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451 lines
14 KiB
Go
451 lines
14 KiB
Go
4 months ago
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// Copyright (c) Tailscale Inc & AUTHORS
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// SPDX-License-Identifier: BSD-3-Clause
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package source
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import (
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"errors"
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"fmt"
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"strings"
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"sync"
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"golang.org/x/sys/windows"
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"golang.org/x/sys/windows/registry"
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"tailscale.com/util/set"
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"tailscale.com/util/syspolicy/setting"
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"tailscale.com/util/winutil/gp"
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)
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const (
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softwareKeyName = `Software`
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tsPoliciesSubkey = `Policies\Tailscale`
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tsIPNSubkey = `Tailscale IPN` // the legacy key we need to fallback to
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)
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var (
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_ Store = (*PlatformPolicyStore)(nil)
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_ Lockable = (*PlatformPolicyStore)(nil)
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_ Changeable = (*PlatformPolicyStore)(nil)
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_ Expirable = (*PlatformPolicyStore)(nil)
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)
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// PlatformPolicyStore implements [Store] by providing read access to
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// Registry-based Tailscale policies, such as those configured via Group Policy or MDM.
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// For better performance and consistency, it is recommended to lock it when
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// reading multiple policy settings sequentially.
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// It also allows subscribing to policy change notifications.
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type PlatformPolicyStore struct {
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scope gp.Scope // [gp.MachinePolicy] or [gp.UserPolicy]
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// The softwareKey can be HKLM\Software, HKCU\Software, or
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// HKU\{SID}\Software. Anything below the Software subkey, including
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// Software\Policies, may not yet exist or could be deleted throughout the
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// [PlatformPolicyStore]'s lifespan, invalidating the handle. We also prefer
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// to always use a real registry key (rather than a predefined HKLM or HKCU)
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// to simplify bookkeeping (predefined keys should never be closed).
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// Finally, this will allow us to watch for any registry changes directly
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// should we need this in the future in addition to gp.ChangeWatcher.
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softwareKey registry.Key
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watcher *gp.ChangeWatcher
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done chan struct{} // done is closed when Close call completes
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// The policyLock can be locked by the caller when reading multiple policy settings
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// to prevent the Group Policy Client service from modifying policies while
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// they are being read.
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//
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// When both policyLock and mu need to be taken, mu must be taken before policyLock.
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policyLock *gp.PolicyLock
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mu sync.Mutex
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tsKeys []registry.Key // or nil if the [PlatformPolicyStore] hasn't been locked.
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cbs set.HandleSet[func()] // policy change callbacks
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lockCnt int
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locked sync.WaitGroup
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closing bool
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closed bool
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}
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type registryValueGetter[T any] func(key registry.Key, name string) (T, error)
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// NewMachinePlatformPolicyStore returns a new [PlatformPolicyStore] for the machine.
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func NewMachinePlatformPolicyStore() (*PlatformPolicyStore, error) {
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softwareKey, err := registry.OpenKey(registry.LOCAL_MACHINE, softwareKeyName, windows.KEY_READ)
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if err != nil {
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return nil, fmt.Errorf("failed to open the %s key: %w", softwareKeyName, err)
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}
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return newPlatformPolicyStore(gp.MachinePolicy, softwareKey, gp.NewMachinePolicyLock()), nil
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}
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// NewUserPlatformPolicyStore returns a new [PlatformPolicyStore] for the user specified by its token.
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// User's profile must be loaded, and the token handle must have [windows.TOKEN_QUERY]
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// and [windows.TOKEN_DUPLICATE] access. The caller retains ownership of the token.
