352 lines
8.5 KiB
Go
352 lines
8.5 KiB
Go
package vault
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import (
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"crypto/aes"
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"crypto/cipher"
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"crypto/rand"
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"encoding/json"
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"fmt"
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"strings"
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"sync"
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"time"
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"github.com/armon/go-metrics"
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"github.com/hashicorp/vault/physical"
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)
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const (
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// keyEpoch is the hard coded key epoch. Eventually, when
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// a key ring is supported for online key rotation, the epoch
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// will be incremented and represents the encryption key to use.
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keyEpoch = 1
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// epochSize is the number of bytes used for the key epoch.
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epochSize = 4
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// aesgcmVersionByte is prefixed to a message to allow for
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// future versioning of barrier implementations.
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aesgcmVersionByte = 0x1
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)
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// barrierInit is the JSON encoded value stored
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type barrierInit struct {
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Version int // Version is the current format version
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Key []byte // Key is the primary encryption key
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}
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// AESGCMBarrier is a SecurityBarrier implementation that uses the AES
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// cipher core and the Galois Counter Mode block mode. It defaults to
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// the golang NONCE default value of 12 and a key size of 256
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// bit. AES-GCM is high performance, and provides both confidentiality
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// and integrity.
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type AESGCMBarrier struct {
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backend physical.Backend
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l sync.RWMutex
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sealed bool
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// primary is the AEAD keyed from the encryption key.
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// This is the cipher that should be used to encrypt/decrypt
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// all the underlying values. It will be available if the
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// barrier is unsealed.
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primary cipher.AEAD
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}
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// NewAESGCMBarrier is used to construct a new barrier that uses
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// the provided physical backend for storage.
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func NewAESGCMBarrier(physical physical.Backend) (*AESGCMBarrier, error) {
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b := &AESGCMBarrier{
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backend: physical,
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sealed: true,
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}
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return b, nil
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}
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// Initialized checks if the barrier has been initialized
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// and has a master key set.
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func (b *AESGCMBarrier) Initialized() (bool, error) {
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// Read the init sentinel file
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out, err := b.backend.Get(barrierInitPath)
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if err != nil {
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return false, fmt.Errorf("failed to check for initialization: %v", err)
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}
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return out != nil, nil
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}
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// Initialize works only if the barrier has not been initialized
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// and makes use of the given master key.
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func (b *AESGCMBarrier) Initialize(key []byte) error {
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// Verify the key size
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min, max := b.KeyLength()
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if len(key) < min || len(key) > max {
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return fmt.Errorf("Key size must be %d or %d", min, max)
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}
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// Check if already initialized
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if alreadyInit, err := b.Initialized(); err != nil {
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return err
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} else if alreadyInit {
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return ErrBarrierAlreadyInit
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}
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// Create the AES-GCM
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gcm, err := b.aeadFromKey(key)
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if err != nil {
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return err
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}
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// Generate encryption key
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encrypt, err := b.GenerateKey()
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if err != nil {
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return fmt.Errorf("failed to generate encryption key: %v", err)
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}
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defer memzero(encrypt)
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// Create the barrier init entry
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init := barrierInit{
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Version: 1,
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Key: encrypt,
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}
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buf, err := json.Marshal(init)
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if err != nil {
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return fmt.Errorf("failed to create barrier entry: %v", err)
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}
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defer memzero(buf)
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// Encrypt the barrier init value
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value := b.encrypt(gcm, buf)
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// Create the barrierInitPath
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pe := &physical.Entry{
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Key: barrierInitPath,
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Value: value,
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}
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if err := b.backend.Put(pe); err != nil {
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return fmt.Errorf("failed to create initialization key: %v", err)
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}
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return nil
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}
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// GenerateKey is used to generate a new key
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func (b *AESGCMBarrier) GenerateKey() ([]byte, error) {
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// Generate a 256bit key
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buf := make([]byte, 2*aes.BlockSize)
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_, err := rand.Read(buf)
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return buf, err
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}
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// KeyLength is used to sanity check a key
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func (b *AESGCMBarrier) KeyLength() (int, int) {
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return aes.BlockSize, 2 * aes.BlockSize
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}
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// Sealed checks if the barrier has been unlocked yet. The Barrier
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// is not expected to be able to perform any CRUD until it is unsealed.
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func (b *AESGCMBarrier) Sealed() (bool, error) {
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b.l.RLock()
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defer b.l.RUnlock()
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return b.sealed, nil
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}
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// Unseal is used to provide the master key which permits the barrier
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// to be unsealed. If the key is not correct, the barrier remains sealed.
