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4099a36468
Updates #12687 Signed-off-by: Nick Khyl <nickk@tailscale.com>
293 lines
8.4 KiB
Go
293 lines
8.4 KiB
Go
// Copyright (c) Tailscale Inc & AUTHORS
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// SPDX-License-Identifier: BSD-3-Clause
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package gp
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import (
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"errors"
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"fmt"
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"runtime"
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"sync"
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"sync/atomic"
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"golang.org/x/sys/windows"
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)
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// PolicyLock allows pausing the application of policy to safely read Group Policy
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// settings. A PolicyLock is an R-lock that can be held by multiple readers simultaneously,
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// preventing the Group Policy Client service (which maintains its W-counterpart) from
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// modifying policies while they are being read.
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//
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// It is not possible to pause group policy processing for longer than 10 minutes.
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// If the system needs to apply policies and the lock is being held for more than that,
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// the Group Policy Client service will release the lock and continue policy processing.
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//
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// To avoid deadlocks when acquiring both machine and user locks, acquire the
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// user lock before the machine lock.
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type PolicyLock struct {
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scope Scope
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token windows.Token
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// hooks for testing
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enterFn func(bool) (policyLockHandle, error)
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leaveFn func(policyLockHandle) error
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closing chan struct{} // closing is closed when the Close method is called.
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mu sync.Mutex
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handle policyLockHandle
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lockCnt atomic.Int32 // A non-zero LSB indicates that the lock can be acquired.
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}
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// policyLockHandle is the underlying lock handle returned by enterCriticalPolicySection.
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type policyLockHandle uintptr
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type policyLockResult struct {
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handle policyLockHandle
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err error
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}
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var (
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// ErrInvalidLockState is returned by (*PolicyLock).Lock if the lock has a zero value or has already been closed.
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ErrInvalidLockState = errors.New("the lock has not been created or has already been closed")
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)
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// NewMachinePolicyLock creates a PolicyLock that facilitates pausing the
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// application of computer policy. To avoid deadlocks when acquiring both
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// machine and user locks, acquire the user lock before the machine lock.
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func NewMachinePolicyLock() *PolicyLock {
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lock := &PolicyLock{
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scope: MachinePolicy,
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closing: make(chan struct{}),
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enterFn: enterCriticalPolicySection,
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leaveFn: leaveCriticalPolicySection,
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}
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lock.lockCnt.Store(1) // mark as initialized
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return lock
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}
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// NewUserPolicyLock creates a PolicyLock that facilitates pausing the
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// application of the user policy for the specified user. To avoid deadlocks
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// when acquiring both machine and user locks, acquire the user lock before the
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// machine lock.
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//
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// The token indicates which user's policy should be locked for reading.
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// If specified, the token must have TOKEN_DUPLICATE access,
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// the specified user must be logged in interactively.
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// and the caller retains ownership of the token.
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//
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// Otherwise, a zero token value indicates the current user. It should not
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// be used by services or other applications running under system identities.
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func NewUserPolicyLock(token windows.Token) (*PolicyLock, error) {
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lock := &PolicyLock{
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scope: UserPolicy,
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closing: make(chan struct{}),
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enterFn: enterCriticalPolicySection,
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leaveFn: leaveCriticalPolicySection,
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}
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if token != 0 {
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err := windows.DuplicateHandle(
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windows.CurrentProcess(),
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windows.Handle(token),
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windows.CurrentProcess(),
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(*windows.Handle)(&lock.token),
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windows.TOKEN_QUERY|windows.TOKEN_DUPLICATE|windows.TOKEN_IMPERSONATE,
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false,
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0)
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if err != nil {
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return nil, err
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}
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}
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lock.lockCnt.Store(1) // mark as initialized
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return lock, nil
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}
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// Lock locks l.
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// It returns ErrNotInitialized if l has a zero value or has already been closed,
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// or an Errno if the underlying Group Policy lock cannot be acquired.
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//
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// As a special case, it fails with windows.ERROR_ACCESS_DENIED
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// if l is a user policy lock, and the corresponding user is not logged in
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// interactively at the time of the call.
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func (l *PolicyLock) Lock() error {
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l.mu.Lock()
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defer l.mu.Unlock()
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if l.lockCnt.Add(2)&1 == 0 {
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// The lock cannot be acquired because it has either never been properly
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// created or its Close method has already been called. However, we need
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// to call Unlock to both decrement lockCnt and leave the underlying
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// CriticalPolicySection if we won the race with another goroutine and
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// now own the lock.
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l.Unlock()
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return ErrInvalidLockState
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}
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if l.handle != 0 {
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// The underlying CriticalPolicySection is already acquired.
