478 lines
12 KiB
Go
478 lines
12 KiB
Go
package keysutil
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import (
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"context"
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"encoding/base64"
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"errors"
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"fmt"
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"io"
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"sync"
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"sync/atomic"
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"time"
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"github.com/hashicorp/errwrap"
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"github.com/hashicorp/vault/sdk/helper/jsonutil"
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"github.com/hashicorp/vault/sdk/helper/locksutil"
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"github.com/hashicorp/vault/sdk/logical"
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)
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const (
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shared = false
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exclusive = true
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currentConvergentVersion = 3
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)
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var errNeedExclusiveLock = errors.New("an exclusive lock is needed for this operation")
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// PolicyRequest holds values used when requesting a policy. Most values are
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// only used during an upsert.
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type PolicyRequest struct {
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// The storage to use
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Storage logical.Storage
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// The name of the policy
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Name string
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// The key type
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KeyType KeyType
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// Whether it should be derived
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Derived bool
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// Whether to enable convergent encryption
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Convergent bool
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// Whether to allow export
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Exportable bool
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// Whether to upsert
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Upsert bool
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// Whether to allow plaintext backup
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AllowPlaintextBackup bool
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}
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type LockManager struct {
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useCache bool
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cache Cache
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keyLocks []*locksutil.LockEntry
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}
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func NewLockManager(useCache bool, cacheSize int) (*LockManager, error) {
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// determine the type of cache to create
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var cache Cache
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switch {
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case !useCache:
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case cacheSize < 0:
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return nil, errors.New("cache size must be greater or equal to zero")
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case cacheSize == 0:
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cache = NewTransitSyncMap()
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case cacheSize > 0:
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newLRUCache, err := NewTransitLRU(cacheSize)
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if err != nil {
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return nil, errwrap.Wrapf("failed to create cache: {{err}}", err)
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}
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cache = newLRUCache
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}
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lm := &LockManager{
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useCache: useCache,
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cache: cache,
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keyLocks: locksutil.CreateLocks(),
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}
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return lm, nil
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}
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func (lm *LockManager) GetCacheSize() int {
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if !lm.useCache {
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return 0
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}
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return lm.cache.Size()
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}
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func (lm *LockManager) GetUseCache() bool {
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return lm.useCache
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}
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func (lm *LockManager) InvalidatePolicy(name string) {
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if lm.useCache {
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lm.cache.Delete(name)
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}
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}
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// RestorePolicy acquires an exclusive lock on the policy name and restores the
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// given policy along with the archive.
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func (lm *LockManager) RestorePolicy(ctx context.Context, storage logical.Storage, name, backup string, force bool) error {
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backupBytes, err := base64.StdEncoding.DecodeString(backup)
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if err != nil {
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return err
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}
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var keyData KeyData
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err = jsonutil.DecodeJSON(backupBytes, &keyData)
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if err != nil {
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return err
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}
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// Set a different name if desired
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if name != "" {
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keyData.Policy.Name = name
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}
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name = keyData.Policy.Name
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// Grab the exclusive lock as we'll be modifying disk
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lock := locksutil.LockForKey(lm.keyLocks, name)
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lock.Lock()
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defer lock.Unlock()
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var ok bool
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var pRaw interface{}
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// If the policy is in cache and 'force' is not specified, error out. Anywhere
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// that would put it in the cache will also be protected by the mutex above,
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// so we don't need to re-check the cache later.
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if lm.useCache {
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pRaw, ok = lm.cache.Load(name)
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if ok && !force {
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return fmt.Errorf("key %q already exists", name)
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}
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}
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// Conditionally look up the policy from storage, depending on the use of
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// 'force' and if the policy was found in cache.
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//
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// - If was not found in cache and we are not using 'force', look for it in
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// storage. If found, error out.
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//
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// - If it was found in cache and we are using 'force', pRaw will not be nil
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// and we do not look the policy up from storage
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//
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// - If it was found in cache and we are not using 'force', we should have
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// returned above with error
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var p *Policy
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if pRaw == nil {
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p, err = lm.getPolicyFromStorage(ctx, storage, name)
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if err != nil {
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return err
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}
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if p != nil && !force {
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return fmt.Errorf("key %q already exists", name)
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}
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}
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// If both pRaw and p above are nil and 'force' is specified, we don't need to
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// grab policy locks as we have ensured it doesn't already exist, so there
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// will be no races as nothing else has this pointer. If 'force' was not used,
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// an error would have been returned by now if the policy already existed
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if pRaw != nil {
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p = pRaw.(*Policy)
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}
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if p != nil {
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p.l.Lock()
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defer p.l.Unlock()
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}
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// Restore the archived keys
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if keyData.ArchivedKeys != nil {
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err = keyData.Policy.storeArchive(ctx, storage, keyData.ArchivedKeys)
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if err != nil {
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return errwrap.Wrapf(fmt.Sprintf("failed to restore archived keys for key %q: {{err}}", name), err)
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}
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}
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// Mark that policy as a restored key
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keyData.Policy.RestoreInfo = &RestoreInfo{
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Time: time.Now(),
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Version: keyData.Policy.LatestVersion,
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}
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// Restore the policy. This will also attempt to adjust the archive.