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func (b *AESGCMBarrier) Unseal(key []byte) error {
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b.l.Lock()
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defer b.l.Unlock()
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// Do nothing if already unsealed
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if !b.sealed {
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return nil
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}
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// Read the barrier initialization key
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out, err := b.backend.Get(barrierInitPath)
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if err != nil {
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return fmt.Errorf("failed to check for initialization: %v", err)
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}
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if out == nil {
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return ErrBarrierNotInit
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}
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// Create the AES-GCM
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gcm, err := b.aeadFromKey(key)
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if err != nil {
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return err
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}
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// Decrypt the barrier init key
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plain, err := b.decrypt(gcm, out.Value)
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if err != nil {
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if strings.Contains(err.Error(), "message authentication failed") {
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return ErrBarrierInvalidKey
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}
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return err
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}
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defer memzero(plain)
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// Unmarshal the barrier init
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var init barrierInit
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if err := json.Unmarshal(plain, &init); err != nil {
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return fmt.Errorf("failed to unmarshal barrier init file")
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}
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defer memzero(init.Key)
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// Initialize the master encryption key
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b.primary, err = b.aeadFromKey(init.Key)
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if err != nil {
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return err
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}
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// Set the vault as unsealed
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b.sealed = false
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return nil
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}
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// Seal is used to re-seal the barrier. This requires the barrier to
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// be unsealed again to perform any further operations.
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func (b *AESGCMBarrier) Seal() error {
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b.l.Lock()
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defer b.l.Unlock()
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// Remove the primary key, and seal the vault
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b.primary = nil
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b.sealed = true
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return nil
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}
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// Put is used to insert or update an entry
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func (b *AESGCMBarrier) Put(entry *Entry) error {
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defer metrics.MeasureSince([]string{"barrier", "put"}, time.Now())
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b.l.RLock()
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defer b.l.RUnlock()
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primary := b.primary
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if primary == nil {
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return ErrBarrierSealed
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}
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pe := &physical.Entry{
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Key: entry.Key,
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Value: b.encrypt(primary, entry.Value),
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}
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return b.backend.Put(pe)
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}
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// Get is used to fetch an entry
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func (b *AESGCMBarrier) Get(key string) (*Entry, error) {
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defer metrics.MeasureSince([]string{"barrier", "get"}, time.Now())
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b.l.RLock()
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defer b.l.RUnlock()
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primary := b.primary
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if primary == nil {
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return nil, ErrBarrierSealed
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}
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// Read the key from the backend
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pe, err := b.backend.Get(key)
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if err != nil {
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return nil, err
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} else if pe == nil {
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return nil, nil
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}
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// Decrypt the ciphertext
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plain, err := b.decrypt(primary, pe.Value)
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if err != nil {
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return nil, fmt.Errorf("decryption failed: %v", err)
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}
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// Wrap in a logical entry
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entry := &Entry{
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Key: key,
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Value: plain,
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}
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return entry, nil
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}
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// Delete is used to permanently delete an entry
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func (b *AESGCMBarrier) Delete(key string) error {
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defer metrics.MeasureSince([]string{"barrier", "delete"}, time.Now())
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b.l.RLock()
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defer b.l.RUnlock()
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if b.sealed {
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return ErrBarrierSealed
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}
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return b.backend.Delete(key)
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}
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// List is used ot list all the keys under a given
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// prefix, up to the next prefix.
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func (b *AESGCMBarrier) List(prefix string) ([]string, error) {
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defer metrics.MeasureSince([]string{"barrier", "list"}, time.Now())
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b.l.RLock()
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defer b.l.RUnlock()
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if b.sealed {
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return nil, ErrBarrierSealed
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}
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return b.backend.List(prefix)
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}
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// aeadFromKey returns an AES-GCM AEAD using the given key.
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func (b *AESGCMBarrier) aeadFromKey(key []byte) (cipher.AEAD, error) {
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// Create the AES cipher
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aesCipher, err := aes.NewCipher(key)
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if err != nil {
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return nil, fmt.Errorf("failed to create cipher: %v", err)
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}
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// Create the GCM mode AEAD
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gcm, err := cipher.NewGCM(aesCipher)
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if err != nil {
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return nil, fmt.Errorf("failed to initialize GCM mode")
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}
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return gcm, nil
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}
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// encrypt is used to encrypt a value
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func (b *AESGCMBarrier) encrypt(gcm cipher.AEAD, plain []byte) []byte {
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// Allocate the output buffer with room for epoch, version byte,
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// nonce, GCM tag and the plaintext
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capacity := epochSize + 1 + gcm.NonceSize() + gcm.Overhead() + len(plain)
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size := epochSize + 1 + gcm.NonceSize()
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out := make([]byte, size, capacity)
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// Set the epoch to 1
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out[3] = keyEpoch
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// Set the version byte
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out[4] = aesgcmVersionByte
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// Generate a random nonce
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nonce := out[5 : 5+gcm.NonceSize()]
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rand.Read(nonce)
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// Seal the output
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out = gcm.Seal(out, nonce, plain, nil)
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return out
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}
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// decrypt is used to decrypt a value
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func (b *AESGCMBarrier) decrypt(gcm cipher.AEAD, cipher []byte) ([]byte, error) {
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// Verify the epoch
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if cipher[0] != 0 || cipher[1] != 0 || cipher[2] != 0 || cipher[3] != keyEpoch {
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return nil, fmt.Errorf("epoch mis-match")
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}
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// Verify the version byte
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if cipher[4] != aesgcmVersionByte {
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return nil, fmt.Errorf("version bytes mis-match")
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}
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// Capture the parts
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nonce := cipher[5 : 5+gcm.NonceSize()]
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raw := cipher[5+gcm.NonceSize():]
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out := make([]byte, 0, len(raw)-gcm.NonceSize())
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// Attempt to open
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return gcm.Open(out, nonce, raw, nil)
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}
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