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func NewUserPlatformPolicyStore(token windows.Token) (*PlatformPolicyStore, error) {
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var err error
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var softwareKey registry.Key
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if token != 0 {
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var user *windows.Tokenuser
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if user, err = token.GetTokenUser(); err != nil {
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return nil, fmt.Errorf("failed to get token user: %w", err)
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}
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userSid := user.User.Sid
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softwareKey, err = registry.OpenKey(registry.USERS, userSid.String()+`\`+softwareKeyName, windows.KEY_READ)
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} else {
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softwareKey, err = registry.OpenKey(registry.CURRENT_USER, softwareKeyName, windows.KEY_READ)
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}
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if err != nil {
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return nil, fmt.Errorf("failed to open the %s key: %w", softwareKeyName, err)
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}
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policyLock, err := gp.NewUserPolicyLock(token)
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if err != nil {
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return nil, fmt.Errorf("failed to create a user policy lock: %w", err)
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}
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return newPlatformPolicyStore(gp.UserPolicy, softwareKey, policyLock), nil
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}
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func newPlatformPolicyStore(scope gp.Scope, softwareKey registry.Key, policyLock *gp.PolicyLock) *PlatformPolicyStore {
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return &PlatformPolicyStore{
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scope: scope,
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softwareKey: softwareKey,
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done: make(chan struct{}),
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policyLock: policyLock,
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}
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}
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// Lock locks the policy store, preventing the system from modifying the policies
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// while they are being read. It is a read lock that may be acquired by multiple goroutines.
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// Each Lock call must be balanced by exactly one Unlock call.
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func (ps *PlatformPolicyStore) Lock() (err error) {
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ps.mu.Lock()
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defer ps.mu.Unlock()
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if ps.closing {
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return ErrStoreClosed
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}
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ps.lockCnt += 1
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if ps.lockCnt != 1 {
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return nil
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}
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defer func() {
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if err != nil {
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ps.lockCnt -= 1
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}
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}()
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// Ensure ps remains open while the lock is held.
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ps.locked.Add(1)
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defer func() {
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if err != nil {
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ps.locked.Done()
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}
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}()
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// Acquire the GP lock to prevent the system from modifying policy settings
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// while they are being read.
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if err := ps.policyLock.Lock(); err != nil {
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if errors.Is(err, gp.ErrInvalidLockState) {
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// The policy store is being closed and we've lost the race.
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return ErrStoreClosed
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}
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return err
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}
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defer func() {
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if err != nil {
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ps.policyLock.Unlock()
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}
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}()
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// Keep the Tailscale's registry keys open for the duration of the lock.
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keyNames := tailscaleKeyNamesFor(ps.scope)
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ps.tsKeys = make([]registry.Key, 0, len(keyNames))
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for _, keyName := range keyNames {
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var tsKey registry.Key
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tsKey, err = registry.OpenKey(ps.softwareKey, keyName, windows.KEY_READ)
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if err != nil {
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if err == registry.ErrNotExist {
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continue
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}
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return err
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}
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ps.tsKeys = append(ps.tsKeys, tsKey)
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}
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return nil
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}
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// Unlock decrements the lock counter and unlocks the policy store once the counter reaches 0.
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// It panics if ps is not locked on entry to Unlock.
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func (ps *PlatformPolicyStore) Unlock() {
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ps.mu.Lock()
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defer ps.mu.Unlock()
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ps.lockCnt -= 1
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if ps.lockCnt < 0 {
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panic("negative lockCnt")
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} else if ps.lockCnt != 0 {
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return
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}
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for _, key := range ps.tsKeys {
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key.Close()
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}
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ps.tsKeys = nil
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ps.policyLock.Unlock()
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ps.locked.Done()
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}
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// RegisterChangeCallback adds a function that will be called whenever there's a policy change.
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// It returns a function that can be used to unregister the specified callback or an error.
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// The error is [ErrStoreClosed] if ps has already been closed.
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func (ps *PlatformPolicyStore) RegisterChangeCallback(cb func()) (unregister func(), err error) {
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ps.mu.Lock()
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defer ps.mu.Unlock()
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if ps.closing {
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return nil, ErrStoreClosed
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}
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handle := ps.cbs.Add(cb)
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if len(ps.cbs) == 1 {
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if ps.watcher, err = gp.NewChangeWatcher(ps.scope, ps.onChange); err != nil {
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return nil, err
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}
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}
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return func() {
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ps.mu.Lock()
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defer ps.mu.Unlock()
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delete(ps.cbs, handle)
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if len(ps.cbs) == 0 {
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if ps.watcher != nil {
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ps.watcher.Close()
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ps.watcher = nil
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}
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}
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}, nil
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}
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func (ps *PlatformPolicyStore) onChange() {
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ps.mu.Lock()
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defer ps.mu.Unlock()
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if ps.closing {
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return
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}
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for _, callback := range ps.cbs {
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go callback()
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}
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}
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// ReadString retrieves a string policy with the specified key.