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err = keyData.Policy.Persist(ctx, storage)
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if err != nil {
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return errwrap.Wrapf(fmt.Sprintf("failed to restore the policy %q: {{err}}", name), err)
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}
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keyData.Policy.l = new(sync.RWMutex)
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// Update the cache to contain the restored policy
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if lm.useCache {
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lm.cache.Store(name, keyData.Policy)
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}
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return nil
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}
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func (lm *LockManager) BackupPolicy(ctx context.Context, storage logical.Storage, name string) (string, error) {
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var p *Policy
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var err error
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// Backup writes information about when the backup took place, so we get an
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// exclusive lock here
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lock := locksutil.LockForKey(lm.keyLocks, name)
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lock.Lock()
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defer lock.Unlock()
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var ok bool
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var pRaw interface{}
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if lm.useCache {
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pRaw, ok = lm.cache.Load(name)
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}
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if ok {
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p = pRaw.(*Policy)
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p.l.Lock()
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defer p.l.Unlock()
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} else {
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// If the policy doesn't exit in storage, error out
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p, err = lm.getPolicyFromStorage(ctx, storage, name)
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if err != nil {
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return "", err
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}
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if p == nil {
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return "", fmt.Errorf(fmt.Sprintf("key %q not found", name))
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}
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}
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if atomic.LoadUint32(&p.deleted) == 1 {
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return "", fmt.Errorf(fmt.Sprintf("key %q not found", name))
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}
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backup, err := p.Backup(ctx, storage)
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if err != nil {
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return "", err
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}
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return backup, nil
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}
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// When the function returns, if caching was disabled, the Policy's lock must
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// be unlocked when the caller is done (and it should not be re-locked).
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func (lm *LockManager) GetPolicy(ctx context.Context, req PolicyRequest, rand io.Reader) (retP *Policy, retUpserted bool, retErr error) {
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var p *Policy
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var err error
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var ok bool
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var pRaw interface{}
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// Check if it's in our cache. If so, return right away.
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if lm.useCache {
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pRaw, ok = lm.cache.Load(req.Name)
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}
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if ok {
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p = pRaw.(*Policy)
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if atomic.LoadUint32(&p.deleted) == 1 {
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return nil, false, nil
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}
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return p, false, nil
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}
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// We're not using the cache, or it wasn't found; get an exclusive lock.
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// This ensures that any other process writing the actual storage will be
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// finished before we load from storage.
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lock := locksutil.LockForKey(lm.keyLocks, req.Name)
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lock.Lock()
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// If we are using the cache, defer the lock unlock; otherwise we will
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// return from here with the lock still held.
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cleanup := func() {
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switch {
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// If using the cache we always unlock, the caller locks the policy
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// themselves
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case lm.useCache:
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lock.Unlock()
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// If not using the cache, if we aren't returning a policy the caller
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// doesn't have a lock, so we must unlock
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case retP == nil:
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lock.Unlock()
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}
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}
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// Check the cache again
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if lm.useCache {
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pRaw, ok = lm.cache.Load(req.Name)
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}
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if ok {
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p = pRaw.(*Policy)
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if atomic.LoadUint32(&p.deleted) == 1 {
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cleanup()
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return nil, false, nil
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}
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retP = p
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cleanup()
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return
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}
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// Load it from storage
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p, err = lm.getPolicyFromStorage(ctx, req.Storage, req.Name)
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if err != nil {
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cleanup()
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return nil, false, err
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}
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// We don't need to lock the policy as there would be no other holders of
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// the pointer
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if p == nil {
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// This is the only place we upsert a new policy, so if upsert is not
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// specified, or the lock type is wrong, unlock before returning
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if !req.Upsert {
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cleanup()
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return nil, false, nil
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}
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// We create the policy here, then at the end we do a LoadOrStore. If
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// it's been loaded since we last checked the cache, we return an error
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// to the user to let them know that their request can't be satisfied
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// because we don't know if the parameters match.
