Definitions] or [DefinitionOf] directly, or reading any
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// policy settings via syspolicy.
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func Register(k Key, s Scope, t Type, platforms ...string) {
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RegisterDefinition(NewDefinition(k, s, t, platforms...))
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}
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// RegisterDefinition is like [Register], but accepts a [Definition].
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func RegisterDefinition(d *Definition) {
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definitionsMu.Lock()
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defer definitionsMu.Unlock()
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registerLocked(d)
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}
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func registerLocked(d *Definition) {
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if definitionsUsed {
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panic("policy definitions are already in use")
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}
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definitionsList = append(definitionsList, d)
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}
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func settingDefinitions() (DefinitionMap, error) {
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return definitions.GetErr(func() (DefinitionMap, error) {
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definitionsMu.Lock()
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defer definitionsMu.Unlock()
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definitionsUsed = true
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return DefinitionMapOf(definitionsList)
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})
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}
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// DefinitionMapOf returns a [DefinitionMap] with the specified settings,
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// or an error if any settings have the same key but different type or scope.
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func DefinitionMapOf(settings []*Definition) (DefinitionMap, error) {
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m := make(DefinitionMap, len(settings))
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for _, s := range settings {
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if existing, exists := m[s.key]; exists {
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if existing.Equal(s) {
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// Ignore duplicate setting definitions if they match. It is acceptable
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// if the same policy setting was registered more than once
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// (e.g. by the syspolicy package itself and by iOS/Android code).
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existing.platforms.mergeFrom(s.platforms)
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continue
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}
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return nil, fmt.Errorf("duplicate policy definition: %q", s.key)
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}
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m[s.key] = s
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}
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return m, nil
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}
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// SetDefinitionsForTest allows to register the specified setting definitions
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// for the test duration. It is not concurrency-safe, but unlike [Register],
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// it does not panic and can be called anytime.
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// It returns an error if ds contains two different settings with the same [Key].
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func SetDefinitionsForTest(tb lazy.TB, ds ...*Definition) error {
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m, err := DefinitionMapOf(ds)
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if err != nil {
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return err
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}
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definitions.SetForTest(tb, m, err)
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return nil
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}
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// DefinitionOf returns a setting definition by key,
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// or [ErrNoSuchKey] if the specified key does not exist,
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// or an error if there are conflicting policy definitions.
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func DefinitionOf(k Key) (*Definition, error) {
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ds, err := settingDefinitions()
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if err != nil {
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return nil, err
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}
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if d, ok := ds[k]; ok {
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return d, nil
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}
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return nil, ErrNoSuchKey
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}
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// Definitions returns all registered setting definitions,
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// or an error if different policies were registered under the same name.
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func Definitions() ([]*Definition, error) {
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ds, err := settingDefinitions()
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if err != nil {
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return nil, err
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}
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res := make([]*Definition, 0, len(ds))
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for _, d := range ds {
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res = append(res, d)
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}
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return res, nil
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}
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// PlatformList is a list of OSes.
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// An empty list indicates that all possible platforms are supported.
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type PlatformList []string
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// Has reports whether l contains the target platform.
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func (l PlatformList) Has(target string) bool {
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if len(l) == 0 {
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return true
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}
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return slices.ContainsFunc(l, func(os string) bool {
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return strings.EqualFold(os, target)
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})
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}
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// HasCurrent is like Has, but for the current platform.
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func (l PlatformList) HasCurrent() bool {
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return l.Has(internal.OS())
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}
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// mergeFrom merges l2 into l. Since an empty list indicates no platform restrictions,
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// if either l or l2 is empty, the merged result in l will also be empty.
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func (l *PlatformList) mergeFrom(l2 PlatformList) {
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switch {
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case len(*l) == 0:
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// No-op. An empty list indicates no platform restrictions.
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case len(l2) == 0:
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// Merging with an empty list results in an empty list.
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*l = l2
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default:
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// Append, sort and dedup.
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*l = append(*l, l2...)
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slices.Sort(*l)
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*l = slices.Compact(*l)
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}
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}
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