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// It returns [setting.ErrNotConfigured] if the policy setting does not exist.
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func (ps *PlatformPolicyStore) ReadString(key setting.Key) (val string, err error) {
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return getPolicyValue(ps, key,
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func(key registry.Key, valueName string) (string, error) {
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val, _, err := key.GetStringValue(valueName)
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return val, err
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})
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}
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// ReadUInt64 retrieves an integer policy with the specified key.
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// It returns [setting.ErrNotConfigured] if the policy setting does not exist.
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func (ps *PlatformPolicyStore) ReadUInt64(key setting.Key) (uint64, error) {
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return getPolicyValue(ps, key,
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func(key registry.Key, valueName string) (uint64, error) {
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val, _, err := key.GetIntegerValue(valueName)
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return val, err
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})
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}
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// ReadBoolean retrieves a boolean policy with the specified key.
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// It returns [setting.ErrNotConfigured] if the policy setting does not exist.
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func (ps *PlatformPolicyStore) ReadBoolean(key setting.Key) (bool, error) {
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return getPolicyValue(ps, key,
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func(key registry.Key, valueName string) (bool, error) {
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val, _, err := key.GetIntegerValue(valueName)
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if err != nil {
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return false, err
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}
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return val != 0, nil
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})
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}
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// ReadString retrieves a multi-string policy with the specified key.
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// It returns [setting.ErrNotConfigured] if the policy setting does not exist.
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func (ps *PlatformPolicyStore) ReadStringArray(key setting.Key) ([]string, error) {
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return getPolicyValue(ps, key,
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func(key registry.Key, valueName string) ([]string, error) {
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val, _, err := key.GetStringsValue(valueName)
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if err != registry.ErrNotExist {
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return val, err // the err may be nil or non-nil
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}
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// The idiomatic way to store multiple string values in Group Policy
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// and MDM for Windows is to have multiple REG_SZ (or REG_EXPAND_SZ)
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// values under a subkey rather than in a single REG_MULTI_SZ value.
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//
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// See the Group Policy: Registry Extension Encoding specification,
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// and specifically the ListElement and ListBox types.
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// https://web.archive.org/web/20240721033657/https://winprotocoldoc.blob.core.windows.net/productionwindowsarchives/MS-GPREG/%5BMS-GPREG%5D.pdf
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valKey, err := registry.OpenKey(key, valueName, windows.KEY_READ)
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if err != nil {
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return nil, err
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}
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valNames, err := valKey.ReadValueNames(0)
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if err != nil {
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return nil, err
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}
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val = make([]string, 0, len(valNames))
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for _, name := range valNames {
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switch item, _, err := valKey.GetStringValue(name); {
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case err == registry.ErrNotExist:
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continue
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case err != nil:
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return nil, err
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default:
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val = append(val, item)
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}
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}
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return val, nil
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})
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}
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// splitSettingKey extracts the registry key name and value name from a [setting.Key].
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// The [setting.Key] format allows grouping settings into nested categories using one
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// or more [setting.KeyPathSeparator]s in the path. How individual policy settings are
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// stored is an implementation detail of each [Store]. In the [PlatformPolicyStore]
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// for Windows, we map nested policy categories onto the Registry key hierarchy.
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// The last component after a [setting.KeyPathSeparator] is treated as the value name,
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// while everything preceding it is considered a subpath (relative to the {HKLM,HKCU}\Software\Policies\Tailscale key).
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// If there are no [setting.KeyPathSeparator]s in the key, the policy setting value
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// is meant to be stored directly under {HKLM,HKCU}\Software\Policies\Tailscale.