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switch req.KeyType {
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case KeyType_AES128_GCM96, KeyType_AES256_GCM96, KeyType_ChaCha20_Poly1305:
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if req.Convergent && !req.Derived {
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cleanup()
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return nil, false, fmt.Errorf("convergent encryption requires derivation to be enabled")
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}
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case KeyType_ECDSA_P256, KeyType_ECDSA_P384, KeyType_ECDSA_P521:
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if req.Derived || req.Convergent {
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cleanup()
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return nil, false, fmt.Errorf("key derivation and convergent encryption not supported for keys of type %v", req.KeyType)
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}
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case KeyType_ED25519:
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if req.Convergent {
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cleanup()
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return nil, false, fmt.Errorf("convergent encryption not supported for keys of type %v", req.KeyType)
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}
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case KeyType_RSA2048, KeyType_RSA3072, KeyType_RSA4096:
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if req.Derived || req.Convergent {
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cleanup()
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return nil, false, fmt.Errorf("key derivation and convergent encryption not supported for keys of type %v", req.KeyType)
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}
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default:
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cleanup()
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return nil, false, fmt.Errorf("unsupported key type %v", req.KeyType)
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}
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p = &Policy{
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l: new(sync.RWMutex),
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Name: req.Name,
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Type: req.KeyType,
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Derived: req.Derived,
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Exportable: req.Exportable,
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AllowPlaintextBackup: req.AllowPlaintextBackup,
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}
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if req.Derived {
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p.KDF = Kdf_hkdf_sha256
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if req.Convergent {
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p.ConvergentEncryption = true
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// As of version 3 we store the version within each key, so we
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// set to -1 to indicate that the value in the policy has no
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// meaning. We still, for backwards compatibility, fall back to
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// this value if the key doesn't have one, which means it will
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// only be -1 in the case where every key version is >= 3
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p.ConvergentVersion = -1
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}
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}
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// Performs the actual persist and does setup
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err = p.Rotate(ctx, req.Storage, rand)
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if err != nil {
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cleanup()
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return nil, false, err
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}
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if lm.useCache {
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lm.cache.Store(req.Name, p)
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} else {
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p.l = &lock.RWMutex
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p.writeLocked = true
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}
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// We don't need to worry about upgrading since it will be a new policy
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retP = p
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retUpserted = true
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cleanup()
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return
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}
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if p.NeedsUpgrade() {
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if err := p.Upgrade(ctx, req.Storage, rand); err != nil {
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cleanup()
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return nil, false, err
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}
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}
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if lm.useCache {
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lm.cache.Store(req.Name, p)
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} else {
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p.l = &lock.RWMutex
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p.writeLocked = true
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}
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retP = p
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cleanup()
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return
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}
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func (lm *LockManager) DeletePolicy(ctx context.Context, storage logical.Storage, name string) error {
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var p *Policy
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var err error
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var ok bool
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var pRaw interface{}
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// We may be writing to disk, so grab an exclusive lock. This prevents bad
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// behavior when the cache is turned off. We also lock the shared policy
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// object to make sure no requests are in flight.
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lock := locksutil.LockForKey(lm.keyLocks, name)
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lock.Lock()
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defer lock.Unlock()
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if lm.useCache {
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pRaw, ok = lm.cache.Load(name)
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}
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if ok {
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p = pRaw.(*Policy)
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p.l.Lock()
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defer p.l.Unlock()
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}
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if p == nil {
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p, err = lm.getPolicyFromStorage(ctx, storage, name)
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if err != nil {
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return err
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}
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if p == nil {
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return fmt.Errorf("could not delete key; not found")
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}
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}
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if !p.DeletionAllowed {
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return fmt.Errorf("deletion is not allowed for this key")
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}
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atomic.StoreUint32(&p.deleted, 1)
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if lm.useCache {
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lm.cache.Delete(name)
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}
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err = storage.Delete(ctx, "policy/"+name)
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if err != nil {
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return errwrap.Wrapf(fmt.Sprintf("error deleting key %q: {{err}}", name), err)
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}
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err = storage.Delete(ctx, "archive/"+name)
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if err != nil {
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return errwrap.Wrapf(fmt.Sprintf("error deleting key %q archive: {{err}}", name), err)
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}
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return nil
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}
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func (lm *LockManager) getPolicyFromStorage(ctx context.Context, storage logical.Storage, name string) (*Policy, error) {
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return LoadPolicy(ctx, storage, "policy/"+name)
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}
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