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// It is an R-Lock (with the W-counterpart owned by the Group Policy service),
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// meaning that it can be acquired by multiple readers simultaneously.
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// So we can just return.
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return nil
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}
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return l.lockSlow()
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}
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// lockSlow calls enterCriticalPolicySection to acquire the underlying GP read lock.
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// It waits for either the lock to be acquired, or for the Close method to be called.
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//
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// l.mu must be held.
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func (l *PolicyLock) lockSlow() (err error) {
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defer func() {
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if err != nil {
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// Decrement the counter if the lock cannot be acquired,
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// and complete the pending close request if we're the last owner.
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if l.lockCnt.Add(-2) == 0 {
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l.closeInternal()
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}
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}
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}()
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// In some cases in production environments, the Group Policy service may
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// hold the corresponding W-Lock for extended periods of time (minutes
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// rather than seconds or milliseconds). We need to make our wait operation
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// cancellable. So, if one goroutine invokes (*PolicyLock).Close while another
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// initiates (*PolicyLock).Lock and waits for the underlying R-lock to be
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// acquired by enterCriticalPolicySection, the Close method should cancel
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// the wait.
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initCh := make(chan error)
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resultCh := make(chan policyLockResult)
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go func() {
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closing := l.closing
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if l.scope == UserPolicy && l.token != 0 {
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// Impersonate the user whose critical policy section we want to acquire.
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runtime.LockOSThread()
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defer runtime.UnlockOSThread()
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if err := impersonateLoggedOnUser(l.token); err != nil {
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initCh <- err
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return
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}
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defer func() {
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if err := windows.RevertToSelf(); err != nil {
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// RevertToSelf errors are non-recoverable.
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panic(fmt.Errorf("could not revert impersonation: %w", err))
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}
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}()
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}
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close(initCh)
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var machine bool
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if l.scope == MachinePolicy {
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machine = true
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}
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handle, err := l.enterFn(machine)
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send_result:
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for {
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select {
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case resultCh <- policyLockResult{handle, err}:
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// lockSlow has received the result.
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break send_result
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default:
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select {
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case <-closing:
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// The lock is being closed, and we lost the race to l.closing
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// it the calling goroutine.
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if err == nil {
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l.leaveFn(handle)
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}
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break send_result
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default:
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// The calling goroutine did not enter the select block yet.
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runtime.Gosched() // allow other routines to run
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continue send_result
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}
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}
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}
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}()
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// lockSlow should not return until the goroutine above has been fully initialized,
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// even if the lock is being closed.
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if err = <-initCh; err != nil {
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return err
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}
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select {
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case result := <-resultCh:
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if result.err == nil {
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l.handle = result.handle
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}
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return result.err
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case <-l.closing:
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return ErrInvalidLockState
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}
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}
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// Unlock unlocks l.
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// It panics if l is not locked on entry to Unlock.
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func (l *PolicyLock) Unlock() {
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l.mu.Lock()
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defer l.mu.Unlock()
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lockCnt := l.lockCnt.Add(-2)
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if lockCnt < 0 {
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panic("negative lockCnt")
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}
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if lockCnt > 1 {
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// The lock is still being used by other readers.
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// We compare against 1 rather than 0 because the least significant bit
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// of lockCnt indicates that l has been initialized and a close
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// has not been requested yet.
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return
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}
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if l.handle != 0 {
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// Impersonation is not required to unlock a critical policy section.
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// The handle we pass determines which mutex will be unlocked.
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leaveCriticalPolicySection(l.handle)
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l.handle = 0
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}
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if lockCnt == 0 {
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// Complete the pending close request if there's no more readers.
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l.closeInternal()
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}
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}
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// Close releases resources associated with l.
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// It is a no-op for the machine policy lock.
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func (l *PolicyLock) Close() error {
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lockCnt := l.lockCnt.Load()
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if lockCnt&1 == 0 {
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// The lock has never been initialized, or close has already been called.
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return nil
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}
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close(l.closing)
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// Unset the LSB to indicate a pending close request.
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for !l.lockCnt.CompareAndSwap(lockCnt, lockCnt&^int32(1)) {
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lockCnt = l.lockCnt.Load()
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}
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if lockCnt != 0 {
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// The lock is still being used and will be closed upon the final Unlock call.
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return nil
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}
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return l.closeInternal()
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}
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func (l *PolicyLock) closeInternal() error {
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if l.token != 0 {
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if err := l.token.Close(); err != nil {
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return err
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}
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l.token = 0
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}
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l.closing = nil
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return nil
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}
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