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func splitSettingKey(key setting.Key) (path, valueName string) {
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if idx := strings.LastIndex(string(key), setting.KeyPathSeparator); idx != -1 {
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path = strings.ReplaceAll(string(key[:idx]), setting.KeyPathSeparator, `\`)
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valueName = string(key[idx+len(setting.KeyPathSeparator):])
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return path, valueName
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}
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return "", string(key)
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}
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func getPolicyValue[T any](ps *PlatformPolicyStore, key setting.Key, getter registryValueGetter[T]) (T, error) {
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var zero T
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ps.mu.Lock()
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defer ps.mu.Unlock()
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if ps.closed {
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return zero, ErrStoreClosed
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}
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path, valueName := splitSettingKey(key)
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getValue := func(key registry.Key) (T, error) {
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var err error
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if path != "" {
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key, err = registry.OpenKey(key, path, windows.KEY_READ)
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if err != nil {
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return zero, err
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}
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defer key.Close()
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}
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return getter(key, valueName)
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}
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if ps.tsKeys != nil {
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// A non-nil tsKeys indicates that ps has been locked.
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// The slice may be empty if Tailscale policy keys do not exist.
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for _, tsKey := range ps.tsKeys {
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val, err := getValue(tsKey)
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if err == nil || err != registry.ErrNotExist {
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return val, err
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}
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}
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return zero, setting.ErrNotConfigured
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}
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// The ps has not been locked, so we don't have any pre-opened keys.
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for _, tsKeyName := range tailscaleKeyNamesFor(ps.scope) {
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var tsKey registry.Key
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tsKey, err := registry.OpenKey(ps.softwareKey, tsKeyName, windows.KEY_READ)
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if err != nil {
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if err == registry.ErrNotExist {
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continue
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}
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return zero, err
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}
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val, err := getValue(tsKey)
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tsKey.Close()
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if err == nil || err != registry.ErrNotExist {
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return val, err
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}
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}
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return zero, setting.ErrNotConfigured
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}
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// Close closes the policy store and releases any associated resources.
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// It cancels pending locks and prevents any new lock attempts,
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// but waits for existing locks to be released.
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func (ps *PlatformPolicyStore) Close() error {
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// Request to close the Group Policy read lock.
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// Existing held locks will remain valid, but any new or pending locks
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// will fail. In certain scenarios, the corresponding write lock may be held
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// by the Group Policy service for extended periods (minutes rather than
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// seconds or milliseconds). In such cases, we prefer not to wait that long
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// if the ps is being closed anyway.
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if ps.policyLock != nil {
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ps.policyLock.Close()
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}
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// Mark ps as closing to fast-fail any new lock attempts.
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// Callers that have already locked it can finish their reading.
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ps.mu.Lock()
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if ps.closing {
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ps.mu.Unlock()
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return nil
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}
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ps.closing = true
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if ps.watcher != nil {
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ps.watcher.Close()
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ps.watcher = nil
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}
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ps.mu.Unlock()
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// Signal to the external code that ps should no longer be used.
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close(ps.done)
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// Wait for any outstanding locks to be released.
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ps.locked.Wait()
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// Deny any further read attempts and release remaining resources.
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ps.mu.Lock()
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defer ps.mu.Unlock()
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ps.cbs = nil
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ps.policyLock = nil
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ps.closed = true
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if ps.softwareKey != 0 {
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ps.softwareKey.Close()
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|
ps.softwareKey = 0
|
||
|
}
|
||
|
return nil
|
||
|
}
|
||
|
|
||
|
// Done returns a channel that is closed when the Close method is called.
|
||
|
func (ps *PlatformPolicyStore) Done() <-chan struct{} {
|
||
|
return ps.done
|
||
|
}
|
||
|
|
||
|
func tailscaleKeyNamesFor(scope gp.Scope) []string {
|
||
|
switch scope {
|
||
|
case gp.MachinePolicy:
|
||
|
// If a computer-side policy value does not exist under Software\Policies\Tailscale,
|
||
|
// we need to fallback and use the legacy Software\Tailscale IPN key.
|
||
|
return []string{tsPoliciesSubkey, tsIPNSubkey}
|
||
|
case gp.UserPolicy:
|
||
|
// However, we've never used the legacy key with user-side policies,
|
||
|
// and we should never do so. Unlike HKLM\Software\Tailscale IPN,
|
||
|
// its HKCU counterpart is user-writable.
|
||
|
return []string{tsPoliciesSubkey}
|
||
|
default:
|
||
|
panic("unreachable")
|
||
|
}
|
||
|
}
|